bt-67xx_universal_hw/build/bt6702/stm32bt6702/stm32bt6702.lss

../build/bt6702/stm32bt6702/stm32bt6702.elf:     file format elf32-littlearm

Sections:
Idx Name          Size      VMA       LMA       File off  Algn
  0 .isr_vector   00000188  08020000  08020000  00008000  2**0
                  CONTENTS, ALLOC, LOAD, READONLY, DATA
  1 .text         000249c4  08020188  08020188  00008188  2**3
                  CONTENTS, ALLOC, LOAD, READONLY, CODE
  2 .ARM          00000008  08044b4c  08044b4c  0002cb4c  2**2
                  CONTENTS, ALLOC, LOAD, READONLY, DATA
  3 .init_array   00000004  08044b54  08044b54  0002cb54  2**2
                  CONTENTS, ALLOC, LOAD, DATA
  4 .fini_array   00000004  08044b58  08044b58  0002cb58  2**2
                  CONTENTS, ALLOC, LOAD, DATA
  5 .data         00000ab4  20000000  08044b5c  00030000  2**2
                  CONTENTS, ALLOC, LOAD, DATA
  6 .fill         0007a9ec  08045610  08045610  00035610  2**0
                  CONTENTS, ALLOC, LOAD, DATA
  7 .crc          00000004  080bfffc  080bfffc  000afffc  2**2
                  CONTENTS, ALLOC, LOAD, DATA
  8 .bss          00012e88  20000ab4  08045610  000b0ab4  2**2
                  ALLOC
  9 ._user_heap_stack 00000200  2001393c  08058498  000b0ab4  2**0
                  ALLOC
 10 .memory_b1_text 0000f000  10000000  10000000  000b0000  2**0
                  ALLOC
 11 .ARM.attributes 0000002f  00000000  00000000  000b0000  2**0
                  CONTENTS, READONLY
 12 .debug_info   0004f4b1  00000000  00000000  000b002f  2**0
                  CONTENTS, READONLY, DEBUGGING
 13 .debug_abbrev 0000c86d  00000000  00000000  000ff4e0  2**0
                  CONTENTS, READONLY, DEBUGGING
 14 .debug_loc    00025b9a  00000000  00000000  0010bd4d  2**0
                  CONTENTS, READONLY, DEBUGGING
 15 .debug_aranges 000030b0  00000000  00000000  001318e8  2**3
                  CONTENTS, READONLY, DEBUGGING
 16 .debug_ranges 000039f8  00000000  00000000  00134998  2**3
                  CONTENTS, READONLY, DEBUGGING
 17 .debug_macro  00020d37  00000000  00000000  00138390  2**0
                  CONTENTS, READONLY, DEBUGGING
 18 .debug_line   000260fe  00000000  00000000  001590c7  2**0
                  CONTENTS, READONLY, DEBUGGING
 19 .debug_str    00081dbc  00000000  00000000  0017f1c5  2**0
                  CONTENTS, READONLY, DEBUGGING
 20 .comment      00000030  00000000  00000000  00200f81  2**0
                  CONTENTS, READONLY
 21 .debug_frame  00008344  00000000  00000000  00200fb4  2**2
                  CONTENTS, READONLY, DEBUGGING

Disassembly of section .text:

08020188 <deregister_tm_clones>:
 8020188:	b508      	push	{r3, lr}
 802018a:	f640 20b4 	movw	r0, #2740	; 0xab4
 802018e:	4b07      	ldr	r3, [pc, #28]	; (80201ac <deregister_tm_clones+0x24>)
 8020190:	f2c2 0000 	movt	r0, #8192	; 0x2000
 8020194:	1a1b      	subs	r3, r3, r0
 8020196:	2b06      	cmp	r3, #6
 8020198:	d800      	bhi.n	802019c <deregister_tm_clones+0x14>
 802019a:	bd08      	pop	{r3, pc}
 802019c:	f240 0300 	movw	r3, #0
 80201a0:	f2c0 0300 	movt	r3, #0
 80201a4:	2b00      	cmp	r3, #0
 80201a6:	d0f8      	beq.n	802019a <deregister_tm_clones+0x12>
 80201a8:	4798      	blx	r3
 80201aa:	e7f6      	b.n	802019a <deregister_tm_clones+0x12>
 80201ac:	20000ab7 	.word	0x20000ab7

080201b0 <register_tm_clones>:
 80201b0:	b508      	push	{r3, lr}
 80201b2:	f640 20b4 	movw	r0, #2740	; 0xab4
 80201b6:	f640 23b4 	movw	r3, #2740	; 0xab4
 80201ba:	f2c2 0000 	movt	r0, #8192	; 0x2000
 80201be:	f2c2 0300 	movt	r3, #8192	; 0x2000
 80201c2:	1a1b      	subs	r3, r3, r0
 80201c4:	109b      	asrs	r3, r3, #2
 80201c6:	eb03 73d3 	add.w	r3, r3, r3, lsr #31
 80201ca:	1059      	asrs	r1, r3, #1
 80201cc:	d100      	bne.n	80201d0 <register_tm_clones+0x20>
 80201ce:	bd08      	pop	{r3, pc}
 80201d0:	f240 0200 	movw	r2, #0
 80201d4:	f2c0 0200 	movt	r2, #0
 80201d8:	2a00      	cmp	r2, #0
 80201da:	d0f8      	beq.n	80201ce <register_tm_clones+0x1e>
 80201dc:	4790      	blx	r2
 80201de:	e7f6      	b.n	80201ce <register_tm_clones+0x1e>

080201e0 <__do_global_dtors_aux>:
 80201e0:	b510      	push	{r4, lr}
 80201e2:	f640 24b4 	movw	r4, #2740	; 0xab4
 80201e6:	f2c2 0400 	movt	r4, #8192	; 0x2000
 80201ea:	7823      	ldrb	r3, [r4, #0]
 80201ec:	b973      	cbnz	r3, 802020c <__do_global_dtors_aux+0x2c>
 80201ee:	f7ff ffcb 	bl	8020188 <deregister_tm_clones>
 80201f2:	f240 0300 	movw	r3, #0
 80201f6:	f2c0 0300 	movt	r3, #0
 80201fa:	b12b      	cbz	r3, 8020208 <__do_global_dtors_aux+0x28>
 80201fc:	f644 3034 	movw	r0, #19252	; 0x4b34
 8020200:	f6c0 0004 	movt	r0, #2052	; 0x804
 8020204:	f3af 8000 	nop.w
 8020208:	2301      	movs	r3, #1
 802020a:	7023      	strb	r3, [r4, #0]
 802020c:	bd10      	pop	{r4, pc}
 802020e:	bf00      	nop

08020210 <frame_dummy>:
 8020210:	b508      	push	{r3, lr}
 8020212:	f240 0300 	movw	r3, #0
 8020216:	f2c0 0300 	movt	r3, #0
 802021a:	b14b      	cbz	r3, 8020230 <frame_dummy+0x20>
 802021c:	f644 3034 	movw	r0, #19252	; 0x4b34
 8020220:	f640 21b8 	movw	r1, #2744	; 0xab8
 8020224:	f6c0 0004 	movt	r0, #2052	; 0x804
 8020228:	f2c2 0100 	movt	r1, #8192	; 0x2000
 802022c:	f3af 8000 	nop.w
 8020230:	f640 20b4 	movw	r0, #2740	; 0xab4
 8020234:	f2c2 0000 	movt	r0, #8192	; 0x2000
 8020238:	6803      	ldr	r3, [r0, #0]
 802023a:	b12b      	cbz	r3, 8020248 <frame_dummy+0x38>
 802023c:	f240 0300 	movw	r3, #0
 8020240:	f2c0 0300 	movt	r3, #0
 8020244:	b103      	cbz	r3, 8020248 <frame_dummy+0x38>
 8020246:	4798      	blx	r3
 8020248:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
 802024c:	f7ff bfb0 	b.w	80201b0 <register_tm_clones>

08020250 <__aeabi_drsub>:
 8020250:	f081 4100 	eor.w	r1, r1, #2147483648	; 0x80000000
 8020254:	e002      	b.n	802025c <__adddf3>
 8020256:	bf00      	nop

08020258 <__aeabi_dsub>:
 8020258:	f083 4300 	eor.w	r3, r3, #2147483648	; 0x80000000

0802025c <__adddf3>:
 802025c:	b530      	push	{r4, r5, lr}
 802025e:	ea4f 0441 	mov.w	r4, r1, lsl #1
 8020262:	ea4f 0543 	mov.w	r5, r3, lsl #1
 8020266:	ea94 0f05 	teq	r4, r5
 802026a:	bf08      	it	eq
 802026c:	ea90 0f02 	teqeq	r0, r2
 8020270:	bf1f      	itttt	ne
 8020272:	ea54 0c00 	orrsne.w	ip, r4, r0
 8020276:	ea55 0c02 	orrsne.w	ip, r5, r2
 802027a:	ea7f 5c64 	mvnsne.w	ip, r4, asr #21
 802027e:	ea7f 5c65 	mvnsne.w	ip, r5, asr #21
 8020282:	f000 80e2 	beq.w	802044a <__adddf3+0x1ee>
 8020286:	ea4f 5454 	mov.w	r4, r4, lsr #21
 802028a:	ebd4 5555 	rsbs	r5, r4, r5, lsr #21
 802028e:	bfb8      	it	lt
 8020290:	426d      	neglt	r5, r5
 8020292:	dd0c      	ble.n	80202ae <__adddf3+0x52>
 8020294:	442c      	add	r4, r5
 8020296:	ea80 0202 	eor.w	r2, r0, r2
 802029a:	ea81 0303 	eor.w	r3, r1, r3
 802029e:	ea82 0000 	eor.w	r0, r2, r0
 80202a2:	ea83 0101 	eor.w	r1, r3, r1
 80202a6:	ea80 0202 	eor.w	r2, r0, r2
 80202aa:	ea81 0303 	eor.w	r3, r1, r3
 80202ae:	2d36      	cmp	r5, #54	; 0x36
 80202b0:	bf88      	it	hi
 80202b2:	bd30      	pophi	{r4, r5, pc}
 80202b4:	f011 4f00 	tst.w	r1, #2147483648	; 0x80000000
 80202b8:	ea4f 3101 	mov.w	r1, r1, lsl #12
 80202bc:	f44f 1c80 	mov.w	ip, #1048576	; 0x100000
 80202c0:	ea4c 3111 	orr.w	r1, ip, r1, lsr #12
 80202c4:	d002      	beq.n	80202cc <__adddf3+0x70>
 80202c6:	4240      	negs	r0, r0
 80202c8:	eb61 0141 	sbc.w	r1, r1, r1, lsl #1
 80202cc:	f013 4f00 	tst.w	r3, #2147483648	; 0x80000000
 80202d0:	ea4f 3303 	mov.w	r3, r3, lsl #12
 80202d4:	ea4c 3313 	orr.w	r3, ip, r3, lsr #12
 80202d8:	d002      	beq.n	80202e0 <__adddf3+0x84>
 80202da:	4252      	negs	r2, r2
 80202dc:	eb63 0343 	sbc.w	r3, r3, r3, lsl #1
 80202e0:	ea94 0f05 	teq	r4, r5
 80202e4:	f000 80a7 	beq.w	8020436 <__adddf3+0x1da>
 80202e8:	f1a4 0401 	sub.w	r4, r4, #1
 80202ec:	f1d5 0e20 	rsbs	lr, r5, #32
 80202f0:	db0d      	blt.n	802030e <__adddf3+0xb2>
 80202f2:	fa02 fc0e 	lsl.w	ip, r2, lr
 80202f6:	fa22 f205 	lsr.w	r2, r2, r5
 80202fa:	1880      	adds	r0, r0, r2
 80202fc:	f141 0100 	adc.w	r1, r1, #0
 8020300:	fa03 f20e 	lsl.w	r2, r3, lr
 8020304:	1880      	adds	r0, r0, r2
 8020306:	fa43 f305 	asr.w	r3, r3, r5
 802030a:	4159      	adcs	r1, r3
 802030c:	e00e      	b.n	802032c <__adddf3+0xd0>
 802030e:	f1a5 0520 	sub.w	r5, r5, #32
 8020312:	f10e 0e20 	add.w	lr, lr, #32
 8020316:	2a01      	cmp	r2, #1
 8020318:	fa03 fc0e 	lsl.w	ip, r3, lr
 802031c:	bf28      	it	cs
 802031e:	f04c 0c02 	orrcs.w	ip, ip, #2
 8020322:	fa43 f305 	asr.w	r3, r3, r5
 8020326:	18c0      	adds	r0, r0, r3
 8020328:	eb51 71e3 	adcs.w	r1, r1, r3, asr #31
 802032c:	f001 4500 	and.w	r5, r1, #2147483648	; 0x80000000
 8020330:	d507      	bpl.n	8020342 <__adddf3+0xe6>
 8020332:	f04f 0e00 	mov.w	lr, #0
 8020336:	f1dc 0c00 	rsbs	ip, ip, #0
 802033a:	eb7e 0000 	sbcs.w	r0, lr, r0
 802033e:	eb6e 0101 	sbc.w	r1, lr, r1
 8020342:	f5b1 1f80 	cmp.w	r1, #1048576	; 0x100000
 8020346:	d31b      	bcc.n	8020380 <__adddf3+0x124>
 8020348:	f5b1 1f00 	cmp.w	r1, #2097152	; 0x200000
 802034c:	d30c      	bcc.n	8020368 <__adddf3+0x10c>
 802034e:	0849      	lsrs	r1, r1, #1
 8020350:	ea5f 0030 	movs.w	r0, r0, rrx
 8020354:	ea4f 0c3c 	mov.w	ip, ip, rrx
 8020358:	f104 0401 	add.w	r4, r4, #1
 802035c:	ea4f 5244 	mov.w	r2, r4, lsl #21
 8020360:	f512 0f80 	cmn.w	r2, #4194304	; 0x400000
 8020364:	f080 809a 	bcs.w	802049c <__adddf3+0x240>
 8020368:	f1bc 4f00 	cmp.w	ip, #2147483648	; 0x80000000
 802036c:	bf08      	it	eq
 802036e:	ea5f 0c50 	movseq.w	ip, r0, lsr #1
 8020372:	f150 0000 	adcs.w	r0, r0, #0
 8020376:	eb41 5104 	adc.w	r1, r1, r4, lsl #20
 802037a:	ea41 0105 	orr.w	r1, r1, r5
 802037e:	bd30      	pop	{r4, r5, pc}
 8020380:	ea5f 0c4c 	movs.w	ip, ip, lsl #1
 8020384:	4140      	adcs	r0, r0
 8020386:	eb41 0101 	adc.w	r1, r1, r1
 802038a:	f411 1f80 	tst.w	r1, #1048576	; 0x100000
 802038e:	f1a4 0401 	sub.w	r4, r4, #1
 8020392:	d1e9      	bne.n	8020368 <__adddf3+0x10c>
 8020394:	f091 0f00 	teq	r1, #0
 8020398:	bf04      	itt	eq
 802039a:	4601      	moveq	r1, r0
 802039c:	2000      	moveq	r0, #0
 802039e:	fab1 f381 	clz	r3, r1
 80203a2:	bf08      	it	eq
 80203a4:	3320      	addeq	r3, #32
 80203a6:	f1a3 030b 	sub.w	r3, r3, #11
 80203aa:	f1b3 0220 	subs.w	r2, r3, #32
 80203ae:	da0c      	bge.n	80203ca <__adddf3+0x16e>
 80203b0:	320c      	adds	r2, #12
 80203b2:	dd08      	ble.n	80203c6 <__adddf3+0x16a>
 80203b4:	f102 0c14 	add.w	ip, r2, #20
 80203b8:	f1c2 020c 	rsb	r2, r2, #12
 80203bc:	fa01 f00c 	lsl.w	r0, r1, ip
 80203c0:	fa21 f102 	lsr.w	r1, r1, r2
 80203c4:	e00c      	b.n	80203e0 <__adddf3+0x184>
 80203c6:	f102 0214 	add.w	r2, r2, #20
 80203ca:	bfd8      	it	le
 80203cc:	f1c2 0c20 	rsble	ip, r2, #32
 80203d0:	fa01 f102 	lsl.w	r1, r1, r2
 80203d4:	fa20 fc0c 	lsr.w	ip, r0, ip
 80203d8:	bfdc      	itt	le
 80203da:	ea41 010c 	orrle.w	r1, r1, ip
 80203de:	4090      	lslle	r0, r2
 80203e0:	1ae4      	subs	r4, r4, r3
 80203e2:	bfa2      	ittt	ge
 80203e4:	eb01 5104 	addge.w	r1, r1, r4, lsl #20
 80203e8:	4329      	orrge	r1, r5
 80203ea:	bd30      	popge	{r4, r5, pc}
 80203ec:	ea6f 0404 	mvn.w	r4, r4
 80203f0:	3c1f      	subs	r4, #31
 80203f2:	da1c      	bge.n	802042e <__adddf3+0x1d2>
 80203f4:	340c      	adds	r4, #12
 80203f6:	dc0e      	bgt.n	8020416 <__adddf3+0x1ba>
 80203f8:	f104 0414 	add.w	r4, r4, #20
 80203fc:	f1c4 0220 	rsb	r2, r4, #32
 8020400:	fa20 f004 	lsr.w	r0, r0, r4
 8020404:	fa01 f302 	lsl.w	r3, r1, r2
 8020408:	ea40 0003 	orr.w	r0, r0, r3
 802040c:	fa21 f304 	lsr.w	r3, r1, r4
 8020410:	ea45 0103 	orr.w	r1, r5, r3
 8020414:	bd30      	pop	{r4, r5, pc}
 8020416:	f1c4 040c 	rsb	r4, r4, #12
 802041a:	f1c4 0220 	rsb	r2, r4, #32
 802041e:	fa20 f002 	lsr.w	r0, r0, r2
 8020422:	fa01 f304 	lsl.w	r3, r1, r4
 8020426:	ea40 0003 	orr.w	r0, r0, r3
 802042a:	4629      	mov	r1, r5
 802042c:	bd30      	pop	{r4, r5, pc}
 802042e:	fa21 f004 	lsr.w	r0, r1, r4
 8020432:	4629      	mov	r1, r5
 8020434:	bd30      	pop	{r4, r5, pc}
 8020436:	f094 0f00 	teq	r4, #0
 802043a:	f483 1380 	eor.w	r3, r3, #1048576	; 0x100000
 802043e:	bf06      	itte	eq
 8020440:	f481 1180 	eoreq.w	r1, r1, #1048576	; 0x100000
 8020444:	3401      	addeq	r4, #1
 8020446:	3d01      	subne	r5, #1
 8020448:	e74e      	b.n	80202e8 <__adddf3+0x8c>
 802044a:	ea7f 5c64 	mvns.w	ip, r4, asr #21
 802044e:	bf18      	it	ne
 8020450:	ea7f 5c65 	mvnsne.w	ip, r5, asr #21
 8020454:	d029      	beq.n	80204aa <__adddf3+0x24e>
 8020456:	ea94 0f05 	teq	r4, r5
 802045a:	bf08      	it	eq
 802045c:	ea90 0f02 	teqeq	r0, r2
 8020460:	d005      	beq.n	802046e <__adddf3+0x212>
 8020462:	ea54 0c00 	orrs.w	ip, r4, r0
 8020466:	bf04      	itt	eq
 8020468:	4619      	moveq	r1, r3
 802046a:	4610      	moveq	r0, r2
 802046c:	bd30      	pop	{r4, r5, pc}
 802046e:	ea91 0f03 	teq	r1, r3
 8020472:	bf1e      	ittt	ne
 8020474:	2100      	movne	r1, #0
 8020476:	2000      	movne	r0, #0
 8020478:	bd30      	popne	{r4, r5, pc}
 802047a:	ea5f 5c54 	movs.w	ip, r4, lsr #21
 802047e:	d105      	bne.n	802048c <__adddf3+0x230>
 8020480:	0040      	lsls	r0, r0, #1
 8020482:	4149      	adcs	r1, r1
 8020484:	bf28      	it	cs
 8020486:	f041 4100 	orrcs.w	r1, r1, #2147483648	; 0x80000000
 802048a:	bd30      	pop	{r4, r5, pc}
 802048c:	f514 0480 	adds.w	r4, r4, #4194304	; 0x400000
 8020490:	bf3c      	itt	cc
 8020492:	f501 1180 	addcc.w	r1, r1, #1048576	; 0x100000
 8020496:	bd30      	popcc	{r4, r5, pc}
 8020498:	f001 4500 	and.w	r5, r1, #2147483648	; 0x80000000
 802049c:	f045 41fe 	orr.w	r1, r5, #2130706432	; 0x7f000000
 80204a0:	f441 0170 	orr.w	r1, r1, #15728640	; 0xf00000
 80204a4:	f04f 0000 	mov.w	r0, #0
 80204a8:	bd30      	pop	{r4, r5, pc}
 80204aa:	ea7f 5c64 	mvns.w	ip, r4, asr #21
 80204ae:	bf1a      	itte	ne
 80204b0:	4619      	movne	r1, r3
 80204b2:	4610      	movne	r0, r2
 80204b4:	ea7f 5c65 	mvnseq.w	ip, r5, asr #21
 80204b8:	bf1c      	itt	ne
 80204ba:	460b      	movne	r3, r1
 80204bc:	4602      	movne	r2, r0
 80204be:	ea50 3401 	orrs.w	r4, r0, r1, lsl #12
 80204c2:	bf06      	itte	eq
 80204c4:	ea52 3503 	orrseq.w	r5, r2, r3, lsl #12
 80204c8:	ea91 0f03 	teqeq	r1, r3
 80204cc:	f441 2100 	orrne.w	r1, r1, #524288	; 0x80000
 80204d0:	bd30      	pop	{r4, r5, pc}
 80204d2:	bf00      	nop

080204d4 <__aeabi_ui2d>:
 80204d4:	f090 0f00 	teq	r0, #0
 80204d8:	bf04      	itt	eq
 80204da:	2100      	moveq	r1, #0
 80204dc:	4770      	bxeq	lr
 80204de:	b530      	push	{r4, r5, lr}
 80204e0:	f44f 6480 	mov.w	r4, #1024	; 0x400
 80204e4:	f104 0432 	add.w	r4, r4, #50	; 0x32
 80204e8:	f04f 0500 	mov.w	r5, #0
 80204ec:	f04f 0100 	mov.w	r1, #0
 80204f0:	e750      	b.n	8020394 <__adddf3+0x138>
 80204f2:	bf00      	nop

080204f4 <__aeabi_i2d>:
 80204f4:	f090 0f00 	teq	r0, #0
 80204f8:	bf04      	itt	eq
 80204fa:	2100      	moveq	r1, #0
 80204fc:	4770      	bxeq	lr
 80204fe:	b530      	push	{r4, r5, lr}
 8020500:	f44f 6480 	mov.w	r4, #1024	; 0x400
 8020504:	f104 0432 	add.w	r4, r4, #50	; 0x32
 8020508:	f010 4500 	ands.w	r5, r0, #2147483648	; 0x80000000
 802050c:	bf48      	it	mi
 802050e:	4240      	negmi	r0, r0
 8020510:	f04f 0100 	mov.w	r1, #0
 8020514:	e73e      	b.n	8020394 <__adddf3+0x138>
 8020516:	bf00      	nop

08020518 <__aeabi_f2d>:
 8020518:	0042      	lsls	r2, r0, #1
 802051a:	ea4f 01e2 	mov.w	r1, r2, asr #3
 802051e:	ea4f 0131 	mov.w	r1, r1, rrx
 8020522:	ea4f 7002 	mov.w	r0, r2, lsl #28
 8020526:	bf1f      	itttt	ne
 8020528:	f012 437f 	andsne.w	r3, r2, #4278190080	; 0xff000000
 802052c:	f093 4f7f 	teqne	r3, #4278190080	; 0xff000000
 8020530:	f081 5160 	eorne.w	r1, r1, #939524096	; 0x38000000
 8020534:	4770      	bxne	lr
 8020536:	f092 0f00 	teq	r2, #0
 802053a:	bf14      	ite	ne
 802053c:	f093 4f7f 	teqne	r3, #4278190080	; 0xff000000
 8020540:	4770      	bxeq	lr
 8020542:	b530      	push	{r4, r5, lr}
 8020544:	f44f 7460 	mov.w	r4, #896	; 0x380
 8020548:	f001 4500 	and.w	r5, r1, #2147483648	; 0x80000000
 802054c:	f021 4100 	bic.w	r1, r1, #2147483648	; 0x80000000
 8020550:	e720      	b.n	8020394 <__adddf3+0x138>
 8020552:	bf00      	nop

08020554 <__aeabi_ul2d>:
 8020554:	ea50 0201 	orrs.w	r2, r0, r1
 8020558:	bf08      	it	eq
 802055a:	4770      	bxeq	lr
 802055c:	b530      	push	{r4, r5, lr}
 802055e:	f04f 0500 	mov.w	r5, #0
 8020562:	e00a      	b.n	802057a <__aeabi_l2d+0x16>

08020564 <__aeabi_l2d>:
 8020564:	ea50 0201 	orrs.w	r2, r0, r1
 8020568:	bf08      	it	eq
 802056a:	4770      	bxeq	lr
 802056c:	b530      	push	{r4, r5, lr}
 802056e:	f011 4500 	ands.w	r5, r1, #2147483648	; 0x80000000
 8020572:	d502      	bpl.n	802057a <__aeabi_l2d+0x16>
 8020574:	4240      	negs	r0, r0
 8020576:	eb61 0141 	sbc.w	r1, r1, r1, lsl #1
 802057a:	f44f 6480 	mov.w	r4, #1024	; 0x400
 802057e:	f104 0432 	add.w	r4, r4, #50	; 0x32
 8020582:	ea5f 5c91 	movs.w	ip, r1, lsr #22
 8020586:	f43f aedc 	beq.w	8020342 <__adddf3+0xe6>
 802058a:	f04f 0203 	mov.w	r2, #3
 802058e:	ea5f 0cdc 	movs.w	ip, ip, lsr #3
 8020592:	bf18      	it	ne
 8020594:	3203      	addne	r2, #3
 8020596:	ea5f 0cdc 	movs.w	ip, ip, lsr #3
 802059a:	bf18      	it	ne
 802059c:	3203      	addne	r2, #3
 802059e:	eb02 02dc 	add.w	r2, r2, ip, lsr #3
 80205a2:	f1c2 0320 	rsb	r3, r2, #32
 80205a6:	fa00 fc03 	lsl.w	ip, r0, r3
 80205aa:	fa20 f002 	lsr.w	r0, r0, r2
 80205ae:	fa01 fe03 	lsl.w	lr, r1, r3
 80205b2:	ea40 000e 	orr.w	r0, r0, lr
 80205b6:	fa21 f102 	lsr.w	r1, r1, r2
 80205ba:	4414      	add	r4, r2
 80205bc:	e6c1      	b.n	8020342 <__adddf3+0xe6>
 80205be:	bf00      	nop

080205c0 <__aeabi_dmul>:
 80205c0:	b570      	push	{r4, r5, r6, lr}
 80205c2:	f04f 0cff 	mov.w	ip, #255	; 0xff
 80205c6:	f44c 6ce0 	orr.w	ip, ip, #1792	; 0x700
 80205ca:	ea1c 5411 	ands.w	r4, ip, r1, lsr #20
 80205ce:	bf1d      	ittte	ne
 80205d0:	ea1c 5513 	andsne.w	r5, ip, r3, lsr #20
 80205d4:	ea94 0f0c 	teqne	r4, ip
 80205d8:	ea95 0f0c 	teqne	r5, ip
 80205dc:	f000 f8de 	bleq	802079c <__aeabi_dmul+0x1dc>
 80205e0:	442c      	add	r4, r5
 80205e2:	ea81 0603 	eor.w	r6, r1, r3
 80205e6:	ea21 514c 	bic.w	r1, r1, ip, lsl #21
 80205ea:	ea23 534c 	bic.w	r3, r3, ip, lsl #21
 80205ee:	ea50 3501 	orrs.w	r5, r0, r1, lsl #12
 80205f2:	bf18      	it	ne
 80205f4:	ea52 3503 	orrsne.w	r5, r2, r3, lsl #12
 80205f8:	f441 1180 	orr.w	r1, r1, #1048576	; 0x100000
 80205fc:	f443 1380 	orr.w	r3, r3, #1048576	; 0x100000
 8020600:	d038      	beq.n	8020674 <__aeabi_dmul+0xb4>
 8020602:	fba0 ce02 	umull	ip, lr, r0, r2
 8020606:	f04f 0500 	mov.w	r5, #0
 802060a:	fbe1 e502 	umlal	lr, r5, r1, r2
 802060e:	f006 4200 	and.w	r2, r6, #2147483648	; 0x80000000
 8020612:	fbe0 e503 	umlal	lr, r5, r0, r3
 8020616:	f04f 0600 	mov.w	r6, #0
 802061a:	fbe1 5603 	umlal	r5, r6, r1, r3
 802061e:	f09c 0f00 	teq	ip, #0
 8020622:	bf18      	it	ne
 8020624:	f04e 0e01 	orrne.w	lr, lr, #1
 8020628:	f1a4 04ff 	sub.w	r4, r4, #255	; 0xff
 802062c:	f5b6 7f00 	cmp.w	r6, #512	; 0x200
 8020630:	f564 7440 	sbc.w	r4, r4, #768	; 0x300
 8020634:	d204      	bcs.n	8020640 <__aeabi_dmul+0x80>
 8020636:	ea5f 0e4e 	movs.w	lr, lr, lsl #1
 802063a:	416d      	adcs	r5, r5
 802063c:	eb46 0606 	adc.w	r6, r6, r6
 8020640:	ea42 21c6 	orr.w	r1, r2, r6, lsl #11
 8020644:	ea41 5155 	orr.w	r1, r1, r5, lsr #21
 8020648:	ea4f 20c5 	mov.w	r0, r5, lsl #11
 802064c:	ea40 505e 	orr.w	r0, r0, lr, lsr #21
 8020650:	ea4f 2ece 	mov.w	lr, lr, lsl #11
 8020654:	f1b4 0cfd 	subs.w	ip, r4, #253	; 0xfd
 8020658:	bf88      	it	hi
 802065a:	f5bc 6fe0 	cmphi.w	ip, #1792	; 0x700
 802065e:	d81e      	bhi.n	802069e <__aeabi_dmul+0xde>
 8020660:	f1be 4f00 	cmp.w	lr, #2147483648	; 0x80000000
 8020664:	bf08      	it	eq
 8020666:	ea5f 0e50 	movseq.w	lr, r0, lsr #1
 802066a:	f150 0000 	adcs.w	r0, r0, #0
 802066e:	eb41 5104 	adc.w	r1, r1, r4, lsl #20
 8020672:	bd70      	pop	{r4, r5, r6, pc}
 8020674:	f006 4600 	and.w	r6, r6, #2147483648	; 0x80000000
 8020678:	ea46 0101 	orr.w	r1, r6, r1
 802067c:	ea40 0002 	orr.w	r0, r0, r2
 8020680:	ea81 0103 	eor.w	r1, r1, r3
 8020684:	ebb4 045c 	subs.w	r4, r4, ip, lsr #1
 8020688:	bfc2      	ittt	gt
 802068a:	ebd4 050c 	rsbsgt	r5, r4, ip
 802068e:	ea41 5104 	orrgt.w	r1, r1, r4, lsl #20
 8020692:	bd70      	popgt	{r4, r5, r6, pc}
 8020694:	f441 1180 	orr.w	r1, r1, #1048576	; 0x100000
 8020698:	f04f 0e00 	mov.w	lr, #0
 802069c:	3c01      	subs	r4, #1
 802069e:	f300 80ab 	bgt.w	80207f8 <__aeabi_dmul+0x238>
 80206a2:	f114 0f36 	cmn.w	r4, #54	; 0x36
 80206a6:	bfde      	ittt	le
 80206a8:	2000      	movle	r0, #0
 80206aa:	f001 4100 	andle.w	r1, r1, #2147483648	; 0x80000000
 80206ae:	bd70      	pople	{r4, r5, r6, pc}
 80206b0:	f1c4 0400 	rsb	r4, r4, #0
 80206b4:	3c20      	subs	r4, #32
 80206b6:	da35      	bge.n	8020724 <__aeabi_dmul+0x164>
 80206b8:	340c      	adds	r4, #12
 80206ba:	dc1b      	bgt.n	80206f4 <__aeabi_dmul+0x134>
 80206bc:	f104 0414 	add.w	r4, r4, #20
 80206c0:	f1c4 0520 	rsb	r5, r4, #32
 80206c4:	fa00 f305 	lsl.w	r3, r0, r5
 80206c8:	fa20 f004 	lsr.w	r0, r0, r4
 80206cc:	fa01 f205 	lsl.w	r2, r1, r5
 80206d0:	ea40 0002 	orr.w	r0, r0, r2
 80206d4:	f001 4200 	and.w	r2, r1, #2147483648	; 0x80000000
 80206d8:	f021 4100 	bic.w	r1, r1, #2147483648	; 0x80000000
 80206dc:	eb10 70d3 	adds.w	r0, r0, r3, lsr #31
 80206e0:	fa21 f604 	lsr.w	r6, r1, r4
 80206e4:	eb42 0106 	adc.w	r1, r2, r6
 80206e8:	ea5e 0e43 	orrs.w	lr, lr, r3, lsl #1
 80206ec:	bf08      	it	eq
 80206ee:	ea20 70d3 	biceq.w	r0, r0, r3, lsr #31
 80206f2:	bd70      	pop	{r4, r5, r6, pc}
 80206f4:	f1c4 040c 	rsb	r4, r4, #12
 80206f8:	f1c4 0520 	rsb	r5, r4, #32
 80206fc:	fa00 f304 	lsl.w	r3, r0, r4
 8020700:	fa20 f005 	lsr.w	r0, r0, r5
 8020704:	fa01 f204 	lsl.w	r2, r1, r4
 8020708:	ea40 0002 	orr.w	r0, r0, r2
 802070c:	f001 4100 	and.w	r1, r1, #2147483648	; 0x80000000
 8020710:	eb10 70d3 	adds.w	r0, r0, r3, lsr #31
 8020714:	f141 0100 	adc.w	r1, r1, #0
 8020718:	ea5e 0e43 	orrs.w	lr, lr, r3, lsl #1
 802071c:	bf08      	it	eq
 802071e:	ea20 70d3 	biceq.w	r0, r0, r3, lsr #31
 8020722:	bd70      	pop	{r4, r5, r6, pc}
 8020724:	f1c4 0520 	rsb	r5, r4, #32
 8020728:	fa00 f205 	lsl.w	r2, r0, r5
 802072c:	ea4e 0e02 	orr.w	lr, lr, r2
 8020730:	fa20 f304 	lsr.w	r3, r0, r4
 8020734:	fa01 f205 	lsl.w	r2, r1, r5
 8020738:	ea43 0302 	orr.w	r3, r3, r2
 802073c:	fa21 f004 	lsr.w	r0, r1, r4
 8020740:	f001 4100 	and.w	r1, r1, #2147483648	; 0x80000000
 8020744:	fa21 f204 	lsr.w	r2, r1, r4
 8020748:	ea20 0002 	bic.w	r0, r0, r2
 802074c:	eb00 70d3 	add.w	r0, r0, r3, lsr #31
 8020750:	ea5e 0e43 	orrs.w	lr, lr, r3, lsl #1
 8020754:	bf08      	it	eq
 8020756:	ea20 70d3 	biceq.w	r0, r0, r3, lsr #31
 802075a:	bd70      	pop	{r4, r5, r6, pc}
 802075c:	f094 0f00 	teq	r4, #0
 8020760:	d10f      	bne.n	8020782 <__aeabi_dmul+0x1c2>
 8020762:	f001 4600 	and.w	r6, r1, #2147483648	; 0x80000000
 8020766:	0040      	lsls	r0, r0, #1
 8020768:	eb41 0101 	adc.w	r1, r1, r1
 802076c:	f411 1f80 	tst.w	r1, #1048576	; 0x100000
 8020770:	bf08      	it	eq
 8020772:	3c01      	subeq	r4, #1
 8020774:	d0f7      	beq.n	8020766 <__aeabi_dmul+0x1a6>
 8020776:	ea41 0106 	orr.w	r1, r1, r6
 802077a:	f095 0f00 	teq	r5, #0
 802077e:	bf18      	it	ne
 8020780:	4770      	bxne	lr
 8020782:	f003 4600 	and.w	r6, r3, #2147483648	; 0x80000000
 8020786:	0052      	lsls	r2, r2, #1
 8020788:	eb43 0303 	adc.w	r3, r3, r3
 802078c:	f413 1f80 	tst.w	r3, #1048576	; 0x100000
 8020790:	bf08      	it	eq
 8020792:	3d01      	subeq	r5, #1
 8020794:	d0f7      	beq.n	8020786 <__aeabi_dmul+0x1c6>
 8020796:	ea43 0306 	orr.w	r3, r3, r6
 802079a:	4770      	bx	lr
 802079c:	ea94 0f0c 	teq	r4, ip
 80207a0:	ea0c 5513 	and.w	r5, ip, r3, lsr #20
 80207a4:	bf18      	it	ne
 80207a6:	ea95 0f0c 	teqne	r5, ip
 80207aa:	d00c      	beq.n	80207c6 <__aeabi_dmul+0x206>
 80207ac:	ea50 0641 	orrs.w	r6, r0, r1, lsl #1
 80207b0:	bf18      	it	ne
 80207b2:	ea52 0643 	orrsne.w	r6, r2, r3, lsl #1
 80207b6:	d1d1      	bne.n	802075c <__aeabi_dmul+0x19c>
 80207b8:	ea81 0103 	eor.w	r1, r1, r3
 80207bc:	f001 4100 	and.w	r1, r1, #2147483648	; 0x80000000
 80207c0:	f04f 0000 	mov.w	r0, #0
 80207c4:	bd70      	pop	{r4, r5, r6, pc}
 80207c6:	ea50 0641 	orrs.w	r6, r0, r1, lsl #1
 80207ca:	bf06      	itte	eq
 80207cc:	4610      	moveq	r0, r2
 80207ce:	4619      	moveq	r1, r3
 80207d0:	ea52 0643 	orrsne.w	r6, r2, r3, lsl #1
 80207d4:	d019      	beq.n	802080a <__aeabi_dmul+0x24a>
 80207d6:	ea94 0f0c 	teq	r4, ip
 80207da:	d102      	bne.n	80207e2 <__aeabi_dmul+0x222>
 80207dc:	ea50 3601 	orrs.w	r6, r0, r1, lsl #12
 80207e0:	d113      	bne.n	802080a <__aeabi_dmul+0x24a>
 80207e2:	ea95 0f0c 	teq	r5, ip
 80207e6:	d105      	bne.n	80207f4 <__aeabi_dmul+0x234>
 80207e8:	ea52 3603 	orrs.w	r6, r2, r3, lsl #12
 80207ec:	bf1c      	itt	ne
 80207ee:	4610      	movne	r0, r2
 80207f0:	4619      	movne	r1, r3
 80207f2:	d10a      	bne.n	802080a <__aeabi_dmul+0x24a>
 80207f4:	ea81 0103 	eor.w	r1, r1, r3
 80207f8:	f001 4100 	and.w	r1, r1, #2147483648	; 0x80000000
 80207fc:	f041 41fe 	orr.w	r1, r1, #2130706432	; 0x7f000000
 8020800:	f441 0170 	orr.w	r1, r1, #15728640	; 0xf00000
 8020804:	f04f 0000 	mov.w	r0, #0
 8020808:	bd70      	pop	{r4, r5, r6, pc}
 802080a:	f041 41fe 	orr.w	r1, r1, #2130706432	; 0x7f000000
 802080e:	f441 0178 	orr.w	r1, r1, #16252928	; 0xf80000
 8020812:	bd70      	pop	{r4, r5, r6, pc}

08020814 <__aeabi_ddiv>:
 8020814:	b570      	push	{r4, r5, r6, lr}
 8020816:	f04f 0cff 	mov.w	ip, #255	; 0xff
 802081a:	f44c 6ce0 	orr.w	ip, ip, #1792	; 0x700
 802081e:	ea1c 5411 	ands.w	r4, ip, r1, lsr #20
 8020822:	bf1d      	ittte	ne
 8020824:	ea1c 5513 	andsne.w	r5, ip, r3, lsr #20
 8020828:	ea94 0f0c 	teqne	r4, ip
 802082c:	ea95 0f0c 	teqne	r5, ip
 8020830:	f000 f8a7 	bleq	8020982 <__aeabi_ddiv+0x16e>
 8020834:	eba4 0405 	sub.w	r4, r4, r5
 8020838:	ea81 0e03 	eor.w	lr, r1, r3
 802083c:	ea52 3503 	orrs.w	r5, r2, r3, lsl #12
 8020840:	ea4f 3101 	mov.w	r1, r1, lsl #12
 8020844:	f000 8088 	beq.w	8020958 <__aeabi_ddiv+0x144>
 8020848:	ea4f 3303 	mov.w	r3, r3, lsl #12
 802084c:	f04f 5580 	mov.w	r5, #268435456	; 0x10000000
 8020850:	ea45 1313 	orr.w	r3, r5, r3, lsr #4
 8020854:	ea43 6312 	orr.w	r3, r3, r2, lsr #24
 8020858:	ea4f 2202 	mov.w	r2, r2, lsl #8
 802085c:	ea45 1511 	orr.w	r5, r5, r1, lsr #4
 8020860:	ea45 6510 	orr.w	r5, r5, r0, lsr #24
 8020864:	ea4f 2600 	mov.w	r6, r0, lsl #8
 8020868:	f00e 4100 	and.w	r1, lr, #2147483648	; 0x80000000
 802086c:	429d      	cmp	r5, r3
 802086e:	bf08      	it	eq
 8020870:	4296      	cmpeq	r6, r2
 8020872:	f144 04fd 	adc.w	r4, r4, #253	; 0xfd
 8020876:	f504 7440 	add.w	r4, r4, #768	; 0x300
 802087a:	d202      	bcs.n	8020882 <__aeabi_ddiv+0x6e>
 802087c:	085b      	lsrs	r3, r3, #1
 802087e:	ea4f 0232 	mov.w	r2, r2, rrx
 8020882:	1ab6      	subs	r6, r6, r2
 8020884:	eb65 0503 	sbc.w	r5, r5, r3
 8020888:	085b      	lsrs	r3, r3, #1
 802088a:	ea4f 0232 	mov.w	r2, r2, rrx
 802088e:	f44f 1080 	mov.w	r0, #1048576	; 0x100000
 8020892:	f44f 2c00 	mov.w	ip, #524288	; 0x80000
 8020896:	ebb6 0e02 	subs.w	lr, r6, r2
 802089a:	eb75 0e03 	sbcs.w	lr, r5, r3
 802089e:	bf22      	ittt	cs
 80208a0:	1ab6      	subcs	r6, r6, r2
 80208a2:	4675      	movcs	r5, lr
 80208a4:	ea40 000c 	orrcs.w	r0, r0, ip
 80208a8:	085b      	lsrs	r3, r3, #1
 80208aa:	ea4f 0232 	mov.w	r2, r2, rrx
 80208ae:	ebb6 0e02 	subs.w	lr, r6, r2
 80208b2:	eb75 0e03 	sbcs.w	lr, r5, r3
 80208b6:	bf22      	ittt	cs
 80208b8:	1ab6      	subcs	r6, r6, r2
 80208ba:	4675      	movcs	r5, lr
 80208bc:	ea40 005c 	orrcs.w	r0, r0, ip, lsr #1
 80208c0:	085b      	lsrs	r3, r3, #1
 80208c2:	ea4f 0232 	mov.w	r2, r2, rrx
 80208c6:	ebb6 0e02 	subs.w	lr, r6, r2
 80208ca:	eb75 0e03 	sbcs.w	lr, r5, r3
 80208ce:	bf22      	ittt	cs
 80208d0:	1ab6      	subcs	r6, r6, r2
 80208d2:	4675      	movcs	r5, lr
 80208d4:	ea40 009c 	orrcs.w	r0, r0, ip, lsr #2
 80208d8:	085b      	lsrs	r3, r3, #1
 80208da:	ea4f 0232 	mov.w	r2, r2, rrx
 80208de:	ebb6 0e02 	subs.w	lr, r6, r2
 80208e2:	eb75 0e03 	sbcs.w	lr, r5, r3
 80208e6:	bf22      	ittt	cs
 80208e8:	1ab6      	subcs	r6, r6, r2
 80208ea:	4675      	movcs	r5, lr
 80208ec:	ea40 00dc 	orrcs.w	r0, r0, ip, lsr #3
 80208f0:	ea55 0e06 	orrs.w	lr, r5, r6
 80208f4:	d018      	beq.n	8020928 <__aeabi_ddiv+0x114>
 80208f6:	ea4f 1505 	mov.w	r5, r5, lsl #4
 80208fa:	ea45 7516 	orr.w	r5, r5, r6, lsr #28
 80208fe:	ea4f 1606 	mov.w	r6, r6, lsl #4
 8020902:	ea4f 03c3 	mov.w	r3, r3, lsl #3
 8020906:	ea43 7352 	orr.w	r3, r3, r2, lsr #29
 802090a:	ea4f 02c2 	mov.w	r2, r2, lsl #3
 802090e:	ea5f 1c1c 	movs.w	ip, ip, lsr #4
 8020912:	d1c0      	bne.n	8020896 <__aeabi_ddiv+0x82>
 8020914:	f411 1f80 	tst.w	r1, #1048576	; 0x100000
 8020918:	d10b      	bne.n	8020932 <__aeabi_ddiv+0x11e>
 802091a:	ea41 0100 	orr.w	r1, r1, r0
 802091e:	f04f 0000 	mov.w	r0, #0
 8020922:	f04f 4c00 	mov.w	ip, #2147483648	; 0x80000000
 8020926:	e7b6      	b.n	8020896 <__aeabi_ddiv+0x82>
 8020928:	f411 1f80 	tst.w	r1, #1048576	; 0x100000
 802092c:	bf04      	itt	eq
 802092e:	4301      	orreq	r1, r0
 8020930:	2000      	moveq	r0, #0
 8020932:	f1b4 0cfd 	subs.w	ip, r4, #253	; 0xfd
 8020936:	bf88      	it	hi
 8020938:	f5bc 6fe0 	cmphi.w	ip, #1792	; 0x700
 802093c:	f63f aeaf 	bhi.w	802069e <__aeabi_dmul+0xde>
 8020940:	ebb5 0c03 	subs.w	ip, r5, r3
 8020944:	bf04      	itt	eq
 8020946:	ebb6 0c02 	subseq.w	ip, r6, r2
 802094a:	ea5f 0c50 	movseq.w	ip, r0, lsr #1
 802094e:	f150 0000 	adcs.w	r0, r0, #0
 8020952:	eb41 5104 	adc.w	r1, r1, r4, lsl #20
 8020956:	bd70      	pop	{r4, r5, r6, pc}
 8020958:	f00e 4e00 	and.w	lr, lr, #2147483648	; 0x80000000
 802095c:	ea4e 3111 	orr.w	r1, lr, r1, lsr #12
 8020960:	eb14 045c 	adds.w	r4, r4, ip, lsr #1
 8020964:	bfc2      	ittt	gt
 8020966:	ebd4 050c 	rsbsgt	r5, r4, ip
 802096a:	ea41 5104 	orrgt.w	r1, r1, r4, lsl #20
 802096e:	bd70      	popgt	{r4, r5, r6, pc}
 8020970:	f441 1180 	orr.w	r1, r1, #1048576	; 0x100000
 8020974:	f04f 0e00 	mov.w	lr, #0
 8020978:	3c01      	subs	r4, #1
 802097a:	e690      	b.n	802069e <__aeabi_dmul+0xde>
 802097c:	ea45 0e06 	orr.w	lr, r5, r6
 8020980:	e68d      	b.n	802069e <__aeabi_dmul+0xde>
 8020982:	ea0c 5513 	and.w	r5, ip, r3, lsr #20
 8020986:	ea94 0f0c 	teq	r4, ip
 802098a:	bf08      	it	eq
 802098c:	ea95 0f0c 	teqeq	r5, ip
 8020990:	f43f af3b 	beq.w	802080a <__aeabi_dmul+0x24a>
 8020994:	ea94 0f0c 	teq	r4, ip
 8020998:	d10a      	bne.n	80209b0 <__aeabi_ddiv+0x19c>
 802099a:	ea50 3401 	orrs.w	r4, r0, r1, lsl #12
 802099e:	f47f af34 	bne.w	802080a <__aeabi_dmul+0x24a>
 80209a2:	ea95 0f0c 	teq	r5, ip
 80209a6:	f47f af25 	bne.w	80207f4 <__aeabi_dmul+0x234>
 80209aa:	4610      	mov	r0, r2
 80209ac:	4619      	mov	r1, r3
 80209ae:	e72c      	b.n	802080a <__aeabi_dmul+0x24a>
 80209b0:	ea95 0f0c 	teq	r5, ip
 80209b4:	d106      	bne.n	80209c4 <__aeabi_ddiv+0x1b0>
 80209b6:	ea52 3503 	orrs.w	r5, r2, r3, lsl #12
 80209ba:	f43f aefd 	beq.w	80207b8 <__aeabi_dmul+0x1f8>
 80209be:	4610      	mov	r0, r2
 80209c0:	4619      	mov	r1, r3
 80209c2:	e722      	b.n	802080a <__aeabi_dmul+0x24a>
 80209c4:	ea50 0641 	orrs.w	r6, r0, r1, lsl #1
 80209c8:	bf18      	it	ne
 80209ca:	ea52 0643 	orrsne.w	r6, r2, r3, lsl #1
 80209ce:	f47f aec5 	bne.w	802075c <__aeabi_dmul+0x19c>
 80209d2:	ea50 0441 	orrs.w	r4, r0, r1, lsl #1
 80209d6:	f47f af0d 	bne.w	80207f4 <__aeabi_dmul+0x234>
 80209da:	ea52 0543 	orrs.w	r5, r2, r3, lsl #1
 80209de:	f47f aeeb 	bne.w	80207b8 <__aeabi_dmul+0x1f8>
 80209e2:	e712      	b.n	802080a <__aeabi_dmul+0x24a>

080209e4 <__gedf2>:
 80209e4:	f04f 3cff 	mov.w	ip, #4294967295
 80209e8:	e006      	b.n	80209f8 <__cmpdf2+0x4>
 80209ea:	bf00      	nop

080209ec <__ledf2>:
 80209ec:	f04f 0c01 	mov.w	ip, #1
 80209f0:	e002      	b.n	80209f8 <__cmpdf2+0x4>
 80209f2:	bf00      	nop

080209f4 <__cmpdf2>:
 80209f4:	f04f 0c01 	mov.w	ip, #1
 80209f8:	f84d cd04 	str.w	ip, [sp, #-4]!
 80209fc:	ea4f 0c41 	mov.w	ip, r1, lsl #1
 8020a00:	ea7f 5c6c 	mvns.w	ip, ip, asr #21
 8020a04:	ea4f 0c43 	mov.w	ip, r3, lsl #1
 8020a08:	bf18      	it	ne
 8020a0a:	ea7f 5c6c 	mvnsne.w	ip, ip, asr #21
 8020a0e:	d01b      	beq.n	8020a48 <__cmpdf2+0x54>
 8020a10:	b001      	add	sp, #4
 8020a12:	ea50 0c41 	orrs.w	ip, r0, r1, lsl #1
 8020a16:	bf0c      	ite	eq
 8020a18:	ea52 0c43 	orrseq.w	ip, r2, r3, lsl #1
 8020a1c:	ea91 0f03 	teqne	r1, r3
 8020a20:	bf02      	ittt	eq
 8020a22:	ea90 0f02 	teqeq	r0, r2
 8020a26:	2000      	moveq	r0, #0
 8020a28:	4770      	bxeq	lr
 8020a2a:	f110 0f00 	cmn.w	r0, #0
 8020a2e:	ea91 0f03 	teq	r1, r3
 8020a32:	bf58      	it	pl
 8020a34:	4299      	cmppl	r1, r3
 8020a36:	bf08      	it	eq
 8020a38:	4290      	cmpeq	r0, r2
 8020a3a:	bf2c      	ite	cs
 8020a3c:	17d8      	asrcs	r0, r3, #31
 8020a3e:	ea6f 70e3 	mvncc.w	r0, r3, asr #31
 8020a42:	f040 0001 	orr.w	r0, r0, #1
 8020a46:	4770      	bx	lr
 8020a48:	ea4f 0c41 	mov.w	ip, r1, lsl #1
 8020a4c:	ea7f 5c6c 	mvns.w	ip, ip, asr #21
 8020a50:	d102      	bne.n	8020a58 <__cmpdf2+0x64>
 8020a52:	ea50 3c01 	orrs.w	ip, r0, r1, lsl #12
 8020a56:	d107      	bne.n	8020a68 <__cmpdf2+0x74>
 8020a58:	ea4f 0c43 	mov.w	ip, r3, lsl #1
 8020a5c:	ea7f 5c6c 	mvns.w	ip, ip, asr #21
 8020a60:	d1d6      	bne.n	8020a10 <__cmpdf2+0x1c>
 8020a62:	ea52 3c03 	orrs.w	ip, r2, r3, lsl #12
 8020a66:	d0d3      	beq.n	8020a10 <__cmpdf2+0x1c>
 8020a68:	f85d 0b04 	ldr.w	r0, [sp], #4
 8020a6c:	4770      	bx	lr
 8020a6e:	bf00      	nop

08020a70 <__aeabi_cdrcmple>:
 8020a70:	4684      	mov	ip, r0
 8020a72:	4610      	mov	r0, r2
 8020a74:	4662      	mov	r2, ip
 8020a76:	468c      	mov	ip, r1
 8020a78:	4619      	mov	r1, r3
 8020a7a:	4663      	mov	r3, ip
 8020a7c:	e000      	b.n	8020a80 <__aeabi_cdcmpeq>
 8020a7e:	bf00      	nop

08020a80 <__aeabi_cdcmpeq>:
 8020a80:	b501      	push	{r0, lr}
 8020a82:	f7ff ffb7 	bl	80209f4 <__cmpdf2>
 8020a86:	2800      	cmp	r0, #0
 8020a88:	bf48      	it	mi
 8020a8a:	f110 0f00 	cmnmi.w	r0, #0
 8020a8e:	bd01      	pop	{r0, pc}

08020a90 <__aeabi_dcmpeq>:
 8020a90:	f84d ed08 	str.w	lr, [sp, #-8]!
 8020a94:	f7ff fff4 	bl	8020a80 <__aeabi_cdcmpeq>
 8020a98:	bf0c      	ite	eq
 8020a9a:	2001      	moveq	r0, #1
 8020a9c:	2000      	movne	r0, #0
 8020a9e:	f85d fb08 	ldr.w	pc, [sp], #8
 8020aa2:	bf00      	nop

08020aa4 <__aeabi_dcmplt>:
 8020aa4:	f84d ed08 	str.w	lr, [sp, #-8]!
 8020aa8:	f7ff ffea 	bl	8020a80 <__aeabi_cdcmpeq>
 8020aac:	bf34      	ite	cc
 8020aae:	2001      	movcc	r0, #1
 8020ab0:	2000      	movcs	r0, #0
 8020ab2:	f85d fb08 	ldr.w	pc, [sp], #8
 8020ab6:	bf00      	nop

08020ab8 <__aeabi_dcmple>:
 8020ab8:	f84d ed08 	str.w	lr, [sp, #-8]!
 8020abc:	f7ff ffe0 	bl	8020a80 <__aeabi_cdcmpeq>
 8020ac0:	bf94      	ite	ls
 8020ac2:	2001      	movls	r0, #1
 8020ac4:	2000      	movhi	r0, #0
 8020ac6:	f85d fb08 	ldr.w	pc, [sp], #8
 8020aca:	bf00      	nop

08020acc <__aeabi_dcmpge>:
 8020acc:	f84d ed08 	str.w	lr, [sp, #-8]!
 8020ad0:	f7ff ffce 	bl	8020a70 <__aeabi_cdrcmple>
 8020ad4:	bf94      	ite	ls
 8020ad6:	2001      	movls	r0, #1
 8020ad8:	2000      	movhi	r0, #0
 8020ada:	f85d fb08 	ldr.w	pc, [sp], #8
 8020ade:	bf00      	nop

08020ae0 <__aeabi_dcmpgt>:
 8020ae0:	f84d ed08 	str.w	lr, [sp, #-8]!
 8020ae4:	f7ff ffc4 	bl	8020a70 <__aeabi_cdrcmple>
 8020ae8:	bf34      	ite	cc
 8020aea:	2001      	movcc	r0, #1
 8020aec:	2000      	movcs	r0, #0
 8020aee:	f85d fb08 	ldr.w	pc, [sp], #8
 8020af2:	bf00      	nop

08020af4 <__aeabi_d2iz>:
 8020af4:	ea4f 0241 	mov.w	r2, r1, lsl #1
 8020af8:	f512 1200 	adds.w	r2, r2, #2097152	; 0x200000
 8020afc:	d215      	bcs.n	8020b2a <__aeabi_d2iz+0x36>
 8020afe:	d511      	bpl.n	8020b24 <__aeabi_d2iz+0x30>
 8020b00:	f46f 7378 	mvn.w	r3, #992	; 0x3e0
 8020b04:	ebb3 5262 	subs.w	r2, r3, r2, asr #21
 8020b08:	d912      	bls.n	8020b30 <__aeabi_d2iz+0x3c>
 8020b0a:	ea4f 23c1 	mov.w	r3, r1, lsl #11
 8020b0e:	f043 4300 	orr.w	r3, r3, #2147483648	; 0x80000000
 8020b12:	ea43 5350 	orr.w	r3, r3, r0, lsr #21
 8020b16:	f011 4f00 	tst.w	r1, #2147483648	; 0x80000000
 8020b1a:	fa23 f002 	lsr.w	r0, r3, r2
 8020b1e:	bf18      	it	ne
 8020b20:	4240      	negne	r0, r0
 8020b22:	4770      	bx	lr
 8020b24:	f04f 0000 	mov.w	r0, #0
 8020b28:	4770      	bx	lr
 8020b2a:	ea50 3001 	orrs.w	r0, r0, r1, lsl #12
 8020b2e:	d105      	bne.n	8020b3c <__aeabi_d2iz+0x48>
 8020b30:	f011 4000 	ands.w	r0, r1, #2147483648	; 0x80000000
 8020b34:	bf08      	it	eq
 8020b36:	f06f 4000 	mvneq.w	r0, #2147483648	; 0x80000000
 8020b3a:	4770      	bx	lr
 8020b3c:	f04f 0000 	mov.w	r0, #0
 8020b40:	4770      	bx	lr
 8020b42:	bf00      	nop

08020b44 <__aeabi_d2uiz>:
 8020b44:	004a      	lsls	r2, r1, #1
 8020b46:	d211      	bcs.n	8020b6c <__aeabi_d2uiz+0x28>
 8020b48:	f512 1200 	adds.w	r2, r2, #2097152	; 0x200000
 8020b4c:	d211      	bcs.n	8020b72 <__aeabi_d2uiz+0x2e>
 8020b4e:	d50d      	bpl.n	8020b6c <__aeabi_d2uiz+0x28>
 8020b50:	f46f 7378 	mvn.w	r3, #992	; 0x3e0
 8020b54:	ebb3 5262 	subs.w	r2, r3, r2, asr #21
 8020b58:	d40e      	bmi.n	8020b78 <__aeabi_d2uiz+0x34>
 8020b5a:	ea4f 23c1 	mov.w	r3, r1, lsl #11
 8020b5e:	f043 4300 	orr.w	r3, r3, #2147483648	; 0x80000000
 8020b62:	ea43 5350 	orr.w	r3, r3, r0, lsr #21
 8020b66:	fa23 f002 	lsr.w	r0, r3, r2
 8020b6a:	4770      	bx	lr
 8020b6c:	f04f 0000 	mov.w	r0, #0
 8020b70:	4770      	bx	lr
 8020b72:	ea50 3001 	orrs.w	r0, r0, r1, lsl #12
 8020b76:	d102      	bne.n	8020b7e <__aeabi_d2uiz+0x3a>
 8020b78:	f04f 30ff 	mov.w	r0, #4294967295
 8020b7c:	4770      	bx	lr
 8020b7e:	f04f 0000 	mov.w	r0, #0
 8020b82:	4770      	bx	lr

08020b84 <__aeabi_d2f>:
 8020b84:	ea4f 0241 	mov.w	r2, r1, lsl #1
 8020b88:	f1b2 43e0 	subs.w	r3, r2, #1879048192	; 0x70000000
 8020b8c:	bf24      	itt	cs
 8020b8e:	f5b3 1c00 	subscs.w	ip, r3, #2097152	; 0x200000
 8020b92:	f1dc 5cfe 	rsbscs	ip, ip, #532676608	; 0x1fc00000
 8020b96:	d90d      	bls.n	8020bb4 <__aeabi_d2f+0x30>
 8020b98:	f001 4c00 	and.w	ip, r1, #2147483648	; 0x80000000
 8020b9c:	ea4f 02c0 	mov.w	r2, r0, lsl #3
 8020ba0:	ea4c 7050 	orr.w	r0, ip, r0, lsr #29
 8020ba4:	f1b2 4f00 	cmp.w	r2, #2147483648	; 0x80000000
 8020ba8:	eb40 0083 	adc.w	r0, r0, r3, lsl #2
 8020bac:	bf08      	it	eq
 8020bae:	f020 0001 	biceq.w	r0, r0, #1
 8020bb2:	4770      	bx	lr
 8020bb4:	f011 4f80 	tst.w	r1, #1073741824	; 0x40000000
 8020bb8:	d121      	bne.n	8020bfe <__aeabi_d2f+0x7a>
 8020bba:	f113 7238 	adds.w	r2, r3, #48234496	; 0x2e00000
 8020bbe:	bfbc      	itt	lt
 8020bc0:	f001 4000 	andlt.w	r0, r1, #2147483648	; 0x80000000
 8020bc4:	4770      	bxlt	lr
 8020bc6:	f441 1180 	orr.w	r1, r1, #1048576	; 0x100000
 8020bca:	ea4f 5252 	mov.w	r2, r2, lsr #21
 8020bce:	f1c2 0218 	rsb	r2, r2, #24
 8020bd2:	f1c2 0c20 	rsb	ip, r2, #32
 8020bd6:	fa10 f30c 	lsls.w	r3, r0, ip
 8020bda:	fa20 f002 	lsr.w	r0, r0, r2
 8020bde:	bf18      	it	ne
 8020be0:	f040 0001 	orrne.w	r0, r0, #1
 8020be4:	ea4f 23c1 	mov.w	r3, r1, lsl #11
 8020be8:	ea4f 23d3 	mov.w	r3, r3, lsr #11
 8020bec:	fa03 fc0c 	lsl.w	ip, r3, ip
 8020bf0:	ea40 000c 	orr.w	r0, r0, ip
 8020bf4:	fa23 f302 	lsr.w	r3, r3, r2
 8020bf8:	ea4f 0343 	mov.w	r3, r3, lsl #1
 8020bfc:	e7cc      	b.n	8020b98 <__aeabi_d2f+0x14>
 8020bfe:	ea7f 5362 	mvns.w	r3, r2, asr #21
 8020c02:	d107      	bne.n	8020c14 <__aeabi_d2f+0x90>
 8020c04:	ea50 3301 	orrs.w	r3, r0, r1, lsl #12
 8020c08:	bf1e      	ittt	ne
 8020c0a:	f04f 40fe 	movne.w	r0, #2130706432	; 0x7f000000
 8020c0e:	f440 0040 	orrne.w	r0, r0, #12582912	; 0xc00000
 8020c12:	4770      	bxne	lr
 8020c14:	f001 4000 	and.w	r0, r1, #2147483648	; 0x80000000
 8020c18:	f040 40fe 	orr.w	r0, r0, #2130706432	; 0x7f000000
 8020c1c:	f440 0000 	orr.w	r0, r0, #8388608	; 0x800000
 8020c20:	4770      	bx	lr
 8020c22:	bf00      	nop

08020c24 <__aeabi_frsub>:
 8020c24:	f080 4000 	eor.w	r0, r0, #2147483648	; 0x80000000
 8020c28:	e002      	b.n	8020c30 <__addsf3>
 8020c2a:	bf00      	nop

08020c2c <__aeabi_fsub>:
 8020c2c:	f081 4100 	eor.w	r1, r1, #2147483648	; 0x80000000

08020c30 <__addsf3>:
 8020c30:	0042      	lsls	r2, r0, #1
 8020c32:	bf1f      	itttt	ne
 8020c34:	ea5f 0341 	movsne.w	r3, r1, lsl #1
 8020c38:	ea92 0f03 	teqne	r2, r3
 8020c3c:	ea7f 6c22 	mvnsne.w	ip, r2, asr #24
 8020c40:	ea7f 6c23 	mvnsne.w	ip, r3, asr #24
 8020c44:	d06a      	beq.n	8020d1c <__addsf3+0xec>
 8020c46:	ea4f 6212 	mov.w	r2, r2, lsr #24
 8020c4a:	ebd2 6313 	rsbs	r3, r2, r3, lsr #24
 8020c4e:	bfc1      	itttt	gt
 8020c50:	18d2      	addgt	r2, r2, r3
 8020c52:	4041      	eorgt	r1, r0
 8020c54:	4048      	eorgt	r0, r1
 8020c56:	4041      	eorgt	r1, r0
 8020c58:	bfb8      	it	lt
 8020c5a:	425b      	neglt	r3, r3
 8020c5c:	2b19      	cmp	r3, #25
 8020c5e:	bf88      	it	hi
 8020c60:	4770      	bxhi	lr
 8020c62:	f010 4f00 	tst.w	r0, #2147483648	; 0x80000000
 8020c66:	f440 0000 	orr.w	r0, r0, #8388608	; 0x800000
 8020c6a:	f020 407f 	bic.w	r0, r0, #4278190080	; 0xff000000
 8020c6e:	bf18      	it	ne
 8020c70:	4240      	negne	r0, r0
 8020c72:	f011 4f00 	tst.w	r1, #2147483648	; 0x80000000
 8020c76:	f441 0100 	orr.w	r1, r1, #8388608	; 0x800000
 8020c7a:	f021 417f 	bic.w	r1, r1, #4278190080	; 0xff000000
 8020c7e:	bf18      	it	ne
 8020c80:	4249      	negne	r1, r1
 8020c82:	ea92 0f03 	teq	r2, r3
 8020c86:	d03f      	beq.n	8020d08 <__addsf3+0xd8>
 8020c88:	f1a2 0201 	sub.w	r2, r2, #1
 8020c8c:	fa41 fc03 	asr.w	ip, r1, r3
 8020c90:	eb10 000c 	adds.w	r0, r0, ip
 8020c94:	f1c3 0320 	rsb	r3, r3, #32
 8020c98:	fa01 f103 	lsl.w	r1, r1, r3
 8020c9c:	f000 4300 	and.w	r3, r0, #2147483648	; 0x80000000
 8020ca0:	d502      	bpl.n	8020ca8 <__addsf3+0x78>
 8020ca2:	4249      	negs	r1, r1
 8020ca4:	eb60 0040 	sbc.w	r0, r0, r0, lsl #1
 8020ca8:	f5b0 0f00 	cmp.w	r0, #8388608	; 0x800000
 8020cac:	d313      	bcc.n	8020cd6 <__addsf3+0xa6>
 8020cae:	f1b0 7f80 	cmp.w	r0, #16777216	; 0x1000000
 8020cb2:	d306      	bcc.n	8020cc2 <__addsf3+0x92>
 8020cb4:	0840      	lsrs	r0, r0, #1
 8020cb6:	ea4f 0131 	mov.w	r1, r1, rrx
 8020cba:	f102 0201 	add.w	r2, r2, #1
 8020cbe:	2afe      	cmp	r2, #254	; 0xfe
 8020cc0:	d251      	bcs.n	8020d66 <__addsf3+0x136>
 8020cc2:	f1b1 4f00 	cmp.w	r1, #2147483648	; 0x80000000
 8020cc6:	eb40 50c2 	adc.w	r0, r0, r2, lsl #23
 8020cca:	bf08      	it	eq
 8020ccc:	f020 0001 	biceq.w	r0, r0, #1
 8020cd0:	ea40 0003 	orr.w	r0, r0, r3
 8020cd4:	4770      	bx	lr
 8020cd6:	0049      	lsls	r1, r1, #1
 8020cd8:	eb40 0000 	adc.w	r0, r0, r0
 8020cdc:	f410 0f00 	tst.w	r0, #8388608	; 0x800000
 8020ce0:	f1a2 0201 	sub.w	r2, r2, #1
 8020ce4:	d1ed      	bne.n	8020cc2 <__addsf3+0x92>
 8020ce6:	fab0 fc80 	clz	ip, r0
 8020cea:	f1ac 0c08 	sub.w	ip, ip, #8
 8020cee:	ebb2 020c 	subs.w	r2, r2, ip
 8020cf2:	fa00 f00c 	lsl.w	r0, r0, ip
 8020cf6:	bfaa      	itet	ge
 8020cf8:	eb00 50c2 	addge.w	r0, r0, r2, lsl #23
 8020cfc:	4252      	neglt	r2, r2
 8020cfe:	4318      	orrge	r0, r3
 8020d00:	bfbc      	itt	lt
 8020d02:	40d0      	lsrlt	r0, r2
 8020d04:	4318      	orrlt	r0, r3
 8020d06:	4770      	bx	lr
 8020d08:	f092 0f00 	teq	r2, #0
 8020d0c:	f481 0100 	eor.w	r1, r1, #8388608	; 0x800000
 8020d10:	bf06      	itte	eq
 8020d12:	f480 0000 	eoreq.w	r0, r0, #8388608	; 0x800000
 8020d16:	3201      	addeq	r2, #1
 8020d18:	3b01      	subne	r3, #1
 8020d1a:	e7b5      	b.n	8020c88 <__addsf3+0x58>
 8020d1c:	ea4f 0341 	mov.w	r3, r1, lsl #1
 8020d20:	ea7f 6c22 	mvns.w	ip, r2, asr #24
 8020d24:	bf18      	it	ne
 8020d26:	ea7f 6c23 	mvnsne.w	ip, r3, asr #24
 8020d2a:	d021      	beq.n	8020d70 <__addsf3+0x140>
 8020d2c:	ea92 0f03 	teq	r2, r3
 8020d30:	d004      	beq.n	8020d3c <__addsf3+0x10c>
 8020d32:	f092 0f00 	teq	r2, #0
 8020d36:	bf08      	it	eq
 8020d38:	4608      	moveq	r0, r1
 8020d3a:	4770      	bx	lr
 8020d3c:	ea90 0f01 	teq	r0, r1
 8020d40:	bf1c      	itt	ne
 8020d42:	2000      	movne	r0, #0
 8020d44:	4770      	bxne	lr
 8020d46:	f012 4f7f 	tst.w	r2, #4278190080	; 0xff000000
 8020d4a:	d104      	bne.n	8020d56 <__addsf3+0x126>
 8020d4c:	0040      	lsls	r0, r0, #1
 8020d4e:	bf28      	it	cs
 8020d50:	f040 4000 	orrcs.w	r0, r0, #2147483648	; 0x80000000
 8020d54:	4770      	bx	lr
 8020d56:	f112 7200 	adds.w	r2, r2, #33554432	; 0x2000000
 8020d5a:	bf3c      	itt	cc
 8020d5c:	f500 0000 	addcc.w	r0, r0, #8388608	; 0x800000
 8020d60:	4770      	bxcc	lr
 8020d62:	f000 4300 	and.w	r3, r0, #2147483648	; 0x80000000
 8020d66:	f043 40fe 	orr.w	r0, r3, #2130706432	; 0x7f000000
 8020d6a:	f440 0000 	orr.w	r0, r0, #8388608	; 0x800000
 8020d6e:	4770      	bx	lr
 8020d70:	ea7f 6222 	mvns.w	r2, r2, asr #24
 8020d74:	bf16      	itet	ne
 8020d76:	4608      	movne	r0, r1
 8020d78:	ea7f 6323 	mvnseq.w	r3, r3, asr #24
 8020d7c:	4601      	movne	r1, r0
 8020d7e:	0242      	lsls	r2, r0, #9
 8020d80:	bf06      	itte	eq
 8020d82:	ea5f 2341 	movseq.w	r3, r1, lsl #9
 8020d86:	ea90 0f01 	teqeq	r0, r1
 8020d8a:	f440 0080 	orrne.w	r0, r0, #4194304	; 0x400000
 8020d8e:	4770      	bx	lr

08020d90 <__aeabi_ui2f>:
 8020d90:	f04f 0300 	mov.w	r3, #0
 8020d94:	e004      	b.n	8020da0 <__aeabi_i2f+0x8>
 8020d96:	bf00      	nop

08020d98 <__aeabi_i2f>:
 8020d98:	f010 4300 	ands.w	r3, r0, #2147483648	; 0x80000000
 8020d9c:	bf48      	it	mi
 8020d9e:	4240      	negmi	r0, r0
 8020da0:	ea5f 0c00 	movs.w	ip, r0
 8020da4:	bf08      	it	eq
 8020da6:	4770      	bxeq	lr
 8020da8:	f043 4396 	orr.w	r3, r3, #1258291200	; 0x4b000000
 8020dac:	4601      	mov	r1, r0
 8020dae:	f04f 0000 	mov.w	r0, #0
 8020db2:	e01c      	b.n	8020dee <__aeabi_l2f+0x2a>

08020db4 <__aeabi_ul2f>:
 8020db4:	ea50 0201 	orrs.w	r2, r0, r1
 8020db8:	bf08      	it	eq
 8020dba:	4770      	bxeq	lr
 8020dbc:	f04f 0300 	mov.w	r3, #0
 8020dc0:	e00a      	b.n	8020dd8 <__aeabi_l2f+0x14>
 8020dc2:	bf00      	nop

08020dc4 <__aeabi_l2f>:
 8020dc4:	ea50 0201 	orrs.w	r2, r0, r1
 8020dc8:	bf08      	it	eq
 8020dca:	4770      	bxeq	lr
 8020dcc:	f011 4300 	ands.w	r3, r1, #2147483648	; 0x80000000
 8020dd0:	d502      	bpl.n	8020dd8 <__aeabi_l2f+0x14>
 8020dd2:	4240      	negs	r0, r0
 8020dd4:	eb61 0141 	sbc.w	r1, r1, r1, lsl #1
 8020dd8:	ea5f 0c01 	movs.w	ip, r1
 8020ddc:	bf02      	ittt	eq
 8020dde:	4684      	moveq	ip, r0
 8020de0:	4601      	moveq	r1, r0
 8020de2:	2000      	moveq	r0, #0
 8020de4:	f043 43b6 	orr.w	r3, r3, #1526726656	; 0x5b000000
 8020de8:	bf08      	it	eq
 8020dea:	f1a3 5380 	subeq.w	r3, r3, #268435456	; 0x10000000
 8020dee:	f5a3 0300 	sub.w	r3, r3, #8388608	; 0x800000
 8020df2:	fabc f28c 	clz	r2, ip
 8020df6:	3a08      	subs	r2, #8
 8020df8:	eba3 53c2 	sub.w	r3, r3, r2, lsl #23
 8020dfc:	db10      	blt.n	8020e20 <__aeabi_l2f+0x5c>
 8020dfe:	fa01 fc02 	lsl.w	ip, r1, r2
 8020e02:	4463      	add	r3, ip
 8020e04:	fa00 fc02 	lsl.w	ip, r0, r2
 8020e08:	f1c2 0220 	rsb	r2, r2, #32
 8020e0c:	f1bc 4f00 	cmp.w	ip, #2147483648	; 0x80000000
 8020e10:	fa20 f202 	lsr.w	r2, r0, r2
 8020e14:	eb43 0002 	adc.w	r0, r3, r2
 8020e18:	bf08      	it	eq
 8020e1a:	f020 0001 	biceq.w	r0, r0, #1
 8020e1e:	4770      	bx	lr
 8020e20:	f102 0220 	add.w	r2, r2, #32
 8020e24:	fa01 fc02 	lsl.w	ip, r1, r2
 8020e28:	f1c2 0220 	rsb	r2, r2, #32
 8020e2c:	ea50 004c 	orrs.w	r0, r0, ip, lsl #1
 8020e30:	fa21 f202 	lsr.w	r2, r1, r2
 8020e34:	eb43 0002 	adc.w	r0, r3, r2
 8020e38:	bf08      	it	eq
 8020e3a:	ea20 70dc 	biceq.w	r0, r0, ip, lsr #31
 8020e3e:	4770      	bx	lr

08020e40 <__aeabi_fmul>:
 8020e40:	f04f 0cff 	mov.w	ip, #255	; 0xff
 8020e44:	ea1c 52d0 	ands.w	r2, ip, r0, lsr #23
 8020e48:	bf1e      	ittt	ne
 8020e4a:	ea1c 53d1 	andsne.w	r3, ip, r1, lsr #23
 8020e4e:	ea92 0f0c 	teqne	r2, ip
 8020e52:	ea93 0f0c 	teqne	r3, ip
 8020e56:	d06f      	beq.n	8020f38 <__aeabi_fmul+0xf8>
 8020e58:	441a      	add	r2, r3
 8020e5a:	ea80 0c01 	eor.w	ip, r0, r1
 8020e5e:	0240      	lsls	r0, r0, #9
 8020e60:	bf18      	it	ne
 8020e62:	ea5f 2141 	movsne.w	r1, r1, lsl #9
 8020e66:	d01e      	beq.n	8020ea6 <__aeabi_fmul+0x66>
 8020e68:	f04f 6300 	mov.w	r3, #134217728	; 0x8000000
 8020e6c:	ea43 1050 	orr.w	r0, r3, r0, lsr #5
 8020e70:	ea43 1151 	orr.w	r1, r3, r1, lsr #5
 8020e74:	fba0 3101 	umull	r3, r1, r0, r1
 8020e78:	f00c 4000 	and.w	r0, ip, #2147483648	; 0x80000000
 8020e7c:	f5b1 0f00 	cmp.w	r1, #8388608	; 0x800000
 8020e80:	bf3e      	ittt	cc
 8020e82:	0049      	lslcc	r1, r1, #1
 8020e84:	ea41 71d3 	orrcc.w	r1, r1, r3, lsr #31
 8020e88:	005b      	lslcc	r3, r3, #1
 8020e8a:	ea40 0001 	orr.w	r0, r0, r1
 8020e8e:	f162 027f 	sbc.w	r2, r2, #127	; 0x7f
 8020e92:	2afd      	cmp	r2, #253	; 0xfd
 8020e94:	d81d      	bhi.n	8020ed2 <__aeabi_fmul+0x92>
 8020e96:	f1b3 4f00 	cmp.w	r3, #2147483648	; 0x80000000
 8020e9a:	eb40 50c2 	adc.w	r0, r0, r2, lsl #23
 8020e9e:	bf08      	it	eq
 8020ea0:	f020 0001 	biceq.w	r0, r0, #1
 8020ea4:	4770      	bx	lr
 8020ea6:	f090 0f00 	teq	r0, #0
 8020eaa:	f00c 4c00 	and.w	ip, ip, #2147483648	; 0x80000000
 8020eae:	bf08      	it	eq
 8020eb0:	0249      	lsleq	r1, r1, #9
 8020eb2:	ea4c 2050 	orr.w	r0, ip, r0, lsr #9
 8020eb6:	ea40 2051 	orr.w	r0, r0, r1, lsr #9
 8020eba:	3a7f      	subs	r2, #127	; 0x7f
 8020ebc:	bfc2      	ittt	gt
 8020ebe:	f1d2 03ff 	rsbsgt	r3, r2, #255	; 0xff
 8020ec2:	ea40 50c2 	orrgt.w	r0, r0, r2, lsl #23
 8020ec6:	4770      	bxgt	lr
 8020ec8:	f440 0000 	orr.w	r0, r0, #8388608	; 0x800000
 8020ecc:	f04f 0300 	mov.w	r3, #0
 8020ed0:	3a01      	subs	r2, #1
 8020ed2:	dc5d      	bgt.n	8020f90 <__aeabi_fmul+0x150>
 8020ed4:	f112 0f19 	cmn.w	r2, #25
 8020ed8:	bfdc      	itt	le
 8020eda:	f000 4000 	andle.w	r0, r0, #2147483648	; 0x80000000
 8020ede:	4770      	bxle	lr
 8020ee0:	f1c2 0200 	rsb	r2, r2, #0
 8020ee4:	0041      	lsls	r1, r0, #1
 8020ee6:	fa21 f102 	lsr.w	r1, r1, r2
 8020eea:	f1c2 0220 	rsb	r2, r2, #32
 8020eee:	fa00 fc02 	lsl.w	ip, r0, r2
 8020ef2:	ea5f 0031 	movs.w	r0, r1, rrx
 8020ef6:	f140 0000 	adc.w	r0, r0, #0
 8020efa:	ea53 034c 	orrs.w	r3, r3, ip, lsl #1
 8020efe:	bf08      	it	eq
 8020f00:	ea20 70dc 	biceq.w	r0, r0, ip, lsr #31
 8020f04:	4770      	bx	lr
 8020f06:	f092 0f00 	teq	r2, #0
 8020f0a:	f000 4c00 	and.w	ip, r0, #2147483648	; 0x80000000
 8020f0e:	bf02      	ittt	eq
 8020f10:	0040      	lsleq	r0, r0, #1
 8020f12:	f410 0f00 	tsteq.w	r0, #8388608	; 0x800000
 8020f16:	3a01      	subeq	r2, #1
 8020f18:	d0f9      	beq.n	8020f0e <__aeabi_fmul+0xce>
 8020f1a:	ea40 000c 	orr.w	r0, r0, ip
 8020f1e:	f093 0f00 	teq	r3, #0
 8020f22:	f001 4c00 	and.w	ip, r1, #2147483648	; 0x80000000
 8020f26:	bf02      	ittt	eq
 8020f28:	0049      	lsleq	r1, r1, #1
 8020f2a:	f411 0f00 	tsteq.w	r1, #8388608	; 0x800000
 8020f2e:	3b01      	subeq	r3, #1
 8020f30:	d0f9      	beq.n	8020f26 <__aeabi_fmul+0xe6>
 8020f32:	ea41 010c 	orr.w	r1, r1, ip
 8020f36:	e78f      	b.n	8020e58 <__aeabi_fmul+0x18>
 8020f38:	ea0c 53d1 	and.w	r3, ip, r1, lsr #23
 8020f3c:	ea92 0f0c 	teq	r2, ip
 8020f40:	bf18      	it	ne
 8020f42:	ea93 0f0c 	teqne	r3, ip
 8020f46:	d00a      	beq.n	8020f5e <__aeabi_fmul+0x11e>
 8020f48:	f030 4c00 	bics.w	ip, r0, #2147483648	; 0x80000000
 8020f4c:	bf18      	it	ne
 8020f4e:	f031 4c00 	bicsne.w	ip, r1, #2147483648	; 0x80000000
 8020f52:	d1d8      	bne.n	8020f06 <__aeabi_fmul+0xc6>
 8020f54:	ea80 0001 	eor.w	r0, r0, r1
 8020f58:	f000 4000 	and.w	r0, r0, #2147483648	; 0x80000000
 8020f5c:	4770      	bx	lr
 8020f5e:	f090 0f00 	teq	r0, #0
 8020f62:	bf17      	itett	ne
 8020f64:	f090 4f00 	teqne	r0, #2147483648	; 0x80000000
 8020f68:	4608      	moveq	r0, r1
 8020f6a:	f091 0f00 	teqne	r1, #0
 8020f6e:	f091 4f00 	teqne	r1, #2147483648	; 0x80000000
 8020f72:	d014      	beq.n	8020f9e <__aeabi_fmul+0x15e>
 8020f74:	ea92 0f0c 	teq	r2, ip
 8020f78:	d101      	bne.n	8020f7e <__aeabi_fmul+0x13e>
 8020f7a:	0242      	lsls	r2, r0, #9
 8020f7c:	d10f      	bne.n	8020f9e <__aeabi_fmul+0x15e>
 8020f7e:	ea93 0f0c 	teq	r3, ip
 8020f82:	d103      	bne.n	8020f8c <__aeabi_fmul+0x14c>
 8020f84:	024b      	lsls	r3, r1, #9
 8020f86:	bf18      	it	ne
 8020f88:	4608      	movne	r0, r1
 8020f8a:	d108      	bne.n	8020f9e <__aeabi_fmul+0x15e>
 8020f8c:	ea80 0001 	eor.w	r0, r0, r1
 8020f90:	f000 4000 	and.w	r0, r0, #2147483648	; 0x80000000
 8020f94:	f040 40fe 	orr.w	r0, r0, #2130706432	; 0x7f000000
 8020f98:	f440 0000 	orr.w	r0, r0, #8388608	; 0x800000
 8020f9c:	4770      	bx	lr
 8020f9e:	f040 40fe 	orr.w	r0, r0, #2130706432	; 0x7f000000
 8020fa2:	f440 0040 	orr.w	r0, r0, #12582912	; 0xc00000
 8020fa6:	4770      	bx	lr

08020fa8 <__aeabi_fdiv>:
 8020fa8:	f04f 0cff 	mov.w	ip, #255	; 0xff
 8020fac:	ea1c 52d0 	ands.w	r2, ip, r0, lsr #23
 8020fb0:	bf1e      	ittt	ne
 8020fb2:	ea1c 53d1 	andsne.w	r3, ip, r1, lsr #23
 8020fb6:	ea92 0f0c 	teqne	r2, ip
 8020fba:	ea93 0f0c 	teqne	r3, ip
 8020fbe:	d069      	beq.n	8021094 <__aeabi_fdiv+0xec>
 8020fc0:	eba2 0203 	sub.w	r2, r2, r3
 8020fc4:	ea80 0c01 	eor.w	ip, r0, r1
 8020fc8:	0249      	lsls	r1, r1, #9
 8020fca:	ea4f 2040 	mov.w	r0, r0, lsl #9
 8020fce:	d037      	beq.n	8021040 <__aeabi_fdiv+0x98>
 8020fd0:	f04f 5380 	mov.w	r3, #268435456	; 0x10000000
 8020fd4:	ea43 1111 	orr.w	r1, r3, r1, lsr #4
 8020fd8:	ea43 1310 	orr.w	r3, r3, r0, lsr #4
 8020fdc:	f00c 4000 	and.w	r0, ip, #2147483648	; 0x80000000
 8020fe0:	428b      	cmp	r3, r1
 8020fe2:	bf38      	it	cc
 8020fe4:	005b      	lslcc	r3, r3, #1
 8020fe6:	f142 027d 	adc.w	r2, r2, #125	; 0x7d
 8020fea:	f44f 0c00 	mov.w	ip, #8388608	; 0x800000
 8020fee:	428b      	cmp	r3, r1
 8020ff0:	bf24      	itt	cs
 8020ff2:	1a5b      	subcs	r3, r3, r1
 8020ff4:	ea40 000c 	orrcs.w	r0, r0, ip
 8020ff8:	ebb3 0f51 	cmp.w	r3, r1, lsr #1
 8020ffc:	bf24      	itt	cs
 8020ffe:	eba3 0351 	subcs.w	r3, r3, r1, lsr #1
 8021002:	ea40 005c 	orrcs.w	r0, r0, ip, lsr #1
 8021006:	ebb3 0f91 	cmp.w	r3, r1, lsr #2
 802100a:	bf24      	itt	cs
 802100c:	eba3 0391 	subcs.w	r3, r3, r1, lsr #2
 8021010:	ea40 009c 	orrcs.w	r0, r0, ip, lsr #2
 8021014:	ebb3 0fd1 	cmp.w	r3, r1, lsr #3
 8021018:	bf24      	itt	cs
 802101a:	eba3 03d1 	subcs.w	r3, r3, r1, lsr #3
 802101e:	ea40 00dc 	orrcs.w	r0, r0, ip, lsr #3
 8021022:	011b      	lsls	r3, r3, #4
 8021024:	bf18      	it	ne
 8021026:	ea5f 1c1c 	movsne.w	ip, ip, lsr #4
 802102a:	d1e0      	bne.n	8020fee <__aeabi_fdiv+0x46>
 802102c:	2afd      	cmp	r2, #253	; 0xfd
 802102e:	f63f af50 	bhi.w	8020ed2 <__aeabi_fmul+0x92>
 8021032:	428b      	cmp	r3, r1
 8021034:	eb40 50c2 	adc.w	r0, r0, r2, lsl #23
 8021038:	bf08      	it	eq
 802103a:	f020 0001 	biceq.w	r0, r0, #1
 802103e:	4770      	bx	lr
 8021040:	f00c 4c00 	and.w	ip, ip, #2147483648	; 0x80000000
 8021044:	ea4c 2050 	orr.w	r0, ip, r0, lsr #9
 8021048:	327f      	adds	r2, #127	; 0x7f
 802104a:	bfc2      	ittt	gt
 802104c:	f1d2 03ff 	rsbsgt	r3, r2, #255	; 0xff
 8021050:	ea40 50c2 	orrgt.w	r0, r0, r2, lsl #23
 8021054:	4770      	bxgt	lr
 8021056:	f440 0000 	orr.w	r0, r0, #8388608	; 0x800000
 802105a:	f04f 0300 	mov.w	r3, #0
 802105e:	3a01      	subs	r2, #1
 8021060:	e737      	b.n	8020ed2 <__aeabi_fmul+0x92>
 8021062:	f092 0f00 	teq	r2, #0
 8021066:	f000 4c00 	and.w	ip, r0, #2147483648	; 0x80000000
 802106a:	bf02      	ittt	eq
 802106c:	0040      	lsleq	r0, r0, #1
 802106e:	f410 0f00 	tsteq.w	r0, #8388608	; 0x800000
 8021072:	3a01      	subeq	r2, #1
 8021074:	d0f9      	beq.n	802106a <__aeabi_fdiv+0xc2>
 8021076:	ea40 000c 	orr.w	r0, r0, ip
 802107a:	f093 0f00 	teq	r3, #0
 802107e:	f001 4c00 	and.w	ip, r1, #2147483648	; 0x80000000
 8021082:	bf02      	ittt	eq
 8021084:	0049      	lsleq	r1, r1, #1
 8021086:	f411 0f00 	tsteq.w	r1, #8388608	; 0x800000
 802108a:	3b01      	subeq	r3, #1
 802108c:	d0f9      	beq.n	8021082 <__aeabi_fdiv+0xda>
 802108e:	ea41 010c 	orr.w	r1, r1, ip
 8021092:	e795      	b.n	8020fc0 <__aeabi_fdiv+0x18>
 8021094:	ea0c 53d1 	and.w	r3, ip, r1, lsr #23
 8021098:	ea92 0f0c 	teq	r2, ip
 802109c:	d108      	bne.n	80210b0 <__aeabi_fdiv+0x108>
 802109e:	0242      	lsls	r2, r0, #9
 80210a0:	f47f af7d 	bne.w	8020f9e <__aeabi_fmul+0x15e>
 80210a4:	ea93 0f0c 	teq	r3, ip
 80210a8:	f47f af70 	bne.w	8020f8c <__aeabi_fmul+0x14c>
 80210ac:	4608      	mov	r0, r1
 80210ae:	e776      	b.n	8020f9e <__aeabi_fmul+0x15e>
 80210b0:	ea93 0f0c 	teq	r3, ip
 80210b4:	d104      	bne.n	80210c0 <__aeabi_fdiv+0x118>
 80210b6:	024b      	lsls	r3, r1, #9
 80210b8:	f43f af4c 	beq.w	8020f54 <__aeabi_fmul+0x114>
 80210bc:	4608      	mov	r0, r1
 80210be:	e76e      	b.n	8020f9e <__aeabi_fmul+0x15e>
 80210c0:	f030 4c00 	bics.w	ip, r0, #2147483648	; 0x80000000
 80210c4:	bf18      	it	ne
 80210c6:	f031 4c00 	bicsne.w	ip, r1, #2147483648	; 0x80000000
 80210ca:	d1ca      	bne.n	8021062 <__aeabi_fdiv+0xba>
 80210cc:	f030 4200 	bics.w	r2, r0, #2147483648	; 0x80000000
 80210d0:	f47f af5c 	bne.w	8020f8c <__aeabi_fmul+0x14c>
 80210d4:	f031 4300 	bics.w	r3, r1, #2147483648	; 0x80000000
 80210d8:	f47f af3c 	bne.w	8020f54 <__aeabi_fmul+0x114>
 80210dc:	e75f      	b.n	8020f9e <__aeabi_fmul+0x15e>
 80210de:	bf00      	nop

080210e0 <__gesf2>:
 80210e0:	f04f 3cff 	mov.w	ip, #4294967295
 80210e4:	e006      	b.n	80210f4 <__cmpsf2+0x4>
 80210e6:	bf00      	nop

080210e8 <__lesf2>:
 80210e8:	f04f 0c01 	mov.w	ip, #1
 80210ec:	e002      	b.n	80210f4 <__cmpsf2+0x4>
 80210ee:	bf00      	nop

080210f0 <__cmpsf2>:
 80210f0:	f04f 0c01 	mov.w	ip, #1
 80210f4:	f84d cd04 	str.w	ip, [sp, #-4]!
 80210f8:	ea4f 0240 	mov.w	r2, r0, lsl #1
 80210fc:	ea4f 0341 	mov.w	r3, r1, lsl #1
 8021100:	ea7f 6c22 	mvns.w	ip, r2, asr #24
 8021104:	bf18      	it	ne
 8021106:	ea7f 6c23 	mvnsne.w	ip, r3, asr #24
 802110a:	d011      	beq.n	8021130 <__cmpsf2+0x40>
 802110c:	b001      	add	sp, #4
 802110e:	ea52 0c53 	orrs.w	ip, r2, r3, lsr #1
 8021112:	bf18      	it	ne
 8021114:	ea90 0f01 	teqne	r0, r1
 8021118:	bf58      	it	pl
 802111a:	ebb2 0003 	subspl.w	r0, r2, r3
 802111e:	bf88      	it	hi
 8021120:	17c8      	asrhi	r0, r1, #31
 8021122:	bf38      	it	cc
 8021124:	ea6f 70e1 	mvncc.w	r0, r1, asr #31
 8021128:	bf18      	it	ne
 802112a:	f040 0001 	orrne.w	r0, r0, #1
 802112e:	4770      	bx	lr
 8021130:	ea7f 6c22 	mvns.w	ip, r2, asr #24
 8021134:	d102      	bne.n	802113c <__cmpsf2+0x4c>
 8021136:	ea5f 2c40 	movs.w	ip, r0, lsl #9
 802113a:	d105      	bne.n	8021148 <__cmpsf2+0x58>
 802113c:	ea7f 6c23 	mvns.w	ip, r3, asr #24
 8021140:	d1e4      	bne.n	802110c <__cmpsf2+0x1c>
 8021142:	ea5f 2c41 	movs.w	ip, r1, lsl #9
 8021146:	d0e1      	beq.n	802110c <__cmpsf2+0x1c>
 8021148:	f85d 0b04 	ldr.w	r0, [sp], #4
 802114c:	4770      	bx	lr
 802114e:	bf00      	nop

08021150 <__aeabi_cfrcmple>:
 8021150:	4684      	mov	ip, r0
 8021152:	4608      	mov	r0, r1
 8021154:	4661      	mov	r1, ip
 8021156:	e7ff      	b.n	8021158 <__aeabi_cfcmpeq>

08021158 <__aeabi_cfcmpeq>:
 8021158:	b50f      	push	{r0, r1, r2, r3, lr}
 802115a:	f7ff ffc9 	bl	80210f0 <__cmpsf2>
 802115e:	2800      	cmp	r0, #0
 8021160:	bf48      	it	mi
 8021162:	f110 0f00 	cmnmi.w	r0, #0
 8021166:	bd0f      	pop	{r0, r1, r2, r3, pc}

08021168 <__aeabi_fcmpeq>:
 8021168:	f84d ed08 	str.w	lr, [sp, #-8]!
 802116c:	f7ff fff4 	bl	8021158 <__aeabi_cfcmpeq>
 8021170:	bf0c      	ite	eq
 8021172:	2001      	moveq	r0, #1
 8021174:	2000      	movne	r0, #0
 8021176:	f85d fb08 	ldr.w	pc, [sp], #8
 802117a:	bf00      	nop

0802117c <__aeabi_fcmplt>:
 802117c:	f84d ed08 	str.w	lr, [sp, #-8]!
 8021180:	f7ff ffea 	bl	8021158 <__aeabi_cfcmpeq>
 8021184:	bf34      	ite	cc
 8021186:	2001      	movcc	r0, #1
 8021188:	2000      	movcs	r0, #0
 802118a:	f85d fb08 	ldr.w	pc, [sp], #8
 802118e:	bf00      	nop

08021190 <__aeabi_fcmple>:
 8021190:	f84d ed08 	str.w	lr, [sp, #-8]!
 8021194:	f7ff ffe0 	bl	8021158 <__aeabi_cfcmpeq>
 8021198:	bf94      	ite	ls
 802119a:	2001      	movls	r0, #1
 802119c:	2000      	movhi	r0, #0
 802119e:	f85d fb08 	ldr.w	pc, [sp], #8
 80211a2:	bf00      	nop

080211a4 <__aeabi_fcmpge>:
 80211a4:	f84d ed08 	str.w	lr, [sp, #-8]!
 80211a8:	f7ff ffd2 	bl	8021150 <__aeabi_cfrcmple>
 80211ac:	bf94      	ite	ls
 80211ae:	2001      	movls	r0, #1
 80211b0:	2000      	movhi	r0, #0
 80211b2:	f85d fb08 	ldr.w	pc, [sp], #8
 80211b6:	bf00      	nop

080211b8 <__aeabi_fcmpgt>:
 80211b8:	f84d ed08 	str.w	lr, [sp, #-8]!
 80211bc:	f7ff ffc8 	bl	8021150 <__aeabi_cfrcmple>
 80211c0:	bf34      	ite	cc
 80211c2:	2001      	movcc	r0, #1
 80211c4:	2000      	movcs	r0, #0
 80211c6:	f85d fb08 	ldr.w	pc, [sp], #8
 80211ca:	bf00      	nop

080211cc <__aeabi_uldivmod>:
 80211cc:	b94b      	cbnz	r3, 80211e2 <__aeabi_uldivmod+0x16>
 80211ce:	b942      	cbnz	r2, 80211e2 <__aeabi_uldivmod+0x16>
 80211d0:	2900      	cmp	r1, #0
 80211d2:	bf08      	it	eq
 80211d4:	2800      	cmpeq	r0, #0
 80211d6:	d002      	beq.n	80211de <__aeabi_uldivmod+0x12>
 80211d8:	f04f 31ff 	mov.w	r1, #4294967295
 80211dc:	4608      	mov	r0, r1
 80211de:	f000 b83b 	b.w	8021258 <__aeabi_idiv0>
 80211e2:	b082      	sub	sp, #8
 80211e4:	46ec      	mov	ip, sp
 80211e6:	e92d 5000 	stmdb	sp!, {ip, lr}
 80211ea:	f000 f81d 	bl	8021228 <__gnu_uldivmod_helper>
 80211ee:	f8dd e004 	ldr.w	lr, [sp, #4]
 80211f2:	b002      	add	sp, #8
 80211f4:	bc0c      	pop	{r2, r3}
 80211f6:	4770      	bx	lr

080211f8 <__gnu_ldivmod_helper>:
 80211f8:	e92d 43f8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
 80211fc:	4690      	mov	r8, r2
 80211fe:	4699      	mov	r9, r3
 8021200:	4606      	mov	r6, r0
 8021202:	460f      	mov	r7, r1
 8021204:	f000 f82a 	bl	802125c <__divdi3>
 8021208:	9b08      	ldr	r3, [sp, #32]
 802120a:	fba8 4500 	umull	r4, r5, r8, r0
 802120e:	fb08 f801 	mul.w	r8, r8, r1
 8021212:	fb00 8209 	mla	r2, r0, r9, r8
 8021216:	1955      	adds	r5, r2, r5
 8021218:	1b34      	subs	r4, r6, r4
 802121a:	eb67 0505 	sbc.w	r5, r7, r5
 802121e:	e9c3 4500 	strd	r4, r5, [r3]
 8021222:	e8bd 83f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, pc}
 8021226:	bf00      	nop

08021228 <__gnu_uldivmod_helper>:
 8021228:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 802122c:	4690      	mov	r8, r2
 802122e:	4606      	mov	r6, r0
 8021230:	460f      	mov	r7, r1
 8021232:	461d      	mov	r5, r3
 8021234:	f000 f9c8 	bl	80215c8 <__udivdi3>
 8021238:	fb00 f305 	mul.w	r3, r0, r5
 802123c:	fba0 4508 	umull	r4, r5, r0, r8
 8021240:	fb08 3801 	mla	r8, r8, r1, r3
 8021244:	9b06      	ldr	r3, [sp, #24]
 8021246:	4445      	add	r5, r8
 8021248:	1b34      	subs	r4, r6, r4
 802124a:	eb67 0505 	sbc.w	r5, r7, r5
 802124e:	e9c3 4500 	strd	r4, r5, [r3]
 8021252:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 8021256:	bf00      	nop

08021258 <__aeabi_idiv0>:
 8021258:	4770      	bx	lr
 802125a:	bf00      	nop

0802125c <__divdi3>:
 802125c:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8021260:	2500      	movs	r5, #0
 8021262:	2900      	cmp	r1, #0
 8021264:	b085      	sub	sp, #20
 8021266:	461c      	mov	r4, r3
 8021268:	f2c0 8149 	blt.w	80214fe <__divdi3+0x2a2>
 802126c:	2c00      	cmp	r4, #0
 802126e:	f2c0 8141 	blt.w	80214f4 <__divdi3+0x298>
 8021272:	468c      	mov	ip, r1
 8021274:	460f      	mov	r7, r1
 8021276:	4682      	mov	sl, r0
 8021278:	4691      	mov	r9, r2
 802127a:	4614      	mov	r4, r2
 802127c:	4606      	mov	r6, r0
 802127e:	4619      	mov	r1, r3
 8021280:	2b00      	cmp	r3, #0
 8021282:	d14b      	bne.n	802131c <__divdi3+0xc0>
 8021284:	4562      	cmp	r2, ip
 8021286:	d959      	bls.n	802133c <__divdi3+0xe0>
 8021288:	fab2 f382 	clz	r3, r2
 802128c:	b143      	cbz	r3, 80212a0 <__divdi3+0x44>
 802128e:	f1c3 0220 	rsb	r2, r3, #32
 8021292:	fa0c f703 	lsl.w	r7, ip, r3
 8021296:	fa20 f202 	lsr.w	r2, r0, r2
 802129a:	409c      	lsls	r4, r3
 802129c:	4317      	orrs	r7, r2
 802129e:	409e      	lsls	r6, r3
 80212a0:	ea4f 4814 	mov.w	r8, r4, lsr #16
 80212a4:	4638      	mov	r0, r7
 80212a6:	4641      	mov	r1, r8
 80212a8:	fa1f f984 	uxth.w	r9, r4
 80212ac:	f000 fb18 	bl	80218e0 <__aeabi_uidiv>
 80212b0:	4641      	mov	r1, r8
 80212b2:	4682      	mov	sl, r0
 80212b4:	4638      	mov	r0, r7
 80212b6:	f000 fc41 	bl	8021b3c <__aeabi_uidivmod>
 80212ba:	0c33      	lsrs	r3, r6, #16
 80212bc:	fb09 f00a 	mul.w	r0, r9, sl
 80212c0:	ea43 4101 	orr.w	r1, r3, r1, lsl #16
 80212c4:	4288      	cmp	r0, r1
 80212c6:	d90a      	bls.n	80212de <__divdi3+0x82>
 80212c8:	1909      	adds	r1, r1, r4
 80212ca:	f10a 32ff 	add.w	r2, sl, #4294967295
 80212ce:	d205      	bcs.n	80212dc <__divdi3+0x80>
 80212d0:	4288      	cmp	r0, r1
 80212d2:	bf84      	itt	hi
 80212d4:	f1aa 0a02 	subhi.w	sl, sl, #2
 80212d8:	1909      	addhi	r1, r1, r4
 80212da:	d800      	bhi.n	80212de <__divdi3+0x82>
 80212dc:	4692      	mov	sl, r2
 80212de:	ebc0 0b01 	rsb	fp, r0, r1
 80212e2:	4641      	mov	r1, r8
 80212e4:	4658      	mov	r0, fp
 80212e6:	b2b6      	uxth	r6, r6
 80212e8:	f000 fafa 	bl	80218e0 <__aeabi_uidiv>
 80212ec:	4641      	mov	r1, r8
 80212ee:	4607      	mov	r7, r0
 80212f0:	4658      	mov	r0, fp
 80212f2:	f000 fc23 	bl	8021b3c <__aeabi_uidivmod>
 80212f6:	fb09 f907 	mul.w	r9, r9, r7
 80212fa:	ea46 4101 	orr.w	r1, r6, r1, lsl #16
 80212fe:	4589      	cmp	r9, r1
 8021300:	d907      	bls.n	8021312 <__divdi3+0xb6>
 8021302:	1e7b      	subs	r3, r7, #1
 8021304:	190c      	adds	r4, r1, r4
 8021306:	f080 8157 	bcs.w	80215b8 <__divdi3+0x35c>
 802130a:	3f02      	subs	r7, #2
 802130c:	45a1      	cmp	r9, r4
 802130e:	f240 8153 	bls.w	80215b8 <__divdi3+0x35c>
 8021312:	ea47 400a 	orr.w	r0, r7, sl, lsl #16
 8021316:	f04f 0800 	mov.w	r8, #0
 802131a:	e004      	b.n	8021326 <__divdi3+0xca>
 802131c:	4563      	cmp	r3, ip
 802131e:	d958      	bls.n	80213d2 <__divdi3+0x176>
 8021320:	f04f 0800 	mov.w	r8, #0
 8021324:	4640      	mov	r0, r8
 8021326:	4602      	mov	r2, r0
 8021328:	4643      	mov	r3, r8
 802132a:	b115      	cbz	r5, 8021332 <__divdi3+0xd6>
 802132c:	4252      	negs	r2, r2
 802132e:	eb63 0343 	sbc.w	r3, r3, r3, lsl #1
 8021332:	4610      	mov	r0, r2
 8021334:	4619      	mov	r1, r3
 8021336:	b005      	add	sp, #20
 8021338:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 802133c:	b922      	cbnz	r2, 8021348 <__divdi3+0xec>
 802133e:	2001      	movs	r0, #1
 8021340:	4611      	mov	r1, r2
 8021342:	f000 facd 	bl	80218e0 <__aeabi_uidiv>
 8021346:	4604      	mov	r4, r0
 8021348:	fab4 f384 	clz	r3, r4
 802134c:	2b00      	cmp	r3, #0
 802134e:	f040 80dc 	bne.w	802150a <__divdi3+0x2ae>
 8021352:	1b3f      	subs	r7, r7, r4
 8021354:	ea4f 4914 	mov.w	r9, r4, lsr #16
 8021358:	fa1f fa84 	uxth.w	sl, r4
 802135c:	f04f 0801 	mov.w	r8, #1
 8021360:	4649      	mov	r1, r9
 8021362:	4638      	mov	r0, r7
 8021364:	f000 fabc 	bl	80218e0 <__aeabi_uidiv>
 8021368:	4649      	mov	r1, r9
 802136a:	4683      	mov	fp, r0
 802136c:	4638      	mov	r0, r7
 802136e:	f000 fbe5 	bl	8021b3c <__aeabi_uidivmod>
 8021372:	0c33      	lsrs	r3, r6, #16
 8021374:	fb0a f00b 	mul.w	r0, sl, fp
 8021378:	ea43 4101 	orr.w	r1, r3, r1, lsl #16
 802137c:	4288      	cmp	r0, r1
 802137e:	d90b      	bls.n	8021398 <__divdi3+0x13c>
 8021380:	1909      	adds	r1, r1, r4
 8021382:	f10b 33ff 	add.w	r3, fp, #4294967295
 8021386:	f080 8115 	bcs.w	80215b4 <__divdi3+0x358>
 802138a:	4288      	cmp	r0, r1
 802138c:	bf84      	itt	hi
 802138e:	f1ab 0b02 	subhi.w	fp, fp, #2
 8021392:	1909      	addhi	r1, r1, r4
 8021394:	f240 810e 	bls.w	80215b4 <__divdi3+0x358>
 8021398:	1a0b      	subs	r3, r1, r0
 802139a:	4649      	mov	r1, r9
 802139c:	4618      	mov	r0, r3
 802139e:	9301      	str	r3, [sp, #4]
 80213a0:	f000 fa9e 	bl	80218e0 <__aeabi_uidiv>
 80213a4:	9b01      	ldr	r3, [sp, #4]
 80213a6:	4649      	mov	r1, r9
 80213a8:	b2b6      	uxth	r6, r6
 80213aa:	4607      	mov	r7, r0
 80213ac:	4618      	mov	r0, r3
 80213ae:	f000 fbc5 	bl	8021b3c <__aeabi_uidivmod>
 80213b2:	fb0a fa07 	mul.w	sl, sl, r7
 80213b6:	ea46 4101 	orr.w	r1, r6, r1, lsl #16
 80213ba:	458a      	cmp	sl, r1
 80213bc:	d906      	bls.n	80213cc <__divdi3+0x170>
 80213be:	1e7b      	subs	r3, r7, #1
 80213c0:	190c      	adds	r4, r1, r4
 80213c2:	d202      	bcs.n	80213ca <__divdi3+0x16e>
 80213c4:	3f02      	subs	r7, #2
 80213c6:	45a2      	cmp	sl, r4
 80213c8:	d800      	bhi.n	80213cc <__divdi3+0x170>
 80213ca:	461f      	mov	r7, r3
 80213cc:	ea47 400b 	orr.w	r0, r7, fp, lsl #16
 80213d0:	e7a9      	b.n	8021326 <__divdi3+0xca>
 80213d2:	fab3 f483 	clz	r4, r3
 80213d6:	2c00      	cmp	r4, #0
 80213d8:	f000 80e4 	beq.w	80215a4 <__divdi3+0x348>
 80213dc:	f1c4 0320 	rsb	r3, r4, #32
 80213e0:	fa01 f104 	lsl.w	r1, r1, r4
 80213e4:	fa22 fa03 	lsr.w	sl, r2, r3
 80213e8:	fa2c fb03 	lsr.w	fp, ip, r3
 80213ec:	ea4a 0a01 	orr.w	sl, sl, r1
 80213f0:	fa20 f803 	lsr.w	r8, r0, r3
 80213f4:	fa0c fc04 	lsl.w	ip, ip, r4
 80213f8:	4658      	mov	r0, fp
 80213fa:	ea4f 471a 	mov.w	r7, sl, lsr #16
 80213fe:	ea48 080c 	orr.w	r8, r8, ip
 8021402:	4639      	mov	r1, r7
 8021404:	fa02 f904 	lsl.w	r9, r2, r4
 8021408:	f8cd 900c 	str.w	r9, [sp, #12]
 802140c:	f000 fa68 	bl	80218e0 <__aeabi_uidiv>
 8021410:	4639      	mov	r1, r7
 8021412:	4681      	mov	r9, r0
 8021414:	4658      	mov	r0, fp
 8021416:	f000 fb91 	bl	8021b3c <__aeabi_uidivmod>
 802141a:	fa1f fc8a 	uxth.w	ip, sl
 802141e:	ea4f 4318 	mov.w	r3, r8, lsr #16
 8021422:	fb0c f009 	mul.w	r0, ip, r9
 8021426:	ea43 4301 	orr.w	r3, r3, r1, lsl #16
 802142a:	4298      	cmp	r0, r3
 802142c:	d90c      	bls.n	8021448 <__divdi3+0x1ec>
 802142e:	eb13 030a 	adds.w	r3, r3, sl
 8021432:	f109 31ff 	add.w	r1, r9, #4294967295
 8021436:	f080 80c3 	bcs.w	80215c0 <__divdi3+0x364>
 802143a:	4298      	cmp	r0, r3
 802143c:	bf84      	itt	hi
 802143e:	f1a9 0902 	subhi.w	r9, r9, #2
 8021442:	4453      	addhi	r3, sl
 8021444:	f240 80bc 	bls.w	80215c0 <__divdi3+0x364>
 8021448:	1a1b      	subs	r3, r3, r0
 802144a:	4639      	mov	r1, r7
 802144c:	4618      	mov	r0, r3
 802144e:	f8cd c008 	str.w	ip, [sp, #8]
 8021452:	9301      	str	r3, [sp, #4]
 8021454:	f000 fa44 	bl	80218e0 <__aeabi_uidiv>
 8021458:	9b01      	ldr	r3, [sp, #4]
 802145a:	4639      	mov	r1, r7
 802145c:	fa1f f888 	uxth.w	r8, r8
 8021460:	4683      	mov	fp, r0
 8021462:	4618      	mov	r0, r3
 8021464:	f000 fb6a 	bl	8021b3c <__aeabi_uidivmod>
 8021468:	f8dd c008 	ldr.w	ip, [sp, #8]
 802146c:	fb0c f30b 	mul.w	r3, ip, fp
 8021470:	ea48 4101 	orr.w	r1, r8, r1, lsl #16
 8021474:	428b      	cmp	r3, r1
 8021476:	d90c      	bls.n	8021492 <__divdi3+0x236>
 8021478:	eb11 010a 	adds.w	r1, r1, sl
 802147c:	f10b 30ff 	add.w	r0, fp, #4294967295
 8021480:	f080 809c 	bcs.w	80215bc <__divdi3+0x360>
 8021484:	428b      	cmp	r3, r1
 8021486:	bf84      	itt	hi
 8021488:	f1ab 0b02 	subhi.w	fp, fp, #2
 802148c:	4451      	addhi	r1, sl
 802148e:	f240 8095 	bls.w	80215bc <__divdi3+0x360>
 8021492:	9f03      	ldr	r7, [sp, #12]
 8021494:	ea4b 4009 	orr.w	r0, fp, r9, lsl #16
 8021498:	1ac9      	subs	r1, r1, r3
 802149a:	fa1f fc80 	uxth.w	ip, r0
 802149e:	b2ba      	uxth	r2, r7
 80214a0:	ea4f 4917 	mov.w	r9, r7, lsr #16
 80214a4:	0c07      	lsrs	r7, r0, #16
 80214a6:	fb02 f80c 	mul.w	r8, r2, ip
 80214aa:	fb02 f207 	mul.w	r2, r2, r7
 80214ae:	fb09 230c 	mla	r3, r9, ip, r2
 80214b2:	fb09 f907 	mul.w	r9, r9, r7
 80214b6:	eb03 4318 	add.w	r3, r3, r8, lsr #16
 80214ba:	429a      	cmp	r2, r3
 80214bc:	bf88      	it	hi
 80214be:	f509 3980 	addhi.w	r9, r9, #65536	; 0x10000
 80214c2:	eb09 4913 	add.w	r9, r9, r3, lsr #16
 80214c6:	4549      	cmp	r1, r9
 80214c8:	d310      	bcc.n	80214ec <__divdi3+0x290>
 80214ca:	fa1f f888 	uxth.w	r8, r8
 80214ce:	bf14      	ite	ne
 80214d0:	2200      	movne	r2, #0
 80214d2:	2201      	moveq	r2, #1
 80214d4:	fa06 f404 	lsl.w	r4, r6, r4
 80214d8:	eb08 4303 	add.w	r3, r8, r3, lsl #16
 80214dc:	429c      	cmp	r4, r3
 80214de:	bf2c      	ite	cs
 80214e0:	2300      	movcs	r3, #0
 80214e2:	f002 0301 	andcc.w	r3, r2, #1
 80214e6:	2b00      	cmp	r3, #0
 80214e8:	f43f af15 	beq.w	8021316 <__divdi3+0xba>
 80214ec:	3801      	subs	r0, #1
 80214ee:	f04f 0800 	mov.w	r8, #0
 80214f2:	e718      	b.n	8021326 <__divdi3+0xca>
 80214f4:	4252      	negs	r2, r2
 80214f6:	eb63 0343 	sbc.w	r3, r3, r3, lsl #1
 80214fa:	43ed      	mvns	r5, r5
 80214fc:	e6b9      	b.n	8021272 <__divdi3+0x16>
 80214fe:	4240      	negs	r0, r0
 8021500:	eb61 0141 	sbc.w	r1, r1, r1, lsl #1
 8021504:	f04f 35ff 	mov.w	r5, #4294967295
 8021508:	e6b0      	b.n	802126c <__divdi3+0x10>
 802150a:	409c      	lsls	r4, r3
 802150c:	f1c3 0b20 	rsb	fp, r3, #32
 8021510:	fa27 f80b 	lsr.w	r8, r7, fp
 8021514:	fa07 f703 	lsl.w	r7, r7, r3
 8021518:	ea4f 4914 	mov.w	r9, r4, lsr #16
 802151c:	4640      	mov	r0, r8
 802151e:	4649      	mov	r1, r9
 8021520:	fa26 fb0b 	lsr.w	fp, r6, fp
 8021524:	409e      	lsls	r6, r3
 8021526:	f000 f9db 	bl	80218e0 <__aeabi_uidiv>
 802152a:	4649      	mov	r1, r9
 802152c:	fa1f fa84 	uxth.w	sl, r4
 8021530:	ea4b 0b07 	orr.w	fp, fp, r7
 8021534:	4603      	mov	r3, r0
 8021536:	4640      	mov	r0, r8
 8021538:	9301      	str	r3, [sp, #4]
 802153a:	f000 faff 	bl	8021b3c <__aeabi_uidivmod>
 802153e:	9b01      	ldr	r3, [sp, #4]
 8021540:	ea4f 421b 	mov.w	r2, fp, lsr #16
 8021544:	fb0a f003 	mul.w	r0, sl, r3
 8021548:	ea42 4101 	orr.w	r1, r2, r1, lsl #16
 802154c:	4288      	cmp	r0, r1
 802154e:	d906      	bls.n	802155e <__divdi3+0x302>
 8021550:	1e5a      	subs	r2, r3, #1
 8021552:	1909      	adds	r1, r1, r4
 8021554:	d236      	bcs.n	80215c4 <__divdi3+0x368>
 8021556:	4288      	cmp	r0, r1
 8021558:	d934      	bls.n	80215c4 <__divdi3+0x368>
 802155a:	3b02      	subs	r3, #2
 802155c:	1909      	adds	r1, r1, r4
 802155e:	1a0f      	subs	r7, r1, r0
 8021560:	4649      	mov	r1, r9
 8021562:	4638      	mov	r0, r7
 8021564:	9301      	str	r3, [sp, #4]
 8021566:	f000 f9bb 	bl	80218e0 <__aeabi_uidiv>
 802156a:	4649      	mov	r1, r9
 802156c:	fa1f fb8b 	uxth.w	fp, fp
 8021570:	4680      	mov	r8, r0
 8021572:	4638      	mov	r0, r7
 8021574:	f000 fae2 	bl	8021b3c <__aeabi_uidivmod>
 8021578:	9b01      	ldr	r3, [sp, #4]
 802157a:	fb0a f708 	mul.w	r7, sl, r8
 802157e:	ea4b 4101 	orr.w	r1, fp, r1, lsl #16
 8021582:	428f      	cmp	r7, r1
 8021584:	d90a      	bls.n	802159c <__divdi3+0x340>
 8021586:	1909      	adds	r1, r1, r4
 8021588:	f108 32ff 	add.w	r2, r8, #4294967295
 802158c:	d205      	bcs.n	802159a <__divdi3+0x33e>
 802158e:	428f      	cmp	r7, r1
 8021590:	bf84      	itt	hi
 8021592:	f1a8 0802 	subhi.w	r8, r8, #2
 8021596:	1909      	addhi	r1, r1, r4
 8021598:	d800      	bhi.n	802159c <__divdi3+0x340>
 802159a:	4690      	mov	r8, r2
 802159c:	1bcf      	subs	r7, r1, r7
 802159e:	ea48 4803 	orr.w	r8, r8, r3, lsl #16
 80215a2:	e6dd      	b.n	8021360 <__divdi3+0x104>
 80215a4:	2001      	movs	r0, #1
 80215a6:	4563      	cmp	r3, ip
 80215a8:	bf28      	it	cs
 80215aa:	4552      	cmpcs	r2, sl
 80215ac:	46a0      	mov	r8, r4
 80215ae:	f67f aeba 	bls.w	8021326 <__divdi3+0xca>
 80215b2:	e6b5      	b.n	8021320 <__divdi3+0xc4>
 80215b4:	469b      	mov	fp, r3
 80215b6:	e6ef      	b.n	8021398 <__divdi3+0x13c>
 80215b8:	461f      	mov	r7, r3
 80215ba:	e6aa      	b.n	8021312 <__divdi3+0xb6>
 80215bc:	4683      	mov	fp, r0
 80215be:	e768      	b.n	8021492 <__divdi3+0x236>
 80215c0:	4689      	mov	r9, r1
 80215c2:	e741      	b.n	8021448 <__divdi3+0x1ec>
 80215c4:	4613      	mov	r3, r2
 80215c6:	e7ca      	b.n	802155e <__divdi3+0x302>

080215c8 <__udivdi3>:
 80215c8:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 80215cc:	4606      	mov	r6, r0
 80215ce:	b083      	sub	sp, #12
 80215d0:	460d      	mov	r5, r1
 80215d2:	4614      	mov	r4, r2
 80215d4:	4607      	mov	r7, r0
 80215d6:	4688      	mov	r8, r1
 80215d8:	2b00      	cmp	r3, #0
 80215da:	d14a      	bne.n	8021672 <__udivdi3+0xaa>
 80215dc:	428a      	cmp	r2, r1
 80215de:	d955      	bls.n	802168c <__udivdi3+0xc4>
 80215e0:	fab2 f382 	clz	r3, r2
 80215e4:	b14b      	cbz	r3, 80215fa <__udivdi3+0x32>
 80215e6:	f1c3 0220 	rsb	r2, r3, #32
 80215ea:	fa01 f803 	lsl.w	r8, r1, r3
 80215ee:	fa20 f202 	lsr.w	r2, r0, r2
 80215f2:	409c      	lsls	r4, r3
 80215f4:	ea42 0808 	orr.w	r8, r2, r8
 80215f8:	409f      	lsls	r7, r3
 80215fa:	0c25      	lsrs	r5, r4, #16
 80215fc:	4640      	mov	r0, r8
 80215fe:	4629      	mov	r1, r5
 8021600:	fa1f fa84 	uxth.w	sl, r4
 8021604:	f000 f96c 	bl	80218e0 <__aeabi_uidiv>
 8021608:	4629      	mov	r1, r5
 802160a:	4681      	mov	r9, r0
 802160c:	4640      	mov	r0, r8
 802160e:	f000 fa95 	bl	8021b3c <__aeabi_uidivmod>
 8021612:	0c3b      	lsrs	r3, r7, #16
 8021614:	fb0a f009 	mul.w	r0, sl, r9
 8021618:	ea43 4101 	orr.w	r1, r3, r1, lsl #16
 802161c:	4288      	cmp	r0, r1
 802161e:	d90a      	bls.n	8021636 <__udivdi3+0x6e>
 8021620:	1909      	adds	r1, r1, r4
 8021622:	f109 32ff 	add.w	r2, r9, #4294967295
 8021626:	d205      	bcs.n	8021634 <__udivdi3+0x6c>
 8021628:	4288      	cmp	r0, r1
 802162a:	bf84      	itt	hi
 802162c:	f1a9 0902 	subhi.w	r9, r9, #2
 8021630:	1909      	addhi	r1, r1, r4
 8021632:	d800      	bhi.n	8021636 <__udivdi3+0x6e>
 8021634:	4691      	mov	r9, r2
 8021636:	ebc0 0801 	rsb	r8, r0, r1
 802163a:	4629      	mov	r1, r5
 802163c:	4640      	mov	r0, r8
 802163e:	b2bf      	uxth	r7, r7
 8021640:	f000 f94e 	bl	80218e0 <__aeabi_uidiv>
 8021644:	4629      	mov	r1, r5
 8021646:	4606      	mov	r6, r0
 8021648:	4640      	mov	r0, r8
 802164a:	f000 fa77 	bl	8021b3c <__aeabi_uidivmod>
 802164e:	fb0a fa06 	mul.w	sl, sl, r6
 8021652:	ea47 4101 	orr.w	r1, r7, r1, lsl #16
 8021656:	458a      	cmp	sl, r1
 8021658:	d907      	bls.n	802166a <__udivdi3+0xa2>
 802165a:	1e73      	subs	r3, r6, #1
 802165c:	190c      	adds	r4, r1, r4
 802165e:	f080 8122 	bcs.w	80218a6 <__udivdi3+0x2de>
 8021662:	3e02      	subs	r6, #2
 8021664:	45a2      	cmp	sl, r4
 8021666:	f240 811e 	bls.w	80218a6 <__udivdi3+0x2de>
 802166a:	ea46 4009 	orr.w	r0, r6, r9, lsl #16
 802166e:	2600      	movs	r6, #0
 8021670:	e058      	b.n	8021724 <__udivdi3+0x15c>
 8021672:	428b      	cmp	r3, r1
 8021674:	d854      	bhi.n	8021720 <__udivdi3+0x158>
 8021676:	fab3 f483 	clz	r4, r3
 802167a:	2c00      	cmp	r4, #0
 802167c:	d156      	bne.n	802172c <__udivdi3+0x164>
 802167e:	428b      	cmp	r3, r1
 8021680:	bf28      	it	cs
 8021682:	4282      	cmpcs	r2, r0
 8021684:	d84c      	bhi.n	8021720 <__udivdi3+0x158>
 8021686:	4626      	mov	r6, r4
 8021688:	2001      	movs	r0, #1
 802168a:	e04b      	b.n	8021724 <__udivdi3+0x15c>
 802168c:	b922      	cbnz	r2, 8021698 <__udivdi3+0xd0>
 802168e:	2001      	movs	r0, #1
 8021690:	4611      	mov	r1, r2
 8021692:	f000 f925 	bl	80218e0 <__aeabi_uidiv>
 8021696:	4604      	mov	r4, r0
 8021698:	fab4 f384 	clz	r3, r4
 802169c:	2b00      	cmp	r3, #0
 802169e:	f040 80b9 	bne.w	8021814 <__udivdi3+0x24c>
 80216a2:	1b2d      	subs	r5, r5, r4
 80216a4:	ea4f 4814 	mov.w	r8, r4, lsr #16
 80216a8:	fa1f fa84 	uxth.w	sl, r4
 80216ac:	2601      	movs	r6, #1
 80216ae:	4641      	mov	r1, r8
 80216b0:	4628      	mov	r0, r5
 80216b2:	f000 f915 	bl	80218e0 <__aeabi_uidiv>
 80216b6:	4641      	mov	r1, r8
 80216b8:	4681      	mov	r9, r0
 80216ba:	4628      	mov	r0, r5
 80216bc:	f000 fa3e 	bl	8021b3c <__aeabi_uidivmod>
 80216c0:	0c3b      	lsrs	r3, r7, #16
 80216c2:	fb0a f009 	mul.w	r0, sl, r9
 80216c6:	ea43 4101 	orr.w	r1, r3, r1, lsl #16
 80216ca:	4288      	cmp	r0, r1
 80216cc:	d90b      	bls.n	80216e6 <__udivdi3+0x11e>
 80216ce:	1909      	adds	r1, r1, r4
 80216d0:	f109 33ff 	add.w	r3, r9, #4294967295
 80216d4:	f080 80e9 	bcs.w	80218aa <__udivdi3+0x2e2>
 80216d8:	4288      	cmp	r0, r1
 80216da:	bf84      	itt	hi
 80216dc:	f1a9 0902 	subhi.w	r9, r9, #2
 80216e0:	1909      	addhi	r1, r1, r4
 80216e2:	f240 80e2 	bls.w	80218aa <__udivdi3+0x2e2>
 80216e6:	ebc0 0b01 	rsb	fp, r0, r1
 80216ea:	4641      	mov	r1, r8
 80216ec:	4658      	mov	r0, fp
 80216ee:	b2bf      	uxth	r7, r7
 80216f0:	f000 f8f6 	bl	80218e0 <__aeabi_uidiv>
 80216f4:	4641      	mov	r1, r8
 80216f6:	4605      	mov	r5, r0
 80216f8:	4658      	mov	r0, fp
 80216fa:	f000 fa1f 	bl	8021b3c <__aeabi_uidivmod>
 80216fe:	fb0a fa05 	mul.w	sl, sl, r5
 8021702:	ea47 4101 	orr.w	r1, r7, r1, lsl #16
 8021706:	458a      	cmp	sl, r1
 8021708:	d907      	bls.n	802171a <__udivdi3+0x152>
 802170a:	1e6b      	subs	r3, r5, #1
 802170c:	190c      	adds	r4, r1, r4
 802170e:	f080 80ce 	bcs.w	80218ae <__udivdi3+0x2e6>
 8021712:	3d02      	subs	r5, #2
 8021714:	45a2      	cmp	sl, r4
 8021716:	f240 80ca 	bls.w	80218ae <__udivdi3+0x2e6>
 802171a:	ea45 4009 	orr.w	r0, r5, r9, lsl #16
 802171e:	e001      	b.n	8021724 <__udivdi3+0x15c>
 8021720:	2600      	movs	r6, #0
 8021722:	4630      	mov	r0, r6
 8021724:	4631      	mov	r1, r6
 8021726:	b003      	add	sp, #12
 8021728:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 802172c:	f1c4 0120 	rsb	r1, r4, #32
 8021730:	fa03 f304 	lsl.w	r3, r3, r4
 8021734:	fa22 f801 	lsr.w	r8, r2, r1
 8021738:	fa25 f701 	lsr.w	r7, r5, r1
 802173c:	ea48 0803 	orr.w	r8, r8, r3
 8021740:	fa20 f101 	lsr.w	r1, r0, r1
 8021744:	fa05 f504 	lsl.w	r5, r5, r4
 8021748:	4638      	mov	r0, r7
 802174a:	ea4f 4918 	mov.w	r9, r8, lsr #16
 802174e:	430d      	orrs	r5, r1
 8021750:	4649      	mov	r1, r9
 8021752:	fa02 f204 	lsl.w	r2, r2, r4
 8021756:	9201      	str	r2, [sp, #4]
 8021758:	f000 f8c2 	bl	80218e0 <__aeabi_uidiv>
 802175c:	4649      	mov	r1, r9
 802175e:	4682      	mov	sl, r0
 8021760:	4638      	mov	r0, r7
 8021762:	f000 f9eb 	bl	8021b3c <__aeabi_uidivmod>
 8021766:	fa1f f288 	uxth.w	r2, r8
 802176a:	0c2f      	lsrs	r7, r5, #16
 802176c:	fb02 f00a 	mul.w	r0, r2, sl
 8021770:	ea47 4701 	orr.w	r7, r7, r1, lsl #16
 8021774:	42b8      	cmp	r0, r7
 8021776:	d906      	bls.n	8021786 <__udivdi3+0x1be>
 8021778:	eb17 0708 	adds.w	r7, r7, r8
 802177c:	f10a 31ff 	add.w	r1, sl, #4294967295
 8021780:	f0c0 809f 	bcc.w	80218c2 <__udivdi3+0x2fa>
 8021784:	468a      	mov	sl, r1
 8021786:	1a3f      	subs	r7, r7, r0
 8021788:	4649      	mov	r1, r9
 802178a:	4638      	mov	r0, r7
 802178c:	9200      	str	r2, [sp, #0]
 802178e:	f000 f8a7 	bl	80218e0 <__aeabi_uidiv>
 8021792:	4649      	mov	r1, r9
 8021794:	b2ad      	uxth	r5, r5
 8021796:	4683      	mov	fp, r0
 8021798:	4638      	mov	r0, r7
 802179a:	f000 f9cf 	bl	8021b3c <__aeabi_uidivmod>
 802179e:	9a00      	ldr	r2, [sp, #0]
 80217a0:	fb02 f70b 	mul.w	r7, r2, fp
 80217a4:	ea45 4101 	orr.w	r1, r5, r1, lsl #16
 80217a8:	428f      	cmp	r7, r1
 80217aa:	d905      	bls.n	80217b8 <__udivdi3+0x1f0>
 80217ac:	eb11 0108 	adds.w	r1, r1, r8
 80217b0:	f10b 32ff 	add.w	r2, fp, #4294967295
 80217b4:	d37d      	bcc.n	80218b2 <__udivdi3+0x2ea>
 80217b6:	4693      	mov	fp, r2
 80217b8:	9b01      	ldr	r3, [sp, #4]
 80217ba:	ea4b 400a 	orr.w	r0, fp, sl, lsl #16
 80217be:	1bc9      	subs	r1, r1, r7
 80217c0:	ea4f 4c10 	mov.w	ip, r0, lsr #16
 80217c4:	b29d      	uxth	r5, r3
 80217c6:	ea4f 4a13 	mov.w	sl, r3, lsr #16
 80217ca:	b283      	uxth	r3, r0
 80217cc:	fb05 f203 	mul.w	r2, r5, r3
 80217d0:	fb05 f50c 	mul.w	r5, r5, ip
 80217d4:	fb0a 5303 	mla	r3, sl, r3, r5
 80217d8:	fb0a fa0c 	mul.w	sl, sl, ip
 80217dc:	eb03 4312 	add.w	r3, r3, r2, lsr #16
 80217e0:	429d      	cmp	r5, r3
 80217e2:	bf88      	it	hi
 80217e4:	f50a 3a80 	addhi.w	sl, sl, #65536	; 0x10000
 80217e8:	eb0a 4a13 	add.w	sl, sl, r3, lsr #16
 80217ec:	4551      	cmp	r1, sl
 80217ee:	d30e      	bcc.n	802180e <__udivdi3+0x246>
 80217f0:	b292      	uxth	r2, r2
 80217f2:	bf14      	ite	ne
 80217f4:	2100      	movne	r1, #0
 80217f6:	2101      	moveq	r1, #1
 80217f8:	fa06 f604 	lsl.w	r6, r6, r4
 80217fc:	eb02 4303 	add.w	r3, r2, r3, lsl #16
 8021800:	429e      	cmp	r6, r3
 8021802:	bf2c      	ite	cs
 8021804:	2600      	movcs	r6, #0
 8021806:	f001 0601 	andcc.w	r6, r1, #1
 802180a:	2e00      	cmp	r6, #0
 802180c:	d08a      	beq.n	8021724 <__udivdi3+0x15c>
 802180e:	3801      	subs	r0, #1
 8021810:	2600      	movs	r6, #0
 8021812:	e787      	b.n	8021724 <__udivdi3+0x15c>
 8021814:	409c      	lsls	r4, r3
 8021816:	f1c3 0220 	rsb	r2, r3, #32
 802181a:	fa25 fa02 	lsr.w	sl, r5, r2
 802181e:	fa26 f902 	lsr.w	r9, r6, r2
 8021822:	ea4f 4814 	mov.w	r8, r4, lsr #16
 8021826:	4650      	mov	r0, sl
 8021828:	4641      	mov	r1, r8
 802182a:	fa05 f503 	lsl.w	r5, r5, r3
 802182e:	fa06 f703 	lsl.w	r7, r6, r3
 8021832:	f000 f855 	bl	80218e0 <__aeabi_uidiv>
 8021836:	4641      	mov	r1, r8
 8021838:	ea49 0905 	orr.w	r9, r9, r5
 802183c:	4683      	mov	fp, r0
 802183e:	4650      	mov	r0, sl
 8021840:	f000 f97c 	bl	8021b3c <__aeabi_uidivmod>
 8021844:	fa1f fa84 	uxth.w	sl, r4
 8021848:	ea4f 4319 	mov.w	r3, r9, lsr #16
 802184c:	fb0a f00b 	mul.w	r0, sl, fp
 8021850:	ea43 4101 	orr.w	r1, r3, r1, lsl #16
 8021854:	4288      	cmp	r0, r1
 8021856:	d909      	bls.n	802186c <__udivdi3+0x2a4>
 8021858:	1909      	adds	r1, r1, r4
 802185a:	f10b 33ff 	add.w	r3, fp, #4294967295
 802185e:	d238      	bcs.n	80218d2 <__udivdi3+0x30a>
 8021860:	4288      	cmp	r0, r1
 8021862:	bf84      	itt	hi
 8021864:	f1ab 0b02 	subhi.w	fp, fp, #2
 8021868:	1909      	addhi	r1, r1, r4
 802186a:	d932      	bls.n	80218d2 <__udivdi3+0x30a>
 802186c:	1a0d      	subs	r5, r1, r0
 802186e:	4641      	mov	r1, r8
 8021870:	4628      	mov	r0, r5
 8021872:	fa1f f989 	uxth.w	r9, r9
 8021876:	f000 f833 	bl	80218e0 <__aeabi_uidiv>
 802187a:	4641      	mov	r1, r8
 802187c:	4606      	mov	r6, r0
 802187e:	4628      	mov	r0, r5
 8021880:	f000 f95c 	bl	8021b3c <__aeabi_uidivmod>
 8021884:	fb0a f506 	mul.w	r5, sl, r6
 8021888:	ea49 4101 	orr.w	r1, r9, r1, lsl #16
 802188c:	428d      	cmp	r5, r1
 802188e:	d906      	bls.n	802189e <__udivdi3+0x2d6>
 8021890:	1e73      	subs	r3, r6, #1
 8021892:	1909      	adds	r1, r1, r4
 8021894:	d21f      	bcs.n	80218d6 <__udivdi3+0x30e>
 8021896:	428d      	cmp	r5, r1
 8021898:	d91d      	bls.n	80218d6 <__udivdi3+0x30e>
 802189a:	3e02      	subs	r6, #2
 802189c:	1909      	adds	r1, r1, r4
 802189e:	1b4d      	subs	r5, r1, r5
 80218a0:	ea46 460b 	orr.w	r6, r6, fp, lsl #16
 80218a4:	e703      	b.n	80216ae <__udivdi3+0xe6>
 80218a6:	461e      	mov	r6, r3
 80218a8:	e6df      	b.n	802166a <__udivdi3+0xa2>
 80218aa:	4699      	mov	r9, r3
 80218ac:	e71b      	b.n	80216e6 <__udivdi3+0x11e>
 80218ae:	461d      	mov	r5, r3
 80218b0:	e733      	b.n	802171a <__udivdi3+0x152>
 80218b2:	428f      	cmp	r7, r1
 80218b4:	bf84      	itt	hi
 80218b6:	f1ab 0b02 	subhi.w	fp, fp, #2
 80218ba:	4441      	addhi	r1, r8
 80218bc:	f63f af7c 	bhi.w	80217b8 <__udivdi3+0x1f0>
 80218c0:	e779      	b.n	80217b6 <__udivdi3+0x1ee>
 80218c2:	42b8      	cmp	r0, r7
 80218c4:	bf84      	itt	hi
 80218c6:	f1aa 0a02 	subhi.w	sl, sl, #2
 80218ca:	4447      	addhi	r7, r8
 80218cc:	f63f af5b 	bhi.w	8021786 <__udivdi3+0x1be>
 80218d0:	e758      	b.n	8021784 <__udivdi3+0x1bc>
 80218d2:	469b      	mov	fp, r3
 80218d4:	e7ca      	b.n	802186c <__udivdi3+0x2a4>
 80218d6:	461e      	mov	r6, r3
 80218d8:	e7e1      	b.n	802189e <__udivdi3+0x2d6>
 80218da:	bf00      	nop
 80218dc:	0000      	movs	r0, r0
 80218de:	0000      	movs	r0, r0

080218e0 <__aeabi_uidiv>:
 80218e0:	1e4a      	subs	r2, r1, #1
 80218e2:	bf08      	it	eq
 80218e4:	4770      	bxeq	lr
 80218e6:	f0c0 8124 	bcc.w	8021b32 <__aeabi_uidiv+0x252>
 80218ea:	4288      	cmp	r0, r1
 80218ec:	f240 8116 	bls.w	8021b1c <__aeabi_uidiv+0x23c>
 80218f0:	4211      	tst	r1, r2
 80218f2:	f000 8117 	beq.w	8021b24 <__aeabi_uidiv+0x244>
 80218f6:	fab0 f380 	clz	r3, r0
 80218fa:	fab1 f281 	clz	r2, r1
 80218fe:	eba2 0303 	sub.w	r3, r2, r3
 8021902:	f1c3 031f 	rsb	r3, r3, #31
 8021906:	a204      	add	r2, pc, #16	; (adr r2, 8021918 <__aeabi_uidiv+0x38>)
 8021908:	eb02 1303 	add.w	r3, r2, r3, lsl #4
 802190c:	f04f 0200 	mov.w	r2, #0
 8021910:	469f      	mov	pc, r3
 8021912:	bf00      	nop
 8021914:	f3af 8000 	nop.w
 8021918:	ebb0 7fc1 	cmp.w	r0, r1, lsl #31
 802191c:	bf00      	nop
 802191e:	eb42 0202 	adc.w	r2, r2, r2
 8021922:	bf28      	it	cs
 8021924:	eba0 70c1 	subcs.w	r0, r0, r1, lsl #31
 8021928:	ebb0 7f81 	cmp.w	r0, r1, lsl #30
 802192c:	bf00      	nop
 802192e:	eb42 0202 	adc.w	r2, r2, r2
 8021932:	bf28      	it	cs
 8021934:	eba0 7081 	subcs.w	r0, r0, r1, lsl #30
 8021938:	ebb0 7f41 	cmp.w	r0, r1, lsl #29
 802193c:	bf00      	nop
 802193e:	eb42 0202 	adc.w	r2, r2, r2
 8021942:	bf28      	it	cs
 8021944:	eba0 7041 	subcs.w	r0, r0, r1, lsl #29
 8021948:	ebb0 7f01 	cmp.w	r0, r1, lsl #28
 802194c:	bf00      	nop
 802194e:	eb42 0202 	adc.w	r2, r2, r2
 8021952:	bf28      	it	cs
 8021954:	eba0 7001 	subcs.w	r0, r0, r1, lsl #28
 8021958:	ebb0 6fc1 	cmp.w	r0, r1, lsl #27
 802195c:	bf00      	nop
 802195e:	eb42 0202 	adc.w	r2, r2, r2
 8021962:	bf28      	it	cs
 8021964:	eba0 60c1 	subcs.w	r0, r0, r1, lsl #27
 8021968:	ebb0 6f81 	cmp.w	r0, r1, lsl #26
 802196c:	bf00      	nop
 802196e:	eb42 0202 	adc.w	r2, r2, r2
 8021972:	bf28      	it	cs
 8021974:	eba0 6081 	subcs.w	r0, r0, r1, lsl #26
 8021978:	ebb0 6f41 	cmp.w	r0, r1, lsl #25
 802197c:	bf00      	nop
 802197e:	eb42 0202 	adc.w	r2, r2, r2
 8021982:	bf28      	it	cs
 8021984:	eba0 6041 	subcs.w	r0, r0, r1, lsl #25
 8021988:	ebb0 6f01 	cmp.w	r0, r1, lsl #24
 802198c:	bf00      	nop
 802198e:	eb42 0202 	adc.w	r2, r2, r2
 8021992:	bf28      	it	cs
 8021994:	eba0 6001 	subcs.w	r0, r0, r1, lsl #24
 8021998:	ebb0 5fc1 	cmp.w	r0, r1, lsl #23
 802199c:	bf00      	nop
 802199e:	eb42 0202 	adc.w	r2, r2, r2
 80219a2:	bf28      	it	cs
 80219a4:	eba0 50c1 	subcs.w	r0, r0, r1, lsl #23
 80219a8:	ebb0 5f81 	cmp.w	r0, r1, lsl #22
 80219ac:	bf00      	nop
 80219ae:	eb42 0202 	adc.w	r2, r2, r2
 80219b2:	bf28      	it	cs
 80219b4:	eba0 5081 	subcs.w	r0, r0, r1, lsl #22
 80219b8:	ebb0 5f41 	cmp.w	r0, r1, lsl #21
 80219bc:	bf00      	nop
 80219be:	eb42 0202 	adc.w	r2, r2, r2
 80219c2:	bf28      	it	cs
 80219c4:	eba0 5041 	subcs.w	r0, r0, r1, lsl #21
 80219c8:	ebb0 5f01 	cmp.w	r0, r1, lsl #20
 80219cc:	bf00      	nop
 80219ce:	eb42 0202 	adc.w	r2, r2, r2
 80219d2:	bf28      	it	cs
 80219d4:	eba0 5001 	subcs.w	r0, r0, r1, lsl #20
 80219d8:	ebb0 4fc1 	cmp.w	r0, r1, lsl #19
 80219dc:	bf00      	nop
 80219de:	eb42 0202 	adc.w	r2, r2, r2
 80219e2:	bf28      	it	cs
 80219e4:	eba0 40c1 	subcs.w	r0, r0, r1, lsl #19
 80219e8:	ebb0 4f81 	cmp.w	r0, r1, lsl #18
 80219ec:	bf00      	nop
 80219ee:	eb42 0202 	adc.w	r2, r2, r2
 80219f2:	bf28      	it	cs
 80219f4:	eba0 4081 	subcs.w	r0, r0, r1, lsl #18
 80219f8:	ebb0 4f41 	cmp.w	r0, r1, lsl #17
 80219fc:	bf00      	nop
 80219fe:	eb42 0202 	adc.w	r2, r2, r2
 8021a02:	bf28      	it	cs
 8021a04:	eba0 4041 	subcs.w	r0, r0, r1, lsl #17
 8021a08:	ebb0 4f01 	cmp.w	r0, r1, lsl #16
 8021a0c:	bf00      	nop
 8021a0e:	eb42 0202 	adc.w	r2, r2, r2
 8021a12:	bf28      	it	cs
 8021a14:	eba0 4001 	subcs.w	r0, r0, r1, lsl #16
 8021a18:	ebb0 3fc1 	cmp.w	r0, r1, lsl #15
 8021a1c:	bf00      	nop
 8021a1e:	eb42 0202 	adc.w	r2, r2, r2
 8021a22:	bf28      	it	cs
 8021a24:	eba0 30c1 	subcs.w	r0, r0, r1, lsl #15
 8021a28:	ebb0 3f81 	cmp.w	r0, r1, lsl #14
 8021a2c:	bf00      	nop
 8021a2e:	eb42 0202 	adc.w	r2, r2, r2
 8021a32:	bf28      	it	cs
 8021a34:	eba0 3081 	subcs.w	r0, r0, r1, lsl #14
 8021a38:	ebb0 3f41 	cmp.w	r0, r1, lsl #13
 8021a3c:	bf00      	nop
 8021a3e:	eb42 0202 	adc.w	r2, r2, r2
 8021a42:	bf28      	it	cs
 8021a44:	eba0 3041 	subcs.w	r0, r0, r1, lsl #13
 8021a48:	ebb0 3f01 	cmp.w	r0, r1, lsl #12
 8021a4c:	bf00      	nop
 8021a4e:	eb42 0202 	adc.w	r2, r2, r2
 8021a52:	bf28      	it	cs
 8021a54:	eba0 3001 	subcs.w	r0, r0, r1, lsl #12
 8021a58:	ebb0 2fc1 	cmp.w	r0, r1, lsl #11
 8021a5c:	bf00      	nop
 8021a5e:	eb42 0202 	adc.w	r2, r2, r2
 8021a62:	bf28      	it	cs
 8021a64:	eba0 20c1 	subcs.w	r0, r0, r1, lsl #11
 8021a68:	ebb0 2f81 	cmp.w	r0, r1, lsl #10
 8021a6c:	bf00      	nop
 8021a6e:	eb42 0202 	adc.w	r2, r2, r2
 8021a72:	bf28      	it	cs
 8021a74:	eba0 2081 	subcs.w	r0, r0, r1, lsl #10
 8021a78:	ebb0 2f41 	cmp.w	r0, r1, lsl #9
 8021a7c:	bf00      	nop
 8021a7e:	eb42 0202 	adc.w	r2, r2, r2
 8021a82:	bf28      	it	cs
 8021a84:	eba0 2041 	subcs.w	r0, r0, r1, lsl #9
 8021a88:	ebb0 2f01 	cmp.w	r0, r1, lsl #8
 8021a8c:	bf00      	nop
 8021a8e:	eb42 0202 	adc.w	r2, r2, r2
 8021a92:	bf28      	it	cs
 8021a94:	eba0 2001 	subcs.w	r0, r0, r1, lsl #8
 8021a98:	ebb0 1fc1 	cmp.w	r0, r1, lsl #7
 8021a9c:	bf00      	nop
 8021a9e:	eb42 0202 	adc.w	r2, r2, r2
 8021aa2:	bf28      	it	cs
 8021aa4:	eba0 10c1 	subcs.w	r0, r0, r1, lsl #7
 8021aa8:	ebb0 1f81 	cmp.w	r0, r1, lsl #6
 8021aac:	bf00      	nop
 8021aae:	eb42 0202 	adc.w	r2, r2, r2
 8021ab2:	bf28      	it	cs
 8021ab4:	eba0 1081 	subcs.w	r0, r0, r1, lsl #6
 8021ab8:	ebb0 1f41 	cmp.w	r0, r1, lsl #5
 8021abc:	bf00      	nop
 8021abe:	eb42 0202 	adc.w	r2, r2, r2
 8021ac2:	bf28      	it	cs
 8021ac4:	eba0 1041 	subcs.w	r0, r0, r1, lsl #5
 8021ac8:	ebb0 1f01 	cmp.w	r0, r1, lsl #4
 8021acc:	bf00      	nop
 8021ace:	eb42 0202 	adc.w	r2, r2, r2
 8021ad2:	bf28      	it	cs
 8021ad4:	eba0 1001 	subcs.w	r0, r0, r1, lsl #4
 8021ad8:	ebb0 0fc1 	cmp.w	r0, r1, lsl #3
 8021adc:	bf00      	nop
 8021ade:	eb42 0202 	adc.w	r2, r2, r2
 8021ae2:	bf28      	it	cs
 8021ae4:	eba0 00c1 	subcs.w	r0, r0, r1, lsl #3
 8021ae8:	ebb0 0f81 	cmp.w	r0, r1, lsl #2
 8021aec:	bf00      	nop
 8021aee:	eb42 0202 	adc.w	r2, r2, r2
 8021af2:	bf28      	it	cs
 8021af4:	eba0 0081 	subcs.w	r0, r0, r1, lsl #2
 8021af8:	ebb0 0f41 	cmp.w	r0, r1, lsl #1
 8021afc:	bf00      	nop
 8021afe:	eb42 0202 	adc.w	r2, r2, r2
 8021b02:	bf28      	it	cs
 8021b04:	eba0 0041 	subcs.w	r0, r0, r1, lsl #1
 8021b08:	ebb0 0f01 	cmp.w	r0, r1
 8021b0c:	bf00      	nop
 8021b0e:	eb42 0202 	adc.w	r2, r2, r2
 8021b12:	bf28      	it	cs
 8021b14:	eba0 0001 	subcs.w	r0, r0, r1
 8021b18:	4610      	mov	r0, r2
 8021b1a:	4770      	bx	lr
 8021b1c:	bf0c      	ite	eq
 8021b1e:	2001      	moveq	r0, #1
 8021b20:	2000      	movne	r0, #0
 8021b22:	4770      	bx	lr
 8021b24:	fab1 f281 	clz	r2, r1
 8021b28:	f1c2 021f 	rsb	r2, r2, #31
 8021b2c:	fa20 f002 	lsr.w	r0, r0, r2
 8021b30:	4770      	bx	lr
 8021b32:	b108      	cbz	r0, 8021b38 <__aeabi_uidiv+0x258>
 8021b34:	f04f 30ff 	mov.w	r0, #4294967295
 8021b38:	f7ff bb8e 	b.w	8021258 <__aeabi_idiv0>

08021b3c <__aeabi_uidivmod>:
 8021b3c:	2900      	cmp	r1, #0
 8021b3e:	d0f8      	beq.n	8021b32 <__aeabi_uidiv+0x252>
 8021b40:	e92d 4003 	stmdb	sp!, {r0, r1, lr}
 8021b44:	f7ff fecc 	bl	80218e0 <__aeabi_uidiv>
 8021b48:	e8bd 4006 	ldmia.w	sp!, {r1, r2, lr}
 8021b4c:	fb02 f300 	mul.w	r3, r2, r0
 8021b50:	eba1 0103 	sub.w	r1, r1, r3
 8021b54:	4770      	bx	lr
 8021b56:	bf00      	nop

08021b58 <atof>:
 8021b58:	2100      	movs	r1, #0
 8021b5a:	f001 bde7 	b.w	802372c <strtod>
 8021b5e:	bf00      	nop

08021b60 <atoi>:
 8021b60:	2100      	movs	r1, #0
 8021b62:	220a      	movs	r2, #10
 8021b64:	f001 bee2 	b.w	802392c <strtol>

08021b68 <_atoi_r>:
 8021b68:	2200      	movs	r2, #0
 8021b6a:	230a      	movs	r3, #10
 8021b6c:	f001 be3c 	b.w	80237e8 <_strtol_r>

08021b70 <__libc_init_array>:
 8021b70:	b570      	push	{r4, r5, r6, lr}
 8021b72:	f644 3654 	movw	r6, #19284	; 0x4b54
 8021b76:	f644 3554 	movw	r5, #19284	; 0x4b54
 8021b7a:	f6c0 0604 	movt	r6, #2052	; 0x804
 8021b7e:	f6c0 0504 	movt	r5, #2052	; 0x804
 8021b82:	1b76      	subs	r6, r6, r5
 8021b84:	10b6      	asrs	r6, r6, #2
 8021b86:	d007      	beq.n	8021b98 <__libc_init_array+0x28>
 8021b88:	3d04      	subs	r5, #4
 8021b8a:	2400      	movs	r4, #0
 8021b8c:	f855 3f04 	ldr.w	r3, [r5, #4]!
 8021b90:	3401      	adds	r4, #1
 8021b92:	4798      	blx	r3
 8021b94:	42a6      	cmp	r6, r4
 8021b96:	d1f9      	bne.n	8021b8c <__libc_init_array+0x1c>
 8021b98:	f644 3658 	movw	r6, #19288	; 0x4b58
 8021b9c:	f644 3554 	movw	r5, #19284	; 0x4b54
 8021ba0:	f6c0 0604 	movt	r6, #2052	; 0x804
 8021ba4:	f6c0 0504 	movt	r5, #2052	; 0x804
 8021ba8:	1b76      	subs	r6, r6, r5
 8021baa:	f022 ffc3 	bl	8044b34 <_init>
 8021bae:	10b6      	asrs	r6, r6, #2
 8021bb0:	d008      	beq.n	8021bc4 <__libc_init_array+0x54>
 8021bb2:	3d04      	subs	r5, #4
 8021bb4:	2400      	movs	r4, #0
 8021bb6:	f855 3f04 	ldr.w	r3, [r5, #4]!
 8021bba:	3401      	adds	r4, #1
 8021bbc:	4798      	blx	r3
 8021bbe:	42a6      	cmp	r6, r4
 8021bc0:	d1f9      	bne.n	8021bb6 <__libc_init_array+0x46>
 8021bc2:	bd70      	pop	{r4, r5, r6, pc}
 8021bc4:	bd70      	pop	{r4, r5, r6, pc}
 8021bc6:	bf00      	nop

08021bc8 <memcmp>:
 8021bc8:	2a03      	cmp	r2, #3
 8021bca:	b470      	push	{r4, r5, r6}
 8021bcc:	d922      	bls.n	8021c14 <memcmp+0x4c>
 8021bce:	ea41 0300 	orr.w	r3, r1, r0
 8021bd2:	079b      	lsls	r3, r3, #30
 8021bd4:	d013      	beq.n	8021bfe <memcmp+0x36>
 8021bd6:	7805      	ldrb	r5, [r0, #0]
 8021bd8:	3a01      	subs	r2, #1
 8021bda:	780c      	ldrb	r4, [r1, #0]
 8021bdc:	2300      	movs	r3, #0
 8021bde:	42a5      	cmp	r5, r4
 8021be0:	d006      	beq.n	8021bf0 <memcmp+0x28>
 8021be2:	e01b      	b.n	8021c1c <memcmp+0x54>
 8021be4:	f810 5f01 	ldrb.w	r5, [r0, #1]!
 8021be8:	f811 4f01 	ldrb.w	r4, [r1, #1]!
 8021bec:	42a5      	cmp	r5, r4
 8021bee:	d115      	bne.n	8021c1c <memcmp+0x54>
 8021bf0:	4293      	cmp	r3, r2
 8021bf2:	f103 0301 	add.w	r3, r3, #1
 8021bf6:	d1f5      	bne.n	8021be4 <memcmp+0x1c>
 8021bf8:	2000      	movs	r0, #0
 8021bfa:	bc70      	pop	{r4, r5, r6}
 8021bfc:	4770      	bx	lr
 8021bfe:	460c      	mov	r4, r1
 8021c00:	4603      	mov	r3, r0
 8021c02:	3104      	adds	r1, #4
 8021c04:	3004      	adds	r0, #4
 8021c06:	681e      	ldr	r6, [r3, #0]
 8021c08:	6825      	ldr	r5, [r4, #0]
 8021c0a:	42ae      	cmp	r6, r5
 8021c0c:	d108      	bne.n	8021c20 <memcmp+0x58>
 8021c0e:	3a04      	subs	r2, #4
 8021c10:	2a03      	cmp	r2, #3
 8021c12:	d8f4      	bhi.n	8021bfe <memcmp+0x36>
 8021c14:	2a00      	cmp	r2, #0
 8021c16:	d1de      	bne.n	8021bd6 <memcmp+0xe>
 8021c18:	4610      	mov	r0, r2
 8021c1a:	e7ee      	b.n	8021bfa <memcmp+0x32>
 8021c1c:	1b28      	subs	r0, r5, r4
 8021c1e:	e7ec      	b.n	8021bfa <memcmp+0x32>
 8021c20:	4621      	mov	r1, r4
 8021c22:	4618      	mov	r0, r3
 8021c24:	2a00      	cmp	r2, #0
 8021c26:	d1d6      	bne.n	8021bd6 <memcmp+0xe>
 8021c28:	e7f6      	b.n	8021c18 <memcmp+0x50>
 8021c2a:	bf00      	nop

08021c2c <memcpy>:
 8021c2c:	2a03      	cmp	r2, #3
 8021c2e:	e92d 0ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp}
 8021c32:	d809      	bhi.n	8021c48 <memcpy+0x1c>
 8021c34:	b12a      	cbz	r2, 8021c42 <memcpy+0x16>
 8021c36:	2300      	movs	r3, #0
 8021c38:	5ccc      	ldrb	r4, [r1, r3]
 8021c3a:	54c4      	strb	r4, [r0, r3]
 8021c3c:	3301      	adds	r3, #1
 8021c3e:	4293      	cmp	r3, r2
 8021c40:	d1fa      	bne.n	8021c38 <memcpy+0xc>
 8021c42:	e8bd 0ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp}
 8021c46:	4770      	bx	lr
 8021c48:	0783      	lsls	r3, r0, #30
 8021c4a:	4402      	add	r2, r0
 8021c4c:	d00e      	beq.n	8021c6c <memcpy+0x40>
 8021c4e:	1c44      	adds	r4, r0, #1
 8021c50:	1c4d      	adds	r5, r1, #1
 8021c52:	f815 7c01 	ldrb.w	r7, [r5, #-1]
 8021c56:	f004 0603 	and.w	r6, r4, #3
 8021c5a:	4623      	mov	r3, r4
 8021c5c:	3401      	adds	r4, #1
 8021c5e:	4629      	mov	r1, r5
 8021c60:	3501      	adds	r5, #1
 8021c62:	f804 7c02 	strb.w	r7, [r4, #-2]
 8021c66:	2e00      	cmp	r6, #0
 8021c68:	d1f3      	bne.n	8021c52 <memcpy+0x26>
 8021c6a:	e000      	b.n	8021c6e <memcpy+0x42>
 8021c6c:	4603      	mov	r3, r0
 8021c6e:	f011 0403 	ands.w	r4, r1, #3
 8021c72:	d06d      	beq.n	8021d50 <memcpy+0x124>
 8021c74:	1ad7      	subs	r7, r2, r3
 8021c76:	1b0d      	subs	r5, r1, r4
 8021c78:	2f03      	cmp	r7, #3
 8021c7a:	682e      	ldr	r6, [r5, #0]
 8021c7c:	dd19      	ble.n	8021cb2 <memcpy+0x86>
 8021c7e:	f1c4 0c04 	rsb	ip, r4, #4
 8021c82:	ea4f 08c4 	mov.w	r8, r4, lsl #3
 8021c86:	1d1c      	adds	r4, r3, #4
 8021c88:	ea4f 0ccc 	mov.w	ip, ip, lsl #3
 8021c8c:	f855 7f04 	ldr.w	r7, [r5, #4]!
 8021c90:	ebc4 0902 	rsb	r9, r4, r2
 8021c94:	4623      	mov	r3, r4
 8021c96:	3104      	adds	r1, #4
 8021c98:	3404      	adds	r4, #4
 8021c9a:	f1b9 0f03 	cmp.w	r9, #3
 8021c9e:	fa26 fa08 	lsr.w	sl, r6, r8
 8021ca2:	fa07 fb0c 	lsl.w	fp, r7, ip
 8021ca6:	463e      	mov	r6, r7
 8021ca8:	ea4b 070a 	orr.w	r7, fp, sl
 8021cac:	f844 7c08 	str.w	r7, [r4, #-8]
 8021cb0:	dcec      	bgt.n	8021c8c <memcpy+0x60>
 8021cb2:	429a      	cmp	r2, r3
 8021cb4:	d9c5      	bls.n	8021c42 <memcpy+0x16>
 8021cb6:	3301      	adds	r3, #1
 8021cb8:	3101      	adds	r1, #1
 8021cba:	3201      	adds	r2, #1
 8021cbc:	f811 4c01 	ldrb.w	r4, [r1, #-1]
 8021cc0:	3301      	adds	r3, #1
 8021cc2:	3101      	adds	r1, #1
 8021cc4:	4293      	cmp	r3, r2
 8021cc6:	f803 4c02 	strb.w	r4, [r3, #-2]
 8021cca:	d1f7      	bne.n	8021cbc <memcpy+0x90>
 8021ccc:	e7b9      	b.n	8021c42 <memcpy+0x16>
 8021cce:	680c      	ldr	r4, [r1, #0]
 8021cd0:	3340      	adds	r3, #64	; 0x40
 8021cd2:	3140      	adds	r1, #64	; 0x40
 8021cd4:	f843 4c40 	str.w	r4, [r3, #-64]
 8021cd8:	f851 4c3c 	ldr.w	r4, [r1, #-60]
 8021cdc:	f843 4c3c 	str.w	r4, [r3, #-60]
 8021ce0:	f851 4c38 	ldr.w	r4, [r1, #-56]
 8021ce4:	f843 4c38 	str.w	r4, [r3, #-56]
 8021ce8:	f851 4c34 	ldr.w	r4, [r1, #-52]
 8021cec:	f843 4c34 	str.w	r4, [r3, #-52]
 8021cf0:	f851 4c30 	ldr.w	r4, [r1, #-48]
 8021cf4:	f843 4c30 	str.w	r4, [r3, #-48]
 8021cf8:	f851 4c2c 	ldr.w	r4, [r1, #-44]
 8021cfc:	f843 4c2c 	str.w	r4, [r3, #-44]
 8021d00:	f851 4c28 	ldr.w	r4, [r1, #-40]
 8021d04:	f843 4c28 	str.w	r4, [r3, #-40]
 8021d08:	f851 4c24 	ldr.w	r4, [r1, #-36]
 8021d0c:	f843 4c24 	str.w	r4, [r3, #-36]
 8021d10:	f851 4c20 	ldr.w	r4, [r1, #-32]
 8021d14:	f843 4c20 	str.w	r4, [r3, #-32]
 8021d18:	f851 4c1c 	ldr.w	r4, [r1, #-28]
 8021d1c:	f843 4c1c 	str.w	r4, [r3, #-28]
 8021d20:	f851 4c18 	ldr.w	r4, [r1, #-24]
 8021d24:	f843 4c18 	str.w	r4, [r3, #-24]
 8021d28:	f851 4c14 	ldr.w	r4, [r1, #-20]
 8021d2c:	f843 4c14 	str.w	r4, [r3, #-20]
 8021d30:	f851 4c10 	ldr.w	r4, [r1, #-16]
 8021d34:	f843 4c10 	str.w	r4, [r3, #-16]
 8021d38:	f851 4c0c 	ldr.w	r4, [r1, #-12]
 8021d3c:	f843 4c0c 	str.w	r4, [r3, #-12]
 8021d40:	f851 4c08 	ldr.w	r4, [r1, #-8]
 8021d44:	f843 4c08 	str.w	r4, [r3, #-8]
 8021d48:	f851 4c04 	ldr.w	r4, [r1, #-4]
 8021d4c:	f843 4c04 	str.w	r4, [r3, #-4]
 8021d50:	1ad4      	subs	r4, r2, r3
 8021d52:	2c3f      	cmp	r4, #63	; 0x3f
 8021d54:	dcbb      	bgt.n	8021cce <memcpy+0xa2>
 8021d56:	e011      	b.n	8021d7c <memcpy+0x150>
 8021d58:	680c      	ldr	r4, [r1, #0]
 8021d5a:	3310      	adds	r3, #16
 8021d5c:	3110      	adds	r1, #16
 8021d5e:	f843 4c10 	str.w	r4, [r3, #-16]
 8021d62:	f851 4c0c 	ldr.w	r4, [r1, #-12]
 8021d66:	f843 4c0c 	str.w	r4, [r3, #-12]
 8021d6a:	f851 4c08 	ldr.w	r4, [r1, #-8]
 8021d6e:	f843 4c08 	str.w	r4, [r3, #-8]
 8021d72:	f851 4c04 	ldr.w	r4, [r1, #-4]
 8021d76:	f843 4c04 	str.w	r4, [r3, #-4]
 8021d7a:	1ad4      	subs	r4, r2, r3
 8021d7c:	2c0f      	cmp	r4, #15
 8021d7e:	dceb      	bgt.n	8021d58 <memcpy+0x12c>
 8021d80:	2c03      	cmp	r4, #3
 8021d82:	dd96      	ble.n	8021cb2 <memcpy+0x86>
 8021d84:	1d1c      	adds	r4, r3, #4
 8021d86:	1d0d      	adds	r5, r1, #4
 8021d88:	f855 7c04 	ldr.w	r7, [r5, #-4]
 8021d8c:	1b16      	subs	r6, r2, r4
 8021d8e:	4623      	mov	r3, r4
 8021d90:	4629      	mov	r1, r5
 8021d92:	3404      	adds	r4, #4
 8021d94:	3504      	adds	r5, #4
 8021d96:	2e03      	cmp	r6, #3
 8021d98:	f844 7c08 	str.w	r7, [r4, #-8]
 8021d9c:	dcf4      	bgt.n	8021d88 <memcpy+0x15c>
 8021d9e:	e788      	b.n	8021cb2 <memcpy+0x86>

08021da0 <memset>:
 8021da0:	2a03      	cmp	r2, #3
 8021da2:	b2c9      	uxtb	r1, r1
 8021da4:	b470      	push	{r4, r5, r6}
 8021da6:	d808      	bhi.n	8021dba <memset+0x1a>
 8021da8:	b12a      	cbz	r2, 8021db6 <memset+0x16>
 8021daa:	4603      	mov	r3, r0
 8021dac:	1812      	adds	r2, r2, r0
 8021dae:	f803 1b01 	strb.w	r1, [r3], #1
 8021db2:	4293      	cmp	r3, r2
 8021db4:	d1fb      	bne.n	8021dae <memset+0xe>
 8021db6:	bc70      	pop	{r4, r5, r6}
 8021db8:	4770      	bx	lr
 8021dba:	0783      	lsls	r3, r0, #30
 8021dbc:	4402      	add	r2, r0
 8021dbe:	d009      	beq.n	8021dd4 <memset+0x34>
 8021dc0:	1c44      	adds	r4, r0, #1
 8021dc2:	f004 0503 	and.w	r5, r4, #3
 8021dc6:	4623      	mov	r3, r4
 8021dc8:	f804 1c01 	strb.w	r1, [r4, #-1]
 8021dcc:	3401      	adds	r4, #1
 8021dce:	2d00      	cmp	r5, #0
 8021dd0:	d1f7      	bne.n	8021dc2 <memset+0x22>
 8021dd2:	e000      	b.n	8021dd6 <memset+0x36>
 8021dd4:	4603      	mov	r3, r0
 8021dd6:	1ad5      	subs	r5, r2, r3
 8021dd8:	eb01 2401 	add.w	r4, r1, r1, lsl #8
 8021ddc:	2d3f      	cmp	r5, #63	; 0x3f
 8021dde:	eb04 4404 	add.w	r4, r4, r4, lsl #16
 8021de2:	dd2c      	ble.n	8021e3e <memset+0x9e>
 8021de4:	601c      	str	r4, [r3, #0]
 8021de6:	3340      	adds	r3, #64	; 0x40
 8021de8:	1ad5      	subs	r5, r2, r3
 8021dea:	f843 4c3c 	str.w	r4, [r3, #-60]
 8021dee:	2d3f      	cmp	r5, #63	; 0x3f
 8021df0:	f843 4c38 	str.w	r4, [r3, #-56]
 8021df4:	f843 4c34 	str.w	r4, [r3, #-52]
 8021df8:	f843 4c30 	str.w	r4, [r3, #-48]
 8021dfc:	f843 4c2c 	str.w	r4, [r3, #-44]
 8021e00:	f843 4c28 	str.w	r4, [r3, #-40]
 8021e04:	f843 4c24 	str.w	r4, [r3, #-36]
 8021e08:	f843 4c20 	str.w	r4, [r3, #-32]
 8021e0c:	f843 4c1c 	str.w	r4, [r3, #-28]
 8021e10:	f843 4c18 	str.w	r4, [r3, #-24]
 8021e14:	f843 4c14 	str.w	r4, [r3, #-20]
 8021e18:	f843 4c10 	str.w	r4, [r3, #-16]
 8021e1c:	f843 4c0c 	str.w	r4, [r3, #-12]
 8021e20:	f843 4c08 	str.w	r4, [r3, #-8]
 8021e24:	f843 4c04 	str.w	r4, [r3, #-4]
 8021e28:	dcdc      	bgt.n	8021de4 <memset+0x44>
 8021e2a:	e008      	b.n	8021e3e <memset+0x9e>
 8021e2c:	601c      	str	r4, [r3, #0]
 8021e2e:	3310      	adds	r3, #16
 8021e30:	1ad5      	subs	r5, r2, r3
 8021e32:	f843 4c0c 	str.w	r4, [r3, #-12]
 8021e36:	f843 4c08 	str.w	r4, [r3, #-8]
 8021e3a:	f843 4c04 	str.w	r4, [r3, #-4]
 8021e3e:	2d0f      	cmp	r5, #15
 8021e40:	dcf4      	bgt.n	8021e2c <memset+0x8c>
 8021e42:	2d03      	cmp	r5, #3
 8021e44:	dd08      	ble.n	8021e58 <memset+0xb8>
 8021e46:	1d1d      	adds	r5, r3, #4
 8021e48:	1b56      	subs	r6, r2, r5
 8021e4a:	f845 4c04 	str.w	r4, [r5, #-4]
 8021e4e:	2e03      	cmp	r6, #3
 8021e50:	462b      	mov	r3, r5
 8021e52:	f105 0504 	add.w	r5, r5, #4
 8021e56:	dcf7      	bgt.n	8021e48 <memset+0xa8>
 8021e58:	429a      	cmp	r2, r3
 8021e5a:	d9ac      	bls.n	8021db6 <memset+0x16>
 8021e5c:	3301      	adds	r3, #1
 8021e5e:	3201      	adds	r2, #1
 8021e60:	f803 1c01 	strb.w	r1, [r3, #-1]
 8021e64:	3301      	adds	r3, #1
 8021e66:	4293      	cmp	r3, r2
 8021e68:	d1fa      	bne.n	8021e60 <memset+0xc0>
 8021e6a:	e7a4      	b.n	8021db6 <memset+0x16>

08021e6c <strcat>:
 8021e6c:	0783      	lsls	r3, r0, #30
 8021e6e:	b570      	push	{r4, r5, r6, lr}
 8021e70:	4606      	mov	r6, r0
 8021e72:	d114      	bne.n	8021e9e <strcat+0x32>
 8021e74:	6803      	ldr	r3, [r0, #0]
 8021e76:	f1a3 3201 	sub.w	r2, r3, #16843009	; 0x1010101
 8021e7a:	ea22 0303 	bic.w	r3, r2, r3
 8021e7e:	f013 3f80 	tst.w	r3, #2155905152	; 0x80808080
 8021e82:	d10c      	bne.n	8021e9e <strcat+0x32>
 8021e84:	1d03      	adds	r3, r0, #4
 8021e86:	461a      	mov	r2, r3
 8021e88:	f853 4b04 	ldr.w	r4, [r3], #4
 8021e8c:	f1a4 3501 	sub.w	r5, r4, #16843009	; 0x1010101
 8021e90:	ea25 0404 	bic.w	r4, r5, r4
 8021e94:	f014 3f80 	tst.w	r4, #2155905152	; 0x80808080
 8021e98:	d0f5      	beq.n	8021e86 <strcat+0x1a>
 8021e9a:	4610      	mov	r0, r2
 8021e9c:	e000      	b.n	8021ea0 <strcat+0x34>
 8021e9e:	4630      	mov	r0, r6
 8021ea0:	7803      	ldrb	r3, [r0, #0]
 8021ea2:	b12b      	cbz	r3, 8021eb0 <strcat+0x44>
 8021ea4:	1c43      	adds	r3, r0, #1
 8021ea6:	4618      	mov	r0, r3
 8021ea8:	3301      	adds	r3, #1
 8021eaa:	7804      	ldrb	r4, [r0, #0]
 8021eac:	2c00      	cmp	r4, #0
 8021eae:	d1fa      	bne.n	8021ea6 <strcat+0x3a>
 8021eb0:	f000 f8f0 	bl	8022094 <strcpy>
 8021eb4:	4630      	mov	r0, r6
 8021eb6:	bd70      	pop	{r4, r5, r6, pc}

08021eb8 <strcmp>:
 8021eb8:	ea80 0201 	eor.w	r2, r0, r1
 8021ebc:	f012 0f03 	tst.w	r2, #3
 8021ec0:	f040 803a 	bne.w	8021f38 <strcmp_unaligned>
 8021ec4:	f010 0203 	ands.w	r2, r0, #3
 8021ec8:	f020 0003 	bic.w	r0, r0, #3
 8021ecc:	f021 0103 	bic.w	r1, r1, #3
 8021ed0:	f850 cb04 	ldr.w	ip, [r0], #4
 8021ed4:	bf08      	it	eq
 8021ed6:	f851 3b04 	ldreq.w	r3, [r1], #4
 8021eda:	d00d      	beq.n	8021ef8 <strcmp+0x40>
 8021edc:	f082 0203 	eor.w	r2, r2, #3
 8021ee0:	ea4f 02c2 	mov.w	r2, r2, lsl #3
 8021ee4:	f06f 437f 	mvn.w	r3, #4278190080	; 0xff000000
 8021ee8:	fa23 f202 	lsr.w	r2, r3, r2
 8021eec:	f851 3b04 	ldr.w	r3, [r1], #4
 8021ef0:	ea4c 0c02 	orr.w	ip, ip, r2
 8021ef4:	ea43 0302 	orr.w	r3, r3, r2
 8021ef8:	f1ac 3201 	sub.w	r2, ip, #16843009	; 0x1010101
 8021efc:	459c      	cmp	ip, r3
 8021efe:	bf01      	itttt	eq
 8021f00:	ea22 020c 	biceq.w	r2, r2, ip
 8021f04:	f012 3f80 	tsteq.w	r2, #2155905152	; 0x80808080
 8021f08:	f850 cb04 	ldreq.w	ip, [r0], #4
 8021f0c:	f851 3b04 	ldreq.w	r3, [r1], #4
 8021f10:	d0f2      	beq.n	8021ef8 <strcmp+0x40>
 8021f12:	ea4f 600c 	mov.w	r0, ip, lsl #24
 8021f16:	ea4f 2c1c 	mov.w	ip, ip, lsr #8
 8021f1a:	2801      	cmp	r0, #1
 8021f1c:	bf28      	it	cs
 8021f1e:	ebb0 6f03 	cmpcs.w	r0, r3, lsl #24
 8021f22:	bf08      	it	eq
 8021f24:	0a1b      	lsreq	r3, r3, #8
 8021f26:	d0f4      	beq.n	8021f12 <strcmp+0x5a>
 8021f28:	f003 03ff 	and.w	r3, r3, #255	; 0xff
 8021f2c:	ea4f 6010 	mov.w	r0, r0, lsr #24
 8021f30:	eba0 0003 	sub.w	r0, r0, r3
 8021f34:	4770      	bx	lr
 8021f36:	bf00      	nop

08021f38 <strcmp_unaligned>:
 8021f38:	f010 0f03 	tst.w	r0, #3
 8021f3c:	d00a      	beq.n	8021f54 <strcmp_unaligned+0x1c>
 8021f3e:	f810 2b01 	ldrb.w	r2, [r0], #1
 8021f42:	f811 3b01 	ldrb.w	r3, [r1], #1
 8021f46:	2a01      	cmp	r2, #1
 8021f48:	bf28      	it	cs
 8021f4a:	429a      	cmpcs	r2, r3
 8021f4c:	d0f4      	beq.n	8021f38 <strcmp_unaligned>
 8021f4e:	eba2 0003 	sub.w	r0, r2, r3
 8021f52:	4770      	bx	lr
 8021f54:	f84d 5d04 	str.w	r5, [sp, #-4]!
 8021f58:	f84d 4d04 	str.w	r4, [sp, #-4]!
 8021f5c:	f04f 0201 	mov.w	r2, #1
 8021f60:	ea42 2202 	orr.w	r2, r2, r2, lsl #8
 8021f64:	ea42 4202 	orr.w	r2, r2, r2, lsl #16
 8021f68:	f001 0c03 	and.w	ip, r1, #3
 8021f6c:	f021 0103 	bic.w	r1, r1, #3
 8021f70:	f850 4b04 	ldr.w	r4, [r0], #4
 8021f74:	f851 5b04 	ldr.w	r5, [r1], #4
 8021f78:	f1bc 0f02 	cmp.w	ip, #2
 8021f7c:	d026      	beq.n	8021fcc <strcmp_unaligned+0x94>
 8021f7e:	d84b      	bhi.n	8022018 <strcmp_unaligned+0xe0>
 8021f80:	f024 4c7f 	bic.w	ip, r4, #4278190080	; 0xff000000
 8021f84:	ebbc 2f15 	cmp.w	ip, r5, lsr #8
 8021f88:	eba4 0302 	sub.w	r3, r4, r2
 8021f8c:	ea23 0304 	bic.w	r3, r3, r4
 8021f90:	d10d      	bne.n	8021fae <strcmp_unaligned+0x76>
 8021f92:	ea13 13c2 	ands.w	r3, r3, r2, lsl #7
 8021f96:	bf08      	it	eq
 8021f98:	f851 5b04 	ldreq.w	r5, [r1], #4
 8021f9c:	d10a      	bne.n	8021fb4 <strcmp_unaligned+0x7c>
 8021f9e:	ea8c 0c04 	eor.w	ip, ip, r4
 8021fa2:	ebbc 6f05 	cmp.w	ip, r5, lsl #24
 8021fa6:	d10c      	bne.n	8021fc2 <strcmp_unaligned+0x8a>
 8021fa8:	f850 4b04 	ldr.w	r4, [r0], #4
 8021fac:	e7e8      	b.n	8021f80 <strcmp_unaligned+0x48>
 8021fae:	ea4f 2515 	mov.w	r5, r5, lsr #8
 8021fb2:	e05c      	b.n	802206e <strcmp_unaligned+0x136>
 8021fb4:	f033 437f 	bics.w	r3, r3, #4278190080	; 0xff000000
 8021fb8:	d152      	bne.n	8022060 <strcmp_unaligned+0x128>
 8021fba:	780d      	ldrb	r5, [r1, #0]
 8021fbc:	ea4f 6c14 	mov.w	ip, r4, lsr #24
 8021fc0:	e055      	b.n	802206e <strcmp_unaligned+0x136>
 8021fc2:	ea4f 6c14 	mov.w	ip, r4, lsr #24
 8021fc6:	f005 05ff 	and.w	r5, r5, #255	; 0xff
 8021fca:	e050      	b.n	802206e <strcmp_unaligned+0x136>
 8021fcc:	ea4f 4c04 	mov.w	ip, r4, lsl #16
 8021fd0:	eba4 0302 	sub.w	r3, r4, r2
 8021fd4:	ea4f 4c1c 	mov.w	ip, ip, lsr #16
 8021fd8:	ea23 0304 	bic.w	r3, r3, r4
 8021fdc:	ebbc 4f15 	cmp.w	ip, r5, lsr #16
 8021fe0:	d117      	bne.n	8022012 <strcmp_unaligned+0xda>
 8021fe2:	ea13 13c2 	ands.w	r3, r3, r2, lsl #7
 8021fe6:	bf08      	it	eq
 8021fe8:	f851 5b04 	ldreq.w	r5, [r1], #4
 8021fec:	d107      	bne.n	8021ffe <strcmp_unaligned+0xc6>
 8021fee:	ea8c 0c04 	eor.w	ip, ip, r4
 8021ff2:	ebbc 4f05 	cmp.w	ip, r5, lsl #16
 8021ff6:	d108      	bne.n	802200a <strcmp_unaligned+0xd2>
 8021ff8:	f850 4b04 	ldr.w	r4, [r0], #4
 8021ffc:	e7e6      	b.n	8021fcc <strcmp_unaligned+0x94>
 8021ffe:	041b      	lsls	r3, r3, #16
 8022000:	d12e      	bne.n	8022060 <strcmp_unaligned+0x128>
 8022002:	880d      	ldrh	r5, [r1, #0]
 8022004:	ea4f 4c14 	mov.w	ip, r4, lsr #16
 8022008:	e031      	b.n	802206e <strcmp_unaligned+0x136>
 802200a:	ea4f 4505 	mov.w	r5, r5, lsl #16
 802200e:	ea4f 4c14 	mov.w	ip, r4, lsr #16
 8022012:	ea4f 4515 	mov.w	r5, r5, lsr #16
 8022016:	e02a      	b.n	802206e <strcmp_unaligned+0x136>
 8022018:	f004 0cff 	and.w	ip, r4, #255	; 0xff
 802201c:	ebbc 6f15 	cmp.w	ip, r5, lsr #24
 8022020:	eba4 0302 	sub.w	r3, r4, r2
 8022024:	ea23 0304 	bic.w	r3, r3, r4
 8022028:	d10d      	bne.n	8022046 <strcmp_unaligned+0x10e>
 802202a:	ea13 13c2 	ands.w	r3, r3, r2, lsl #7
 802202e:	bf08      	it	eq
 8022030:	f851 5b04 	ldreq.w	r5, [r1], #4
 8022034:	d10a      	bne.n	802204c <strcmp_unaligned+0x114>
 8022036:	ea8c 0c04 	eor.w	ip, ip, r4
 802203a:	ebbc 2f05 	cmp.w	ip, r5, lsl #8
 802203e:	d10a      	bne.n	8022056 <strcmp_unaligned+0x11e>
 8022040:	f850 4b04 	ldr.w	r4, [r0], #4
 8022044:	e7e8      	b.n	8022018 <strcmp_unaligned+0xe0>
 8022046:	ea4f 6515 	mov.w	r5, r5, lsr #24
 802204a:	e010      	b.n	802206e <strcmp_unaligned+0x136>
 802204c:	f014 0fff 	tst.w	r4, #255	; 0xff
 8022050:	d006      	beq.n	8022060 <strcmp_unaligned+0x128>
 8022052:	f851 5b04 	ldr.w	r5, [r1], #4
 8022056:	ea4f 2c14 	mov.w	ip, r4, lsr #8
 802205a:	f025 457f 	bic.w	r5, r5, #4278190080	; 0xff000000
 802205e:	e006      	b.n	802206e <strcmp_unaligned+0x136>
 8022060:	f04f 0000 	mov.w	r0, #0
 8022064:	f85d 4b04 	ldr.w	r4, [sp], #4
 8022068:	f85d 5b04 	ldr.w	r5, [sp], #4
 802206c:	4770      	bx	lr
 802206e:	f00c 02ff 	and.w	r2, ip, #255	; 0xff
 8022072:	f005 00ff 	and.w	r0, r5, #255	; 0xff
 8022076:	2801      	cmp	r0, #1
 8022078:	bf28      	it	cs
 802207a:	4290      	cmpcs	r0, r2
 802207c:	bf04      	itt	eq
 802207e:	ea4f 2c1c 	moveq.w	ip, ip, lsr #8
 8022082:	0a2d      	lsreq	r5, r5, #8
 8022084:	d0f3      	beq.n	802206e <strcmp_unaligned+0x136>
 8022086:	eba2 0000 	sub.w	r0, r2, r0
 802208a:	f85d 4b04 	ldr.w	r4, [sp], #4
 802208e:	f85d 5b04 	ldr.w	r5, [sp], #4
 8022092:	4770      	bx	lr

08022094 <strcpy>:
 8022094:	ea80 0201 	eor.w	r2, r0, r1
 8022098:	4684      	mov	ip, r0
 802209a:	f012 0f03 	tst.w	r2, #3
 802209e:	d14f      	bne.n	8022140 <strcpy+0xac>
 80220a0:	f011 0f03 	tst.w	r1, #3
 80220a4:	d132      	bne.n	802210c <strcpy+0x78>
 80220a6:	f84d 4d04 	str.w	r4, [sp, #-4]!
 80220aa:	f011 0f04 	tst.w	r1, #4
 80220ae:	f851 3b04 	ldr.w	r3, [r1], #4
 80220b2:	d00b      	beq.n	80220cc <strcpy+0x38>
 80220b4:	f1a3 3201 	sub.w	r2, r3, #16843009	; 0x1010101
 80220b8:	439a      	bics	r2, r3
 80220ba:	f012 3f80 	tst.w	r2, #2155905152	; 0x80808080
 80220be:	bf04      	itt	eq
 80220c0:	f84c 3b04 	streq.w	r3, [ip], #4
 80220c4:	f851 3b04 	ldreq.w	r3, [r1], #4
 80220c8:	d116      	bne.n	80220f8 <strcpy+0x64>
 80220ca:	bf00      	nop
 80220cc:	f851 4b04 	ldr.w	r4, [r1], #4
 80220d0:	f1a3 3201 	sub.w	r2, r3, #16843009	; 0x1010101
 80220d4:	439a      	bics	r2, r3
 80220d6:	f012 3f80 	tst.w	r2, #2155905152	; 0x80808080
 80220da:	f1a4 3201 	sub.w	r2, r4, #16843009	; 0x1010101
 80220de:	d10b      	bne.n	80220f8 <strcpy+0x64>
 80220e0:	f84c 3b04 	str.w	r3, [ip], #4
 80220e4:	43a2      	bics	r2, r4
 80220e6:	f012 3f80 	tst.w	r2, #2155905152	; 0x80808080
 80220ea:	bf04      	itt	eq
 80220ec:	f851 3b04 	ldreq.w	r3, [r1], #4
 80220f0:	f84c 4b04 	streq.w	r4, [ip], #4
 80220f4:	d0ea      	beq.n	80220cc <strcpy+0x38>
 80220f6:	4623      	mov	r3, r4
 80220f8:	f80c 3b01 	strb.w	r3, [ip], #1
 80220fc:	f013 0fff 	tst.w	r3, #255	; 0xff
 8022100:	ea4f 2333 	mov.w	r3, r3, ror #8
 8022104:	d1f8      	bne.n	80220f8 <strcpy+0x64>
 8022106:	f85d 4b04 	ldr.w	r4, [sp], #4
 802210a:	4770      	bx	lr
 802210c:	f011 0f01 	tst.w	r1, #1
 8022110:	d006      	beq.n	8022120 <strcpy+0x8c>
 8022112:	f811 2b01 	ldrb.w	r2, [r1], #1
 8022116:	f80c 2b01 	strb.w	r2, [ip], #1
 802211a:	2a00      	cmp	r2, #0
 802211c:	bf08      	it	eq
 802211e:	4770      	bxeq	lr
 8022120:	f011 0f02 	tst.w	r1, #2
 8022124:	d0bf      	beq.n	80220a6 <strcpy+0x12>
 8022126:	f831 2b02 	ldrh.w	r2, [r1], #2
 802212a:	f012 0fff 	tst.w	r2, #255	; 0xff
 802212e:	bf16      	itet	ne
 8022130:	f82c 2b02 	strhne.w	r2, [ip], #2
 8022134:	f88c 2000 	strbeq.w	r2, [ip]
 8022138:	f412 4f7f 	tstne.w	r2, #65280	; 0xff00
 802213c:	d1b3      	bne.n	80220a6 <strcpy+0x12>
 802213e:	4770      	bx	lr
 8022140:	f811 2b01 	ldrb.w	r2, [r1], #1
 8022144:	f80c 2b01 	strb.w	r2, [ip], #1
 8022148:	2a00      	cmp	r2, #0
 802214a:	d1f9      	bne.n	8022140 <strcpy+0xac>
 802214c:	4770      	bx	lr
 802214e:	bf00      	nop

08022150 <strlen>:
 8022150:	f020 0103 	bic.w	r1, r0, #3
 8022154:	f010 0003 	ands.w	r0, r0, #3
 8022158:	f1c0 0000 	rsb	r0, r0, #0
 802215c:	f851 3b04 	ldr.w	r3, [r1], #4
 8022160:	f100 0c04 	add.w	ip, r0, #4
 8022164:	ea4f 0ccc 	mov.w	ip, ip, lsl #3
 8022168:	f06f 0200 	mvn.w	r2, #0
 802216c:	bf1c      	itt	ne
 802216e:	fa22 f20c 	lsrne.w	r2, r2, ip
 8022172:	4313      	orrne	r3, r2
 8022174:	f04f 0c01 	mov.w	ip, #1
 8022178:	ea4c 2c0c 	orr.w	ip, ip, ip, lsl #8
 802217c:	ea4c 4c0c 	orr.w	ip, ip, ip, lsl #16
 8022180:	eba3 020c 	sub.w	r2, r3, ip
 8022184:	ea22 0203 	bic.w	r2, r2, r3
 8022188:	ea12 12cc 	ands.w	r2, r2, ip, lsl #7
 802218c:	bf04      	itt	eq
 802218e:	f851 3b04 	ldreq.w	r3, [r1], #4
 8022192:	3004      	addeq	r0, #4
 8022194:	d0f4      	beq.n	8022180 <strlen+0x30>
 8022196:	f013 0fff 	tst.w	r3, #255	; 0xff
 802219a:	bf1f      	itttt	ne
 802219c:	3001      	addne	r0, #1
 802219e:	f413 4f7f 	tstne.w	r3, #65280	; 0xff00
 80221a2:	3001      	addne	r0, #1
 80221a4:	f413 0f7f 	tstne.w	r3, #16711680	; 0xff0000
 80221a8:	bf18      	it	ne
 80221aa:	3001      	addne	r0, #1
 80221ac:	4770      	bx	lr
 80221ae:	bf00      	nop

080221b0 <strncat>:
 80221b0:	0783      	lsls	r3, r0, #30
 80221b2:	b470      	push	{r4, r5, r6}
 80221b4:	d113      	bne.n	80221de <strncat+0x2e>
 80221b6:	6803      	ldr	r3, [r0, #0]
 80221b8:	f1a3 3401 	sub.w	r4, r3, #16843009	; 0x1010101
 80221bc:	ea24 0303 	bic.w	r3, r4, r3
 80221c0:	f013 3f80 	tst.w	r3, #2155905152	; 0x80808080
 80221c4:	d10b      	bne.n	80221de <strncat+0x2e>
 80221c6:	1d03      	adds	r3, r0, #4
 80221c8:	461d      	mov	r5, r3
 80221ca:	f853 4b04 	ldr.w	r4, [r3], #4
 80221ce:	f1a4 3601 	sub.w	r6, r4, #16843009	; 0x1010101
 80221d2:	ea26 0404 	bic.w	r4, r6, r4
 80221d6:	f014 3f80 	tst.w	r4, #2155905152	; 0x80808080
 80221da:	d0f5      	beq.n	80221c8 <strncat+0x18>
 80221dc:	e000      	b.n	80221e0 <strncat+0x30>
 80221de:	4605      	mov	r5, r0
 80221e0:	782b      	ldrb	r3, [r5, #0]
 80221e2:	b12b      	cbz	r3, 80221f0 <strncat+0x40>
 80221e4:	1c6b      	adds	r3, r5, #1
 80221e6:	461d      	mov	r5, r3
 80221e8:	3301      	adds	r3, #1
 80221ea:	782c      	ldrb	r4, [r5, #0]
 80221ec:	2c00      	cmp	r4, #0
 80221ee:	d1fa      	bne.n	80221e6 <strncat+0x36>
 80221f0:	3901      	subs	r1, #1
 80221f2:	3d01      	subs	r5, #1
 80221f4:	1e53      	subs	r3, r2, #1
 80221f6:	b15a      	cbz	r2, 8022210 <strncat+0x60>
 80221f8:	f811 4f01 	ldrb.w	r4, [r1, #1]!
 80221fc:	461a      	mov	r2, r3
 80221fe:	f805 4f01 	strb.w	r4, [r5, #1]!
 8022202:	b12c      	cbz	r4, 8022210 <strncat+0x60>
 8022204:	2b00      	cmp	r3, #0
 8022206:	d1f5      	bne.n	80221f4 <strncat+0x44>
 8022208:	706b      	strb	r3, [r5, #1]
 802220a:	1e53      	subs	r3, r2, #1
 802220c:	2a00      	cmp	r2, #0
 802220e:	d1f3      	bne.n	80221f8 <strncat+0x48>
 8022210:	bc70      	pop	{r4, r5, r6}
 8022212:	4770      	bx	lr

08022214 <strncmp>:
 8022214:	b470      	push	{r4, r5, r6}
 8022216:	2a00      	cmp	r2, #0
 8022218:	d045      	beq.n	80222a6 <strncmp+0x92>
 802221a:	ea41 0300 	orr.w	r3, r1, r0
 802221e:	f013 0303 	ands.w	r3, r3, #3
 8022222:	d129      	bne.n	8022278 <strncmp+0x64>
 8022224:	2a03      	cmp	r2, #3
 8022226:	d927      	bls.n	8022278 <strncmp+0x64>
 8022228:	6805      	ldr	r5, [r0, #0]
 802222a:	680c      	ldr	r4, [r1, #0]
 802222c:	42a5      	cmp	r5, r4
 802222e:	d123      	bne.n	8022278 <strncmp+0x64>
 8022230:	1f14      	subs	r4, r2, #4
 8022232:	d03a      	beq.n	80222aa <strncmp+0x96>
 8022234:	f1a5 3201 	sub.w	r2, r5, #16843009	; 0x1010101
 8022238:	ea22 0505 	bic.w	r5, r2, r5
 802223c:	f015 3f80 	tst.w	r5, #2155905152	; 0x80808080
 8022240:	d00d      	beq.n	802225e <strncmp+0x4a>
 8022242:	e03a      	b.n	80222ba <strncmp+0xa6>
 8022244:	685b      	ldr	r3, [r3, #4]
 8022246:	686a      	ldr	r2, [r5, #4]
 8022248:	f1a3 3501 	sub.w	r5, r3, #16843009	; 0x1010101
 802224c:	4293      	cmp	r3, r2
 802224e:	ea25 0503 	bic.w	r5, r5, r3
 8022252:	d12e      	bne.n	80222b2 <strncmp+0x9e>
 8022254:	3c04      	subs	r4, #4
 8022256:	d028      	beq.n	80222aa <strncmp+0x96>
 8022258:	f015 3f80 	tst.w	r5, #2155905152	; 0x80808080
 802225c:	d127      	bne.n	80222ae <strncmp+0x9a>
 802225e:	460d      	mov	r5, r1
 8022260:	4603      	mov	r3, r0
 8022262:	3104      	adds	r1, #4
 8022264:	3004      	adds	r0, #4
 8022266:	2c03      	cmp	r4, #3
 8022268:	d8ec      	bhi.n	8022244 <strncmp+0x30>
 802226a:	1e66      	subs	r6, r4, #1
 802226c:	b92c      	cbnz	r4, 802227a <strncmp+0x66>
 802226e:	791c      	ldrb	r4, [r3, #4]
 8022270:	792a      	ldrb	r2, [r5, #4]
 8022272:	1aa0      	subs	r0, r4, r2
 8022274:	bc70      	pop	{r4, r5, r6}
 8022276:	4770      	bx	lr
 8022278:	1e56      	subs	r6, r2, #1
 802227a:	7804      	ldrb	r4, [r0, #0]
 802227c:	780a      	ldrb	r2, [r1, #0]
 802227e:	4294      	cmp	r4, r2
 8022280:	d1f7      	bne.n	8022272 <strncmp+0x5e>
 8022282:	b1c6      	cbz	r6, 80222b6 <strncmp+0xa2>
 8022284:	b18c      	cbz	r4, 80222aa <strncmp+0x96>
 8022286:	3601      	adds	r6, #1
 8022288:	1c8b      	adds	r3, r1, #2
 802228a:	1989      	adds	r1, r1, r6
 802228c:	e004      	b.n	8022298 <strncmp+0x84>
 802228e:	428b      	cmp	r3, r1
 8022290:	f103 0301 	add.w	r3, r3, #1
 8022294:	d00b      	beq.n	80222ae <strncmp+0x9a>
 8022296:	b144      	cbz	r4, 80222aa <strncmp+0x96>
 8022298:	f813 2c01 	ldrb.w	r2, [r3, #-1]
 802229c:	f810 4f01 	ldrb.w	r4, [r0, #1]!
 80222a0:	4294      	cmp	r4, r2
 80222a2:	d0f4      	beq.n	802228e <strncmp+0x7a>
 80222a4:	e7e5      	b.n	8022272 <strncmp+0x5e>
 80222a6:	4610      	mov	r0, r2
 80222a8:	e7e4      	b.n	8022274 <strncmp+0x60>
 80222aa:	4620      	mov	r0, r4
 80222ac:	e7e2      	b.n	8022274 <strncmp+0x60>
 80222ae:	2000      	movs	r0, #0
 80222b0:	e7e0      	b.n	8022274 <strncmp+0x60>
 80222b2:	1e66      	subs	r6, r4, #1
 80222b4:	e7e1      	b.n	802227a <strncmp+0x66>
 80222b6:	4630      	mov	r0, r6
 80222b8:	e7dc      	b.n	8022274 <strncmp+0x60>
 80222ba:	4618      	mov	r0, r3
 80222bc:	e7da      	b.n	8022274 <strncmp+0x60>
 80222be:	bf00      	nop

080222c0 <strncpy>:
 80222c0:	ea41 0300 	orr.w	r3, r1, r0
 80222c4:	f013 0f03 	tst.w	r3, #3
 80222c8:	4603      	mov	r3, r0
 80222ca:	b470      	push	{r4, r5, r6}
 80222cc:	d025      	beq.n	802231a <strncpy+0x5a>
 80222ce:	b1aa      	cbz	r2, 80222fc <strncpy+0x3c>
 80222d0:	780c      	ldrb	r4, [r1, #0]
 80222d2:	3a01      	subs	r2, #1
 80222d4:	f803 4b01 	strb.w	r4, [r3], #1
 80222d8:	b14c      	cbz	r4, 80222ee <strncpy+0x2e>
 80222da:	461c      	mov	r4, r3
 80222dc:	b172      	cbz	r2, 80222fc <strncpy+0x3c>
 80222de:	f811 5f01 	ldrb.w	r5, [r1, #1]!
 80222e2:	3a01      	subs	r2, #1
 80222e4:	f804 5b01 	strb.w	r5, [r4], #1
 80222e8:	4623      	mov	r3, r4
 80222ea:	2d00      	cmp	r5, #0
 80222ec:	d1f6      	bne.n	80222dc <strncpy+0x1c>
 80222ee:	b12a      	cbz	r2, 80222fc <strncpy+0x3c>
 80222f0:	189a      	adds	r2, r3, r2
 80222f2:	2100      	movs	r1, #0
 80222f4:	f803 1b01 	strb.w	r1, [r3], #1
 80222f8:	4293      	cmp	r3, r2
 80222fa:	d1fb      	bne.n	80222f4 <strncpy+0x34>
 80222fc:	bc70      	pop	{r4, r5, r6}
 80222fe:	4770      	bx	lr
 8022300:	460e      	mov	r6, r1
 8022302:	f851 4b04 	ldr.w	r4, [r1], #4
 8022306:	f1a4 3501 	sub.w	r5, r4, #16843009	; 0x1010101
 802230a:	ea25 0504 	bic.w	r5, r5, r4
 802230e:	f015 3f80 	tst.w	r5, #2155905152	; 0x80808080
 8022312:	d105      	bne.n	8022320 <strncpy+0x60>
 8022314:	3a04      	subs	r2, #4
 8022316:	f843 4b04 	str.w	r4, [r3], #4
 802231a:	2a03      	cmp	r2, #3
 802231c:	d8f0      	bhi.n	8022300 <strncpy+0x40>
 802231e:	e7d6      	b.n	80222ce <strncpy+0xe>
 8022320:	4631      	mov	r1, r6
 8022322:	e7d4      	b.n	80222ce <strncpy+0xe>

08022324 <strpbrk>:
 8022324:	b4f0      	push	{r4, r5, r6, r7}
 8022326:	7804      	ldrb	r4, [r0, #0]
 8022328:	2c00      	cmp	r4, #0
 802232a:	d021      	beq.n	8022370 <strpbrk+0x4c>
 802232c:	780f      	ldrb	r7, [r1, #0]
 802232e:	4606      	mov	r6, r0
 8022330:	4630      	mov	r0, r6
 8022332:	b1af      	cbz	r7, 8022360 <strpbrk+0x3c>
 8022334:	42a7      	cmp	r7, r4
 8022336:	d019      	beq.n	802236c <strpbrk+0x48>
 8022338:	1c4b      	adds	r3, r1, #1
 802233a:	e001      	b.n	8022340 <strpbrk+0x1c>
 802233c:	4294      	cmp	r4, r2
 802233e:	d009      	beq.n	8022354 <strpbrk+0x30>
 8022340:	461d      	mov	r5, r3
 8022342:	f813 2b01 	ldrb.w	r2, [r3], #1
 8022346:	2a00      	cmp	r2, #0
 8022348:	d1f8      	bne.n	802233c <strpbrk+0x18>
 802234a:	7844      	ldrb	r4, [r0, #1]
 802234c:	3601      	adds	r6, #1
 802234e:	2c00      	cmp	r4, #0
 8022350:	d1ee      	bne.n	8022330 <strpbrk+0xc>
 8022352:	782a      	ldrb	r2, [r5, #0]
 8022354:	2a00      	cmp	r2, #0
 8022356:	bf14      	ite	ne
 8022358:	4630      	movne	r0, r6
 802235a:	2000      	moveq	r0, #0
 802235c:	bcf0      	pop	{r4, r5, r6, r7}
 802235e:	4770      	bx	lr
 8022360:	7844      	ldrb	r4, [r0, #1]
 8022362:	460d      	mov	r5, r1
 8022364:	3601      	adds	r6, #1
 8022366:	2c00      	cmp	r4, #0
 8022368:	d1e2      	bne.n	8022330 <strpbrk+0xc>
 802236a:	e7f2      	b.n	8022352 <strpbrk+0x2e>
 802236c:	463a      	mov	r2, r7
 802236e:	e7f1      	b.n	8022354 <strpbrk+0x30>
 8022370:	4620      	mov	r0, r4
 8022372:	e7f3      	b.n	802235c <strpbrk+0x38>

08022374 <critical_factorization>:
 8022374:	e92d 07f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl}
 8022378:	2701      	movs	r7, #1
 802237a:	463c      	mov	r4, r7
 802237c:	2500      	movs	r5, #0
 802237e:	f04f 36ff 	mov.w	r6, #4294967295
 8022382:	1963      	adds	r3, r4, r5
 8022384:	eb00 0c06 	add.w	ip, r0, r6
 8022388:	428b      	cmp	r3, r1
 802238a:	d20d      	bcs.n	80223a8 <critical_factorization+0x34>
 802238c:	f81c c004 	ldrb.w	ip, [ip, r4]
 8022390:	f810 8003 	ldrb.w	r8, [r0, r3]
 8022394:	45e0      	cmp	r8, ip
 8022396:	d22e      	bcs.n	80223f6 <critical_factorization+0x82>
 8022398:	2401      	movs	r4, #1
 802239a:	461d      	mov	r5, r3
 802239c:	1b9f      	subs	r7, r3, r6
 802239e:	1963      	adds	r3, r4, r5
 80223a0:	428b      	cmp	r3, r1
 80223a2:	eb00 0c06 	add.w	ip, r0, r6
 80223a6:	d3f1      	bcc.n	802238c <critical_factorization+0x18>
 80223a8:	f04f 0a01 	mov.w	sl, #1
 80223ac:	2500      	movs	r5, #0
 80223ae:	4654      	mov	r4, sl
 80223b0:	f04f 3cff 	mov.w	ip, #4294967295
 80223b4:	6017      	str	r7, [r2, #0]
 80223b6:	1963      	adds	r3, r4, r5
 80223b8:	eb00 080c 	add.w	r8, r0, ip
 80223bc:	4299      	cmp	r1, r3
 80223be:	d90e      	bls.n	80223de <critical_factorization+0x6a>
 80223c0:	f818 8004 	ldrb.w	r8, [r8, r4]
 80223c4:	f810 9003 	ldrb.w	r9, [r0, r3]
 80223c8:	45c1      	cmp	r9, r8
 80223ca:	d91a      	bls.n	8022402 <critical_factorization+0x8e>
 80223cc:	2401      	movs	r4, #1
 80223ce:	461d      	mov	r5, r3
 80223d0:	ebcc 0a03 	rsb	sl, ip, r3
 80223d4:	1963      	adds	r3, r4, r5
 80223d6:	4299      	cmp	r1, r3
 80223d8:	eb00 080c 	add.w	r8, r0, ip
 80223dc:	d8f0      	bhi.n	80223c0 <critical_factorization+0x4c>
 80223de:	f10c 0001 	add.w	r0, ip, #1
 80223e2:	3601      	adds	r6, #1
 80223e4:	42b0      	cmp	r0, r6
 80223e6:	bf3c      	itt	cc
 80223e8:	46ba      	movcc	sl, r7
 80223ea:	4630      	movcc	r0, r6
 80223ec:	f8c2 a000 	str.w	sl, [r2]
 80223f0:	e8bd 07f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl}
 80223f4:	4770      	bx	lr
 80223f6:	d00b      	beq.n	8022410 <critical_factorization+0x9c>
 80223f8:	2701      	movs	r7, #1
 80223fa:	462e      	mov	r6, r5
 80223fc:	463c      	mov	r4, r7
 80223fe:	19ed      	adds	r5, r5, r7
 8022400:	e7bf      	b.n	8022382 <critical_factorization+0xe>
 8022402:	d009      	beq.n	8022418 <critical_factorization+0xa4>
 8022404:	f04f 0a01 	mov.w	sl, #1
 8022408:	46ac      	mov	ip, r5
 802240a:	4654      	mov	r4, sl
 802240c:	4455      	add	r5, sl
 802240e:	e7d2      	b.n	80223b6 <critical_factorization+0x42>
 8022410:	42bc      	cmp	r4, r7
 8022412:	d005      	beq.n	8022420 <critical_factorization+0xac>
 8022414:	3401      	adds	r4, #1
 8022416:	e7b4      	b.n	8022382 <critical_factorization+0xe>
 8022418:	4554      	cmp	r4, sl
 802241a:	d005      	beq.n	8022428 <critical_factorization+0xb4>
 802241c:	3401      	adds	r4, #1
 802241e:	e7ca      	b.n	80223b6 <critical_factorization+0x42>
 8022420:	4627      	mov	r7, r4
 8022422:	461d      	mov	r5, r3
 8022424:	2401      	movs	r4, #1
 8022426:	e7ac      	b.n	8022382 <critical_factorization+0xe>
 8022428:	46a2      	mov	sl, r4
 802242a:	461d      	mov	r5, r3
 802242c:	2401      	movs	r4, #1
 802242e:	e7c2      	b.n	80223b6 <critical_factorization+0x42>

08022430 <two_way_long_needle>:
 8022430:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8022434:	f2ad 4d24 	subw	sp, sp, #1060	; 0x424
 8022438:	4616      	mov	r6, r2
 802243a:	4680      	mov	r8, r0
 802243c:	460c      	mov	r4, r1
 802243e:	4610      	mov	r0, r2
 8022440:	4619      	mov	r1, r3
 8022442:	aa07      	add	r2, sp, #28
 8022444:	461d      	mov	r5, r3
 8022446:	f7ff ff95 	bl	8022374 <critical_factorization>
 802244a:	ab07      	add	r3, sp, #28
 802244c:	f20d 421c 	addw	r2, sp, #1052	; 0x41c
 8022450:	9003      	str	r0, [sp, #12]
 8022452:	f843 5f04 	str.w	r5, [r3, #4]!
 8022456:	4293      	cmp	r3, r2
 8022458:	d1fb      	bne.n	8022452 <two_way_long_needle+0x22>
 802245a:	1e6f      	subs	r7, r5, #1
 802245c:	2300      	movs	r3, #0
 802245e:	a808      	add	r0, sp, #32
 8022460:	b135      	cbz	r5, 8022470 <two_way_long_needle+0x40>
 8022462:	5cf2      	ldrb	r2, [r6, r3]
 8022464:	1af9      	subs	r1, r7, r3
 8022466:	3301      	adds	r3, #1
 8022468:	42ab      	cmp	r3, r5
 802246a:	f840 1022 	str.w	r1, [r0, r2, lsl #2]
 802246e:	d1f8      	bne.n	8022462 <two_way_long_needle+0x32>
 8022470:	9907      	ldr	r1, [sp, #28]
 8022472:	4630      	mov	r0, r6
 8022474:	9a03      	ldr	r2, [sp, #12]
 8022476:	1871      	adds	r1, r6, r1
 8022478:	f7ff fba6 	bl	8021bc8 <memcmp>
 802247c:	2800      	cmp	r0, #0
 802247e:	d17f      	bne.n	8022580 <two_way_long_needle+0x150>
 8022480:	f8dd c00c 	ldr.w	ip, [sp, #12]
 8022484:	4622      	mov	r2, r4
 8022486:	4682      	mov	sl, r0
 8022488:	1e6f      	subs	r7, r5, #1
 802248a:	f10c 3cff 	add.w	ip, ip, #4294967295
 802248e:	f8cd c008 	str.w	ip, [sp, #8]
 8022492:	44b4      	add	ip, r6
 8022494:	f8cd c014 	str.w	ip, [sp, #20]
 8022498:	f8dd c00c 	ldr.w	ip, [sp, #12]
 802249c:	4604      	mov	r4, r0
 802249e:	9501      	str	r5, [sp, #4]
 80224a0:	f1cc 0c01 	rsb	ip, ip, #1
 80224a4:	f8cd c010 	str.w	ip, [sp, #16]
 80224a8:	e009      	b.n	80224be <two_way_long_needle+0x8e>
 80224aa:	b134      	cbz	r4, 80224ba <two_way_long_needle+0x8a>
 80224ac:	9a07      	ldr	r2, [sp, #28]
 80224ae:	4293      	cmp	r3, r2
 80224b0:	bf3e      	ittt	cc
 80224b2:	4604      	movcc	r4, r0
 80224b4:	9901      	ldrcc	r1, [sp, #4]
 80224b6:	ebc2 0301 	rsbcc	r3, r2, r1
 80224ba:	449a      	add	sl, r3
 80224bc:	462a      	mov	r2, r5
 80224be:	9b01      	ldr	r3, [sp, #4]
 80224c0:	eb08 0002 	add.w	r0, r8, r2
 80224c4:	2100      	movs	r1, #0
 80224c6:	eb0a 0503 	add.w	r5, sl, r3
 80224ca:	1aaa      	subs	r2, r5, r2
 80224cc:	f002 fa90 	bl	80249f0 <memchr>
 80224d0:	2800      	cmp	r0, #0
 80224d2:	d14f      	bne.n	8022574 <two_way_long_needle+0x144>
 80224d4:	2d00      	cmp	r5, #0
 80224d6:	d04d      	beq.n	8022574 <two_way_long_needle+0x144>
 80224d8:	eb08 0305 	add.w	r3, r8, r5
 80224dc:	a908      	add	r1, sp, #32
 80224de:	f813 3c01 	ldrb.w	r3, [r3, #-1]
 80224e2:	f851 3023 	ldr.w	r3, [r1, r3, lsl #2]
 80224e6:	2b00      	cmp	r3, #0
 80224e8:	d1df      	bne.n	80224aa <two_way_long_needle+0x7a>
 80224ea:	9a03      	ldr	r2, [sp, #12]
 80224ec:	4294      	cmp	r4, r2
 80224ee:	bf28      	it	cs
 80224f0:	4622      	movcs	r2, r4
 80224f2:	42ba      	cmp	r2, r7
 80224f4:	d211      	bcs.n	802251a <two_way_long_needle+0xea>
 80224f6:	eb08 030a 	add.w	r3, r8, sl
 80224fa:	f816 c002 	ldrb.w	ip, [r6, r2]
 80224fe:	18b1      	adds	r1, r6, r2
 8022500:	5c98      	ldrb	r0, [r3, r2]
 8022502:	4584      	cmp	ip, r0
 8022504:	d006      	beq.n	8022514 <two_way_long_needle+0xe4>
 8022506:	e02f      	b.n	8022568 <two_way_long_needle+0x138>
 8022508:	f811 0f01 	ldrb.w	r0, [r1, #1]!
 802250c:	f813 c002 	ldrb.w	ip, [r3, r2]
 8022510:	4584      	cmp	ip, r0
 8022512:	d129      	bne.n	8022568 <two_way_long_needle+0x138>
 8022514:	3201      	adds	r2, #1
 8022516:	42ba      	cmp	r2, r7
 8022518:	d3f6      	bcc.n	8022508 <two_way_long_needle+0xd8>
 802251a:	9b03      	ldr	r3, [sp, #12]
 802251c:	9802      	ldr	r0, [sp, #8]
 802251e:	429c      	cmp	r4, r3
 8022520:	bf28      	it	cs
 8022522:	4618      	movcs	r0, r3
 8022524:	d218      	bcs.n	8022558 <two_way_long_needle+0x128>
 8022526:	f8dd c008 	ldr.w	ip, [sp, #8]
 802252a:	eb08 030a 	add.w	r3, r8, sl
 802252e:	f816 100c 	ldrb.w	r1, [r6, ip]
 8022532:	f813 200c 	ldrb.w	r2, [r3, ip]
 8022536:	4291      	cmp	r1, r2
 8022538:	f040 8085 	bne.w	8022646 <two_way_long_needle+0x216>
 802253c:	9a05      	ldr	r2, [sp, #20]
 802253e:	eb06 0b04 	add.w	fp, r6, r4
 8022542:	e006      	b.n	8022552 <two_way_long_needle+0x122>
 8022544:	f813 c001 	ldrb.w	ip, [r3, r1]
 8022548:	f812 9d01 	ldrb.w	r9, [r2, #-1]!
 802254c:	45e1      	cmp	r9, ip
 802254e:	d103      	bne.n	8022558 <two_way_long_needle+0x128>
 8022550:	4608      	mov	r0, r1
 8022552:	1e41      	subs	r1, r0, #1
 8022554:	455a      	cmp	r2, fp
 8022556:	d1f5      	bne.n	8022544 <two_way_long_needle+0x114>
 8022558:	3401      	adds	r4, #1
 802255a:	4284      	cmp	r4, r0
 802255c:	d875      	bhi.n	802264a <two_way_long_needle+0x21a>
 802255e:	9c07      	ldr	r4, [sp, #28]
 8022560:	9b01      	ldr	r3, [sp, #4]
 8022562:	44a2      	add	sl, r4
 8022564:	1b1c      	subs	r4, r3, r4
 8022566:	e7a9      	b.n	80224bc <two_way_long_needle+0x8c>
 8022568:	f8dd c010 	ldr.w	ip, [sp, #16]
 802256c:	2400      	movs	r4, #0
 802256e:	44e2      	add	sl, ip
 8022570:	4492      	add	sl, r2
 8022572:	e7a3      	b.n	80224bc <two_way_long_needle+0x8c>
 8022574:	2000      	movs	r0, #0
 8022576:	b009      	add	sp, #36	; 0x24
 8022578:	f50d 6d80 	add.w	sp, sp, #1024	; 0x400
 802257c:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8022580:	f8dd c00c 	ldr.w	ip, [sp, #12]
 8022584:	f04f 0a00 	mov.w	sl, #0
 8022588:	f8dd b00c 	ldr.w	fp, [sp, #12]
 802258c:	f10d 0920 	add.w	r9, sp, #32
 8022590:	ebcc 0305 	rsb	r3, ip, r5
 8022594:	1e6f      	subs	r7, r5, #1
 8022596:	4563      	cmp	r3, ip
 8022598:	bf38      	it	cc
 802259a:	4663      	movcc	r3, ip
 802259c:	4622      	mov	r2, r4
 802259e:	3301      	adds	r3, #1
 80225a0:	9307      	str	r3, [sp, #28]
 80225a2:	f10c 33ff 	add.w	r3, ip, #4294967295
 80225a6:	9301      	str	r3, [sp, #4]
 80225a8:	9b03      	ldr	r3, [sp, #12]
 80225aa:	44b4      	add	ip, r6
 80225ac:	f8cd c008 	str.w	ip, [sp, #8]
 80225b0:	f1c3 0301 	rsb	r3, r3, #1
 80225b4:	9304      	str	r3, [sp, #16]
 80225b6:	eb0a 0405 	add.w	r4, sl, r5
 80225ba:	eb08 0002 	add.w	r0, r8, r2
 80225be:	2100      	movs	r1, #0
 80225c0:	1aa2      	subs	r2, r4, r2
 80225c2:	f002 fa15 	bl	80249f0 <memchr>
 80225c6:	2800      	cmp	r0, #0
 80225c8:	d1d4      	bne.n	8022574 <two_way_long_needle+0x144>
 80225ca:	2c00      	cmp	r4, #0
 80225cc:	d0d2      	beq.n	8022574 <two_way_long_needle+0x144>
 80225ce:	eb08 0304 	add.w	r3, r8, r4
 80225d2:	f813 3c01 	ldrb.w	r3, [r3, #-1]
 80225d6:	f859 3023 	ldr.w	r3, [r9, r3, lsl #2]
 80225da:	bb63      	cbnz	r3, 8022636 <two_way_long_needle+0x206>
 80225dc:	45bb      	cmp	fp, r7
 80225de:	eb08 000a 	add.w	r0, r8, sl
 80225e2:	d215      	bcs.n	8022610 <two_way_long_needle+0x1e0>
 80225e4:	f8dd c008 	ldr.w	ip, [sp, #8]
 80225e8:	f810 300b 	ldrb.w	r3, [r0, fp]
 80225ec:	f89c 2000 	ldrb.w	r2, [ip]
 80225f0:	429a      	cmp	r2, r3
 80225f2:	bf18      	it	ne
 80225f4:	465b      	movne	r3, fp
 80225f6:	d121      	bne.n	802263c <two_way_long_needle+0x20c>
 80225f8:	9a02      	ldr	r2, [sp, #8]
 80225fa:	465b      	mov	r3, fp
 80225fc:	e005      	b.n	802260a <two_way_long_needle+0x1da>
 80225fe:	f812 1f01 	ldrb.w	r1, [r2, #1]!
 8022602:	f810 c003 	ldrb.w	ip, [r0, r3]
 8022606:	458c      	cmp	ip, r1
 8022608:	d118      	bne.n	802263c <two_way_long_needle+0x20c>
 802260a:	3301      	adds	r3, #1
 802260c:	42bb      	cmp	r3, r7
 802260e:	d3f6      	bcc.n	80225fe <two_way_long_needle+0x1ce>
 8022610:	9b01      	ldr	r3, [sp, #4]
 8022612:	1c5a      	adds	r2, r3, #1
 8022614:	d0af      	beq.n	8022576 <two_way_long_needle+0x146>
 8022616:	f8dd c004 	ldr.w	ip, [sp, #4]
 802261a:	f816 100c 	ldrb.w	r1, [r6, ip]
 802261e:	f810 200c 	ldrb.w	r2, [r0, ip]
 8022622:	4291      	cmp	r1, r2
 8022624:	d106      	bne.n	8022634 <two_way_long_needle+0x204>
 8022626:	f113 33ff 	adds.w	r3, r3, #4294967295
 802262a:	d3a4      	bcc.n	8022576 <two_way_long_needle+0x146>
 802262c:	5cf1      	ldrb	r1, [r6, r3]
 802262e:	5cc2      	ldrb	r2, [r0, r3]
 8022630:	4291      	cmp	r1, r2
 8022632:	d0f8      	beq.n	8022626 <two_way_long_needle+0x1f6>
 8022634:	9b07      	ldr	r3, [sp, #28]
 8022636:	449a      	add	sl, r3
 8022638:	4622      	mov	r2, r4
 802263a:	e7bc      	b.n	80225b6 <two_way_long_needle+0x186>
 802263c:	f8dd c010 	ldr.w	ip, [sp, #16]
 8022640:	44e2      	add	sl, ip
 8022642:	449a      	add	sl, r3
 8022644:	e7f8      	b.n	8022638 <two_way_long_needle+0x208>
 8022646:	9803      	ldr	r0, [sp, #12]
 8022648:	e786      	b.n	8022558 <two_way_long_needle+0x128>
 802264a:	eb08 000a 	add.w	r0, r8, sl
 802264e:	e792      	b.n	8022576 <two_way_long_needle+0x146>

08022650 <strstr>:
 8022650:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8022654:	4680      	mov	r8, r0
 8022656:	7803      	ldrb	r3, [r0, #0]
 8022658:	b087      	sub	sp, #28
 802265a:	460e      	mov	r6, r1
 802265c:	2b00      	cmp	r3, #0
 802265e:	f000 80f7 	beq.w	8022850 <strstr+0x200>
 8022662:	780a      	ldrb	r2, [r1, #0]
 8022664:	b19a      	cbz	r2, 802268e <strstr+0x3e>
 8022666:	4684      	mov	ip, r0
 8022668:	3101      	adds	r1, #1
 802266a:	2701      	movs	r7, #1
 802266c:	e002      	b.n	8022674 <strstr+0x24>
 802266e:	f811 2b01 	ldrb.w	r2, [r1], #1
 8022672:	b15a      	cbz	r2, 802268c <strstr+0x3c>
 8022674:	4293      	cmp	r3, r2
 8022676:	bf14      	ite	ne
 8022678:	2700      	movne	r7, #0
 802267a:	f007 0701 	andeq.w	r7, r7, #1
 802267e:	f81c 3f01 	ldrb.w	r3, [ip, #1]!
 8022682:	460d      	mov	r5, r1
 8022684:	2b00      	cmp	r3, #0
 8022686:	d1f2      	bne.n	802266e <strstr+0x1e>
 8022688:	782b      	ldrb	r3, [r5, #0]
 802268a:	bb03      	cbnz	r3, 80226ce <strstr+0x7e>
 802268c:	b11f      	cbz	r7, 8022696 <strstr+0x46>
 802268e:	4640      	mov	r0, r8
 8022690:	b007      	add	sp, #28
 8022692:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8022696:	f108 0001 	add.w	r0, r8, #1
 802269a:	7831      	ldrb	r1, [r6, #0]
 802269c:	f002 fe92 	bl	80253c4 <strchr>
 80226a0:	1bad      	subs	r5, r5, r6
 80226a2:	2d01      	cmp	r5, #1
 80226a4:	bf18      	it	ne
 80226a6:	2800      	cmpne	r0, #0
 80226a8:	4607      	mov	r7, r0
 80226aa:	bf08      	it	eq
 80226ac:	4680      	moveq	r8, r0
 80226ae:	d0ee      	beq.n	802268e <strstr+0x3e>
 80226b0:	44a8      	add	r8, r5
 80226b2:	4540      	cmp	r0, r8
 80226b4:	bf94      	ite	ls
 80226b6:	ebc0 0408 	rsbls	r4, r0, r8
 80226ba:	2401      	movhi	r4, #1
 80226bc:	2d1f      	cmp	r5, #31
 80226be:	d909      	bls.n	80226d4 <strstr+0x84>
 80226c0:	4621      	mov	r1, r4
 80226c2:	4632      	mov	r2, r6
 80226c4:	462b      	mov	r3, r5
 80226c6:	f7ff feb3 	bl	8022430 <two_way_long_needle>
 80226ca:	4680      	mov	r8, r0
 80226cc:	e7df      	b.n	802268e <strstr+0x3e>
 80226ce:	f04f 0800 	mov.w	r8, #0
 80226d2:	e7dc      	b.n	802268e <strstr+0x3e>
 80226d4:	4629      	mov	r1, r5
 80226d6:	aa05      	add	r2, sp, #20
 80226d8:	4630      	mov	r0, r6
 80226da:	f7ff fe4b 	bl	8022374 <critical_factorization>
 80226de:	9905      	ldr	r1, [sp, #20]
 80226e0:	1871      	adds	r1, r6, r1
 80226e2:	9001      	str	r0, [sp, #4]
 80226e4:	4630      	mov	r0, r6
 80226e6:	9a01      	ldr	r2, [sp, #4]
 80226e8:	f7ff fa6e 	bl	8021bc8 <memcmp>
 80226ec:	2800      	cmp	r0, #0
 80226ee:	d152      	bne.n	8022796 <strstr+0x146>
 80226f0:	9b01      	ldr	r3, [sp, #4]
 80226f2:	4683      	mov	fp, r0
 80226f4:	4680      	mov	r8, r0
 80226f6:	3b01      	subs	r3, #1
 80226f8:	9300      	str	r3, [sp, #0]
 80226fa:	18f3      	adds	r3, r6, r3
 80226fc:	9303      	str	r3, [sp, #12]
 80226fe:	9b01      	ldr	r3, [sp, #4]
 8022700:	f1c3 0301 	rsb	r3, r3, #1
 8022704:	9302      	str	r3, [sp, #8]
 8022706:	4622      	mov	r2, r4
 8022708:	eb08 0405 	add.w	r4, r8, r5
 802270c:	18b8      	adds	r0, r7, r2
 802270e:	2100      	movs	r1, #0
 8022710:	1aa2      	subs	r2, r4, r2
 8022712:	f002 f96d 	bl	80249f0 <memchr>
 8022716:	2800      	cmp	r0, #0
 8022718:	d1d9      	bne.n	80226ce <strstr+0x7e>
 802271a:	2c00      	cmp	r4, #0
 802271c:	d0d7      	beq.n	80226ce <strstr+0x7e>
 802271e:	9b01      	ldr	r3, [sp, #4]
 8022720:	459b      	cmp	fp, r3
 8022722:	bf28      	it	cs
 8022724:	465b      	movcs	r3, fp
 8022726:	429d      	cmp	r5, r3
 8022728:	d913      	bls.n	8022752 <strstr+0x102>
 802272a:	18f9      	adds	r1, r7, r3
 802272c:	5cf0      	ldrb	r0, [r6, r3]
 802272e:	18f2      	adds	r2, r6, r3
 8022730:	f811 1008 	ldrb.w	r1, [r1, r8]
 8022734:	4288      	cmp	r0, r1
 8022736:	f040 8085 	bne.w	8022844 <strstr+0x1f4>
 802273a:	eb07 0c08 	add.w	ip, r7, r8
 802273e:	e005      	b.n	802274c <strstr+0xfc>
 8022740:	f812 1f01 	ldrb.w	r1, [r2, #1]!
 8022744:	f81c 0003 	ldrb.w	r0, [ip, r3]
 8022748:	4288      	cmp	r0, r1
 802274a:	d17b      	bne.n	8022844 <strstr+0x1f4>
 802274c:	3301      	adds	r3, #1
 802274e:	429d      	cmp	r5, r3
 8022750:	d8f6      	bhi.n	8022740 <strstr+0xf0>
 8022752:	e89d 000a 	ldmia.w	sp, {r1, r3}
 8022756:	455b      	cmp	r3, fp
 8022758:	d97d      	bls.n	8022856 <strstr+0x206>
 802275a:	eb07 0908 	add.w	r9, r7, r8
 802275e:	5c72      	ldrb	r2, [r6, r1]
 8022760:	f819 3001 	ldrb.w	r3, [r9, r1]
 8022764:	429a      	cmp	r2, r3
 8022766:	d176      	bne.n	8022856 <strstr+0x206>
 8022768:	9b03      	ldr	r3, [sp, #12]
 802276a:	eb06 0a0b 	add.w	sl, r6, fp
 802276e:	e006      	b.n	802277e <strstr+0x12e>
 8022770:	f819 0002 	ldrb.w	r0, [r9, r2]
 8022774:	f813 cd01 	ldrb.w	ip, [r3, #-1]!
 8022778:	4584      	cmp	ip, r0
 802277a:	d103      	bne.n	8022784 <strstr+0x134>
 802277c:	4611      	mov	r1, r2
 802277e:	1e4a      	subs	r2, r1, #1
 8022780:	4553      	cmp	r3, sl
 8022782:	d1f5      	bne.n	8022770 <strstr+0x120>
 8022784:	f10b 0b01 	add.w	fp, fp, #1
 8022788:	458b      	cmp	fp, r1
 802278a:	d866      	bhi.n	802285a <strstr+0x20a>
 802278c:	9b05      	ldr	r3, [sp, #20]
 802278e:	4498      	add	r8, r3
 8022790:	ebc3 0b05 	rsb	fp, r3, r5
 8022794:	e7b7      	b.n	8022706 <strstr+0xb6>
 8022796:	9801      	ldr	r0, [sp, #4]
 8022798:	f04f 0b00 	mov.w	fp, #0
 802279c:	4622      	mov	r2, r4
 802279e:	1a2b      	subs	r3, r5, r0
 80227a0:	eb06 0900 	add.w	r9, r6, r0
 80227a4:	f100 38ff 	add.w	r8, r0, #4294967295
 80227a8:	4682      	mov	sl, r0
 80227aa:	4283      	cmp	r3, r0
 80227ac:	bf38      	it	cc
 80227ae:	4603      	movcc	r3, r0
 80227b0:	1839      	adds	r1, r7, r0
 80227b2:	3301      	adds	r3, #1
 80227b4:	9100      	str	r1, [sp, #0]
 80227b6:	9305      	str	r3, [sp, #20]
 80227b8:	f1c0 0301 	rsb	r3, r0, #1
 80227bc:	9302      	str	r3, [sp, #8]
 80227be:	eb0b 0405 	add.w	r4, fp, r5
 80227c2:	18b8      	adds	r0, r7, r2
 80227c4:	2100      	movs	r1, #0
 80227c6:	1aa2      	subs	r2, r4, r2
 80227c8:	f002 f912 	bl	80249f0 <memchr>
 80227cc:	2800      	cmp	r0, #0
 80227ce:	f47f af7e 	bne.w	80226ce <strstr+0x7e>
 80227d2:	2c00      	cmp	r4, #0
 80227d4:	f43f af7b 	beq.w	80226ce <strstr+0x7e>
 80227d8:	4555      	cmp	r5, sl
 80227da:	bf98      	it	ls
 80227dc:	eb07 000b 	addls.w	r0, r7, fp
 80227e0:	d914      	bls.n	802280c <strstr+0x1bc>
 80227e2:	9800      	ldr	r0, [sp, #0]
 80227e4:	f899 2000 	ldrb.w	r2, [r9]
 80227e8:	f810 300b 	ldrb.w	r3, [r0, fp]
 80227ec:	429a      	cmp	r2, r3
 80227ee:	d124      	bne.n	802283a <strstr+0x1ea>
 80227f0:	464a      	mov	r2, r9
 80227f2:	4653      	mov	r3, sl
 80227f4:	eb07 000b 	add.w	r0, r7, fp
 80227f8:	e005      	b.n	8022806 <strstr+0x1b6>
 80227fa:	f812 1f01 	ldrb.w	r1, [r2, #1]!
 80227fe:	f810 c003 	ldrb.w	ip, [r0, r3]
 8022802:	458c      	cmp	ip, r1
 8022804:	d11a      	bne.n	802283c <strstr+0x1ec>
 8022806:	3301      	adds	r3, #1
 8022808:	429d      	cmp	r5, r3
 802280a:	d8f6      	bhi.n	80227fa <strstr+0x1aa>
 802280c:	f1b8 3fff 	cmp.w	r8, #4294967295
 8022810:	4643      	mov	r3, r8
 8022812:	f43f af5a 	beq.w	80226ca <strstr+0x7a>
 8022816:	f816 1008 	ldrb.w	r1, [r6, r8]
 802281a:	f810 2008 	ldrb.w	r2, [r0, r8]
 802281e:	4291      	cmp	r1, r2
 8022820:	d107      	bne.n	8022832 <strstr+0x1e2>
 8022822:	f113 33ff 	adds.w	r3, r3, #4294967295
 8022826:	f4ff af50 	bcc.w	80226ca <strstr+0x7a>
 802282a:	5cf1      	ldrb	r1, [r6, r3]
 802282c:	5cc2      	ldrb	r2, [r0, r3]
 802282e:	4291      	cmp	r1, r2
 8022830:	d0f7      	beq.n	8022822 <strstr+0x1d2>
 8022832:	9b05      	ldr	r3, [sp, #20]
 8022834:	449b      	add	fp, r3
 8022836:	4622      	mov	r2, r4
 8022838:	e7c1      	b.n	80227be <strstr+0x16e>
 802283a:	4653      	mov	r3, sl
 802283c:	9a02      	ldr	r2, [sp, #8]
 802283e:	4493      	add	fp, r2
 8022840:	449b      	add	fp, r3
 8022842:	e7f8      	b.n	8022836 <strstr+0x1e6>
 8022844:	9902      	ldr	r1, [sp, #8]
 8022846:	f04f 0b00 	mov.w	fp, #0
 802284a:	4488      	add	r8, r1
 802284c:	4498      	add	r8, r3
 802284e:	e75a      	b.n	8022706 <strstr+0xb6>
 8022850:	460d      	mov	r5, r1
 8022852:	2701      	movs	r7, #1
 8022854:	e718      	b.n	8022688 <strstr+0x38>
 8022856:	9901      	ldr	r1, [sp, #4]
 8022858:	e794      	b.n	8022784 <strstr+0x134>
 802285a:	44b8      	add	r8, r7
 802285c:	e717      	b.n	802268e <strstr+0x3e>
 802285e:	bf00      	nop

08022860 <_strtod_r>:
 8022860:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8022864:	b09d      	sub	sp, #116	; 0x74
 8022866:	468c      	mov	ip, r1
 8022868:	4683      	mov	fp, r0
 802286a:	9210      	str	r2, [sp, #64]	; 0x40
 802286c:	4662      	mov	r2, ip
 802286e:	2000      	movs	r0, #0
 8022870:	2100      	movs	r1, #0
 8022872:	f8cd c05c 	str.w	ip, [sp, #92]	; 0x5c
 8022876:	e9cd 0106 	strd	r0, r1, [sp, #24]
 802287a:	4611      	mov	r1, r2
 802287c:	f812 3b01 	ldrb.w	r3, [r2], #1
 8022880:	2b2d      	cmp	r3, #45	; 0x2d
 8022882:	f200 8147 	bhi.w	8022b14 <_strtod_r+0x2b4>
 8022886:	e8df f013 	tbh	[pc, r3, lsl #1]
 802288a:	0131      	.short	0x0131
 802288c:	01450145 	.word	0x01450145
 8022890:	01450145 	.word	0x01450145
 8022894:	01450145 	.word	0x01450145
 8022898:	01450145 	.word	0x01450145
 802289c:	01640164 	.word	0x01640164
 80228a0:	01640164 	.word	0x01640164
 80228a4:	01450164 	.word	0x01450164
 80228a8:	01450145 	.word	0x01450145
 80228ac:	01450145 	.word	0x01450145
 80228b0:	01450145 	.word	0x01450145
 80228b4:	01450145 	.word	0x01450145
 80228b8:	01450145 	.word	0x01450145
 80228bc:	01450145 	.word	0x01450145
 80228c0:	01450145 	.word	0x01450145
 80228c4:	01450145 	.word	0x01450145
 80228c8:	01640145 	.word	0x01640145
 80228cc:	01450145 	.word	0x01450145
 80228d0:	01450145 	.word	0x01450145
 80228d4:	01450145 	.word	0x01450145
 80228d8:	01450145 	.word	0x01450145
 80228dc:	01450145 	.word	0x01450145
 80228e0:	0145012e 	.word	0x0145012e
 80228e4:	002e      	.short	0x002e
 80228e6:	2501      	movs	r5, #1
 80228e8:	9512      	str	r5, [sp, #72]	; 0x48
 80228ea:	1c4e      	adds	r6, r1, #1
 80228ec:	9617      	str	r6, [sp, #92]	; 0x5c
 80228ee:	784b      	ldrb	r3, [r1, #1]
 80228f0:	4699      	mov	r9, r3
 80228f2:	469a      	mov	sl, r3
 80228f4:	2b00      	cmp	r3, #0
 80228f6:	f000 80fc 	beq.w	8022af2 <_strtod_r+0x292>
 80228fa:	2b30      	cmp	r3, #48	; 0x30
 80228fc:	bf18      	it	ne
 80228fe:	f04f 0900 	movne.w	r9, #0
 8022902:	f000 8110 	beq.w	8022b26 <_strtod_r+0x2c6>
 8022906:	2b2f      	cmp	r3, #47	; 0x2f
 8022908:	461d      	mov	r5, r3
 802290a:	f04f 0a00 	mov.w	sl, #0
 802290e:	f340 84f9 	ble.w	8023304 <_strtod_r+0xaa4>
 8022912:	2b39      	cmp	r3, #57	; 0x39
 8022914:	f300 84f6 	bgt.w	8023304 <_strtod_r+0xaa4>
 8022918:	1c72      	adds	r2, r6, #1
 802291a:	4657      	mov	r7, sl
 802291c:	4654      	mov	r4, sl
 802291e:	e001      	b.n	8022924 <_strtod_r+0xc4>
 8022920:	2b39      	cmp	r3, #57	; 0x39
 8022922:	dc18      	bgt.n	8022956 <_strtod_r+0xf6>
 8022924:	eb07 0187 	add.w	r1, r7, r7, lsl #2
 8022928:	2c08      	cmp	r4, #8
 802292a:	eb03 0141 	add.w	r1, r3, r1, lsl #1
 802292e:	bfd8      	it	le
 8022930:	f1a1 0730 	suble.w	r7, r1, #48	; 0x30
 8022934:	dd07      	ble.n	8022946 <_strtod_r+0xe6>
 8022936:	eb0a 018a 	add.w	r1, sl, sl, lsl #2
 802293a:	2c0f      	cmp	r4, #15
 802293c:	eb03 0341 	add.w	r3, r3, r1, lsl #1
 8022940:	bfd8      	it	le
 8022942:	f1a3 0a30 	suble.w	sl, r3, #48	; 0x30
 8022946:	9217      	str	r2, [sp, #92]	; 0x5c
 8022948:	4690      	mov	r8, r2
 802294a:	f812 3b01 	ldrb.w	r3, [r2], #1
 802294e:	3401      	adds	r4, #1
 8022950:	2b2f      	cmp	r3, #47	; 0x2f
 8022952:	461d      	mov	r5, r3
 8022954:	dce4      	bgt.n	8022920 <_strtod_r+0xc0>
 8022956:	4658      	mov	r0, fp
 8022958:	f8cd c010 	str.w	ip, [sp, #16]
 802295c:	f001 fd5a 	bl	8024414 <_localeconv_r>
 8022960:	6801      	ldr	r1, [r0, #0]
 8022962:	4658      	mov	r0, fp
 8022964:	9105      	str	r1, [sp, #20]
 8022966:	f001 fd55 	bl	8024414 <_localeconv_r>
 802296a:	6800      	ldr	r0, [r0, #0]
 802296c:	f7ff fbf0 	bl	8022150 <strlen>
 8022970:	9905      	ldr	r1, [sp, #20]
 8022972:	4602      	mov	r2, r0
 8022974:	4640      	mov	r0, r8
 8022976:	f7ff fc4d 	bl	8022214 <strncmp>
 802297a:	f8dd c010 	ldr.w	ip, [sp, #16]
 802297e:	4680      	mov	r8, r0
 8022980:	2800      	cmp	r0, #0
 8022982:	f000 8142 	beq.w	8022c0a <_strtod_r+0x3aa>
 8022986:	2000      	movs	r0, #0
 8022988:	46a0      	mov	r8, r4
 802298a:	4601      	mov	r1, r0
 802298c:	9009      	str	r0, [sp, #36]	; 0x24
 802298e:	f025 0320 	bic.w	r3, r5, #32
 8022992:	2b45      	cmp	r3, #69	; 0x45
 8022994:	f040 80df 	bne.w	8022b56 <_strtod_r+0x2f6>
 8022998:	ea48 0300 	orr.w	r3, r8, r0
 802299c:	ea53 0309 	orrs.w	r3, r3, r9
 80229a0:	f000 811d 	beq.w	8022bde <_strtod_r+0x37e>
 80229a4:	f8dd c05c 	ldr.w	ip, [sp, #92]	; 0x5c
 80229a8:	f10c 0301 	add.w	r3, ip, #1
 80229ac:	9317      	str	r3, [sp, #92]	; 0x5c
 80229ae:	f89c 5001 	ldrb.w	r5, [ip, #1]
 80229b2:	2d2b      	cmp	r5, #43	; 0x2b
 80229b4:	f000 84ab 	beq.w	802330e <_strtod_r+0xaae>
 80229b8:	2d2d      	cmp	r5, #45	; 0x2d
 80229ba:	f000 833d 	beq.w	8023038 <_strtod_r+0x7d8>
 80229be:	2200      	movs	r2, #0
 80229c0:	920a      	str	r2, [sp, #40]	; 0x28
 80229c2:	f1a5 0330 	sub.w	r3, r5, #48	; 0x30
 80229c6:	2b09      	cmp	r3, #9
 80229c8:	f200 842c 	bhi.w	8023224 <_strtod_r+0x9c4>
 80229cc:	2d30      	cmp	r5, #48	; 0x30
 80229ce:	d106      	bne.n	80229de <_strtod_r+0x17e>
 80229d0:	9b17      	ldr	r3, [sp, #92]	; 0x5c
 80229d2:	3301      	adds	r3, #1
 80229d4:	9317      	str	r3, [sp, #92]	; 0x5c
 80229d6:	f813 5b01 	ldrb.w	r5, [r3], #1
 80229da:	2d30      	cmp	r5, #48	; 0x30
 80229dc:	d0fa      	beq.n	80229d4 <_strtod_r+0x174>
 80229de:	f1a5 0331 	sub.w	r3, r5, #49	; 0x31
 80229e2:	2b08      	cmp	r3, #8
 80229e4:	f200 80b7 	bhi.w	8022b56 <_strtod_r+0x2f6>
 80229e8:	9a17      	ldr	r2, [sp, #92]	; 0x5c
 80229ea:	3d30      	subs	r5, #48	; 0x30
 80229ec:	950d      	str	r5, [sp, #52]	; 0x34
 80229ee:	1c53      	adds	r3, r2, #1
 80229f0:	9317      	str	r3, [sp, #92]	; 0x5c
 80229f2:	7855      	ldrb	r5, [r2, #1]
 80229f4:	920b      	str	r2, [sp, #44]	; 0x2c
 80229f6:	2d2f      	cmp	r5, #47	; 0x2f
 80229f8:	dd16      	ble.n	8022a28 <_strtod_r+0x1c8>
 80229fa:	2d39      	cmp	r5, #57	; 0x39
 80229fc:	dc14      	bgt.n	8022a28 <_strtod_r+0x1c8>
 80229fe:	1c93      	adds	r3, r2, #2
 8022a00:	910c      	str	r1, [sp, #48]	; 0x30
 8022a02:	9a0d      	ldr	r2, [sp, #52]	; 0x34
 8022a04:	e001      	b.n	8022a0a <_strtod_r+0x1aa>
 8022a06:	2d39      	cmp	r5, #57	; 0x39
 8022a08:	dc0b      	bgt.n	8022a22 <_strtod_r+0x1c2>
 8022a0a:	9317      	str	r3, [sp, #92]	; 0x5c
 8022a0c:	4619      	mov	r1, r3
 8022a0e:	eb02 0282 	add.w	r2, r2, r2, lsl #2
 8022a12:	3301      	adds	r3, #1
 8022a14:	eb05 0242 	add.w	r2, r5, r2, lsl #1
 8022a18:	f813 5c01 	ldrb.w	r5, [r3, #-1]
 8022a1c:	3a30      	subs	r2, #48	; 0x30
 8022a1e:	2d2f      	cmp	r5, #47	; 0x2f
 8022a20:	dcf1      	bgt.n	8022a06 <_strtod_r+0x1a6>
 8022a22:	460b      	mov	r3, r1
 8022a24:	990c      	ldr	r1, [sp, #48]	; 0x30
 8022a26:	920d      	str	r2, [sp, #52]	; 0x34
 8022a28:	9a0b      	ldr	r2, [sp, #44]	; 0x2c
 8022a2a:	1a9b      	subs	r3, r3, r2
 8022a2c:	2b08      	cmp	r3, #8
 8022a2e:	bfc8      	it	gt
 8022a30:	f644 621f 	movwgt	r2, #19999	; 0x4e1f
 8022a34:	dc05      	bgt.n	8022a42 <_strtod_r+0x1e2>
 8022a36:	9a0d      	ldr	r2, [sp, #52]	; 0x34
 8022a38:	f644 631f 	movw	r3, #19999	; 0x4e1f
 8022a3c:	429a      	cmp	r2, r3
 8022a3e:	bfa8      	it	ge
 8022a40:	461a      	movge	r2, r3
 8022a42:	9b0a      	ldr	r3, [sp, #40]	; 0x28
 8022a44:	b103      	cbz	r3, 8022a48 <_strtod_r+0x1e8>
 8022a46:	4252      	negs	r2, r2
 8022a48:	f1b8 0f00 	cmp.w	r8, #0
 8022a4c:	f000 8088 	beq.w	8022b60 <_strtod_r+0x300>
 8022a50:	9d09      	ldr	r5, [sp, #36]	; 0x24
 8022a52:	4638      	mov	r0, r7
 8022a54:	2c00      	cmp	r4, #0
 8022a56:	bf08      	it	eq
 8022a58:	4644      	moveq	r4, r8
 8022a5a:	940a      	str	r4, [sp, #40]	; 0x28
 8022a5c:	1b52      	subs	r2, r2, r5
 8022a5e:	9209      	str	r2, [sp, #36]	; 0x24
 8022a60:	f7fd fd38 	bl	80204d4 <__aeabi_ui2d>
 8022a64:	f1b8 0f10 	cmp.w	r8, #16
 8022a68:	bfb4      	ite	lt
 8022a6a:	46c1      	movlt	r9, r8
 8022a6c:	f04f 0910 	movge.w	r9, #16
 8022a70:	f1b9 0f09 	cmp.w	r9, #9
 8022a74:	4602      	mov	r2, r0
 8022a76:	460b      	mov	r3, r1
 8022a78:	e9cd 2306 	strd	r2, r3, [sp, #24]
 8022a7c:	dd16      	ble.n	8022aac <_strtod_r+0x24c>
 8022a7e:	f248 63e0 	movw	r3, #34528	; 0x86e0
 8022a82:	f6c0 0303 	movt	r3, #2051	; 0x803
 8022a86:	eb03 03c9 	add.w	r3, r3, r9, lsl #3
 8022a8a:	e953 2312 	ldrd	r2, r3, [r3, #-72]	; 0x48
 8022a8e:	f7fd fd97 	bl	80205c0 <__aeabi_dmul>
 8022a92:	4604      	mov	r4, r0
 8022a94:	4650      	mov	r0, sl
 8022a96:	460d      	mov	r5, r1
 8022a98:	f7fd fd1c 	bl	80204d4 <__aeabi_ui2d>
 8022a9c:	4602      	mov	r2, r0
 8022a9e:	460b      	mov	r3, r1
 8022aa0:	4620      	mov	r0, r4
 8022aa2:	4629      	mov	r1, r5
 8022aa4:	f7fd fbda 	bl	802025c <__adddf3>
 8022aa8:	e9cd 0106 	strd	r0, r1, [sp, #24]
 8022aac:	f1b8 0f0f 	cmp.w	r8, #15
 8022ab0:	f300 80f2 	bgt.w	8022c98 <_strtod_r+0x438>
 8022ab4:	9c09      	ldr	r4, [sp, #36]	; 0x24
 8022ab6:	2c00      	cmp	r4, #0
 8022ab8:	f000 80a2 	beq.w	8022c00 <_strtod_r+0x3a0>
 8022abc:	f340 8591 	ble.w	80235e2 <_strtod_r+0xd82>
 8022ac0:	9d09      	ldr	r5, [sp, #36]	; 0x24
 8022ac2:	2d16      	cmp	r5, #22
 8022ac4:	f300 8545 	bgt.w	8023552 <_strtod_r+0xcf2>
 8022ac8:	f248 61e0 	movw	r1, #34528	; 0x86e0
 8022acc:	e9dd 2306 	ldrd	r2, r3, [sp, #24]
 8022ad0:	f6c0 0103 	movt	r1, #2051	; 0x803
 8022ad4:	eb01 01c5 	add.w	r1, r1, r5, lsl #3
 8022ad8:	e9d1 0100 	ldrd	r0, r1, [r1]
 8022adc:	f7fd fd70 	bl	80205c0 <__aeabi_dmul>
 8022ae0:	4681      	mov	r9, r0
 8022ae2:	468a      	mov	sl, r1
 8022ae4:	e009      	b.n	8022afa <_strtod_r+0x29a>
 8022ae6:	2400      	movs	r4, #0
 8022ae8:	9412      	str	r4, [sp, #72]	; 0x48
 8022aea:	e6fe      	b.n	80228ea <_strtod_r+0x8a>
 8022aec:	f04f 0900 	mov.w	r9, #0
 8022af0:	46ca      	mov	sl, r9
 8022af2:	2400      	movs	r4, #0
 8022af4:	f8cd c05c 	str.w	ip, [sp, #92]	; 0x5c
 8022af8:	9412      	str	r4, [sp, #72]	; 0x48
 8022afa:	9c10      	ldr	r4, [sp, #64]	; 0x40
 8022afc:	b10c      	cbz	r4, 8022b02 <_strtod_r+0x2a2>
 8022afe:	9b17      	ldr	r3, [sp, #92]	; 0x5c
 8022b00:	6023      	str	r3, [r4, #0]
 8022b02:	9d12      	ldr	r5, [sp, #72]	; 0x48
 8022b04:	b10d      	cbz	r5, 8022b0a <_strtod_r+0x2aa>
 8022b06:	f10a 4a00 	add.w	sl, sl, #2147483648	; 0x80000000
 8022b0a:	4648      	mov	r0, r9
 8022b0c:	4651      	mov	r1, sl
 8022b0e:	b01d      	add	sp, #116	; 0x74
 8022b10:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8022b14:	2500      	movs	r5, #0
 8022b16:	2b30      	cmp	r3, #48	; 0x30
 8022b18:	460e      	mov	r6, r1
 8022b1a:	9512      	str	r5, [sp, #72]	; 0x48
 8022b1c:	bf18      	it	ne
 8022b1e:	f04f 0900 	movne.w	r9, #0
 8022b22:	f47f aef0 	bne.w	8022906 <_strtod_r+0xa6>
 8022b26:	7873      	ldrb	r3, [r6, #1]
 8022b28:	2b58      	cmp	r3, #88	; 0x58
 8022b2a:	f000 8383 	beq.w	8023234 <_strtod_r+0x9d4>
 8022b2e:	1c72      	adds	r2, r6, #1
 8022b30:	2b78      	cmp	r3, #120	; 0x78
 8022b32:	f000 837f 	beq.w	8023234 <_strtod_r+0x9d4>
 8022b36:	4616      	mov	r6, r2
 8022b38:	9217      	str	r2, [sp, #92]	; 0x5c
 8022b3a:	f812 3b01 	ldrb.w	r3, [r2], #1
 8022b3e:	2b30      	cmp	r3, #48	; 0x30
 8022b40:	d0f9      	beq.n	8022b36 <_strtod_r+0x2d6>
 8022b42:	f04f 0901 	mov.w	r9, #1
 8022b46:	2b00      	cmp	r3, #0
 8022b48:	f47f aedd 	bne.w	8022906 <_strtod_r+0xa6>
 8022b4c:	4699      	mov	r9, r3
 8022b4e:	469a      	mov	sl, r3
 8022b50:	e7d3      	b.n	8022afa <_strtod_r+0x29a>
 8022b52:	9217      	str	r2, [sp, #92]	; 0x5c
 8022b54:	e691      	b.n	802287a <_strtod_r+0x1a>
 8022b56:	2200      	movs	r2, #0
 8022b58:	f1b8 0f00 	cmp.w	r8, #0
 8022b5c:	f47f af78 	bne.w	8022a50 <_strtod_r+0x1f0>
 8022b60:	ea50 0009 	orrs.w	r0, r0, r9
 8022b64:	d14c      	bne.n	8022c00 <_strtod_r+0x3a0>
 8022b66:	2900      	cmp	r1, #0
 8022b68:	d139      	bne.n	8022bde <_strtod_r+0x37e>
 8022b6a:	3d49      	subs	r5, #73	; 0x49
 8022b6c:	2d25      	cmp	r5, #37	; 0x25
 8022b6e:	d836      	bhi.n	8022bde <_strtod_r+0x37e>
 8022b70:	e8df f015 	tbh	[pc, r5, lsl #1]
 8022b74:	0035026a 	.word	0x0035026a
 8022b78:	00350035 	.word	0x00350035
 8022b7c:	00260035 	.word	0x00260035
 8022b80:	00350035 	.word	0x00350035
 8022b84:	00350035 	.word	0x00350035
 8022b88:	00350035 	.word	0x00350035
 8022b8c:	00350035 	.word	0x00350035
 8022b90:	00350035 	.word	0x00350035
 8022b94:	00350035 	.word	0x00350035
 8022b98:	00350035 	.word	0x00350035
 8022b9c:	00350035 	.word	0x00350035
 8022ba0:	00350035 	.word	0x00350035
 8022ba4:	00350035 	.word	0x00350035
 8022ba8:	00350035 	.word	0x00350035
 8022bac:	00350035 	.word	0x00350035
 8022bb0:	00350035 	.word	0x00350035
 8022bb4:	0035026a 	.word	0x0035026a
 8022bb8:	00350035 	.word	0x00350035
 8022bbc:	00260035 	.word	0x00260035
 8022bc0:	4853      	ldr	r0, [pc, #332]	; (8022d10 <_strtod_r+0x4b0>)
 8022bc2:	9a17      	ldr	r2, [sp, #92]	; 0x5c
 8022bc4:	f810 1f01 	ldrb.w	r1, [r0, #1]!
 8022bc8:	4613      	mov	r3, r2
 8022bca:	b169      	cbz	r1, 8022be8 <_strtod_r+0x388>
 8022bcc:	785b      	ldrb	r3, [r3, #1]
 8022bce:	3201      	adds	r2, #1
 8022bd0:	2b40      	cmp	r3, #64	; 0x40
 8022bd2:	dd02      	ble.n	8022bda <_strtod_r+0x37a>
 8022bd4:	2b5a      	cmp	r3, #90	; 0x5a
 8022bd6:	bfd8      	it	le
 8022bd8:	3320      	addle	r3, #32
 8022bda:	428b      	cmp	r3, r1
 8022bdc:	d0f2      	beq.n	8022bc4 <_strtod_r+0x364>
 8022bde:	f8dd 9018 	ldr.w	r9, [sp, #24]
 8022be2:	f8dd a01c 	ldr.w	sl, [sp, #28]
 8022be6:	e784      	b.n	8022af2 <_strtod_r+0x292>
 8022be8:	1c53      	adds	r3, r2, #1
 8022bea:	9317      	str	r3, [sp, #92]	; 0x5c
 8022bec:	7853      	ldrb	r3, [r2, #1]
 8022bee:	2b28      	cmp	r3, #40	; 0x28
 8022bf0:	f000 8575 	beq.w	80236de <_strtod_r+0xe7e>
 8022bf4:	2300      	movs	r3, #0
 8022bf6:	9306      	str	r3, [sp, #24]
 8022bf8:	461c      	mov	r4, r3
 8022bfa:	f6cf 74f8 	movt	r4, #65528	; 0xfff8
 8022bfe:	9407      	str	r4, [sp, #28]
 8022c00:	f8dd 9018 	ldr.w	r9, [sp, #24]
 8022c04:	f8dd a01c 	ldr.w	sl, [sp, #28]
 8022c08:	e777      	b.n	8022afa <_strtod_r+0x29a>
 8022c0a:	4658      	mov	r0, fp
 8022c0c:	9d17      	ldr	r5, [sp, #92]	; 0x5c
 8022c0e:	f001 fc01 	bl	8024414 <_localeconv_r>
 8022c12:	6800      	ldr	r0, [r0, #0]
 8022c14:	f7ff fa9c 	bl	8022150 <strlen>
 8022c18:	f8dd c010 	ldr.w	ip, [sp, #16]
 8022c1c:	182b      	adds	r3, r5, r0
 8022c1e:	9317      	str	r3, [sp, #92]	; 0x5c
 8022c20:	5c2d      	ldrb	r5, [r5, r0]
 8022c22:	2c00      	cmp	r4, #0
 8022c24:	f040 819b 	bne.w	8022f5e <_strtod_r+0x6fe>
 8022c28:	2d30      	cmp	r5, #48	; 0x30
 8022c2a:	4620      	mov	r0, r4
 8022c2c:	d105      	bne.n	8022c3a <_strtod_r+0x3da>
 8022c2e:	3301      	adds	r3, #1
 8022c30:	9317      	str	r3, [sp, #92]	; 0x5c
 8022c32:	3001      	adds	r0, #1
 8022c34:	781d      	ldrb	r5, [r3, #0]
 8022c36:	2d30      	cmp	r5, #48	; 0x30
 8022c38:	d0f9      	beq.n	8022c2e <_strtod_r+0x3ce>
 8022c3a:	f1a5 0331 	sub.w	r3, r5, #49	; 0x31
 8022c3e:	2b08      	cmp	r3, #8
 8022c40:	f200 819a 	bhi.w	8022f78 <_strtod_r+0x718>
 8022c44:	9e17      	ldr	r6, [sp, #92]	; 0x5c
 8022c46:	f04f 0800 	mov.w	r8, #0
 8022c4a:	9009      	str	r0, [sp, #36]	; 0x24
 8022c4c:	f1a5 0130 	sub.w	r1, r5, #48	; 0x30
 8022c50:	2001      	movs	r0, #1
 8022c52:	960a      	str	r6, [sp, #40]	; 0x28
 8022c54:	2900      	cmp	r1, #0
 8022c56:	f000 836c 	beq.w	8023332 <_strtod_r+0xad2>
 8022c5a:	9a09      	ldr	r2, [sp, #36]	; 0x24
 8022c5c:	2801      	cmp	r0, #1
 8022c5e:	4402      	add	r2, r0
 8022c60:	9209      	str	r2, [sp, #36]	; 0x24
 8022c62:	f000 8532 	beq.w	80236ca <_strtod_r+0xe6a>
 8022c66:	eb08 0200 	add.w	r2, r8, r0
 8022c6a:	4643      	mov	r3, r8
 8022c6c:	3a01      	subs	r2, #1
 8022c6e:	f8cd 802c 	str.w	r8, [sp, #44]	; 0x2c
 8022c72:	4690      	mov	r8, r2
 8022c74:	e003      	b.n	8022c7e <_strtod_r+0x41e>
 8022c76:	006f      	lsls	r7, r5, #1
 8022c78:	4543      	cmp	r3, r8
 8022c7a:	f000 834b 	beq.w	8023314 <_strtod_r+0xab4>
 8022c7e:	3301      	adds	r3, #1
 8022c80:	eb07 0587 	add.w	r5, r7, r7, lsl #2
 8022c84:	1e5a      	subs	r2, r3, #1
 8022c86:	2a08      	cmp	r2, #8
 8022c88:	ddf5      	ble.n	8022c76 <_strtod_r+0x416>
 8022c8a:	eb0a 028a 	add.w	r2, sl, sl, lsl #2
 8022c8e:	2b10      	cmp	r3, #16
 8022c90:	bfd8      	it	le
 8022c92:	ea4f 0a42 	movle.w	sl, r2, lsl #1
 8022c96:	e7ef      	b.n	8022c78 <_strtod_r+0x418>
 8022c98:	9d09      	ldr	r5, [sp, #36]	; 0x24
 8022c9a:	ebc9 0908 	rsb	r9, r9, r8
 8022c9e:	eb05 0409 	add.w	r4, r5, r9
 8022ca2:	2c00      	cmp	r4, #0
 8022ca4:	f340 83de 	ble.w	8023464 <_strtod_r+0xc04>
 8022ca8:	f014 000f 	ands.w	r0, r4, #15
 8022cac:	d00d      	beq.n	8022cca <_strtod_r+0x46a>
 8022cae:	f248 61e0 	movw	r1, #34528	; 0x86e0
 8022cb2:	e9dd 2306 	ldrd	r2, r3, [sp, #24]
 8022cb6:	f6c0 0103 	movt	r1, #2051	; 0x803
 8022cba:	eb01 01c0 	add.w	r1, r1, r0, lsl #3
 8022cbe:	e9d1 0100 	ldrd	r0, r1, [r1]
 8022cc2:	f7fd fc7d 	bl	80205c0 <__aeabi_dmul>
 8022cc6:	e9cd 0106 	strd	r0, r1, [sp, #24]
 8022cca:	f034 040f 	bics.w	r4, r4, #15
 8022cce:	f040 815f 	bne.w	8022f90 <_strtod_r+0x730>
 8022cd2:	f8dd 9018 	ldr.w	r9, [sp, #24]
 8022cd6:	f8dd a01c 	ldr.w	sl, [sp, #28]
 8022cda:	940b      	str	r4, [sp, #44]	; 0x2c
 8022cdc:	9700      	str	r7, [sp, #0]
 8022cde:	4658      	mov	r0, fp
 8022ce0:	4631      	mov	r1, r6
 8022ce2:	9a0a      	ldr	r2, [sp, #40]	; 0x28
 8022ce4:	4643      	mov	r3, r8
 8022ce6:	f001 ff67 	bl	8024bb8 <__s2b>
 8022cea:	9d09      	ldr	r5, [sp, #36]	; 0x24
 8022cec:	2d00      	cmp	r5, #0
 8022cee:	9011      	str	r0, [sp, #68]	; 0x44
 8022cf0:	f2c0 8472 	blt.w	80235d8 <_strtod_r+0xd78>
 8022cf4:	2400      	movs	r4, #0
 8022cf6:	940d      	str	r4, [sp, #52]	; 0x34
 8022cf8:	9d09      	ldr	r5, [sp, #36]	; 0x24
 8022cfa:	9c11      	ldr	r4, [sp, #68]	; 0x44
 8022cfc:	ea25 75e5 	bic.w	r5, r5, r5, asr #31
 8022d00:	f8cd 9024 	str.w	r9, [sp, #36]	; 0x24
 8022d04:	340c      	adds	r4, #12
 8022d06:	950e      	str	r5, [sp, #56]	; 0x38
 8022d08:	9413      	str	r4, [sp, #76]	; 0x4c
 8022d0a:	f8cd a028 	str.w	sl, [sp, #40]	; 0x28
 8022d0e:	e073      	b.n	8022df8 <_strtod_r+0x598>
 8022d10:	08044aff 	.word	0x08044aff
 8022d14:	9b0f      	ldr	r3, [sp, #60]	; 0x3c
 8022d16:	2b00      	cmp	r3, #0
 8022d18:	f000 81a8 	beq.w	802306c <_strtod_r+0x80c>
 8022d1c:	f04f 0900 	mov.w	r9, #0
 8022d20:	2500      	movs	r5, #0
 8022d22:	f8dd c01c 	ldr.w	ip, [sp, #28]
 8022d26:	2400      	movs	r4, #0
 8022d28:	f6c3 75f0 	movt	r5, #16368	; 0x3ff0
 8022d2c:	f6c3 79f0 	movt	r9, #16368	; 0x3ff0
 8022d30:	f8cd 8030 	str.w	r8, [sp, #48]	; 0x30
 8022d34:	f04f 0800 	mov.w	r8, #0
 8022d38:	4643      	mov	r3, r8
 8022d3a:	f6c7 78f0 	movt	r8, #32752	; 0x7ff0
 8022d3e:	f6c7 73e0 	movt	r3, #32736	; 0x7fe0
 8022d42:	ea0c 0808 	and.w	r8, ip, r8
 8022d46:	4598      	cmp	r8, r3
 8022d48:	f000 81c5 	beq.w	80230d6 <_strtod_r+0x876>
 8022d4c:	9a0b      	ldr	r2, [sp, #44]	; 0x2c
 8022d4e:	f1b8 6fd4 	cmp.w	r8, #111149056	; 0x6a00000
 8022d52:	bf8c      	ite	hi
 8022d54:	2300      	movhi	r3, #0
 8022d56:	2301      	movls	r3, #1
 8022d58:	2a00      	cmp	r2, #0
 8022d5a:	bf08      	it	eq
 8022d5c:	2300      	moveq	r3, #0
 8022d5e:	b1eb      	cbz	r3, 8022d9c <_strtod_r+0x53c>
 8022d60:	980c      	ldr	r0, [sp, #48]	; 0x30
 8022d62:	4649      	mov	r1, r9
 8022d64:	a388      	add	r3, pc, #544	; (adr r3, 8022f88 <_strtod_r+0x728>)
 8022d66:	e9d3 2300 	ldrd	r2, r3, [r3]
 8022d6a:	f7fd fea5 	bl	8020ab8 <__aeabi_dcmple>
 8022d6e:	b188      	cbz	r0, 8022d94 <_strtod_r+0x534>
 8022d70:	980c      	ldr	r0, [sp, #48]	; 0x30
 8022d72:	4649      	mov	r1, r9
 8022d74:	f7fd fee6 	bl	8020b44 <__aeabi_d2uiz>
 8022d78:	2800      	cmp	r0, #0
 8022d7a:	f000 8246 	beq.w	802320a <_strtod_r+0x9aa>
 8022d7e:	f7fd fba9 	bl	80204d4 <__aeabi_ui2d>
 8022d82:	4689      	mov	r9, r1
 8022d84:	900c      	str	r0, [sp, #48]	; 0x30
 8022d86:	9c0f      	ldr	r4, [sp, #60]	; 0x3c
 8022d88:	f109 4300 	add.w	r3, r9, #2147483648	; 0x80000000
 8022d8c:	b104      	cbz	r4, 8022d90 <_strtod_r+0x530>
 8022d8e:	464b      	mov	r3, r9
 8022d90:	9c0c      	ldr	r4, [sp, #48]	; 0x30
 8022d92:	461d      	mov	r5, r3
 8022d94:	f105 63d6 	add.w	r3, r5, #112197632	; 0x6b00000
 8022d98:	ebc8 0503 	rsb	r5, r8, r3
 8022d9c:	9809      	ldr	r0, [sp, #36]	; 0x24
 8022d9e:	990a      	ldr	r1, [sp, #40]	; 0x28
 8022da0:	f002 f98a 	bl	80250b8 <__ulp>
 8022da4:	4602      	mov	r2, r0
 8022da6:	460b      	mov	r3, r1
 8022da8:	4620      	mov	r0, r4
 8022daa:	4629      	mov	r1, r5
 8022dac:	f7fd fc08 	bl	80205c0 <__aeabi_dmul>
 8022db0:	4602      	mov	r2, r0
 8022db2:	460b      	mov	r3, r1
 8022db4:	9809      	ldr	r0, [sp, #36]	; 0x24
 8022db6:	990a      	ldr	r1, [sp, #40]	; 0x28
 8022db8:	f7fd fa50 	bl	802025c <__adddf3>
 8022dbc:	e9cd 0106 	strd	r0, r1, [sp, #24]
 8022dc0:	9c07      	ldr	r4, [sp, #28]
 8022dc2:	9009      	str	r0, [sp, #36]	; 0x24
 8022dc4:	910a      	str	r1, [sp, #40]	; 0x28
 8022dc6:	9d0b      	ldr	r5, [sp, #44]	; 0x2c
 8022dc8:	b935      	cbnz	r5, 8022dd8 <_strtod_r+0x578>
 8022dca:	2300      	movs	r3, #0
 8022dcc:	f6c7 73f0 	movt	r3, #32752	; 0x7ff0
 8022dd0:	4023      	ands	r3, r4
 8022dd2:	4598      	cmp	r8, r3
 8022dd4:	f000 81bc 	beq.w	8023150 <_strtod_r+0x8f0>
 8022dd8:	4658      	mov	r0, fp
 8022dda:	9918      	ldr	r1, [sp, #96]	; 0x60
 8022ddc:	f001 fe8c 	bl	8024af8 <_Bfree>
 8022de0:	4658      	mov	r0, fp
 8022de2:	4651      	mov	r1, sl
 8022de4:	f001 fe88 	bl	8024af8 <_Bfree>
 8022de8:	4658      	mov	r0, fp
 8022dea:	4639      	mov	r1, r7
 8022dec:	f001 fe84 	bl	8024af8 <_Bfree>
 8022df0:	4658      	mov	r0, fp
 8022df2:	4631      	mov	r1, r6
 8022df4:	f001 fe80 	bl	8024af8 <_Bfree>
 8022df8:	9c11      	ldr	r4, [sp, #68]	; 0x44
 8022dfa:	4658      	mov	r0, fp
 8022dfc:	ad16      	add	r5, sp, #88	; 0x58
 8022dfe:	6861      	ldr	r1, [r4, #4]
 8022e00:	f001 fe44 	bl	8024a8c <_Balloc>
 8022e04:	6923      	ldr	r3, [r4, #16]
 8022e06:	9913      	ldr	r1, [sp, #76]	; 0x4c
 8022e08:	1c9a      	adds	r2, r3, #2
 8022e0a:	0092      	lsls	r2, r2, #2
 8022e0c:	4682      	mov	sl, r0
 8022e0e:	300c      	adds	r0, #12
 8022e10:	f7fe ff0c 	bl	8021c2c <memcpy>
 8022e14:	9a09      	ldr	r2, [sp, #36]	; 0x24
 8022e16:	9b0a      	ldr	r3, [sp, #40]	; 0x28
 8022e18:	a819      	add	r0, sp, #100	; 0x64
 8022e1a:	9500      	str	r5, [sp, #0]
 8022e1c:	9001      	str	r0, [sp, #4]
 8022e1e:	4658      	mov	r0, fp
 8022e20:	f002 f9c4 	bl	80251ac <__d2b>
 8022e24:	2101      	movs	r1, #1
 8022e26:	9018      	str	r0, [sp, #96]	; 0x60
 8022e28:	4658      	mov	r0, fp
 8022e2a:	f001 ff5d 	bl	8024ce8 <__i2b>
 8022e2e:	9a16      	ldr	r2, [sp, #88]	; 0x58
 8022e30:	9b19      	ldr	r3, [sp, #100]	; 0x64
 8022e32:	f46f 717f 	mvn.w	r1, #1020	; 0x3fc
 8022e36:	2a00      	cmp	r2, #0
 8022e38:	bfaa      	itet	ge
 8022e3a:	9d0d      	ldrge	r5, [sp, #52]	; 0x34
 8022e3c:	9c0e      	ldrlt	r4, [sp, #56]	; 0x38
 8022e3e:	18ac      	addge	r4, r5, r2
 8022e40:	9d0b      	ldr	r5, [sp, #44]	; 0x2c
 8022e42:	4607      	mov	r7, r0
 8022e44:	bfb8      	it	lt
 8022e46:	ebc2 0004 	rsblt	r0, r2, r4
 8022e4a:	ebc5 0202 	rsb	r2, r5, r2
 8022e4e:	bfb8      	it	lt
 8022e50:	9c0d      	ldrlt	r4, [sp, #52]	; 0x34
 8022e52:	eb02 0503 	add.w	r5, r2, r3
 8022e56:	bfa8      	it	ge
 8022e58:	980e      	ldrge	r0, [sp, #56]	; 0x38
 8022e5a:	428d      	cmp	r5, r1
 8022e5c:	990d      	ldr	r1, [sp, #52]	; 0x34
 8022e5e:	bfb4      	ite	lt
 8022e60:	f202 4333 	addwlt	r3, r2, #1075	; 0x433
 8022e64:	f1c3 0336 	rsbge	r3, r3, #54	; 0x36
 8022e68:	18e6      	adds	r6, r4, r3
 8022e6a:	18c3      	adds	r3, r0, r3
 8022e6c:	980b      	ldr	r0, [sp, #44]	; 0x2c
 8022e6e:	181d      	adds	r5, r3, r0
 8022e70:	42a6      	cmp	r6, r4
 8022e72:	bfb4      	ite	lt
 8022e74:	4633      	movlt	r3, r6
 8022e76:	4623      	movge	r3, r4
 8022e78:	42ab      	cmp	r3, r5
 8022e7a:	bfa8      	it	ge
 8022e7c:	462b      	movge	r3, r5
 8022e7e:	2b00      	cmp	r3, #0
 8022e80:	bfc2      	ittt	gt
 8022e82:	ebc3 0606 	rsbgt	r6, r3, r6
 8022e86:	ebc3 0505 	rsbgt	r5, r3, r5
 8022e8a:	ebc3 0404 	rsbgt	r4, r3, r4
 8022e8e:	b189      	cbz	r1, 8022eb4 <_strtod_r+0x654>
 8022e90:	460a      	mov	r2, r1
 8022e92:	4658      	mov	r0, fp
 8022e94:	4639      	mov	r1, r7
 8022e96:	f001 ffcf 	bl	8024e38 <__pow5mult>
 8022e9a:	9a18      	ldr	r2, [sp, #96]	; 0x60
 8022e9c:	4607      	mov	r7, r0
 8022e9e:	4658      	mov	r0, fp
 8022ea0:	4639      	mov	r1, r7
 8022ea2:	f001 ff2b 	bl	8024cfc <__multiply>
 8022ea6:	9918      	ldr	r1, [sp, #96]	; 0x60
 8022ea8:	4680      	mov	r8, r0
 8022eaa:	4658      	mov	r0, fp
 8022eac:	f001 fe24 	bl	8024af8 <_Bfree>
 8022eb0:	f8cd 8060 	str.w	r8, [sp, #96]	; 0x60
 8022eb4:	2e00      	cmp	r6, #0
 8022eb6:	dd05      	ble.n	8022ec4 <_strtod_r+0x664>
 8022eb8:	4658      	mov	r0, fp
 8022eba:	9918      	ldr	r1, [sp, #96]	; 0x60
 8022ebc:	4632      	mov	r2, r6
 8022ebe:	f002 f80d 	bl	8024edc <__lshift>
 8022ec2:	9018      	str	r0, [sp, #96]	; 0x60
 8022ec4:	9a0e      	ldr	r2, [sp, #56]	; 0x38
 8022ec6:	b122      	cbz	r2, 8022ed2 <_strtod_r+0x672>
 8022ec8:	4651      	mov	r1, sl
 8022eca:	4658      	mov	r0, fp
 8022ecc:	f001 ffb4 	bl	8024e38 <__pow5mult>
 8022ed0:	4682      	mov	sl, r0
 8022ed2:	2d00      	cmp	r5, #0
 8022ed4:	dd05      	ble.n	8022ee2 <_strtod_r+0x682>
 8022ed6:	4651      	mov	r1, sl
 8022ed8:	4658      	mov	r0, fp
 8022eda:	462a      	mov	r2, r5
 8022edc:	f001 fffe 	bl	8024edc <__lshift>
 8022ee0:	4682      	mov	sl, r0
 8022ee2:	2c00      	cmp	r4, #0
 8022ee4:	dd05      	ble.n	8022ef2 <_strtod_r+0x692>
 8022ee6:	4639      	mov	r1, r7
 8022ee8:	4658      	mov	r0, fp
 8022eea:	4622      	mov	r2, r4
 8022eec:	f001 fff6 	bl	8024edc <__lshift>
 8022ef0:	4607      	mov	r7, r0
 8022ef2:	9918      	ldr	r1, [sp, #96]	; 0x60
 8022ef4:	4652      	mov	r2, sl
 8022ef6:	4658      	mov	r0, fp
 8022ef8:	f04f 0800 	mov.w	r8, #0
 8022efc:	f002 f866 	bl	8024fcc <__mdiff>
 8022f00:	4639      	mov	r1, r7
 8022f02:	68c4      	ldr	r4, [r0, #12]
 8022f04:	4606      	mov	r6, r0
 8022f06:	f8c0 800c 	str.w	r8, [r0, #12]
 8022f0a:	940f      	str	r4, [sp, #60]	; 0x3c
 8022f0c:	f002 f840 	bl	8024f90 <__mcmp>
 8022f10:	4540      	cmp	r0, r8
 8022f12:	f2c0 8213 	blt.w	802333c <_strtod_r+0xadc>
 8022f16:	f000 8261 	beq.w	80233dc <_strtod_r+0xb7c>
 8022f1a:	4630      	mov	r0, r6
 8022f1c:	4639      	mov	r1, r7
 8022f1e:	f002 f9a3 	bl	8025268 <__ratio>
 8022f22:	2200      	movs	r2, #0
 8022f24:	f04f 4380 	mov.w	r3, #1073741824	; 0x40000000
 8022f28:	4604      	mov	r4, r0
 8022f2a:	460d      	mov	r5, r1
 8022f2c:	f7fd fdc4 	bl	8020ab8 <__aeabi_dcmple>
 8022f30:	2800      	cmp	r0, #0
 8022f32:	f47f aeef 	bne.w	8022d14 <_strtod_r+0x4b4>
 8022f36:	2300      	movs	r3, #0
 8022f38:	4620      	mov	r0, r4
 8022f3a:	f6c3 73e0 	movt	r3, #16352	; 0x3fe0
 8022f3e:	4629      	mov	r1, r5
 8022f40:	2200      	movs	r2, #0
 8022f42:	f7fd fb3d 	bl	80205c0 <__aeabi_dmul>
 8022f46:	9c0f      	ldr	r4, [sp, #60]	; 0x3c
 8022f48:	900c      	str	r0, [sp, #48]	; 0x30
 8022f4a:	4689      	mov	r9, r1
 8022f4c:	f101 4300 	add.w	r3, r1, #2147483648	; 0x80000000
 8022f50:	b104      	cbz	r4, 8022f54 <_strtod_r+0x6f4>
 8022f52:	460b      	mov	r3, r1
 8022f54:	9c0c      	ldr	r4, [sp, #48]	; 0x30
 8022f56:	461d      	mov	r5, r3
 8022f58:	f8dd c01c 	ldr.w	ip, [sp, #28]
 8022f5c:	e6ea      	b.n	8022d34 <_strtod_r+0x4d4>
 8022f5e:	4640      	mov	r0, r8
 8022f60:	46a0      	mov	r8, r4
 8022f62:	9009      	str	r0, [sp, #36]	; 0x24
 8022f64:	f1a5 0130 	sub.w	r1, r5, #48	; 0x30
 8022f68:	2909      	cmp	r1, #9
 8022f6a:	d803      	bhi.n	8022f74 <_strtod_r+0x714>
 8022f6c:	9a17      	ldr	r2, [sp, #92]	; 0x5c
 8022f6e:	3001      	adds	r0, #1
 8022f70:	920a      	str	r2, [sp, #40]	; 0x28
 8022f72:	e66f      	b.n	8022c54 <_strtod_r+0x3f4>
 8022f74:	2101      	movs	r1, #1
 8022f76:	e50a      	b.n	802298e <_strtod_r+0x12e>
 8022f78:	f04f 0800 	mov.w	r8, #0
 8022f7c:	2101      	movs	r1, #1
 8022f7e:	f8cd 8024 	str.w	r8, [sp, #36]	; 0x24
 8022f82:	e504      	b.n	802298e <_strtod_r+0x12e>
 8022f84:	f3af 8000 	nop.w
 8022f88:	ffc00000 	.word	0xffc00000
 8022f8c:	41dfffff 	.word	0x41dfffff
 8022f90:	f5b4 7f9a 	cmp.w	r4, #308	; 0x134
 8022f94:	f300 8258 	bgt.w	8023448 <_strtod_r+0xbe8>
 8022f98:	1124      	asrs	r4, r4, #4
 8022f9a:	f248 7ad0 	movw	sl, #34768	; 0x87d0
 8022f9e:	2c01      	cmp	r4, #1
 8022fa0:	f340 8398 	ble.w	80236d4 <_strtod_r+0xe74>
 8022fa4:	f6c0 0a03 	movt	sl, #2051	; 0x803
 8022fa8:	e9dd 2306 	ldrd	r2, r3, [sp, #24]
 8022fac:	f04f 0900 	mov.w	r9, #0
 8022fb0:	4655      	mov	r5, sl
 8022fb2:	f014 0f01 	tst.w	r4, #1
 8022fb6:	4610      	mov	r0, r2
 8022fb8:	4619      	mov	r1, r3
 8022fba:	ea4f 0464 	mov.w	r4, r4, asr #1
 8022fbe:	f109 0901 	add.w	r9, r9, #1
 8022fc2:	d005      	beq.n	8022fd0 <_strtod_r+0x770>
 8022fc4:	e9d5 2300 	ldrd	r2, r3, [r5]
 8022fc8:	f7fd fafa 	bl	80205c0 <__aeabi_dmul>
 8022fcc:	4602      	mov	r2, r0
 8022fce:	460b      	mov	r3, r1
 8022fd0:	3508      	adds	r5, #8
 8022fd2:	2c01      	cmp	r4, #1
 8022fd4:	dced      	bgt.n	8022fb2 <_strtod_r+0x752>
 8022fd6:	4610      	mov	r0, r2
 8022fd8:	4619      	mov	r1, r3
 8022fda:	e9cd 0106 	strd	r0, r1, [sp, #24]
 8022fde:	9907      	ldr	r1, [sp, #28]
 8022fe0:	eb0a 09c9 	add.w	r9, sl, r9, lsl #3
 8022fe4:	f1a1 7154 	sub.w	r1, r1, #55574528	; 0x3500000
 8022fe8:	9107      	str	r1, [sp, #28]
 8022fea:	e9dd 2306 	ldrd	r2, r3, [sp, #24]
 8022fee:	e9d9 0100 	ldrd	r0, r1, [r9]
 8022ff2:	f7fd fae5 	bl	80205c0 <__aeabi_dmul>
 8022ff6:	2300      	movs	r3, #0
 8022ff8:	2200      	movs	r2, #0
 8022ffa:	f6c7 73f0 	movt	r3, #32752	; 0x7ff0
 8022ffe:	f6c7 42a0 	movt	r2, #31904	; 0x7ca0
 8023002:	e9cd 0106 	strd	r0, r1, [sp, #24]
 8023006:	9907      	ldr	r1, [sp, #28]
 8023008:	400b      	ands	r3, r1
 802300a:	4293      	cmp	r3, r2
 802300c:	f200 821c 	bhi.w	8023448 <_strtod_r+0xbe8>
 8023010:	2200      	movs	r2, #0
 8023012:	f6c7 4290 	movt	r2, #31888	; 0x7c90
 8023016:	4293      	cmp	r3, r2
 8023018:	f240 8305 	bls.w	8023626 <_strtod_r+0xdc6>
 802301c:	f64f 72ff 	movw	r2, #65535	; 0xffff
 8023020:	f04f 30ff 	mov.w	r0, #4294967295
 8023024:	4615      	mov	r5, r2
 8023026:	2400      	movs	r4, #0
 8023028:	f6c7 75ef 	movt	r5, #32751	; 0x7fef
 802302c:	940b      	str	r4, [sp, #44]	; 0x2c
 802302e:	9507      	str	r5, [sp, #28]
 8023030:	4681      	mov	r9, r0
 8023032:	9006      	str	r0, [sp, #24]
 8023034:	46aa      	mov	sl, r5
 8023036:	e651      	b.n	8022cdc <_strtod_r+0x47c>
 8023038:	2301      	movs	r3, #1
 802303a:	930a      	str	r3, [sp, #40]	; 0x28
 802303c:	f10c 0302 	add.w	r3, ip, #2
 8023040:	9317      	str	r3, [sp, #92]	; 0x5c
 8023042:	f89c 5002 	ldrb.w	r5, [ip, #2]
 8023046:	e4bc      	b.n	80229c2 <_strtod_r+0x162>
 8023048:	48ab      	ldr	r0, [pc, #684]	; (80232f8 <_strtod_r+0xa98>)
 802304a:	9a17      	ldr	r2, [sp, #92]	; 0x5c
 802304c:	f810 1f01 	ldrb.w	r1, [r0, #1]!
 8023050:	4613      	mov	r3, r2
 8023052:	2900      	cmp	r1, #0
 8023054:	f000 8311 	beq.w	802367a <_strtod_r+0xe1a>
 8023058:	785b      	ldrb	r3, [r3, #1]
 802305a:	3201      	adds	r2, #1
 802305c:	2b40      	cmp	r3, #64	; 0x40
 802305e:	dd02      	ble.n	8023066 <_strtod_r+0x806>
 8023060:	2b5a      	cmp	r3, #90	; 0x5a
 8023062:	bfd8      	it	le
 8023064:	3320      	addle	r3, #32
 8023066:	428b      	cmp	r3, r1
 8023068:	d0f0      	beq.n	802304c <_strtod_r+0x7ec>
 802306a:	e5b8      	b.n	8022bde <_strtod_r+0x37e>
 802306c:	9b06      	ldr	r3, [sp, #24]
 802306e:	f8dd c01c 	ldr.w	ip, [sp, #28]
 8023072:	2b00      	cmp	r3, #0
 8023074:	f040 80a6 	bne.w	80231c4 <_strtod_r+0x964>
 8023078:	f3cc 0313 	ubfx	r3, ip, #0, #20
 802307c:	bb03      	cbnz	r3, 80230c0 <_strtod_r+0x860>
 802307e:	2300      	movs	r3, #0
 8023080:	4620      	mov	r0, r4
 8023082:	4629      	mov	r1, r5
 8023084:	2200      	movs	r2, #0
 8023086:	f6c3 73f0 	movt	r3, #16368	; 0x3ff0
 802308a:	f8cd c010 	str.w	ip, [sp, #16]
 802308e:	f7fd fd09 	bl	8020aa4 <__aeabi_dcmplt>
 8023092:	f8dd c010 	ldr.w	ip, [sp, #16]
 8023096:	2800      	cmp	r0, #0
 8023098:	f040 8246 	bne.w	8023528 <_strtod_r+0xcc8>
 802309c:	2300      	movs	r3, #0
 802309e:	2200      	movs	r2, #0
 80230a0:	f6c3 73e0 	movt	r3, #16352	; 0x3fe0
 80230a4:	4620      	mov	r0, r4
 80230a6:	4629      	mov	r1, r5
 80230a8:	f7fd fa8a 	bl	80205c0 <__aeabi_dmul>
 80230ac:	f8dd c010 	ldr.w	ip, [sp, #16]
 80230b0:	4689      	mov	r9, r1
 80230b2:	4602      	mov	r2, r0
 80230b4:	f101 4300 	add.w	r3, r1, #2147483648	; 0x80000000
 80230b8:	900c      	str	r0, [sp, #48]	; 0x30
 80230ba:	4614      	mov	r4, r2
 80230bc:	461d      	mov	r5, r3
 80230be:	e639      	b.n	8022d34 <_strtod_r+0x4d4>
 80230c0:	f04f 0900 	mov.w	r9, #0
 80230c4:	2500      	movs	r5, #0
 80230c6:	f8cd 9030 	str.w	r9, [sp, #48]	; 0x30
 80230ca:	2400      	movs	r4, #0
 80230cc:	f6cb 75f0 	movt	r5, #49136	; 0xbff0
 80230d0:	f6c3 79f0 	movt	r9, #16368	; 0x3ff0
 80230d4:	e62e      	b.n	8022d34 <_strtod_r+0x4d4>
 80230d6:	f1ac 7c54 	sub.w	ip, ip, #55574528	; 0x3500000
 80230da:	9a09      	ldr	r2, [sp, #36]	; 0x24
 80230dc:	f8cd c01c 	str.w	ip, [sp, #28]
 80230e0:	9b0a      	ldr	r3, [sp, #40]	; 0x28
 80230e2:	e9dd 0106 	ldrd	r0, r1, [sp, #24]
 80230e6:	e9cd 4502 	strd	r4, r5, [sp, #8]
 80230ea:	4614      	mov	r4, r2
 80230ec:	461d      	mov	r5, r3
 80230ee:	e9cd 4514 	strd	r4, r5, [sp, #80]	; 0x50
 80230f2:	f001 ffe1 	bl	80250b8 <__ulp>
 80230f6:	4602      	mov	r2, r0
 80230f8:	460b      	mov	r3, r1
 80230fa:	e9dd 0102 	ldrd	r0, r1, [sp, #8]
 80230fe:	f7fd fa5f 	bl	80205c0 <__aeabi_dmul>
 8023102:	4602      	mov	r2, r0
 8023104:	460b      	mov	r3, r1
 8023106:	e9dd 0106 	ldrd	r0, r1, [sp, #24]
 802310a:	f7fd f8a7 	bl	802025c <__adddf3>
 802310e:	2300      	movs	r3, #0
 8023110:	f6c7 73f0 	movt	r3, #32752	; 0x7ff0
 8023114:	f64f 72ff 	movw	r2, #65535	; 0xffff
 8023118:	f6c7 429f 	movt	r2, #31903	; 0x7c9f
 802311c:	e9cd 0106 	strd	r0, r1, [sp, #24]
 8023120:	9c07      	ldr	r4, [sp, #28]
 8023122:	4023      	ands	r3, r4
 8023124:	4293      	cmp	r3, r2
 8023126:	d976      	bls.n	8023216 <_strtod_r+0x9b6>
 8023128:	f64f 73ff 	movw	r3, #65535	; 0xffff
 802312c:	9d15      	ldr	r5, [sp, #84]	; 0x54
 802312e:	f6c7 73ef 	movt	r3, #32751	; 0x7fef
 8023132:	429d      	cmp	r5, r3
 8023134:	f000 8177 	beq.w	8023426 <_strtod_r+0xbc6>
 8023138:	f64f 71ff 	movw	r1, #65535	; 0xffff
 802313c:	f04f 33ff 	mov.w	r3, #4294967295
 8023140:	460a      	mov	r2, r1
 8023142:	9306      	str	r3, [sp, #24]
 8023144:	f6c7 72ef 	movt	r2, #32751	; 0x7fef
 8023148:	9309      	str	r3, [sp, #36]	; 0x24
 802314a:	9207      	str	r2, [sp, #28]
 802314c:	920a      	str	r2, [sp, #40]	; 0x28
 802314e:	e643      	b.n	8022dd8 <_strtod_r+0x578>
 8023150:	4649      	mov	r1, r9
 8023152:	980c      	ldr	r0, [sp, #48]	; 0x30
 8023154:	f7fd fcce 	bl	8020af4 <__aeabi_d2iz>
 8023158:	f7fd f9cc 	bl	80204f4 <__aeabi_i2d>
 802315c:	4602      	mov	r2, r0
 802315e:	460b      	mov	r3, r1
 8023160:	980c      	ldr	r0, [sp, #48]	; 0x30
 8023162:	4649      	mov	r1, r9
 8023164:	f7fd f878 	bl	8020258 <__aeabi_dsub>
 8023168:	9d0f      	ldr	r5, [sp, #60]	; 0x3c
 802316a:	4680      	mov	r8, r0
 802316c:	4689      	mov	r9, r1
 802316e:	2d00      	cmp	r5, #0
 8023170:	d137      	bne.n	80231e2 <_strtod_r+0x982>
 8023172:	9a06      	ldr	r2, [sp, #24]
 8023174:	2a00      	cmp	r2, #0
 8023176:	d134      	bne.n	80231e2 <_strtod_r+0x982>
 8023178:	f3c4 0413 	ubfx	r4, r4, #0, #20
 802317c:	2c00      	cmp	r4, #0
 802317e:	d130      	bne.n	80231e2 <_strtod_r+0x982>
 8023180:	a357      	add	r3, pc, #348	; (adr r3, 80232e0 <_strtod_r+0xa80>)
 8023182:	e9d3 2300 	ldrd	r2, r3, [r3]
 8023186:	f7fd fc8d 	bl	8020aa4 <__aeabi_dcmplt>
 802318a:	2800      	cmp	r0, #0
 802318c:	f43f ae24 	beq.w	8022dd8 <_strtod_r+0x578>
 8023190:	4654      	mov	r4, sl
 8023192:	f8dd 9024 	ldr.w	r9, [sp, #36]	; 0x24
 8023196:	f8dd a028 	ldr.w	sl, [sp, #40]	; 0x28
 802319a:	4658      	mov	r0, fp
 802319c:	9918      	ldr	r1, [sp, #96]	; 0x60
 802319e:	f001 fcab 	bl	8024af8 <_Bfree>
 80231a2:	4658      	mov	r0, fp
 80231a4:	4621      	mov	r1, r4
 80231a6:	f001 fca7 	bl	8024af8 <_Bfree>
 80231aa:	4658      	mov	r0, fp
 80231ac:	4639      	mov	r1, r7
 80231ae:	f001 fca3 	bl	8024af8 <_Bfree>
 80231b2:	4658      	mov	r0, fp
 80231b4:	9911      	ldr	r1, [sp, #68]	; 0x44
 80231b6:	f001 fc9f 	bl	8024af8 <_Bfree>
 80231ba:	4658      	mov	r0, fp
 80231bc:	4631      	mov	r1, r6
 80231be:	f001 fc9b 	bl	8024af8 <_Bfree>
 80231c2:	e49a      	b.n	8022afa <_strtod_r+0x29a>
 80231c4:	2b01      	cmp	r3, #1
 80231c6:	f47f af7b 	bne.w	80230c0 <_strtod_r+0x860>
 80231ca:	4661      	mov	r1, ip
 80231cc:	2900      	cmp	r1, #0
 80231ce:	f47f af77 	bne.w	80230c0 <_strtod_r+0x860>
 80231d2:	4654      	mov	r4, sl
 80231d4:	f04f 0900 	mov.w	r9, #0
 80231d8:	46ca      	mov	sl, r9
 80231da:	2322      	movs	r3, #34	; 0x22
 80231dc:	f8cb 3000 	str.w	r3, [fp]
 80231e0:	e7db      	b.n	802319a <_strtod_r+0x93a>
 80231e2:	4640      	mov	r0, r8
 80231e4:	4649      	mov	r1, r9
 80231e6:	a340      	add	r3, pc, #256	; (adr r3, 80232e8 <_strtod_r+0xa88>)
 80231e8:	e9d3 2300 	ldrd	r2, r3, [r3]
 80231ec:	f7fd fc5a 	bl	8020aa4 <__aeabi_dcmplt>
 80231f0:	2800      	cmp	r0, #0
 80231f2:	d1cd      	bne.n	8023190 <_strtod_r+0x930>
 80231f4:	4640      	mov	r0, r8
 80231f6:	4649      	mov	r1, r9
 80231f8:	a33d      	add	r3, pc, #244	; (adr r3, 80232f0 <_strtod_r+0xa90>)
 80231fa:	e9d3 2300 	ldrd	r2, r3, [r3]
 80231fe:	f7fd fc6f 	bl	8020ae0 <__aeabi_dcmpgt>
 8023202:	2800      	cmp	r0, #0
 8023204:	f43f ade8 	beq.w	8022dd8 <_strtod_r+0x578>
 8023208:	e7c2      	b.n	8023190 <_strtod_r+0x930>
 802320a:	f04f 0900 	mov.w	r9, #0
 802320e:	900c      	str	r0, [sp, #48]	; 0x30
 8023210:	f6c3 79f0 	movt	r9, #16368	; 0x3ff0
 8023214:	e5b7      	b.n	8022d86 <_strtod_r+0x526>
 8023216:	9906      	ldr	r1, [sp, #24]
 8023218:	f104 7454 	add.w	r4, r4, #55574528	; 0x3500000
 802321c:	9407      	str	r4, [sp, #28]
 802321e:	940a      	str	r4, [sp, #40]	; 0x28
 8023220:	9109      	str	r1, [sp, #36]	; 0x24
 8023222:	e5d0      	b.n	8022dc6 <_strtod_r+0x566>
 8023224:	f8cd c05c 	str.w	ip, [sp, #92]	; 0x5c
 8023228:	2200      	movs	r2, #0
 802322a:	f1b8 0f00 	cmp.w	r8, #0
 802322e:	f47f ac0f 	bne.w	8022a50 <_strtod_r+0x1f0>
 8023232:	e495      	b.n	8022b60 <_strtod_r+0x300>
 8023234:	9d12      	ldr	r5, [sp, #72]	; 0x48
 8023236:	f240 0404 	movw	r4, #4
 802323a:	f2c2 0400 	movt	r4, #8192	; 0x2000
 802323e:	ab18      	add	r3, sp, #96	; 0x60
 8023240:	4658      	mov	r0, fp
 8023242:	e88d 0028 	stmia.w	sp, {r3, r5}
 8023246:	a917      	add	r1, sp, #92	; 0x5c
 8023248:	4622      	mov	r2, r4
 802324a:	ab19      	add	r3, sp, #100	; 0x64
 802324c:	f000 fd1c 	bl	8023c88 <__gethex>
 8023250:	f010 0707 	ands.w	r7, r0, #7
 8023254:	4605      	mov	r5, r0
 8023256:	bf04      	itt	eq
 8023258:	46b9      	moveq	r9, r7
 802325a:	46ca      	moveq	sl, r9
 802325c:	f43f ac4d 	beq.w	8022afa <_strtod_r+0x29a>
 8023260:	2f06      	cmp	r7, #6
 8023262:	f000 816f 	beq.w	8023544 <_strtod_r+0xce4>
 8023266:	9a18      	ldr	r2, [sp, #96]	; 0x60
 8023268:	b13a      	cbz	r2, 802327a <_strtod_r+0xa1a>
 802326a:	6821      	ldr	r1, [r4, #0]
 802326c:	a81a      	add	r0, sp, #104	; 0x68
 802326e:	f002 f845 	bl	80252fc <__copybits>
 8023272:	4658      	mov	r0, fp
 8023274:	9918      	ldr	r1, [sp, #96]	; 0x60
 8023276:	f001 fc3f 	bl	8024af8 <_Bfree>
 802327a:	9b19      	ldr	r3, [sp, #100]	; 0x64
 802327c:	2f06      	cmp	r7, #6
 802327e:	d80b      	bhi.n	8023298 <_strtod_r+0xa38>
 8023280:	e8df f007 	tbb	[pc, r7]
 8023284:	141b203c 	.word	0x141b203c
 8023288:	2004      	.short	0x2004
 802328a:	3c          	.byte	0x3c
 802328b:	00          	.byte	0x00
 802328c:	f06f 4400 	mvn.w	r4, #2147483648	; 0x80000000
 8023290:	f04f 30ff 	mov.w	r0, #4294967295
 8023294:	9407      	str	r4, [sp, #28]
 8023296:	9006      	str	r0, [sp, #24]
 8023298:	072b      	lsls	r3, r5, #28
 802329a:	f57f acb1 	bpl.w	8022c00 <_strtod_r+0x3a0>
 802329e:	9907      	ldr	r1, [sp, #28]
 80232a0:	f8dd 9018 	ldr.w	r9, [sp, #24]
 80232a4:	f041 4300 	orr.w	r3, r1, #2147483648	; 0x80000000
 80232a8:	469a      	mov	sl, r3
 80232aa:	e426      	b.n	8022afa <_strtod_r+0x29a>
 80232ac:	2100      	movs	r1, #0
 80232ae:	9106      	str	r1, [sp, #24]
 80232b0:	460a      	mov	r2, r1
 80232b2:	f6c7 72f0 	movt	r2, #32752	; 0x7ff0
 80232b6:	9207      	str	r2, [sp, #28]
 80232b8:	e7ee      	b.n	8023298 <_strtod_r+0xa38>
 80232ba:	9b1a      	ldr	r3, [sp, #104]	; 0x68
 80232bc:	9c1b      	ldr	r4, [sp, #108]	; 0x6c
 80232be:	9306      	str	r3, [sp, #24]
 80232c0:	9407      	str	r4, [sp, #28]
 80232c2:	e7e9      	b.n	8023298 <_strtod_r+0xa38>
 80232c4:	981a      	ldr	r0, [sp, #104]	; 0x68
 80232c6:	f203 4333 	addw	r3, r3, #1075	; 0x433
 80232ca:	9a1b      	ldr	r2, [sp, #108]	; 0x6c
 80232cc:	f422 1280 	bic.w	r2, r2, #1048576	; 0x100000
 80232d0:	9006      	str	r0, [sp, #24]
 80232d2:	ea42 5203 	orr.w	r2, r2, r3, lsl #20
 80232d6:	9207      	str	r2, [sp, #28]
 80232d8:	e7de      	b.n	8023298 <_strtod_r+0xa38>
 80232da:	bf00      	nop
 80232dc:	f3af 8000 	nop.w
 80232e0:	94a03595 	.word	0x94a03595
 80232e4:	3fcfffff 	.word	0x3fcfffff
 80232e8:	94a03595 	.word	0x94a03595
 80232ec:	3fdfffff 	.word	0x3fdfffff
 80232f0:	35afe535 	.word	0x35afe535
 80232f4:	3fe00000 	.word	0x3fe00000
 80232f8:	08044af3 	.word	0x08044af3
 80232fc:	2100      	movs	r1, #0
 80232fe:	9107      	str	r1, [sp, #28]
 8023300:	9106      	str	r1, [sp, #24]
 8023302:	e7c9      	b.n	8023298 <_strtod_r+0xa38>
 8023304:	46b0      	mov	r8, r6
 8023306:	4657      	mov	r7, sl
 8023308:	4654      	mov	r4, sl
 802330a:	f7ff bb24 	b.w	8022956 <_strtod_r+0xf6>
 802330e:	2300      	movs	r3, #0
 8023310:	930a      	str	r3, [sp, #40]	; 0x28
 8023312:	e693      	b.n	802303c <_strtod_r+0x7dc>
 8023314:	f8dd 802c 	ldr.w	r8, [sp, #44]	; 0x2c
 8023318:	eb08 0300 	add.w	r3, r8, r0
 802331c:	3b01      	subs	r3, #1
 802331e:	2b08      	cmp	r3, #8
 8023320:	f103 0801 	add.w	r8, r3, #1
 8023324:	f300 8172 	bgt.w	802360c <_strtod_r+0xdac>
 8023328:	eb07 0787 	add.w	r7, r7, r7, lsl #2
 802332c:	2000      	movs	r0, #0
 802332e:	eb01 0747 	add.w	r7, r1, r7, lsl #1
 8023332:	9d0a      	ldr	r5, [sp, #40]	; 0x28
 8023334:	1c6b      	adds	r3, r5, #1
 8023336:	9317      	str	r3, [sp, #92]	; 0x5c
 8023338:	786d      	ldrb	r5, [r5, #1]
 802333a:	e613      	b.n	8022f64 <_strtod_r+0x704>
 802333c:	9d0f      	ldr	r5, [sp, #60]	; 0x3c
 802333e:	4654      	mov	r4, sl
 8023340:	bb7d      	cbnz	r5, 80233a2 <_strtod_r+0xb42>
 8023342:	9806      	ldr	r0, [sp, #24]
 8023344:	bb68      	cbnz	r0, 80233a2 <_strtod_r+0xb42>
 8023346:	9a07      	ldr	r2, [sp, #28]
 8023348:	f3c2 0313 	ubfx	r3, r2, #0, #20
 802334c:	bb4b      	cbnz	r3, 80233a2 <_strtod_r+0xb42>
 802334e:	4643      	mov	r3, r8
 8023350:	f6c7 73f0 	movt	r3, #32752	; 0x7ff0
 8023354:	4013      	ands	r3, r2
 8023356:	f1b3 6fd6 	cmp.w	r3, #112197632	; 0x6b00000
 802335a:	d922      	bls.n	80233a2 <_strtod_r+0xb42>
 802335c:	6973      	ldr	r3, [r6, #20]
 802335e:	b913      	cbnz	r3, 8023366 <_strtod_r+0xb06>
 8023360:	6933      	ldr	r3, [r6, #16]
 8023362:	2b01      	cmp	r3, #1
 8023364:	dd1d      	ble.n	80233a2 <_strtod_r+0xb42>
 8023366:	4631      	mov	r1, r6
 8023368:	2201      	movs	r2, #1
 802336a:	4658      	mov	r0, fp
 802336c:	f001 fdb6 	bl	8024edc <__lshift>
 8023370:	4639      	mov	r1, r7
 8023372:	4606      	mov	r6, r0
 8023374:	f001 fe0c 	bl	8024f90 <__mcmp>
 8023378:	2800      	cmp	r0, #0
 802337a:	dd12      	ble.n	80233a2 <_strtod_r+0xb42>
 802337c:	9d0b      	ldr	r5, [sp, #44]	; 0x2c
 802337e:	2d00      	cmp	r5, #0
 8023380:	f040 8195 	bne.w	80236ae <_strtod_r+0xe4e>
 8023384:	9807      	ldr	r0, [sp, #28]
 8023386:	f020 4300 	bic.w	r3, r0, #2147483648	; 0x80000000
 802338a:	0d1b      	lsrs	r3, r3, #20
 802338c:	051b      	lsls	r3, r3, #20
 802338e:	f5a3 1380 	sub.w	r3, r3, #1048576	; 0x100000
 8023392:	f04f 32ff 	mov.w	r2, #4294967295
 8023396:	9206      	str	r2, [sp, #24]
 8023398:	ea6f 5313 	mvn.w	r3, r3, lsr #20
 802339c:	ea6f 5303 	mvn.w	r3, r3, lsl #20
 80233a0:	9307      	str	r3, [sp, #28]
 80233a2:	9d0b      	ldr	r5, [sp, #44]	; 0x2c
 80233a4:	2d00      	cmp	r5, #0
 80233a6:	f000 80c8 	beq.w	802353a <_strtod_r+0xcda>
 80233aa:	2200      	movs	r2, #0
 80233ac:	2300      	movs	r3, #0
 80233ae:	f6c3 1250 	movt	r2, #14672	; 0x3950
 80233b2:	9314      	str	r3, [sp, #80]	; 0x50
 80233b4:	9215      	str	r2, [sp, #84]	; 0x54
 80233b6:	e9dd 0106 	ldrd	r0, r1, [sp, #24]
 80233ba:	e9dd 2314 	ldrd	r2, r3, [sp, #80]	; 0x50
 80233be:	f7fd f8ff 	bl	80205c0 <__aeabi_dmul>
 80233c2:	e9cd 0106 	strd	r0, r1, [sp, #24]
 80233c6:	468a      	mov	sl, r1
 80233c8:	9907      	ldr	r1, [sp, #28]
 80233ca:	4681      	mov	r9, r0
 80233cc:	2900      	cmp	r1, #0
 80233ce:	f47f aee4 	bne.w	802319a <_strtod_r+0x93a>
 80233d2:	9a06      	ldr	r2, [sp, #24]
 80233d4:	2a00      	cmp	r2, #0
 80233d6:	f47f aee0 	bne.w	802319a <_strtod_r+0x93a>
 80233da:	e6fe      	b.n	80231da <_strtod_r+0x97a>
 80233dc:	9d0f      	ldr	r5, [sp, #60]	; 0x3c
 80233de:	4654      	mov	r4, sl
 80233e0:	f8dd 9024 	ldr.w	r9, [sp, #36]	; 0x24
 80233e4:	f8dd a028 	ldr.w	sl, [sp, #40]	; 0x28
 80233e8:	2d00      	cmp	r5, #0
 80233ea:	f000 80d3 	beq.w	8023594 <_strtod_r+0xd34>
 80233ee:	9b07      	ldr	r3, [sp, #28]
 80233f0:	f64f 72ff 	movw	r2, #65535	; 0xffff
 80233f4:	f2c0 020f 	movt	r2, #15
 80233f8:	f023 417f 	bic.w	r1, r3, #4278190080	; 0xff000000
 80233fc:	f421 0170 	bic.w	r1, r1, #15728640	; 0xf00000
 8023400:	4291      	cmp	r1, r2
 8023402:	9906      	ldr	r1, [sp, #24]
 8023404:	f000 8119 	beq.w	802363a <_strtod_r+0xdda>
 8023408:	07cb      	lsls	r3, r1, #31
 802340a:	d5ca      	bpl.n	80233a2 <_strtod_r+0xb42>
 802340c:	4648      	mov	r0, r9
 802340e:	4651      	mov	r1, sl
 8023410:	f001 fe52 	bl	80250b8 <__ulp>
 8023414:	4602      	mov	r2, r0
 8023416:	460b      	mov	r3, r1
 8023418:	4648      	mov	r0, r9
 802341a:	4651      	mov	r1, sl
 802341c:	f7fc ff1e 	bl	802025c <__adddf3>
 8023420:	e9cd 0106 	strd	r0, r1, [sp, #24]
 8023424:	e7bd      	b.n	80233a2 <_strtod_r+0xb42>
 8023426:	9814      	ldr	r0, [sp, #80]	; 0x50
 8023428:	3001      	adds	r0, #1
 802342a:	f47f ae85 	bne.w	8023138 <_strtod_r+0x8d8>
 802342e:	2000      	movs	r0, #0
 8023430:	4654      	mov	r4, sl
 8023432:	4601      	mov	r1, r0
 8023434:	2322      	movs	r3, #34	; 0x22
 8023436:	f6c7 71f0 	movt	r1, #32752	; 0x7ff0
 802343a:	f8cb 3000 	str.w	r3, [fp]
 802343e:	9107      	str	r1, [sp, #28]
 8023440:	4681      	mov	r9, r0
 8023442:	9006      	str	r0, [sp, #24]
 8023444:	468a      	mov	sl, r1
 8023446:	e6a8      	b.n	802319a <_strtod_r+0x93a>
 8023448:	2300      	movs	r3, #0
 802344a:	2500      	movs	r5, #0
 802344c:	461c      	mov	r4, r3
 802344e:	9506      	str	r5, [sp, #24]
 8023450:	f6c7 74f0 	movt	r4, #32752	; 0x7ff0
 8023454:	2322      	movs	r3, #34	; 0x22
 8023456:	9407      	str	r4, [sp, #28]
 8023458:	46a9      	mov	r9, r5
 802345a:	f8cb 3000 	str.w	r3, [fp]
 802345e:	46a2      	mov	sl, r4
 8023460:	f7ff bb4b 	b.w	8022afa <_strtod_r+0x29a>
 8023464:	f43f ac35 	beq.w	8022cd2 <_strtod_r+0x472>
 8023468:	4264      	negs	r4, r4
 802346a:	f014 020f 	ands.w	r2, r4, #15
 802346e:	d00d      	beq.n	802348c <_strtod_r+0xc2c>
 8023470:	f248 63e0 	movw	r3, #34528	; 0x86e0
 8023474:	e9dd 0106 	ldrd	r0, r1, [sp, #24]
 8023478:	f6c0 0303 	movt	r3, #2051	; 0x803
 802347c:	eb03 03c2 	add.w	r3, r3, r2, lsl #3
 8023480:	e9d3 2300 	ldrd	r2, r3, [r3]
 8023484:	f7fd f9c6 	bl	8020814 <__aeabi_ddiv>
 8023488:	e9cd 0106 	strd	r0, r1, [sp, #24]
 802348c:	1124      	asrs	r4, r4, #4
 802348e:	f43f ac20 	beq.w	8022cd2 <_strtod_r+0x472>
 8023492:	2c1f      	cmp	r4, #31
 8023494:	dc40      	bgt.n	8023518 <_strtod_r+0xcb8>
 8023496:	f014 0f10 	tst.w	r4, #16
 802349a:	bf14      	ite	ne
 802349c:	256a      	movne	r5, #106	; 0x6a
 802349e:	2500      	moveq	r5, #0
 80234a0:	2c00      	cmp	r4, #0
 80234a2:	950b      	str	r5, [sp, #44]	; 0x2c
 80234a4:	dd17      	ble.n	80234d6 <_strtod_r+0xc76>
 80234a6:	f248 65a8 	movw	r5, #34472	; 0x86a8
 80234aa:	e9dd 2306 	ldrd	r2, r3, [sp, #24]
 80234ae:	f6c0 0503 	movt	r5, #2051	; 0x803
 80234b2:	f014 0f01 	tst.w	r4, #1
 80234b6:	4610      	mov	r0, r2
 80234b8:	4619      	mov	r1, r3
 80234ba:	d005      	beq.n	80234c8 <_strtod_r+0xc68>
 80234bc:	e9d5 2300 	ldrd	r2, r3, [r5]
 80234c0:	f7fd f87e 	bl	80205c0 <__aeabi_dmul>
 80234c4:	4602      	mov	r2, r0
 80234c6:	460b      	mov	r3, r1
 80234c8:	3508      	adds	r5, #8
 80234ca:	1064      	asrs	r4, r4, #1
 80234cc:	d1f1      	bne.n	80234b2 <_strtod_r+0xc52>
 80234ce:	4610      	mov	r0, r2
 80234d0:	4619      	mov	r1, r3
 80234d2:	e9cd 0106 	strd	r0, r1, [sp, #24]
 80234d6:	9c0b      	ldr	r4, [sp, #44]	; 0x2c
 80234d8:	b18c      	cbz	r4, 80234fe <_strtod_r+0xc9e>
 80234da:	9a07      	ldr	r2, [sp, #28]
 80234dc:	f3c2 530a 	ubfx	r3, r2, #20, #11
 80234e0:	f1c3 036b 	rsb	r3, r3, #107	; 0x6b
 80234e4:	2b00      	cmp	r3, #0
 80234e6:	dd0a      	ble.n	80234fe <_strtod_r+0xc9e>
 80234e8:	2b1f      	cmp	r3, #31
 80234ea:	f340 810a 	ble.w	8023702 <_strtod_r+0xea2>
 80234ee:	2100      	movs	r1, #0
 80234f0:	2b34      	cmp	r3, #52	; 0x34
 80234f2:	9106      	str	r1, [sp, #24]
 80234f4:	f340 810d 	ble.w	8023712 <_strtod_r+0xeb2>
 80234f8:	f04f 725c 	mov.w	r2, #57671680	; 0x3700000
 80234fc:	9207      	str	r2, [sp, #28]
 80234fe:	9d06      	ldr	r5, [sp, #24]
 8023500:	2200      	movs	r2, #0
 8023502:	9c07      	ldr	r4, [sp, #28]
 8023504:	2300      	movs	r3, #0
 8023506:	4628      	mov	r0, r5
 8023508:	46a9      	mov	r9, r5
 802350a:	4621      	mov	r1, r4
 802350c:	46a2      	mov	sl, r4
 802350e:	f7fd fabf 	bl	8020a90 <__aeabi_dcmpeq>
 8023512:	2800      	cmp	r0, #0
 8023514:	f43f abe2 	beq.w	8022cdc <_strtod_r+0x47c>
 8023518:	f04f 0900 	mov.w	r9, #0
 802351c:	2322      	movs	r3, #34	; 0x22
 802351e:	46ca      	mov	sl, r9
 8023520:	f8cb 3000 	str.w	r3, [fp]
 8023524:	f7ff bae9 	b.w	8022afa <_strtod_r+0x29a>
 8023528:	9a0f      	ldr	r2, [sp, #60]	; 0x3c
 802352a:	2300      	movs	r3, #0
 802352c:	4699      	mov	r9, r3
 802352e:	f6cb 73e0 	movt	r3, #49120	; 0xbfe0
 8023532:	f6c3 79e0 	movt	r9, #16352	; 0x3fe0
 8023536:	920c      	str	r2, [sp, #48]	; 0x30
 8023538:	e5bf      	b.n	80230ba <_strtod_r+0x85a>
 802353a:	f8dd 9018 	ldr.w	r9, [sp, #24]
 802353e:	f8dd a01c 	ldr.w	sl, [sp, #28]
 8023542:	e62a      	b.n	802319a <_strtod_r+0x93a>
 8023544:	f04f 0900 	mov.w	r9, #0
 8023548:	3601      	adds	r6, #1
 802354a:	46ca      	mov	sl, r9
 802354c:	9617      	str	r6, [sp, #92]	; 0x5c
 802354e:	f7ff bad4 	b.w	8022afa <_strtod_r+0x29a>
 8023552:	9c09      	ldr	r4, [sp, #36]	; 0x24
 8023554:	f1c8 0325 	rsb	r3, r8, #37	; 0x25
 8023558:	429c      	cmp	r4, r3
 802355a:	f73f ab9d 	bgt.w	8022c98 <_strtod_r+0x438>
 802355e:	f1c8 080f 	rsb	r8, r8, #15
 8023562:	f248 64e0 	movw	r4, #34528	; 0x86e0
 8023566:	f6c0 0403 	movt	r4, #2051	; 0x803
 802356a:	e9dd 2306 	ldrd	r2, r3, [sp, #24]
 802356e:	eb04 01c8 	add.w	r1, r4, r8, lsl #3
 8023572:	e9d1 0100 	ldrd	r0, r1, [r1]
 8023576:	f7fd f823 	bl	80205c0 <__aeabi_dmul>
 802357a:	9d09      	ldr	r5, [sp, #36]	; 0x24
 802357c:	ebc8 0805 	rsb	r8, r8, r5
 8023580:	eb04 04c8 	add.w	r4, r4, r8, lsl #3
 8023584:	e9d4 2300 	ldrd	r2, r3, [r4]
 8023588:	f7fd f81a 	bl	80205c0 <__aeabi_dmul>
 802358c:	4681      	mov	r9, r0
 802358e:	468a      	mov	sl, r1
 8023590:	f7ff bab3 	b.w	8022afa <_strtod_r+0x29a>
 8023594:	9907      	ldr	r1, [sp, #28]
 8023596:	f3c1 0313 	ubfx	r3, r1, #0, #20
 802359a:	2b00      	cmp	r3, #0
 802359c:	d141      	bne.n	8023622 <_strtod_r+0xdc2>
 802359e:	9b06      	ldr	r3, [sp, #24]
 80235a0:	2b00      	cmp	r3, #0
 80235a2:	f43f aeeb 	beq.w	802337c <_strtod_r+0xb1c>
 80235a6:	07da      	lsls	r2, r3, #31
 80235a8:	f57f aefb 	bpl.w	80233a2 <_strtod_r+0xb42>
 80235ac:	4648      	mov	r0, r9
 80235ae:	4651      	mov	r1, sl
 80235b0:	f001 fd82 	bl	80250b8 <__ulp>
 80235b4:	4602      	mov	r2, r0
 80235b6:	460b      	mov	r3, r1
 80235b8:	4648      	mov	r0, r9
 80235ba:	4651      	mov	r1, sl
 80235bc:	f7fc fe4c 	bl	8020258 <__aeabi_dsub>
 80235c0:	4602      	mov	r2, r0
 80235c2:	460b      	mov	r3, r1
 80235c4:	e9cd 2306 	strd	r2, r3, [sp, #24]
 80235c8:	2200      	movs	r2, #0
 80235ca:	2300      	movs	r3, #0
 80235cc:	f7fd fa60 	bl	8020a90 <__aeabi_dcmpeq>
 80235d0:	2800      	cmp	r0, #0
 80235d2:	f47f adff 	bne.w	80231d4 <_strtod_r+0x974>
 80235d6:	e6e4      	b.n	80233a2 <_strtod_r+0xb42>
 80235d8:	9d09      	ldr	r5, [sp, #36]	; 0x24
 80235da:	426d      	negs	r5, r5
 80235dc:	950d      	str	r5, [sp, #52]	; 0x34
 80235de:	f7ff bb8b 	b.w	8022cf8 <_strtod_r+0x498>
 80235e2:	9c09      	ldr	r4, [sp, #36]	; 0x24
 80235e4:	f114 0f16 	cmn.w	r4, #22
 80235e8:	f6ff ab56 	blt.w	8022c98 <_strtod_r+0x438>
 80235ec:	f248 63e0 	movw	r3, #34528	; 0x86e0
 80235f0:	e9dd 0106 	ldrd	r0, r1, [sp, #24]
 80235f4:	f6c0 0303 	movt	r3, #2051	; 0x803
 80235f8:	eba3 03c4 	sub.w	r3, r3, r4, lsl #3
 80235fc:	e9d3 2300 	ldrd	r2, r3, [r3]
 8023600:	f7fd f908 	bl	8020814 <__aeabi_ddiv>
 8023604:	4681      	mov	r9, r0
 8023606:	468a      	mov	sl, r1
 8023608:	f7ff ba77 	b.w	8022afa <_strtod_r+0x29a>
 802360c:	2000      	movs	r0, #0
 802360e:	f1b8 0f10 	cmp.w	r8, #16
 8023612:	f73f ae8e 	bgt.w	8023332 <_strtod_r+0xad2>
 8023616:	eb0a 0a8a 	add.w	sl, sl, sl, lsl #2
 802361a:	2000      	movs	r0, #0
 802361c:	eb01 0a4a 	add.w	sl, r1, sl, lsl #1
 8023620:	e687      	b.n	8023332 <_strtod_r+0xad2>
 8023622:	9b06      	ldr	r3, [sp, #24]
 8023624:	e7bf      	b.n	80235a6 <_strtod_r+0xd46>
 8023626:	f101 7154 	add.w	r1, r1, #55574528	; 0x3500000
 802362a:	2400      	movs	r4, #0
 802362c:	9107      	str	r1, [sp, #28]
 802362e:	468a      	mov	sl, r1
 8023630:	940b      	str	r4, [sp, #44]	; 0x2c
 8023632:	f8dd 9018 	ldr.w	r9, [sp, #24]
 8023636:	f7ff bb51 	b.w	8022cdc <_strtod_r+0x47c>
 802363a:	9d0b      	ldr	r5, [sp, #44]	; 0x2c
 802363c:	b1d5      	cbz	r5, 8023674 <_strtod_r+0xe14>
 802363e:	2200      	movs	r2, #0
 8023640:	f6c7 72f0 	movt	r2, #32752	; 0x7ff0
 8023644:	401a      	ands	r2, r3
 8023646:	f1b2 6fd4 	cmp.w	r2, #111149056	; 0x6a00000
 802364a:	d813      	bhi.n	8023674 <_strtod_r+0xe14>
 802364c:	0d12      	lsrs	r2, r2, #20
 802364e:	f04f 30ff 	mov.w	r0, #4294967295
 8023652:	f1c2 026b 	rsb	r2, r2, #107	; 0x6b
 8023656:	fa00 f202 	lsl.w	r2, r0, r2
 802365a:	4291      	cmp	r1, r2
 802365c:	f47f aed4 	bne.w	8023408 <_strtod_r+0xba8>
 8023660:	2200      	movs	r2, #0
 8023662:	2000      	movs	r0, #0
 8023664:	f6c7 72f0 	movt	r2, #32752	; 0x7ff0
 8023668:	9006      	str	r0, [sp, #24]
 802366a:	401a      	ands	r2, r3
 802366c:	f502 1280 	add.w	r2, r2, #1048576	; 0x100000
 8023670:	9207      	str	r2, [sp, #28]
 8023672:	e696      	b.n	80233a2 <_strtod_r+0xb42>
 8023674:	f04f 32ff 	mov.w	r2, #4294967295
 8023678:	e7ef      	b.n	802365a <_strtod_r+0xdfa>
 802367a:	4c2a      	ldr	r4, [pc, #168]	; (8023724 <_strtod_r+0xec4>)
 802367c:	4611      	mov	r1, r2
 802367e:	9217      	str	r2, [sp, #92]	; 0x5c
 8023680:	f814 0f01 	ldrb.w	r0, [r4, #1]!
 8023684:	460b      	mov	r3, r1
 8023686:	b310      	cbz	r0, 80236ce <_strtod_r+0xe6e>
 8023688:	785b      	ldrb	r3, [r3, #1]
 802368a:	3101      	adds	r1, #1
 802368c:	2b40      	cmp	r3, #64	; 0x40
 802368e:	dd02      	ble.n	8023696 <_strtod_r+0xe36>
 8023690:	2b5a      	cmp	r3, #90	; 0x5a
 8023692:	bfd8      	it	le
 8023694:	3320      	addle	r3, #32
 8023696:	4283      	cmp	r3, r0
 8023698:	d0f2      	beq.n	8023680 <_strtod_r+0xe20>
 802369a:	3201      	adds	r2, #1
 802369c:	9217      	str	r2, [sp, #92]	; 0x5c
 802369e:	2500      	movs	r5, #0
 80236a0:	9506      	str	r5, [sp, #24]
 80236a2:	4628      	mov	r0, r5
 80236a4:	f6c7 70f0 	movt	r0, #32752	; 0x7ff0
 80236a8:	9007      	str	r0, [sp, #28]
 80236aa:	f7ff baa9 	b.w	8022c00 <_strtod_r+0x3a0>
 80236ae:	9907      	ldr	r1, [sp, #28]
 80236b0:	f021 4300 	bic.w	r3, r1, #2147483648	; 0x80000000
 80236b4:	0d1b      	lsrs	r3, r3, #20
 80236b6:	051b      	lsls	r3, r3, #20
 80236b8:	f1b3 6fd6 	cmp.w	r3, #112197632	; 0x6b00000
 80236bc:	f63f ae67 	bhi.w	802338e <_strtod_r+0xb2e>
 80236c0:	f1b3 7f5c 	cmp.w	r3, #57671680	; 0x3700000
 80236c4:	f63f ae71 	bhi.w	80233aa <_strtod_r+0xb4a>
 80236c8:	e584      	b.n	80231d4 <_strtod_r+0x974>
 80236ca:	4643      	mov	r3, r8
 80236cc:	e627      	b.n	802331e <_strtod_r+0xabe>
 80236ce:	3101      	adds	r1, #1
 80236d0:	9117      	str	r1, [sp, #92]	; 0x5c
 80236d2:	e7e4      	b.n	802369e <_strtod_r+0xe3e>
 80236d4:	f04f 0900 	mov.w	r9, #0
 80236d8:	f6c0 0a03 	movt	sl, #2051	; 0x803
 80236dc:	e47f      	b.n	8022fde <_strtod_r+0x77e>
 80236de:	a817      	add	r0, sp, #92	; 0x5c
 80236e0:	4911      	ldr	r1, [pc, #68]	; (8023728 <_strtod_r+0xec8>)
 80236e2:	aa1a      	add	r2, sp, #104	; 0x68
 80236e4:	f000 fd7e 	bl	80241e4 <__hexnan>
 80236e8:	2805      	cmp	r0, #5
 80236ea:	f47f aa83 	bne.w	8022bf4 <_strtod_r+0x394>
 80236ee:	9b1b      	ldr	r3, [sp, #108]	; 0x6c
 80236f0:	9a1a      	ldr	r2, [sp, #104]	; 0x68
 80236f2:	f043 43ff 	orr.w	r3, r3, #2139095040	; 0x7f800000
 80236f6:	f443 03e0 	orr.w	r3, r3, #7340032	; 0x700000
 80236fa:	9307      	str	r3, [sp, #28]
 80236fc:	9206      	str	r2, [sp, #24]
 80236fe:	f7ff ba7f 	b.w	8022c00 <_strtod_r+0x3a0>
 8023702:	f04f 32ff 	mov.w	r2, #4294967295
 8023706:	9c06      	ldr	r4, [sp, #24]
 8023708:	fa02 f303 	lsl.w	r3, r2, r3
 802370c:	401c      	ands	r4, r3
 802370e:	9406      	str	r4, [sp, #24]
 8023710:	e6f5      	b.n	80234fe <_strtod_r+0xc9e>
 8023712:	f04f 31ff 	mov.w	r1, #4294967295
 8023716:	3b20      	subs	r3, #32
 8023718:	fa01 f303 	lsl.w	r3, r1, r3
 802371c:	4013      	ands	r3, r2
 802371e:	9307      	str	r3, [sp, #28]
 8023720:	e6ed      	b.n	80234fe <_strtod_r+0xc9e>
 8023722:	bf00      	nop
 8023724:	08044af7 	.word	0x08044af7
 8023728:	20000018 	.word	0x20000018

0802372c <strtod>:
 802372c:	f240 032c 	movw	r3, #44	; 0x2c
 8023730:	460a      	mov	r2, r1
 8023732:	f2c2 0300 	movt	r3, #8192	; 0x2000
 8023736:	4601      	mov	r1, r0
 8023738:	6818      	ldr	r0, [r3, #0]
 802373a:	f7ff b891 	b.w	8022860 <_strtod_r>
 802373e:	bf00      	nop

08023740 <strtof>:
 8023740:	e92d 43f8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
 8023744:	f240 062c 	movw	r6, #44	; 0x2c
 8023748:	f2c2 0600 	movt	r6, #8192	; 0x2000
 802374c:	460a      	mov	r2, r1
 802374e:	4601      	mov	r1, r0
 8023750:	f04f 0801 	mov.w	r8, #1
 8023754:	6830      	ldr	r0, [r6, #0]
 8023756:	f7ff f883 	bl	8022860 <_strtod_r>
 802375a:	460d      	mov	r5, r1
 802375c:	4604      	mov	r4, r0
 802375e:	f7fd fa11 	bl	8020b84 <__aeabi_d2f>
 8023762:	2100      	movs	r1, #0
 8023764:	4607      	mov	r7, r0
 8023766:	f7fd fcff 	bl	8021168 <__aeabi_fcmpeq>
 802376a:	b908      	cbnz	r0, 8023770 <strtof+0x30>
 802376c:	f04f 0800 	mov.w	r8, #0
 8023770:	4620      	mov	r0, r4
 8023772:	4629      	mov	r1, r5
 8023774:	2200      	movs	r2, #0
 8023776:	2300      	movs	r3, #0
 8023778:	f04f 0901 	mov.w	r9, #1
 802377c:	f7fd f988 	bl	8020a90 <__aeabi_dcmpeq>
 8023780:	b108      	cbz	r0, 8023786 <strtof+0x46>
 8023782:	f04f 0900 	mov.w	r9, #0
 8023786:	ea08 0809 	and.w	r8, r8, r9
 802378a:	f018 0fff 	tst.w	r8, #255	; 0xff
 802378e:	d116      	bne.n	80237be <strtof+0x7e>
 8023790:	f64f 71ff 	movw	r1, #65535	; 0xffff
 8023794:	4638      	mov	r0, r7
 8023796:	f6c7 717f 	movt	r1, #32639	; 0x7f7f
 802379a:	f7fd fd0d 	bl	80211b8 <__aeabi_fcmpgt>
 802379e:	b9a0      	cbnz	r0, 80237ca <strtof+0x8a>
 80237a0:	4638      	mov	r0, r7
 80237a2:	f46f 0100 	mvn.w	r1, #8388608	; 0x800000
 80237a6:	f7fd fce9 	bl	802117c <__aeabi_fcmplt>
 80237aa:	b158      	cbz	r0, 80237c4 <strtof+0x84>
 80237ac:	4620      	mov	r0, r4
 80237ae:	4629      	mov	r1, r5
 80237b0:	f04f 32ff 	mov.w	r2, #4294967295
 80237b4:	f46f 1380 	mvn.w	r3, #1048576	; 0x100000
 80237b8:	f7fd f974 	bl	8020aa4 <__aeabi_dcmplt>
 80237bc:	b910      	cbnz	r0, 80237c4 <strtof+0x84>
 80237be:	6833      	ldr	r3, [r6, #0]
 80237c0:	2222      	movs	r2, #34	; 0x22
 80237c2:	601a      	str	r2, [r3, #0]
 80237c4:	4638      	mov	r0, r7
 80237c6:	e8bd 83f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, pc}
 80237ca:	f64f 73ff 	movw	r3, #65535	; 0xffff
 80237ce:	4620      	mov	r0, r4
 80237d0:	4629      	mov	r1, r5
 80237d2:	f04f 32ff 	mov.w	r2, #4294967295
 80237d6:	f6c7 73ef 	movt	r3, #32751	; 0x7fef
 80237da:	f7fd f981 	bl	8020ae0 <__aeabi_dcmpgt>
 80237de:	2800      	cmp	r0, #0
 80237e0:	d0ed      	beq.n	80237be <strtof+0x7e>
 80237e2:	e7dd      	b.n	80237a0 <strtof+0x60>
 80237e4:	f3af 8000 	nop.w

080237e8 <_strtol_r>:
 80237e8:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 80237ec:	f240 0400 	movw	r4, #0
 80237f0:	f2c2 0400 	movt	r4, #8192	; 0x2000
 80237f4:	b085      	sub	sp, #20
 80237f6:	4699      	mov	r9, r3
 80237f8:	460b      	mov	r3, r1
 80237fa:	f8d4 8000 	ldr.w	r8, [r4]
 80237fe:	9102      	str	r1, [sp, #8]
 8023800:	9003      	str	r0, [sp, #12]
 8023802:	461c      	mov	r4, r3
 8023804:	f814 5b01 	ldrb.w	r5, [r4], #1
 8023808:	eb08 0105 	add.w	r1, r8, r5
 802380c:	4623      	mov	r3, r4
 802380e:	7849      	ldrb	r1, [r1, #1]
 8023810:	f001 0108 	and.w	r1, r1, #8
 8023814:	b2c9      	uxtb	r1, r1
 8023816:	2900      	cmp	r1, #0
 8023818:	d1f3      	bne.n	8023802 <_strtol_r+0x1a>
 802381a:	2d2d      	cmp	r5, #45	; 0x2d
 802381c:	d07b      	beq.n	8023916 <_strtol_r+0x12e>
 802381e:	2d2b      	cmp	r5, #43	; 0x2b
 8023820:	bf05      	ittet	eq
 8023822:	4624      	moveq	r4, r4
 8023824:	460b      	moveq	r3, r1
 8023826:	460b      	movne	r3, r1
 8023828:	f814 5b01 	ldrbeq.w	r5, [r4], #1
 802382c:	f039 0110 	bics.w	r1, r9, #16
 8023830:	d112      	bne.n	8023858 <_strtol_r+0x70>
 8023832:	f1d9 0001 	rsbs	r0, r9, #1
 8023836:	bf38      	it	cc
 8023838:	2000      	movcc	r0, #0
 802383a:	2d30      	cmp	r5, #48	; 0x30
 802383c:	d004      	beq.n	8023848 <_strtol_r+0x60>
 802383e:	b158      	cbz	r0, 8023858 <_strtol_r+0x70>
 8023840:	f04f 090a 	mov.w	r9, #10
 8023844:	46cb      	mov	fp, r9
 8023846:	e008      	b.n	802385a <_strtol_r+0x72>
 8023848:	7821      	ldrb	r1, [r4, #0]
 802384a:	f001 01df 	and.w	r1, r1, #223	; 0xdf
 802384e:	2958      	cmp	r1, #88	; 0x58
 8023850:	d065      	beq.n	802391e <_strtol_r+0x136>
 8023852:	b108      	cbz	r0, 8023858 <_strtol_r+0x70>
 8023854:	f04f 0908 	mov.w	r9, #8
 8023858:	46cb      	mov	fp, r9
 802385a:	2b00      	cmp	r3, #0
 802385c:	4659      	mov	r1, fp
 802385e:	bf0c      	ite	eq
 8023860:	f06f 4600 	mvneq.w	r6, #2147483648	; 0x80000000
 8023864:	f04f 4600 	movne.w	r6, #2147483648	; 0x80000000
 8023868:	e88d 000c 	stmia.w	sp, {r2, r3}
 802386c:	4630      	mov	r0, r6
 802386e:	2700      	movs	r7, #0
 8023870:	f7fe f964 	bl	8021b3c <__aeabi_uidivmod>
 8023874:	4630      	mov	r0, r6
 8023876:	468a      	mov	sl, r1
 8023878:	4659      	mov	r1, fp
 802387a:	f7fe f831 	bl	80218e0 <__aeabi_uidiv>
 802387e:	46bc      	mov	ip, r7
 8023880:	e89d 000c 	ldmia.w	sp, {r2, r3}
 8023884:	e016      	b.n	80238b4 <_strtol_r+0xcc>
 8023886:	3d30      	subs	r5, #48	; 0x30
 8023888:	45a9      	cmp	r9, r5
 802388a:	dd25      	ble.n	80238d8 <_strtol_r+0xf0>
 802388c:	4584      	cmp	ip, r0
 802388e:	bf94      	ite	ls
 8023890:	2100      	movls	r1, #0
 8023892:	2101      	movhi	r1, #1
 8023894:	ea51 77d7 	orrs.w	r7, r1, r7, lsr #31
 8023898:	d129      	bne.n	80238ee <_strtol_r+0x106>
 802389a:	4555      	cmp	r5, sl
 802389c:	bfd4      	ite	le
 802389e:	2100      	movle	r1, #0
 80238a0:	2101      	movgt	r1, #1
 80238a2:	4584      	cmp	ip, r0
 80238a4:	bf18      	it	ne
 80238a6:	2100      	movne	r1, #0
 80238a8:	bb09      	cbnz	r1, 80238ee <_strtol_r+0x106>
 80238aa:	fb0b 5c0c 	mla	ip, fp, ip, r5
 80238ae:	2701      	movs	r7, #1
 80238b0:	f814 5b01 	ldrb.w	r5, [r4], #1
 80238b4:	eb08 0105 	add.w	r1, r8, r5
 80238b8:	7849      	ldrb	r1, [r1, #1]
 80238ba:	f001 0604 	and.w	r6, r1, #4
 80238be:	b2f6      	uxtb	r6, r6
 80238c0:	2e00      	cmp	r6, #0
 80238c2:	d1e0      	bne.n	8023886 <_strtol_r+0x9e>
 80238c4:	f011 0103 	ands.w	r1, r1, #3
 80238c8:	d006      	beq.n	80238d8 <_strtol_r+0xf0>
 80238ca:	2901      	cmp	r1, #1
 80238cc:	bf14      	ite	ne
 80238ce:	2157      	movne	r1, #87	; 0x57
 80238d0:	2137      	moveq	r1, #55	; 0x37
 80238d2:	1a6d      	subs	r5, r5, r1
 80238d4:	45a9      	cmp	r9, r5
 80238d6:	dcd9      	bgt.n	802388c <_strtol_r+0xa4>
 80238d8:	1c79      	adds	r1, r7, #1
 80238da:	d00b      	beq.n	80238f4 <_strtol_r+0x10c>
 80238dc:	b9c3      	cbnz	r3, 8023910 <_strtol_r+0x128>
 80238de:	4660      	mov	r0, ip
 80238e0:	b112      	cbz	r2, 80238e8 <_strtol_r+0x100>
 80238e2:	b997      	cbnz	r7, 802390a <_strtol_r+0x122>
 80238e4:	9b02      	ldr	r3, [sp, #8]
 80238e6:	6013      	str	r3, [r2, #0]
 80238e8:	b005      	add	sp, #20
 80238ea:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 80238ee:	f04f 37ff 	mov.w	r7, #4294967295
 80238f2:	e7dd      	b.n	80238b0 <_strtol_r+0xc8>
 80238f4:	9903      	ldr	r1, [sp, #12]
 80238f6:	2b00      	cmp	r3, #0
 80238f8:	bf0c      	ite	eq
 80238fa:	f06f 4000 	mvneq.w	r0, #2147483648	; 0x80000000
 80238fe:	f04f 4000 	movne.w	r0, #2147483648	; 0x80000000
 8023902:	2322      	movs	r3, #34	; 0x22
 8023904:	600b      	str	r3, [r1, #0]
 8023906:	2a00      	cmp	r2, #0
 8023908:	d0ee      	beq.n	80238e8 <_strtol_r+0x100>
 802390a:	3c01      	subs	r4, #1
 802390c:	9402      	str	r4, [sp, #8]
 802390e:	e7e9      	b.n	80238e4 <_strtol_r+0xfc>
 8023910:	f1cc 0c00 	rsb	ip, ip, #0
 8023914:	e7e3      	b.n	80238de <_strtol_r+0xf6>
 8023916:	f814 5b01 	ldrb.w	r5, [r4], #1
 802391a:	2301      	movs	r3, #1
 802391c:	e786      	b.n	802382c <_strtol_r+0x44>
 802391e:	f04f 0910 	mov.w	r9, #16
 8023922:	7865      	ldrb	r5, [r4, #1]
 8023924:	46cb      	mov	fp, r9
 8023926:	3402      	adds	r4, #2
 8023928:	e797      	b.n	802385a <_strtol_r+0x72>
 802392a:	bf00      	nop

0802392c <strtol>:
 802392c:	b430      	push	{r4, r5}
 802392e:	f240 042c 	movw	r4, #44	; 0x2c
 8023932:	f2c2 0400 	movt	r4, #8192	; 0x2000
 8023936:	460d      	mov	r5, r1
 8023938:	4613      	mov	r3, r2
 802393a:	4601      	mov	r1, r0
 802393c:	462a      	mov	r2, r5
 802393e:	6820      	ldr	r0, [r4, #0]
 8023940:	bc30      	pop	{r4, r5}
 8023942:	f7ff bf51 	b.w	80237e8 <_strtol_r>
 8023946:	bf00      	nop

08023948 <_malloc_trim_r>:
 8023948:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 802394a:	f240 149c 	movw	r4, #412	; 0x19c
 802394e:	f2c2 0400 	movt	r4, #8192	; 0x2000
 8023952:	460f      	mov	r7, r1
 8023954:	4605      	mov	r5, r0
 8023956:	f001 f895 	bl	8024a84 <__malloc_lock>
 802395a:	68a3      	ldr	r3, [r4, #8]
 802395c:	685e      	ldr	r6, [r3, #4]
 802395e:	f026 0603 	bic.w	r6, r6, #3
 8023962:	f606 73ef 	addw	r3, r6, #4079	; 0xfef
 8023966:	1bdf      	subs	r7, r3, r7
 8023968:	0b3f      	lsrs	r7, r7, #12
 802396a:	3f01      	subs	r7, #1
 802396c:	033f      	lsls	r7, r7, #12
 802396e:	f5b7 5f80 	cmp.w	r7, #4096	; 0x1000
 8023972:	db07      	blt.n	8023984 <_malloc_trim_r+0x3c>
 8023974:	2100      	movs	r1, #0
 8023976:	4628      	mov	r0, r5
 8023978:	f001 fd10 	bl	802539c <_sbrk_r>
 802397c:	68a3      	ldr	r3, [r4, #8]
 802397e:	199b      	adds	r3, r3, r6
 8023980:	4298      	cmp	r0, r3
 8023982:	d004      	beq.n	802398e <_malloc_trim_r+0x46>
 8023984:	4628      	mov	r0, r5
 8023986:	f001 f87f 	bl	8024a88 <__malloc_unlock>
 802398a:	2000      	movs	r0, #0
 802398c:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 802398e:	4279      	negs	r1, r7
 8023990:	4628      	mov	r0, r5
 8023992:	f001 fd03 	bl	802539c <_sbrk_r>
 8023996:	3001      	adds	r0, #1
 8023998:	d010      	beq.n	80239bc <_malloc_trim_r+0x74>
 802399a:	f640 23d4 	movw	r3, #2772	; 0xad4
 802399e:	68a1      	ldr	r1, [r4, #8]
 80239a0:	f2c2 0300 	movt	r3, #8192	; 0x2000
 80239a4:	1bf6      	subs	r6, r6, r7
 80239a6:	4628      	mov	r0, r5
 80239a8:	f046 0601 	orr.w	r6, r6, #1
 80239ac:	681a      	ldr	r2, [r3, #0]
 80239ae:	604e      	str	r6, [r1, #4]
 80239b0:	1bd7      	subs	r7, r2, r7
 80239b2:	601f      	str	r7, [r3, #0]
 80239b4:	f001 f868 	bl	8024a88 <__malloc_unlock>
 80239b8:	2001      	movs	r0, #1
 80239ba:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 80239bc:	2100      	movs	r1, #0
 80239be:	4628      	mov	r0, r5
 80239c0:	f001 fcec 	bl	802539c <_sbrk_r>
 80239c4:	68a3      	ldr	r3, [r4, #8]
 80239c6:	1ac2      	subs	r2, r0, r3
 80239c8:	2a0f      	cmp	r2, #15
 80239ca:	dddb      	ble.n	8023984 <_malloc_trim_r+0x3c>
 80239cc:	f240 54a4 	movw	r4, #1444	; 0x5a4
 80239d0:	f640 21d4 	movw	r1, #2772	; 0xad4
 80239d4:	f2c2 0400 	movt	r4, #8192	; 0x2000
 80239d8:	f2c2 0100 	movt	r1, #8192	; 0x2000
 80239dc:	f042 0201 	orr.w	r2, r2, #1
 80239e0:	605a      	str	r2, [r3, #4]
 80239e2:	6823      	ldr	r3, [r4, #0]
 80239e4:	1ac0      	subs	r0, r0, r3
 80239e6:	6008      	str	r0, [r1, #0]
 80239e8:	e7cc      	b.n	8023984 <_malloc_trim_r+0x3c>
 80239ea:	bf00      	nop

080239ec <_free_r>:
 80239ec:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 80239f0:	460e      	mov	r6, r1
 80239f2:	4680      	mov	r8, r0
 80239f4:	2900      	cmp	r1, #0
 80239f6:	d05c      	beq.n	8023ab2 <_free_r+0xc6>
 80239f8:	f001 f844 	bl	8024a84 <__malloc_lock>
 80239fc:	f240 159c 	movw	r5, #412	; 0x19c
 8023a00:	f856 1c04 	ldr.w	r1, [r6, #-4]
 8023a04:	f2c2 0500 	movt	r5, #8192	; 0x2000
 8023a08:	f1a6 0408 	sub.w	r4, r6, #8
 8023a0c:	f021 0301 	bic.w	r3, r1, #1
 8023a10:	68af      	ldr	r7, [r5, #8]
 8023a12:	18e2      	adds	r2, r4, r3
 8023a14:	4297      	cmp	r7, r2
 8023a16:	6850      	ldr	r0, [r2, #4]
 8023a18:	f020 0003 	bic.w	r0, r0, #3
 8023a1c:	d067      	beq.n	8023aee <_free_r+0x102>
 8023a1e:	f011 0101 	ands.w	r1, r1, #1
 8023a22:	6050      	str	r0, [r2, #4]
 8023a24:	d035      	beq.n	8023a92 <_free_r+0xa6>
 8023a26:	2100      	movs	r1, #0
 8023a28:	1816      	adds	r6, r2, r0
 8023a2a:	6876      	ldr	r6, [r6, #4]
 8023a2c:	f016 0f01 	tst.w	r6, #1
 8023a30:	d106      	bne.n	8023a40 <_free_r+0x54>
 8023a32:	181b      	adds	r3, r3, r0
 8023a34:	6890      	ldr	r0, [r2, #8]
 8023a36:	2900      	cmp	r1, #0
 8023a38:	d04d      	beq.n	8023ad6 <_free_r+0xea>
 8023a3a:	68d2      	ldr	r2, [r2, #12]
 8023a3c:	60c2      	str	r2, [r0, #12]
 8023a3e:	6090      	str	r0, [r2, #8]
 8023a40:	f043 0201 	orr.w	r2, r3, #1
 8023a44:	50e3      	str	r3, [r4, r3]
 8023a46:	6062      	str	r2, [r4, #4]
 8023a48:	b9f1      	cbnz	r1, 8023a88 <_free_r+0x9c>
 8023a4a:	f5b3 7f00 	cmp.w	r3, #512	; 0x200
 8023a4e:	d332      	bcc.n	8023ab6 <_free_r+0xca>
 8023a50:	0a5a      	lsrs	r2, r3, #9
 8023a52:	2a04      	cmp	r2, #4
 8023a54:	d86c      	bhi.n	8023b30 <_free_r+0x144>
 8023a56:	0998      	lsrs	r0, r3, #6
 8023a58:	3038      	adds	r0, #56	; 0x38
 8023a5a:	0041      	lsls	r1, r0, #1
 8023a5c:	eb05 0581 	add.w	r5, r5, r1, lsl #2
 8023a60:	f240 119c 	movw	r1, #412	; 0x19c
 8023a64:	f2c2 0100 	movt	r1, #8192	; 0x2000
 8023a68:	68aa      	ldr	r2, [r5, #8]
 8023a6a:	42aa      	cmp	r2, r5
 8023a6c:	d06b      	beq.n	8023b46 <_free_r+0x15a>
 8023a6e:	6851      	ldr	r1, [r2, #4]
 8023a70:	f021 0103 	bic.w	r1, r1, #3
 8023a74:	428b      	cmp	r3, r1
 8023a76:	d202      	bcs.n	8023a7e <_free_r+0x92>
 8023a78:	6892      	ldr	r2, [r2, #8]
 8023a7a:	4295      	cmp	r5, r2
 8023a7c:	d1f7      	bne.n	8023a6e <_free_r+0x82>
 8023a7e:	68d3      	ldr	r3, [r2, #12]
 8023a80:	60e3      	str	r3, [r4, #12]
 8023a82:	60a2      	str	r2, [r4, #8]
 8023a84:	60d4      	str	r4, [r2, #12]
 8023a86:	609c      	str	r4, [r3, #8]
 8023a88:	4640      	mov	r0, r8
 8023a8a:	e8bd 41f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, lr}
 8023a8e:	f000 bffb 	b.w	8024a88 <__malloc_unlock>
 8023a92:	f856 6c08 	ldr.w	r6, [r6, #-8]
 8023a96:	f105 0c08 	add.w	ip, r5, #8
 8023a9a:	1ba4      	subs	r4, r4, r6
 8023a9c:	199b      	adds	r3, r3, r6
 8023a9e:	68a6      	ldr	r6, [r4, #8]
 8023aa0:	4566      	cmp	r6, ip
 8023aa2:	d043      	beq.n	8023b2c <_free_r+0x140>
 8023aa4:	f8d4 c00c 	ldr.w	ip, [r4, #12]
 8023aa8:	f8c6 c00c 	str.w	ip, [r6, #12]
 8023aac:	f8cc 6008 	str.w	r6, [ip, #8]
 8023ab0:	e7ba      	b.n	8023a28 <_free_r+0x3c>
 8023ab2:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 8023ab6:	08db      	lsrs	r3, r3, #3
 8023ab8:	2101      	movs	r1, #1
 8023aba:	6868      	ldr	r0, [r5, #4]
 8023abc:	eb05 02c3 	add.w	r2, r5, r3, lsl #3
 8023ac0:	109b      	asrs	r3, r3, #2
 8023ac2:	fa01 f303 	lsl.w	r3, r1, r3
 8023ac6:	60e2      	str	r2, [r4, #12]
 8023ac8:	6891      	ldr	r1, [r2, #8]
 8023aca:	4318      	orrs	r0, r3
 8023acc:	6068      	str	r0, [r5, #4]
 8023ace:	60a1      	str	r1, [r4, #8]
 8023ad0:	60cc      	str	r4, [r1, #12]
 8023ad2:	6094      	str	r4, [r2, #8]
 8023ad4:	e7d8      	b.n	8023a88 <_free_r+0x9c>
 8023ad6:	4e29      	ldr	r6, [pc, #164]	; (8023b7c <_free_r+0x190>)
 8023ad8:	42b0      	cmp	r0, r6
 8023ada:	d1ae      	bne.n	8023a3a <_free_r+0x4e>
 8023adc:	616c      	str	r4, [r5, #20]
 8023ade:	f043 0201 	orr.w	r2, r3, #1
 8023ae2:	612c      	str	r4, [r5, #16]
 8023ae4:	60e0      	str	r0, [r4, #12]
 8023ae6:	60a0      	str	r0, [r4, #8]
 8023ae8:	6062      	str	r2, [r4, #4]
 8023aea:	50e3      	str	r3, [r4, r3]
 8023aec:	e7cc      	b.n	8023a88 <_free_r+0x9c>
 8023aee:	18c0      	adds	r0, r0, r3
 8023af0:	07cb      	lsls	r3, r1, #31
 8023af2:	d407      	bmi.n	8023b04 <_free_r+0x118>
 8023af4:	f856 3c08 	ldr.w	r3, [r6, #-8]
 8023af8:	1ae4      	subs	r4, r4, r3
 8023afa:	18c0      	adds	r0, r0, r3
 8023afc:	68a2      	ldr	r2, [r4, #8]
 8023afe:	68e3      	ldr	r3, [r4, #12]
 8023b00:	60d3      	str	r3, [r2, #12]
 8023b02:	609a      	str	r2, [r3, #8]
 8023b04:	f240 52a8 	movw	r2, #1448	; 0x5a8
 8023b08:	f040 0301 	orr.w	r3, r0, #1
 8023b0c:	f2c2 0200 	movt	r2, #8192	; 0x2000
 8023b10:	6063      	str	r3, [r4, #4]
 8023b12:	60ac      	str	r4, [r5, #8]
 8023b14:	6813      	ldr	r3, [r2, #0]
 8023b16:	4298      	cmp	r0, r3
 8023b18:	d3b6      	bcc.n	8023a88 <_free_r+0x9c>
 8023b1a:	f640 23d0 	movw	r3, #2768	; 0xad0
 8023b1e:	4640      	mov	r0, r8
 8023b20:	f2c2 0300 	movt	r3, #8192	; 0x2000
 8023b24:	6819      	ldr	r1, [r3, #0]
 8023b26:	f7ff ff0f 	bl	8023948 <_malloc_trim_r>
 8023b2a:	e7ad      	b.n	8023a88 <_free_r+0x9c>
 8023b2c:	2101      	movs	r1, #1
 8023b2e:	e77b      	b.n	8023a28 <_free_r+0x3c>
 8023b30:	f102 005b 	add.w	r0, r2, #91	; 0x5b
 8023b34:	0041      	lsls	r1, r0, #1
 8023b36:	2a14      	cmp	r2, #20
 8023b38:	d990      	bls.n	8023a5c <_free_r+0x70>
 8023b3a:	2a54      	cmp	r2, #84	; 0x54
 8023b3c:	d80c      	bhi.n	8023b58 <_free_r+0x16c>
 8023b3e:	0b18      	lsrs	r0, r3, #12
 8023b40:	306e      	adds	r0, #110	; 0x6e
 8023b42:	0041      	lsls	r1, r0, #1
 8023b44:	e78a      	b.n	8023a5c <_free_r+0x70>
 8023b46:	2601      	movs	r6, #1
 8023b48:	684d      	ldr	r5, [r1, #4]
 8023b4a:	1080      	asrs	r0, r0, #2
 8023b4c:	4613      	mov	r3, r2
 8023b4e:	fa06 f000 	lsl.w	r0, r6, r0
 8023b52:	4305      	orrs	r5, r0
 8023b54:	604d      	str	r5, [r1, #4]
 8023b56:	e793      	b.n	8023a80 <_free_r+0x94>
 8023b58:	f5b2 7faa 	cmp.w	r2, #340	; 0x154
 8023b5c:	d803      	bhi.n	8023b66 <_free_r+0x17a>
 8023b5e:	0bd8      	lsrs	r0, r3, #15
 8023b60:	3077      	adds	r0, #119	; 0x77
 8023b62:	0041      	lsls	r1, r0, #1
 8023b64:	e77a      	b.n	8023a5c <_free_r+0x70>
 8023b66:	f240 5154 	movw	r1, #1364	; 0x554
 8023b6a:	428a      	cmp	r2, r1
 8023b6c:	d803      	bhi.n	8023b76 <_free_r+0x18a>
 8023b6e:	0c98      	lsrs	r0, r3, #18
 8023b70:	307c      	adds	r0, #124	; 0x7c
 8023b72:	0041      	lsls	r1, r0, #1
 8023b74:	e772      	b.n	8023a5c <_free_r+0x70>
 8023b76:	21fc      	movs	r1, #252	; 0xfc
 8023b78:	207e      	movs	r0, #126	; 0x7e
 8023b7a:	e76f      	b.n	8023a5c <_free_r+0x70>
 8023b7c:	200001a4 	.word	0x200001a4

08023b80 <rshift>:
 8023b80:	6902      	ldr	r2, [r0, #16]
 8023b82:	114b      	asrs	r3, r1, #5
 8023b84:	e92d 01f0 	stmdb	sp!, {r4, r5, r6, r7, r8}
 8023b88:	4293      	cmp	r3, r2
 8023b8a:	f100 0714 	add.w	r7, r0, #20
 8023b8e:	da2d      	bge.n	8023bec <rshift+0x6c>
 8023b90:	3304      	adds	r3, #4
 8023b92:	eb00 0282 	add.w	r2, r0, r2, lsl #2
 8023b96:	3214      	adds	r2, #20
 8023b98:	f011 011f 	ands.w	r1, r1, #31
 8023b9c:	eb00 0383 	add.w	r3, r0, r3, lsl #2
 8023ba0:	f103 0c04 	add.w	ip, r3, #4
 8023ba4:	d029      	beq.n	8023bfa <rshift+0x7a>
 8023ba6:	685c      	ldr	r4, [r3, #4]
 8023ba8:	f10c 0304 	add.w	r3, ip, #4
 8023bac:	429a      	cmp	r2, r3
 8023bae:	f1c1 0820 	rsb	r8, r1, #32
 8023bb2:	fa24 f401 	lsr.w	r4, r4, r1
 8023bb6:	d938      	bls.n	8023c2a <rshift+0xaa>
 8023bb8:	463d      	mov	r5, r7
 8023bba:	681e      	ldr	r6, [r3, #0]
 8023bbc:	fa06 f608 	lsl.w	r6, r6, r8
 8023bc0:	4334      	orrs	r4, r6
 8023bc2:	f845 4b04 	str.w	r4, [r5], #4
 8023bc6:	f853 4b04 	ldr.w	r4, [r3], #4
 8023bca:	429a      	cmp	r2, r3
 8023bcc:	fa24 f401 	lsr.w	r4, r4, r1
 8023bd0:	d8f3      	bhi.n	8023bba <rshift+0x3a>
 8023bd2:	ebcc 0302 	rsb	r3, ip, r2
 8023bd6:	3b05      	subs	r3, #5
 8023bd8:	f023 0303 	bic.w	r3, r3, #3
 8023bdc:	18c3      	adds	r3, r0, r3
 8023bde:	3318      	adds	r3, #24
 8023be0:	601c      	str	r4, [r3, #0]
 8023be2:	b1e4      	cbz	r4, 8023c1e <rshift+0x9e>
 8023be4:	3304      	adds	r3, #4
 8023be6:	1bdf      	subs	r7, r3, r7
 8023be8:	10bf      	asrs	r7, r7, #2
 8023bea:	e01a      	b.n	8023c22 <rshift+0xa2>
 8023bec:	2300      	movs	r3, #0
 8023bee:	6103      	str	r3, [r0, #16]
 8023bf0:	2300      	movs	r3, #0
 8023bf2:	6143      	str	r3, [r0, #20]
 8023bf4:	e8bd 01f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8}
 8023bf8:	4770      	bx	lr
 8023bfa:	4562      	cmp	r2, ip
 8023bfc:	bf84      	itt	hi
 8023bfe:	4663      	movhi	r3, ip
 8023c00:	4639      	movhi	r1, r7
 8023c02:	d9f3      	bls.n	8023bec <rshift+0x6c>
 8023c04:	f853 4b04 	ldr.w	r4, [r3], #4
 8023c08:	429a      	cmp	r2, r3
 8023c0a:	f841 4b04 	str.w	r4, [r1], #4
 8023c0e:	d8f9      	bhi.n	8023c04 <rshift+0x84>
 8023c10:	ea6f 030c 	mvn.w	r3, ip
 8023c14:	189b      	adds	r3, r3, r2
 8023c16:	f023 0303 	bic.w	r3, r3, #3
 8023c1a:	18c3      	adds	r3, r0, r3
 8023c1c:	3318      	adds	r3, #24
 8023c1e:	1bdf      	subs	r7, r3, r7
 8023c20:	10bf      	asrs	r7, r7, #2
 8023c22:	6107      	str	r7, [r0, #16]
 8023c24:	2f00      	cmp	r7, #0
 8023c26:	d1e5      	bne.n	8023bf4 <rshift+0x74>
 8023c28:	e7e2      	b.n	8023bf0 <rshift+0x70>
 8023c2a:	463b      	mov	r3, r7
 8023c2c:	e7d8      	b.n	8023be0 <rshift+0x60>
 8023c2e:	bf00      	nop

08023c30 <__hexdig_init>:
 8023c30:	f644 3014 	movw	r0, #19220	; 0x4b14
 8023c34:	f643 033c 	movw	r3, #14396	; 0x383c
 8023c38:	f6c0 0004 	movt	r0, #2052	; 0x804
 8023c3c:	2110      	movs	r1, #16
 8023c3e:	2230      	movs	r2, #48	; 0x30
 8023c40:	f2c2 0301 	movt	r3, #8193	; 0x2001
 8023c44:	5499      	strb	r1, [r3, r2]
 8023c46:	3101      	adds	r1, #1
 8023c48:	f810 2f01 	ldrb.w	r2, [r0, #1]!
 8023c4c:	b2c9      	uxtb	r1, r1
 8023c4e:	2a00      	cmp	r2, #0
 8023c50:	d1f8      	bne.n	8023c44 <__hexdig_init+0x14>
 8023c52:	f644 300c 	movw	r0, #19212	; 0x4b0c
 8023c56:	211a      	movs	r1, #26
 8023c58:	f6c0 0004 	movt	r0, #2052	; 0x804
 8023c5c:	2261      	movs	r2, #97	; 0x61
 8023c5e:	5499      	strb	r1, [r3, r2]
 8023c60:	3101      	adds	r1, #1
 8023c62:	f810 2f01 	ldrb.w	r2, [r0, #1]!
 8023c66:	b2c9      	uxtb	r1, r1
 8023c68:	2a00      	cmp	r2, #0
 8023c6a:	d1f8      	bne.n	8023c5e <__hexdig_init+0x2e>
 8023c6c:	f644 3004 	movw	r0, #19204	; 0x4b04
 8023c70:	211a      	movs	r1, #26
 8023c72:	f6c0 0004 	movt	r0, #2052	; 0x804
 8023c76:	2241      	movs	r2, #65	; 0x41
 8023c78:	5499      	strb	r1, [r3, r2]
 8023c7a:	3101      	adds	r1, #1
 8023c7c:	f810 2f01 	ldrb.w	r2, [r0, #1]!
 8023c80:	b2c9      	uxtb	r1, r1
 8023c82:	2a00      	cmp	r2, #0
 8023c84:	d1f8      	bne.n	8023c78 <__hexdig_init+0x48>
 8023c86:	4770      	bx	lr

08023c88 <__gethex>:
 8023c88:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8023c8c:	b08b      	sub	sp, #44	; 0x2c
 8023c8e:	4688      	mov	r8, r1
 8023c90:	f643 063c 	movw	r6, #14396	; 0x383c
 8023c94:	9206      	str	r2, [sp, #24]
 8023c96:	f2c2 0601 	movt	r6, #8193	; 0x2001
 8023c9a:	9309      	str	r3, [sp, #36]	; 0x24
 8023c9c:	9007      	str	r0, [sp, #28]
 8023c9e:	f000 fbb9 	bl	8024414 <_localeconv_r>
 8023ca2:	6800      	ldr	r0, [r0, #0]
 8023ca4:	9002      	str	r0, [sp, #8]
 8023ca6:	f7fe fa53 	bl	8022150 <strlen>
 8023caa:	9b02      	ldr	r3, [sp, #8]
 8023cac:	181a      	adds	r2, r3, r0
 8023cae:	f896 3030 	ldrb.w	r3, [r6, #48]	; 0x30
 8023cb2:	9003      	str	r0, [sp, #12]
 8023cb4:	f812 ac01 	ldrb.w	sl, [r2, #-1]
 8023cb8:	2b00      	cmp	r3, #0
 8023cba:	f000 810e 	beq.w	8023eda <__gethex+0x252>
 8023cbe:	f8d8 3000 	ldr.w	r3, [r8]
 8023cc2:	1c9d      	adds	r5, r3, #2
 8023cc4:	789a      	ldrb	r2, [r3, #2]
 8023cc6:	2a30      	cmp	r2, #48	; 0x30
 8023cc8:	f040 8200 	bne.w	80240cc <__gethex+0x444>
 8023ccc:	3303      	adds	r3, #3
 8023cce:	2700      	movs	r7, #0
 8023cd0:	461d      	mov	r5, r3
 8023cd2:	f813 2b01 	ldrb.w	r2, [r3], #1
 8023cd6:	3701      	adds	r7, #1
 8023cd8:	2a30      	cmp	r2, #48	; 0x30
 8023cda:	d0f9      	beq.n	8023cd0 <__gethex+0x48>
 8023cdc:	f816 b002 	ldrb.w	fp, [r6, r2]
 8023ce0:	f643 093c 	movw	r9, #14396	; 0x383c
 8023ce4:	f2c2 0901 	movt	r9, #8193	; 0x2001
 8023ce8:	f1bb 0f00 	cmp.w	fp, #0
 8023cec:	f000 80f8 	beq.w	8023ee0 <__gethex+0x258>
 8023cf0:	782b      	ldrb	r3, [r5, #0]
 8023cf2:	f04f 0b00 	mov.w	fp, #0
 8023cf6:	f819 4003 	ldrb.w	r4, [r9, r3]
 8023cfa:	2c00      	cmp	r4, #0
 8023cfc:	f000 8200 	beq.w	8024100 <__gethex+0x478>
 8023d00:	1c6a      	adds	r2, r5, #1
 8023d02:	4614      	mov	r4, r2
 8023d04:	3201      	adds	r2, #1
 8023d06:	7823      	ldrb	r3, [r4, #0]
 8023d08:	5cf3      	ldrb	r3, [r6, r3]
 8023d0a:	2b00      	cmp	r3, #0
 8023d0c:	d1f9      	bne.n	8023d02 <__gethex+0x7a>
 8023d0e:	4699      	mov	r9, r3
 8023d10:	4620      	mov	r0, r4
 8023d12:	9902      	ldr	r1, [sp, #8]
 8023d14:	9a03      	ldr	r2, [sp, #12]
 8023d16:	f7fe fa7d 	bl	8022214 <strncmp>
 8023d1a:	b1e8      	cbz	r0, 8023d58 <__gethex+0xd0>
 8023d1c:	7823      	ldrb	r3, [r4, #0]
 8023d1e:	f1bb 0f00 	cmp.w	fp, #0
 8023d22:	f000 81c1 	beq.w	80240a8 <__gethex+0x420>
 8023d26:	ebc4 0b0b 	rsb	fp, r4, fp
 8023d2a:	ea4f 028b 	mov.w	r2, fp, lsl #2
 8023d2e:	9205      	str	r2, [sp, #20]
 8023d30:	2b50      	cmp	r3, #80	; 0x50
 8023d32:	f000 809b 	beq.w	8023e6c <__gethex+0x1e4>
 8023d36:	2b70      	cmp	r3, #112	; 0x70
 8023d38:	f000 8098 	beq.w	8023e6c <__gethex+0x1e4>
 8023d3c:	4622      	mov	r2, r4
 8023d3e:	f8c8 2000 	str.w	r2, [r8]
 8023d42:	f1b9 0f00 	cmp.w	r9, #0
 8023d46:	d00d      	beq.n	8023d64 <__gethex+0xdc>
 8023d48:	2f00      	cmp	r7, #0
 8023d4a:	bf0c      	ite	eq
 8023d4c:	2706      	moveq	r7, #6
 8023d4e:	2700      	movne	r7, #0
 8023d50:	4638      	mov	r0, r7
 8023d52:	b00b      	add	sp, #44	; 0x2c
 8023d54:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8023d58:	f1bb 0f00 	cmp.w	fp, #0
 8023d5c:	f000 81be 	beq.w	80240dc <__gethex+0x454>
 8023d60:	7823      	ldrb	r3, [r4, #0]
 8023d62:	e7e0      	b.n	8023d26 <__gethex+0x9e>
 8023d64:	1b63      	subs	r3, r4, r5
 8023d66:	4649      	mov	r1, r9
 8023d68:	3b01      	subs	r3, #1
 8023d6a:	2b07      	cmp	r3, #7
 8023d6c:	dd03      	ble.n	8023d76 <__gethex+0xee>
 8023d6e:	105b      	asrs	r3, r3, #1
 8023d70:	3101      	adds	r1, #1
 8023d72:	2b07      	cmp	r3, #7
 8023d74:	dcfb      	bgt.n	8023d6e <__gethex+0xe6>
 8023d76:	9807      	ldr	r0, [sp, #28]
 8023d78:	f000 fe88 	bl	8024a8c <_Balloc>
 8023d7c:	42a5      	cmp	r5, r4
 8023d7e:	f100 0314 	add.w	r3, r0, #20
 8023d82:	9004      	str	r0, [sp, #16]
 8023d84:	9308      	str	r3, [sp, #32]
 8023d86:	f080 81db 	bcs.w	8024140 <__gethex+0x4b8>
 8023d8a:	469b      	mov	fp, r3
 8023d8c:	9b03      	ldr	r3, [sp, #12]
 8023d8e:	f04f 0800 	mov.w	r8, #0
 8023d92:	4647      	mov	r7, r8
 8023d94:	f1c3 0c01 	rsb	ip, r3, #1
 8023d98:	e00f      	b.n	8023dba <__gethex+0x132>
 8023d9a:	2f20      	cmp	r7, #32
 8023d9c:	d05f      	beq.n	8023e5e <__gethex+0x1d6>
 8023d9e:	463a      	mov	r2, r7
 8023da0:	3704      	adds	r7, #4
 8023da2:	f814 3c01 	ldrb.w	r3, [r4, #-1]
 8023da6:	464c      	mov	r4, r9
 8023da8:	42a5      	cmp	r5, r4
 8023daa:	5cf3      	ldrb	r3, [r6, r3]
 8023dac:	f003 030f 	and.w	r3, r3, #15
 8023db0:	fa03 f302 	lsl.w	r3, r3, r2
 8023db4:	ea48 0803 	orr.w	r8, r8, r3
 8023db8:	d219      	bcs.n	8023dee <__gethex+0x166>
 8023dba:	f814 3c01 	ldrb.w	r3, [r4, #-1]
 8023dbe:	f104 39ff 	add.w	r9, r4, #4294967295
 8023dc2:	4553      	cmp	r3, sl
 8023dc4:	d1e9      	bne.n	8023d9a <__gethex+0x112>
 8023dc6:	eb09 030c 	add.w	r3, r9, ip
 8023dca:	429d      	cmp	r5, r3
 8023dcc:	d8e5      	bhi.n	8023d9a <__gethex+0x112>
 8023dce:	4618      	mov	r0, r3
 8023dd0:	9902      	ldr	r1, [sp, #8]
 8023dd2:	9a03      	ldr	r2, [sp, #12]
 8023dd4:	9301      	str	r3, [sp, #4]
 8023dd6:	f8cd c000 	str.w	ip, [sp]
 8023dda:	f7fe fa1b 	bl	8022214 <strncmp>
 8023dde:	9b01      	ldr	r3, [sp, #4]
 8023de0:	f8dd c000 	ldr.w	ip, [sp]
 8023de4:	2800      	cmp	r0, #0
 8023de6:	d1d8      	bne.n	8023d9a <__gethex+0x112>
 8023de8:	461c      	mov	r4, r3
 8023dea:	42a5      	cmp	r5, r4
 8023dec:	d3e5      	bcc.n	8023dba <__gethex+0x132>
 8023dee:	9b08      	ldr	r3, [sp, #32]
 8023df0:	4640      	mov	r0, r8
 8023df2:	f84b 8b04 	str.w	r8, [fp], #4
 8023df6:	9904      	ldr	r1, [sp, #16]
 8023df8:	ebc3 0b0b 	rsb	fp, r3, fp
 8023dfc:	ea4f 03ab 	mov.w	r3, fp, asr #2
 8023e00:	610b      	str	r3, [r1, #16]
 8023e02:	015d      	lsls	r5, r3, #5
 8023e04:	f000 ff24 	bl	8024c50 <__hi0bits>
 8023e08:	9a06      	ldr	r2, [sp, #24]
 8023e0a:	6814      	ldr	r4, [r2, #0]
 8023e0c:	1a28      	subs	r0, r5, r0
 8023e0e:	42a0      	cmp	r0, r4
 8023e10:	f300 8125 	bgt.w	802405e <__gethex+0x3d6>
 8023e14:	f2c0 814b 	blt.w	80240ae <__gethex+0x426>
 8023e18:	2500      	movs	r5, #0
 8023e1a:	9806      	ldr	r0, [sp, #24]
 8023e1c:	9905      	ldr	r1, [sp, #20]
 8023e1e:	6883      	ldr	r3, [r0, #8]
 8023e20:	4299      	cmp	r1, r3
 8023e22:	f300 80f6 	bgt.w	8024012 <__gethex+0x38a>
 8023e26:	9806      	ldr	r0, [sp, #24]
 8023e28:	9905      	ldr	r1, [sp, #20]
 8023e2a:	6843      	ldr	r3, [r0, #4]
 8023e2c:	4299      	cmp	r1, r3
 8023e2e:	f280 8100 	bge.w	8024032 <__gethex+0x3aa>
 8023e32:	1a5e      	subs	r6, r3, r1
 8023e34:	42b4      	cmp	r4, r6
 8023e36:	dc76      	bgt.n	8023f26 <__gethex+0x29e>
 8023e38:	68c2      	ldr	r2, [r0, #12]
 8023e3a:	2a02      	cmp	r2, #2
 8023e3c:	f000 816f 	beq.w	802411e <__gethex+0x496>
 8023e40:	2a03      	cmp	r2, #3
 8023e42:	f000 8198 	beq.w	8024176 <__gethex+0x4ee>
 8023e46:	2a01      	cmp	r2, #1
 8023e48:	f000 8186 	beq.w	8024158 <__gethex+0x4d0>
 8023e4c:	9807      	ldr	r0, [sp, #28]
 8023e4e:	2750      	movs	r7, #80	; 0x50
 8023e50:	9904      	ldr	r1, [sp, #16]
 8023e52:	f000 fe51 	bl	8024af8 <_Bfree>
 8023e56:	9814      	ldr	r0, [sp, #80]	; 0x50
 8023e58:	2300      	movs	r3, #0
 8023e5a:	6003      	str	r3, [r0, #0]
 8023e5c:	e778      	b.n	8023d50 <__gethex+0xc8>
 8023e5e:	f84b 8b04 	str.w	r8, [fp], #4
 8023e62:	f04f 0800 	mov.w	r8, #0
 8023e66:	2704      	movs	r7, #4
 8023e68:	4642      	mov	r2, r8
 8023e6a:	e79a      	b.n	8023da2 <__gethex+0x11a>
 8023e6c:	7863      	ldrb	r3, [r4, #1]
 8023e6e:	2b2b      	cmp	r3, #43	; 0x2b
 8023e70:	f000 80f2 	beq.w	8024058 <__gethex+0x3d0>
 8023e74:	2b2d      	cmp	r3, #45	; 0x2d
 8023e76:	f000 80ea 	beq.w	802404e <__gethex+0x3c6>
 8023e7a:	1c60      	adds	r0, r4, #1
 8023e7c:	f04f 0b00 	mov.w	fp, #0
 8023e80:	5cf1      	ldrb	r1, [r6, r3]
 8023e82:	f643 033c 	movw	r3, #14396	; 0x383c
 8023e86:	f2c2 0301 	movt	r3, #8193	; 0x2001
 8023e8a:	2900      	cmp	r1, #0
 8023e8c:	f43f af56 	beq.w	8023d3c <__gethex+0xb4>
 8023e90:	2919      	cmp	r1, #25
 8023e92:	f73f af53 	bgt.w	8023d3c <__gethex+0xb4>
 8023e96:	f890 c001 	ldrb.w	ip, [r0, #1]
 8023e9a:	3910      	subs	r1, #16
 8023e9c:	1c42      	adds	r2, r0, #1
 8023e9e:	f813 300c 	ldrb.w	r3, [r3, ip]
 8023ea2:	b193      	cbz	r3, 8023eca <__gethex+0x242>
 8023ea4:	2b19      	cmp	r3, #25
 8023ea6:	dc10      	bgt.n	8023eca <__gethex+0x242>
 8023ea8:	3002      	adds	r0, #2
 8023eaa:	e001      	b.n	8023eb0 <__gethex+0x228>
 8023eac:	2b19      	cmp	r3, #25
 8023eae:	dc0c      	bgt.n	8023eca <__gethex+0x242>
 8023eb0:	4602      	mov	r2, r0
 8023eb2:	eb01 0181 	add.w	r1, r1, r1, lsl #2
 8023eb6:	3001      	adds	r0, #1
 8023eb8:	f892 c000 	ldrb.w	ip, [r2]
 8023ebc:	eb03 0141 	add.w	r1, r3, r1, lsl #1
 8023ec0:	3910      	subs	r1, #16
 8023ec2:	f816 300c 	ldrb.w	r3, [r6, ip]
 8023ec6:	2b00      	cmp	r3, #0
 8023ec8:	d1f0      	bne.n	8023eac <__gethex+0x224>
 8023eca:	f1bb 0f00 	cmp.w	fp, #0
 8023ece:	d000      	beq.n	8023ed2 <__gethex+0x24a>
 8023ed0:	4249      	negs	r1, r1
 8023ed2:	9b05      	ldr	r3, [sp, #20]
 8023ed4:	185b      	adds	r3, r3, r1
 8023ed6:	9305      	str	r3, [sp, #20]
 8023ed8:	e731      	b.n	8023d3e <__gethex+0xb6>
 8023eda:	f7ff fea9 	bl	8023c30 <__hexdig_init>
 8023ede:	e6ee      	b.n	8023cbe <__gethex+0x36>
 8023ee0:	4628      	mov	r0, r5
 8023ee2:	9902      	ldr	r1, [sp, #8]
 8023ee4:	9a03      	ldr	r2, [sp, #12]
 8023ee6:	f7fe f995 	bl	8022214 <strncmp>
 8023eea:	2800      	cmp	r0, #0
 8023eec:	f040 809a 	bne.w	8024024 <__gethex+0x39c>
 8023ef0:	9803      	ldr	r0, [sp, #12]
 8023ef2:	182c      	adds	r4, r5, r0
 8023ef4:	5c2b      	ldrb	r3, [r5, r0]
 8023ef6:	f819 2003 	ldrb.w	r2, [r9, r3]
 8023efa:	2a00      	cmp	r2, #0
 8023efc:	f000 80e8 	beq.w	80240d0 <__gethex+0x448>
 8023f00:	2b30      	cmp	r3, #48	; 0x30
 8023f02:	f040 8108 	bne.w	8024116 <__gethex+0x48e>
 8023f06:	1c63      	adds	r3, r4, #1
 8023f08:	461d      	mov	r5, r3
 8023f0a:	f813 2b01 	ldrb.w	r2, [r3], #1
 8023f0e:	2a30      	cmp	r2, #48	; 0x30
 8023f10:	d0fa      	beq.n	8023f08 <__gethex+0x280>
 8023f12:	5cb3      	ldrb	r3, [r6, r2]
 8023f14:	2b00      	cmp	r3, #0
 8023f16:	f040 80ff 	bne.w	8024118 <__gethex+0x490>
 8023f1a:	f04f 0901 	mov.w	r9, #1
 8023f1e:	46a3      	mov	fp, r4
 8023f20:	464f      	mov	r7, r9
 8023f22:	462c      	mov	r4, r5
 8023f24:	e6f4      	b.n	8023d10 <__gethex+0x88>
 8023f26:	1e77      	subs	r7, r6, #1
 8023f28:	2d00      	cmp	r5, #0
 8023f2a:	f040 80e7 	bne.w	80240fc <__gethex+0x474>
 8023f2e:	2f00      	cmp	r7, #0
 8023f30:	dd04      	ble.n	8023f3c <__gethex+0x2b4>
 8023f32:	9804      	ldr	r0, [sp, #16]
 8023f34:	4639      	mov	r1, r7
 8023f36:	f001 fa05 	bl	8025344 <__any_on>
 8023f3a:	4605      	mov	r5, r0
 8023f3c:	9908      	ldr	r1, [sp, #32]
 8023f3e:	117b      	asrs	r3, r7, #5
 8023f40:	2201      	movs	r2, #1
 8023f42:	f007 071f 	and.w	r7, r7, #31
 8023f46:	9804      	ldr	r0, [sp, #16]
 8023f48:	1ba4      	subs	r4, r4, r6
 8023f4a:	f851 3023 	ldr.w	r3, [r1, r3, lsl #2]
 8023f4e:	fa02 f207 	lsl.w	r2, r2, r7
 8023f52:	4631      	mov	r1, r6
 8023f54:	421a      	tst	r2, r3
 8023f56:	bf18      	it	ne
 8023f58:	f045 0502 	orrne.w	r5, r5, #2
 8023f5c:	f7ff fe10 	bl	8023b80 <rshift>
 8023f60:	9b06      	ldr	r3, [sp, #24]
 8023f62:	2702      	movs	r7, #2
 8023f64:	685b      	ldr	r3, [r3, #4]
 8023f66:	9305      	str	r3, [sp, #20]
 8023f68:	2d00      	cmp	r5, #0
 8023f6a:	d069      	beq.n	8024040 <__gethex+0x3b8>
 8023f6c:	9806      	ldr	r0, [sp, #24]
 8023f6e:	68c3      	ldr	r3, [r0, #12]
 8023f70:	2b02      	cmp	r3, #2
 8023f72:	f000 80ea 	beq.w	802414a <__gethex+0x4c2>
 8023f76:	2b03      	cmp	r3, #3
 8023f78:	d05d      	beq.n	8024036 <__gethex+0x3ae>
 8023f7a:	2b01      	cmp	r3, #1
 8023f7c:	d15e      	bne.n	802403c <__gethex+0x3b4>
 8023f7e:	07aa      	lsls	r2, r5, #30
 8023f80:	d55c      	bpl.n	802403c <__gethex+0x3b4>
 8023f82:	9908      	ldr	r1, [sp, #32]
 8023f84:	680b      	ldr	r3, [r1, #0]
 8023f86:	432b      	orrs	r3, r5
 8023f88:	07db      	lsls	r3, r3, #31
 8023f8a:	d557      	bpl.n	802403c <__gethex+0x3b4>
 8023f8c:	9b04      	ldr	r3, [sp, #16]
 8023f8e:	2600      	movs	r6, #0
 8023f90:	9904      	ldr	r1, [sp, #16]
 8023f92:	691d      	ldr	r5, [r3, #16]
 8023f94:	9b08      	ldr	r3, [sp, #32]
 8023f96:	eb01 0085 	add.w	r0, r1, r5, lsl #2
 8023f9a:	3014      	adds	r0, #20
 8023f9c:	4619      	mov	r1, r3
 8023f9e:	f853 2b04 	ldr.w	r2, [r3], #4
 8023fa2:	f1b2 3fff 	cmp.w	r2, #4294967295
 8023fa6:	f040 80eb 	bne.w	8024180 <__gethex+0x4f8>
 8023faa:	4298      	cmp	r0, r3
 8023fac:	f843 6c04 	str.w	r6, [r3, #-4]
 8023fb0:	d8f4      	bhi.n	8023f9c <__gethex+0x314>
 8023fb2:	9a04      	ldr	r2, [sp, #16]
 8023fb4:	6893      	ldr	r3, [r2, #8]
 8023fb6:	429d      	cmp	r5, r3
 8023fb8:	bfb8      	it	lt
 8023fba:	462b      	movlt	r3, r5
 8023fbc:	f280 80f9 	bge.w	80241b2 <__gethex+0x52a>
 8023fc0:	9904      	ldr	r1, [sp, #16]
 8023fc2:	eb01 0283 	add.w	r2, r1, r3, lsl #2
 8023fc6:	3301      	adds	r3, #1
 8023fc8:	610b      	str	r3, [r1, #16]
 8023fca:	2301      	movs	r3, #1
 8023fcc:	6153      	str	r3, [r2, #20]
 8023fce:	2f02      	cmp	r7, #2
 8023fd0:	f000 80d9 	beq.w	8024186 <__gethex+0x4fe>
 8023fd4:	9904      	ldr	r1, [sp, #16]
 8023fd6:	690b      	ldr	r3, [r1, #16]
 8023fd8:	429d      	cmp	r5, r3
 8023fda:	db0e      	blt.n	8023ffa <__gethex+0x372>
 8023fdc:	f014 041f 	ands.w	r4, r4, #31
 8023fe0:	f000 80ac 	beq.w	802413c <__gethex+0x4b4>
 8023fe4:	9b04      	ldr	r3, [sp, #16]
 8023fe6:	eb03 0585 	add.w	r5, r3, r5, lsl #2
 8023fea:	6928      	ldr	r0, [r5, #16]
 8023fec:	f000 fe30 	bl	8024c50 <__hi0bits>
 8023ff0:	f1c4 0320 	rsb	r3, r4, #32
 8023ff4:	4298      	cmp	r0, r3
 8023ff6:	f280 80a1 	bge.w	802413c <__gethex+0x4b4>
 8023ffa:	9804      	ldr	r0, [sp, #16]
 8023ffc:	2101      	movs	r1, #1
 8023ffe:	f7ff fdbf 	bl	8023b80 <rshift>
 8024002:	9a06      	ldr	r2, [sp, #24]
 8024004:	9805      	ldr	r0, [sp, #20]
 8024006:	6893      	ldr	r3, [r2, #8]
 8024008:	3001      	adds	r0, #1
 802400a:	9005      	str	r0, [sp, #20]
 802400c:	4298      	cmp	r0, r3
 802400e:	f340 8095 	ble.w	802413c <__gethex+0x4b4>
 8024012:	9807      	ldr	r0, [sp, #28]
 8024014:	27a3      	movs	r7, #163	; 0xa3
 8024016:	9904      	ldr	r1, [sp, #16]
 8024018:	f000 fd6e 	bl	8024af8 <_Bfree>
 802401c:	9a14      	ldr	r2, [sp, #80]	; 0x50
 802401e:	2300      	movs	r3, #0
 8024020:	6013      	str	r3, [r2, #0]
 8024022:	e695      	b.n	8023d50 <__gethex+0xc8>
 8024024:	782b      	ldrb	r3, [r5, #0]
 8024026:	462c      	mov	r4, r5
 8024028:	f8cd b014 	str.w	fp, [sp, #20]
 802402c:	f04f 0901 	mov.w	r9, #1
 8024030:	e67e      	b.n	8023d30 <__gethex+0xa8>
 8024032:	2701      	movs	r7, #1
 8024034:	e798      	b.n	8023f68 <__gethex+0x2e0>
 8024036:	9b15      	ldr	r3, [sp, #84]	; 0x54
 8024038:	2b00      	cmp	r3, #0
 802403a:	d1a7      	bne.n	8023f8c <__gethex+0x304>
 802403c:	f047 0710 	orr.w	r7, r7, #16
 8024040:	9b04      	ldr	r3, [sp, #16]
 8024042:	9814      	ldr	r0, [sp, #80]	; 0x50
 8024044:	6003      	str	r3, [r0, #0]
 8024046:	9b05      	ldr	r3, [sp, #20]
 8024048:	9809      	ldr	r0, [sp, #36]	; 0x24
 802404a:	6003      	str	r3, [r0, #0]
 802404c:	e680      	b.n	8023d50 <__gethex+0xc8>
 802404e:	f04f 0b01 	mov.w	fp, #1
 8024052:	78a3      	ldrb	r3, [r4, #2]
 8024054:	1ca0      	adds	r0, r4, #2
 8024056:	e713      	b.n	8023e80 <__gethex+0x1f8>
 8024058:	f04f 0b00 	mov.w	fp, #0
 802405c:	e7f9      	b.n	8024052 <__gethex+0x3ca>
 802405e:	1b06      	subs	r6, r0, r4
 8024060:	9804      	ldr	r0, [sp, #16]
 8024062:	4631      	mov	r1, r6
 8024064:	f001 f96e 	bl	8025344 <__any_on>
 8024068:	4605      	mov	r5, r0
 802406a:	b1a8      	cbz	r0, 8024098 <__gethex+0x410>
 802406c:	1e73      	subs	r3, r6, #1
 802406e:	9804      	ldr	r0, [sp, #16]
 8024070:	2501      	movs	r5, #1
 8024072:	f003 011f 	and.w	r1, r3, #31
 8024076:	115a      	asrs	r2, r3, #5
 8024078:	fa05 f101 	lsl.w	r1, r5, r1
 802407c:	eb00 0282 	add.w	r2, r0, r2, lsl #2
 8024080:	6952      	ldr	r2, [r2, #20]
 8024082:	4211      	tst	r1, r2
 8024084:	d008      	beq.n	8024098 <__gethex+0x410>
 8024086:	42ab      	cmp	r3, r5
 8024088:	dd05      	ble.n	8024096 <__gethex+0x40e>
 802408a:	9804      	ldr	r0, [sp, #16]
 802408c:	1eb1      	subs	r1, r6, #2
 802408e:	f001 f959 	bl	8025344 <__any_on>
 8024092:	2503      	movs	r5, #3
 8024094:	b900      	cbnz	r0, 8024098 <__gethex+0x410>
 8024096:	2502      	movs	r5, #2
 8024098:	9804      	ldr	r0, [sp, #16]
 802409a:	4631      	mov	r1, r6
 802409c:	f7ff fd70 	bl	8023b80 <rshift>
 80240a0:	9b05      	ldr	r3, [sp, #20]
 80240a2:	199b      	adds	r3, r3, r6
 80240a4:	9305      	str	r3, [sp, #20]
 80240a6:	e6b8      	b.n	8023e1a <__gethex+0x192>
 80240a8:	f8cd b014 	str.w	fp, [sp, #20]
 80240ac:	e640      	b.n	8023d30 <__gethex+0xa8>
 80240ae:	1a25      	subs	r5, r4, r0
 80240b0:	9904      	ldr	r1, [sp, #16]
 80240b2:	462a      	mov	r2, r5
 80240b4:	9807      	ldr	r0, [sp, #28]
 80240b6:	f000 ff11 	bl	8024edc <__lshift>
 80240ba:	9b05      	ldr	r3, [sp, #20]
 80240bc:	1b5b      	subs	r3, r3, r5
 80240be:	2500      	movs	r5, #0
 80240c0:	9305      	str	r3, [sp, #20]
 80240c2:	9004      	str	r0, [sp, #16]
 80240c4:	f100 0314 	add.w	r3, r0, #20
 80240c8:	9308      	str	r3, [sp, #32]
 80240ca:	e6a6      	b.n	8023e1a <__gethex+0x192>
 80240cc:	2700      	movs	r7, #0
 80240ce:	e605      	b.n	8023cdc <__gethex+0x54>
 80240d0:	9205      	str	r2, [sp, #20]
 80240d2:	f04f 0901 	mov.w	r9, #1
 80240d6:	e62b      	b.n	8023d30 <__gethex+0xa8>
 80240d8:	462c      	mov	r4, r5
 80240da:	4681      	mov	r9, r0
 80240dc:	9903      	ldr	r1, [sp, #12]
 80240de:	eb04 0b01 	add.w	fp, r4, r1
 80240e2:	5c63      	ldrb	r3, [r4, r1]
 80240e4:	5cf2      	ldrb	r2, [r6, r3]
 80240e6:	2a00      	cmp	r2, #0
 80240e8:	d07a      	beq.n	80241e0 <__gethex+0x558>
 80240ea:	f10b 0201 	add.w	r2, fp, #1
 80240ee:	4614      	mov	r4, r2
 80240f0:	f812 3b01 	ldrb.w	r3, [r2], #1
 80240f4:	5cf1      	ldrb	r1, [r6, r3]
 80240f6:	2900      	cmp	r1, #0
 80240f8:	d1f9      	bne.n	80240ee <__gethex+0x466>
 80240fa:	e614      	b.n	8023d26 <__gethex+0x9e>
 80240fc:	2501      	movs	r5, #1
 80240fe:	e71d      	b.n	8023f3c <__gethex+0x2b4>
 8024100:	4628      	mov	r0, r5
 8024102:	9902      	ldr	r1, [sp, #8]
 8024104:	9a03      	ldr	r2, [sp, #12]
 8024106:	f7fe f885 	bl	8022214 <strncmp>
 802410a:	2800      	cmp	r0, #0
 802410c:	d0e4      	beq.n	80240d8 <__gethex+0x450>
 802410e:	46a1      	mov	r9, r4
 8024110:	462c      	mov	r4, r5
 8024112:	46cb      	mov	fp, r9
 8024114:	e602      	b.n	8023d1c <__gethex+0x94>
 8024116:	4625      	mov	r5, r4
 8024118:	46a3      	mov	fp, r4
 802411a:	2701      	movs	r7, #1
 802411c:	e5f0      	b.n	8023d00 <__gethex+0x78>
 802411e:	9815      	ldr	r0, [sp, #84]	; 0x54
 8024120:	2800      	cmp	r0, #0
 8024122:	f47f ae93 	bne.w	8023e4c <__gethex+0x1c4>
 8024126:	9a09      	ldr	r2, [sp, #36]	; 0x24
 8024128:	2762      	movs	r7, #98	; 0x62
 802412a:	9804      	ldr	r0, [sp, #16]
 802412c:	9908      	ldr	r1, [sp, #32]
 802412e:	6013      	str	r3, [r2, #0]
 8024130:	2301      	movs	r3, #1
 8024132:	9a14      	ldr	r2, [sp, #80]	; 0x50
 8024134:	6103      	str	r3, [r0, #16]
 8024136:	600b      	str	r3, [r1, #0]
 8024138:	6010      	str	r0, [r2, #0]
 802413a:	e609      	b.n	8023d50 <__gethex+0xc8>
 802413c:	2721      	movs	r7, #33	; 0x21
 802413e:	e77f      	b.n	8024040 <__gethex+0x3b8>
 8024140:	f8dd b020 	ldr.w	fp, [sp, #32]
 8024144:	f04f 0800 	mov.w	r8, #0
 8024148:	e651      	b.n	8023dee <__gethex+0x166>
 802414a:	9a15      	ldr	r2, [sp, #84]	; 0x54
 802414c:	f1c2 0301 	rsb	r3, r2, #1
 8024150:	2b00      	cmp	r3, #0
 8024152:	f43f af73 	beq.w	802403c <__gethex+0x3b4>
 8024156:	e719      	b.n	8023f8c <__gethex+0x304>
 8024158:	42a6      	cmp	r6, r4
 802415a:	f47f ae77 	bne.w	8023e4c <__gethex+0x1c4>
 802415e:	2c01      	cmp	r4, #1
 8024160:	dde1      	ble.n	8024126 <__gethex+0x49e>
 8024162:	9804      	ldr	r0, [sp, #16]
 8024164:	1e61      	subs	r1, r4, #1
 8024166:	f001 f8ed 	bl	8025344 <__any_on>
 802416a:	2800      	cmp	r0, #0
 802416c:	f43f ae6e 	beq.w	8023e4c <__gethex+0x1c4>
 8024170:	9a06      	ldr	r2, [sp, #24]
 8024172:	6853      	ldr	r3, [r2, #4]
 8024174:	e7d7      	b.n	8024126 <__gethex+0x49e>
 8024176:	9915      	ldr	r1, [sp, #84]	; 0x54
 8024178:	2900      	cmp	r1, #0
 802417a:	f43f ae67 	beq.w	8023e4c <__gethex+0x1c4>
 802417e:	e7d2      	b.n	8024126 <__gethex+0x49e>
 8024180:	3201      	adds	r2, #1
 8024182:	600a      	str	r2, [r1, #0]
 8024184:	e723      	b.n	8023fce <__gethex+0x346>
 8024186:	9a06      	ldr	r2, [sp, #24]
 8024188:	2722      	movs	r7, #34	; 0x22
 802418a:	6813      	ldr	r3, [r2, #0]
 802418c:	3b01      	subs	r3, #1
 802418e:	42a3      	cmp	r3, r4
 8024190:	f47f af56 	bne.w	8024040 <__gethex+0x3b8>
 8024194:	1163      	asrs	r3, r4, #5
 8024196:	9804      	ldr	r0, [sp, #16]
 8024198:	2201      	movs	r2, #1
 802419a:	f004 041f 	and.w	r4, r4, #31
 802419e:	eb00 0383 	add.w	r3, r0, r3, lsl #2
 80241a2:	fa02 f204 	lsl.w	r2, r2, r4
 80241a6:	695b      	ldr	r3, [r3, #20]
 80241a8:	421a      	tst	r2, r3
 80241aa:	bf14      	ite	ne
 80241ac:	2721      	movne	r7, #33	; 0x21
 80241ae:	2722      	moveq	r7, #34	; 0x22
 80241b0:	e746      	b.n	8024040 <__gethex+0x3b8>
 80241b2:	6851      	ldr	r1, [r2, #4]
 80241b4:	9807      	ldr	r0, [sp, #28]
 80241b6:	3101      	adds	r1, #1
 80241b8:	f000 fc68 	bl	8024a8c <_Balloc>
 80241bc:	4606      	mov	r6, r0
 80241be:	9804      	ldr	r0, [sp, #16]
 80241c0:	f100 010c 	add.w	r1, r0, #12
 80241c4:	6903      	ldr	r3, [r0, #16]
 80241c6:	f106 000c 	add.w	r0, r6, #12
 80241ca:	1c9a      	adds	r2, r3, #2
 80241cc:	0092      	lsls	r2, r2, #2
 80241ce:	f7fd fd2d 	bl	8021c2c <memcpy>
 80241d2:	9904      	ldr	r1, [sp, #16]
 80241d4:	9807      	ldr	r0, [sp, #28]
 80241d6:	9604      	str	r6, [sp, #16]
 80241d8:	f000 fc8e 	bl	8024af8 <_Bfree>
 80241dc:	6933      	ldr	r3, [r6, #16]
 80241de:	e6ef      	b.n	8023fc0 <__gethex+0x338>
 80241e0:	465c      	mov	r4, fp
 80241e2:	e5a0      	b.n	8023d26 <__gethex+0x9e>

080241e4 <__hexnan>:
 80241e4:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 80241e8:	f643 083c 	movw	r8, #14396	; 0x383c
 80241ec:	f2c2 0801 	movt	r8, #8193	; 0x2001
 80241f0:	b085      	sub	sp, #20
 80241f2:	460c      	mov	r4, r1
 80241f4:	4692      	mov	sl, r2
 80241f6:	f898 3030 	ldrb.w	r3, [r8, #48]	; 0x30
 80241fa:	9002      	str	r0, [sp, #8]
 80241fc:	2b00      	cmp	r3, #0
 80241fe:	f000 80ad 	beq.w	802435c <__hexnan+0x178>
 8024202:	6823      	ldr	r3, [r4, #0]
 8024204:	115a      	asrs	r2, r3, #5
 8024206:	f013 031f 	ands.w	r3, r3, #31
 802420a:	9303      	str	r3, [sp, #12]
 802420c:	eb0a 0282 	add.w	r2, sl, r2, lsl #2
 8024210:	9200      	str	r2, [sp, #0]
 8024212:	d001      	beq.n	8024218 <__hexnan+0x34>
 8024214:	3204      	adds	r2, #4
 8024216:	9200      	str	r2, [sp, #0]
 8024218:	9a00      	ldr	r2, [sp, #0]
 802421a:	2300      	movs	r3, #0
 802421c:	4699      	mov	r9, r3
 802421e:	9900      	ldr	r1, [sp, #0]
 8024220:	46cb      	mov	fp, r9
 8024222:	464e      	mov	r6, r9
 8024224:	f842 3c04 	str.w	r3, [r2, #-4]
 8024228:	3904      	subs	r1, #4
 802422a:	9b02      	ldr	r3, [sp, #8]
 802422c:	9101      	str	r1, [sp, #4]
 802422e:	f8dd c004 	ldr.w	ip, [sp, #4]
 8024232:	6819      	ldr	r1, [r3, #0]
 8024234:	4664      	mov	r4, ip
 8024236:	784b      	ldrb	r3, [r1, #1]
 8024238:	2b00      	cmp	r3, #0
 802423a:	d033      	beq.n	80242a4 <__hexnan+0xc0>
 802423c:	f818 2003 	ldrb.w	r2, [r8, r3]
 8024240:	2a00      	cmp	r2, #0
 8024242:	d16f      	bne.n	8024324 <__hexnan+0x140>
 8024244:	2b20      	cmp	r3, #32
 8024246:	f200 8083 	bhi.w	8024350 <__hexnan+0x16c>
 802424a:	455e      	cmp	r6, fp
 802424c:	dd26      	ble.n	802429c <__hexnan+0xb8>
 802424e:	f1b9 0f07 	cmp.w	r9, #7
 8024252:	bfcc      	ite	gt
 8024254:	2300      	movgt	r3, #0
 8024256:	2301      	movle	r3, #1
 8024258:	4564      	cmp	r4, ip
 802425a:	bf28      	it	cs
 802425c:	2300      	movcs	r3, #0
 802425e:	b193      	cbz	r3, 8024286 <__hexnan+0xa2>
 8024260:	f1c9 0908 	rsb	r9, r9, #8
 8024264:	6822      	ldr	r2, [r4, #0]
 8024266:	4623      	mov	r3, r4
 8024268:	ea4f 0989 	mov.w	r9, r9, lsl #2
 802426c:	f1c9 0720 	rsb	r7, r9, #32
 8024270:	6858      	ldr	r0, [r3, #4]
 8024272:	fa00 f507 	lsl.w	r5, r0, r7
 8024276:	4315      	orrs	r5, r2
 8024278:	fa20 f209 	lsr.w	r2, r0, r9
 802427c:	601d      	str	r5, [r3, #0]
 802427e:	f843 2f04 	str.w	r2, [r3, #4]!
 8024282:	459c      	cmp	ip, r3
 8024284:	d8f4      	bhi.n	8024270 <__hexnan+0x8c>
 8024286:	4554      	cmp	r4, sl
 8024288:	bf98      	it	ls
 802428a:	f04f 0908 	movls.w	r9, #8
 802428e:	d905      	bls.n	802429c <__hexnan+0xb8>
 8024290:	2200      	movs	r2, #0
 8024292:	3c04      	subs	r4, #4
 8024294:	6022      	str	r2, [r4, #0]
 8024296:	46b3      	mov	fp, r6
 8024298:	46a4      	mov	ip, r4
 802429a:	4691      	mov	r9, r2
 802429c:	3101      	adds	r1, #1
 802429e:	784b      	ldrb	r3, [r1, #1]
 80242a0:	2b00      	cmp	r3, #0
 80242a2:	d1cb      	bne.n	802423c <__hexnan+0x58>
 80242a4:	2e00      	cmp	r6, #0
 80242a6:	d055      	beq.n	8024354 <__hexnan+0x170>
 80242a8:	f1b9 0f07 	cmp.w	r9, #7
 80242ac:	bfcc      	ite	gt
 80242ae:	2300      	movgt	r3, #0
 80242b0:	2301      	movle	r3, #1
 80242b2:	4564      	cmp	r4, ip
 80242b4:	bf28      	it	cs
 80242b6:	2300      	movcs	r3, #0
 80242b8:	b193      	cbz	r3, 80242e0 <__hexnan+0xfc>
 80242ba:	f1c9 0908 	rsb	r9, r9, #8
 80242be:	6822      	ldr	r2, [r4, #0]
 80242c0:	4623      	mov	r3, r4
 80242c2:	ea4f 0989 	mov.w	r9, r9, lsl #2
 80242c6:	f1c9 0520 	rsb	r5, r9, #32
 80242ca:	6859      	ldr	r1, [r3, #4]
 80242cc:	fa01 f005 	lsl.w	r0, r1, r5
 80242d0:	4310      	orrs	r0, r2
 80242d2:	fa21 f209 	lsr.w	r2, r1, r9
 80242d6:	6018      	str	r0, [r3, #0]
 80242d8:	f843 2f04 	str.w	r2, [r3, #4]!
 80242dc:	4563      	cmp	r3, ip
 80242de:	d3f4      	bcc.n	80242ca <__hexnan+0xe6>
 80242e0:	45a2      	cmp	sl, r4
 80242e2:	d23e      	bcs.n	8024362 <__hexnan+0x17e>
 80242e4:	9801      	ldr	r0, [sp, #4]
 80242e6:	4652      	mov	r2, sl
 80242e8:	f854 1b04 	ldr.w	r1, [r4], #4
 80242ec:	4613      	mov	r3, r2
 80242ee:	42a0      	cmp	r0, r4
 80242f0:	f843 1b04 	str.w	r1, [r3], #4
 80242f4:	461a      	mov	r2, r3
 80242f6:	d2f7      	bcs.n	80242e8 <__hexnan+0x104>
 80242f8:	9901      	ldr	r1, [sp, #4]
 80242fa:	2200      	movs	r2, #0
 80242fc:	f843 2b04 	str.w	r2, [r3], #4
 8024300:	4299      	cmp	r1, r3
 8024302:	d2fb      	bcs.n	80242fc <__hexnan+0x118>
 8024304:	9900      	ldr	r1, [sp, #0]
 8024306:	f851 3c04 	ldr.w	r3, [r1, #-4]
 802430a:	b94b      	cbnz	r3, 8024320 <__hexnan+0x13c>
 802430c:	9b01      	ldr	r3, [sp, #4]
 802430e:	459a      	cmp	sl, r3
 8024310:	d102      	bne.n	8024318 <__hexnan+0x134>
 8024312:	e038      	b.n	8024386 <__hexnan+0x1a2>
 8024314:	459a      	cmp	sl, r3
 8024316:	d037      	beq.n	8024388 <__hexnan+0x1a4>
 8024318:	f853 2d04 	ldr.w	r2, [r3, #-4]!
 802431c:	2a00      	cmp	r2, #0
 802431e:	d0f9      	beq.n	8024314 <__hexnan+0x130>
 8024320:	2005      	movs	r0, #5
 8024322:	e018      	b.n	8024356 <__hexnan+0x172>
 8024324:	f109 0901 	add.w	r9, r9, #1
 8024328:	3601      	adds	r6, #1
 802432a:	f1b9 0f08 	cmp.w	r9, #8
 802432e:	dc07      	bgt.n	8024340 <__hexnan+0x15c>
 8024330:	6823      	ldr	r3, [r4, #0]
 8024332:	011b      	lsls	r3, r3, #4
 8024334:	f002 020f 	and.w	r2, r2, #15
 8024338:	3101      	adds	r1, #1
 802433a:	431a      	orrs	r2, r3
 802433c:	6022      	str	r2, [r4, #0]
 802433e:	e7ae      	b.n	802429e <__hexnan+0xba>
 8024340:	4554      	cmp	r4, sl
 8024342:	d9ab      	bls.n	802429c <__hexnan+0xb8>
 8024344:	2300      	movs	r3, #0
 8024346:	3c04      	subs	r4, #4
 8024348:	6023      	str	r3, [r4, #0]
 802434a:	f04f 0901 	mov.w	r9, #1
 802434e:	e7f1      	b.n	8024334 <__hexnan+0x150>
 8024350:	2b29      	cmp	r3, #41	; 0x29
 8024352:	d01d      	beq.n	8024390 <__hexnan+0x1ac>
 8024354:	2004      	movs	r0, #4
 8024356:	b005      	add	sp, #20
 8024358:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 802435c:	f7ff fc68 	bl	8023c30 <__hexdig_init>
 8024360:	e74f      	b.n	8024202 <__hexnan+0x1e>
 8024362:	9a03      	ldr	r2, [sp, #12]
 8024364:	2a00      	cmp	r2, #0
 8024366:	d0cd      	beq.n	8024304 <__hexnan+0x120>
 8024368:	9a00      	ldr	r2, [sp, #0]
 802436a:	9903      	ldr	r1, [sp, #12]
 802436c:	f852 3c04 	ldr.w	r3, [r2, #-4]
 8024370:	f1c1 0220 	rsb	r2, r1, #32
 8024374:	f04f 31ff 	mov.w	r1, #4294967295
 8024378:	fa21 f202 	lsr.w	r2, r1, r2
 802437c:	4013      	ands	r3, r2
 802437e:	9a00      	ldr	r2, [sp, #0]
 8024380:	f842 3c04 	str.w	r3, [r2, #-4]
 8024384:	e7c1      	b.n	802430a <__hexnan+0x126>
 8024386:	4653      	mov	r3, sl
 8024388:	2201      	movs	r2, #1
 802438a:	2005      	movs	r0, #5
 802438c:	601a      	str	r2, [r3, #0]
 802438e:	e7e2      	b.n	8024356 <__hexnan+0x172>
 8024390:	9b02      	ldr	r3, [sp, #8]
 8024392:	3102      	adds	r1, #2
 8024394:	6019      	str	r1, [r3, #0]
 8024396:	2e00      	cmp	r6, #0
 8024398:	d186      	bne.n	80242a8 <__hexnan+0xc4>
 802439a:	e7db      	b.n	8024354 <__hexnan+0x170>

0802439c <_setlocale_r>:
 802439c:	b510      	push	{r4, lr}
 802439e:	4614      	mov	r4, r2
 80243a0:	b13a      	cbz	r2, 80243b2 <_setlocale_r+0x16>
 80243a2:	f644 3124 	movw	r1, #19236	; 0x4b24
 80243a6:	4610      	mov	r0, r2
 80243a8:	f6c0 0104 	movt	r1, #2052	; 0x804
 80243ac:	f7fd fd84 	bl	8021eb8 <strcmp>
 80243b0:	b920      	cbnz	r0, 80243bc <_setlocale_r+0x20>
 80243b2:	f644 3020 	movw	r0, #19232	; 0x4b20
 80243b6:	f6c0 0004 	movt	r0, #2052	; 0x804
 80243ba:	bd10      	pop	{r4, pc}
 80243bc:	f644 3120 	movw	r1, #19232	; 0x4b20
 80243c0:	4620      	mov	r0, r4
 80243c2:	f6c0 0104 	movt	r1, #2052	; 0x804
 80243c6:	f7fd fd77 	bl	8021eb8 <strcmp>
 80243ca:	2800      	cmp	r0, #0
 80243cc:	d0f1      	beq.n	80243b2 <_setlocale_r+0x16>
 80243ce:	f644 312c 	movw	r1, #19244	; 0x4b2c
 80243d2:	4620      	mov	r0, r4
 80243d4:	f6c0 0104 	movt	r1, #2052	; 0x804
 80243d8:	f7fd fd6e 	bl	8021eb8 <strcmp>
 80243dc:	f644 3320 	movw	r3, #19232	; 0x4b20
 80243e0:	f6c0 0304 	movt	r3, #2052	; 0x804
 80243e4:	2800      	cmp	r0, #0
 80243e6:	bf0c      	ite	eq
 80243e8:	4618      	moveq	r0, r3
 80243ea:	2000      	movne	r0, #0
 80243ec:	bd10      	pop	{r4, pc}
 80243ee:	bf00      	nop

080243f0 <__locale_charset>:
 80243f0:	f240 1020 	movw	r0, #288	; 0x120
 80243f4:	f2c2 0000 	movt	r0, #8192	; 0x2000
 80243f8:	4770      	bx	lr
 80243fa:	bf00      	nop

080243fc <__locale_mb_cur_max>:
 80243fc:	f240 1320 	movw	r3, #288	; 0x120
 8024400:	f2c2 0300 	movt	r3, #8192	; 0x2000
 8024404:	6a18      	ldr	r0, [r3, #32]
 8024406:	4770      	bx	lr

08024408 <__locale_msgcharset>:
 8024408:	4800      	ldr	r0, [pc, #0]	; (802440c <__locale_msgcharset+0x4>)
 802440a:	4770      	bx	lr
 802440c:	20000144 	.word	0x20000144

08024410 <__locale_cjk_lang>:
 8024410:	2000      	movs	r0, #0
 8024412:	4770      	bx	lr

08024414 <_localeconv_r>:
 8024414:	4800      	ldr	r0, [pc, #0]	; (8024418 <_localeconv_r+0x4>)
 8024416:	4770      	bx	lr
 8024418:	20000164 	.word	0x20000164

0802441c <setlocale>:
 802441c:	f240 032c 	movw	r3, #44	; 0x2c
 8024420:	460a      	mov	r2, r1
 8024422:	f2c2 0300 	movt	r3, #8192	; 0x2000
 8024426:	4601      	mov	r1, r0
 8024428:	6818      	ldr	r0, [r3, #0]
 802442a:	f7ff bfb7 	b.w	802439c <_setlocale_r>
 802442e:	bf00      	nop

08024430 <localeconv>:
 8024430:	4800      	ldr	r0, [pc, #0]	; (8024434 <localeconv+0x4>)
 8024432:	4770      	bx	lr
 8024434:	20000164 	.word	0x20000164

08024438 <malloc>:
 8024438:	f240 032c 	movw	r3, #44	; 0x2c
 802443c:	4601      	mov	r1, r0
 802443e:	f2c2 0300 	movt	r3, #8192	; 0x2000
 8024442:	6818      	ldr	r0, [r3, #0]
 8024444:	f000 b808 	b.w	8024458 <_malloc_r>

08024448 <free>:
 8024448:	f240 032c 	movw	r3, #44	; 0x2c
 802444c:	4601      	mov	r1, r0
 802444e:	f2c2 0300 	movt	r3, #8192	; 0x2000
 8024452:	6818      	ldr	r0, [r3, #0]
 8024454:	f7ff baca 	b.w	80239ec <_free_r>

08024458 <_malloc_r>:
 8024458:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 802445c:	f101 040b 	add.w	r4, r1, #11
 8024460:	2c16      	cmp	r4, #22
 8024462:	b083      	sub	sp, #12
 8024464:	4607      	mov	r7, r0
 8024466:	d930      	bls.n	80244ca <_malloc_r+0x72>
 8024468:	f024 0407 	bic.w	r4, r4, #7
 802446c:	0fe3      	lsrs	r3, r4, #31
 802446e:	428c      	cmp	r4, r1
 8024470:	bf2c      	ite	cs
 8024472:	4619      	movcs	r1, r3
 8024474:	f043 0101 	orrcc.w	r1, r3, #1
 8024478:	2900      	cmp	r1, #0
 802447a:	d12f      	bne.n	80244dc <_malloc_r+0x84>
 802447c:	4638      	mov	r0, r7
 802447e:	f000 fb01 	bl	8024a84 <__malloc_lock>
 8024482:	f5b4 7ffc 	cmp.w	r4, #504	; 0x1f8
 8024486:	d22e      	bcs.n	80244e6 <_malloc_r+0x8e>
 8024488:	ea4f 0cd4 	mov.w	ip, r4, lsr #3
 802448c:	f240 169c 	movw	r6, #412	; 0x19c
 8024490:	f2c2 0600 	movt	r6, #8192	; 0x2000
 8024494:	eb06 02cc 	add.w	r2, r6, ip, lsl #3
 8024498:	68d3      	ldr	r3, [r2, #12]
 802449a:	4293      	cmp	r3, r2
 802449c:	f000 8211 	beq.w	80248c2 <_malloc_r+0x46a>
 80244a0:	6859      	ldr	r1, [r3, #4]
 80244a2:	f103 0808 	add.w	r8, r3, #8
 80244a6:	68da      	ldr	r2, [r3, #12]
 80244a8:	4638      	mov	r0, r7
 80244aa:	f021 0403 	bic.w	r4, r1, #3
 80244ae:	6899      	ldr	r1, [r3, #8]
 80244b0:	191b      	adds	r3, r3, r4
 80244b2:	685c      	ldr	r4, [r3, #4]
 80244b4:	60ca      	str	r2, [r1, #12]
 80244b6:	f044 0401 	orr.w	r4, r4, #1
 80244ba:	6091      	str	r1, [r2, #8]
 80244bc:	605c      	str	r4, [r3, #4]
 80244be:	f000 fae3 	bl	8024a88 <__malloc_unlock>
 80244c2:	4640      	mov	r0, r8
 80244c4:	b003      	add	sp, #12
 80244c6:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 80244ca:	2300      	movs	r3, #0
 80244cc:	2410      	movs	r4, #16
 80244ce:	428c      	cmp	r4, r1
 80244d0:	bf2c      	ite	cs
 80244d2:	4619      	movcs	r1, r3
 80244d4:	f043 0101 	orrcc.w	r1, r3, #1
 80244d8:	2900      	cmp	r1, #0
 80244da:	d0cf      	beq.n	802447c <_malloc_r+0x24>
 80244dc:	230c      	movs	r3, #12
 80244de:	f04f 0800 	mov.w	r8, #0
 80244e2:	603b      	str	r3, [r7, #0]
 80244e4:	e7ed      	b.n	80244c2 <_malloc_r+0x6a>
 80244e6:	ea5f 2c54 	movs.w	ip, r4, lsr #9
 80244ea:	bf04      	itt	eq
 80244ec:	ea4f 0cd4 	moveq.w	ip, r4, lsr #3
 80244f0:	ea4f 054c 	moveq.w	r5, ip, lsl #1
 80244f4:	f040 808f 	bne.w	8024616 <_malloc_r+0x1be>
 80244f8:	f240 169c 	movw	r6, #412	; 0x19c
 80244fc:	f2c2 0600 	movt	r6, #8192	; 0x2000
 8024500:	eb06 0585 	add.w	r5, r6, r5, lsl #2
 8024504:	68eb      	ldr	r3, [r5, #12]
 8024506:	429d      	cmp	r5, r3
 8024508:	d106      	bne.n	8024518 <_malloc_r+0xc0>
 802450a:	e00d      	b.n	8024528 <_malloc_r+0xd0>
 802450c:	2a00      	cmp	r2, #0
 802450e:	f280 8155 	bge.w	80247bc <_malloc_r+0x364>
 8024512:	68db      	ldr	r3, [r3, #12]
 8024514:	429d      	cmp	r5, r3
 8024516:	d007      	beq.n	8024528 <_malloc_r+0xd0>
 8024518:	6859      	ldr	r1, [r3, #4]
 802451a:	f021 0103 	bic.w	r1, r1, #3
 802451e:	1b0a      	subs	r2, r1, r4
 8024520:	2a0f      	cmp	r2, #15
 8024522:	ddf3      	ble.n	802450c <_malloc_r+0xb4>
 8024524:	f10c 3cff 	add.w	ip, ip, #4294967295
 8024528:	f10c 0c01 	add.w	ip, ip, #1
 802452c:	f240 129c 	movw	r2, #412	; 0x19c
 8024530:	6933      	ldr	r3, [r6, #16]
 8024532:	f2c2 0200 	movt	r2, #8192	; 0x2000
 8024536:	f102 0e08 	add.w	lr, r2, #8
 802453a:	4573      	cmp	r3, lr
 802453c:	bf08      	it	eq
 802453e:	f8d2 9004 	ldreq.w	r9, [r2, #4]
 8024542:	d022      	beq.n	802458a <_malloc_r+0x132>
 8024544:	6858      	ldr	r0, [r3, #4]
 8024546:	f020 0003 	bic.w	r0, r0, #3
 802454a:	1b01      	subs	r1, r0, r4
 802454c:	290f      	cmp	r1, #15
 802454e:	f300 8184 	bgt.w	802485a <_malloc_r+0x402>
 8024552:	2900      	cmp	r1, #0
 8024554:	f8c2 e014 	str.w	lr, [r2, #20]
 8024558:	f8c2 e010 	str.w	lr, [r2, #16]
 802455c:	da66      	bge.n	802462c <_malloc_r+0x1d4>
 802455e:	f5b0 7f00 	cmp.w	r0, #512	; 0x200
 8024562:	f080 814e 	bcs.w	8024802 <_malloc_r+0x3aa>
 8024566:	08c1      	lsrs	r1, r0, #3
 8024568:	f04f 0801 	mov.w	r8, #1
 802456c:	eb02 00c1 	add.w	r0, r2, r1, lsl #3
 8024570:	1089      	asrs	r1, r1, #2
 8024572:	fa08 f801 	lsl.w	r8, r8, r1
 8024576:	6851      	ldr	r1, [r2, #4]
 8024578:	6885      	ldr	r5, [r0, #8]
 802457a:	60d8      	str	r0, [r3, #12]
 802457c:	ea48 0901 	orr.w	r9, r8, r1
 8024580:	f8c2 9004 	str.w	r9, [r2, #4]
 8024584:	609d      	str	r5, [r3, #8]
 8024586:	60eb      	str	r3, [r5, #12]
 8024588:	6083      	str	r3, [r0, #8]
 802458a:	2201      	movs	r2, #1
 802458c:	ea4f 03ac 	mov.w	r3, ip, asr #2
 8024590:	fa02 f303 	lsl.w	r3, r2, r3
 8024594:	454b      	cmp	r3, r9
 8024596:	d854      	bhi.n	8024642 <_malloc_r+0x1ea>
 8024598:	ea19 0f03 	tst.w	r9, r3
 802459c:	d10d      	bne.n	80245ba <_malloc_r+0x162>
 802459e:	4093      	lsls	r3, r2
 80245a0:	f02c 0c03 	bic.w	ip, ip, #3
 80245a4:	ea19 0f03 	tst.w	r9, r3
 80245a8:	f10c 0c04 	add.w	ip, ip, #4
 80245ac:	d105      	bne.n	80245ba <_malloc_r+0x162>
 80245ae:	005b      	lsls	r3, r3, #1
 80245b0:	f10c 0c04 	add.w	ip, ip, #4
 80245b4:	ea19 0f03 	tst.w	r9, r3
 80245b8:	d0f9      	beq.n	80245ae <_malloc_r+0x156>
 80245ba:	eb06 09cc 	add.w	r9, r6, ip, lsl #3
 80245be:	46e0      	mov	r8, ip
 80245c0:	4648      	mov	r0, r9
 80245c2:	68c2      	ldr	r2, [r0, #12]
 80245c4:	4290      	cmp	r0, r2
 80245c6:	d107      	bne.n	80245d8 <_malloc_r+0x180>
 80245c8:	e15b      	b.n	8024882 <_malloc_r+0x42a>
 80245ca:	2900      	cmp	r1, #0
 80245cc:	f280 8183 	bge.w	80248d6 <_malloc_r+0x47e>
 80245d0:	68d2      	ldr	r2, [r2, #12]
 80245d2:	4290      	cmp	r0, r2
 80245d4:	f000 8155 	beq.w	8024882 <_malloc_r+0x42a>
 80245d8:	6855      	ldr	r5, [r2, #4]
 80245da:	f025 0503 	bic.w	r5, r5, #3
 80245de:	1b29      	subs	r1, r5, r4
 80245e0:	290f      	cmp	r1, #15
 80245e2:	ddf2      	ble.n	80245ca <_malloc_r+0x172>
 80245e4:	4690      	mov	r8, r2
 80245e6:	1913      	adds	r3, r2, r4
 80245e8:	68d5      	ldr	r5, [r2, #12]
 80245ea:	f044 0001 	orr.w	r0, r4, #1
 80245ee:	f858 4f08 	ldr.w	r4, [r8, #8]!
 80245f2:	f041 0c01 	orr.w	ip, r1, #1
 80245f6:	6050      	str	r0, [r2, #4]
 80245f8:	4638      	mov	r0, r7
 80245fa:	f8c3 c004 	str.w	ip, [r3, #4]
 80245fe:	60e5      	str	r5, [r4, #12]
 8024600:	60ac      	str	r4, [r5, #8]
 8024602:	6173      	str	r3, [r6, #20]
 8024604:	6133      	str	r3, [r6, #16]
 8024606:	f8c3 e00c 	str.w	lr, [r3, #12]
 802460a:	f8c3 e008 	str.w	lr, [r3, #8]
 802460e:	5059      	str	r1, [r3, r1]
 8024610:	f000 fa3a 	bl	8024a88 <__malloc_unlock>
 8024614:	e755      	b.n	80244c2 <_malloc_r+0x6a>
 8024616:	f1bc 0f04 	cmp.w	ip, #4
 802461a:	f200 80de 	bhi.w	80247da <_malloc_r+0x382>
 802461e:	ea4f 1c94 	mov.w	ip, r4, lsr #6
 8024622:	f10c 0c38 	add.w	ip, ip, #56	; 0x38
 8024626:	ea4f 054c 	mov.w	r5, ip, lsl #1
 802462a:	e765      	b.n	80244f8 <_malloc_r+0xa0>
 802462c:	181a      	adds	r2, r3, r0
 802462e:	f103 0808 	add.w	r8, r3, #8
 8024632:	4638      	mov	r0, r7
 8024634:	6853      	ldr	r3, [r2, #4]
 8024636:	f043 0301 	orr.w	r3, r3, #1
 802463a:	6053      	str	r3, [r2, #4]
 802463c:	f000 fa24 	bl	8024a88 <__malloc_unlock>
 8024640:	e73f      	b.n	80244c2 <_malloc_r+0x6a>
 8024642:	68b5      	ldr	r5, [r6, #8]
 8024644:	686b      	ldr	r3, [r5, #4]
 8024646:	f023 0a03 	bic.w	sl, r3, #3
 802464a:	4554      	cmp	r4, sl
 802464c:	d804      	bhi.n	8024658 <_malloc_r+0x200>
 802464e:	ebc4 030a 	rsb	r3, r4, sl
 8024652:	2b0f      	cmp	r3, #15
 8024654:	f300 80a4 	bgt.w	80247a0 <_malloc_r+0x348>
 8024658:	f640 29d0 	movw	r9, #2768	; 0xad0
 802465c:	f8d6 1408 	ldr.w	r1, [r6, #1032]	; 0x408
 8024660:	f2c2 0900 	movt	r9, #8192	; 0x2000
 8024664:	eb05 020a 	add.w	r2, r5, sl
 8024668:	3101      	adds	r1, #1
 802466a:	f8d9 3000 	ldr.w	r3, [r9]
 802466e:	4423      	add	r3, r4
 8024670:	bf08      	it	eq
 8024672:	f103 0b10 	addeq.w	fp, r3, #16
 8024676:	d006      	beq.n	8024686 <_malloc_r+0x22e>
 8024678:	f503 5380 	add.w	r3, r3, #4096	; 0x1000
 802467c:	330f      	adds	r3, #15
 802467e:	f423 637f 	bic.w	r3, r3, #4080	; 0xff0
 8024682:	f023 0b0f 	bic.w	fp, r3, #15
 8024686:	4638      	mov	r0, r7
 8024688:	4659      	mov	r1, fp
 802468a:	9201      	str	r2, [sp, #4]
 802468c:	f000 fe86 	bl	802539c <_sbrk_r>
 8024690:	9a01      	ldr	r2, [sp, #4]
 8024692:	1c41      	adds	r1, r0, #1
 8024694:	4680      	mov	r8, r0
 8024696:	f000 8168 	beq.w	802496a <_malloc_r+0x512>
 802469a:	4282      	cmp	r2, r0
 802469c:	f200 8131 	bhi.w	8024902 <_malloc_r+0x4aa>
 80246a0:	f8d9 3004 	ldr.w	r3, [r9, #4]
 80246a4:	4542      	cmp	r2, r8
 80246a6:	445b      	add	r3, fp
 80246a8:	f8c9 3004 	str.w	r3, [r9, #4]
 80246ac:	f000 8166 	beq.w	802497c <_malloc_r+0x524>
 80246b0:	f8d6 1408 	ldr.w	r1, [r6, #1032]	; 0x408
 80246b4:	f240 109c 	movw	r0, #412	; 0x19c
 80246b8:	f2c2 0000 	movt	r0, #8192	; 0x2000
 80246bc:	3101      	adds	r1, #1
 80246be:	bf17      	itett	ne
 80246c0:	ebc2 0208 	rsbne	r2, r2, r8
 80246c4:	f8c0 8408 	streq.w	r8, [r0, #1032]	; 0x408
 80246c8:	189b      	addne	r3, r3, r2
 80246ca:	f8c9 3004 	strne.w	r3, [r9, #4]
 80246ce:	f018 0307 	ands.w	r3, r8, #7
 80246d2:	4638      	mov	r0, r7
 80246d4:	bf1f      	itttt	ne
 80246d6:	f1c3 0208 	rsbne	r2, r3, #8
 80246da:	f5c3 5380 	rsbne	r3, r3, #4096	; 0x1000
 80246de:	4490      	addne	r8, r2
 80246e0:	f103 0208 	addne.w	r2, r3, #8
 80246e4:	eb08 030b 	add.w	r3, r8, fp
 80246e8:	bf08      	it	eq
 80246ea:	f44f 5280 	moveq.w	r2, #4096	; 0x1000
 80246ee:	051b      	lsls	r3, r3, #20
 80246f0:	0d1b      	lsrs	r3, r3, #20
 80246f2:	ebc3 0b02 	rsb	fp, r3, r2
 80246f6:	4659      	mov	r1, fp
 80246f8:	f000 fe50 	bl	802539c <_sbrk_r>
 80246fc:	1c43      	adds	r3, r0, #1
 80246fe:	f000 8149 	beq.w	8024994 <_malloc_r+0x53c>
 8024702:	ebc8 0100 	rsb	r1, r8, r0
 8024706:	4459      	add	r1, fp
 8024708:	f041 0101 	orr.w	r1, r1, #1
 802470c:	f8d9 3004 	ldr.w	r3, [r9, #4]
 8024710:	42b5      	cmp	r5, r6
 8024712:	f640 22d0 	movw	r2, #2768	; 0xad0
 8024716:	f8c6 8008 	str.w	r8, [r6, #8]
 802471a:	445b      	add	r3, fp
 802471c:	f2c2 0200 	movt	r2, #8192	; 0x2000
 8024720:	f8c8 1004 	str.w	r1, [r8, #4]
 8024724:	f8c9 3004 	str.w	r3, [r9, #4]
 8024728:	d018      	beq.n	802475c <_malloc_r+0x304>
 802472a:	f1ba 0f0f 	cmp.w	sl, #15
 802472e:	f240 810b 	bls.w	8024948 <_malloc_r+0x4f0>
 8024732:	f1aa 000c 	sub.w	r0, sl, #12
 8024736:	6869      	ldr	r1, [r5, #4]
 8024738:	f020 0007 	bic.w	r0, r0, #7
 802473c:	f04f 0c05 	mov.w	ip, #5
 8024740:	eb05 0e00 	add.w	lr, r5, r0
 8024744:	280f      	cmp	r0, #15
 8024746:	f001 0101 	and.w	r1, r1, #1
 802474a:	ea40 0101 	orr.w	r1, r0, r1
 802474e:	6069      	str	r1, [r5, #4]
 8024750:	f8ce c004 	str.w	ip, [lr, #4]
 8024754:	f8ce c008 	str.w	ip, [lr, #8]
 8024758:	f200 8120 	bhi.w	802499c <_malloc_r+0x544>
 802475c:	f640 22d0 	movw	r2, #2768	; 0xad0
 8024760:	f8d9 102c 	ldr.w	r1, [r9, #44]	; 0x2c
 8024764:	f2c2 0200 	movt	r2, #8192	; 0x2000
 8024768:	68b5      	ldr	r5, [r6, #8]
 802476a:	428b      	cmp	r3, r1
 802476c:	f8d9 1030 	ldr.w	r1, [r9, #48]	; 0x30
 8024770:	bf88      	it	hi
 8024772:	62d3      	strhi	r3, [r2, #44]	; 0x2c
 8024774:	f640 22d0 	movw	r2, #2768	; 0xad0
 8024778:	f2c2 0200 	movt	r2, #8192	; 0x2000
 802477c:	428b      	cmp	r3, r1
 802477e:	bf88      	it	hi
 8024780:	6313      	strhi	r3, [r2, #48]	; 0x30
 8024782:	686a      	ldr	r2, [r5, #4]
 8024784:	f022 0203 	bic.w	r2, r2, #3
 8024788:	4294      	cmp	r4, r2
 802478a:	ebc4 0302 	rsb	r3, r4, r2
 802478e:	d801      	bhi.n	8024794 <_malloc_r+0x33c>
 8024790:	2b0f      	cmp	r3, #15
 8024792:	dc05      	bgt.n	80247a0 <_malloc_r+0x348>
 8024794:	4638      	mov	r0, r7
 8024796:	f04f 0800 	mov.w	r8, #0
 802479a:	f000 f975 	bl	8024a88 <__malloc_unlock>
 802479e:	e690      	b.n	80244c2 <_malloc_r+0x6a>
 80247a0:	192a      	adds	r2, r5, r4
 80247a2:	f043 0301 	orr.w	r3, r3, #1
 80247a6:	f044 0401 	orr.w	r4, r4, #1
 80247aa:	4638      	mov	r0, r7
 80247ac:	606c      	str	r4, [r5, #4]
 80247ae:	f105 0808 	add.w	r8, r5, #8
 80247b2:	6053      	str	r3, [r2, #4]
 80247b4:	60b2      	str	r2, [r6, #8]
 80247b6:	f000 f967 	bl	8024a88 <__malloc_unlock>
 80247ba:	e682      	b.n	80244c2 <_malloc_r+0x6a>
 80247bc:	1859      	adds	r1, r3, r1
 80247be:	68da      	ldr	r2, [r3, #12]
 80247c0:	689c      	ldr	r4, [r3, #8]
 80247c2:	4638      	mov	r0, r7
 80247c4:	684d      	ldr	r5, [r1, #4]
 80247c6:	f103 0808 	add.w	r8, r3, #8
 80247ca:	f045 0501 	orr.w	r5, r5, #1
 80247ce:	60e2      	str	r2, [r4, #12]
 80247d0:	6094      	str	r4, [r2, #8]
 80247d2:	604d      	str	r5, [r1, #4]
 80247d4:	f000 f958 	bl	8024a88 <__malloc_unlock>
 80247d8:	e673      	b.n	80244c2 <_malloc_r+0x6a>
 80247da:	f1bc 0f14 	cmp.w	ip, #20
 80247de:	bf9c      	itt	ls
 80247e0:	f10c 0c5b 	addls.w	ip, ip, #91	; 0x5b
 80247e4:	ea4f 054c 	movls.w	r5, ip, lsl #1
 80247e8:	f67f ae86 	bls.w	80244f8 <_malloc_r+0xa0>
 80247ec:	f1bc 0f54 	cmp.w	ip, #84	; 0x54
 80247f0:	f200 8093 	bhi.w	802491a <_malloc_r+0x4c2>
 80247f4:	ea4f 3c14 	mov.w	ip, r4, lsr #12
 80247f8:	f10c 0c6e 	add.w	ip, ip, #110	; 0x6e
 80247fc:	ea4f 054c 	mov.w	r5, ip, lsl #1
 8024800:	e67a      	b.n	80244f8 <_malloc_r+0xa0>
 8024802:	0a42      	lsrs	r2, r0, #9
 8024804:	2a04      	cmp	r2, #4
 8024806:	d975      	bls.n	80248f4 <_malloc_r+0x49c>
 8024808:	2a14      	cmp	r2, #20
 802480a:	bf9c      	itt	ls
 802480c:	f102 095b 	addls.w	r9, r2, #91	; 0x5b
 8024810:	ea4f 0549 	movls.w	r5, r9, lsl #1
 8024814:	d908      	bls.n	8024828 <_malloc_r+0x3d0>
 8024816:	2a54      	cmp	r2, #84	; 0x54
 8024818:	f200 80c9 	bhi.w	80249ae <_malloc_r+0x556>
 802481c:	ea4f 3910 	mov.w	r9, r0, lsr #12
 8024820:	f109 096e 	add.w	r9, r9, #110	; 0x6e
 8024824:	ea4f 0549 	mov.w	r5, r9, lsl #1
 8024828:	eb06 0585 	add.w	r5, r6, r5, lsl #2
 802482c:	f240 189c 	movw	r8, #412	; 0x19c
 8024830:	f2c2 0800 	movt	r8, #8192	; 0x2000
 8024834:	68aa      	ldr	r2, [r5, #8]
 8024836:	42aa      	cmp	r2, r5
 8024838:	d079      	beq.n	802492e <_malloc_r+0x4d6>
 802483a:	6851      	ldr	r1, [r2, #4]
 802483c:	f021 0103 	bic.w	r1, r1, #3
 8024840:	4288      	cmp	r0, r1
 8024842:	d202      	bcs.n	802484a <_malloc_r+0x3f2>
 8024844:	6892      	ldr	r2, [r2, #8]
 8024846:	4295      	cmp	r5, r2
 8024848:	d1f7      	bne.n	802483a <_malloc_r+0x3e2>
 802484a:	68d0      	ldr	r0, [r2, #12]
 802484c:	f8d6 9004 	ldr.w	r9, [r6, #4]
 8024850:	60d8      	str	r0, [r3, #12]
 8024852:	609a      	str	r2, [r3, #8]
 8024854:	60d3      	str	r3, [r2, #12]
 8024856:	6083      	str	r3, [r0, #8]
 8024858:	e697      	b.n	802458a <_malloc_r+0x132>
 802485a:	191d      	adds	r5, r3, r4
 802485c:	f041 0601 	orr.w	r6, r1, #1
 8024860:	6155      	str	r5, [r2, #20]
 8024862:	f044 0401 	orr.w	r4, r4, #1
 8024866:	6115      	str	r5, [r2, #16]
 8024868:	4638      	mov	r0, r7
 802486a:	605c      	str	r4, [r3, #4]
 802486c:	f103 0808 	add.w	r8, r3, #8
 8024870:	f8c5 e00c 	str.w	lr, [r5, #12]
 8024874:	f8c5 e008 	str.w	lr, [r5, #8]
 8024878:	606e      	str	r6, [r5, #4]
 802487a:	5069      	str	r1, [r5, r1]
 802487c:	f000 f904 	bl	8024a88 <__malloc_unlock>
 8024880:	e61f      	b.n	80244c2 <_malloc_r+0x6a>
 8024882:	f108 0801 	add.w	r8, r8, #1
 8024886:	3008      	adds	r0, #8
 8024888:	f018 0f03 	tst.w	r8, #3
 802488c:	f47f ae99 	bne.w	80245c2 <_malloc_r+0x16a>
 8024890:	464a      	mov	r2, r9
 8024892:	f01c 0f03 	tst.w	ip, #3
 8024896:	f1a2 0108 	sub.w	r1, r2, #8
 802489a:	f10c 3cff 	add.w	ip, ip, #4294967295
 802489e:	f000 809e 	beq.w	80249de <_malloc_r+0x586>
 80248a2:	6812      	ldr	r2, [r2, #0]
 80248a4:	428a      	cmp	r2, r1
 80248a6:	d0f4      	beq.n	8024892 <_malloc_r+0x43a>
 80248a8:	6872      	ldr	r2, [r6, #4]
 80248aa:	005b      	lsls	r3, r3, #1
 80248ac:	4293      	cmp	r3, r2
 80248ae:	f63f aec8 	bhi.w	8024642 <_malloc_r+0x1ea>
 80248b2:	2b00      	cmp	r3, #0
 80248b4:	f43f aec5 	beq.w	8024642 <_malloc_r+0x1ea>
 80248b8:	421a      	tst	r2, r3
 80248ba:	f000 8095 	beq.w	80249e8 <_malloc_r+0x590>
 80248be:	46c4      	mov	ip, r8
 80248c0:	e67b      	b.n	80245ba <_malloc_r+0x162>
 80248c2:	f103 0208 	add.w	r2, r3, #8
 80248c6:	695b      	ldr	r3, [r3, #20]
 80248c8:	429a      	cmp	r2, r3
 80248ca:	bf08      	it	eq
 80248cc:	f10c 0c02 	addeq.w	ip, ip, #2
 80248d0:	f43f ae2c 	beq.w	802452c <_malloc_r+0xd4>
 80248d4:	e5e4      	b.n	80244a0 <_malloc_r+0x48>
 80248d6:	4690      	mov	r8, r2
 80248d8:	1955      	adds	r5, r2, r5
 80248da:	68d3      	ldr	r3, [r2, #12]
 80248dc:	4638      	mov	r0, r7
 80248de:	f858 2f08 	ldr.w	r2, [r8, #8]!
 80248e2:	6869      	ldr	r1, [r5, #4]
 80248e4:	60d3      	str	r3, [r2, #12]
 80248e6:	f041 0101 	orr.w	r1, r1, #1
 80248ea:	609a      	str	r2, [r3, #8]
 80248ec:	6069      	str	r1, [r5, #4]
 80248ee:	f000 f8cb 	bl	8024a88 <__malloc_unlock>
 80248f2:	e5e6      	b.n	80244c2 <_malloc_r+0x6a>
 80248f4:	ea4f 1990 	mov.w	r9, r0, lsr #6
 80248f8:	f109 0938 	add.w	r9, r9, #56	; 0x38
 80248fc:	ea4f 0549 	mov.w	r5, r9, lsl #1
 8024900:	e792      	b.n	8024828 <_malloc_r+0x3d0>
 8024902:	42b5      	cmp	r5, r6
 8024904:	f240 139c 	movw	r3, #412	; 0x19c
 8024908:	f2c2 0300 	movt	r3, #8192	; 0x2000
 802490c:	f43f aec8 	beq.w	80246a0 <_malloc_r+0x248>
 8024910:	689d      	ldr	r5, [r3, #8]
 8024912:	686a      	ldr	r2, [r5, #4]
 8024914:	f022 0203 	bic.w	r2, r2, #3
 8024918:	e736      	b.n	8024788 <_malloc_r+0x330>
 802491a:	f5bc 7faa 	cmp.w	ip, #340	; 0x154
 802491e:	d819      	bhi.n	8024954 <_malloc_r+0x4fc>
 8024920:	ea4f 3cd4 	mov.w	ip, r4, lsr #15
 8024924:	f10c 0c77 	add.w	ip, ip, #119	; 0x77
 8024928:	ea4f 054c 	mov.w	r5, ip, lsl #1
 802492c:	e5e4      	b.n	80244f8 <_malloc_r+0xa0>
 802492e:	2501      	movs	r5, #1
 8024930:	f8d8 1004 	ldr.w	r1, [r8, #4]
 8024934:	ea4f 09a9 	mov.w	r9, r9, asr #2
 8024938:	4610      	mov	r0, r2
 802493a:	fa05 f509 	lsl.w	r5, r5, r9
 802493e:	ea45 0901 	orr.w	r9, r5, r1
 8024942:	f8c8 9004 	str.w	r9, [r8, #4]
 8024946:	e783      	b.n	8024850 <_malloc_r+0x3f8>
 8024948:	2301      	movs	r3, #1
 802494a:	4645      	mov	r5, r8
 802494c:	f8c8 3004 	str.w	r3, [r8, #4]
 8024950:	2200      	movs	r2, #0
 8024952:	e719      	b.n	8024788 <_malloc_r+0x330>
 8024954:	f240 5354 	movw	r3, #1364	; 0x554
 8024958:	459c      	cmp	ip, r3
 802495a:	d80b      	bhi.n	8024974 <_malloc_r+0x51c>
 802495c:	ea4f 4c94 	mov.w	ip, r4, lsr #18
 8024960:	f10c 0c7c 	add.w	ip, ip, #124	; 0x7c
 8024964:	ea4f 054c 	mov.w	r5, ip, lsl #1
 8024968:	e5c6      	b.n	80244f8 <_malloc_r+0xa0>
 802496a:	68b5      	ldr	r5, [r6, #8]
 802496c:	686a      	ldr	r2, [r5, #4]
 802496e:	f022 0203 	bic.w	r2, r2, #3
 8024972:	e709      	b.n	8024788 <_malloc_r+0x330>
 8024974:	25fc      	movs	r5, #252	; 0xfc
 8024976:	f04f 0c7e 	mov.w	ip, #126	; 0x7e
 802497a:	e5bd      	b.n	80244f8 <_malloc_r+0xa0>
 802497c:	0511      	lsls	r1, r2, #20
 802497e:	0d09      	lsrs	r1, r1, #20
 8024980:	2900      	cmp	r1, #0
 8024982:	f47f ae95 	bne.w	80246b0 <_malloc_r+0x258>
 8024986:	68b2      	ldr	r2, [r6, #8]
 8024988:	eb0b 010a 	add.w	r1, fp, sl
 802498c:	f041 0101 	orr.w	r1, r1, #1
 8024990:	6051      	str	r1, [r2, #4]
 8024992:	e6e3      	b.n	802475c <_malloc_r+0x304>
 8024994:	2101      	movs	r1, #1
 8024996:	f04f 0b00 	mov.w	fp, #0
 802499a:	e6b7      	b.n	802470c <_malloc_r+0x2b4>
 802499c:	4638      	mov	r0, r7
 802499e:	f105 0108 	add.w	r1, r5, #8
 80249a2:	9201      	str	r2, [sp, #4]
 80249a4:	f7ff f822 	bl	80239ec <_free_r>
 80249a8:	9a01      	ldr	r2, [sp, #4]
 80249aa:	6853      	ldr	r3, [r2, #4]
 80249ac:	e6d6      	b.n	802475c <_malloc_r+0x304>
 80249ae:	f5b2 7faa 	cmp.w	r2, #340	; 0x154
 80249b2:	d806      	bhi.n	80249c2 <_malloc_r+0x56a>
 80249b4:	ea4f 39d0 	mov.w	r9, r0, lsr #15
 80249b8:	f109 0977 	add.w	r9, r9, #119	; 0x77
 80249bc:	ea4f 0549 	mov.w	r5, r9, lsl #1
 80249c0:	e732      	b.n	8024828 <_malloc_r+0x3d0>
 80249c2:	f240 5154 	movw	r1, #1364	; 0x554
 80249c6:	25fc      	movs	r5, #252	; 0xfc
 80249c8:	428a      	cmp	r2, r1
 80249ca:	f04f 097e 	mov.w	r9, #126	; 0x7e
 80249ce:	bf9e      	ittt	ls
 80249d0:	ea4f 4990 	movls.w	r9, r0, lsr #18
 80249d4:	f109 097c 	addls.w	r9, r9, #124	; 0x7c
 80249d8:	ea4f 0549 	movls.w	r5, r9, lsl #1
 80249dc:	e724      	b.n	8024828 <_malloc_r+0x3d0>
 80249de:	6872      	ldr	r2, [r6, #4]
 80249e0:	ea22 0203 	bic.w	r2, r2, r3
 80249e4:	6072      	str	r2, [r6, #4]
 80249e6:	e760      	b.n	80248aa <_malloc_r+0x452>
 80249e8:	005b      	lsls	r3, r3, #1
 80249ea:	f108 0804 	add.w	r8, r8, #4
 80249ee:	e763      	b.n	80248b8 <_malloc_r+0x460>

080249f0 <memchr>:
 80249f0:	0783      	lsls	r3, r0, #30
 80249f2:	b2c9      	uxtb	r1, r1
 80249f4:	b470      	push	{r4, r5, r6}
 80249f6:	d040      	beq.n	8024a7a <memchr+0x8a>
 80249f8:	1e54      	subs	r4, r2, #1
 80249fa:	2a00      	cmp	r2, #0
 80249fc:	d03f      	beq.n	8024a7e <memchr+0x8e>
 80249fe:	7803      	ldrb	r3, [r0, #0]
 8024a00:	428b      	cmp	r3, r1
 8024a02:	d021      	beq.n	8024a48 <memchr+0x58>
 8024a04:	1c43      	adds	r3, r0, #1
 8024a06:	e004      	b.n	8024a12 <memchr+0x22>
 8024a08:	b304      	cbz	r4, 8024a4c <memchr+0x5c>
 8024a0a:	7802      	ldrb	r2, [r0, #0]
 8024a0c:	3c01      	subs	r4, #1
 8024a0e:	428a      	cmp	r2, r1
 8024a10:	d01a      	beq.n	8024a48 <memchr+0x58>
 8024a12:	f013 0f03 	tst.w	r3, #3
 8024a16:	4618      	mov	r0, r3
 8024a18:	f103 0301 	add.w	r3, r3, #1
 8024a1c:	d1f4      	bne.n	8024a08 <memchr+0x18>
 8024a1e:	2c03      	cmp	r4, #3
 8024a20:	d816      	bhi.n	8024a50 <memchr+0x60>
 8024a22:	1e65      	subs	r5, r4, #1
 8024a24:	b194      	cbz	r4, 8024a4c <memchr+0x5c>
 8024a26:	7803      	ldrb	r3, [r0, #0]
 8024a28:	428b      	cmp	r3, r1
 8024a2a:	d00d      	beq.n	8024a48 <memchr+0x58>
 8024a2c:	1c42      	adds	r2, r0, #1
 8024a2e:	2300      	movs	r3, #0
 8024a30:	e002      	b.n	8024a38 <memchr+0x48>
 8024a32:	7804      	ldrb	r4, [r0, #0]
 8024a34:	428c      	cmp	r4, r1
 8024a36:	d007      	beq.n	8024a48 <memchr+0x58>
 8024a38:	429d      	cmp	r5, r3
 8024a3a:	4610      	mov	r0, r2
 8024a3c:	f103 0301 	add.w	r3, r3, #1
 8024a40:	f102 0201 	add.w	r2, r2, #1
 8024a44:	d1f5      	bne.n	8024a32 <memchr+0x42>
 8024a46:	2000      	movs	r0, #0
 8024a48:	bc70      	pop	{r4, r5, r6}
 8024a4a:	4770      	bx	lr
 8024a4c:	4620      	mov	r0, r4
 8024a4e:	e7fb      	b.n	8024a48 <memchr+0x58>
 8024a50:	ea41 2601 	orr.w	r6, r1, r1, lsl #8
 8024a54:	ea46 4606 	orr.w	r6, r6, r6, lsl #16
 8024a58:	4602      	mov	r2, r0
 8024a5a:	3004      	adds	r0, #4
 8024a5c:	6813      	ldr	r3, [r2, #0]
 8024a5e:	4073      	eors	r3, r6
 8024a60:	f1a3 3501 	sub.w	r5, r3, #16843009	; 0x1010101
 8024a64:	ea25 0303 	bic.w	r3, r5, r3
 8024a68:	f013 3f80 	tst.w	r3, #2155905152	; 0x80808080
 8024a6c:	d103      	bne.n	8024a76 <memchr+0x86>
 8024a6e:	3c04      	subs	r4, #4
 8024a70:	2c03      	cmp	r4, #3
 8024a72:	d8f1      	bhi.n	8024a58 <memchr+0x68>
 8024a74:	e7d5      	b.n	8024a22 <memchr+0x32>
 8024a76:	4610      	mov	r0, r2
 8024a78:	e7d3      	b.n	8024a22 <memchr+0x32>
 8024a7a:	4614      	mov	r4, r2
 8024a7c:	e7cf      	b.n	8024a1e <memchr+0x2e>
 8024a7e:	4610      	mov	r0, r2
 8024a80:	e7e2      	b.n	8024a48 <memchr+0x58>
 8024a82:	bf00      	nop

08024a84 <__malloc_lock>:
 8024a84:	4770      	bx	lr
 8024a86:	bf00      	nop

08024a88 <__malloc_unlock>:
 8024a88:	4770      	bx	lr
 8024a8a:	bf00      	nop

08024a8c <_Balloc>:
 8024a8c:	b570      	push	{r4, r5, r6, lr}
 8024a8e:	4606      	mov	r6, r0
 8024a90:	6a44      	ldr	r4, [r0, #36]	; 0x24
 8024a92:	460d      	mov	r5, r1
 8024a94:	b15c      	cbz	r4, 8024aae <_Balloc+0x22>
 8024a96:	68e2      	ldr	r2, [r4, #12]
 8024a98:	b19a      	cbz	r2, 8024ac2 <_Balloc+0x36>
 8024a9a:	f852 0025 	ldr.w	r0, [r2, r5, lsl #2]
 8024a9e:	b1e0      	cbz	r0, 8024ada <_Balloc+0x4e>
 8024aa0:	6801      	ldr	r1, [r0, #0]
 8024aa2:	f842 1025 	str.w	r1, [r2, r5, lsl #2]
 8024aa6:	2200      	movs	r2, #0
 8024aa8:	6102      	str	r2, [r0, #16]
 8024aaa:	60c2      	str	r2, [r0, #12]
 8024aac:	bd70      	pop	{r4, r5, r6, pc}
 8024aae:	2010      	movs	r0, #16
 8024ab0:	f7ff fcc2 	bl	8024438 <malloc>
 8024ab4:	2300      	movs	r3, #0
 8024ab6:	4604      	mov	r4, r0
 8024ab8:	6270      	str	r0, [r6, #36]	; 0x24
 8024aba:	6043      	str	r3, [r0, #4]
 8024abc:	6083      	str	r3, [r0, #8]
 8024abe:	6003      	str	r3, [r0, #0]
 8024ac0:	60c3      	str	r3, [r0, #12]
 8024ac2:	2221      	movs	r2, #33	; 0x21
 8024ac4:	4630      	mov	r0, r6
 8024ac6:	2104      	movs	r1, #4
 8024ac8:	f000 fcfc 	bl	80254c4 <_calloc_r>
 8024acc:	6a73      	ldr	r3, [r6, #36]	; 0x24
 8024ace:	60e0      	str	r0, [r4, #12]
 8024ad0:	68da      	ldr	r2, [r3, #12]
 8024ad2:	2a00      	cmp	r2, #0
 8024ad4:	d1e1      	bne.n	8024a9a <_Balloc+0xe>
 8024ad6:	2000      	movs	r0, #0
 8024ad8:	bd70      	pop	{r4, r5, r6, pc}
 8024ada:	2301      	movs	r3, #1
 8024adc:	4630      	mov	r0, r6
 8024ade:	4619      	mov	r1, r3
 8024ae0:	fa03 f405 	lsl.w	r4, r3, r5
 8024ae4:	1d62      	adds	r2, r4, #5
 8024ae6:	0092      	lsls	r2, r2, #2
 8024ae8:	f000 fcec 	bl	80254c4 <_calloc_r>
 8024aec:	2800      	cmp	r0, #0
 8024aee:	d0f2      	beq.n	8024ad6 <_Balloc+0x4a>
 8024af0:	6045      	str	r5, [r0, #4]
 8024af2:	6084      	str	r4, [r0, #8]
 8024af4:	e7d7      	b.n	8024aa6 <_Balloc+0x1a>
 8024af6:	bf00      	nop

08024af8 <_Bfree>:
 8024af8:	b530      	push	{r4, r5, lr}
 8024afa:	4604      	mov	r4, r0
 8024afc:	6a45      	ldr	r5, [r0, #36]	; 0x24
 8024afe:	b083      	sub	sp, #12
 8024b00:	b155      	cbz	r5, 8024b18 <_Bfree+0x20>
 8024b02:	b139      	cbz	r1, 8024b14 <_Bfree+0x1c>
 8024b04:	6a63      	ldr	r3, [r4, #36]	; 0x24
 8024b06:	684a      	ldr	r2, [r1, #4]
 8024b08:	68db      	ldr	r3, [r3, #12]
 8024b0a:	f853 0022 	ldr.w	r0, [r3, r2, lsl #2]
 8024b0e:	6008      	str	r0, [r1, #0]
 8024b10:	f843 1022 	str.w	r1, [r3, r2, lsl #2]
 8024b14:	b003      	add	sp, #12
 8024b16:	bd30      	pop	{r4, r5, pc}
 8024b18:	2010      	movs	r0, #16
 8024b1a:	9101      	str	r1, [sp, #4]
 8024b1c:	f7ff fc8c 	bl	8024438 <malloc>
 8024b20:	9901      	ldr	r1, [sp, #4]
 8024b22:	6260      	str	r0, [r4, #36]	; 0x24
 8024b24:	6045      	str	r5, [r0, #4]
 8024b26:	6085      	str	r5, [r0, #8]
 8024b28:	6005      	str	r5, [r0, #0]
 8024b2a:	60c5      	str	r5, [r0, #12]
 8024b2c:	e7e9      	b.n	8024b02 <_Bfree+0xa>
 8024b2e:	bf00      	nop

08024b30 <__multadd>:
 8024b30:	e92d 47f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, lr}
 8024b34:	4688      	mov	r8, r1
 8024b36:	f8d1 a010 	ldr.w	sl, [r1, #16]
 8024b3a:	b082      	sub	sp, #8
 8024b3c:	4681      	mov	r9, r0
 8024b3e:	f101 0514 	add.w	r5, r1, #20
 8024b42:	2400      	movs	r4, #0
 8024b44:	682f      	ldr	r7, [r5, #0]
 8024b46:	3401      	adds	r4, #1
 8024b48:	b2be      	uxth	r6, r7
 8024b4a:	0c3f      	lsrs	r7, r7, #16
 8024b4c:	fb02 3606 	mla	r6, r2, r6, r3
 8024b50:	fb02 f307 	mul.w	r3, r2, r7
 8024b54:	eb03 4316 	add.w	r3, r3, r6, lsr #16
 8024b58:	b2b6      	uxth	r6, r6
 8024b5a:	eb06 4603 	add.w	r6, r6, r3, lsl #16
 8024b5e:	0c1b      	lsrs	r3, r3, #16
 8024b60:	45a2      	cmp	sl, r4
 8024b62:	f845 6b04 	str.w	r6, [r5], #4
 8024b66:	dced      	bgt.n	8024b44 <__multadd+0x14>
 8024b68:	b153      	cbz	r3, 8024b80 <__multadd+0x50>
 8024b6a:	f8d8 2008 	ldr.w	r2, [r8, #8]
 8024b6e:	4592      	cmp	sl, r2
 8024b70:	da0a      	bge.n	8024b88 <__multadd+0x58>
 8024b72:	eb08 028a 	add.w	r2, r8, sl, lsl #2
 8024b76:	f10a 0101 	add.w	r1, sl, #1
 8024b7a:	f8c8 1010 	str.w	r1, [r8, #16]
 8024b7e:	6153      	str	r3, [r2, #20]
 8024b80:	4640      	mov	r0, r8
 8024b82:	b002      	add	sp, #8
 8024b84:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}
 8024b88:	f8d8 1004 	ldr.w	r1, [r8, #4]
 8024b8c:	4648      	mov	r0, r9
 8024b8e:	9301      	str	r3, [sp, #4]
 8024b90:	3101      	adds	r1, #1
 8024b92:	f7ff ff7b 	bl	8024a8c <_Balloc>
 8024b96:	f8d8 2010 	ldr.w	r2, [r8, #16]
 8024b9a:	f108 010c 	add.w	r1, r8, #12
 8024b9e:	3202      	adds	r2, #2
 8024ba0:	0092      	lsls	r2, r2, #2
 8024ba2:	4604      	mov	r4, r0
 8024ba4:	300c      	adds	r0, #12
 8024ba6:	f7fd f841 	bl	8021c2c <memcpy>
 8024baa:	4641      	mov	r1, r8
 8024bac:	4648      	mov	r0, r9
 8024bae:	46a0      	mov	r8, r4
 8024bb0:	f7ff ffa2 	bl	8024af8 <_Bfree>
 8024bb4:	9b01      	ldr	r3, [sp, #4]
 8024bb6:	e7dc      	b.n	8024b72 <__multadd+0x42>

08024bb8 <__s2b>:
 8024bb8:	e92d 43f8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
 8024bbc:	f648 6539 	movw	r5, #36409	; 0x8e39
 8024bc0:	461f      	mov	r7, r3
 8024bc2:	f6c3 05e3 	movt	r5, #14563	; 0x38e3
 8024bc6:	3308      	adds	r3, #8
 8024bc8:	4606      	mov	r6, r0
 8024bca:	460c      	mov	r4, r1
 8024bcc:	4690      	mov	r8, r2
 8024bce:	fb85 1003 	smull	r1, r0, r5, r3
 8024bd2:	17db      	asrs	r3, r3, #31
 8024bd4:	ebc3 0060 	rsb	r0, r3, r0, asr #1
 8024bd8:	2801      	cmp	r0, #1
 8024bda:	dd37      	ble.n	8024c4c <__s2b+0x94>
 8024bdc:	2501      	movs	r5, #1
 8024bde:	2100      	movs	r1, #0
 8024be0:	006d      	lsls	r5, r5, #1
 8024be2:	3101      	adds	r1, #1
 8024be4:	42a8      	cmp	r0, r5
 8024be6:	dcfb      	bgt.n	8024be0 <__s2b+0x28>
 8024be8:	4630      	mov	r0, r6
 8024bea:	f7ff ff4f 	bl	8024a8c <_Balloc>
 8024bee:	9b08      	ldr	r3, [sp, #32]
 8024bf0:	6143      	str	r3, [r0, #20]
 8024bf2:	2301      	movs	r3, #1
 8024bf4:	f1b8 0f09 	cmp.w	r8, #9
 8024bf8:	4601      	mov	r1, r0
 8024bfa:	6103      	str	r3, [r0, #16]
 8024bfc:	dd22      	ble.n	8024c44 <__s2b+0x8c>
 8024bfe:	f104 0909 	add.w	r9, r4, #9
 8024c02:	4444      	add	r4, r8
 8024c04:	464d      	mov	r5, r9
 8024c06:	f815 3b01 	ldrb.w	r3, [r5], #1
 8024c0a:	220a      	movs	r2, #10
 8024c0c:	4630      	mov	r0, r6
 8024c0e:	3b30      	subs	r3, #48	; 0x30
 8024c10:	f7ff ff8e 	bl	8024b30 <__multadd>
 8024c14:	42a5      	cmp	r5, r4
 8024c16:	4601      	mov	r1, r0
 8024c18:	d1f5      	bne.n	8024c06 <__s2b+0x4e>
 8024c1a:	eb09 0408 	add.w	r4, r9, r8
 8024c1e:	3c08      	subs	r4, #8
 8024c20:	4547      	cmp	r7, r8
 8024c22:	dd0c      	ble.n	8024c3e <__s2b+0x86>
 8024c24:	ebc8 0707 	rsb	r7, r8, r7
 8024c28:	19e7      	adds	r7, r4, r7
 8024c2a:	f814 3b01 	ldrb.w	r3, [r4], #1
 8024c2e:	220a      	movs	r2, #10
 8024c30:	4630      	mov	r0, r6
 8024c32:	3b30      	subs	r3, #48	; 0x30
 8024c34:	f7ff ff7c 	bl	8024b30 <__multadd>
 8024c38:	42bc      	cmp	r4, r7
 8024c3a:	4601      	mov	r1, r0
 8024c3c:	d1f5      	bne.n	8024c2a <__s2b+0x72>
 8024c3e:	4608      	mov	r0, r1
 8024c40:	e8bd 83f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, pc}
 8024c44:	340a      	adds	r4, #10
 8024c46:	f04f 0809 	mov.w	r8, #9
 8024c4a:	e7e9      	b.n	8024c20 <__s2b+0x68>
 8024c4c:	2100      	movs	r1, #0
 8024c4e:	e7cb      	b.n	8024be8 <__s2b+0x30>

08024c50 <__hi0bits>:
 8024c50:	4603      	mov	r3, r0
 8024c52:	2000      	movs	r0, #0
 8024c54:	0c1a      	lsrs	r2, r3, #16
 8024c56:	d101      	bne.n	8024c5c <__hi0bits+0xc>
 8024c58:	041b      	lsls	r3, r3, #16
 8024c5a:	2010      	movs	r0, #16
 8024c5c:	f013 4f7f 	tst.w	r3, #4278190080	; 0xff000000
 8024c60:	d101      	bne.n	8024c66 <__hi0bits+0x16>
 8024c62:	3008      	adds	r0, #8
 8024c64:	021b      	lsls	r3, r3, #8
 8024c66:	f013 4f70 	tst.w	r3, #4026531840	; 0xf0000000
 8024c6a:	d101      	bne.n	8024c70 <__hi0bits+0x20>
 8024c6c:	3004      	adds	r0, #4
 8024c6e:	011b      	lsls	r3, r3, #4
 8024c70:	f013 4f40 	tst.w	r3, #3221225472	; 0xc0000000
 8024c74:	d101      	bne.n	8024c7a <__hi0bits+0x2a>
 8024c76:	3002      	adds	r0, #2
 8024c78:	009b      	lsls	r3, r3, #2
 8024c7a:	2b00      	cmp	r3, #0
 8024c7c:	db02      	blt.n	8024c84 <__hi0bits+0x34>
 8024c7e:	005b      	lsls	r3, r3, #1
 8024c80:	d401      	bmi.n	8024c86 <__hi0bits+0x36>
 8024c82:	2020      	movs	r0, #32
 8024c84:	4770      	bx	lr
 8024c86:	3001      	adds	r0, #1
 8024c88:	4770      	bx	lr
 8024c8a:	bf00      	nop

08024c8c <__lo0bits>:
 8024c8c:	6803      	ldr	r3, [r0, #0]
 8024c8e:	4602      	mov	r2, r0
 8024c90:	f013 0007 	ands.w	r0, r3, #7
 8024c94:	d007      	beq.n	8024ca6 <__lo0bits+0x1a>
 8024c96:	07d9      	lsls	r1, r3, #31
 8024c98:	d41f      	bmi.n	8024cda <__lo0bits+0x4e>
 8024c9a:	0798      	lsls	r0, r3, #30
 8024c9c:	d41f      	bmi.n	8024cde <__lo0bits+0x52>
 8024c9e:	089b      	lsrs	r3, r3, #2
 8024ca0:	2002      	movs	r0, #2
 8024ca2:	6013      	str	r3, [r2, #0]
 8024ca4:	4770      	bx	lr
 8024ca6:	b299      	uxth	r1, r3
 8024ca8:	b909      	cbnz	r1, 8024cae <__lo0bits+0x22>
 8024caa:	0c1b      	lsrs	r3, r3, #16
 8024cac:	2010      	movs	r0, #16
 8024cae:	f013 0fff 	tst.w	r3, #255	; 0xff
 8024cb2:	d101      	bne.n	8024cb8 <__lo0bits+0x2c>
 8024cb4:	3008      	adds	r0, #8
 8024cb6:	0a1b      	lsrs	r3, r3, #8
 8024cb8:	0719      	lsls	r1, r3, #28
 8024cba:	d101      	bne.n	8024cc0 <__lo0bits+0x34>
 8024cbc:	3004      	adds	r0, #4
 8024cbe:	091b      	lsrs	r3, r3, #4
 8024cc0:	0799      	lsls	r1, r3, #30
 8024cc2:	d101      	bne.n	8024cc8 <__lo0bits+0x3c>
 8024cc4:	3002      	adds	r0, #2
 8024cc6:	089b      	lsrs	r3, r3, #2
 8024cc8:	07d9      	lsls	r1, r3, #31
 8024cca:	d404      	bmi.n	8024cd6 <__lo0bits+0x4a>
 8024ccc:	085b      	lsrs	r3, r3, #1
 8024cce:	d101      	bne.n	8024cd4 <__lo0bits+0x48>
 8024cd0:	2020      	movs	r0, #32
 8024cd2:	4770      	bx	lr
 8024cd4:	3001      	adds	r0, #1
 8024cd6:	6013      	str	r3, [r2, #0]
 8024cd8:	4770      	bx	lr
 8024cda:	2000      	movs	r0, #0
 8024cdc:	4770      	bx	lr
 8024cde:	085b      	lsrs	r3, r3, #1
 8024ce0:	2001      	movs	r0, #1
 8024ce2:	6013      	str	r3, [r2, #0]
 8024ce4:	4770      	bx	lr
 8024ce6:	bf00      	nop

08024ce8 <__i2b>:
 8024ce8:	b510      	push	{r4, lr}
 8024cea:	460c      	mov	r4, r1
 8024cec:	2101      	movs	r1, #1
 8024cee:	f7ff fecd 	bl	8024a8c <_Balloc>
 8024cf2:	2201      	movs	r2, #1
 8024cf4:	6144      	str	r4, [r0, #20]
 8024cf6:	6102      	str	r2, [r0, #16]
 8024cf8:	bd10      	pop	{r4, pc}
 8024cfa:	bf00      	nop

08024cfc <__multiply>:
 8024cfc:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8024d00:	460c      	mov	r4, r1
 8024d02:	690e      	ldr	r6, [r1, #16]
 8024d04:	b085      	sub	sp, #20
 8024d06:	6915      	ldr	r5, [r2, #16]
 8024d08:	4617      	mov	r7, r2
 8024d0a:	42ae      	cmp	r6, r5
 8024d0c:	da04      	bge.n	8024d18 <__multiply+0x1c>
 8024d0e:	4632      	mov	r2, r6
 8024d10:	463c      	mov	r4, r7
 8024d12:	462e      	mov	r6, r5
 8024d14:	460f      	mov	r7, r1
 8024d16:	4615      	mov	r5, r2
 8024d18:	68a3      	ldr	r3, [r4, #8]
 8024d1a:	eb06 0805 	add.w	r8, r6, r5
 8024d1e:	6861      	ldr	r1, [r4, #4]
 8024d20:	4598      	cmp	r8, r3
 8024d22:	bfc8      	it	gt
 8024d24:	3101      	addgt	r1, #1
 8024d26:	f7ff feb1 	bl	8024a8c <_Balloc>
 8024d2a:	eb00 0988 	add.w	r9, r0, r8, lsl #2
 8024d2e:	f100 0314 	add.w	r3, r0, #20
 8024d32:	f109 0914 	add.w	r9, r9, #20
 8024d36:	9001      	str	r0, [sp, #4]
 8024d38:	2000      	movs	r0, #0
 8024d3a:	454b      	cmp	r3, r9
 8024d3c:	d203      	bcs.n	8024d46 <__multiply+0x4a>
 8024d3e:	f843 0b04 	str.w	r0, [r3], #4
 8024d42:	4599      	cmp	r9, r3
 8024d44:	d8fb      	bhi.n	8024d3e <__multiply+0x42>
 8024d46:	eb07 0585 	add.w	r5, r7, r5, lsl #2
 8024d4a:	eb04 0686 	add.w	r6, r4, r6, lsl #2
 8024d4e:	3714      	adds	r7, #20
 8024d50:	3514      	adds	r5, #20
 8024d52:	3414      	adds	r4, #20
 8024d54:	3614      	adds	r6, #20
 8024d56:	42af      	cmp	r7, r5
 8024d58:	d257      	bcs.n	8024e0a <__multiply+0x10e>
 8024d5a:	9a01      	ldr	r2, [sp, #4]
 8024d5c:	f8cd 9008 	str.w	r9, [sp, #8]
 8024d60:	46a9      	mov	r9, r5
 8024d62:	f8cd 800c 	str.w	r8, [sp, #12]
 8024d66:	f102 0c18 	add.w	ip, r2, #24
 8024d6a:	46a0      	mov	r8, r4
 8024d6c:	f857 4b04 	ldr.w	r4, [r7], #4
 8024d70:	b2a0      	uxth	r0, r4
 8024d72:	b1f0      	cbz	r0, 8024db2 <__multiply+0xb6>
 8024d74:	4642      	mov	r2, r8
 8024d76:	f1ac 0304 	sub.w	r3, ip, #4
 8024d7a:	2400      	movs	r4, #0
 8024d7c:	f852 1b04 	ldr.w	r1, [r2], #4
 8024d80:	681d      	ldr	r5, [r3, #0]
 8024d82:	fa1f fa81 	uxth.w	sl, r1
 8024d86:	0c09      	lsrs	r1, r1, #16
 8024d88:	fa1f fb85 	uxth.w	fp, r5
 8024d8c:	0c2d      	lsrs	r5, r5, #16
 8024d8e:	fb00 ba0a 	mla	sl, r0, sl, fp
 8024d92:	fb00 5101 	mla	r1, r0, r1, r5
 8024d96:	4454      	add	r4, sl
 8024d98:	eb01 4114 	add.w	r1, r1, r4, lsr #16
 8024d9c:	b2a4      	uxth	r4, r4
 8024d9e:	ea44 4501 	orr.w	r5, r4, r1, lsl #16
 8024da2:	0c0c      	lsrs	r4, r1, #16
 8024da4:	4296      	cmp	r6, r2
 8024da6:	f843 5b04 	str.w	r5, [r3], #4
 8024daa:	d8e7      	bhi.n	8024d7c <__multiply+0x80>
 8024dac:	601c      	str	r4, [r3, #0]
 8024dae:	f857 4c04 	ldr.w	r4, [r7, #-4]
 8024db2:	0c24      	lsrs	r4, r4, #16
 8024db4:	d021      	beq.n	8024dfa <__multiply+0xfe>
 8024db6:	f85c 1c04 	ldr.w	r1, [ip, #-4]
 8024dba:	4642      	mov	r2, r8
 8024dbc:	4663      	mov	r3, ip
 8024dbe:	2500      	movs	r5, #0
 8024dc0:	4608      	mov	r0, r1
 8024dc2:	f8b2 a000 	ldrh.w	sl, [r2]
 8024dc6:	0c00      	lsrs	r0, r0, #16
 8024dc8:	b289      	uxth	r1, r1
 8024dca:	469b      	mov	fp, r3
 8024dcc:	fb04 000a 	mla	r0, r4, sl, r0
 8024dd0:	1945      	adds	r5, r0, r5
 8024dd2:	ea41 4105 	orr.w	r1, r1, r5, lsl #16
 8024dd6:	f843 1c04 	str.w	r1, [r3, #-4]
 8024dda:	f853 0b04 	ldr.w	r0, [r3], #4
 8024dde:	f852 1b04 	ldr.w	r1, [r2], #4
 8024de2:	fa1f fa80 	uxth.w	sl, r0
 8024de6:	0c09      	lsrs	r1, r1, #16
 8024de8:	fb04 a101 	mla	r1, r4, r1, sl
 8024dec:	eb01 4115 	add.w	r1, r1, r5, lsr #16
 8024df0:	0c0d      	lsrs	r5, r1, #16
 8024df2:	4296      	cmp	r6, r2
 8024df4:	d8e5      	bhi.n	8024dc2 <__multiply+0xc6>
 8024df6:	f8cb 1000 	str.w	r1, [fp]
 8024dfa:	45b9      	cmp	r9, r7
 8024dfc:	f10c 0c04 	add.w	ip, ip, #4
 8024e00:	d8b4      	bhi.n	8024d6c <__multiply+0x70>
 8024e02:	f8dd 9008 	ldr.w	r9, [sp, #8]
 8024e06:	f8dd 800c 	ldr.w	r8, [sp, #12]
 8024e0a:	f1b8 0f00 	cmp.w	r8, #0
 8024e0e:	dd0b      	ble.n	8024e28 <__multiply+0x12c>
 8024e10:	f859 3c04 	ldr.w	r3, [r9, #-4]
 8024e14:	f1a9 0904 	sub.w	r9, r9, #4
 8024e18:	b11b      	cbz	r3, 8024e22 <__multiply+0x126>
 8024e1a:	e005      	b.n	8024e28 <__multiply+0x12c>
 8024e1c:	f859 3d04 	ldr.w	r3, [r9, #-4]!
 8024e20:	b913      	cbnz	r3, 8024e28 <__multiply+0x12c>
 8024e22:	f1b8 0801 	subs.w	r8, r8, #1
 8024e26:	d1f9      	bne.n	8024e1c <__multiply+0x120>
 8024e28:	9b01      	ldr	r3, [sp, #4]
 8024e2a:	4618      	mov	r0, r3
 8024e2c:	f8c3 8010 	str.w	r8, [r3, #16]
 8024e30:	b005      	add	sp, #20
 8024e32:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8024e36:	bf00      	nop

08024e38 <__pow5mult>:
 8024e38:	f012 0303 	ands.w	r3, r2, #3
 8024e3c:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 8024e40:	4614      	mov	r4, r2
 8024e42:	4680      	mov	r8, r0
 8024e44:	460f      	mov	r7, r1
 8024e46:	d128      	bne.n	8024e9a <__pow5mult+0x62>
 8024e48:	10a4      	asrs	r4, r4, #2
 8024e4a:	d01a      	beq.n	8024e82 <__pow5mult+0x4a>
 8024e4c:	f8d8 5024 	ldr.w	r5, [r8, #36]	; 0x24
 8024e50:	2d00      	cmp	r5, #0
 8024e52:	d02e      	beq.n	8024eb2 <__pow5mult+0x7a>
 8024e54:	68ae      	ldr	r6, [r5, #8]
 8024e56:	b92e      	cbnz	r6, 8024e64 <__pow5mult+0x2c>
 8024e58:	e036      	b.n	8024ec8 <__pow5mult+0x90>
 8024e5a:	1064      	asrs	r4, r4, #1
 8024e5c:	d011      	beq.n	8024e82 <__pow5mult+0x4a>
 8024e5e:	6835      	ldr	r5, [r6, #0]
 8024e60:	b195      	cbz	r5, 8024e88 <__pow5mult+0x50>
 8024e62:	462e      	mov	r6, r5
 8024e64:	07e0      	lsls	r0, r4, #31
 8024e66:	d5f8      	bpl.n	8024e5a <__pow5mult+0x22>
 8024e68:	4639      	mov	r1, r7
 8024e6a:	4632      	mov	r2, r6
 8024e6c:	4640      	mov	r0, r8
 8024e6e:	f7ff ff45 	bl	8024cfc <__multiply>
 8024e72:	4639      	mov	r1, r7
 8024e74:	4605      	mov	r5, r0
 8024e76:	4640      	mov	r0, r8
 8024e78:	f7ff fe3e 	bl	8024af8 <_Bfree>
 8024e7c:	1064      	asrs	r4, r4, #1
 8024e7e:	462f      	mov	r7, r5
 8024e80:	d1ed      	bne.n	8024e5e <__pow5mult+0x26>
 8024e82:	4638      	mov	r0, r7
 8024e84:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 8024e88:	4631      	mov	r1, r6
 8024e8a:	4632      	mov	r2, r6
 8024e8c:	4640      	mov	r0, r8
 8024e8e:	f7ff ff35 	bl	8024cfc <__multiply>
 8024e92:	6030      	str	r0, [r6, #0]
 8024e94:	4606      	mov	r6, r0
 8024e96:	6005      	str	r5, [r0, #0]
 8024e98:	e7e4      	b.n	8024e64 <__pow5mult+0x2c>
 8024e9a:	f248 62d0 	movw	r2, #34512	; 0x86d0
 8024e9e:	1e5d      	subs	r5, r3, #1
 8024ea0:	f6c0 0203 	movt	r2, #2051	; 0x803
 8024ea4:	2300      	movs	r3, #0
 8024ea6:	f852 2025 	ldr.w	r2, [r2, r5, lsl #2]
 8024eaa:	f7ff fe41 	bl	8024b30 <__multadd>
 8024eae:	4607      	mov	r7, r0
 8024eb0:	e7ca      	b.n	8024e48 <__pow5mult+0x10>
 8024eb2:	2010      	movs	r0, #16
 8024eb4:	f7ff fac0 	bl	8024438 <malloc>
 8024eb8:	2300      	movs	r3, #0
 8024eba:	4605      	mov	r5, r0
 8024ebc:	f8c8 0024 	str.w	r0, [r8, #36]	; 0x24
 8024ec0:	6043      	str	r3, [r0, #4]
 8024ec2:	6083      	str	r3, [r0, #8]
 8024ec4:	6003      	str	r3, [r0, #0]
 8024ec6:	60c3      	str	r3, [r0, #12]
 8024ec8:	4640      	mov	r0, r8
 8024eca:	f240 2171 	movw	r1, #625	; 0x271
 8024ece:	f7ff ff0b 	bl	8024ce8 <__i2b>
 8024ed2:	2300      	movs	r3, #0
 8024ed4:	60a8      	str	r0, [r5, #8]
 8024ed6:	4606      	mov	r6, r0
 8024ed8:	6003      	str	r3, [r0, #0]
 8024eda:	e7c3      	b.n	8024e64 <__pow5mult+0x2c>

08024edc <__lshift>:
 8024edc:	e92d 4ff8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8024ee0:	4693      	mov	fp, r2
 8024ee2:	690a      	ldr	r2, [r1, #16]
 8024ee4:	460f      	mov	r7, r1
 8024ee6:	ea4f 156b 	mov.w	r5, fp, asr #5
 8024eea:	688b      	ldr	r3, [r1, #8]
 8024eec:	eb05 0a02 	add.w	sl, r5, r2
 8024ef0:	4681      	mov	r9, r0
 8024ef2:	f10a 0601 	add.w	r6, sl, #1
 8024ef6:	6849      	ldr	r1, [r1, #4]
 8024ef8:	429e      	cmp	r6, r3
 8024efa:	dd03      	ble.n	8024f04 <__lshift+0x28>
 8024efc:	005b      	lsls	r3, r3, #1
 8024efe:	3101      	adds	r1, #1
 8024f00:	429e      	cmp	r6, r3
 8024f02:	dcfb      	bgt.n	8024efc <__lshift+0x20>
 8024f04:	4648      	mov	r0, r9
 8024f06:	f7ff fdc1 	bl	8024a8c <_Balloc>
 8024f0a:	2d00      	cmp	r5, #0
 8024f0c:	4680      	mov	r8, r0
 8024f0e:	f100 0414 	add.w	r4, r0, #20
 8024f12:	dd0a      	ble.n	8024f2a <__lshift+0x4e>
 8024f14:	2300      	movs	r3, #0
 8024f16:	461a      	mov	r2, r3
 8024f18:	3301      	adds	r3, #1
 8024f1a:	f844 2b04 	str.w	r2, [r4], #4
 8024f1e:	42ab      	cmp	r3, r5
 8024f20:	d1fa      	bne.n	8024f18 <__lshift+0x3c>
 8024f22:	eb08 0383 	add.w	r3, r8, r3, lsl #2
 8024f26:	f103 0414 	add.w	r4, r3, #20
 8024f2a:	6938      	ldr	r0, [r7, #16]
 8024f2c:	f107 0514 	add.w	r5, r7, #20
 8024f30:	eb07 0080 	add.w	r0, r7, r0, lsl #2
 8024f34:	3014      	adds	r0, #20
 8024f36:	f01b 0b1f 	ands.w	fp, fp, #31
 8024f3a:	d01c      	beq.n	8024f76 <__lshift+0x9a>
 8024f3c:	f1cb 0320 	rsb	r3, fp, #32
 8024f40:	2200      	movs	r2, #0
 8024f42:	6829      	ldr	r1, [r5, #0]
 8024f44:	fa01 f10b 	lsl.w	r1, r1, fp
 8024f48:	430a      	orrs	r2, r1
 8024f4a:	f844 2b04 	str.w	r2, [r4], #4
 8024f4e:	f855 2b04 	ldr.w	r2, [r5], #4
 8024f52:	42a8      	cmp	r0, r5
 8024f54:	fa22 f203 	lsr.w	r2, r2, r3
 8024f58:	d8f3      	bhi.n	8024f42 <__lshift+0x66>
 8024f5a:	6022      	str	r2, [r4, #0]
 8024f5c:	b10a      	cbz	r2, 8024f62 <__lshift+0x86>
 8024f5e:	f10a 0602 	add.w	r6, sl, #2
 8024f62:	4648      	mov	r0, r9
 8024f64:	3e01      	subs	r6, #1
 8024f66:	4639      	mov	r1, r7
 8024f68:	f8c8 6010 	str.w	r6, [r8, #16]
 8024f6c:	f7ff fdc4 	bl	8024af8 <_Bfree>
 8024f70:	4640      	mov	r0, r8
 8024f72:	e8bd 8ff8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8024f76:	f855 3b04 	ldr.w	r3, [r5], #4
 8024f7a:	42a8      	cmp	r0, r5
 8024f7c:	f844 3b04 	str.w	r3, [r4], #4
 8024f80:	d9ef      	bls.n	8024f62 <__lshift+0x86>
 8024f82:	f855 3b04 	ldr.w	r3, [r5], #4
 8024f86:	42a8      	cmp	r0, r5
 8024f88:	f844 3b04 	str.w	r3, [r4], #4
 8024f8c:	d8f3      	bhi.n	8024f76 <__lshift+0x9a>
 8024f8e:	e7e8      	b.n	8024f62 <__lshift+0x86>

08024f90 <__mcmp>:
 8024f90:	4603      	mov	r3, r0
 8024f92:	690a      	ldr	r2, [r1, #16]
 8024f94:	6900      	ldr	r0, [r0, #16]
 8024f96:	b430      	push	{r4, r5}
 8024f98:	1a80      	subs	r0, r0, r2
 8024f9a:	d10f      	bne.n	8024fbc <__mcmp+0x2c>
 8024f9c:	3204      	adds	r2, #4
 8024f9e:	f103 0514 	add.w	r5, r3, #20
 8024fa2:	0092      	lsls	r2, r2, #2
 8024fa4:	189b      	adds	r3, r3, r2
 8024fa6:	1889      	adds	r1, r1, r2
 8024fa8:	3304      	adds	r3, #4
 8024faa:	3104      	adds	r1, #4
 8024fac:	f853 2d04 	ldr.w	r2, [r3, #-4]!
 8024fb0:	f851 4d04 	ldr.w	r4, [r1, #-4]!
 8024fb4:	42a2      	cmp	r2, r4
 8024fb6:	d103      	bne.n	8024fc0 <__mcmp+0x30>
 8024fb8:	429d      	cmp	r5, r3
 8024fba:	d3f7      	bcc.n	8024fac <__mcmp+0x1c>
 8024fbc:	bc30      	pop	{r4, r5}
 8024fbe:	4770      	bx	lr
 8024fc0:	4294      	cmp	r4, r2
 8024fc2:	bf94      	ite	ls
 8024fc4:	2001      	movls	r0, #1
 8024fc6:	f04f 30ff 	movhi.w	r0, #4294967295
 8024fca:	e7f7      	b.n	8024fbc <__mcmp+0x2c>

08024fcc <__mdiff>:
 8024fcc:	e92d 4ff8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8024fd0:	468b      	mov	fp, r1
 8024fd2:	4604      	mov	r4, r0
 8024fd4:	4611      	mov	r1, r2
 8024fd6:	4658      	mov	r0, fp
 8024fd8:	4691      	mov	r9, r2
 8024fda:	f7ff ffd9 	bl	8024f90 <__mcmp>
 8024fde:	1e05      	subs	r5, r0, #0
 8024fe0:	d061      	beq.n	80250a6 <__mdiff+0xda>
 8024fe2:	bfbc      	itt	lt
 8024fe4:	465b      	movlt	r3, fp
 8024fe6:	46cb      	movlt	fp, r9
 8024fe8:	4620      	mov	r0, r4
 8024fea:	bfb8      	it	lt
 8024fec:	4699      	movlt	r9, r3
 8024fee:	f8db 1004 	ldr.w	r1, [fp, #4]
 8024ff2:	bfac      	ite	ge
 8024ff4:	f04f 0800 	movge.w	r8, #0
 8024ff8:	f04f 0801 	movlt.w	r8, #1
 8024ffc:	f7ff fd46 	bl	8024a8c <_Balloc>
 8025000:	f8db 7010 	ldr.w	r7, [fp, #16]
 8025004:	f109 0514 	add.w	r5, r9, #20
 8025008:	f8d9 3010 	ldr.w	r3, [r9, #16]
 802500c:	f10b 0614 	add.w	r6, fp, #20
 8025010:	2400      	movs	r4, #0
 8025012:	eb0b 0c87 	add.w	ip, fp, r7, lsl #2
 8025016:	eb09 0983 	add.w	r9, r9, r3, lsl #2
 802501a:	f10c 0c14 	add.w	ip, ip, #20
 802501e:	f109 0914 	add.w	r9, r9, #20
 8025022:	f100 0a14 	add.w	sl, r0, #20
 8025026:	f8c0 800c 	str.w	r8, [r0, #12]
 802502a:	f856 8b04 	ldr.w	r8, [r6], #4
 802502e:	4653      	mov	r3, sl
 8025030:	f855 ab04 	ldr.w	sl, [r5], #4
 8025034:	4632      	mov	r2, r6
 8025036:	fa1f f188 	uxth.w	r1, r8
 802503a:	1909      	adds	r1, r1, r4
 802503c:	fa1f fb8a 	uxth.w	fp, sl
 8025040:	ebcb 0101 	rsb	r1, fp, r1
 8025044:	ea4f 441a 	mov.w	r4, sl, lsr #16
 8025048:	ebc4 4418 	rsb	r4, r4, r8, lsr #16
 802504c:	eb04 4421 	add.w	r4, r4, r1, asr #16
 8025050:	b289      	uxth	r1, r1
 8025052:	ea41 4104 	orr.w	r1, r1, r4, lsl #16
 8025056:	1424      	asrs	r4, r4, #16
 8025058:	45a9      	cmp	r9, r5
 802505a:	f843 1b04 	str.w	r1, [r3], #4
 802505e:	469a      	mov	sl, r3
 8025060:	d8e3      	bhi.n	802502a <__mdiff+0x5e>
 8025062:	45b4      	cmp	ip, r6
 8025064:	4698      	mov	r8, r3
 8025066:	d914      	bls.n	8025092 <__mdiff+0xc6>
 8025068:	f852 5b04 	ldr.w	r5, [r2], #4
 802506c:	b2a9      	uxth	r1, r5
 802506e:	0c2d      	lsrs	r5, r5, #16
 8025070:	190c      	adds	r4, r1, r4
 8025072:	eb05 4524 	add.w	r5, r5, r4, asr #16
 8025076:	b2a4      	uxth	r4, r4
 8025078:	ea44 4105 	orr.w	r1, r4, r5, lsl #16
 802507c:	142c      	asrs	r4, r5, #16
 802507e:	4594      	cmp	ip, r2
 8025080:	f843 1b04 	str.w	r1, [r3], #4
 8025084:	d8f0      	bhi.n	8025068 <__mdiff+0x9c>
 8025086:	43f3      	mvns	r3, r6
 8025088:	4463      	add	r3, ip
 802508a:	f023 0303 	bic.w	r3, r3, #3
 802508e:	3304      	adds	r3, #4
 8025090:	4443      	add	r3, r8
 8025092:	3b04      	subs	r3, #4
 8025094:	b921      	cbnz	r1, 80250a0 <__mdiff+0xd4>
 8025096:	f853 2d04 	ldr.w	r2, [r3, #-4]!
 802509a:	3f01      	subs	r7, #1
 802509c:	2a00      	cmp	r2, #0
 802509e:	d0fa      	beq.n	8025096 <__mdiff+0xca>
 80250a0:	6107      	str	r7, [r0, #16]
 80250a2:	e8bd 8ff8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}
 80250a6:	4620      	mov	r0, r4
 80250a8:	4629      	mov	r1, r5
 80250aa:	f7ff fcef 	bl	8024a8c <_Balloc>
 80250ae:	2301      	movs	r3, #1
 80250b0:	6145      	str	r5, [r0, #20]
 80250b2:	6103      	str	r3, [r0, #16]
 80250b4:	e8bd 8ff8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}

080250b8 <__ulp>:
 80250b8:	2300      	movs	r3, #0
 80250ba:	f6c7 73f0 	movt	r3, #32752	; 0x7ff0
 80250be:	400b      	ands	r3, r1
 80250c0:	f1a3 7350 	sub.w	r3, r3, #54525952	; 0x3400000
 80250c4:	2b00      	cmp	r3, #0
 80250c6:	dd02      	ble.n	80250ce <__ulp+0x16>
 80250c8:	4619      	mov	r1, r3
 80250ca:	2000      	movs	r0, #0
 80250cc:	4770      	bx	lr
 80250ce:	425b      	negs	r3, r3
 80250d0:	2100      	movs	r1, #0
 80250d2:	151b      	asrs	r3, r3, #20
 80250d4:	2b13      	cmp	r3, #19
 80250d6:	dd0b      	ble.n	80250f0 <__ulp+0x38>
 80250d8:	2b32      	cmp	r3, #50	; 0x32
 80250da:	dd02      	ble.n	80250e2 <__ulp+0x2a>
 80250dc:	2301      	movs	r3, #1
 80250de:	4618      	mov	r0, r3
 80250e0:	4770      	bx	lr
 80250e2:	2201      	movs	r2, #1
 80250e4:	f1c3 0333 	rsb	r3, r3, #51	; 0x33
 80250e8:	fa02 f303 	lsl.w	r3, r2, r3
 80250ec:	4618      	mov	r0, r3
 80250ee:	4770      	bx	lr
 80250f0:	f44f 2200 	mov.w	r2, #524288	; 0x80000
 80250f4:	2000      	movs	r0, #0
 80250f6:	fa42 f103 	asr.w	r1, r2, r3
 80250fa:	4770      	bx	lr

080250fc <__b2d>:
 80250fc:	e92d 43f8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
 8025100:	f100 0814 	add.w	r8, r0, #20
 8025104:	6906      	ldr	r6, [r0, #16]
 8025106:	4689      	mov	r9, r1
 8025108:	3604      	adds	r6, #4
 802510a:	eb00 0686 	add.w	r6, r0, r6, lsl #2
 802510e:	4634      	mov	r4, r6
 8025110:	4637      	mov	r7, r6
 8025112:	f854 5b04 	ldr.w	r5, [r4], #4
 8025116:	4628      	mov	r0, r5
 8025118:	f7ff fd9a 	bl	8024c50 <__hi0bits>
 802511c:	280a      	cmp	r0, #10
 802511e:	f1c0 0320 	rsb	r3, r0, #32
 8025122:	f8c9 3000 	str.w	r3, [r9]
 8025126:	dc18      	bgt.n	802515a <__b2d+0x5e>
 8025128:	45b0      	cmp	r8, r6
 802512a:	f1c0 010b 	rsb	r1, r0, #11
 802512e:	fa25 f701 	lsr.w	r7, r5, r1
 8025132:	bf38      	it	cc
 8025134:	f854 4c08 	ldrcc.w	r4, [r4, #-8]
 8025138:	f047 577f 	orr.w	r7, r7, #1069547520	; 0x3fc00000
 802513c:	f447 1340 	orr.w	r3, r7, #3145728	; 0x300000
 8025140:	bf34      	ite	cc
 8025142:	fa24 f101 	lsrcc.w	r1, r4, r1
 8025146:	2100      	movcs	r1, #0
 8025148:	3015      	adds	r0, #21
 802514a:	fa05 f500 	lsl.w	r5, r5, r0
 802514e:	ea41 0205 	orr.w	r2, r1, r5
 8025152:	4610      	mov	r0, r2
 8025154:	4619      	mov	r1, r3
 8025156:	e8bd 83f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, pc}
 802515a:	2100      	movs	r1, #0
 802515c:	45b0      	cmp	r8, r6
 802515e:	d202      	bcs.n	8025166 <__b2d+0x6a>
 8025160:	f854 1c08 	ldr.w	r1, [r4, #-8]
 8025164:	1f37      	subs	r7, r6, #4
 8025166:	f1b0 040b 	subs.w	r4, r0, #11
 802516a:	d018      	beq.n	802519e <__b2d+0xa2>
 802516c:	fa05 f504 	lsl.w	r5, r5, r4
 8025170:	f1c0 002b 	rsb	r0, r0, #43	; 0x2b
 8025174:	4547      	cmp	r7, r8
 8025176:	f045 557f 	orr.w	r5, r5, #1069547520	; 0x3fc00000
 802517a:	fa21 f600 	lsr.w	r6, r1, r0
 802517e:	f445 1540 	orr.w	r5, r5, #3145728	; 0x300000
 8025182:	ea45 0306 	orr.w	r3, r5, r6
 8025186:	bf88      	it	hi
 8025188:	f857 5c04 	ldrhi.w	r5, [r7, #-4]
 802518c:	fa01 f104 	lsl.w	r1, r1, r4
 8025190:	bf8c      	ite	hi
 8025192:	fa25 f000 	lsrhi.w	r0, r5, r0
 8025196:	2000      	movls	r0, #0
 8025198:	ea40 0201 	orr.w	r2, r0, r1
 802519c:	e7d9      	b.n	8025152 <__b2d+0x56>
 802519e:	f045 557f 	orr.w	r5, r5, #1069547520	; 0x3fc00000
 80251a2:	460a      	mov	r2, r1
 80251a4:	f445 1340 	orr.w	r3, r5, #3145728	; 0x300000
 80251a8:	e7d3      	b.n	8025152 <__b2d+0x56>
 80251aa:	bf00      	nop

080251ac <__d2b>:
 80251ac:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
 80251b0:	b083      	sub	sp, #12
 80251b2:	2101      	movs	r1, #1
 80251b4:	461d      	mov	r5, r3
 80251b6:	4614      	mov	r4, r2
 80251b8:	9f0a      	ldr	r7, [sp, #40]	; 0x28
 80251ba:	f7ff fc67 	bl	8024a8c <_Balloc>
 80251be:	f3c5 560a 	ubfx	r6, r5, #20, #11
 80251c2:	f025 437f 	bic.w	r3, r5, #4278190080	; 0xff000000
 80251c6:	46a9      	mov	r9, r5
 80251c8:	f423 0370 	bic.w	r3, r3, #15728640	; 0xf00000
 80251cc:	4680      	mov	r8, r0
 80251ce:	b10e      	cbz	r6, 80251d4 <__d2b+0x28>
 80251d0:	f443 1380 	orr.w	r3, r3, #1048576	; 0x100000
 80251d4:	9301      	str	r3, [sp, #4]
 80251d6:	2c00      	cmp	r4, #0
 80251d8:	d024      	beq.n	8025224 <__d2b+0x78>
 80251da:	a802      	add	r0, sp, #8
 80251dc:	f840 4d08 	str.w	r4, [r0, #-8]!
 80251e0:	4668      	mov	r0, sp
 80251e2:	f7ff fd53 	bl	8024c8c <__lo0bits>
 80251e6:	9b01      	ldr	r3, [sp, #4]
 80251e8:	2800      	cmp	r0, #0
 80251ea:	d131      	bne.n	8025250 <__d2b+0xa4>
 80251ec:	9a00      	ldr	r2, [sp, #0]
 80251ee:	f8c8 2014 	str.w	r2, [r8, #20]
 80251f2:	2b00      	cmp	r3, #0
 80251f4:	bf0c      	ite	eq
 80251f6:	2401      	moveq	r4, #1
 80251f8:	2402      	movne	r4, #2
 80251fa:	f8c8 3018 	str.w	r3, [r8, #24]
 80251fe:	f8c8 4010 	str.w	r4, [r8, #16]
 8025202:	b9e6      	cbnz	r6, 802523e <__d2b+0x92>
 8025204:	eb08 0384 	add.w	r3, r8, r4, lsl #2
 8025208:	f2a0 4032 	subw	r0, r0, #1074	; 0x432
 802520c:	6038      	str	r0, [r7, #0]
 802520e:	6918      	ldr	r0, [r3, #16]
 8025210:	f7ff fd1e 	bl	8024c50 <__hi0bits>
 8025214:	9b0b      	ldr	r3, [sp, #44]	; 0x2c
 8025216:	ebc0 1044 	rsb	r0, r0, r4, lsl #5
 802521a:	6018      	str	r0, [r3, #0]
 802521c:	4640      	mov	r0, r8
 802521e:	b003      	add	sp, #12
 8025220:	e8bd 83f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, pc}
 8025224:	a801      	add	r0, sp, #4
 8025226:	f7ff fd31 	bl	8024c8c <__lo0bits>
 802522a:	2301      	movs	r3, #1
 802522c:	461c      	mov	r4, r3
 802522e:	f8c8 3010 	str.w	r3, [r8, #16]
 8025232:	9b01      	ldr	r3, [sp, #4]
 8025234:	f8c8 3014 	str.w	r3, [r8, #20]
 8025238:	3020      	adds	r0, #32
 802523a:	2e00      	cmp	r6, #0
 802523c:	d0e2      	beq.n	8025204 <__d2b+0x58>
 802523e:	9a0b      	ldr	r2, [sp, #44]	; 0x2c
 8025240:	f2a6 4933 	subw	r9, r6, #1075	; 0x433
 8025244:	f1c0 0335 	rsb	r3, r0, #53	; 0x35
 8025248:	4448      	add	r0, r9
 802524a:	6038      	str	r0, [r7, #0]
 802524c:	6013      	str	r3, [r2, #0]
 802524e:	e7e5      	b.n	802521c <__d2b+0x70>
 8025250:	f1c0 0120 	rsb	r1, r0, #32
 8025254:	9a00      	ldr	r2, [sp, #0]
 8025256:	fa03 f101 	lsl.w	r1, r3, r1
 802525a:	fa23 f300 	lsr.w	r3, r3, r0
 802525e:	430a      	orrs	r2, r1
 8025260:	9301      	str	r3, [sp, #4]
 8025262:	f8c8 2014 	str.w	r2, [r8, #20]
 8025266:	e7c4      	b.n	80251f2 <__d2b+0x46>

08025268 <__ratio>:
 8025268:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
 802526c:	b083      	sub	sp, #12
 802526e:	4688      	mov	r8, r1
 8025270:	4669      	mov	r1, sp
 8025272:	4606      	mov	r6, r0
 8025274:	f7ff ff42 	bl	80250fc <__b2d>
 8025278:	460d      	mov	r5, r1
 802527a:	4604      	mov	r4, r0
 802527c:	a901      	add	r1, sp, #4
 802527e:	4640      	mov	r0, r8
 8025280:	f7ff ff3c 	bl	80250fc <__b2d>
 8025284:	462f      	mov	r7, r5
 8025286:	460b      	mov	r3, r1
 8025288:	4602      	mov	r2, r0
 802528a:	f8d8 1010 	ldr.w	r1, [r8, #16]
 802528e:	4699      	mov	r9, r3
 8025290:	6930      	ldr	r0, [r6, #16]
 8025292:	4626      	mov	r6, r4
 8025294:	4690      	mov	r8, r2
 8025296:	ebc1 0e00 	rsb	lr, r1, r0
 802529a:	e89d 0003 	ldmia.w	sp, {r0, r1}
 802529e:	1a40      	subs	r0, r0, r1
 80252a0:	eb00 114e 	add.w	r1, r0, lr, lsl #5
 80252a4:	2900      	cmp	r1, #0
 80252a6:	bfc9      	itett	gt
 80252a8:	eb05 5701 	addgt.w	r7, r5, r1, lsl #20
 80252ac:	eba3 5901 	suble.w	r9, r3, r1, lsl #20
 80252b0:	4624      	movgt	r4, r4
 80252b2:	463d      	movgt	r5, r7
 80252b4:	bfdc      	itt	le
 80252b6:	4612      	movle	r2, r2
 80252b8:	464b      	movle	r3, r9
 80252ba:	4620      	mov	r0, r4
 80252bc:	4629      	mov	r1, r5
 80252be:	f7fb faa9 	bl	8020814 <__aeabi_ddiv>
 80252c2:	b003      	add	sp, #12
 80252c4:	e8bd 83f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, pc}

080252c8 <_mprec_log10>:
 80252c8:	2817      	cmp	r0, #23
 80252ca:	b510      	push	{r4, lr}
 80252cc:	4604      	mov	r4, r0
 80252ce:	dd0c      	ble.n	80252ea <_mprec_log10+0x22>
 80252d0:	2100      	movs	r1, #0
 80252d2:	2000      	movs	r0, #0
 80252d4:	f6c3 71f0 	movt	r1, #16368	; 0x3ff0
 80252d8:	2300      	movs	r3, #0
 80252da:	2200      	movs	r2, #0
 80252dc:	f2c4 0324 	movt	r3, #16420	; 0x4024
 80252e0:	f7fb f96e 	bl	80205c0 <__aeabi_dmul>
 80252e4:	3c01      	subs	r4, #1
 80252e6:	d1f7      	bne.n	80252d8 <_mprec_log10+0x10>
 80252e8:	bd10      	pop	{r4, pc}
 80252ea:	f248 63d0 	movw	r3, #34512	; 0x86d0
 80252ee:	f6c0 0303 	movt	r3, #2051	; 0x803
 80252f2:	eb03 03c0 	add.w	r3, r3, r0, lsl #3
 80252f6:	e9d3 0104 	ldrd	r0, r1, [r3, #16]
 80252fa:	bd10      	pop	{r4, pc}

080252fc <__copybits>:
 80252fc:	b470      	push	{r4, r5, r6}
 80252fe:	3901      	subs	r1, #1
 8025300:	6915      	ldr	r5, [r2, #16]
 8025302:	f102 0314 	add.w	r3, r2, #20
 8025306:	114e      	asrs	r6, r1, #5
 8025308:	3601      	adds	r6, #1
 802530a:	eb02 0585 	add.w	r5, r2, r5, lsl #2
 802530e:	3514      	adds	r5, #20
 8025310:	eb00 0686 	add.w	r6, r0, r6, lsl #2
 8025314:	42ab      	cmp	r3, r5
 8025316:	d20c      	bcs.n	8025332 <__copybits+0x36>
 8025318:	4601      	mov	r1, r0
 802531a:	f853 4b04 	ldr.w	r4, [r3], #4
 802531e:	429d      	cmp	r5, r3
 8025320:	f841 4b04 	str.w	r4, [r1], #4
 8025324:	d8f9      	bhi.n	802531a <__copybits+0x1e>
 8025326:	1aab      	subs	r3, r5, r2
 8025328:	3b15      	subs	r3, #21
 802532a:	f023 0303 	bic.w	r3, r3, #3
 802532e:	3304      	adds	r3, #4
 8025330:	18c0      	adds	r0, r0, r3
 8025332:	4286      	cmp	r6, r0
 8025334:	d904      	bls.n	8025340 <__copybits+0x44>
 8025336:	2300      	movs	r3, #0
 8025338:	f840 3b04 	str.w	r3, [r0], #4
 802533c:	4286      	cmp	r6, r0
 802533e:	d8fb      	bhi.n	8025338 <__copybits+0x3c>
 8025340:	bc70      	pop	{r4, r5, r6}
 8025342:	4770      	bx	lr

08025344 <__any_on>:
 8025344:	b430      	push	{r4, r5}
 8025346:	114b      	asrs	r3, r1, #5
 8025348:	6904      	ldr	r4, [r0, #16]
 802534a:	f100 0214 	add.w	r2, r0, #20
 802534e:	429c      	cmp	r4, r3
 8025350:	bfb8      	it	lt
 8025352:	4623      	movlt	r3, r4
 8025354:	db00      	blt.n	8025358 <__any_on+0x14>
 8025356:	dc11      	bgt.n	802537c <__any_on+0x38>
 8025358:	3304      	adds	r3, #4
 802535a:	eb00 0083 	add.w	r0, r0, r3, lsl #2
 802535e:	1d03      	adds	r3, r0, #4
 8025360:	429a      	cmp	r2, r3
 8025362:	d218      	bcs.n	8025396 <__any_on+0x52>
 8025364:	f853 3c04 	ldr.w	r3, [r3, #-4]
 8025368:	b92b      	cbnz	r3, 8025376 <__any_on+0x32>
 802536a:	4282      	cmp	r2, r0
 802536c:	d213      	bcs.n	8025396 <__any_on+0x52>
 802536e:	f850 3d04 	ldr.w	r3, [r0, #-4]!
 8025372:	2b00      	cmp	r3, #0
 8025374:	d0f9      	beq.n	802536a <__any_on+0x26>
 8025376:	2001      	movs	r0, #1
 8025378:	bc30      	pop	{r4, r5}
 802537a:	4770      	bx	lr
 802537c:	f011 011f 	ands.w	r1, r1, #31
 8025380:	d0ea      	beq.n	8025358 <__any_on+0x14>
 8025382:	eb00 0483 	add.w	r4, r0, r3, lsl #2
 8025386:	6964      	ldr	r4, [r4, #20]
 8025388:	fa24 f501 	lsr.w	r5, r4, r1
 802538c:	fa05 f101 	lsl.w	r1, r5, r1
 8025390:	42a1      	cmp	r1, r4
 8025392:	d1f0      	bne.n	8025376 <__any_on+0x32>
 8025394:	e7e0      	b.n	8025358 <__any_on+0x14>
 8025396:	2000      	movs	r0, #0
 8025398:	e7ee      	b.n	8025378 <__any_on+0x34>
 802539a:	bf00      	nop

0802539c <_sbrk_r>:
 802539c:	b538      	push	{r3, r4, r5, lr}
 802539e:	f643 0438 	movw	r4, #14392	; 0x3838
 80253a2:	f2c2 0401 	movt	r4, #8193	; 0x2001
 80253a6:	4605      	mov	r5, r0
 80253a8:	4608      	mov	r0, r1
 80253aa:	2300      	movs	r3, #0
 80253ac:	6023      	str	r3, [r4, #0]
 80253ae:	f013 f8b3 	bl	8038518 <_sbrk>
 80253b2:	1c43      	adds	r3, r0, #1
 80253b4:	d000      	beq.n	80253b8 <_sbrk_r+0x1c>
 80253b6:	bd38      	pop	{r3, r4, r5, pc}
 80253b8:	6823      	ldr	r3, [r4, #0]
 80253ba:	2b00      	cmp	r3, #0
 80253bc:	d0fb      	beq.n	80253b6 <_sbrk_r+0x1a>
 80253be:	602b      	str	r3, [r5, #0]
 80253c0:	bd38      	pop	{r3, r4, r5, pc}
 80253c2:	bf00      	nop

080253c4 <strchr>:
 80253c4:	b2c9      	uxtb	r1, r1
 80253c6:	b4f0      	push	{r4, r5, r6, r7}
 80253c8:	2900      	cmp	r1, #0
 80253ca:	d04b      	beq.n	8025464 <strchr+0xa0>
 80253cc:	0783      	lsls	r3, r0, #30
 80253ce:	d00f      	beq.n	80253f0 <strchr+0x2c>
 80253d0:	7803      	ldrb	r3, [r0, #0]
 80253d2:	2b00      	cmp	r3, #0
 80253d4:	d073      	beq.n	80254be <strchr+0xfa>
 80253d6:	4299      	cmp	r1, r3
 80253d8:	d042      	beq.n	8025460 <strchr+0x9c>
 80253da:	1c43      	adds	r3, r0, #1
 80253dc:	e005      	b.n	80253ea <strchr+0x26>
 80253de:	f813 2b01 	ldrb.w	r2, [r3], #1
 80253e2:	2a00      	cmp	r2, #0
 80253e4:	d03b      	beq.n	802545e <strchr+0x9a>
 80253e6:	4291      	cmp	r1, r2
 80253e8:	d03a      	beq.n	8025460 <strchr+0x9c>
 80253ea:	079a      	lsls	r2, r3, #30
 80253ec:	4618      	mov	r0, r3
 80253ee:	d1f6      	bne.n	80253de <strchr+0x1a>
 80253f0:	6803      	ldr	r3, [r0, #0]
 80253f2:	ea41 2701 	orr.w	r7, r1, r1, lsl #8
 80253f6:	f1a3 3201 	sub.w	r2, r3, #16843009	; 0x1010101
 80253fa:	ea47 4707 	orr.w	r7, r7, r7, lsl #16
 80253fe:	ea22 0203 	bic.w	r2, r2, r3
 8025402:	f012 3f80 	tst.w	r2, #2155905152	; 0x80808080
 8025406:	d11c      	bne.n	8025442 <strchr+0x7e>
 8025408:	407b      	eors	r3, r7
 802540a:	f1a3 3201 	sub.w	r2, r3, #16843009	; 0x1010101
 802540e:	ea22 0303 	bic.w	r3, r2, r3
 8025412:	f013 3f80 	tst.w	r3, #2155905152	; 0x80808080
 8025416:	d114      	bne.n	8025442 <strchr+0x7e>
 8025418:	1d02      	adds	r2, r0, #4
 802541a:	e002      	b.n	8025422 <strchr+0x5e>
 802541c:	f014 3f80 	tst.w	r4, #2155905152	; 0x80808080
 8025420:	d10f      	bne.n	8025442 <strchr+0x7e>
 8025422:	4610      	mov	r0, r2
 8025424:	f852 3b04 	ldr.w	r3, [r2], #4
 8025428:	f1a3 3601 	sub.w	r6, r3, #16843009	; 0x1010101
 802542c:	ea87 0403 	eor.w	r4, r7, r3
 8025430:	ea26 0303 	bic.w	r3, r6, r3
 8025434:	f1a4 3501 	sub.w	r5, r4, #16843009	; 0x1010101
 8025438:	f013 3f80 	tst.w	r3, #2155905152	; 0x80808080
 802543c:	ea25 0404 	bic.w	r4, r5, r4
 8025440:	d0ec      	beq.n	802541c <strchr+0x58>
 8025442:	7803      	ldrb	r3, [r0, #0]
 8025444:	2b00      	cmp	r3, #0
 8025446:	d03a      	beq.n	80254be <strchr+0xfa>
 8025448:	4299      	cmp	r1, r3
 802544a:	d009      	beq.n	8025460 <strchr+0x9c>
 802544c:	1c43      	adds	r3, r0, #1
 802544e:	e001      	b.n	8025454 <strchr+0x90>
 8025450:	4291      	cmp	r1, r2
 8025452:	d005      	beq.n	8025460 <strchr+0x9c>
 8025454:	4618      	mov	r0, r3
 8025456:	f813 2b01 	ldrb.w	r2, [r3], #1
 802545a:	2a00      	cmp	r2, #0
 802545c:	d1f8      	bne.n	8025450 <strchr+0x8c>
 802545e:	4610      	mov	r0, r2
 8025460:	bcf0      	pop	{r4, r5, r6, r7}
 8025462:	4770      	bx	lr
 8025464:	0781      	lsls	r1, r0, #30
 8025466:	d00d      	beq.n	8025484 <strchr+0xc0>
 8025468:	7803      	ldrb	r3, [r0, #0]
 802546a:	2b00      	cmp	r3, #0
 802546c:	d0f8      	beq.n	8025460 <strchr+0x9c>
 802546e:	1c43      	adds	r3, r0, #1
 8025470:	e002      	b.n	8025478 <strchr+0xb4>
 8025472:	7802      	ldrb	r2, [r0, #0]
 8025474:	2a00      	cmp	r2, #0
 8025476:	d0f3      	beq.n	8025460 <strchr+0x9c>
 8025478:	f013 0f03 	tst.w	r3, #3
 802547c:	4618      	mov	r0, r3
 802547e:	f103 0301 	add.w	r3, r3, #1
 8025482:	d1f6      	bne.n	8025472 <strchr+0xae>
 8025484:	6803      	ldr	r3, [r0, #0]
 8025486:	f1a3 3201 	sub.w	r2, r3, #16843009	; 0x1010101
 802548a:	ea22 0303 	bic.w	r3, r2, r3
 802548e:	f013 3f80 	tst.w	r3, #2155905152	; 0x80808080
 8025492:	d10a      	bne.n	80254aa <strchr+0xe6>
 8025494:	1d02      	adds	r2, r0, #4
 8025496:	4610      	mov	r0, r2
 8025498:	f852 1b04 	ldr.w	r1, [r2], #4
 802549c:	f1a1 3401 	sub.w	r4, r1, #16843009	; 0x1010101
 80254a0:	ea24 0101 	bic.w	r1, r4, r1
 80254a4:	f011 3f80 	tst.w	r1, #2155905152	; 0x80808080
 80254a8:	d0f5      	beq.n	8025496 <strchr+0xd2>
 80254aa:	7803      	ldrb	r3, [r0, #0]
 80254ac:	2b00      	cmp	r3, #0
 80254ae:	d0d7      	beq.n	8025460 <strchr+0x9c>
 80254b0:	1c43      	adds	r3, r0, #1
 80254b2:	4618      	mov	r0, r3
 80254b4:	3301      	adds	r3, #1
 80254b6:	7802      	ldrb	r2, [r0, #0]
 80254b8:	2a00      	cmp	r2, #0
 80254ba:	d1fa      	bne.n	80254b2 <strchr+0xee>
 80254bc:	e7d0      	b.n	8025460 <strchr+0x9c>
 80254be:	4618      	mov	r0, r3
 80254c0:	e7ce      	b.n	8025460 <strchr+0x9c>
 80254c2:	bf00      	nop

080254c4 <_calloc_r>:
 80254c4:	b510      	push	{r4, lr}
 80254c6:	fb01 f102 	mul.w	r1, r1, r2
 80254ca:	f7fe ffc5 	bl	8024458 <_malloc_r>
 80254ce:	4604      	mov	r4, r0
 80254d0:	b170      	cbz	r0, 80254f0 <_calloc_r+0x2c>
 80254d2:	f850 2c04 	ldr.w	r2, [r0, #-4]
 80254d6:	f022 0203 	bic.w	r2, r2, #3
 80254da:	3a04      	subs	r2, #4
 80254dc:	2a24      	cmp	r2, #36	; 0x24
 80254de:	d81c      	bhi.n	802551a <_calloc_r+0x56>
 80254e0:	2a13      	cmp	r2, #19
 80254e2:	bf98      	it	ls
 80254e4:	4603      	movls	r3, r0
 80254e6:	d805      	bhi.n	80254f4 <_calloc_r+0x30>
 80254e8:	2200      	movs	r2, #0
 80254ea:	601a      	str	r2, [r3, #0]
 80254ec:	605a      	str	r2, [r3, #4]
 80254ee:	609a      	str	r2, [r3, #8]
 80254f0:	4620      	mov	r0, r4
 80254f2:	bd10      	pop	{r4, pc}
 80254f4:	2100      	movs	r1, #0
 80254f6:	2a1b      	cmp	r2, #27
 80254f8:	6001      	str	r1, [r0, #0]
 80254fa:	bf98      	it	ls
 80254fc:	f100 0308 	addls.w	r3, r0, #8
 8025500:	6041      	str	r1, [r0, #4]
 8025502:	d9f1      	bls.n	80254e8 <_calloc_r+0x24>
 8025504:	2a24      	cmp	r2, #36	; 0x24
 8025506:	6081      	str	r1, [r0, #8]
 8025508:	60c1      	str	r1, [r0, #12]
 802550a:	bf11      	iteee	ne
 802550c:	f100 0310 	addne.w	r3, r0, #16
 8025510:	6101      	streq	r1, [r0, #16]
 8025512:	f100 0318 	addeq.w	r3, r0, #24
 8025516:	6141      	streq	r1, [r0, #20]
 8025518:	e7e6      	b.n	80254e8 <_calloc_r+0x24>
 802551a:	2100      	movs	r1, #0
 802551c:	f7fc fc40 	bl	8021da0 <memset>
 8025520:	4620      	mov	r0, r4
 8025522:	bd10      	pop	{r4, pc}

08025524 <fabs>:
 8025524:	f021 4100 	bic.w	r1, r1, #2147483648	; 0x80000000
 8025528:	4770      	bx	lr
 802552a:	bf00      	nop

0802552c <NVIC_PriorityGroupConfig>:
{
  /* Check the parameters */
  assert_param(IS_NVIC_PRIORITY_GROUP(NVIC_PriorityGroup));
  
  /* Set the PRIGROUP[10:8] bits according to NVIC_PriorityGroup value */
  SCB->AIRCR = AIRCR_VECTKEY_MASK | NVIC_PriorityGroup;
 802552c:	f040 60bf 	orr.w	r0, r0, #100139008	; 0x5f80000
 8025530:	4b02      	ldr	r3, [pc, #8]	; (802553c <NVIC_PriorityGroupConfig+0x10>)
 8025532:	f440 3000 	orr.w	r0, r0, #131072	; 0x20000
 8025536:	60d8      	str	r0, [r3, #12]
 8025538:	4770      	bx	lr
 802553a:	bf00      	nop
 802553c:	e000ed00 	.word	0xe000ed00

08025540 <NVIC_Init>:
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(NVIC_InitStruct->NVIC_IRQChannelCmd));
  assert_param(IS_NVIC_PREEMPTION_PRIORITY(NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority));  
  assert_param(IS_NVIC_SUB_PRIORITY(NVIC_InitStruct->NVIC_IRQChannelSubPriority));
    
  if (NVIC_InitStruct->NVIC_IRQChannelCmd != DISABLE)
 8025540:	78c3      	ldrb	r3, [r0, #3]
 8025542:	b30b      	cbz	r3, 8025588 <NVIC_Init+0x48>
  {
    /* Compute the Corresponding IRQ Priority --------------------------------*/    
    tmppriority = (0x700 - ((SCB->AIRCR) & (uint32_t)0x700))>> 0x08;
 8025544:	4b16      	ldr	r3, [pc, #88]	; (80255a0 <NVIC_Init+0x60>)
    tmppre = (0x4 - tmppriority);
    tmpsub = tmpsub >> tmppriority;

    tmppriority = NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority << tmppre;
 8025546:	7841      	ldrb	r1, [r0, #1]
  assert_param(IS_NVIC_SUB_PRIORITY(NVIC_InitStruct->NVIC_IRQChannelSubPriority));
    
  if (NVIC_InitStruct->NVIC_IRQChannelCmd != DISABLE)
  {
    /* Compute the Corresponding IRQ Priority --------------------------------*/    
    tmppriority = (0x700 - ((SCB->AIRCR) & (uint32_t)0x700))>> 0x08;
 8025548:	68db      	ldr	r3, [r3, #12]
 802554a:	43db      	mvns	r3, r3
 802554c:	f3c3 2302 	ubfx	r3, r3, #8, #3
    tmppre = (0x4 - tmppriority);
 8025550:	f1c3 0204 	rsb	r2, r3, #4
    tmpsub = tmpsub >> tmppriority;

    tmppriority = NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority << tmppre;
 8025554:	b2d2      	uxtb	r2, r2
 8025556:	fa01 f202 	lsl.w	r2, r1, r2
  if (NVIC_InitStruct->NVIC_IRQChannelCmd != DISABLE)
  {
    /* Compute the Corresponding IRQ Priority --------------------------------*/    
    tmppriority = (0x700 - ((SCB->AIRCR) & (uint32_t)0x700))>> 0x08;
    tmppre = (0x4 - tmppriority);
    tmpsub = tmpsub >> tmppriority;
 802555a:	210f      	movs	r1, #15
 802555c:	fa41 f303 	asr.w	r3, r1, r3

    tmppriority = NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority << tmppre;
    tmppriority |=  (uint8_t)(NVIC_InitStruct->NVIC_IRQChannelSubPriority & tmpsub);
 8025560:	7881      	ldrb	r1, [r0, #2]
    /* Compute the Corresponding IRQ Priority --------------------------------*/    
    tmppriority = (0x700 - ((SCB->AIRCR) & (uint32_t)0x700))>> 0x08;
    tmppre = (0x4 - tmppriority);
    tmpsub = tmpsub >> tmppriority;

    tmppriority = NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority << tmppre;
 8025562:	b2d2      	uxtb	r2, r2
    tmppriority |=  (uint8_t)(NVIC_InitStruct->NVIC_IRQChannelSubPriority & tmpsub);
 8025564:	400b      	ands	r3, r1
 8025566:	431a      	orrs	r2, r3
        
    tmppriority = tmppriority << 0x04;
        
    NVIC->IP[NVIC_InitStruct->NVIC_IRQChannel] = tmppriority;
 8025568:	7803      	ldrb	r3, [r0, #0]
 802556a:	f103 4360 	add.w	r3, r3, #3758096384	; 0xe0000000
 802556e:	f503 4361 	add.w	r3, r3, #57600	; 0xe100
    tmpsub = tmpsub >> tmppriority;

    tmppriority = NVIC_InitStruct->NVIC_IRQChannelPreemptionPriority << tmppre;
    tmppriority |=  (uint8_t)(NVIC_InitStruct->NVIC_IRQChannelSubPriority & tmpsub);
        
    tmppriority = tmppriority << 0x04;
 8025572:	0112      	lsls	r2, r2, #4
        
    NVIC->IP[NVIC_InitStruct->NVIC_IRQChannel] = tmppriority;
 8025574:	f883 2300 	strb.w	r2, [r3, #768]	; 0x300
    
    /* Enable the Selected IRQ Channels --------------------------------------*/
    NVIC->ISER[NVIC_InitStruct->NVIC_IRQChannel >> 0x05] =
 8025578:	7803      	ldrb	r3, [r0, #0]
      (uint32_t)0x01 << (NVIC_InitStruct->NVIC_IRQChannel & (uint8_t)0x1F);
 802557a:	2201      	movs	r2, #1
    tmppriority = tmppriority << 0x04;
        
    NVIC->IP[NVIC_InitStruct->NVIC_IRQChannel] = tmppriority;
    
    /* Enable the Selected IRQ Channels --------------------------------------*/
    NVIC->ISER[NVIC_InitStruct->NVIC_IRQChannel >> 0x05] =
 802557c:	0959      	lsrs	r1, r3, #5
      (uint32_t)0x01 << (NVIC_InitStruct->NVIC_IRQChannel & (uint8_t)0x1F);
 802557e:	f003 031f 	and.w	r3, r3, #31
 8025582:	fa02 f303 	lsl.w	r3, r2, r3
 8025586:	e007      	b.n	8025598 <NVIC_Init+0x58>
  }
  else
  {
    /* Disable the Selected IRQ Channels -------------------------------------*/
    NVIC->ICER[NVIC_InitStruct->NVIC_IRQChannel >> 0x05] =
 8025588:	7803      	ldrb	r3, [r0, #0]
      (uint32_t)0x01 << (NVIC_InitStruct->NVIC_IRQChannel & (uint8_t)0x1F);
 802558a:	2201      	movs	r2, #1
      (uint32_t)0x01 << (NVIC_InitStruct->NVIC_IRQChannel & (uint8_t)0x1F);
  }
  else
  {
    /* Disable the Selected IRQ Channels -------------------------------------*/
    NVIC->ICER[NVIC_InitStruct->NVIC_IRQChannel >> 0x05] =
 802558c:	0959      	lsrs	r1, r3, #5
      (uint32_t)0x01 << (NVIC_InitStruct->NVIC_IRQChannel & (uint8_t)0x1F);
 802558e:	f003 031f 	and.w	r3, r3, #31
 8025592:	fa02 f303 	lsl.w	r3, r2, r3
      (uint32_t)0x01 << (NVIC_InitStruct->NVIC_IRQChannel & (uint8_t)0x1F);
  }
  else
  {
    /* Disable the Selected IRQ Channels -------------------------------------*/
    NVIC->ICER[NVIC_InitStruct->NVIC_IRQChannel >> 0x05] =
 8025596:	3120      	adds	r1, #32
 8025598:	4a02      	ldr	r2, [pc, #8]	; (80255a4 <NVIC_Init+0x64>)
 802559a:	f842 3021 	str.w	r3, [r2, r1, lsl #2]
 802559e:	4770      	bx	lr
 80255a0:	e000ed00 	.word	0xe000ed00
 80255a4:	e000e100 	.word	0xe000e100

080255a8 <NVIC_SetVectorTable>:
{ 
  /* Check the parameters */
  assert_param(IS_NVIC_VECTTAB(NVIC_VectTab));
  assert_param(IS_NVIC_OFFSET(Offset));  
   
  SCB->VTOR = NVIC_VectTab | (Offset & (uint32_t)0x1FFFFF80);
 80255a8:	f021 4160 	bic.w	r1, r1, #3758096384	; 0xe0000000
 80255ac:	f021 017f 	bic.w	r1, r1, #127	; 0x7f
 80255b0:	4b01      	ldr	r3, [pc, #4]	; (80255b8 <NVIC_SetVectorTable+0x10>)
 80255b2:	4308      	orrs	r0, r1
 80255b4:	6098      	str	r0, [r3, #8]
 80255b6:	4770      	bx	lr
 80255b8:	e000ed00 	.word	0xe000ed00

080255bc <CRC_ResetDR>:
  * @retval None
  */
void CRC_ResetDR(void)
{
  /* Reset CRC generator */
  CRC->CR = CRC_CR_RESET;
 80255bc:	4b01      	ldr	r3, [pc, #4]	; (80255c4 <CRC_ResetDR+0x8>)
 80255be:	2201      	movs	r2, #1
 80255c0:	609a      	str	r2, [r3, #8]
 80255c2:	4770      	bx	lr
 80255c4:	40023000 	.word	0x40023000

080255c8 <CRC_CalcBlockCRC>:
  * @param  pBuffer: pointer to the buffer containing the data to be computed
  * @param  BufferLength: length of the buffer to be computed					
  * @retval 32-bit CRC
  */
uint32_t CRC_CalcBlockCRC(uint32_t pBuffer[], uint32_t BufferLength)
{
 80255c8:	b510      	push	{r4, lr}
  uint32_t index = 0;
  
  for(index = 0; index < BufferLength; index++)
 80255ca:	2300      	movs	r3, #0
 80255cc:	4c05      	ldr	r4, [pc, #20]	; (80255e4 <CRC_CalcBlockCRC+0x1c>)
 80255ce:	e003      	b.n	80255d8 <CRC_CalcBlockCRC+0x10>
  {
    CRC->DR = pBuffer[index];
 80255d0:	f850 2023 	ldr.w	r2, [r0, r3, lsl #2]
  */
uint32_t CRC_CalcBlockCRC(uint32_t pBuffer[], uint32_t BufferLength)
{
  uint32_t index = 0;
  
  for(index = 0; index < BufferLength; index++)
 80255d4:	3301      	adds	r3, #1
  {
    CRC->DR = pBuffer[index];
 80255d6:	6022      	str	r2, [r4, #0]
  */
uint32_t CRC_CalcBlockCRC(uint32_t pBuffer[], uint32_t BufferLength)
{
  uint32_t index = 0;
  
  for(index = 0; index < BufferLength; index++)
 80255d8:	428b      	cmp	r3, r1
 80255da:	d1f9      	bne.n	80255d0 <CRC_CalcBlockCRC+0x8>
  {
    CRC->DR = pBuffer[index];
  }
  return (CRC->DR);
 80255dc:	4b01      	ldr	r3, [pc, #4]	; (80255e4 <CRC_CalcBlockCRC+0x1c>)
 80255de:	6818      	ldr	r0, [r3, #0]
}
 80255e0:	bd10      	pop	{r4, pc}
 80255e2:	bf00      	nop
 80255e4:	40023000 	.word	0x40023000

080255e8 <FLASH_Unlock>:
  * @param  None
  * @retval None
  */
void FLASH_Unlock(void)
{
  if((FLASH->CR & FLASH_CR_LOCK) != RESET)
 80255e8:	4b04      	ldr	r3, [pc, #16]	; (80255fc <FLASH_Unlock+0x14>)
 80255ea:	691a      	ldr	r2, [r3, #16]
 80255ec:	2a00      	cmp	r2, #0
 80255ee:	da04      	bge.n	80255fa <FLASH_Unlock+0x12>
  {
    /* Authorize the FLASH Registers access */
    FLASH->KEYR = FLASH_KEY1;
 80255f0:	4a03      	ldr	r2, [pc, #12]	; (8025600 <FLASH_Unlock+0x18>)
 80255f2:	605a      	str	r2, [r3, #4]
    FLASH->KEYR = FLASH_KEY2;
 80255f4:	f102 3288 	add.w	r2, r2, #2290649224	; 0x88888888
 80255f8:	605a      	str	r2, [r3, #4]
 80255fa:	4770      	bx	lr
 80255fc:	40023c00 	.word	0x40023c00
 8025600:	45670123 	.word	0x45670123

08025604 <FLASH_Lock>:
  * @retval None
  */
void FLASH_Lock(void)
{
  /* Set the LOCK Bit to lock the FLASH Registers access */
  FLASH->CR |= FLASH_CR_LOCK;
 8025604:	4b02      	ldr	r3, [pc, #8]	; (8025610 <FLASH_Lock+0xc>)
 8025606:	691a      	ldr	r2, [r3, #16]
 8025608:	f042 4200 	orr.w	r2, r2, #2147483648	; 0x80000000
 802560c:	611a      	str	r2, [r3, #16]
 802560e:	4770      	bx	lr
 8025610:	40023c00 	.word	0x40023c00

08025614 <FLASH_ClearFlag>:
{
  /* Check the parameters */
  assert_param(IS_FLASH_CLEAR_FLAG(FLASH_FLAG));
  
  /* Clear the flags */
  FLASH->SR = FLASH_FLAG;
 8025614:	4b01      	ldr	r3, [pc, #4]	; (802561c <FLASH_ClearFlag+0x8>)
 8025616:	60d8      	str	r0, [r3, #12]
 8025618:	4770      	bx	lr
 802561a:	bf00      	nop
 802561c:	40023c00 	.word	0x40023c00

08025620 <FLASH_GetStatus>:
  */
FLASH_Status FLASH_GetStatus(void)
{
  FLASH_Status flashstatus = FLASH_COMPLETE;
  
  if((FLASH->SR & FLASH_FLAG_BSY) == FLASH_FLAG_BSY) 
 8025620:	4b0b      	ldr	r3, [pc, #44]	; (8025650 <FLASH_GetStatus+0x30>)
 8025622:	68da      	ldr	r2, [r3, #12]
 8025624:	03d0      	lsls	r0, r2, #15
 8025626:	d40d      	bmi.n	8025644 <FLASH_GetStatus+0x24>
  {
    flashstatus = FLASH_BUSY;
  }
  else 
  {  
    if((FLASH->SR & FLASH_FLAG_WRPERR) != (uint32_t)0x00)
 8025628:	68da      	ldr	r2, [r3, #12]
 802562a:	06d1      	lsls	r1, r2, #27
 802562c:	d40c      	bmi.n	8025648 <FLASH_GetStatus+0x28>
    { 
      flashstatus = FLASH_ERROR_WRP;
    }
    else 
    {
      if((FLASH->SR & (uint32_t)0xEF) != (uint32_t)0x00)
 802562e:	68da      	ldr	r2, [r3, #12]
 8025630:	f012 0fef 	tst.w	r2, #239	; 0xef
 8025634:	d10a      	bne.n	802564c <FLASH_GetStatus+0x2c>
      {
        flashstatus = FLASH_ERROR_PROGRAM; 
      }
      else
      {
        if((FLASH->SR & FLASH_FLAG_OPERR) != (uint32_t)0x00)
 8025636:	68db      	ldr	r3, [r3, #12]
 8025638:	f013 0f02 	tst.w	r3, #2
        {
          flashstatus = FLASH_ERROR_OPERATION;
 802563c:	bf0c      	ite	eq
 802563e:	2008      	moveq	r0, #8
 8025640:	2007      	movne	r0, #7
 8025642:	4770      	bx	lr
{
  FLASH_Status flashstatus = FLASH_COMPLETE;
  
  if((FLASH->SR & FLASH_FLAG_BSY) == FLASH_FLAG_BSY) 
  {
    flashstatus = FLASH_BUSY;
 8025644:	2001      	movs	r0, #1
 8025646:	4770      	bx	lr
  }
  else 
  {  
    if((FLASH->SR & FLASH_FLAG_WRPERR) != (uint32_t)0x00)
    { 
      flashstatus = FLASH_ERROR_WRP;
 8025648:	2005      	movs	r0, #5
 802564a:	4770      	bx	lr
    }
    else 
    {
      if((FLASH->SR & (uint32_t)0xEF) != (uint32_t)0x00)
      {
        flashstatus = FLASH_ERROR_PROGRAM; 
 802564c:	2006      	movs	r0, #6
      }
    }
  }
  /* Return the FLASH Status */
  return flashstatus;
}
 802564e:	4770      	bx	lr
 8025650:	40023c00 	.word	0x40023c00

08025654 <FLASH_WaitForLastOperation>:
  * @param  None
  * @retval FLASH Status: The returned value can be: FLASH_BUSY, FLASH_ERROR_PROGRAM,
  *                       FLASH_ERROR_WRP, FLASH_ERROR_OPERATION or FLASH_COMPLETE.
  */
FLASH_Status FLASH_WaitForLastOperation(void)
{ 
 8025654:	b507      	push	{r0, r1, r2, lr}
  __IO FLASH_Status status = FLASH_COMPLETE;
 8025656:	2308      	movs	r3, #8
 8025658:	f88d 3007 	strb.w	r3, [sp, #7]
  /* Wait for the FLASH operation to complete by polling on BUSY flag to be reset.
     Even if the FLASH operation fails, the BUSY flag will be reset and an error
     flag will be set */
  while(status == FLASH_BUSY)
  {
    status = FLASH_GetStatus();
 802565c:	f7ff ffe0 	bl	8025620 <FLASH_GetStatus>
 8025660:	f88d 0007 	strb.w	r0, [sp, #7]
  status = FLASH_GetStatus();

  /* Wait for the FLASH operation to complete by polling on BUSY flag to be reset.
     Even if the FLASH operation fails, the BUSY flag will be reset and an error
     flag will be set */
  while(status == FLASH_BUSY)
 8025664:	f89d 3007 	ldrb.w	r3, [sp, #7]
 8025668:	2b01      	cmp	r3, #1
 802566a:	d0f7      	beq.n	802565c <FLASH_WaitForLastOperation+0x8>
  {
    status = FLASH_GetStatus();
  }
  /* Return the operation status */
  return status;
 802566c:	f89d 0007 	ldrb.w	r0, [sp, #7]
}
 8025670:	bd0e      	pop	{r1, r2, r3, pc}
 8025672:	0000      	movs	r0, r0

08025674 <FLASH_ProgramByte>:
  * @param  Data: specifies the data to be programmed.
  * @retval FLASH Status: The returned value can be: FLASH_BUSY, FLASH_ERROR_PROGRAM,
  *                       FLASH_ERROR_WRP, FLASH_ERROR_OPERATION or FLASH_COMPLETE.
  */
FLASH_Status FLASH_ProgramByte(uint32_t Address, uint8_t Data)
{
 8025674:	b570      	push	{r4, r5, r6, lr}
 8025676:	4605      	mov	r5, r0
 8025678:	460e      	mov	r6, r1

  /* Check the parameters */
  assert_param(IS_FLASH_ADDRESS(Address));

  /* Wait for last operation to be completed */
  status = FLASH_WaitForLastOperation();
 802567a:	f7ff ffeb 	bl	8025654 <FLASH_WaitForLastOperation>
  
  if(status == FLASH_COMPLETE)
 802567e:	2808      	cmp	r0, #8
 8025680:	d111      	bne.n	80256a6 <FLASH_ProgramByte+0x32>
  {
    /* if the previous operation is completed, proceed to program the new data */
    FLASH->CR &= CR_PSIZE_MASK;
 8025682:	4c09      	ldr	r4, [pc, #36]	; (80256a8 <FLASH_ProgramByte+0x34>)
 8025684:	6923      	ldr	r3, [r4, #16]
 8025686:	f423 7340 	bic.w	r3, r3, #768	; 0x300
 802568a:	6123      	str	r3, [r4, #16]
    FLASH->CR |= FLASH_PSIZE_BYTE;
 802568c:	6923      	ldr	r3, [r4, #16]
 802568e:	6123      	str	r3, [r4, #16]
    FLASH->CR |= FLASH_CR_PG;
 8025690:	6923      	ldr	r3, [r4, #16]
 8025692:	f043 0301 	orr.w	r3, r3, #1
 8025696:	6123      	str	r3, [r4, #16]
  
    *(__IO uint8_t*)Address = Data;
 8025698:	702e      	strb	r6, [r5, #0]
        
    /* Wait for last operation to be completed */
    status = FLASH_WaitForLastOperation();
 802569a:	f7ff ffdb 	bl	8025654 <FLASH_WaitForLastOperation>

    /* if the program operation is completed, disable the PG Bit */
    FLASH->CR &= (~FLASH_CR_PG);
 802569e:	6923      	ldr	r3, [r4, #16]
 80256a0:	f023 0301 	bic.w	r3, r3, #1
 80256a4:	6123      	str	r3, [r4, #16]
  } 

  /* Return the Program Status */
  return status;
}
 80256a6:	bd70      	pop	{r4, r5, r6, pc}
 80256a8:	40023c00 	.word	0x40023c00

080256ac <FLASH_ProgramWord>:
  * @param  Data: specifies the data to be programmed.
  * @retval FLASH Status: The returned value can be: FLASH_BUSY, FLASH_ERROR_PROGRAM,
  *                       FLASH_ERROR_WRP, FLASH_ERROR_OPERATION or FLASH_COMPLETE.
  */
FLASH_Status FLASH_ProgramWord(uint32_t Address, uint32_t Data)
{
 80256ac:	b570      	push	{r4, r5, r6, lr}
 80256ae:	4605      	mov	r5, r0
 80256b0:	460e      	mov	r6, r1

  /* Check the parameters */
  assert_param(IS_FLASH_ADDRESS(Address));

  /* Wait for last operation to be completed */
  status = FLASH_WaitForLastOperation();
 80256b2:	f7ff ffcf 	bl	8025654 <FLASH_WaitForLastOperation>
  
  if(status == FLASH_COMPLETE)
 80256b6:	2808      	cmp	r0, #8
 80256b8:	d113      	bne.n	80256e2 <FLASH_ProgramWord+0x36>
  {
    /* if the previous operation is completed, proceed to program the new data */
    FLASH->CR &= CR_PSIZE_MASK;
 80256ba:	4c0a      	ldr	r4, [pc, #40]	; (80256e4 <FLASH_ProgramWord+0x38>)
 80256bc:	6923      	ldr	r3, [r4, #16]
 80256be:	f423 7340 	bic.w	r3, r3, #768	; 0x300
 80256c2:	6123      	str	r3, [r4, #16]
    FLASH->CR |= FLASH_PSIZE_WORD;
 80256c4:	6923      	ldr	r3, [r4, #16]
 80256c6:	f443 7300 	orr.w	r3, r3, #512	; 0x200
 80256ca:	6123      	str	r3, [r4, #16]
    FLASH->CR |= FLASH_CR_PG;
 80256cc:	6923      	ldr	r3, [r4, #16]
 80256ce:	f043 0301 	orr.w	r3, r3, #1
 80256d2:	6123      	str	r3, [r4, #16]
  
    *(__IO uint32_t*)Address = Data;
 80256d4:	602e      	str	r6, [r5, #0]
        
    /* Wait for last operation to be completed */
    status = FLASH_WaitForLastOperation();
 80256d6:	f7ff ffbd 	bl	8025654 <FLASH_WaitForLastOperation>

    /* if the program operation is completed, disable the PG Bit */
    FLASH->CR &= (~FLASH_CR_PG);
 80256da:	6923      	ldr	r3, [r4, #16]
 80256dc:	f023 0301 	bic.w	r3, r3, #1
 80256e0:	6123      	str	r3, [r4, #16]
  } 
  /* Return the Program Status */
  return status;
}
 80256e2:	bd70      	pop	{r4, r5, r6, pc}
 80256e4:	40023c00 	.word	0x40023c00

080256e8 <FLASH_EraseSector>:
  *       
  * @retval FLASH Status: The returned value can be: FLASH_BUSY, FLASH_ERROR_PROGRAM,
  *                       FLASH_ERROR_WRP, FLASH_ERROR_OPERATION or FLASH_COMPLETE.
  */
FLASH_Status FLASH_EraseSector(uint32_t FLASH_Sector, uint8_t VoltageRange)
{
 80256e8:	b570      	push	{r4, r5, r6, lr}
 80256ea:	4606      	mov	r6, r0

  /* Check the parameters */
  assert_param(IS_FLASH_SECTOR(FLASH_Sector));
  assert_param(IS_VOLTAGERANGE(VoltageRange));
  
  if(VoltageRange == VoltageRange_1)
 80256ec:	b141      	cbz	r1, 8025700 <FLASH_EraseSector+0x18>
  {
     tmp_psize = FLASH_PSIZE_BYTE;
  }
  else if(VoltageRange == VoltageRange_2)
 80256ee:	2901      	cmp	r1, #1
 80256f0:	d008      	beq.n	8025704 <FLASH_EraseSector+0x1c>
  {
    tmp_psize = FLASH_PSIZE_HALF_WORD;
  }
  else if(VoltageRange == VoltageRange_3)
  {
    tmp_psize = FLASH_PSIZE_WORD;
 80256f2:	2902      	cmp	r1, #2
 80256f4:	bf14      	ite	ne
 80256f6:	f44f 7540 	movne.w	r5, #768	; 0x300
 80256fa:	f44f 7500 	moveq.w	r5, #512	; 0x200
 80256fe:	e003      	b.n	8025708 <FLASH_EraseSector+0x20>
  assert_param(IS_FLASH_SECTOR(FLASH_Sector));
  assert_param(IS_VOLTAGERANGE(VoltageRange));
  
  if(VoltageRange == VoltageRange_1)
  {
     tmp_psize = FLASH_PSIZE_BYTE;
 8025700:	460d      	mov	r5, r1
 8025702:	e001      	b.n	8025708 <FLASH_EraseSector+0x20>
  }
  else if(VoltageRange == VoltageRange_2)
  {
    tmp_psize = FLASH_PSIZE_HALF_WORD;
 8025704:	f44f 7580 	mov.w	r5, #256	; 0x100
  else
  {
    tmp_psize = FLASH_PSIZE_DOUBLE_WORD;
  }
  /* Wait for last operation to be completed */
  status = FLASH_WaitForLastOperation();
 8025708:	f7ff ffa4 	bl	8025654 <FLASH_WaitForLastOperation>
  
  if(status == FLASH_COMPLETE)
 802570c:	2808      	cmp	r0, #8
 802570e:	d11e      	bne.n	802574e <FLASH_EraseSector+0x66>
  { 
    /* if the previous operation is completed, proceed to erase the sector */
    FLASH->CR &= CR_PSIZE_MASK;
 8025710:	4c0f      	ldr	r4, [pc, #60]	; (8025750 <FLASH_EraseSector+0x68>)
 8025712:	6923      	ldr	r3, [r4, #16]
 8025714:	f423 7340 	bic.w	r3, r3, #768	; 0x300
 8025718:	6123      	str	r3, [r4, #16]
    FLASH->CR |= tmp_psize;
 802571a:	6921      	ldr	r1, [r4, #16]
 802571c:	430d      	orrs	r5, r1
 802571e:	6125      	str	r5, [r4, #16]
    FLASH->CR &= SECTOR_MASK;
 8025720:	6923      	ldr	r3, [r4, #16]
 8025722:	f023 03f8 	bic.w	r3, r3, #248	; 0xf8
 8025726:	6123      	str	r3, [r4, #16]
    FLASH->CR |= FLASH_CR_SER | FLASH_Sector;
 8025728:	6923      	ldr	r3, [r4, #16]
 802572a:	f043 0302 	orr.w	r3, r3, #2
 802572e:	431e      	orrs	r6, r3
 8025730:	6126      	str	r6, [r4, #16]
    FLASH->CR |= FLASH_CR_STRT;
 8025732:	6923      	ldr	r3, [r4, #16]
 8025734:	f443 3380 	orr.w	r3, r3, #65536	; 0x10000
 8025738:	6123      	str	r3, [r4, #16]
    
    /* Wait for last operation to be completed */
    status = FLASH_WaitForLastOperation();
 802573a:	f7ff ff8b 	bl	8025654 <FLASH_WaitForLastOperation>
    
    /* if the erase operation is completed, disable the SER Bit */
    FLASH->CR &= (~FLASH_CR_SER);
 802573e:	6923      	ldr	r3, [r4, #16]
 8025740:	f023 0302 	bic.w	r3, r3, #2
 8025744:	6123      	str	r3, [r4, #16]
    FLASH->CR &= SECTOR_MASK; 
 8025746:	6923      	ldr	r3, [r4, #16]
 8025748:	f023 03f8 	bic.w	r3, r3, #248	; 0xf8
 802574c:	6123      	str	r3, [r4, #16]
  }
  /* Return the Erase Status */
  return status;
}
 802574e:	bd70      	pop	{r4, r5, r6, pc}
 8025750:	40023c00 	.word	0x40023c00

08025754 <GPIO_DeInit>:
  * @note   By default, The GPIO pins are configured in input floating mode (except JTAG pins).
  * @param  GPIOx: where x can be (A..I) to select the GPIO peripheral.
  * @retval None
  */
void GPIO_DeInit(GPIO_TypeDef* GPIOx)
{
 8025754:	b508      	push	{r3, lr}
  /* Check the parameters */
  assert_param(IS_GPIO_ALL_PERIPH(GPIOx));

  if (GPIOx == GPIOA)
 8025756:	4b2c      	ldr	r3, [pc, #176]	; (8025808 <GPIO_DeInit+0xb4>)
 8025758:	4298      	cmp	r0, r3
 802575a:	d105      	bne.n	8025768 <GPIO_DeInit+0x14>
  {
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOA, ENABLE);
 802575c:	2001      	movs	r0, #1
 802575e:	4601      	mov	r1, r0
 8025760:	f000 f974 	bl	8025a4c <RCC_AHB1PeriphResetCmd>
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOA, DISABLE);
 8025764:	2001      	movs	r0, #1
 8025766:	e048      	b.n	80257fa <GPIO_DeInit+0xa6>
  }
  else if (GPIOx == GPIOB)
 8025768:	4b28      	ldr	r3, [pc, #160]	; (802580c <GPIO_DeInit+0xb8>)
 802576a:	4298      	cmp	r0, r3
 802576c:	d105      	bne.n	802577a <GPIO_DeInit+0x26>
  {
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOB, ENABLE);
 802576e:	2002      	movs	r0, #2
 8025770:	2101      	movs	r1, #1
 8025772:	f000 f96b 	bl	8025a4c <RCC_AHB1PeriphResetCmd>
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOB, DISABLE);
 8025776:	2002      	movs	r0, #2
 8025778:	e03f      	b.n	80257fa <GPIO_DeInit+0xa6>
  }
  else if (GPIOx == GPIOC)
 802577a:	4b25      	ldr	r3, [pc, #148]	; (8025810 <GPIO_DeInit+0xbc>)
 802577c:	4298      	cmp	r0, r3
 802577e:	d105      	bne.n	802578c <GPIO_DeInit+0x38>
  {
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOC, ENABLE);
 8025780:	2004      	movs	r0, #4
 8025782:	2101      	movs	r1, #1
 8025784:	f000 f962 	bl	8025a4c <RCC_AHB1PeriphResetCmd>
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOC, DISABLE);
 8025788:	2004      	movs	r0, #4
 802578a:	e036      	b.n	80257fa <GPIO_DeInit+0xa6>
  }
  else if (GPIOx == GPIOD)
 802578c:	4b21      	ldr	r3, [pc, #132]	; (8025814 <GPIO_DeInit+0xc0>)
 802578e:	4298      	cmp	r0, r3
 8025790:	d105      	bne.n	802579e <GPIO_DeInit+0x4a>
  {
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOD, ENABLE);
 8025792:	2008      	movs	r0, #8
 8025794:	2101      	movs	r1, #1
 8025796:	f000 f959 	bl	8025a4c <RCC_AHB1PeriphResetCmd>
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOD, DISABLE);
 802579a:	2008      	movs	r0, #8
 802579c:	e02d      	b.n	80257fa <GPIO_DeInit+0xa6>
  }
  else if (GPIOx == GPIOE)
 802579e:	4b1e      	ldr	r3, [pc, #120]	; (8025818 <GPIO_DeInit+0xc4>)
 80257a0:	4298      	cmp	r0, r3
 80257a2:	d105      	bne.n	80257b0 <GPIO_DeInit+0x5c>
  {
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOE, ENABLE);
 80257a4:	2010      	movs	r0, #16
 80257a6:	2101      	movs	r1, #1
 80257a8:	f000 f950 	bl	8025a4c <RCC_AHB1PeriphResetCmd>
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOE, DISABLE);
 80257ac:	2010      	movs	r0, #16
 80257ae:	e024      	b.n	80257fa <GPIO_DeInit+0xa6>
  }
  else if (GPIOx == GPIOF)
 80257b0:	4b1a      	ldr	r3, [pc, #104]	; (802581c <GPIO_DeInit+0xc8>)
 80257b2:	4298      	cmp	r0, r3
 80257b4:	d105      	bne.n	80257c2 <GPIO_DeInit+0x6e>
  {
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOF, ENABLE);
 80257b6:	2020      	movs	r0, #32
 80257b8:	2101      	movs	r1, #1
 80257ba:	f000 f947 	bl	8025a4c <RCC_AHB1PeriphResetCmd>
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOF, DISABLE);
 80257be:	2020      	movs	r0, #32
 80257c0:	e01b      	b.n	80257fa <GPIO_DeInit+0xa6>
  }
  else if (GPIOx == GPIOG)
 80257c2:	4b17      	ldr	r3, [pc, #92]	; (8025820 <GPIO_DeInit+0xcc>)
 80257c4:	4298      	cmp	r0, r3
 80257c6:	d105      	bne.n	80257d4 <GPIO_DeInit+0x80>
  {
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOG, ENABLE);
 80257c8:	2040      	movs	r0, #64	; 0x40
 80257ca:	2101      	movs	r1, #1
 80257cc:	f000 f93e 	bl	8025a4c <RCC_AHB1PeriphResetCmd>
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOG, DISABLE);
 80257d0:	2040      	movs	r0, #64	; 0x40
 80257d2:	e012      	b.n	80257fa <GPIO_DeInit+0xa6>
  }
  else if (GPIOx == GPIOH)
 80257d4:	4b13      	ldr	r3, [pc, #76]	; (8025824 <GPIO_DeInit+0xd0>)
 80257d6:	4298      	cmp	r0, r3
 80257d8:	d105      	bne.n	80257e6 <GPIO_DeInit+0x92>
  {
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOH, ENABLE);
 80257da:	2080      	movs	r0, #128	; 0x80
 80257dc:	2101      	movs	r1, #1
 80257de:	f000 f935 	bl	8025a4c <RCC_AHB1PeriphResetCmd>
    RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOH, DISABLE);
 80257e2:	2080      	movs	r0, #128	; 0x80
 80257e4:	e009      	b.n	80257fa <GPIO_DeInit+0xa6>
  }
  else
  {
    if (GPIOx == GPIOI)
 80257e6:	4b10      	ldr	r3, [pc, #64]	; (8025828 <GPIO_DeInit+0xd4>)
 80257e8:	4298      	cmp	r0, r3
 80257ea:	d10b      	bne.n	8025804 <GPIO_DeInit+0xb0>
    {
      RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOI, ENABLE);
 80257ec:	f44f 7080 	mov.w	r0, #256	; 0x100
 80257f0:	2101      	movs	r1, #1
 80257f2:	f000 f92b 	bl	8025a4c <RCC_AHB1PeriphResetCmd>
      RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOI, DISABLE);
 80257f6:	f44f 7080 	mov.w	r0, #256	; 0x100
 80257fa:	2100      	movs	r1, #0
    }
  }
}
 80257fc:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  else
  {
    if (GPIOx == GPIOI)
    {
      RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOI, ENABLE);
      RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_GPIOI, DISABLE);
 8025800:	f000 b924 	b.w	8025a4c <RCC_AHB1PeriphResetCmd>
 8025804:	bd08      	pop	{r3, pc}
 8025806:	bf00      	nop
 8025808:	40020000 	.word	0x40020000
 802580c:	40020400 	.word	0x40020400
 8025810:	40020800 	.word	0x40020800
 8025814:	40020c00 	.word	0x40020c00
 8025818:	40021000 	.word	0x40021000
 802581c:	40021400 	.word	0x40021400
 8025820:	40021800 	.word	0x40021800
 8025824:	40021c00 	.word	0x40021c00
 8025828:	40022000 	.word	0x40022000

0802582c <GPIO_Init>:
  * @param  GPIO_InitStruct: pointer to a GPIO_InitTypeDef structure that contains
  *         the configuration information for the specified GPIO peripheral.
  * @retval None
  */
void GPIO_Init(GPIO_TypeDef* GPIOx, GPIO_InitTypeDef* GPIO_InitStruct)
{
 802582c:	e92d 47f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, lr}
  /*-- GPIO Mode Configuration --*/
  for (pinpos = 0x00; pinpos < 0x10; pinpos++)
  {
    pos = ((uint32_t)0x01) << pinpos;
    /* Get the port pins position */
    currentpin = (GPIO_InitStruct->GPIO_Pin) & pos;
 8025830:	680f      	ldr	r7, [r1, #0]
  assert_param(IS_GPIO_MODE(GPIO_InitStruct->GPIO_Mode));
  assert_param(IS_GPIO_PUPD(GPIO_InitStruct->GPIO_PuPd));

  /* -------------------------Configure the port pins---------------- */
  /*-- GPIO Mode Configuration --*/
  for (pinpos = 0x00; pinpos < 0x10; pinpos++)
 8025832:	2300      	movs	r3, #0
  {
    pos = ((uint32_t)0x01) << pinpos;
 8025834:	f04f 0c01 	mov.w	ip, #1
    /* Get the port pins position */
    currentpin = (GPIO_InitStruct->GPIO_Pin) & pos;

    if (currentpin == pos)
    {
      GPIOx->MODER  &= ~(GPIO_MODER_MODER0 << (pinpos * 2));
 8025838:	f04f 0803 	mov.w	r8, #3

  /* -------------------------Configure the port pins---------------- */
  /*-- GPIO Mode Configuration --*/
  for (pinpos = 0x00; pinpos < 0x10; pinpos++)
  {
    pos = ((uint32_t)0x01) << pinpos;
 802583c:	fa0c f203 	lsl.w	r2, ip, r3
    /* Get the port pins position */
    currentpin = (GPIO_InitStruct->GPIO_Pin) & pos;
 8025840:	ea02 0507 	and.w	r5, r2, r7

    if (currentpin == pos)
 8025844:	4295      	cmp	r5, r2
 8025846:	d131      	bne.n	80258ac <GPIO_Init+0x80>
  * @param  GPIOx: where x can be (A..I) to select the GPIO peripheral.
  * @param  GPIO_InitStruct: pointer to a GPIO_InitTypeDef structure that contains
  *         the configuration information for the specified GPIO peripheral.
  * @retval None
  */
void GPIO_Init(GPIO_TypeDef* GPIOx, GPIO_InitTypeDef* GPIO_InitStruct)
 8025848:	005a      	lsls	r2, r3, #1
    /* Get the port pins position */
    currentpin = (GPIO_InitStruct->GPIO_Pin) & pos;

    if (currentpin == pos)
    {
      GPIOx->MODER  &= ~(GPIO_MODER_MODER0 << (pinpos * 2));
 802584a:	6806      	ldr	r6, [r0, #0]
 802584c:	fa08 f402 	lsl.w	r4, r8, r2
 8025850:	43e4      	mvns	r4, r4
 8025852:	4026      	ands	r6, r4
 8025854:	6006      	str	r6, [r0, #0]
      GPIOx->MODER |= (((uint32_t)GPIO_InitStruct->GPIO_Mode) << (pinpos * 2));
 8025856:	790e      	ldrb	r6, [r1, #4]
 8025858:	f8d0 9000 	ldr.w	r9, [r0]
 802585c:	fa06 fa02 	lsl.w	sl, r6, r2

      if ((GPIO_InitStruct->GPIO_Mode == GPIO_Mode_OUT) || (GPIO_InitStruct->GPIO_Mode == GPIO_Mode_AF))
 8025860:	3e01      	subs	r6, #1
    currentpin = (GPIO_InitStruct->GPIO_Pin) & pos;

    if (currentpin == pos)
    {
      GPIOx->MODER  &= ~(GPIO_MODER_MODER0 << (pinpos * 2));
      GPIOx->MODER |= (((uint32_t)GPIO_InitStruct->GPIO_Mode) << (pinpos * 2));
 8025862:	ea4a 0909 	orr.w	r9, sl, r9

      if ((GPIO_InitStruct->GPIO_Mode == GPIO_Mode_OUT) || (GPIO_InitStruct->GPIO_Mode == GPIO_Mode_AF))
 8025866:	2e01      	cmp	r6, #1
    currentpin = (GPIO_InitStruct->GPIO_Pin) & pos;

    if (currentpin == pos)
    {
      GPIOx->MODER  &= ~(GPIO_MODER_MODER0 << (pinpos * 2));
      GPIOx->MODER |= (((uint32_t)GPIO_InitStruct->GPIO_Mode) << (pinpos * 2));
 8025868:	f8c0 9000 	str.w	r9, [r0]

      if ((GPIO_InitStruct->GPIO_Mode == GPIO_Mode_OUT) || (GPIO_InitStruct->GPIO_Mode == GPIO_Mode_AF))
 802586c:	d815      	bhi.n	802589a <GPIO_Init+0x6e>
      {
        /* Check Speed mode parameters */
        assert_param(IS_GPIO_SPEED(GPIO_InitStruct->GPIO_Speed));

        /* Speed mode configuration */
        GPIOx->OSPEEDR &= ~(GPIO_OSPEEDER_OSPEEDR0 << (pinpos * 2));
 802586e:	6886      	ldr	r6, [r0, #8]
        GPIOx->OSPEEDR |= ((uint32_t)(GPIO_InitStruct->GPIO_Speed) << (pinpos * 2));
 8025870:	f891 9005 	ldrb.w	r9, [r1, #5]
      {
        /* Check Speed mode parameters */
        assert_param(IS_GPIO_SPEED(GPIO_InitStruct->GPIO_Speed));

        /* Speed mode configuration */
        GPIOx->OSPEEDR &= ~(GPIO_OSPEEDER_OSPEEDR0 << (pinpos * 2));
 8025874:	4026      	ands	r6, r4
 8025876:	6086      	str	r6, [r0, #8]
        GPIOx->OSPEEDR |= ((uint32_t)(GPIO_InitStruct->GPIO_Speed) << (pinpos * 2));
 8025878:	6886      	ldr	r6, [r0, #8]
 802587a:	fa09 f902 	lsl.w	r9, r9, r2
 802587e:	ea49 0606 	orr.w	r6, r9, r6
 8025882:	6086      	str	r6, [r0, #8]

        /* Check Output mode parameters */
        assert_param(IS_GPIO_OTYPE(GPIO_InitStruct->GPIO_OType));

        /* Output mode configuration*/
        GPIOx->OTYPER  &= ~((GPIO_OTYPER_OT_0) << ((uint16_t)pinpos)) ;
 8025884:	6846      	ldr	r6, [r0, #4]
 8025886:	ea26 0505 	bic.w	r5, r6, r5
 802588a:	6045      	str	r5, [r0, #4]
        GPIOx->OTYPER |= (uint16_t)(((uint16_t)GPIO_InitStruct->GPIO_OType) << ((uint16_t)pinpos));
 802588c:	798d      	ldrb	r5, [r1, #6]
 802588e:	6846      	ldr	r6, [r0, #4]
 8025890:	fa05 f503 	lsl.w	r5, r5, r3
  
  temp = ((uint32_t)(GPIO_AF) << ((uint32_t)((uint32_t)GPIO_PinSource & (uint32_t)0x07) * 4)) ;
  GPIOx->AFR[GPIO_PinSource >> 0x03] &= ~((uint32_t)0xF << ((uint32_t)((uint32_t)GPIO_PinSource & (uint32_t)0x07) * 4)) ;
  temp_2 = GPIOx->AFR[GPIO_PinSource >> 0x03] | temp;
  GPIOx->AFR[GPIO_PinSource >> 0x03] = temp_2;
}
 8025894:	b2ad      	uxth	r5, r5
        /* Check Output mode parameters */
        assert_param(IS_GPIO_OTYPE(GPIO_InitStruct->GPIO_OType));

        /* Output mode configuration*/
        GPIOx->OTYPER  &= ~((GPIO_OTYPER_OT_0) << ((uint16_t)pinpos)) ;
        GPIOx->OTYPER |= (uint16_t)(((uint16_t)GPIO_InitStruct->GPIO_OType) << ((uint16_t)pinpos));
 8025896:	4335      	orrs	r5, r6
 8025898:	6045      	str	r5, [r0, #4]
      }

      /* Pull-up Pull down resistor configuration*/
      GPIOx->PUPDR &= ~(GPIO_PUPDR_PUPDR0 << ((uint16_t)pinpos * 2));
 802589a:	68c5      	ldr	r5, [r0, #12]
 802589c:	402c      	ands	r4, r5
 802589e:	60c4      	str	r4, [r0, #12]
      GPIOx->PUPDR |= (((uint32_t)GPIO_InitStruct->GPIO_PuPd) << (pinpos * 2));
 80258a0:	79cd      	ldrb	r5, [r1, #7]
 80258a2:	68c4      	ldr	r4, [r0, #12]
 80258a4:	fa05 f202 	lsl.w	r2, r5, r2
 80258a8:	4322      	orrs	r2, r4
 80258aa:	60c2      	str	r2, [r0, #12]
  assert_param(IS_GPIO_MODE(GPIO_InitStruct->GPIO_Mode));
  assert_param(IS_GPIO_PUPD(GPIO_InitStruct->GPIO_PuPd));

  /* -------------------------Configure the port pins---------------- */
  /*-- GPIO Mode Configuration --*/
  for (pinpos = 0x00; pinpos < 0x10; pinpos++)
 80258ac:	3301      	adds	r3, #1
 80258ae:	2b10      	cmp	r3, #16
 80258b0:	d1c4      	bne.n	802583c <GPIO_Init+0x10>
      /* Pull-up Pull down resistor configuration*/
      GPIOx->PUPDR &= ~(GPIO_PUPDR_PUPDR0 << ((uint16_t)pinpos * 2));
      GPIOx->PUPDR |= (((uint32_t)GPIO_InitStruct->GPIO_PuPd) << (pinpos * 2));
    }
  }
}
 80258b2:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}

080258b6 <GPIO_SetBits>:
{
  /* Check the parameters */
  assert_param(IS_GPIO_ALL_PERIPH(GPIOx));
  assert_param(IS_GPIO_PIN(GPIO_Pin));

  GPIOx->BSRRL = GPIO_Pin;
 80258b6:	8301      	strh	r1, [r0, #24]
 80258b8:	4770      	bx	lr

080258ba <GPIO_ResetBits>:
{
  /* Check the parameters */
  assert_param(IS_GPIO_ALL_PERIPH(GPIOx));
  assert_param(IS_GPIO_PIN(GPIO_Pin));

  GPIOx->BSRRH = GPIO_Pin;
 80258ba:	8341      	strh	r1, [r0, #26]
 80258bc:	4770      	bx	lr

080258be <GPIO_PinAFConfig>:
  /* Check the parameters */
  assert_param(IS_GPIO_ALL_PERIPH(GPIOx));
  assert_param(IS_GPIO_PIN_SOURCE(GPIO_PinSource));
  assert_param(IS_GPIO_AF(GPIO_AF));
  
  temp = ((uint32_t)(GPIO_AF) << ((uint32_t)((uint32_t)GPIO_PinSource & (uint32_t)0x07) * 4)) ;
 80258be:	f001 0307 	and.w	r3, r1, #7
  GPIOx->AFR[GPIO_PinSource >> 0x03] &= ~((uint32_t)0xF << ((uint32_t)((uint32_t)GPIO_PinSource & (uint32_t)0x07) * 4)) ;
 80258c2:	08c9      	lsrs	r1, r1, #3
 80258c4:	3108      	adds	r1, #8
  *            @arg GPIO_AF_DCMI: Connect DCMI pins to AF13
  *            @arg GPIO_AF_EVENTOUT: Connect EVENTOUT pins to AF15
  * @retval None
  */
void GPIO_PinAFConfig(GPIO_TypeDef* GPIOx, uint16_t GPIO_PinSource, uint8_t GPIO_AF)
{
 80258c6:	b530      	push	{r4, r5, lr}
  /* Check the parameters */
  assert_param(IS_GPIO_ALL_PERIPH(GPIOx));
  assert_param(IS_GPIO_PIN_SOURCE(GPIO_PinSource));
  assert_param(IS_GPIO_AF(GPIO_AF));
  
  temp = ((uint32_t)(GPIO_AF) << ((uint32_t)((uint32_t)GPIO_PinSource & (uint32_t)0x07) * 4)) ;
 80258c8:	009b      	lsls	r3, r3, #2
  GPIOx->AFR[GPIO_PinSource >> 0x03] &= ~((uint32_t)0xF << ((uint32_t)((uint32_t)GPIO_PinSource & (uint32_t)0x07) * 4)) ;
 80258ca:	f850 5021 	ldr.w	r5, [r0, r1, lsl #2]
 80258ce:	240f      	movs	r4, #15
 80258d0:	fa04 f403 	lsl.w	r4, r4, r3
 80258d4:	ea25 0404 	bic.w	r4, r5, r4
 80258d8:	f840 4021 	str.w	r4, [r0, r1, lsl #2]
  temp_2 = GPIOx->AFR[GPIO_PinSource >> 0x03] | temp;
 80258dc:	f850 4021 	ldr.w	r4, [r0, r1, lsl #2]
  /* Check the parameters */
  assert_param(IS_GPIO_ALL_PERIPH(GPIOx));
  assert_param(IS_GPIO_PIN_SOURCE(GPIO_PinSource));
  assert_param(IS_GPIO_AF(GPIO_AF));
  
  temp = ((uint32_t)(GPIO_AF) << ((uint32_t)((uint32_t)GPIO_PinSource & (uint32_t)0x07) * 4)) ;
 80258e0:	fa02 f203 	lsl.w	r2, r2, r3
  GPIOx->AFR[GPIO_PinSource >> 0x03] &= ~((uint32_t)0xF << ((uint32_t)((uint32_t)GPIO_PinSource & (uint32_t)0x07) * 4)) ;
  temp_2 = GPIOx->AFR[GPIO_PinSource >> 0x03] | temp;
 80258e4:	4314      	orrs	r4, r2
  GPIOx->AFR[GPIO_PinSource >> 0x03] = temp_2;
 80258e6:	f840 4021 	str.w	r4, [r0, r1, lsl #2]
 80258ea:	bd30      	pop	{r4, r5, pc}

080258ec <PWR_BackupAccessCmd>:
void PWR_BackupAccessCmd(FunctionalState NewState)
{
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  *(__IO uint32_t *) CR_DBP_BB = (uint32_t)NewState;
 80258ec:	4b01      	ldr	r3, [pc, #4]	; (80258f4 <PWR_BackupAccessCmd+0x8>)
 80258ee:	6018      	str	r0, [r3, #0]
 80258f0:	4770      	bx	lr
 80258f2:	bf00      	nop
 80258f4:	420e0020 	.word	0x420e0020

080258f8 <RCC_LSEConfig>:
  /* Check the parameters */
  assert_param(IS_RCC_LSE(RCC_LSE));

  /* Reset LSEON and LSEBYP bits before configuring the LSE ------------------*/
  /* Reset LSEON bit */
  *(__IO uint8_t *) BDCR_ADDRESS = RCC_LSE_OFF;
 80258f8:	4b06      	ldr	r3, [pc, #24]	; (8025914 <RCC_LSEConfig+0x1c>)
 80258fa:	2200      	movs	r2, #0

  /* Reset LSEBYP bit */
  *(__IO uint8_t *) BDCR_ADDRESS = RCC_LSE_OFF;

  /* Configure LSE (RCC_LSE_OFF is already covered by the code section above) */
  switch (RCC_LSE)
 80258fc:	2801      	cmp	r0, #1
  /* Check the parameters */
  assert_param(IS_RCC_LSE(RCC_LSE));

  /* Reset LSEON and LSEBYP bits before configuring the LSE ------------------*/
  /* Reset LSEON bit */
  *(__IO uint8_t *) BDCR_ADDRESS = RCC_LSE_OFF;
 80258fe:	701a      	strb	r2, [r3, #0]

  /* Reset LSEBYP bit */
  *(__IO uint8_t *) BDCR_ADDRESS = RCC_LSE_OFF;
 8025900:	701a      	strb	r2, [r3, #0]

  /* Configure LSE (RCC_LSE_OFF is already covered by the code section above) */
  switch (RCC_LSE)
 8025902:	d002      	beq.n	802590a <RCC_LSEConfig+0x12>
 8025904:	2804      	cmp	r0, #4
 8025906:	d104      	bne.n	8025912 <RCC_LSEConfig+0x1a>
 8025908:	e001      	b.n	802590e <RCC_LSEConfig+0x16>
  {
    case RCC_LSE_ON:
      /* Set LSEON bit */
      *(__IO uint8_t *) BDCR_ADDRESS = RCC_LSE_ON;
 802590a:	7018      	strb	r0, [r3, #0]
      break;
 802590c:	4770      	bx	lr
    case RCC_LSE_Bypass:
      /* Set LSEBYP and LSEON bits */
      *(__IO uint8_t *) BDCR_ADDRESS = RCC_LSE_Bypass | RCC_LSE_ON;
 802590e:	2205      	movs	r2, #5
 8025910:	701a      	strb	r2, [r3, #0]
 8025912:	4770      	bx	lr
 8025914:	40023870 	.word	0x40023870

08025918 <RCC_LSICmd>:
void RCC_LSICmd(FunctionalState NewState)
{
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  *(__IO uint32_t *) CSR_LSION_BB = (uint32_t)NewState;
 8025918:	4b01      	ldr	r3, [pc, #4]	; (8025920 <RCC_LSICmd+0x8>)
 802591a:	6018      	str	r0, [r3, #0]
 802591c:	4770      	bx	lr
 802591e:	bf00      	nop
 8025920:	42470e80 	.word	0x42470e80

08025924 <RCC_GetClocksFreq>:
void RCC_GetClocksFreq(RCC_ClocksTypeDef* RCC_Clocks)
{
  uint32_t tmp = 0, presc = 0, pllvco = 0, pllp = 2, pllsource = 0, pllm = 2;

  /* Get SYSCLK source -------------------------------------------------------*/
  tmp = RCC->CFGR & RCC_CFGR_SWS;
 8025924:	4b1e      	ldr	r3, [pc, #120]	; (80259a0 <RCC_GetClocksFreq+0x7c>)
 8025926:	689a      	ldr	r2, [r3, #8]
 8025928:	f002 020c 	and.w	r2, r2, #12

  switch (tmp)
 802592c:	2a04      	cmp	r2, #4
  *         configuration based on this function will be incorrect.
  *    
  * @retval None
  */
void RCC_GetClocksFreq(RCC_ClocksTypeDef* RCC_Clocks)
{
 802592e:	b510      	push	{r4, lr}
  uint32_t tmp = 0, presc = 0, pllvco = 0, pllp = 2, pllsource = 0, pllm = 2;

  /* Get SYSCLK source -------------------------------------------------------*/
  tmp = RCC->CFGR & RCC_CFGR_SWS;

  switch (tmp)
 8025930:	d003      	beq.n	802593a <RCC_GetClocksFreq+0x16>
 8025932:	2a08      	cmp	r2, #8
 8025934:	d003      	beq.n	802593e <RCC_GetClocksFreq+0x1a>
 8025936:	4b1b      	ldr	r3, [pc, #108]	; (80259a4 <RCC_GetClocksFreq+0x80>)
 8025938:	e018      	b.n	802596c <RCC_GetClocksFreq+0x48>
  {
    case 0x00:  /* HSI used as system clock source */
      RCC_Clocks->SYSCLK_Frequency = HSI_VALUE;
      break;
    case 0x04:  /* HSE used as system clock  source */
      RCC_Clocks->SYSCLK_Frequency = HSE_VALUE;
 802593a:	4b1b      	ldr	r3, [pc, #108]	; (80259a8 <RCC_GetClocksFreq+0x84>)
 802593c:	e016      	b.n	802596c <RCC_GetClocksFreq+0x48>
    case 0x08:  /* PLL used as system clock  source */

      /* PLL_VCO = (HSE_VALUE or HSI_VALUE / PLLM) * PLLN
         SYSCLK = PLL_VCO / PLLP
         */    
      pllsource = (RCC->PLLCFGR & RCC_PLLCFGR_PLLSRC) >> 22;
 802593e:	6859      	ldr	r1, [r3, #4]
      pllm = RCC->PLLCFGR & RCC_PLLCFGR_PLLM;
 8025940:	685a      	ldr	r2, [r3, #4]
      
      if (pllsource != 0)
 8025942:	f411 0f80 	tst.w	r1, #4194304	; 0x400000
      {
        /* HSE used as PLL clock source */
        pllvco = (HSE_VALUE / pllm) * ((RCC->PLLCFGR & RCC_PLLCFGR_PLLN) >> 6);
 8025946:	6859      	ldr	r1, [r3, #4]
 8025948:	bf14      	ite	ne
 802594a:	4b17      	ldrne	r3, [pc, #92]	; (80259a8 <RCC_GetClocksFreq+0x84>)
      }
      else
      {
        /* HSI used as PLL clock source */
        pllvco = (HSI_VALUE / pllm) * ((RCC->PLLCFGR & RCC_PLLCFGR_PLLN) >> 6);      
 802594c:	4b15      	ldreq	r3, [pc, #84]	; (80259a4 <RCC_GetClocksFreq+0x80>)

      /* PLL_VCO = (HSE_VALUE or HSI_VALUE / PLLM) * PLLN
         SYSCLK = PLL_VCO / PLLP
         */    
      pllsource = (RCC->PLLCFGR & RCC_PLLCFGR_PLLSRC) >> 22;
      pllm = RCC->PLLCFGR & RCC_PLLCFGR_PLLM;
 802594e:	f002 023f 	and.w	r2, r2, #63	; 0x3f
        pllvco = (HSE_VALUE / pllm) * ((RCC->PLLCFGR & RCC_PLLCFGR_PLLN) >> 6);
      }
      else
      {
        /* HSI used as PLL clock source */
        pllvco = (HSI_VALUE / pllm) * ((RCC->PLLCFGR & RCC_PLLCFGR_PLLN) >> 6);      
 8025952:	fbb3 f3f2 	udiv	r3, r3, r2
      }

      pllp = (((RCC->PLLCFGR & RCC_PLLCFGR_PLLP) >>16) + 1 ) *2;
 8025956:	4a12      	ldr	r2, [pc, #72]	; (80259a0 <RCC_GetClocksFreq+0x7c>)
 8025958:	6852      	ldr	r2, [r2, #4]
 802595a:	f3c2 4201 	ubfx	r2, r2, #16, #2
      pllm = RCC->PLLCFGR & RCC_PLLCFGR_PLLM;
      
      if (pllsource != 0)
      {
        /* HSE used as PLL clock source */
        pllvco = (HSE_VALUE / pllm) * ((RCC->PLLCFGR & RCC_PLLCFGR_PLLN) >> 6);
 802595e:	f3c1 1188 	ubfx	r1, r1, #6, #9
      {
        /* HSI used as PLL clock source */
        pllvco = (HSI_VALUE / pllm) * ((RCC->PLLCFGR & RCC_PLLCFGR_PLLN) >> 6);      
      }

      pllp = (((RCC->PLLCFGR & RCC_PLLCFGR_PLLP) >>16) + 1 ) *2;
 8025962:	3201      	adds	r2, #1
        pllvco = (HSE_VALUE / pllm) * ((RCC->PLLCFGR & RCC_PLLCFGR_PLLN) >> 6);
      }
      else
      {
        /* HSI used as PLL clock source */
        pllvco = (HSI_VALUE / pllm) * ((RCC->PLLCFGR & RCC_PLLCFGR_PLLN) >> 6);      
 8025964:	434b      	muls	r3, r1
      }

      pllp = (((RCC->PLLCFGR & RCC_PLLCFGR_PLLP) >>16) + 1 ) *2;
 8025966:	0052      	lsls	r2, r2, #1
      RCC_Clocks->SYSCLK_Frequency = pllvco/pllp;
 8025968:	fbb3 f3f2 	udiv	r3, r3, r2
      break;
  }
  /* Compute HCLK, PCLK1 and PCLK2 clocks frequencies ------------------------*/

  /* Get HCLK prescaler */
  tmp = RCC->CFGR & RCC_CFGR_HPRE;
 802596c:	490c      	ldr	r1, [pc, #48]	; (80259a0 <RCC_GetClocksFreq+0x7c>)
        /* HSI used as PLL clock source */
        pllvco = (HSI_VALUE / pllm) * ((RCC->PLLCFGR & RCC_PLLCFGR_PLLN) >> 6);      
      }

      pllp = (((RCC->PLLCFGR & RCC_PLLCFGR_PLLP) >>16) + 1 ) *2;
      RCC_Clocks->SYSCLK_Frequency = pllvco/pllp;
 802596e:	6003      	str	r3, [r0, #0]
      break;
  }
  /* Compute HCLK, PCLK1 and PCLK2 clocks frequencies ------------------------*/

  /* Get HCLK prescaler */
  tmp = RCC->CFGR & RCC_CFGR_HPRE;
 8025970:	688b      	ldr	r3, [r1, #8]
  tmp = tmp >> 4;
  presc = APBAHBPrescTable[tmp];
 8025972:	4a0e      	ldr	r2, [pc, #56]	; (80259ac <RCC_GetClocksFreq+0x88>)
  }
  /* Compute HCLK, PCLK1 and PCLK2 clocks frequencies ------------------------*/

  /* Get HCLK prescaler */
  tmp = RCC->CFGR & RCC_CFGR_HPRE;
  tmp = tmp >> 4;
 8025974:	f3c3 1303 	ubfx	r3, r3, #4, #4
  presc = APBAHBPrescTable[tmp];
 8025978:	5cd4      	ldrb	r4, [r2, r3]
  /* HCLK clock frequency */
  RCC_Clocks->HCLK_Frequency = RCC_Clocks->SYSCLK_Frequency >> presc;
 802597a:	6803      	ldr	r3, [r0, #0]
 802597c:	fa23 f304 	lsr.w	r3, r3, r4
 8025980:	6043      	str	r3, [r0, #4]

  /* Get PCLK1 prescaler */
  tmp = RCC->CFGR & RCC_CFGR_PPRE1;
 8025982:	688c      	ldr	r4, [r1, #8]
  tmp = tmp >> 10;
 8025984:	f3c4 2482 	ubfx	r4, r4, #10, #3
  presc = APBAHBPrescTable[tmp];
 8025988:	5d14      	ldrb	r4, [r2, r4]
  /* PCLK1 clock frequency */
  RCC_Clocks->PCLK1_Frequency = RCC_Clocks->HCLK_Frequency >> presc;
 802598a:	fa23 f404 	lsr.w	r4, r3, r4
 802598e:	6084      	str	r4, [r0, #8]

  /* Get PCLK2 prescaler */
  tmp = RCC->CFGR & RCC_CFGR_PPRE2;
 8025990:	6889      	ldr	r1, [r1, #8]
  tmp = tmp >> 13;
 8025992:	f3c1 3142 	ubfx	r1, r1, #13, #3
  presc = APBAHBPrescTable[tmp];
 8025996:	5c52      	ldrb	r2, [r2, r1]
  /* PCLK2 clock frequency */
  RCC_Clocks->PCLK2_Frequency = RCC_Clocks->HCLK_Frequency >> presc;
 8025998:	fa23 f302 	lsr.w	r3, r3, r2
 802599c:	60c3      	str	r3, [r0, #12]
 802599e:	bd10      	pop	{r4, pc}
 80259a0:	40023800 	.word	0x40023800
 80259a4:	00f42400 	.word	0x00f42400
 80259a8:	017d7840 	.word	0x017d7840
 80259ac:	200005ac 	.word	0x200005ac

080259b0 <RCC_RTCCLKConfig>:
  uint32_t tmpreg = 0;

  /* Check the parameters */
  assert_param(IS_RCC_RTCCLK_SOURCE(RCC_RTCCLKSource));

  if ((RCC_RTCCLKSource & 0x00000300) == 0x00000300)
 80259b0:	f400 7340 	and.w	r3, r0, #768	; 0x300
 80259b4:	f5b3 7f40 	cmp.w	r3, #768	; 0x300
 80259b8:	4b08      	ldr	r3, [pc, #32]	; (80259dc <RCC_RTCCLKConfig+0x2c>)
 80259ba:	d108      	bne.n	80259ce <RCC_RTCCLKConfig+0x1e>
  { /* If HSE is selected as RTC clock source, configure HSE division factor for RTC clock */
    tmpreg = RCC->CFGR;
 80259bc:	6899      	ldr	r1, [r3, #8]

    /* Clear RTCPRE[4:0] bits */
    tmpreg &= ~RCC_CFGR_RTCPRE;

    /* Configure HSE division factor for RTC clock */
    tmpreg |= (RCC_RTCCLKSource & 0xFFFFCFF);
 80259be:	f020 4270 	bic.w	r2, r0, #4026531840	; 0xf0000000
  if ((RCC_RTCCLKSource & 0x00000300) == 0x00000300)
  { /* If HSE is selected as RTC clock source, configure HSE division factor for RTC clock */
    tmpreg = RCC->CFGR;

    /* Clear RTCPRE[4:0] bits */
    tmpreg &= ~RCC_CFGR_RTCPRE;
 80259c2:	f421 11f8 	bic.w	r1, r1, #2031616	; 0x1f0000

    /* Configure HSE division factor for RTC clock */
    tmpreg |= (RCC_RTCCLKSource & 0xFFFFCFF);
 80259c6:	f422 7240 	bic.w	r2, r2, #768	; 0x300
 80259ca:	430a      	orrs	r2, r1

    /* Store the new value */
    RCC->CFGR = tmpreg;
 80259cc:	609a      	str	r2, [r3, #8]
  }
    
  /* Select the RTC clock source */
  RCC->BDCR |= (RCC_RTCCLKSource & 0x00000FFF);
 80259ce:	6f1a      	ldr	r2, [r3, #112]	; 0x70
 80259d0:	0500      	lsls	r0, r0, #20
 80259d2:	ea42 5010 	orr.w	r0, r2, r0, lsr #20
 80259d6:	6718      	str	r0, [r3, #112]	; 0x70
 80259d8:	4770      	bx	lr
 80259da:	bf00      	nop
 80259dc:	40023800 	.word	0x40023800

080259e0 <RCC_RTCCLKCmd>:
void RCC_RTCCLKCmd(FunctionalState NewState)
{
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  *(__IO uint32_t *) BDCR_RTCEN_BB = (uint32_t)NewState;
 80259e0:	4b01      	ldr	r3, [pc, #4]	; (80259e8 <RCC_RTCCLKCmd+0x8>)
 80259e2:	6018      	str	r0, [r3, #0]
 80259e4:	4770      	bx	lr
 80259e6:	bf00      	nop
 80259e8:	42470e3c 	.word	0x42470e3c

080259ec <RCC_AHB1PeriphClockCmd>:
  * @param  NewState: new state of the specified peripheral clock.
  *          This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void RCC_AHB1PeriphClockCmd(uint32_t RCC_AHB1Periph, FunctionalState NewState)
{
 80259ec:	4b04      	ldr	r3, [pc, #16]	; (8025a00 <RCC_AHB1PeriphClockCmd+0x14>)
  assert_param(IS_RCC_AHB1_CLOCK_PERIPH(RCC_AHB1Periph));

  assert_param(IS_FUNCTIONAL_STATE(NewState));
  if (NewState != DISABLE)
  {
    RCC->AHB1ENR |= RCC_AHB1Periph;
 80259ee:	6b1a      	ldr	r2, [r3, #48]	; 0x30
{
  /* Check the parameters */
  assert_param(IS_RCC_AHB1_CLOCK_PERIPH(RCC_AHB1Periph));

  assert_param(IS_FUNCTIONAL_STATE(NewState));
  if (NewState != DISABLE)
 80259f0:	b109      	cbz	r1, 80259f6 <RCC_AHB1PeriphClockCmd+0xa>
  {
    RCC->AHB1ENR |= RCC_AHB1Periph;
 80259f2:	4310      	orrs	r0, r2
 80259f4:	e001      	b.n	80259fa <RCC_AHB1PeriphClockCmd+0xe>
  }
  else
  {
    RCC->AHB1ENR &= ~RCC_AHB1Periph;
 80259f6:	ea22 0000 	bic.w	r0, r2, r0
 80259fa:	6318      	str	r0, [r3, #48]	; 0x30
 80259fc:	4770      	bx	lr
 80259fe:	bf00      	nop
 8025a00:	40023800 	.word	0x40023800

08025a04 <RCC_AHB2PeriphClockCmd>:
  * @param  NewState: new state of the specified peripheral clock.
  *          This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void RCC_AHB2PeriphClockCmd(uint32_t RCC_AHB2Periph, FunctionalState NewState)
{
 8025a04:	4b04      	ldr	r3, [pc, #16]	; (8025a18 <RCC_AHB2PeriphClockCmd+0x14>)
  assert_param(IS_RCC_AHB2_PERIPH(RCC_AHB2Periph));
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  if (NewState != DISABLE)
  {
    RCC->AHB2ENR |= RCC_AHB2Periph;
 8025a06:	6b5a      	ldr	r2, [r3, #52]	; 0x34
{
  /* Check the parameters */
  assert_param(IS_RCC_AHB2_PERIPH(RCC_AHB2Periph));
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  if (NewState != DISABLE)
 8025a08:	b109      	cbz	r1, 8025a0e <RCC_AHB2PeriphClockCmd+0xa>
  {
    RCC->AHB2ENR |= RCC_AHB2Periph;
 8025a0a:	4310      	orrs	r0, r2
 8025a0c:	e001      	b.n	8025a12 <RCC_AHB2PeriphClockCmd+0xe>
  }
  else
  {
    RCC->AHB2ENR &= ~RCC_AHB2Periph;
 8025a0e:	ea22 0000 	bic.w	r0, r2, r0
 8025a12:	6358      	str	r0, [r3, #52]	; 0x34
 8025a14:	4770      	bx	lr
 8025a16:	bf00      	nop
 8025a18:	40023800 	.word	0x40023800

08025a1c <RCC_APB1PeriphClockCmd>:
  * @param  NewState: new state of the specified peripheral clock.
  *          This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void RCC_APB1PeriphClockCmd(uint32_t RCC_APB1Periph, FunctionalState NewState)
{
 8025a1c:	4b04      	ldr	r3, [pc, #16]	; (8025a30 <RCC_APB1PeriphClockCmd+0x14>)
  assert_param(IS_RCC_APB1_PERIPH(RCC_APB1Periph));  
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  if (NewState != DISABLE)
  {
    RCC->APB1ENR |= RCC_APB1Periph;
 8025a1e:	6c1a      	ldr	r2, [r3, #64]	; 0x40
{
  /* Check the parameters */
  assert_param(IS_RCC_APB1_PERIPH(RCC_APB1Periph));  
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  if (NewState != DISABLE)
 8025a20:	b109      	cbz	r1, 8025a26 <RCC_APB1PeriphClockCmd+0xa>
  {
    RCC->APB1ENR |= RCC_APB1Periph;
 8025a22:	4310      	orrs	r0, r2
 8025a24:	e001      	b.n	8025a2a <RCC_APB1PeriphClockCmd+0xe>
  }
  else
  {
    RCC->APB1ENR &= ~RCC_APB1Periph;
 8025a26:	ea22 0000 	bic.w	r0, r2, r0
 8025a2a:	6418      	str	r0, [r3, #64]	; 0x40
 8025a2c:	4770      	bx	lr
 8025a2e:	bf00      	nop
 8025a30:	40023800 	.word	0x40023800

08025a34 <RCC_APB2PeriphClockCmd>:
  * @param  NewState: new state of the specified peripheral clock.
  *          This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void RCC_APB2PeriphClockCmd(uint32_t RCC_APB2Periph, FunctionalState NewState)
{
 8025a34:	4b04      	ldr	r3, [pc, #16]	; (8025a48 <RCC_APB2PeriphClockCmd+0x14>)
  assert_param(IS_RCC_APB2_PERIPH(RCC_APB2Periph));
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  if (NewState != DISABLE)
  {
    RCC->APB2ENR |= RCC_APB2Periph;
 8025a36:	6c5a      	ldr	r2, [r3, #68]	; 0x44
{
  /* Check the parameters */
  assert_param(IS_RCC_APB2_PERIPH(RCC_APB2Periph));
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  if (NewState != DISABLE)
 8025a38:	b109      	cbz	r1, 8025a3e <RCC_APB2PeriphClockCmd+0xa>
  {
    RCC->APB2ENR |= RCC_APB2Periph;
 8025a3a:	4310      	orrs	r0, r2
 8025a3c:	e001      	b.n	8025a42 <RCC_APB2PeriphClockCmd+0xe>
  }
  else
  {
    RCC->APB2ENR &= ~RCC_APB2Periph;
 8025a3e:	ea22 0000 	bic.w	r0, r2, r0
 8025a42:	6458      	str	r0, [r3, #68]	; 0x44
 8025a44:	4770      	bx	lr
 8025a46:	bf00      	nop
 8025a48:	40023800 	.word	0x40023800

08025a4c <RCC_AHB1PeriphResetCmd>:
  * @param  NewState: new state of the specified peripheral reset.
  *          This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void RCC_AHB1PeriphResetCmd(uint32_t RCC_AHB1Periph, FunctionalState NewState)
{
 8025a4c:	4b04      	ldr	r3, [pc, #16]	; (8025a60 <RCC_AHB1PeriphResetCmd+0x14>)
  assert_param(IS_RCC_AHB1_RESET_PERIPH(RCC_AHB1Periph));
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  if (NewState != DISABLE)
  {
    RCC->AHB1RSTR |= RCC_AHB1Periph;
 8025a4e:	691a      	ldr	r2, [r3, #16]
{
  /* Check the parameters */
  assert_param(IS_RCC_AHB1_RESET_PERIPH(RCC_AHB1Periph));
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  if (NewState != DISABLE)
 8025a50:	b109      	cbz	r1, 8025a56 <RCC_AHB1PeriphResetCmd+0xa>
  {
    RCC->AHB1RSTR |= RCC_AHB1Periph;
 8025a52:	4310      	orrs	r0, r2
 8025a54:	e001      	b.n	8025a5a <RCC_AHB1PeriphResetCmd+0xe>
  }
  else
  {
    RCC->AHB1RSTR &= ~RCC_AHB1Periph;
 8025a56:	ea22 0000 	bic.w	r0, r2, r0
 8025a5a:	6118      	str	r0, [r3, #16]
 8025a5c:	4770      	bx	lr
 8025a5e:	bf00      	nop
 8025a60:	40023800 	.word	0x40023800

08025a64 <RCC_APB1PeriphResetCmd>:
  * @param  NewState: new state of the specified peripheral reset.
  *          This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void RCC_APB1PeriphResetCmd(uint32_t RCC_APB1Periph, FunctionalState NewState)
{
 8025a64:	4b04      	ldr	r3, [pc, #16]	; (8025a78 <RCC_APB1PeriphResetCmd+0x14>)
  /* Check the parameters */
  assert_param(IS_RCC_APB1_PERIPH(RCC_APB1Periph));
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  if (NewState != DISABLE)
  {
    RCC->APB1RSTR |= RCC_APB1Periph;
 8025a66:	6a1a      	ldr	r2, [r3, #32]
void RCC_APB1PeriphResetCmd(uint32_t RCC_APB1Periph, FunctionalState NewState)
{
  /* Check the parameters */
  assert_param(IS_RCC_APB1_PERIPH(RCC_APB1Periph));
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  if (NewState != DISABLE)
 8025a68:	b109      	cbz	r1, 8025a6e <RCC_APB1PeriphResetCmd+0xa>
  {
    RCC->APB1RSTR |= RCC_APB1Periph;
 8025a6a:	4310      	orrs	r0, r2
 8025a6c:	e001      	b.n	8025a72 <RCC_APB1PeriphResetCmd+0xe>
  }
  else
  {
    RCC->APB1RSTR &= ~RCC_APB1Periph;
 8025a6e:	ea22 0000 	bic.w	r0, r2, r0
 8025a72:	6218      	str	r0, [r3, #32]
 8025a74:	4770      	bx	lr
 8025a76:	bf00      	nop
 8025a78:	40023800 	.word	0x40023800

08025a7c <RCC_APB2PeriphResetCmd>:
  * @param  NewState: new state of the specified peripheral reset.
  *          This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void RCC_APB2PeriphResetCmd(uint32_t RCC_APB2Periph, FunctionalState NewState)
{
 8025a7c:	4b04      	ldr	r3, [pc, #16]	; (8025a90 <RCC_APB2PeriphResetCmd+0x14>)
  /* Check the parameters */
  assert_param(IS_RCC_APB2_RESET_PERIPH(RCC_APB2Periph));
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  if (NewState != DISABLE)
  {
    RCC->APB2RSTR |= RCC_APB2Periph;
 8025a7e:	6a5a      	ldr	r2, [r3, #36]	; 0x24
void RCC_APB2PeriphResetCmd(uint32_t RCC_APB2Periph, FunctionalState NewState)
{
  /* Check the parameters */
  assert_param(IS_RCC_APB2_RESET_PERIPH(RCC_APB2Periph));
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  if (NewState != DISABLE)
 8025a80:	b109      	cbz	r1, 8025a86 <RCC_APB2PeriphResetCmd+0xa>
  {
    RCC->APB2RSTR |= RCC_APB2Periph;
 8025a82:	4310      	orrs	r0, r2
 8025a84:	e001      	b.n	8025a8a <RCC_APB2PeriphResetCmd+0xe>
  }
  else
  {
    RCC->APB2RSTR &= ~RCC_APB2Periph;
 8025a86:	ea22 0000 	bic.w	r0, r2, r0
 8025a8a:	6258      	str	r0, [r3, #36]	; 0x24
 8025a8c:	4770      	bx	lr
 8025a8e:	bf00      	nop
 8025a90:	40023800 	.word	0x40023800

08025a94 <RCC_GetFlagStatus>:

  /* Check the parameters */
  assert_param(IS_RCC_FLAG(RCC_FLAG));

  /* Get the RCC register index */
  tmp = RCC_FLAG >> 5;
 8025a94:	0943      	lsrs	r3, r0, #5
  if (tmp == 1)               /* The flag to check is in CR register */
 8025a96:	2b01      	cmp	r3, #1
 8025a98:	4a07      	ldr	r2, [pc, #28]	; (8025ab8 <RCC_GetFlagStatus+0x24>)
 8025a9a:	d101      	bne.n	8025aa0 <RCC_GetFlagStatus+0xc>
  {
    statusreg = RCC->CR;
 8025a9c:	6813      	ldr	r3, [r2, #0]
 8025a9e:	e003      	b.n	8025aa8 <RCC_GetFlagStatus+0x14>
  }
  else if (tmp == 2)          /* The flag to check is in BDCR register */
 8025aa0:	2b02      	cmp	r3, #2
  {
    statusreg = RCC->BDCR;
 8025aa2:	bf0c      	ite	eq
 8025aa4:	6f13      	ldreq	r3, [r2, #112]	; 0x70
  }
  else                       /* The flag to check is in CSR register */
  {
    statusreg = RCC->CSR;
 8025aa6:	6f53      	ldrne	r3, [r2, #116]	; 0x74
  }

  /* Get the flag position */
  tmp = RCC_FLAG & FLAG_MASK;
  if ((statusreg & ((uint32_t)1 << tmp)) != (uint32_t)RESET)
 8025aa8:	f000 001f 	and.w	r0, r0, #31
 8025aac:	fa23 f000 	lsr.w	r0, r3, r0
  {
    bitstatus = RESET;
  }
  /* Return the flag status */
  return bitstatus;
}
 8025ab0:	f000 0001 	and.w	r0, r0, #1
 8025ab4:	4770      	bx	lr
 8025ab6:	bf00      	nop
 8025ab8:	40023800 	.word	0x40023800

08025abc <RNG_Cmd>:
  * @param  NewState: new state of the RNG peripheral.
  *          This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void RNG_Cmd(FunctionalState NewState)
{
 8025abc:	4b04      	ldr	r3, [pc, #16]	; (8025ad0 <RNG_Cmd+0x14>)
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  if (NewState != DISABLE)
  {
    /* Enable the RNG */
    RNG->CR |= RNG_CR_RNGEN;
 8025abe:	681a      	ldr	r2, [r3, #0]
void RNG_Cmd(FunctionalState NewState)
{
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(NewState));

  if (NewState != DISABLE)
 8025ac0:	b110      	cbz	r0, 8025ac8 <RNG_Cmd+0xc>
  {
    /* Enable the RNG */
    RNG->CR |= RNG_CR_RNGEN;
 8025ac2:	f042 0204 	orr.w	r2, r2, #4
 8025ac6:	e001      	b.n	8025acc <RNG_Cmd+0x10>
  }
  else
  {
    /* Disable the RNG */
    RNG->CR &= ~RNG_CR_RNGEN;
 8025ac8:	f022 0204 	bic.w	r2, r2, #4
 8025acc:	601a      	str	r2, [r3, #0]
 8025ace:	4770      	bx	lr
 8025ad0:	50060800 	.word	0x50060800

08025ad4 <RNG_GetRandomNumber>:
  * @retval 32-bit random number.
  */
uint32_t RNG_GetRandomNumber(void)
{
  /* Return the 32 bit random number from the DR register */
  return RNG->DR;
 8025ad4:	4b01      	ldr	r3, [pc, #4]	; (8025adc <RNG_GetRandomNumber+0x8>)
 8025ad6:	6898      	ldr	r0, [r3, #8]
}
 8025ad8:	4770      	bx	lr
 8025ada:	bf00      	nop
 8025adc:	50060800 	.word	0x50060800

08025ae0 <RTC_ByteToBcd2>:
  * @param  Value: Byte to be converted.
  * @retval Converted byte
  */
static uint8_t RTC_ByteToBcd2(uint8_t Value)
{
  uint8_t bcdhigh = 0;
 8025ae0:	2300      	movs	r3, #0
  
  while (Value >= 10)
 8025ae2:	e003      	b.n	8025aec <RTC_ByteToBcd2+0xc>
  {
    bcdhigh++;
 8025ae4:	3301      	adds	r3, #1
    Value -= 10;
 8025ae6:	380a      	subs	r0, #10
{
  uint8_t bcdhigh = 0;
  
  while (Value >= 10)
  {
    bcdhigh++;
 8025ae8:	b2db      	uxtb	r3, r3
    Value -= 10;
 8025aea:	b2c0      	uxtb	r0, r0
  */
static uint8_t RTC_ByteToBcd2(uint8_t Value)
{
  uint8_t bcdhigh = 0;
  
  while (Value >= 10)
 8025aec:	2809      	cmp	r0, #9
 8025aee:	d8f9      	bhi.n	8025ae4 <RTC_ByteToBcd2+0x4>
  {
    bcdhigh++;
    Value -= 10;
  }
  
  return  ((uint8_t)(bcdhigh << 4) | Value);
 8025af0:	ea40 1003 	orr.w	r0, r0, r3, lsl #4
}
 8025af4:	b2c0      	uxtb	r0, r0
 8025af6:	4770      	bx	lr

08025af8 <RTC_Bcd2ToByte>:
  * @retval Converted word
  */
static uint8_t RTC_Bcd2ToByte(uint8_t Value)
{
  uint8_t tmp = 0;
  tmp = ((uint8_t)(Value & (uint8_t)0xF0) >> (uint8_t)0x4) * 10;
 8025af8:	0902      	lsrs	r2, r0, #4
  return (tmp + (Value & (uint8_t)0x0F));
 8025afa:	f000 030f 	and.w	r3, r0, #15
 8025afe:	200a      	movs	r0, #10
 8025b00:	fb00 3002 	mla	r0, r0, r2, r3
}
 8025b04:	b2c0      	uxtb	r0, r0
 8025b06:	4770      	bx	lr

08025b08 <RTC_EnterInitMode>:
  * @retval An ErrorStatus enumeration value:
  *          - SUCCESS: RTC is in Init mode
  *          - ERROR: RTC is not in Init mode  
  */
ErrorStatus RTC_EnterInitMode(void)
{
 8025b08:	b082      	sub	sp, #8
  __IO uint32_t initcounter = 0x00;
 8025b0a:	2300      	movs	r3, #0
 8025b0c:	9301      	str	r3, [sp, #4]
  ErrorStatus status = ERROR;
  uint32_t initstatus = 0x00;
     
  /* Check if the Initialization mode is set */
  if ((RTC->ISR & RTC_ISR_INITF) == (uint32_t)RESET)
 8025b0e:	4b0d      	ldr	r3, [pc, #52]	; (8025b44 <RTC_EnterInitMode+0x3c>)
 8025b10:	68da      	ldr	r2, [r3, #12]
 8025b12:	0650      	lsls	r0, r2, #25
 8025b14:	d413      	bmi.n	8025b3e <RTC_EnterInitMode+0x36>
  {
    /* Set the Initialization mode */
    RTC->ISR = (uint32_t)RTC_INIT_MASK;
 8025b16:	f04f 32ff 	mov.w	r2, #4294967295
 8025b1a:	60da      	str	r2, [r3, #12]
    
    /* Wait till RTC is in INIT state and if Time out is reached exit */
    do
    {
      initstatus = RTC->ISR & RTC_ISR_INITF;
 8025b1c:	68da      	ldr	r2, [r3, #12]
      initcounter++;  
 8025b1e:	9901      	ldr	r1, [sp, #4]
 8025b20:	3101      	adds	r1, #1
 8025b22:	9101      	str	r1, [sp, #4]
    } while((initcounter != INITMODE_TIMEOUT) && (initstatus == 0x00));
 8025b24:	9901      	ldr	r1, [sp, #4]
 8025b26:	f5b1 3f80 	cmp.w	r1, #65536	; 0x10000
    RTC->ISR = (uint32_t)RTC_INIT_MASK;
    
    /* Wait till RTC is in INIT state and if Time out is reached exit */
    do
    {
      initstatus = RTC->ISR & RTC_ISR_INITF;
 8025b2a:	f002 0240 	and.w	r2, r2, #64	; 0x40
      initcounter++;  
    } while((initcounter != INITMODE_TIMEOUT) && (initstatus == 0x00));
 8025b2e:	d001      	beq.n	8025b34 <RTC_EnterInitMode+0x2c>
 8025b30:	2a00      	cmp	r2, #0
 8025b32:	d0f3      	beq.n	8025b1c <RTC_EnterInitMode+0x14>
    
    if ((RTC->ISR & RTC_ISR_INITF) != RESET)
 8025b34:	4b03      	ldr	r3, [pc, #12]	; (8025b44 <RTC_EnterInitMode+0x3c>)
 8025b36:	68d8      	ldr	r0, [r3, #12]
    {
      status = SUCCESS;
 8025b38:	f3c0 1080 	ubfx	r0, r0, #6, #1
 8025b3c:	e000      	b.n	8025b40 <RTC_EnterInitMode+0x38>
      status = ERROR;
    }        
  }
  else
  {
    status = SUCCESS;  
 8025b3e:	2001      	movs	r0, #1
  } 
    
  return (status);  
}
 8025b40:	b002      	add	sp, #8
 8025b42:	4770      	bx	lr
 8025b44:	40002800 	.word	0x40002800

08025b48 <RTC_ExitInitMode>:
  * @retval None
  */
void RTC_ExitInitMode(void)
{ 
  /* Exit Initialization mode */
  RTC->ISR &= (uint32_t)~RTC_ISR_INIT;  
 8025b48:	4b02      	ldr	r3, [pc, #8]	; (8025b54 <RTC_ExitInitMode+0xc>)
 8025b4a:	68da      	ldr	r2, [r3, #12]
 8025b4c:	f022 0280 	bic.w	r2, r2, #128	; 0x80
 8025b50:	60da      	str	r2, [r3, #12]
 8025b52:	4770      	bx	lr
 8025b54:	40002800 	.word	0x40002800

08025b58 <RTC_Init>:
  * @retval An ErrorStatus enumeration value:
  *          - SUCCESS: RTC registers are initialized
  *          - ERROR: RTC registers are not initialized  
  */
ErrorStatus RTC_Init(RTC_InitTypeDef* RTC_InitStruct)
{
 8025b58:	b538      	push	{r3, r4, r5, lr}
  assert_param(IS_RTC_HOUR_FORMAT(RTC_InitStruct->RTC_HourFormat));
  assert_param(IS_RTC_ASYNCH_PREDIV(RTC_InitStruct->RTC_AsynchPrediv));
  assert_param(IS_RTC_SYNCH_PREDIV(RTC_InitStruct->RTC_SynchPrediv));

  /* Disable the write protection for RTC registers */
  RTC->WPR = 0xCA;
 8025b5a:	4c0f      	ldr	r4, [pc, #60]	; (8025b98 <RTC_Init+0x40>)
 8025b5c:	23ca      	movs	r3, #202	; 0xca
 8025b5e:	6263      	str	r3, [r4, #36]	; 0x24
  RTC->WPR = 0x53;
 8025b60:	2353      	movs	r3, #83	; 0x53
 8025b62:	6263      	str	r3, [r4, #36]	; 0x24
  * @retval An ErrorStatus enumeration value:
  *          - SUCCESS: RTC registers are initialized
  *          - ERROR: RTC registers are not initialized  
  */
ErrorStatus RTC_Init(RTC_InitTypeDef* RTC_InitStruct)
{
 8025b64:	4605      	mov	r5, r0
  /* Disable the write protection for RTC registers */
  RTC->WPR = 0xCA;
  RTC->WPR = 0x53;

  /* Set Initialization mode */
  if (RTC_EnterInitMode() == ERROR)
 8025b66:	f7ff ffcf 	bl	8025b08 <RTC_EnterInitMode>
 8025b6a:	b188      	cbz	r0, 8025b90 <RTC_Init+0x38>
    status = ERROR;
  } 
  else
  {
    /* Clear RTC CR FMT Bit */
    RTC->CR &= ((uint32_t)~(RTC_CR_FMT));
 8025b6c:	68a3      	ldr	r3, [r4, #8]
 8025b6e:	f023 0340 	bic.w	r3, r3, #64	; 0x40
 8025b72:	60a3      	str	r3, [r4, #8]
    /* Set RTC_CR register */
    RTC->CR |=  ((uint32_t)(RTC_InitStruct->RTC_HourFormat));
 8025b74:	68a2      	ldr	r2, [r4, #8]
 8025b76:	682b      	ldr	r3, [r5, #0]
 8025b78:	4313      	orrs	r3, r2
 8025b7a:	60a3      	str	r3, [r4, #8]
  
    /* Configure the RTC PRER */
    RTC->PRER = (uint32_t)(RTC_InitStruct->RTC_SynchPrediv);
 8025b7c:	68ab      	ldr	r3, [r5, #8]
 8025b7e:	6123      	str	r3, [r4, #16]
    RTC->PRER |= (uint32_t)(RTC_InitStruct->RTC_AsynchPrediv << 16);
 8025b80:	6923      	ldr	r3, [r4, #16]
 8025b82:	686a      	ldr	r2, [r5, #4]
 8025b84:	ea43 4302 	orr.w	r3, r3, r2, lsl #16
 8025b88:	6123      	str	r3, [r4, #16]

    /* Exit Initialization mode */
    RTC_ExitInitMode();
 8025b8a:	f7ff ffdd 	bl	8025b48 <RTC_ExitInitMode>

    status = SUCCESS;    
 8025b8e:	2001      	movs	r0, #1
  }
  /* Enable the write protection for RTC registers */
  RTC->WPR = 0xFF; 
 8025b90:	4b01      	ldr	r3, [pc, #4]	; (8025b98 <RTC_Init+0x40>)
 8025b92:	22ff      	movs	r2, #255	; 0xff
 8025b94:	625a      	str	r2, [r3, #36]	; 0x24
  
  return status;
}
 8025b96:	bd38      	pop	{r3, r4, r5, pc}
 8025b98:	40002800 	.word	0x40002800

08025b9c <RTC_WaitForSynchro>:
  * @retval An ErrorStatus enumeration value:
  *          - SUCCESS: RTC registers are synchronised
  *          - ERROR: RTC registers are not synchronised
  */
ErrorStatus RTC_WaitForSynchro(void)
{
 8025b9c:	b082      	sub	sp, #8
  __IO uint32_t synchrocounter = 0;
 8025b9e:	2300      	movs	r3, #0
 8025ba0:	9301      	str	r3, [sp, #4]
  ErrorStatus status = ERROR;
  uint32_t synchrostatus = 0x00;

  /* Disable the write protection for RTC registers */
  RTC->WPR = 0xCA;
 8025ba2:	4b0e      	ldr	r3, [pc, #56]	; (8025bdc <RTC_WaitForSynchro+0x40>)
 8025ba4:	22ca      	movs	r2, #202	; 0xca
 8025ba6:	625a      	str	r2, [r3, #36]	; 0x24
  RTC->WPR = 0x53;
 8025ba8:	2253      	movs	r2, #83	; 0x53
 8025baa:	625a      	str	r2, [r3, #36]	; 0x24
    
  /* Clear RSF flag */
  RTC->ISR &= (uint32_t)RTC_RSF_MASK;
 8025bac:	68da      	ldr	r2, [r3, #12]
 8025bae:	f022 02a0 	bic.w	r2, r2, #160	; 0xa0
 8025bb2:	60da      	str	r2, [r3, #12]
    
  /* Wait the registers to be synchronised */
  do
  {
    synchrostatus = RTC->ISR & RTC_ISR_RSF;
 8025bb4:	68d9      	ldr	r1, [r3, #12]
    synchrocounter++;  
 8025bb6:	9a01      	ldr	r2, [sp, #4]
 8025bb8:	3201      	adds	r2, #1
 8025bba:	9201      	str	r2, [sp, #4]
  } while((synchrocounter != SYNCHRO_TIMEOUT) && (synchrostatus == 0x00));
 8025bbc:	9a01      	ldr	r2, [sp, #4]
 8025bbe:	f5b2 3f00 	cmp.w	r2, #131072	; 0x20000
  RTC->ISR &= (uint32_t)RTC_RSF_MASK;
    
  /* Wait the registers to be synchronised */
  do
  {
    synchrostatus = RTC->ISR & RTC_ISR_RSF;
 8025bc2:	f001 0120 	and.w	r1, r1, #32
 8025bc6:	4a05      	ldr	r2, [pc, #20]	; (8025bdc <RTC_WaitForSynchro+0x40>)
    synchrocounter++;  
  } while((synchrocounter != SYNCHRO_TIMEOUT) && (synchrostatus == 0x00));
 8025bc8:	d001      	beq.n	8025bce <RTC_WaitForSynchro+0x32>
 8025bca:	2900      	cmp	r1, #0
 8025bcc:	d0f2      	beq.n	8025bb4 <RTC_WaitForSynchro+0x18>
    
  if ((RTC->ISR & RTC_ISR_RSF) != RESET)
 8025bce:	68d0      	ldr	r0, [r2, #12]
  {
    status = ERROR;
  }        

  /* Enable the write protection for RTC registers */
  RTC->WPR = 0xFF; 
 8025bd0:	23ff      	movs	r3, #255	; 0xff
 8025bd2:	6253      	str	r3, [r2, #36]	; 0x24
    
  return (status); 
}
 8025bd4:	f3c0 1040 	ubfx	r0, r0, #5, #1
 8025bd8:	b002      	add	sp, #8
 8025bda:	4770      	bx	lr
 8025bdc:	40002800 	.word	0x40002800

08025be0 <RTC_SetTime>:
  * @retval An ErrorStatus enumeration value:
  *          - SUCCESS: RTC Time register is configured
  *          - ERROR: RTC Time register is not configured
  */
ErrorStatus RTC_SetTime(uint32_t RTC_Format, RTC_TimeTypeDef* RTC_TimeStruct)
{
 8025be0:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 8025be2:	4b24      	ldr	r3, [pc, #144]	; (8025c74 <RTC_SetTime+0x94>)
 8025be4:	460c      	mov	r4, r1
  /* Check the parameters */
  assert_param(IS_RTC_FORMAT(RTC_Format));
  
  if (RTC_Format == RTC_Format_BIN)
  {
    if ((RTC->CR & RTC_CR_FMT) != (uint32_t)RESET)
 8025be6:	689b      	ldr	r3, [r3, #8]
  ErrorStatus status = ERROR;
    
  /* Check the parameters */
  assert_param(IS_RTC_FORMAT(RTC_Format));
  
  if (RTC_Format == RTC_Format_BIN)
 8025be8:	b920      	cbnz	r0, 8025bf4 <RTC_SetTime+0x14>
  {
    if ((RTC->CR & RTC_CR_FMT) != (uint32_t)RESET)
 8025bea:	f013 0340 	ands.w	r3, r3, #64	; 0x40
 8025bee:	d12e      	bne.n	8025c4e <RTC_SetTime+0x6e>
      assert_param(IS_RTC_HOUR12(RTC_TimeStruct->RTC_Hours));
      assert_param(IS_RTC_H12(RTC_TimeStruct->RTC_H12));
    } 
    else
    {
      RTC_TimeStruct->RTC_H12 = 0x00;
 8025bf0:	70cb      	strb	r3, [r1, #3]
 8025bf2:	e02c      	b.n	8025c4e <RTC_SetTime+0x6e>
    assert_param(IS_RTC_MINUTES(RTC_TimeStruct->RTC_Minutes));
    assert_param(IS_RTC_SECONDS(RTC_TimeStruct->RTC_Seconds));
  }
  else
  {
    if ((RTC->CR & RTC_CR_FMT) != (uint32_t)RESET)
 8025bf4:	f013 0340 	ands.w	r3, r3, #64	; 0x40
 8025bf8:	d11e      	bne.n	8025c38 <RTC_SetTime+0x58>
      assert_param(IS_RTC_HOUR12(tmpreg));
      assert_param(IS_RTC_H12(RTC_TimeStruct->RTC_H12)); 
    } 
    else
    {
      RTC_TimeStruct->RTC_H12 = 0x00;
 8025bfa:	70cb      	strb	r3, [r1, #3]
 8025bfc:	e01c      	b.n	8025c38 <RTC_SetTime+0x58>
                   ((uint32_t)RTC_ByteToBcd2(RTC_TimeStruct->RTC_Seconds)) | \
                   (((uint32_t)RTC_TimeStruct->RTC_H12) << 16));
  }  

  /* Disable the write protection for RTC registers */
  RTC->WPR = 0xCA;
 8025bfe:	4c1d      	ldr	r4, [pc, #116]	; (8025c74 <RTC_SetTime+0x94>)
 8025c00:	23ca      	movs	r3, #202	; 0xca
 8025c02:	6263      	str	r3, [r4, #36]	; 0x24
  RTC->WPR = 0x53;
 8025c04:	2353      	movs	r3, #83	; 0x53
 8025c06:	6263      	str	r3, [r4, #36]	; 0x24

  /* Set Initialization mode */
  if (RTC_EnterInitMode() == ERROR)
 8025c08:	f7ff ff7e 	bl	8025b08 <RTC_EnterInitMode>
 8025c0c:	b180      	cbz	r0, 8025c30 <RTC_SetTime+0x50>
    status = ERROR;
  } 
  else
  {
    /* Set the RTC_TR register */
    RTC->TR = (uint32_t)(tmpreg & RTC_TR_RESERVED_MASK);
 8025c0e:	f005 357f 	and.w	r5, r5, #2139062143	; 0x7f7f7f7f
 8025c12:	f025 45fe 	bic.w	r5, r5, #2130706432	; 0x7f000000
 8025c16:	6025      	str	r5, [r4, #0]

    /* Exit Initialization mode */
    RTC_ExitInitMode(); 
 8025c18:	f7ff ff96 	bl	8025b48 <RTC_ExitInitMode>

    /* If  RTC_CR_BYPSHAD bit = 0, wait for synchro else this check is not needed */
    if ((RTC->CR & RTC_CR_BYPSHAD) == RESET)
 8025c1c:	68a3      	ldr	r3, [r4, #8]
 8025c1e:	0699      	lsls	r1, r3, #26
 8025c20:	d405      	bmi.n	8025c2e <RTC_SetTime+0x4e>
    {
      if (RTC_WaitForSynchro() == ERROR)
 8025c22:	f7ff ffbb 	bl	8025b9c <RTC_WaitForSynchro>
  RTC->WPR = 0x53;

  /* Set Initialization mode */
  if (RTC_EnterInitMode() == ERROR)
  {
    status = ERROR;
 8025c26:	3000      	adds	r0, #0
 8025c28:	bf18      	it	ne
 8025c2a:	2001      	movne	r0, #1
 8025c2c:	e000      	b.n	8025c30 <RTC_SetTime+0x50>
        status = SUCCESS;
      }
    }
    else
    {
      status = SUCCESS;
 8025c2e:	2001      	movs	r0, #1
    }
  }
  /* Enable the write protection for RTC registers */
  RTC->WPR = 0xFF; 
 8025c30:	4b10      	ldr	r3, [pc, #64]	; (8025c74 <RTC_SetTime+0x94>)
 8025c32:	22ff      	movs	r2, #255	; 0xff
 8025c34:	625a      	str	r2, [r3, #36]	; 0x24
 8025c36:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
  
  /* Check the input parameters format */
  if (RTC_Format != RTC_Format_BIN)
  {
    tmpreg = (((uint32_t)(RTC_TimeStruct->RTC_Hours) << 16) | \
             ((uint32_t)(RTC_TimeStruct->RTC_Minutes) << 8) | \
 8025c38:	7865      	ldrb	r5, [r4, #1]
  }
  
  /* Check the input parameters format */
  if (RTC_Format != RTC_Format_BIN)
  {
    tmpreg = (((uint32_t)(RTC_TimeStruct->RTC_Hours) << 16) | \
 8025c3a:	7823      	ldrb	r3, [r4, #0]
             ((uint32_t)(RTC_TimeStruct->RTC_Minutes) << 8) | \
 8025c3c:	022d      	lsls	r5, r5, #8
  }
  
  /* Check the input parameters format */
  if (RTC_Format != RTC_Format_BIN)
  {
    tmpreg = (((uint32_t)(RTC_TimeStruct->RTC_Hours) << 16) | \
 8025c3e:	ea45 4503 	orr.w	r5, r5, r3, lsl #16
             ((uint32_t)(RTC_TimeStruct->RTC_Minutes) << 8) | \
             ((uint32_t)RTC_TimeStruct->RTC_Seconds) | \
 8025c42:	78a3      	ldrb	r3, [r4, #2]
  
  /* Check the input parameters format */
  if (RTC_Format != RTC_Format_BIN)
  {
    tmpreg = (((uint32_t)(RTC_TimeStruct->RTC_Hours) << 16) | \
             ((uint32_t)(RTC_TimeStruct->RTC_Minutes) << 8) | \
 8025c44:	431d      	orrs	r5, r3
             ((uint32_t)RTC_TimeStruct->RTC_Seconds) | \
             ((uint32_t)(RTC_TimeStruct->RTC_H12) << 16)); 
 8025c46:	78e3      	ldrb	r3, [r4, #3]
  }
  
  /* Check the input parameters format */
  if (RTC_Format != RTC_Format_BIN)
  {
    tmpreg = (((uint32_t)(RTC_TimeStruct->RTC_Hours) << 16) | \
 8025c48:	ea45 4503 	orr.w	r5, r5, r3, lsl #16
 8025c4c:	e7d7      	b.n	8025bfe <RTC_SetTime+0x1e>
             ((uint32_t)RTC_TimeStruct->RTC_Seconds) | \
             ((uint32_t)(RTC_TimeStruct->RTC_H12) << 16)); 
  }  
  else
  {
    tmpreg = (uint32_t)(((uint32_t)RTC_ByteToBcd2(RTC_TimeStruct->RTC_Hours) << 16) | \
 8025c4e:	7820      	ldrb	r0, [r4, #0]
 8025c50:	f7ff ff46 	bl	8025ae0 <RTC_ByteToBcd2>
 8025c54:	4607      	mov	r7, r0
                   ((uint32_t)RTC_ByteToBcd2(RTC_TimeStruct->RTC_Minutes) << 8) | \
 8025c56:	7860      	ldrb	r0, [r4, #1]
 8025c58:	f7ff ff42 	bl	8025ae0 <RTC_ByteToBcd2>
 8025c5c:	4606      	mov	r6, r0
                   ((uint32_t)RTC_ByteToBcd2(RTC_TimeStruct->RTC_Seconds)) | \
 8025c5e:	78a0      	ldrb	r0, [r4, #2]
 8025c60:	f7ff ff3e 	bl	8025ae0 <RTC_ByteToBcd2>
                   (((uint32_t)RTC_TimeStruct->RTC_H12) << 16));
 8025c64:	78e5      	ldrb	r5, [r4, #3]
             ((uint32_t)RTC_TimeStruct->RTC_Seconds) | \
             ((uint32_t)(RTC_TimeStruct->RTC_H12) << 16)); 
  }  
  else
  {
    tmpreg = (uint32_t)(((uint32_t)RTC_ByteToBcd2(RTC_TimeStruct->RTC_Hours) << 16) | \
 8025c66:	ea40 4005 	orr.w	r0, r0, r5, lsl #16
                   ((uint32_t)RTC_ByteToBcd2(RTC_TimeStruct->RTC_Minutes) << 8) | \
 8025c6a:	ea40 4507 	orr.w	r5, r0, r7, lsl #16
             ((uint32_t)RTC_TimeStruct->RTC_Seconds) | \
             ((uint32_t)(RTC_TimeStruct->RTC_H12) << 16)); 
  }  
  else
  {
    tmpreg = (uint32_t)(((uint32_t)RTC_ByteToBcd2(RTC_TimeStruct->RTC_Hours) << 16) | \
 8025c6e:	ea45 2506 	orr.w	r5, r5, r6, lsl #8
 8025c72:	e7c4      	b.n	8025bfe <RTC_SetTime+0x1e>
 8025c74:	40002800 	.word	0x40002800

08025c78 <RTC_GetTime>:

  /* Check the parameters */
  assert_param(IS_RTC_FORMAT(RTC_Format));

  /* Get the RTC_TR register */
  tmpreg = (uint32_t)(RTC->TR & RTC_TR_RESERVED_MASK); 
 8025c78:	4b0f      	ldr	r3, [pc, #60]	; (8025cb8 <RTC_GetTime+0x40>)
 8025c7a:	681b      	ldr	r3, [r3, #0]
  * @param  RTC_TimeStruct: pointer to a RTC_TimeTypeDef structure that will 
  *                        contain the returned current time configuration.     
  * @retval None
  */
void RTC_GetTime(uint32_t RTC_Format, RTC_TimeTypeDef* RTC_TimeStruct)
{
 8025c7c:	b570      	push	{r4, r5, r6, lr}

  /* Get the RTC_TR register */
  tmpreg = (uint32_t)(RTC->TR & RTC_TR_RESERVED_MASK); 
  
  /* Fill the structure fields with the read parameters */
  RTC_TimeStruct->RTC_Hours = (uint8_t)((tmpreg & (RTC_TR_HT | RTC_TR_HU)) >> 16);
 8025c7e:	f3c3 4205 	ubfx	r2, r3, #16, #6
  RTC_TimeStruct->RTC_Minutes = (uint8_t)((tmpreg & (RTC_TR_MNT | RTC_TR_MNU)) >>8);
 8025c82:	f3c3 2606 	ubfx	r6, r3, #8, #7
  RTC_TimeStruct->RTC_Seconds = (uint8_t)(tmpreg & (RTC_TR_ST | RTC_TR_SU));
 8025c86:	f003 057f 	and.w	r5, r3, #127	; 0x7f
  RTC_TimeStruct->RTC_H12 = (uint8_t)((tmpreg & (RTC_TR_PM)) >> 16);  
 8025c8a:	f403 0380 	and.w	r3, r3, #4194304	; 0x400000
 8025c8e:	0c1b      	lsrs	r3, r3, #16
  * @param  RTC_TimeStruct: pointer to a RTC_TimeTypeDef structure that will 
  *                        contain the returned current time configuration.     
  * @retval None
  */
void RTC_GetTime(uint32_t RTC_Format, RTC_TimeTypeDef* RTC_TimeStruct)
{
 8025c90:	460c      	mov	r4, r1

  /* Get the RTC_TR register */
  tmpreg = (uint32_t)(RTC->TR & RTC_TR_RESERVED_MASK); 
  
  /* Fill the structure fields with the read parameters */
  RTC_TimeStruct->RTC_Hours = (uint8_t)((tmpreg & (RTC_TR_HT | RTC_TR_HU)) >> 16);
 8025c92:	700a      	strb	r2, [r1, #0]
  RTC_TimeStruct->RTC_Minutes = (uint8_t)((tmpreg & (RTC_TR_MNT | RTC_TR_MNU)) >>8);
 8025c94:	704e      	strb	r6, [r1, #1]
  RTC_TimeStruct->RTC_Seconds = (uint8_t)(tmpreg & (RTC_TR_ST | RTC_TR_SU));
 8025c96:	708d      	strb	r5, [r1, #2]
  RTC_TimeStruct->RTC_H12 = (uint8_t)((tmpreg & (RTC_TR_PM)) >> 16);  
 8025c98:	70cb      	strb	r3, [r1, #3]

  /* Check the input parameters format */
  if (RTC_Format == RTC_Format_BIN)
 8025c9a:	b958      	cbnz	r0, 8025cb4 <RTC_GetTime+0x3c>
  {
    /* Convert the structure parameters to Binary format */
    RTC_TimeStruct->RTC_Hours = (uint8_t)RTC_Bcd2ToByte(RTC_TimeStruct->RTC_Hours);
 8025c9c:	4610      	mov	r0, r2
 8025c9e:	f7ff ff2b 	bl	8025af8 <RTC_Bcd2ToByte>
 8025ca2:	7020      	strb	r0, [r4, #0]
    RTC_TimeStruct->RTC_Minutes = (uint8_t)RTC_Bcd2ToByte(RTC_TimeStruct->RTC_Minutes);
 8025ca4:	4630      	mov	r0, r6
 8025ca6:	f7ff ff27 	bl	8025af8 <RTC_Bcd2ToByte>
 8025caa:	7060      	strb	r0, [r4, #1]
    RTC_TimeStruct->RTC_Seconds = (uint8_t)RTC_Bcd2ToByte(RTC_TimeStruct->RTC_Seconds);   
 8025cac:	4628      	mov	r0, r5
 8025cae:	f7ff ff23 	bl	8025af8 <RTC_Bcd2ToByte>
 8025cb2:	70a0      	strb	r0, [r4, #2]
 8025cb4:	bd70      	pop	{r4, r5, r6, pc}
 8025cb6:	bf00      	nop
 8025cb8:	40002800 	.word	0x40002800

08025cbc <RTC_SetDate>:
  * @retval An ErrorStatus enumeration value:
  *          - SUCCESS: RTC Date register is configured
  *          - ERROR: RTC Date register is not configured
  */
ErrorStatus RTC_SetDate(uint32_t RTC_Format, RTC_DateTypeDef* RTC_DateStruct)
{
 8025cbc:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 8025cbe:	460c      	mov	r4, r1
 8025cc0:	784b      	ldrb	r3, [r1, #1]
  ErrorStatus status = ERROR;
  
  /* Check the parameters */
  assert_param(IS_RTC_FORMAT(RTC_Format));

  if ((RTC_Format == RTC_Format_BIN) && ((RTC_DateStruct->RTC_Month & 0x10) == 0x10))
 8025cc2:	2800      	cmp	r0, #0
 8025cc4:	d138      	bne.n	8025d38 <RTC_SetDate+0x7c>
 8025cc6:	f003 0210 	and.w	r2, r3, #16
 8025cca:	b2d2      	uxtb	r2, r2
 8025ccc:	b30a      	cbz	r2, 8025d12 <RTC_SetDate+0x56>
  {
    RTC_DateStruct->RTC_Month = (RTC_DateStruct->RTC_Month & (uint32_t)~(0x10)) + 0x0A;
 8025cce:	f023 0310 	bic.w	r3, r3, #16
 8025cd2:	330a      	adds	r3, #10
 8025cd4:	704b      	strb	r3, [r1, #1]
 8025cd6:	e01c      	b.n	8025d12 <RTC_SetDate+0x56>
              ((uint32_t)RTC_ByteToBcd2(RTC_DateStruct->RTC_Date)) | \
              ((uint32_t)RTC_DateStruct->RTC_WeekDay << 13));
  }

  /* Disable the write protection for RTC registers */
  RTC->WPR = 0xCA;
 8025cd8:	4c1c      	ldr	r4, [pc, #112]	; (8025d4c <RTC_SetDate+0x90>)
 8025cda:	23ca      	movs	r3, #202	; 0xca
 8025cdc:	6263      	str	r3, [r4, #36]	; 0x24
  RTC->WPR = 0x53;
 8025cde:	2353      	movs	r3, #83	; 0x53
 8025ce0:	6263      	str	r3, [r4, #36]	; 0x24

  /* Set Initialization mode */
  if (RTC_EnterInitMode() == ERROR)
 8025ce2:	f7ff ff11 	bl	8025b08 <RTC_EnterInitMode>
 8025ce6:	b180      	cbz	r0, 8025d0a <RTC_SetDate+0x4e>
    status = ERROR;
  } 
  else
  {
    /* Set the RTC_DR register */
    RTC->DR = (uint32_t)(tmpreg & RTC_DR_RESERVED_MASK);
 8025ce8:	f025 457f 	bic.w	r5, r5, #4278190080	; 0xff000000
 8025cec:	f025 05c0 	bic.w	r5, r5, #192	; 0xc0
 8025cf0:	6065      	str	r5, [r4, #4]

    /* Exit Initialization mode */
    RTC_ExitInitMode(); 
 8025cf2:	f7ff ff29 	bl	8025b48 <RTC_ExitInitMode>

    /* If  RTC_CR_BYPSHAD bit = 0, wait for synchro else this check is not needed */
    if ((RTC->CR & RTC_CR_BYPSHAD) == RESET)
 8025cf6:	68a3      	ldr	r3, [r4, #8]
 8025cf8:	0698      	lsls	r0, r3, #26
 8025cfa:	d405      	bmi.n	8025d08 <RTC_SetDate+0x4c>
    {
      if (RTC_WaitForSynchro() == ERROR)
 8025cfc:	f7ff ff4e 	bl	8025b9c <RTC_WaitForSynchro>
  RTC->WPR = 0x53;

  /* Set Initialization mode */
  if (RTC_EnterInitMode() == ERROR)
  {
    status = ERROR;
 8025d00:	3000      	adds	r0, #0
 8025d02:	bf18      	it	ne
 8025d04:	2001      	movne	r0, #1
 8025d06:	e000      	b.n	8025d0a <RTC_SetDate+0x4e>
        status = SUCCESS;
      }
    }
    else
    {
      status = SUCCESS;
 8025d08:	2001      	movs	r0, #1
    }
  }
  /* Enable the write protection for RTC registers */
  RTC->WPR = 0xFF;   
 8025d0a:	4b10      	ldr	r3, [pc, #64]	; (8025d4c <RTC_SetDate+0x90>)
 8025d0c:	22ff      	movs	r2, #255	; 0xff
 8025d0e:	625a      	str	r2, [r3, #36]	; 0x24
 8025d10:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
              ((uint32_t)RTC_DateStruct->RTC_Date) | \
              (((uint32_t)RTC_DateStruct->RTC_WeekDay) << 13)); 
  }  
  else
  {
    tmpreg = (((uint32_t)RTC_ByteToBcd2(RTC_DateStruct->RTC_Year) << 16) | \
 8025d12:	78e0      	ldrb	r0, [r4, #3]
 8025d14:	f7ff fee4 	bl	8025ae0 <RTC_ByteToBcd2>
 8025d18:	4607      	mov	r7, r0
              ((uint32_t)RTC_ByteToBcd2(RTC_DateStruct->RTC_Month) << 8) | \
 8025d1a:	7860      	ldrb	r0, [r4, #1]
 8025d1c:	f7ff fee0 	bl	8025ae0 <RTC_ByteToBcd2>
 8025d20:	4606      	mov	r6, r0
              ((uint32_t)RTC_ByteToBcd2(RTC_DateStruct->RTC_Date)) | \
 8025d22:	78a0      	ldrb	r0, [r4, #2]
 8025d24:	f7ff fedc 	bl	8025ae0 <RTC_ByteToBcd2>
              ((uint32_t)RTC_DateStruct->RTC_WeekDay << 13));
 8025d28:	7825      	ldrb	r5, [r4, #0]
              ((uint32_t)RTC_DateStruct->RTC_Date) | \
              (((uint32_t)RTC_DateStruct->RTC_WeekDay) << 13)); 
  }  
  else
  {
    tmpreg = (((uint32_t)RTC_ByteToBcd2(RTC_DateStruct->RTC_Year) << 16) | \
 8025d2a:	ea40 3045 	orr.w	r0, r0, r5, lsl #13
              ((uint32_t)RTC_ByteToBcd2(RTC_DateStruct->RTC_Month) << 8) | \
 8025d2e:	ea40 4507 	orr.w	r5, r0, r7, lsl #16
              ((uint32_t)RTC_DateStruct->RTC_Date) | \
              (((uint32_t)RTC_DateStruct->RTC_WeekDay) << 13)); 
  }  
  else
  {
    tmpreg = (((uint32_t)RTC_ByteToBcd2(RTC_DateStruct->RTC_Year) << 16) | \
 8025d32:	ea45 2506 	orr.w	r5, r5, r6, lsl #8
 8025d36:	e7cf      	b.n	8025cd8 <RTC_SetDate+0x1c>
  assert_param(IS_RTC_WEEKDAY(RTC_DateStruct->RTC_WeekDay));

  /* Check the input parameters format */
  if (RTC_Format != RTC_Format_BIN)
  {
    tmpreg = ((((uint32_t)RTC_DateStruct->RTC_Year) << 16) | \
 8025d38:	78cd      	ldrb	r5, [r1, #3]
              (((uint32_t)RTC_DateStruct->RTC_Month) << 8) | \
              ((uint32_t)RTC_DateStruct->RTC_Date) | \
 8025d3a:	788a      	ldrb	r2, [r1, #2]

  /* Check the input parameters format */
  if (RTC_Format != RTC_Format_BIN)
  {
    tmpreg = ((((uint32_t)RTC_DateStruct->RTC_Year) << 16) | \
              (((uint32_t)RTC_DateStruct->RTC_Month) << 8) | \
 8025d3c:	021b      	lsls	r3, r3, #8
  assert_param(IS_RTC_WEEKDAY(RTC_DateStruct->RTC_WeekDay));

  /* Check the input parameters format */
  if (RTC_Format != RTC_Format_BIN)
  {
    tmpreg = ((((uint32_t)RTC_DateStruct->RTC_Year) << 16) | \
 8025d3e:	ea43 4505 	orr.w	r5, r3, r5, lsl #16
              (((uint32_t)RTC_DateStruct->RTC_Month) << 8) | \
              ((uint32_t)RTC_DateStruct->RTC_Date) | \
              (((uint32_t)RTC_DateStruct->RTC_WeekDay) << 13)); 
 8025d42:	780b      	ldrb	r3, [r1, #0]

  /* Check the input parameters format */
  if (RTC_Format != RTC_Format_BIN)
  {
    tmpreg = ((((uint32_t)RTC_DateStruct->RTC_Year) << 16) | \
              (((uint32_t)RTC_DateStruct->RTC_Month) << 8) | \
 8025d44:	4315      	orrs	r5, r2
  assert_param(IS_RTC_WEEKDAY(RTC_DateStruct->RTC_WeekDay));

  /* Check the input parameters format */
  if (RTC_Format != RTC_Format_BIN)
  {
    tmpreg = ((((uint32_t)RTC_DateStruct->RTC_Year) << 16) | \
 8025d46:	ea45 3543 	orr.w	r5, r5, r3, lsl #13
 8025d4a:	e7c5      	b.n	8025cd8 <RTC_SetDate+0x1c>
 8025d4c:	40002800 	.word	0x40002800

08025d50 <RTC_GetDate>:

  /* Check the parameters */
  assert_param(IS_RTC_FORMAT(RTC_Format));
  
  /* Get the RTC_TR register */
  tmpreg = (uint32_t)(RTC->DR & RTC_DR_RESERVED_MASK); 
 8025d50:	4b0e      	ldr	r3, [pc, #56]	; (8025d8c <RTC_GetDate+0x3c>)
 8025d52:	685b      	ldr	r3, [r3, #4]
  * @param RTC_DateStruct: pointer to a RTC_DateTypeDef structure that will 
  *                        contain the returned current date configuration.     
  * @retval None
  */
void RTC_GetDate(uint32_t RTC_Format, RTC_DateTypeDef* RTC_DateStruct)
{
 8025d54:	b570      	push	{r4, r5, r6, lr}
  
  /* Get the RTC_TR register */
  tmpreg = (uint32_t)(RTC->DR & RTC_DR_RESERVED_MASK); 

  /* Fill the structure fields with the read parameters */
  RTC_DateStruct->RTC_Year = (uint8_t)((tmpreg & (RTC_DR_YT | RTC_DR_YU)) >> 16);
 8025d56:	f3c3 4207 	ubfx	r2, r3, #16, #8
  RTC_DateStruct->RTC_Month = (uint8_t)((tmpreg & (RTC_DR_MT | RTC_DR_MU)) >> 8);
 8025d5a:	f3c3 2604 	ubfx	r6, r3, #8, #5
  RTC_DateStruct->RTC_Date = (uint8_t)(tmpreg & (RTC_DR_DT | RTC_DR_DU));
 8025d5e:	f003 053f 	and.w	r5, r3, #63	; 0x3f
  RTC_DateStruct->RTC_WeekDay = (uint8_t)((tmpreg & (RTC_DR_WDU)) >> 13);
 8025d62:	f3c3 3342 	ubfx	r3, r3, #13, #3
  * @param RTC_DateStruct: pointer to a RTC_DateTypeDef structure that will 
  *                        contain the returned current date configuration.     
  * @retval None
  */
void RTC_GetDate(uint32_t RTC_Format, RTC_DateTypeDef* RTC_DateStruct)
{
 8025d66:	460c      	mov	r4, r1
  
  /* Get the RTC_TR register */
  tmpreg = (uint32_t)(RTC->DR & RTC_DR_RESERVED_MASK); 

  /* Fill the structure fields with the read parameters */
  RTC_DateStruct->RTC_Year = (uint8_t)((tmpreg & (RTC_DR_YT | RTC_DR_YU)) >> 16);
 8025d68:	70ca      	strb	r2, [r1, #3]
  RTC_DateStruct->RTC_Month = (uint8_t)((tmpreg & (RTC_DR_MT | RTC_DR_MU)) >> 8);
 8025d6a:	704e      	strb	r6, [r1, #1]
  RTC_DateStruct->RTC_Date = (uint8_t)(tmpreg & (RTC_DR_DT | RTC_DR_DU));
 8025d6c:	708d      	strb	r5, [r1, #2]
  RTC_DateStruct->RTC_WeekDay = (uint8_t)((tmpreg & (RTC_DR_WDU)) >> 13);
 8025d6e:	700b      	strb	r3, [r1, #0]

  /* Check the input parameters format */
  if (RTC_Format == RTC_Format_BIN)
 8025d70:	b958      	cbnz	r0, 8025d8a <RTC_GetDate+0x3a>
  {
    /* Convert the structure parameters to Binary format */
    RTC_DateStruct->RTC_Year = (uint8_t)RTC_Bcd2ToByte(RTC_DateStruct->RTC_Year);
 8025d72:	4610      	mov	r0, r2
 8025d74:	f7ff fec0 	bl	8025af8 <RTC_Bcd2ToByte>
 8025d78:	70e0      	strb	r0, [r4, #3]
    RTC_DateStruct->RTC_Month = (uint8_t)RTC_Bcd2ToByte(RTC_DateStruct->RTC_Month);
 8025d7a:	4630      	mov	r0, r6
 8025d7c:	f7ff febc 	bl	8025af8 <RTC_Bcd2ToByte>
 8025d80:	7060      	strb	r0, [r4, #1]
    RTC_DateStruct->RTC_Date = (uint8_t)RTC_Bcd2ToByte(RTC_DateStruct->RTC_Date);
 8025d82:	4628      	mov	r0, r5
 8025d84:	f7ff feb8 	bl	8025af8 <RTC_Bcd2ToByte>
 8025d88:	70a0      	strb	r0, [r4, #2]
 8025d8a:	bd70      	pop	{r4, r5, r6, pc}
 8025d8c:	40002800 	.word	0x40002800

08025d90 <RTC_WriteBackupRegister>:
  *                          specify the register.
  * @param  Data: Data to be written in the specified RTC Backup data register.                     
  * @retval None
  */
void RTC_WriteBackupRegister(uint32_t RTC_BKP_DR, uint32_t Data)
{
 8025d90:	b082      	sub	sp, #8
  __IO uint32_t tmp = 0;
 8025d92:	2300      	movs	r3, #0
 8025d94:	9301      	str	r3, [sp, #4]
  
  /* Check the parameters */
  assert_param(IS_RTC_BKP(RTC_BKP_DR));

  tmp = RTC_BASE + 0x50;
 8025d96:	4b05      	ldr	r3, [pc, #20]	; (8025dac <RTC_WriteBackupRegister+0x1c>)
 8025d98:	9301      	str	r3, [sp, #4]
  tmp += (RTC_BKP_DR * 4);
 8025d9a:	9b01      	ldr	r3, [sp, #4]
 8025d9c:	eb03 0080 	add.w	r0, r3, r0, lsl #2
 8025da0:	9001      	str	r0, [sp, #4]

  /* Write the specified register */
  *(__IO uint32_t *)tmp = (uint32_t)Data;
 8025da2:	9b01      	ldr	r3, [sp, #4]
 8025da4:	6019      	str	r1, [r3, #0]
}
 8025da6:	b002      	add	sp, #8
 8025da8:	4770      	bx	lr
 8025daa:	bf00      	nop
 8025dac:	40002850 	.word	0x40002850

08025db0 <RTC_ReadBackupRegister>:
  *          This parameter can be: RTC_BKP_DRx where x can be from 0 to 19 to 
  *                          specify the register.                   
  * @retval None
  */
uint32_t RTC_ReadBackupRegister(uint32_t RTC_BKP_DR)
{
 8025db0:	b082      	sub	sp, #8
  __IO uint32_t tmp = 0;
 8025db2:	2300      	movs	r3, #0
 8025db4:	9301      	str	r3, [sp, #4]
  
  /* Check the parameters */
  assert_param(IS_RTC_BKP(RTC_BKP_DR));

  tmp = RTC_BASE + 0x50;
 8025db6:	4b05      	ldr	r3, [pc, #20]	; (8025dcc <RTC_ReadBackupRegister+0x1c>)
 8025db8:	9301      	str	r3, [sp, #4]
  tmp += (RTC_BKP_DR * 4);
 8025dba:	9b01      	ldr	r3, [sp, #4]
 8025dbc:	eb03 0080 	add.w	r0, r3, r0, lsl #2
 8025dc0:	9001      	str	r0, [sp, #4]
  
  /* Read the specified register */
  return (*(__IO uint32_t *)tmp);
 8025dc2:	9b01      	ldr	r3, [sp, #4]
 8025dc4:	6818      	ldr	r0, [r3, #0]
}
 8025dc6:	b002      	add	sp, #8
 8025dc8:	4770      	bx	lr
 8025dca:	bf00      	nop
 8025dcc:	40002850 	.word	0x40002850

08025dd0 <RTC_GetITStatus>:
 
  /* Check the parameters */
  assert_param(IS_RTC_GET_IT(RTC_IT));
  
  /* Get the TAMPER Interrupt enable bit and pending bit */
  tmpreg = (uint32_t)(RTC->TAFCR & (RTC_TAFCR_TAMPIE));
 8025dd0:	4b0a      	ldr	r3, [pc, #40]	; (8025dfc <RTC_GetITStatus+0x2c>)
 8025dd2:	6c1a      	ldr	r2, [r3, #64]	; 0x40
  *            @arg RTC_IT_ALRA: Alarm A interrupt 
  *            @arg RTC_IT_TAMP1: Tamper 1 event interrupt 
  * @retval The new state of RTC_IT (SET or RESET).
  */
ITStatus RTC_GetITStatus(uint32_t RTC_IT)
{
 8025dd4:	b510      	push	{r4, lr}
  
  /* Get the TAMPER Interrupt enable bit and pending bit */
  tmpreg = (uint32_t)(RTC->TAFCR & (RTC_TAFCR_TAMPIE));
 
  /* Get the Interrupt enable Status */
  enablestatus = (uint32_t)((RTC->CR & RTC_IT) | (tmpreg & (RTC_IT >> 15)));
 8025dd6:	689c      	ldr	r4, [r3, #8]
  
  /* Get the Interrupt pending bit */
  tmpreg = (uint32_t)((RTC->ISR & (uint32_t)(RTC_IT >> 4)));
 8025dd8:	68d9      	ldr	r1, [r3, #12]
 
  /* Check the parameters */
  assert_param(IS_RTC_GET_IT(RTC_IT));
  
  /* Get the TAMPER Interrupt enable bit and pending bit */
  tmpreg = (uint32_t)(RTC->TAFCR & (RTC_TAFCR_TAMPIE));
 8025dda:	f002 0204 	and.w	r2, r2, #4
 
  /* Get the Interrupt enable Status */
  enablestatus = (uint32_t)((RTC->CR & RTC_IT) | (tmpreg & (RTC_IT >> 15)));
 8025dde:	ea02 32d0 	and.w	r2, r2, r0, lsr #15
 8025de2:	ea00 0304 	and.w	r3, r0, r4
  
  /* Get the Interrupt pending bit */
  tmpreg = (uint32_t)((RTC->ISR & (uint32_t)(RTC_IT >> 4)));
  
  /* Get the status of the Interrupt */
  if ((enablestatus != (uint32_t)RESET) && ((tmpreg & 0x0000FFFF) != (uint32_t)RESET))
 8025de6:	4313      	orrs	r3, r2
 8025de8:	d006      	beq.n	8025df8 <RTC_GetITStatus+0x28>
 
  /* Get the Interrupt enable Status */
  enablestatus = (uint32_t)((RTC->CR & RTC_IT) | (tmpreg & (RTC_IT >> 15)));
  
  /* Get the Interrupt pending bit */
  tmpreg = (uint32_t)((RTC->ISR & (uint32_t)(RTC_IT >> 4)));
 8025dea:	b28b      	uxth	r3, r1
  
  /* Get the status of the Interrupt */
  if ((enablestatus != (uint32_t)RESET) && ((tmpreg & 0x0000FFFF) != (uint32_t)RESET))
 8025dec:	ea13 1310 	ands.w	r3, r3, r0, lsr #4
  {
    bitstatus = SET;
 8025df0:	bf0c      	ite	eq
 8025df2:	2000      	moveq	r0, #0
 8025df4:	2001      	movne	r0, #1
 8025df6:	bd10      	pop	{r4, pc}
  }
  else
  {
    bitstatus = RESET;
 8025df8:	4618      	mov	r0, r3
  }
  return bitstatus;
}
 8025dfa:	bd10      	pop	{r4, pc}
 8025dfc:	40002800 	.word	0x40002800

08025e00 <RTC_ClearITPendingBit>:

  /* Get the RTC_ISR Interrupt pending bits mask */
  tmpreg = (uint32_t)(RTC_IT >> 4);

  /* Clear the interrupt pending bits in the RTC_ISR register */
  RTC->ISR = (uint32_t)((uint32_t)(~((tmpreg | RTC_ISR_INIT)& 0x0000FFFF) | (uint32_t)(RTC->ISR & RTC_ISR_INIT))); 
 8025e00:	4b05      	ldr	r3, [pc, #20]	; (8025e18 <RTC_ClearITPendingBit+0x18>)
 8025e02:	68da      	ldr	r2, [r3, #12]
 8025e04:	f3c0 100f 	ubfx	r0, r0, #4, #16
 8025e08:	f040 0080 	orr.w	r0, r0, #128	; 0x80
 8025e0c:	f002 0280 	and.w	r2, r2, #128	; 0x80
 8025e10:	ea62 0200 	orn	r2, r2, r0
 8025e14:	60da      	str	r2, [r3, #12]
 8025e16:	4770      	bx	lr
 8025e18:	40002800 	.word	0x40002800

08025e1c <SYSCFG_ETH_MediaInterfaceConfig>:
  */
void SYSCFG_ETH_MediaInterfaceConfig(uint32_t SYSCFG_ETH_MediaInterface) 
{ 
  assert_param(IS_SYSCFG_ETH_MEDIA_INTERFACE(SYSCFG_ETH_MediaInterface)); 
  /* Configure MII_RMII selection bit */ 
  *(__IO uint32_t *) PMC_MII_RMII_SEL_BB = SYSCFG_ETH_MediaInterface; 
 8025e1c:	4b01      	ldr	r3, [pc, #4]	; (8025e24 <SYSCFG_ETH_MediaInterfaceConfig+0x8>)
 8025e1e:	6018      	str	r0, [r3, #0]
 8025e20:	4770      	bx	lr
 8025e22:	bf00      	nop
 8025e24:	422700dc 	.word	0x422700dc

08025e28 <TIM_TimeBaseInit>:
  assert_param(IS_TIM_COUNTER_MODE(TIM_TimeBaseInitStruct->TIM_CounterMode));
  assert_param(IS_TIM_CKD_DIV(TIM_TimeBaseInitStruct->TIM_ClockDivision));

  tmpcr1 = TIMx->CR1;  

  if((TIMx == TIM1) || (TIMx == TIM8)||
 8025e28:	4a1c      	ldr	r2, [pc, #112]	; (8025e9c <TIM_TimeBaseInit+0x74>)
  /* Check the parameters */
  assert_param(IS_TIM_ALL_PERIPH(TIMx)); 
  assert_param(IS_TIM_COUNTER_MODE(TIM_TimeBaseInitStruct->TIM_CounterMode));
  assert_param(IS_TIM_CKD_DIV(TIM_TimeBaseInitStruct->TIM_ClockDivision));

  tmpcr1 = TIMx->CR1;  
 8025e2a:	8803      	ldrh	r3, [r0, #0]

  if((TIMx == TIM1) || (TIMx == TIM8)||
 8025e2c:	4290      	cmp	r0, r2
  /* Check the parameters */
  assert_param(IS_TIM_ALL_PERIPH(TIMx)); 
  assert_param(IS_TIM_COUNTER_MODE(TIM_TimeBaseInitStruct->TIM_CounterMode));
  assert_param(IS_TIM_CKD_DIV(TIM_TimeBaseInitStruct->TIM_ClockDivision));

  tmpcr1 = TIMx->CR1;  
 8025e2e:	b29b      	uxth	r3, r3

  if((TIMx == TIM1) || (TIMx == TIM8)||
 8025e30:	d012      	beq.n	8025e58 <TIM_TimeBaseInit+0x30>
 8025e32:	f502 6280 	add.w	r2, r2, #1024	; 0x400
 8025e36:	4290      	cmp	r0, r2
 8025e38:	d00e      	beq.n	8025e58 <TIM_TimeBaseInit+0x30>
 8025e3a:	f1b0 4f80 	cmp.w	r0, #1073741824	; 0x40000000
 8025e3e:	d00b      	beq.n	8025e58 <TIM_TimeBaseInit+0x30>
     (TIMx == TIM2) || (TIMx == TIM3)||
 8025e40:	f5a2 3280 	sub.w	r2, r2, #65536	; 0x10000
 8025e44:	4290      	cmp	r0, r2
 8025e46:	d007      	beq.n	8025e58 <TIM_TimeBaseInit+0x30>
 8025e48:	f502 6280 	add.w	r2, r2, #1024	; 0x400
 8025e4c:	4290      	cmp	r0, r2
 8025e4e:	d003      	beq.n	8025e58 <TIM_TimeBaseInit+0x30>
     (TIMx == TIM4) || (TIMx == TIM5)) 
 8025e50:	f502 6280 	add.w	r2, r2, #1024	; 0x400
 8025e54:	4290      	cmp	r0, r2
 8025e56:	d103      	bne.n	8025e60 <TIM_TimeBaseInit+0x38>
  {
    /* Select the Counter Mode */
    tmpcr1 &= (uint16_t)(~(TIM_CR1_DIR | TIM_CR1_CMS));
    tmpcr1 |= (uint32_t)TIM_TimeBaseInitStruct->TIM_CounterMode;
 8025e58:	884a      	ldrh	r2, [r1, #2]
  if((TIMx == TIM1) || (TIMx == TIM8)||
     (TIMx == TIM2) || (TIMx == TIM3)||
     (TIMx == TIM4) || (TIMx == TIM5)) 
  {
    /* Select the Counter Mode */
    tmpcr1 &= (uint16_t)(~(TIM_CR1_DIR | TIM_CR1_CMS));
 8025e5a:	f023 0370 	bic.w	r3, r3, #112	; 0x70
    tmpcr1 |= (uint32_t)TIM_TimeBaseInitStruct->TIM_CounterMode;
 8025e5e:	4313      	orrs	r3, r2
  }
 
  if((TIMx != TIM6) && (TIMx != TIM7))
 8025e60:	4a0f      	ldr	r2, [pc, #60]	; (8025ea0 <TIM_TimeBaseInit+0x78>)
 8025e62:	4290      	cmp	r0, r2
 8025e64:	d008      	beq.n	8025e78 <TIM_TimeBaseInit+0x50>
 8025e66:	f502 6280 	add.w	r2, r2, #1024	; 0x400
 8025e6a:	4290      	cmp	r0, r2
 8025e6c:	d004      	beq.n	8025e78 <TIM_TimeBaseInit+0x50>
  {
    /* Set the clock division */
    tmpcr1 &=  (uint16_t)(~TIM_CR1_CKD);
 8025e6e:	f423 7340 	bic.w	r3, r3, #768	; 0x300
    tmpcr1 |= (uint32_t)TIM_TimeBaseInitStruct->TIM_ClockDivision;
 8025e72:	890a      	ldrh	r2, [r1, #8]
  }
 
  if((TIMx != TIM6) && (TIMx != TIM7))
  {
    /* Set the clock division */
    tmpcr1 &=  (uint16_t)(~TIM_CR1_CKD);
 8025e74:	b29b      	uxth	r3, r3
    tmpcr1 |= (uint32_t)TIM_TimeBaseInitStruct->TIM_ClockDivision;
 8025e76:	4313      	orrs	r3, r2
  }

  TIMx->CR1 = tmpcr1;
 8025e78:	8003      	strh	r3, [r0, #0]

  /* Set the Autoreload value */
  TIMx->ARR = TIM_TimeBaseInitStruct->TIM_Period ;
 8025e7a:	684b      	ldr	r3, [r1, #4]
 8025e7c:	62c3      	str	r3, [r0, #44]	; 0x2c
 
  /* Set the Prescaler value */
  TIMx->PSC = TIM_TimeBaseInitStruct->TIM_Prescaler;
 8025e7e:	880b      	ldrh	r3, [r1, #0]
 8025e80:	8503      	strh	r3, [r0, #40]	; 0x28
    
  if ((TIMx == TIM1) || (TIMx == TIM8))  
 8025e82:	4b06      	ldr	r3, [pc, #24]	; (8025e9c <TIM_TimeBaseInit+0x74>)
 8025e84:	4298      	cmp	r0, r3
 8025e86:	d003      	beq.n	8025e90 <TIM_TimeBaseInit+0x68>
 8025e88:	f503 6380 	add.w	r3, r3, #1024	; 0x400
 8025e8c:	4298      	cmp	r0, r3
 8025e8e:	d101      	bne.n	8025e94 <TIM_TimeBaseInit+0x6c>
  {
    /* Set the Repetition Counter value */
    TIMx->RCR = TIM_TimeBaseInitStruct->TIM_RepetitionCounter;
 8025e90:	7a8b      	ldrb	r3, [r1, #10]
 8025e92:	8603      	strh	r3, [r0, #48]	; 0x30
  }

  /* Generate an update event to reload the Prescaler 
     and the repetition counter(only for TIM1 and TIM8) value immediatly */
  TIMx->EGR = TIM_PSCReloadMode_Immediate;          
 8025e94:	2301      	movs	r3, #1
 8025e96:	8283      	strh	r3, [r0, #20]
 8025e98:	4770      	bx	lr
 8025e9a:	bf00      	nop
 8025e9c:	40010000 	.word	0x40010000
 8025ea0:	40001000 	.word	0x40001000

08025ea4 <TIM_Cmd>:
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
  {
    /* Enable the TIM Counter */
    TIMx->CR1 |= TIM_CR1_CEN;
 8025ea4:	8803      	ldrh	r3, [r0, #0]
{
  /* Check the parameters */
  assert_param(IS_TIM_ALL_PERIPH(TIMx)); 
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
 8025ea6:	b119      	cbz	r1, 8025eb0 <TIM_Cmd+0xc>
  {
    /* Enable the TIM Counter */
    TIMx->CR1 |= TIM_CR1_CEN;
 8025ea8:	b29b      	uxth	r3, r3
 8025eaa:	f043 0301 	orr.w	r3, r3, #1
 8025eae:	e003      	b.n	8025eb8 <TIM_Cmd+0x14>
  }
  else
  {
    /* Disable the TIM Counter */
    TIMx->CR1 &= (uint16_t)~TIM_CR1_CEN;
 8025eb0:	f023 0301 	bic.w	r3, r3, #1
 8025eb4:	041b      	lsls	r3, r3, #16
 8025eb6:	0c1b      	lsrs	r3, r3, #16
 8025eb8:	8003      	strh	r3, [r0, #0]
 8025eba:	4770      	bx	lr

08025ebc <TIM_ITConfig>:
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
  {
    /* Enable the Interrupt sources */
    TIMx->DIER |= TIM_IT;
 8025ebc:	8983      	ldrh	r3, [r0, #12]
 8025ebe:	b29b      	uxth	r3, r3
  /* Check the parameters */
  assert_param(IS_TIM_ALL_PERIPH(TIMx));
  assert_param(IS_TIM_IT(TIM_IT));
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
 8025ec0:	b10a      	cbz	r2, 8025ec6 <TIM_ITConfig+0xa>
  {
    /* Enable the Interrupt sources */
    TIMx->DIER |= TIM_IT;
 8025ec2:	4319      	orrs	r1, r3
 8025ec4:	e001      	b.n	8025eca <TIM_ITConfig+0xe>
  }
  else
  {
    /* Disable the Interrupt sources */
    TIMx->DIER &= (uint16_t)~TIM_IT;
 8025ec6:	ea23 0101 	bic.w	r1, r3, r1
 8025eca:	8181      	strh	r1, [r0, #12]
 8025ecc:	4770      	bx	lr

08025ece <TIM_ClearITPendingBit>:
{
  /* Check the parameters */
  assert_param(IS_TIM_ALL_PERIPH(TIMx));

  /* Clear the IT pending Bit */
  TIMx->SR = (uint16_t)~TIM_IT;
 8025ece:	43c9      	mvns	r1, r1
 8025ed0:	8201      	strh	r1, [r0, #16]
 8025ed2:	4770      	bx	lr

08025ed4 <USART_DeInit>:
  * @param  USARTx: where x can be 1, 2, 3, 4, 5 or 6 to select the USART or 
  *         UART peripheral.
  * @retval None
  */
void USART_DeInit(USART_TypeDef* USARTx)
{
 8025ed4:	b508      	push	{r3, lr}
  /* Check the parameters */
  assert_param(IS_USART_ALL_PERIPH(USARTx));

  if (USARTx == USART1)
 8025ed6:	4b23      	ldr	r3, [pc, #140]	; (8025f64 <USART_DeInit+0x90>)
 8025ed8:	4298      	cmp	r0, r3
 8025eda:	d105      	bne.n	8025ee8 <USART_DeInit+0x14>
  {
    RCC_APB2PeriphResetCmd(RCC_APB2Periph_USART1, ENABLE);
 8025edc:	2010      	movs	r0, #16
 8025ede:	2101      	movs	r1, #1
 8025ee0:	f7ff fdcc 	bl	8025a7c <RCC_APB2PeriphResetCmd>
    RCC_APB2PeriphResetCmd(RCC_APB2Periph_USART1, DISABLE);
 8025ee4:	2010      	movs	r0, #16
 8025ee6:	e037      	b.n	8025f58 <USART_DeInit+0x84>
  }
  else if (USARTx == USART2)
 8025ee8:	4b1f      	ldr	r3, [pc, #124]	; (8025f68 <USART_DeInit+0x94>)
 8025eea:	4298      	cmp	r0, r3
 8025eec:	d107      	bne.n	8025efe <USART_DeInit+0x2a>
  {
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART2, ENABLE);
 8025eee:	f44f 3000 	mov.w	r0, #131072	; 0x20000
 8025ef2:	2101      	movs	r1, #1
 8025ef4:	f7ff fdb6 	bl	8025a64 <RCC_APB1PeriphResetCmd>
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART2, DISABLE);
 8025ef8:	f44f 3000 	mov.w	r0, #131072	; 0x20000
 8025efc:	e009      	b.n	8025f12 <USART_DeInit+0x3e>
  }
  else if (USARTx == USART3)
 8025efe:	4b1b      	ldr	r3, [pc, #108]	; (8025f6c <USART_DeInit+0x98>)
 8025f00:	4298      	cmp	r0, r3
 8025f02:	d10b      	bne.n	8025f1c <USART_DeInit+0x48>
  {
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART3, ENABLE);
 8025f04:	f44f 2080 	mov.w	r0, #262144	; 0x40000
 8025f08:	2101      	movs	r1, #1
 8025f0a:	f7ff fdab 	bl	8025a64 <RCC_APB1PeriphResetCmd>
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART3, DISABLE);
 8025f0e:	f44f 2080 	mov.w	r0, #262144	; 0x40000
 8025f12:	2100      	movs	r1, #0
    { 
      RCC_APB2PeriphResetCmd(RCC_APB2Periph_USART6, ENABLE);
      RCC_APB2PeriphResetCmd(RCC_APB2Periph_USART6, DISABLE);
    }
  }
}
 8025f14:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART2, DISABLE);
  }
  else if (USARTx == USART3)
  {
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART3, ENABLE);
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_USART3, DISABLE);
 8025f18:	f7ff bda4 	b.w	8025a64 <RCC_APB1PeriphResetCmd>
  }    
  else if (USARTx == UART4)
 8025f1c:	4b14      	ldr	r3, [pc, #80]	; (8025f70 <USART_DeInit+0x9c>)
 8025f1e:	4298      	cmp	r0, r3
 8025f20:	d107      	bne.n	8025f32 <USART_DeInit+0x5e>
  {
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART4, ENABLE);
 8025f22:	f44f 2000 	mov.w	r0, #524288	; 0x80000
 8025f26:	2101      	movs	r1, #1
 8025f28:	f7ff fd9c 	bl	8025a64 <RCC_APB1PeriphResetCmd>
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART4, DISABLE);
 8025f2c:	f44f 2000 	mov.w	r0, #524288	; 0x80000
 8025f30:	e7ef      	b.n	8025f12 <USART_DeInit+0x3e>
  }
  else if (USARTx == UART5)
 8025f32:	4b10      	ldr	r3, [pc, #64]	; (8025f74 <USART_DeInit+0xa0>)
 8025f34:	4298      	cmp	r0, r3
 8025f36:	d107      	bne.n	8025f48 <USART_DeInit+0x74>
  {
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART5, ENABLE);
 8025f38:	f44f 1080 	mov.w	r0, #1048576	; 0x100000
 8025f3c:	2101      	movs	r1, #1
 8025f3e:	f7ff fd91 	bl	8025a64 <RCC_APB1PeriphResetCmd>
    RCC_APB1PeriphResetCmd(RCC_APB1Periph_UART5, DISABLE);
 8025f42:	f44f 1080 	mov.w	r0, #1048576	; 0x100000
 8025f46:	e7e4      	b.n	8025f12 <USART_DeInit+0x3e>
  }     
  else
  {
    if (USARTx == USART6)
 8025f48:	4b0b      	ldr	r3, [pc, #44]	; (8025f78 <USART_DeInit+0xa4>)
 8025f4a:	4298      	cmp	r0, r3
 8025f4c:	d109      	bne.n	8025f62 <USART_DeInit+0x8e>
    { 
      RCC_APB2PeriphResetCmd(RCC_APB2Periph_USART6, ENABLE);
 8025f4e:	2020      	movs	r0, #32
 8025f50:	2101      	movs	r1, #1
 8025f52:	f7ff fd93 	bl	8025a7c <RCC_APB2PeriphResetCmd>
      RCC_APB2PeriphResetCmd(RCC_APB2Periph_USART6, DISABLE);
 8025f56:	2020      	movs	r0, #32
 8025f58:	2100      	movs	r1, #0
    }
  }
}
 8025f5a:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  else
  {
    if (USARTx == USART6)
    { 
      RCC_APB2PeriphResetCmd(RCC_APB2Periph_USART6, ENABLE);
      RCC_APB2PeriphResetCmd(RCC_APB2Periph_USART6, DISABLE);
 8025f5e:	f7ff bd8d 	b.w	8025a7c <RCC_APB2PeriphResetCmd>
 8025f62:	bd08      	pop	{r3, pc}
 8025f64:	40011000 	.word	0x40011000
 8025f68:	40004400 	.word	0x40004400
 8025f6c:	40004800 	.word	0x40004800
 8025f70:	40004c00 	.word	0x40004c00
 8025f74:	40005000 	.word	0x40005000
 8025f78:	40011400 	.word	0x40011400

08025f7c <USART_Init>:
  {
    assert_param(IS_USART_1236_PERIPH(USARTx));
  }

/*---------------------------- USART CR2 Configuration -----------------------*/
  tmpreg = USARTx->CR2;
 8025f7c:	8a03      	ldrh	r3, [r0, #16]
  /* Clear STOP[13:12] bits */
  tmpreg &= (uint32_t)~((uint32_t)USART_CR2_STOP);

  /* Configure the USART Stop Bits, Clock, CPOL, CPHA and LastBit :
      Set STOP[13:12] bits according to USART_StopBits value */
  tmpreg |= (uint32_t)USART_InitStruct->USART_StopBits;
 8025f7e:	88ca      	ldrh	r2, [r1, #6]
  {
    assert_param(IS_USART_1236_PERIPH(USARTx));
  }

/*---------------------------- USART CR2 Configuration -----------------------*/
  tmpreg = USARTx->CR2;
 8025f80:	b29b      	uxth	r3, r3

  /* Clear STOP[13:12] bits */
  tmpreg &= (uint32_t)~((uint32_t)USART_CR2_STOP);
 8025f82:	f423 5340 	bic.w	r3, r3, #12288	; 0x3000
  * @param  USART_InitStruct: pointer to a USART_InitTypeDef structure that contains
  *         the configuration information for the specified USART peripheral.
  * @retval None
  */
void USART_Init(USART_TypeDef* USARTx, USART_InitTypeDef* USART_InitStruct)
{
 8025f86:	b530      	push	{r4, r5, lr}
  /* Configure the USART Stop Bits, Clock, CPOL, CPHA and LastBit :
      Set STOP[13:12] bits according to USART_StopBits value */
  tmpreg |= (uint32_t)USART_InitStruct->USART_StopBits;
  
  /* Write to USART CR2 */
  USARTx->CR2 = (uint16_t)tmpreg;
 8025f88:	4313      	orrs	r3, r2
  * @param  USART_InitStruct: pointer to a USART_InitTypeDef structure that contains
  *         the configuration information for the specified USART peripheral.
  * @retval None
  */
void USART_Init(USART_TypeDef* USARTx, USART_InitTypeDef* USART_InitStruct)
{
 8025f8a:	460d      	mov	r5, r1
  /* Configure the USART Stop Bits, Clock, CPOL, CPHA and LastBit :
      Set STOP[13:12] bits according to USART_StopBits value */
  tmpreg |= (uint32_t)USART_InitStruct->USART_StopBits;
  
  /* Write to USART CR2 */
  USARTx->CR2 = (uint16_t)tmpreg;
 8025f8c:	8203      	strh	r3, [r0, #16]

/*---------------------------- USART CR1 Configuration -----------------------*/
  tmpreg = USARTx->CR1;
 8025f8e:	8983      	ldrh	r3, [r0, #12]

  /* Configure the USART Word Length, Parity and mode: 
     Set the M bits according to USART_WordLength value 
     Set PCE and PS bits according to USART_Parity value
     Set TE and RE bits according to USART_Mode value */
  tmpreg |= (uint32_t)USART_InitStruct->USART_WordLength | USART_InitStruct->USART_Parity |
 8025f90:	8909      	ldrh	r1, [r1, #8]
 8025f92:	88aa      	ldrh	r2, [r5, #4]

/*---------------------------- USART CR1 Configuration -----------------------*/
  tmpreg = USARTx->CR1;

  /* Clear M, PCE, PS, TE and RE bits */
  tmpreg &= (uint32_t)~((uint32_t)CR1_CLEAR_MASK);
 8025f94:	f423 53b0 	bic.w	r3, r3, #5632	; 0x1600

  /* Configure the USART Word Length, Parity and mode: 
     Set the M bits according to USART_WordLength value 
     Set PCE and PS bits according to USART_Parity value
     Set TE and RE bits according to USART_Mode value */
  tmpreg |= (uint32_t)USART_InitStruct->USART_WordLength | USART_InitStruct->USART_Parity |
 8025f98:	430a      	orrs	r2, r1
 8025f9a:	8969      	ldrh	r1, [r5, #10]

/*---------------------------- USART CR1 Configuration -----------------------*/
  tmpreg = USARTx->CR1;

  /* Clear M, PCE, PS, TE and RE bits */
  tmpreg &= (uint32_t)~((uint32_t)CR1_CLEAR_MASK);
 8025f9c:	f023 030c 	bic.w	r3, r3, #12
 8025fa0:	041b      	lsls	r3, r3, #16

  /* Configure the USART Word Length, Parity and mode: 
     Set the M bits according to USART_WordLength value 
     Set PCE and PS bits according to USART_Parity value
     Set TE and RE bits according to USART_Mode value */
  tmpreg |= (uint32_t)USART_InitStruct->USART_WordLength | USART_InitStruct->USART_Parity |
 8025fa2:	430a      	orrs	r2, r1

/*---------------------------- USART CR1 Configuration -----------------------*/
  tmpreg = USARTx->CR1;

  /* Clear M, PCE, PS, TE and RE bits */
  tmpreg &= (uint32_t)~((uint32_t)CR1_CLEAR_MASK);
 8025fa4:	0c1b      	lsrs	r3, r3, #16

  /* Configure the USART Word Length, Parity and mode: 
     Set the M bits according to USART_WordLength value 
     Set PCE and PS bits according to USART_Parity value
     Set TE and RE bits according to USART_Mode value */
  tmpreg |= (uint32_t)USART_InitStruct->USART_WordLength | USART_InitStruct->USART_Parity |
 8025fa6:	b292      	uxth	r2, r2
            USART_InitStruct->USART_Mode;

  /* Write to USART CR1 */
  USARTx->CR1 = (uint16_t)tmpreg;
 8025fa8:	4313      	orrs	r3, r2
 8025faa:	8183      	strh	r3, [r0, #12]

/*---------------------------- USART CR3 Configuration -----------------------*/  
  tmpreg = USARTx->CR3;
 8025fac:	8a83      	ldrh	r3, [r0, #20]
  /* Clear CTSE and RTSE bits */
  tmpreg &= (uint32_t)~((uint32_t)CR3_CLEAR_MASK);

  /* Configure the USART HFC : 
      Set CTSE and RTSE bits according to USART_HardwareFlowControl value */
  tmpreg |= USART_InitStruct->USART_HardwareFlowControl;
 8025fae:	89aa      	ldrh	r2, [r5, #12]

  /* Write to USART CR1 */
  USARTx->CR1 = (uint16_t)tmpreg;

/*---------------------------- USART CR3 Configuration -----------------------*/  
  tmpreg = USARTx->CR3;
 8025fb0:	b29b      	uxth	r3, r3

  /* Clear CTSE and RTSE bits */
  tmpreg &= (uint32_t)~((uint32_t)CR3_CLEAR_MASK);
 8025fb2:	f423 7340 	bic.w	r3, r3, #768	; 0x300
  /* Configure the USART HFC : 
      Set CTSE and RTSE bits according to USART_HardwareFlowControl value */
  tmpreg |= USART_InitStruct->USART_HardwareFlowControl;

  /* Write to USART CR3 */
  USARTx->CR3 = (uint16_t)tmpreg;
 8025fb6:	4313      	orrs	r3, r2
  * @param  USART_InitStruct: pointer to a USART_InitTypeDef structure that contains
  *         the configuration information for the specified USART peripheral.
  * @retval None
  */
void USART_Init(USART_TypeDef* USARTx, USART_InitTypeDef* USART_InitStruct)
{
 8025fb8:	b085      	sub	sp, #20
  /* Configure the USART HFC : 
      Set CTSE and RTSE bits according to USART_HardwareFlowControl value */
  tmpreg |= USART_InitStruct->USART_HardwareFlowControl;

  /* Write to USART CR3 */
  USARTx->CR3 = (uint16_t)tmpreg;
 8025fba:	8283      	strh	r3, [r0, #20]
  * @param  USART_InitStruct: pointer to a USART_InitTypeDef structure that contains
  *         the configuration information for the specified USART peripheral.
  * @retval None
  */
void USART_Init(USART_TypeDef* USARTx, USART_InitTypeDef* USART_InitStruct)
{
 8025fbc:	4604      	mov	r4, r0
  /* Write to USART CR3 */
  USARTx->CR3 = (uint16_t)tmpreg;

/*---------------------------- USART BRR Configuration -----------------------*/
  /* Configure the USART Baud Rate */
  RCC_GetClocksFreq(&RCC_ClocksStatus);
 8025fbe:	4668      	mov	r0, sp
 8025fc0:	f7ff fcb0 	bl	8025924 <RCC_GetClocksFreq>

  if ((USARTx == USART1) || (USARTx == USART6))
 8025fc4:	4b19      	ldr	r3, [pc, #100]	; (802602c <USART_Init+0xb0>)
 8025fc6:	429c      	cmp	r4, r3
 8025fc8:	d003      	beq.n	8025fd2 <USART_Init+0x56>
 8025fca:	f503 6380 	add.w	r3, r3, #1024	; 0x400
 8025fce:	429c      	cmp	r4, r3
 8025fd0:	d101      	bne.n	8025fd6 <USART_Init+0x5a>
  {
    apbclock = RCC_ClocksStatus.PCLK2_Frequency;
 8025fd2:	9b03      	ldr	r3, [sp, #12]
 8025fd4:	e000      	b.n	8025fd8 <USART_Init+0x5c>
  }
  else
  {
    apbclock = RCC_ClocksStatus.PCLK1_Frequency;
 8025fd6:	9b02      	ldr	r3, [sp, #8]
  }
  
  /* Determine the integer part */
  if ((USARTx->CR1 & USART_CR1_OVER8) != 0)
 8025fd8:	89a2      	ldrh	r2, [r4, #12]
 8025fda:	b212      	sxth	r2, r2
 8025fdc:	2a00      	cmp	r2, #0
 8025fde:	f04f 0119 	mov.w	r1, #25
 8025fe2:	682a      	ldr	r2, [r5, #0]
  {
    /* Integer part computing in case Oversampling mode is 8 Samples */
    integerdivider = ((25 * apbclock) / (2 * (USART_InitStruct->USART_BaudRate)));    
 8025fe4:	fb01 f103 	mul.w	r1, r1, r3
  {
    apbclock = RCC_ClocksStatus.PCLK1_Frequency;
  }
  
  /* Determine the integer part */
  if ((USARTx->CR1 & USART_CR1_OVER8) != 0)
 8025fe8:	da01      	bge.n	8025fee <USART_Init+0x72>
  {
    /* Integer part computing in case Oversampling mode is 8 Samples */
    integerdivider = ((25 * apbclock) / (2 * (USART_InitStruct->USART_BaudRate)));    
 8025fea:	0052      	lsls	r2, r2, #1
 8025fec:	e000      	b.n	8025ff0 <USART_Init+0x74>
  }
  else /* if ((USARTx->CR1 & USART_CR1_OVER8) == 0) */
  {
    /* Integer part computing in case Oversampling mode is 16 Samples */
    integerdivider = ((25 * apbclock) / (4 * (USART_InitStruct->USART_BaudRate)));    
 8025fee:	0092      	lsls	r2, r2, #2
  }
  tmpreg = (integerdivider / 100) << 4;
 8025ff0:	2364      	movs	r3, #100	; 0x64
    integerdivider = ((25 * apbclock) / (2 * (USART_InitStruct->USART_BaudRate)));    
  }
  else /* if ((USARTx->CR1 & USART_CR1_OVER8) == 0) */
  {
    /* Integer part computing in case Oversampling mode is 16 Samples */
    integerdivider = ((25 * apbclock) / (4 * (USART_InitStruct->USART_BaudRate)));    
 8025ff2:	fbb1 f1f2 	udiv	r1, r1, r2
  }
  tmpreg = (integerdivider / 100) << 4;
 8025ff6:	fbb1 f2f3 	udiv	r2, r1, r3
 8025ffa:	0112      	lsls	r2, r2, #4

  /* Determine the fractional part */
  fractionaldivider = integerdivider - (100 * (tmpreg >> 4));
 8025ffc:	0910      	lsrs	r0, r2, #4
 8025ffe:	fb03 1110 	mls	r1, r3, r0, r1

  /* Implement the fractional part in the register */
  if ((USARTx->CR1 & USART_CR1_OVER8) != 0)
 8026002:	89a0      	ldrh	r0, [r4, #12]
 8026004:	b200      	sxth	r0, r0
 8026006:	2800      	cmp	r0, #0
 8026008:	da06      	bge.n	8026018 <USART_Init+0x9c>
  {
    tmpreg |= ((((fractionaldivider * 8) + 50) / 100)) & ((uint8_t)0x07);
 802600a:	00c9      	lsls	r1, r1, #3
 802600c:	3132      	adds	r1, #50	; 0x32
 802600e:	fbb1 f3f3 	udiv	r3, r1, r3
 8026012:	f003 0307 	and.w	r3, r3, #7
 8026016:	e005      	b.n	8026024 <USART_Init+0xa8>
  }
  else /* if ((USARTx->CR1 & USART_CR1_OVER8) == 0) */
  {
    tmpreg |= ((((fractionaldivider * 16) + 50) / 100)) & ((uint8_t)0x0F);
 8026018:	0109      	lsls	r1, r1, #4
 802601a:	3132      	adds	r1, #50	; 0x32
 802601c:	fbb1 f3f3 	udiv	r3, r1, r3
 8026020:	f003 030f 	and.w	r3, r3, #15
 8026024:	431a      	orrs	r2, r3
  }
  
  /* Write to USART BRR register */
  USARTx->BRR = (uint16_t)tmpreg;
 8026026:	8122      	strh	r2, [r4, #8]
}
 8026028:	b005      	add	sp, #20
 802602a:	bd30      	pop	{r4, r5, pc}
 802602c:	40011000 	.word	0x40011000

08026030 <USART_Cmd>:
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
  {
    /* Enable the selected USART by setting the UE bit in the CR1 register */
    USARTx->CR1 |= USART_CR1_UE;
 8026030:	8983      	ldrh	r3, [r0, #12]
{
  /* Check the parameters */
  assert_param(IS_USART_ALL_PERIPH(USARTx));
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
 8026032:	b119      	cbz	r1, 802603c <USART_Cmd+0xc>
  {
    /* Enable the selected USART by setting the UE bit in the CR1 register */
    USARTx->CR1 |= USART_CR1_UE;
 8026034:	b29b      	uxth	r3, r3
 8026036:	f443 5300 	orr.w	r3, r3, #8192	; 0x2000
 802603a:	e003      	b.n	8026044 <USART_Cmd+0x14>
  }
  else
  {
    /* Disable the selected USART by clearing the UE bit in the CR1 register */
    USARTx->CR1 &= (uint16_t)~((uint16_t)USART_CR1_UE);
 802603c:	f423 5300 	bic.w	r3, r3, #8192	; 0x2000
 8026040:	041b      	lsls	r3, r3, #16
 8026042:	0c1b      	lsrs	r3, r3, #16
 8026044:	8183      	strh	r3, [r0, #12]
 8026046:	4770      	bx	lr

08026048 <USART_ITConfig>:
  } 
    
  usartxbase = (uint32_t)USARTx;

  /* Get the USART register index */
  usartreg = (((uint8_t)USART_IT) >> 0x05);
 8026048:	f3c1 1342 	ubfx	r3, r1, #5, #3
  * @param  NewState: new state of the specified USARTx interrupts.
  *          This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void USART_ITConfig(USART_TypeDef* USARTx, uint16_t USART_IT, FunctionalState NewState)
{
 802604c:	b510      	push	{r4, lr}
  /* Get the USART register index */
  usartreg = (((uint8_t)USART_IT) >> 0x05);

  /* Get the interrupt position */
  itpos = USART_IT & IT_MASK;
  itmask = (((uint32_t)0x01) << itpos);
 802604e:	2401      	movs	r4, #1
 8026050:	f001 011f 	and.w	r1, r1, #31
    
  if (usartreg == 0x01) /* The IT is in CR1 register */
 8026054:	42a3      	cmp	r3, r4
  /* Get the USART register index */
  usartreg = (((uint8_t)USART_IT) >> 0x05);

  /* Get the interrupt position */
  itpos = USART_IT & IT_MASK;
  itmask = (((uint32_t)0x01) << itpos);
 8026056:	fa04 f101 	lsl.w	r1, r4, r1
    
  if (usartreg == 0x01) /* The IT is in CR1 register */
 802605a:	d101      	bne.n	8026060 <USART_ITConfig+0x18>
  {
    usartxbase += 0x0C;
 802605c:	300c      	adds	r0, #12
 802605e:	e004      	b.n	802606a <USART_ITConfig+0x22>
  }
  else if (usartreg == 0x02) /* The IT is in CR2 register */
 8026060:	2b02      	cmp	r3, #2
 8026062:	d101      	bne.n	8026068 <USART_ITConfig+0x20>
  {
    usartxbase += 0x10;
 8026064:	3010      	adds	r0, #16
 8026066:	e000      	b.n	802606a <USART_ITConfig+0x22>
  }
  else /* The IT is in CR3 register */
  {
    usartxbase += 0x14; 
 8026068:	3014      	adds	r0, #20
  }
  if (NewState != DISABLE)
  {
    *(__IO uint32_t*)usartxbase  |= itmask;
 802606a:	6803      	ldr	r3, [r0, #0]
  }
  else /* The IT is in CR3 register */
  {
    usartxbase += 0x14; 
  }
  if (NewState != DISABLE)
 802606c:	b10a      	cbz	r2, 8026072 <USART_ITConfig+0x2a>
  {
    *(__IO uint32_t*)usartxbase  |= itmask;
 802606e:	4319      	orrs	r1, r3
 8026070:	e001      	b.n	8026076 <USART_ITConfig+0x2e>
  }
  else
  {
    *(__IO uint32_t*)usartxbase &= ~itmask;
 8026072:	ea23 0101 	bic.w	r1, r3, r1
 8026076:	6001      	str	r1, [r0, #0]
 8026078:	bd10      	pop	{r4, pc}

0802607a <USART_GetITStatus>:
  *            @arg USART_IT_FE:   Framing Error interrupt
  *            @arg USART_IT_PE:   Parity Error interrupt
  * @retval The new state of USART_IT (SET or RESET).
  */
ITStatus USART_GetITStatus(USART_TypeDef* USARTx, uint16_t USART_IT)
{
 802607a:	b510      	push	{r4, lr}
  {
    assert_param(IS_USART_1236_PERIPH(USARTx));
  } 
    
  /* Get the USART register index */
  usartreg = (((uint8_t)USART_IT) >> 0x05);
 802607c:	f3c1 1442 	ubfx	r4, r1, #5, #3
  /* Get the interrupt position */
  itmask = USART_IT & IT_MASK;
  itmask = (uint32_t)0x01 << itmask;
 8026080:	2201      	movs	r2, #1
 8026082:	f001 031f 	and.w	r3, r1, #31
  
  if (usartreg == 0x01) /* The IT  is in CR1 register */
 8026086:	2c01      	cmp	r4, #1
    
  /* Get the USART register index */
  usartreg = (((uint8_t)USART_IT) >> 0x05);
  /* Get the interrupt position */
  itmask = USART_IT & IT_MASK;
  itmask = (uint32_t)0x01 << itmask;
 8026088:	fa02 f203 	lsl.w	r2, r2, r3
  
  if (usartreg == 0x01) /* The IT  is in CR1 register */
 802608c:	d101      	bne.n	8026092 <USART_GetITStatus+0x18>
  {
    itmask &= USARTx->CR1;
 802608e:	8983      	ldrh	r3, [r0, #12]
 8026090:	e003      	b.n	802609a <USART_GetITStatus+0x20>
  }
  else if (usartreg == 0x02) /* The IT  is in CR2 register */
 8026092:	2c02      	cmp	r4, #2
  {
    itmask &= USARTx->CR2;
 8026094:	bf0c      	ite	eq
 8026096:	8a03      	ldrheq	r3, [r0, #16]
  }
  else /* The IT  is in CR3 register */
  {
    itmask &= USARTx->CR3;
 8026098:	8a83      	ldrhne	r3, [r0, #20]
 802609a:	b29b      	uxth	r3, r3
 802609c:	4013      	ands	r3, r2
  }
  
  bitpos = USART_IT >> 0x08;
  bitpos = (uint32_t)0x01 << bitpos;
  bitpos &= USARTx->SR;
 802609e:	8802      	ldrh	r2, [r0, #0]
 80260a0:	b292      	uxth	r2, r2
  if ((itmask != (uint16_t)RESET)&&(bitpos != (uint16_t)RESET))
 80260a2:	b143      	cbz	r3, 80260b6 <USART_GetITStatus+0x3c>
  {
    itmask &= USARTx->CR3;
  }
  
  bitpos = USART_IT >> 0x08;
  bitpos = (uint32_t)0x01 << bitpos;
 80260a4:	2301      	movs	r3, #1
 80260a6:	0a09      	lsrs	r1, r1, #8
 80260a8:	fa03 f101 	lsl.w	r1, r3, r1
  bitpos &= USARTx->SR;
  if ((itmask != (uint16_t)RESET)&&(bitpos != (uint16_t)RESET))
 80260ac:	4211      	tst	r1, r2
  {
    bitstatus = SET;
 80260ae:	bf0c      	ite	eq
 80260b0:	2000      	moveq	r0, #0
 80260b2:	2001      	movne	r0, #1
 80260b4:	bd10      	pop	{r4, pc}
  }
  else
  {
    bitstatus = RESET;
 80260b6:	4618      	mov	r0, r3
  }
  
  return bitstatus;  
}
 80260b8:	bd10      	pop	{r4, pc}

080260ba <USART_ClearITPendingBit>:
  {
    assert_param(IS_USART_1236_PERIPH(USARTx));
  } 
    
  bitpos = USART_IT >> 0x08;
  itmask = ((uint16_t)0x01 << (uint16_t)bitpos);
 80260ba:	0a09      	lsrs	r1, r1, #8
 80260bc:	2301      	movs	r3, #1
 80260be:	fa03 f301 	lsl.w	r3, r3, r1
  USARTx->SR = (uint16_t)~itmask;
 80260c2:	43db      	mvns	r3, r3
 80260c4:	8003      	strh	r3, [r0, #0]
 80260c6:	4770      	bx	lr

080260c8 <SystemInit>:
    SCB->CPACR |= ((3UL << 10*2)|(3UL << 11*2));  /* set CP10 and CP11 Full Access */
  #endif

  /* Reset the RCC clock configuration to the default reset state ------------*/
  /* Set HSION bit */
  RCC->CR |= (uint32_t)0x00000001;
 80260c8:	4b35      	ldr	r3, [pc, #212]	; (80261a0 <SystemInit+0xd8>)
 80260ca:	681a      	ldr	r2, [r3, #0]
 80260cc:	f042 0201 	orr.w	r2, r2, #1
 80260d0:	601a      	str	r2, [r3, #0]

  /* Reset CFGR register */
  RCC->CFGR = 0x00000000;
 80260d2:	2200      	movs	r2, #0
 80260d4:	609a      	str	r2, [r3, #8]

  /* Reset HSEON, CSSON and PLLON bits */
  RCC->CR &= (uint32_t)0xFEF6FFFF;
 80260d6:	6819      	ldr	r1, [r3, #0]
 80260d8:	f021 7184 	bic.w	r1, r1, #17301504	; 0x1080000
 80260dc:	f421 3180 	bic.w	r1, r1, #65536	; 0x10000
 80260e0:	6019      	str	r1, [r3, #0]

  /* Reset PLLCFGR register */
  RCC->PLLCFGR = 0x24003010;
 80260e2:	4930      	ldr	r1, [pc, #192]	; (80261a4 <SystemInit+0xdc>)
 80260e4:	6059      	str	r1, [r3, #4]

  /* Reset HSEBYP bit */
  RCC->CR &= (uint32_t)0xFFFBFFFF;
 80260e6:	6819      	ldr	r1, [r3, #0]
  *         SystemFrequency variable.
  * @param  None
  * @retval None
  */
void SystemInit(void)
{
 80260e8:	b082      	sub	sp, #8

  /* Reset PLLCFGR register */
  RCC->PLLCFGR = 0x24003010;

  /* Reset HSEBYP bit */
  RCC->CR &= (uint32_t)0xFFFBFFFF;
 80260ea:	f421 2180 	bic.w	r1, r1, #262144	; 0x40000
 80260ee:	6019      	str	r1, [r3, #0]

  /* Disable all interrupts */
  RCC->CIR = 0x00000000;
 80260f0:	60da      	str	r2, [r3, #12]
static void SetSysClock(void)
{
/******************************************************************************/
/*            PLL (clocked by HSE) used as System clock source                */
/******************************************************************************/
  __IO uint32_t StartUpCounter = 0, HSEStatus = 0;
 80260f2:	9200      	str	r2, [sp, #0]
 80260f4:	9201      	str	r2, [sp, #4]
  
  /* Enable HSE */
  RCC->CR |= ((uint32_t)RCC_CR_HSEON);
 80260f6:	681a      	ldr	r2, [r3, #0]
 80260f8:	f442 3280 	orr.w	r2, r2, #65536	; 0x10000
 80260fc:	601a      	str	r2, [r3, #0]
 
  /* Wait till HSE is ready and if Time out is reached exit */
  do
  {
    HSEStatus = RCC->CR & RCC_CR_HSERDY;
 80260fe:	681a      	ldr	r2, [r3, #0]
 8026100:	f402 3200 	and.w	r2, r2, #131072	; 0x20000
 8026104:	9201      	str	r2, [sp, #4]
    StartUpCounter++;
 8026106:	9a00      	ldr	r2, [sp, #0]
 8026108:	3201      	adds	r2, #1
 802610a:	9200      	str	r2, [sp, #0]
  } while((HSEStatus == 0) && (StartUpCounter != HSE_STARTUP_TIMEOUT));
 802610c:	9a01      	ldr	r2, [sp, #4]
 802610e:	b91a      	cbnz	r2, 8026118 <SystemInit+0x50>
 8026110:	9a00      	ldr	r2, [sp, #0]
 8026112:	f5b2 6fa0 	cmp.w	r2, #1280	; 0x500
 8026116:	d1f2      	bne.n	80260fe <SystemInit+0x36>

  if ((RCC->CR & RCC_CR_HSERDY) != RESET)
 8026118:	4b21      	ldr	r3, [pc, #132]	; (80261a0 <SystemInit+0xd8>)
 802611a:	681b      	ldr	r3, [r3, #0]
 802611c:	f413 3300 	ands.w	r3, r3, #131072	; 0x20000
  {
    HSEStatus = (uint32_t)0x01;
 8026120:	bf18      	it	ne
 8026122:	2301      	movne	r3, #1
  }
  else
  {
    HSEStatus = (uint32_t)0x00;
 8026124:	9301      	str	r3, [sp, #4]
  }

  if (HSEStatus == (uint32_t)0x01)
 8026126:	9b01      	ldr	r3, [sp, #4]
 8026128:	2b01      	cmp	r3, #1
 802612a:	d133      	bne.n	8026194 <SystemInit+0xcc>
  {
    /* Select regulator voltage output Scale 1 mode, System frequency up to 168 MHz */
    RCC->APB1ENR |= RCC_APB1ENR_PWREN;
 802612c:	4b1c      	ldr	r3, [pc, #112]	; (80261a0 <SystemInit+0xd8>)
 802612e:	6c1a      	ldr	r2, [r3, #64]	; 0x40
 8026130:	f042 5280 	orr.w	r2, r2, #268435456	; 0x10000000
 8026134:	641a      	str	r2, [r3, #64]	; 0x40
    PWR->CR |= PWR_CR_VOS;
 8026136:	4a1c      	ldr	r2, [pc, #112]	; (80261a8 <SystemInit+0xe0>)
 8026138:	6811      	ldr	r1, [r2, #0]
 802613a:	f441 4180 	orr.w	r1, r1, #16384	; 0x4000
 802613e:	6011      	str	r1, [r2, #0]

    /* HCLK = SYSCLK / 1*/
    RCC->CFGR |= RCC_CFGR_HPRE_DIV1;
 8026140:	689a      	ldr	r2, [r3, #8]
 8026142:	609a      	str	r2, [r3, #8]
      
    /* PCLK2 = HCLK / 2*/
    RCC->CFGR |= RCC_CFGR_PPRE2_DIV2;
 8026144:	689a      	ldr	r2, [r3, #8]
 8026146:	f442 4200 	orr.w	r2, r2, #32768	; 0x8000
 802614a:	609a      	str	r2, [r3, #8]
    
    /* PCLK1 = HCLK / 4*/
    RCC->CFGR |= RCC_CFGR_PPRE1_DIV4;
 802614c:	689a      	ldr	r2, [r3, #8]
 802614e:	f442 52a0 	orr.w	r2, r2, #5120	; 0x1400
 8026152:	609a      	str	r2, [r3, #8]

    /* Configure the main PLL */
    RCC->PLLCFGR = PLL_M | (PLL_N << 6) | (((PLL_P >> 1) -1) << 16) |
 8026154:	4a15      	ldr	r2, [pc, #84]	; (80261ac <SystemInit+0xe4>)
 8026156:	605a      	str	r2, [r3, #4]
                   (RCC_PLLCFGR_PLLSRC_HSE) | (PLL_Q << 24);

    /* Enable the main PLL */
    RCC->CR |= RCC_CR_PLLON;
 8026158:	681a      	ldr	r2, [r3, #0]
 802615a:	f042 7280 	orr.w	r2, r2, #16777216	; 0x1000000
 802615e:	601a      	str	r2, [r3, #0]

    /* Wait till the main PLL is ready */
    while((RCC->CR & RCC_CR_PLLRDY) == 0)
 8026160:	6819      	ldr	r1, [r3, #0]
 8026162:	4a0f      	ldr	r2, [pc, #60]	; (80261a0 <SystemInit+0xd8>)
 8026164:	0189      	lsls	r1, r1, #6
 8026166:	d5fb      	bpl.n	8026160 <SystemInit+0x98>
    {
    }
   
    /* Configure Flash prefetch, Instruction cache, Data cache and wait state */
    FLASH->ACR = FLASH_ACR_ICEN |FLASH_ACR_DCEN |FLASH_ACR_LATENCY_5WS;
 8026168:	4b11      	ldr	r3, [pc, #68]	; (80261b0 <SystemInit+0xe8>)
 802616a:	f240 6105 	movw	r1, #1541	; 0x605
 802616e:	6019      	str	r1, [r3, #0]

    /* Select the main PLL as system clock source */
    RCC->CFGR &= (uint32_t)((uint32_t)~(RCC_CFGR_SW));
 8026170:	6893      	ldr	r3, [r2, #8]
 8026172:	f023 0303 	bic.w	r3, r3, #3
 8026176:	6093      	str	r3, [r2, #8]
    RCC->CFGR |= RCC_CFGR_SW_PLL;
 8026178:	6893      	ldr	r3, [r2, #8]
 802617a:	f043 0302 	orr.w	r3, r3, #2
 802617e:	6093      	str	r3, [r2, #8]

    /* Wait till the main PLL is used as system clock source */
    while ((RCC->CFGR & (uint32_t)RCC_CFGR_SWS ) != RCC_CFGR_SWS_PLL);
 8026180:	6891      	ldr	r1, [r2, #8]
 8026182:	4b07      	ldr	r3, [pc, #28]	; (80261a0 <SystemInit+0xd8>)
 8026184:	f001 010c 	and.w	r1, r1, #12
 8026188:	2908      	cmp	r1, #8
 802618a:	d1f9      	bne.n	8026180 <SystemInit+0xb8>
    {
    }
	
	/* Добавил переход на внутренний генератор в �лучае отказа HSE */ 
	RCC->CR|=RCC_CR_CSSON; 
 802618c:	681a      	ldr	r2, [r3, #0]
 802618e:	f442 2200 	orr.w	r2, r2, #524288	; 0x80000
 8026192:	601a      	str	r2, [r3, #0]

  /* Configure the Vector Table location add offset address ------------------*/
#ifdef VECT_TAB_SRAM
  SCB->VTOR = SRAM_BASE | VECT_TAB_OFFSET; /* Vector Table Relocation in Internal SRAM */
#else
  SCB->VTOR = FLASH_BASE | VECT_TAB_OFFSET; /* Vector Table Relocation in Internal FLASH */
 8026194:	4b07      	ldr	r3, [pc, #28]	; (80261b4 <SystemInit+0xec>)
 8026196:	f04f 6200 	mov.w	r2, #134217728	; 0x8000000
 802619a:	609a      	str	r2, [r3, #8]
#endif
}
 802619c:	b002      	add	sp, #8
 802619e:	4770      	bx	lr
 80261a0:	40023800 	.word	0x40023800
 80261a4:	24003010 	.word	0x24003010
 80261a8:	40007000 	.word	0x40007000
 80261ac:	07405419 	.word	0x07405419
 80261b0:	40023c00 	.word	0x40023c00
 80261b4:	e000ed00 	.word	0xe000ed00

080261b8 <gpio_hw_config_pin>:
	GPIO_TABLE(EXPAND_AS_DEFS)
};

void gpio_hw_config_pin(GPIO_TypeDef *port, uint8_t pin, uint16_t conf) {
	uint8_t shift;
	shift = pin * 2;
 80261b8:	004b      	lsls	r3, r1, #1

	port->MODER &= ~(GPIO_MODER_MASK << shift);
 80261ba:	b2db      	uxtb	r3, r3

gpio_pindef_t gpio_pins[] = {
	GPIO_TABLE(EXPAND_AS_DEFS)
};

void gpio_hw_config_pin(GPIO_TypeDef *port, uint8_t pin, uint16_t conf) {
 80261bc:	b570      	push	{r4, r5, r6, lr}
	uint8_t shift;
	shift = pin * 2;

	port->MODER &= ~(GPIO_MODER_MASK << shift);
 80261be:	2403      	movs	r4, #3
 80261c0:	6805      	ldr	r5, [r0, #0]
 80261c2:	fa04 f403 	lsl.w	r4, r4, r3
 80261c6:	43e4      	mvns	r4, r4
 80261c8:	4025      	ands	r5, r4
 80261ca:	6005      	str	r5, [r0, #0]
	port->MODER |= (uint32_t)((conf >> GPIO_MODE_CFG_SHIFT) & GPIO_MODER_MASK) << shift;
 80261cc:	6806      	ldr	r6, [r0, #0]
 80261ce:	f002 0503 	and.w	r5, r2, #3
 80261d2:	fa05 f503 	lsl.w	r5, r5, r3
 80261d6:	4335      	orrs	r5, r6
 80261d8:	6005      	str	r5, [r0, #0]
	port->OTYPER &= ~(GPIO_TYPER_MASK << pin);
 80261da:	6846      	ldr	r6, [r0, #4]
 80261dc:	2501      	movs	r5, #1
 80261de:	fa05 f501 	lsl.w	r5, r5, r1
 80261e2:	ea26 0505 	bic.w	r5, r6, r5
 80261e6:	6045      	str	r5, [r0, #4]
	port->OTYPER |= (uint32_t)((conf >> GPIO_TYPE_CFG_SHIFT) & GPIO_TYPER_MASK) << pin;
 80261e8:	6845      	ldr	r5, [r0, #4]
 80261ea:	f3c2 0680 	ubfx	r6, r2, #2, #1
 80261ee:	fa06 f101 	lsl.w	r1, r6, r1
 80261f2:	4329      	orrs	r1, r5
 80261f4:	6041      	str	r1, [r0, #4]
	port->OSPEEDR &= ~(GPIO_SPEEDR_MASK << shift);
 80261f6:	6881      	ldr	r1, [r0, #8]
 80261f8:	4021      	ands	r1, r4
 80261fa:	6081      	str	r1, [r0, #8]
	port->OSPEEDR |= (uint32_t)((conf >> GPIO_SPEED_CFG_SHIFT) & GPIO_SPEEDR_MASK) << shift;
 80261fc:	6885      	ldr	r5, [r0, #8]
 80261fe:	f3c2 1101 	ubfx	r1, r2, #4, #2
 8026202:	fa01 f103 	lsl.w	r1, r1, r3
 8026206:	4329      	orrs	r1, r5
 8026208:	6081      	str	r1, [r0, #8]
	port->PUPDR &= ~(GPIO_PUPDR_MASK << shift);
 802620a:	68c1      	ldr	r1, [r0, #12]
 802620c:	400c      	ands	r4, r1
 802620e:	60c4      	str	r4, [r0, #12]
	port->PUPDR |= (uint32_t)((conf >> GPIO_PUPD_CFG_SHIFT) & GPIO_PUPDR_MASK) << shift;
 8026210:	68c1      	ldr	r1, [r0, #12]
 8026212:	f3c2 1281 	ubfx	r2, r2, #6, #2
 8026216:	fa02 f303 	lsl.w	r3, r2, r3
 802621a:	430b      	orrs	r3, r1
 802621c:	60c3      	str	r3, [r0, #12]
 802621e:	bd70      	pop	{r4, r5, r6, pc}

08026220 <gpio_connect_af>:
}

void gpio_connect_af(gpio_t id, uint8_t af_n) {
 8026220:	b510      	push	{r4, lr}
	gpio_pindef_t *pin = &gpio_pins[id];
 8026222:	4b13      	ldr	r3, [pc, #76]	; (8026270 <gpio_connect_af+0x50>)
 8026224:	eb03 02c0 	add.w	r2, r3, r0, lsl #3
	uint8_t shift;
	if (pin->pin < 8) {
		shift = pin->pin * 4;
		pin->port->AFR[0] &= ~((uint32_t)GPIO_AFR_MASK << shift);
 8026228:	f853 3030 	ldr.w	r3, [r3, r0, lsl #3]
}

void gpio_connect_af(gpio_t id, uint8_t af_n) {
	gpio_pindef_t *pin = &gpio_pins[id];
	uint8_t shift;
	if (pin->pin < 8) {
 802622c:	7912      	ldrb	r2, [r2, #4]
 802622e:	2a07      	cmp	r2, #7
 8026230:	d80e      	bhi.n	8026250 <gpio_connect_af+0x30>
		shift = pin->pin * 4;
 8026232:	0092      	lsls	r2, r2, #2
		pin->port->AFR[0] &= ~((uint32_t)GPIO_AFR_MASK << shift);
 8026234:	6a1c      	ldr	r4, [r3, #32]
 8026236:	b2d2      	uxtb	r2, r2
 8026238:	200f      	movs	r0, #15
 802623a:	fa00 f002 	lsl.w	r0, r0, r2
 802623e:	ea24 0000 	bic.w	r0, r4, r0
 8026242:	6218      	str	r0, [r3, #32]
		pin->port->AFR[0] |= af_n << shift;
 8026244:	6a18      	ldr	r0, [r3, #32]
 8026246:	fa01 f202 	lsl.w	r2, r1, r2
 802624a:	4302      	orrs	r2, r0
 802624c:	621a      	str	r2, [r3, #32]
 802624e:	bd10      	pop	{r4, pc}
	}
	else {
		shift = (pin->pin - 8) * 4;
 8026250:	3a08      	subs	r2, #8
 8026252:	0092      	lsls	r2, r2, #2
		pin->port->AFR[1] &= ~((uint32_t)GPIO_AFR_MASK << shift);
 8026254:	6a5c      	ldr	r4, [r3, #36]	; 0x24
 8026256:	b2d2      	uxtb	r2, r2
 8026258:	200f      	movs	r0, #15
 802625a:	fa00 f002 	lsl.w	r0, r0, r2
 802625e:	ea24 0000 	bic.w	r0, r4, r0
 8026262:	6258      	str	r0, [r3, #36]	; 0x24
		pin->port->AFR[1] |= af_n << shift;
 8026264:	6a58      	ldr	r0, [r3, #36]	; 0x24
 8026266:	fa01 f202 	lsl.w	r2, r1, r2
 802626a:	4302      	orrs	r2, r0
 802626c:	625a      	str	r2, [r3, #36]	; 0x24
 802626e:	bd10      	pop	{r4, pc}
 8026270:	200005c0 	.word	0x200005c0

08026274 <gpio_set>:
		}
	}
}

void gpio_set(gpio_t pin, bool value) {
	if (gpio_pins[pin].flags & GPIO_INV)
 8026274:	4b0e      	ldr	r3, [pc, #56]	; (80262b0 <gpio_set+0x3c>)
 8026276:	eb03 02c0 	add.w	r2, r3, r0, lsl #3
 802627a:	88d2      	ldrh	r2, [r2, #6]
 802627c:	f002 0210 	and.w	r2, r2, #16
 8026280:	b292      	uxth	r2, r2
 8026282:	b10a      	cbz	r2, 8026288 <gpio_set+0x14>
		value = !value;
 8026284:	f081 0101 	eor.w	r1, r1, #1
 8026288:	00c2      	lsls	r2, r0, #3
	if (value)
 802628a:	b141      	cbz	r1, 802629e <gpio_set+0x2a>
		gpio_pins[pin].port->BSRRL = 1 << gpio_pins[pin].pin;
 802628c:	f853 1030 	ldr.w	r1, [r3, r0, lsl #3]
 8026290:	189b      	adds	r3, r3, r2
 8026292:	2201      	movs	r2, #1
 8026294:	791b      	ldrb	r3, [r3, #4]
 8026296:	fa02 f303 	lsl.w	r3, r2, r3
 802629a:	830b      	strh	r3, [r1, #24]
 802629c:	4770      	bx	lr
	else
		gpio_pins[pin].port->BSRRH = 1 << gpio_pins[pin].pin;
 802629e:	f853 1030 	ldr.w	r1, [r3, r0, lsl #3]
 80262a2:	189b      	adds	r3, r3, r2
 80262a4:	2201      	movs	r2, #1
 80262a6:	791b      	ldrb	r3, [r3, #4]
 80262a8:	fa02 f303 	lsl.w	r3, r2, r3
 80262ac:	834b      	strh	r3, [r1, #26]
 80262ae:	4770      	bx	lr
 80262b0:	200005c0 	.word	0x200005c0

080262b4 <gpio_set_config>:
}

/*
 * TODO add analog flag and setup ADC pins in a proper way
 */
static void gpio_set_config(gpio_t id) {
 80262b4:	b570      	push	{r4, r5, r6, lr}
	gpio_pindef_t *pin = &gpio_pins[id];
 80262b6:	4e1e      	ldr	r6, [pc, #120]	; (8026330 <gpio_set_config+0x7c>)
 80262b8:	eb06 05c0 	add.w	r5, r6, r0, lsl #3
}

/*
 * TODO add analog flag and setup ADC pins in a proper way
 */
static void gpio_set_config(gpio_t id) {
 80262bc:	4604      	mov	r4, r0
	gpio_pindef_t *pin = &gpio_pins[id];
	if (pin->flags & GPIO_AF) {
 80262be:	88e9      	ldrh	r1, [r5, #6]
 80262c0:	f401 7300 	and.w	r3, r1, #512	; 0x200
 80262c4:	b29b      	uxth	r3, r3
 80262c6:	b13b      	cbz	r3, 80262d8 <gpio_set_config+0x24>
		uint8_t af_n = (uint8_t)(pin->flags >> _GPIO_AF_SHIFT);
		gpio_connect_af(id, af_n);
 80262c8:	0a89      	lsrs	r1, r1, #10
 80262ca:	f7ff ffa9 	bl	8026220 <gpio_connect_af>
		gpio_hw_config_pin(pin->port, pin->pin, GPIO_MODE_AF_CFG | 
 80262ce:	f856 0034 	ldr.w	r0, [r6, r4, lsl #3]
 80262d2:	7929      	ldrb	r1, [r5, #4]
 80262d4:	2232      	movs	r2, #50	; 0x32
 80262d6:	e005      	b.n	80262e4 <gpio_set_config+0x30>
				GPIO_SPEED_HIGH_CFG);
	}
	else if (pin->flags & GPIO_IN)
 80262d8:	07cb      	lsls	r3, r1, #31
 80262da:	d507      	bpl.n	80262ec <gpio_set_config+0x38>
		gpio_hw_config_pin(pin->port, pin->pin, GPIO_MODE_IN_CFG | 
 80262dc:	f856 0030 	ldr.w	r0, [r6, r0, lsl #3]
 80262e0:	7929      	ldrb	r1, [r5, #4]
 80262e2:	2230      	movs	r2, #48	; 0x30
				((pin->flags & GPIO_OD) ? 
				 GPIO_TYPE_OD_CFG : GPIO_TYPE_PP_CFG) |
				GPIO_SPEED_HIGH_CFG);
		gpio_set(id, pin->flags & GPIO_SET);
	}
}
 80262e4:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
		gpio_connect_af(id, af_n);
		gpio_hw_config_pin(pin->port, pin->pin, GPIO_MODE_AF_CFG | 
				GPIO_SPEED_HIGH_CFG);
	}
	else if (pin->flags & GPIO_IN)
		gpio_hw_config_pin(pin->port, pin->pin, GPIO_MODE_IN_CFG | 
 80262e8:	f7ff bf66 	b.w	80261b8 <gpio_hw_config_pin>
				GPIO_SPEED_HIGH_CFG);
	else if (pin->flags & GPIO_IN_PU) {
 80262ec:	f001 0302 	and.w	r3, r1, #2
 80262f0:	b29b      	uxth	r3, r3
 80262f2:	b123      	cbz	r3, 80262fe <gpio_set_config+0x4a>
		gpio_hw_config_pin(pin->port, pin->pin, GPIO_MODE_IN_CFG | GPIO_PU_CFG |
 80262f4:	f856 0030 	ldr.w	r0, [r6, r0, lsl #3]
 80262f8:	7929      	ldrb	r1, [r5, #4]
 80262fa:	2270      	movs	r2, #112	; 0x70
 80262fc:	e00d      	b.n	802631a <gpio_set_config+0x66>
				GPIO_SPEED_HIGH_CFG);
		gpio_set(id, pin->flags & GPIO_SET);
	}
	else if (pin->flags & GPIO_OUT) {
 80262fe:	f001 0304 	and.w	r3, r1, #4
 8026302:	b29b      	uxth	r3, r3
 8026304:	b19b      	cbz	r3, 802632e <gpio_set_config+0x7a>
		gpio_hw_config_pin(pin->port, pin->pin, GPIO_MODE_OUT_CFG |
 8026306:	f001 0120 	and.w	r1, r1, #32
 802630a:	b28a      	uxth	r2, r1
 802630c:	f856 0030 	ldr.w	r0, [r6, r0, lsl #3]
 8026310:	7929      	ldrb	r1, [r5, #4]
 8026312:	2a00      	cmp	r2, #0
 8026314:	bf0c      	ite	eq
 8026316:	2231      	moveq	r2, #49	; 0x31
 8026318:	2235      	movne	r2, #53	; 0x35
 802631a:	f7ff ff4d 	bl	80261b8 <gpio_hw_config_pin>
				((pin->flags & GPIO_OD) ? 
				 GPIO_TYPE_OD_CFG : GPIO_TYPE_PP_CFG) |
				GPIO_SPEED_HIGH_CFG);
		gpio_set(id, pin->flags & GPIO_SET);
 802631e:	88e9      	ldrh	r1, [r5, #6]
 8026320:	4620      	mov	r0, r4
 8026322:	f3c1 01c0 	ubfx	r1, r1, #3, #1
	}
}
 8026326:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
	else if (pin->flags & GPIO_OUT) {
		gpio_hw_config_pin(pin->port, pin->pin, GPIO_MODE_OUT_CFG |
				((pin->flags & GPIO_OD) ? 
				 GPIO_TYPE_OD_CFG : GPIO_TYPE_PP_CFG) |
				GPIO_SPEED_HIGH_CFG);
		gpio_set(id, pin->flags & GPIO_SET);
 802632a:	f7ff bfa3 	b.w	8026274 <gpio_set>
 802632e:	bd70      	pop	{r4, r5, r6, pc}
 8026330:	200005c0 	.word	0x200005c0

08026334 <gpio_init>:
	}
}

void gpio_init(void) {
 8026334:	b538      	push	{r3, r4, r5, lr}
	uint32_t i;

	GPIO_DeInit(GPIOA);
 8026336:	4812      	ldr	r0, [pc, #72]	; (8026380 <gpio_init+0x4c>)
				GPIO_SPEED_HIGH_CFG);
		gpio_set(id, pin->flags & GPIO_SET);
	}
}

void gpio_init(void) {
 8026338:	4d12      	ldr	r5, [pc, #72]	; (8026384 <gpio_init+0x50>)
	uint32_t i;

	GPIO_DeInit(GPIOA);
 802633a:	f7ff fa0b 	bl	8025754 <GPIO_DeInit>
	GPIO_DeInit(GPIOB);
 802633e:	4812      	ldr	r0, [pc, #72]	; (8026388 <gpio_init+0x54>)
 8026340:	f7ff fa08 	bl	8025754 <GPIO_DeInit>
	GPIO_DeInit(GPIOC);
 8026344:	4811      	ldr	r0, [pc, #68]	; (802638c <gpio_init+0x58>)
 8026346:	f7ff fa05 	bl	8025754 <GPIO_DeInit>
	GPIO_DeInit(GPIOD);
 802634a:	4811      	ldr	r0, [pc, #68]	; (8026390 <gpio_init+0x5c>)
 802634c:	f7ff fa02 	bl	8025754 <GPIO_DeInit>
	GPIO_DeInit(GPIOE);
 8026350:	4810      	ldr	r0, [pc, #64]	; (8026394 <gpio_init+0x60>)
 8026352:	f7ff f9ff 	bl	8025754 <GPIO_DeInit>

	// configure clocks
	RCC->AHB1ENR |= RCC_AHB1ENR_GPIOAEN | RCC_AHB1ENR_GPIOBEN |
 8026356:	4b10      	ldr	r3, [pc, #64]	; (8026398 <gpio_init+0x64>)
 8026358:	6b1a      	ldr	r2, [r3, #48]	; 0x30
 802635a:	f042 021f 	orr.w	r2, r2, #31
 802635e:	631a      	str	r2, [r3, #48]	; 0x30
			RCC_AHB1ENR_GPIOCEN | RCC_AHB1ENR_GPIODEN |
			RCC_AHB1ENR_GPIOEEN;

	// configure gpios
	for (i = 0; i < GPIO_TOTAL_COUNT; i++) {
 8026360:	2400      	movs	r4, #0
				GPIO_SPEED_HIGH_CFG);
		gpio_set(id, pin->flags & GPIO_SET);
	}
}

void gpio_init(void) {
 8026362:	eb05 03c4 	add.w	r3, r5, r4, lsl #3
			RCC_AHB1ENR_GPIOCEN | RCC_AHB1ENR_GPIODEN |
			RCC_AHB1ENR_GPIOEEN;

	// configure gpios
	for (i = 0; i < GPIO_TOTAL_COUNT; i++) {
		if (gpio_pins[i].flags & GPIO_NOINIT)
 8026366:	88db      	ldrh	r3, [r3, #6]
 8026368:	f003 0380 	and.w	r3, r3, #128	; 0x80
 802636c:	b29b      	uxth	r3, r3
 802636e:	b913      	cbnz	r3, 8026376 <gpio_init+0x42>
			continue;
		else {
			gpio_set_config(i);
 8026370:	b2e0      	uxtb	r0, r4
 8026372:	f7ff ff9f 	bl	80262b4 <gpio_set_config>
	RCC->AHB1ENR |= RCC_AHB1ENR_GPIOAEN | RCC_AHB1ENR_GPIOBEN |
			RCC_AHB1ENR_GPIOCEN | RCC_AHB1ENR_GPIODEN |
			RCC_AHB1ENR_GPIOEEN;

	// configure gpios
	for (i = 0; i < GPIO_TOTAL_COUNT; i++) {
 8026376:	3401      	adds	r4, #1
 8026378:	2c11      	cmp	r4, #17
 802637a:	d1f2      	bne.n	8026362 <gpio_init+0x2e>
			continue;
		else {
			gpio_set_config(i);
		}
	}
}
 802637c:	bd38      	pop	{r3, r4, r5, pc}
 802637e:	bf00      	nop
 8026380:	40020000 	.word	0x40020000
 8026384:	200005c0 	.word	0x200005c0
 8026388:	40020400 	.word	0x40020400
 802638c:	40020800 	.word	0x40020800
 8026390:	40020c00 	.word	0x40020c00
 8026394:	40021000 	.word	0x40021000
 8026398:	40023800 	.word	0x40023800

0802639c <gpio_invert_output>:
		gpio_pins[pin].port->BSRRH = 1 << gpio_pins[pin].pin;
}

void gpio_invert_output(gpio_t pin) {

	gpio_pins[pin].port->ODR ^= 1 << gpio_pins[pin].pin;
 802639c:	4a06      	ldr	r2, [pc, #24]	; (80263b8 <gpio_invert_output+0x1c>)
 802639e:	f852 3030 	ldr.w	r3, [r2, r0, lsl #3]
 80263a2:	eb02 02c0 	add.w	r2, r2, r0, lsl #3
 80263a6:	6959      	ldr	r1, [r3, #20]
 80263a8:	7912      	ldrb	r2, [r2, #4]
 80263aa:	2001      	movs	r0, #1
 80263ac:	fa00 f202 	lsl.w	r2, r0, r2
 80263b0:	404a      	eors	r2, r1
 80263b2:	615a      	str	r2, [r3, #20]
 80263b4:	4770      	bx	lr
 80263b6:	bf00      	nop
 80263b8:	200005c0 	.word	0x200005c0

080263bc <gpio_get>:
}

bool gpio_get(gpio_t pin) {
	bool value;
	if (gpio_pins[pin].flags & GPIO_NOINIT) {
 80263bc:	490e      	ldr	r1, [pc, #56]	; (80263f8 <gpio_get+0x3c>)
 80263be:	eb01 02c0 	add.w	r2, r1, r0, lsl #3
void gpio_invert_output(gpio_t pin) {

	gpio_pins[pin].port->ODR ^= 1 << gpio_pins[pin].pin;
}

bool gpio_get(gpio_t pin) {
 80263c2:	b510      	push	{r4, lr}
	bool value;
	if (gpio_pins[pin].flags & GPIO_NOINIT) {
 80263c4:	88d3      	ldrh	r3, [r2, #6]
 80263c6:	f003 0480 	and.w	r4, r3, #128	; 0x80
 80263ca:	b2a4      	uxth	r4, r4
 80263cc:	b994      	cbnz	r4, 80263f4 <gpio_get+0x38>
		return false;
	}
	else {
		value = (gpio_pins[pin].port->IDR & (1 << gpio_pins[pin].pin)) >> gpio_pins[pin].pin;
 80263ce:	f851 1030 	ldr.w	r1, [r1, r0, lsl #3]
 80263d2:	7912      	ldrb	r2, [r2, #4]
 80263d4:	6908      	ldr	r0, [r1, #16]
 80263d6:	2101      	movs	r1, #1
 80263d8:	fa01 f102 	lsl.w	r1, r1, r2
 80263dc:	4001      	ands	r1, r0
		return (gpio_pins[pin].flags & GPIO_INV) ? !value : value;
 80263de:	f003 0310 	and.w	r3, r3, #16
	bool value;
	if (gpio_pins[pin].flags & GPIO_NOINIT) {
		return false;
	}
	else {
		value = (gpio_pins[pin].port->IDR & (1 << gpio_pins[pin].pin)) >> gpio_pins[pin].pin;
 80263e2:	40d1      	lsrs	r1, r2
		return (gpio_pins[pin].flags & GPIO_INV) ? !value : value;
 80263e4:	b29b      	uxth	r3, r3
	bool value;
	if (gpio_pins[pin].flags & GPIO_NOINIT) {
		return false;
	}
	else {
		value = (gpio_pins[pin].port->IDR & (1 << gpio_pins[pin].pin)) >> gpio_pins[pin].pin;
 80263e6:	bf0c      	ite	eq
 80263e8:	2000      	moveq	r0, #0
 80263ea:	2001      	movne	r0, #1
		return (gpio_pins[pin].flags & GPIO_INV) ? !value : value;
 80263ec:	b11b      	cbz	r3, 80263f6 <gpio_get+0x3a>
 80263ee:	f080 0001 	eor.w	r0, r0, #1
 80263f2:	bd10      	pop	{r4, pc}
}

bool gpio_get(gpio_t pin) {
	bool value;
	if (gpio_pins[pin].flags & GPIO_NOINIT) {
		return false;
 80263f4:	2000      	movs	r0, #0
	}
	else {
		value = (gpio_pins[pin].port->IDR & (1 << gpio_pins[pin].pin)) >> gpio_pins[pin].pin;
		return (gpio_pins[pin].flags & GPIO_INV) ? !value : value;
	}
}
 80263f6:	bd10      	pop	{r4, pc}
 80263f8:	200005c0 	.word	0x200005c0

080263fc <RNG_Init>:
#include "rng.h"
#include "stm32f4xx.h"


void RNG_Init(void)
{
 80263fc:	b508      	push	{r3, lr}
    RCC_AHB2PeriphClockCmd(RCC_AHB2Periph_RNG,ENABLE);
 80263fe:	2040      	movs	r0, #64	; 0x40
 8026400:	2101      	movs	r1, #1
 8026402:	f7ff faff 	bl	8025a04 <RCC_AHB2PeriphClockCmd>
    RNG_Cmd(ENABLE);
 8026406:	2001      	movs	r0, #1
}
 8026408:	e8bd 4008 	ldmia.w	sp!, {r3, lr}


void RNG_Init(void)
{
    RCC_AHB2PeriphClockCmd(RCC_AHB2Periph_RNG,ENABLE);
    RNG_Cmd(ENABLE);
 802640c:	f7ff bb56 	b.w	8025abc <RNG_Cmd>

08026410 <GetRandomNumber>:
}

uint32_t GetRandomNumber(void) {
    return RNG_GetRandomNumber();;
 8026410:	f7ff bb60 	b.w	8025ad4 <RNG_GetRandomNumber>

08026414 <TM_RTC_SetDateTime>:
  /* У�танавливаем новое врем� */
  TM_RTC_GetDateTimeFromUnix(&newData, unixTime);
  TM_RTC_SetDateTime(&newData, TM_RTC_Format_BIN);
}

TM_RTC_Result_t TM_RTC_SetDateTime(TM_RTC_t* data, TM_RTC_Format_t format) {
 8026414:	e92d 47f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, lr}
	TM_RTC_t tmp;
	
	/* Check date and time validation */
	if (format == TM_RTC_Format_BCD) {
 8026418:	2901      	cmp	r1, #1
  /* У�танавливаем новое врем� */
  TM_RTC_GetDateTimeFromUnix(&newData, unixTime);
  TM_RTC_SetDateTime(&newData, TM_RTC_Format_BIN);
}

TM_RTC_Result_t TM_RTC_SetDateTime(TM_RTC_t* data, TM_RTC_Format_t format) {
 802641a:	4603      	mov	r3, r0
 802641c:	460e      	mov	r6, r1
 802641e:	79c0      	ldrb	r0, [r0, #7]
	TM_RTC_t tmp;
	
	/* Check date and time validation */
	if (format == TM_RTC_Format_BCD) {
 8026420:	d137      	bne.n	8026492 <TM_RTC_SetDateTime+0x7e>
		tmp.date = TM_RTC_BCD2BIN(data->date);
		tmp.month = TM_RTC_BCD2BIN(data->month);
 8026422:	7a1c      	ldrb	r4, [r3, #8]
		tmp.year = TM_RTC_BCD2BIN(data->year);
 8026424:	7a5d      	ldrb	r5, [r3, #9]
		tmp.hours = TM_RTC_BCD2BIN(data->hours);
		tmp.minutes = TM_RTC_BCD2BIN(data->minutes);
		tmp.seconds = TM_RTC_BCD2BIN(data->seconds);
 8026426:	f893 8000 	ldrb.w	r8, [r3]
TM_RTC_Result_t TM_RTC_SetDateTime(TM_RTC_t* data, TM_RTC_Format_t format) {
	TM_RTC_t tmp;
	
	/* Check date and time validation */
	if (format == TM_RTC_Format_BCD) {
		tmp.date = TM_RTC_BCD2BIN(data->date);
 802642a:	220a      	movs	r2, #10
 802642c:	0901      	lsrs	r1, r0, #4
 802642e:	f000 000f 	and.w	r0, r0, #15
 8026432:	fb02 0001 	mla	r0, r2, r1, r0
		tmp.month = TM_RTC_BCD2BIN(data->month);
 8026436:	0921      	lsrs	r1, r4, #4
 8026438:	f004 040f 	and.w	r4, r4, #15
 802643c:	fb02 4101 	mla	r1, r2, r1, r4
		tmp.year = TM_RTC_BCD2BIN(data->year);
 8026440:	092c      	lsrs	r4, r5, #4
 8026442:	f005 050f 	and.w	r5, r5, #15
 8026446:	fb02 5404 	mla	r4, r2, r4, r5
		tmp.hours = TM_RTC_BCD2BIN(data->hours);
 802644a:	795d      	ldrb	r5, [r3, #5]
 802644c:	ea4f 1c15 	mov.w	ip, r5, lsr #4
 8026450:	f005 050f 	and.w	r5, r5, #15
 8026454:	fb02 5c0c 	mla	ip, r2, ip, r5
		tmp.minutes = TM_RTC_BCD2BIN(data->minutes);
 8026458:	791d      	ldrb	r5, [r3, #4]
 802645a:	092f      	lsrs	r7, r5, #4
 802645c:	f005 050f 	and.w	r5, r5, #15
 8026460:	fb02 5707 	mla	r7, r2, r7, r5
		tmp.seconds = TM_RTC_BCD2BIN(data->seconds);
 8026464:	ea4f 1518 	mov.w	r5, r8, lsr #4
 8026468:	f008 080f 	and.w	r8, r8, #15
 802646c:	fb02 8505 	mla	r5, r2, r5, r8
		tmp.day = TM_RTC_BCD2BIN(data->day);
 8026470:	f893 8006 	ldrb.w	r8, [r3, #6]
 8026474:	ea4f 1918 	mov.w	r9, r8, lsr #4
 8026478:	f008 080f 	and.w	r8, r8, #15
 802647c:	fb02 8209 	mla	r2, r2, r9, r8
TM_RTC_Result_t TM_RTC_SetDateTime(TM_RTC_t* data, TM_RTC_Format_t format) {
	TM_RTC_t tmp;
	
	/* Check date and time validation */
	if (format == TM_RTC_Format_BCD) {
		tmp.date = TM_RTC_BCD2BIN(data->date);
 8026480:	b2c0      	uxtb	r0, r0
		tmp.month = TM_RTC_BCD2BIN(data->month);
 8026482:	b2c9      	uxtb	r1, r1
		tmp.year = TM_RTC_BCD2BIN(data->year);
 8026484:	b2e4      	uxtb	r4, r4
		tmp.hours = TM_RTC_BCD2BIN(data->hours);
 8026486:	fa5f fc8c 	uxtb.w	ip, ip
		tmp.minutes = TM_RTC_BCD2BIN(data->minutes);
 802648a:	b2ff      	uxtb	r7, r7
		tmp.seconds = TM_RTC_BCD2BIN(data->seconds);
 802648c:	b2ed      	uxtb	r5, r5
		tmp.day = TM_RTC_BCD2BIN(data->day);
 802648e:	b2d2      	uxtb	r2, r2
 8026490:	e006      	b.n	80264a0 <TM_RTC_SetDateTime+0x8c>
	} else {
		tmp.date = data->date;
		tmp.month = data->month;
 8026492:	7a19      	ldrb	r1, [r3, #8]
		tmp.year = data->year;
 8026494:	7a5c      	ldrb	r4, [r3, #9]
		tmp.hours = data->hours;
 8026496:	f893 c005 	ldrb.w	ip, [r3, #5]
		tmp.minutes = data->minutes;
 802649a:	791f      	ldrb	r7, [r3, #4]
		tmp.seconds = data->seconds;
 802649c:	781d      	ldrb	r5, [r3, #0]
		tmp.day = data->day;
 802649e:	799a      	ldrb	r2, [r3, #6]
	}
	
	/* Check year and month */
	if (
 80264a0:	2c63      	cmp	r4, #99	; 0x63
 80264a2:	d86c      	bhi.n	802657e <TM_RTC_SetDateTime+0x16a>
		tmp.year > 99 || 
 80264a4:	2900      	cmp	r1, #0
 80264a6:	d06a      	beq.n	802657e <TM_RTC_SetDateTime+0x16a>
		tmp.month == 0 || 
 80264a8:	290c      	cmp	r1, #12
 80264aa:	d868      	bhi.n	802657e <TM_RTC_SetDateTime+0x16a>
		tmp.month > 12 ||
 80264ac:	2800      	cmp	r0, #0
 80264ae:	d066      	beq.n	802657e <TM_RTC_SetDateTime+0x16a>
		tmp.date == 0 ||
		tmp.date > TM_RTC_Months[TM_RTC_LEAP_YEAR(2000 + tmp.year) ? 1 : 0][tmp.month - 1] ||
 80264b0:	f014 0f03 	tst.w	r4, #3
 80264b4:	d10a      	bne.n	80264cc <TM_RTC_SetDateTime+0xb8>
 80264b6:	f504 69fa 	add.w	r9, r4, #2000	; 0x7d0
 80264ba:	f04f 0864 	mov.w	r8, #100	; 0x64
 80264be:	fb99 faf8 	sdiv	sl, r9, r8
 80264c2:	fb08 981a 	mls	r8, r8, sl, r9
 80264c6:	f1b8 0f00 	cmp.w	r8, #0
 80264ca:	d10c      	bne.n	80264e6 <TM_RTC_SetDateTime+0xd2>
 80264cc:	f504 64fa 	add.w	r4, r4, #2000	; 0x7d0
 80264d0:	f44f 78c8 	mov.w	r8, #400	; 0x190
 80264d4:	fb94 f9f8 	sdiv	r9, r4, r8
 80264d8:	fb08 4419 	mls	r4, r8, r9, r4
 80264dc:	f1d4 0401 	rsbs	r4, r4, #1
 80264e0:	bf38      	it	cc
 80264e2:	2400      	movcc	r4, #0
 80264e4:	e000      	b.n	80264e8 <TM_RTC_SetDateTime+0xd4>
 80264e6:	2401      	movs	r4, #1
 80264e8:	f8df 80a8 	ldr.w	r8, [pc, #168]	; 8026594 <TM_RTC_SetDateTime+0x180>
 80264ec:	f04f 090c 	mov.w	r9, #12
 80264f0:	fb09 8404 	mla	r4, r9, r4, r8
 80264f4:	1861      	adds	r1, r4, r1
	/* Check year and month */
	if (
		tmp.year > 99 || 
		tmp.month == 0 || 
		tmp.month > 12 ||
		tmp.date == 0 ||
 80264f6:	f811 1c01 	ldrb.w	r1, [r1, #-1]
 80264fa:	4281      	cmp	r1, r0
 80264fc:	d33f      	bcc.n	802657e <TM_RTC_SetDateTime+0x16a>
		tmp.date > TM_RTC_Months[TM_RTC_LEAP_YEAR(2000 + tmp.year) ? 1 : 0][tmp.month - 1] ||
 80264fe:	f1bc 0f17 	cmp.w	ip, #23
 8026502:	d83c      	bhi.n	802657e <TM_RTC_SetDateTime+0x16a>
		tmp.hours > 23 ||
 8026504:	2f3b      	cmp	r7, #59	; 0x3b
 8026506:	d83a      	bhi.n	802657e <TM_RTC_SetDateTime+0x16a>
		tmp.minutes > 59 ||
 8026508:	2d3b      	cmp	r5, #59	; 0x3b
 802650a:	d838      	bhi.n	802657e <TM_RTC_SetDateTime+0x16a>
		tmp.seconds > 59 ||
 802650c:	2a00      	cmp	r2, #0
 802650e:	d036      	beq.n	802657e <TM_RTC_SetDateTime+0x16a>
		tmp.day == 0 ||
 8026510:	2a07      	cmp	r2, #7
 8026512:	d834      	bhi.n	802657e <TM_RTC_SetDateTime+0x16a>
		/* Invalid date */
		return TM_RTC_Result_Error; 
	}
	
	/* Fill time */
	RTC_TimeStruct.RTC_Hours = data->hours;
 8026514:	795a      	ldrb	r2, [r3, #5]
 8026516:	4d1b      	ldr	r5, [pc, #108]	; (8026584 <TM_RTC_SetDateTime+0x170>)
	RTC_TimeStruct.RTC_Minutes = data->minutes;
	RTC_TimeStruct.RTC_Seconds = data->seconds;
	/* Fill date */
	RTC_DateStruct.RTC_Date = data->date;
 8026518:	4c1b      	ldr	r4, [pc, #108]	; (8026588 <TM_RTC_SetDateTime+0x174>)
		/* Invalid date */
		return TM_RTC_Result_Error; 
	}
	
	/* Fill time */
	RTC_TimeStruct.RTC_Hours = data->hours;
 802651a:	702a      	strb	r2, [r5, #0]
	RTC_TimeStruct.RTC_Minutes = data->minutes;
 802651c:	791a      	ldrb	r2, [r3, #4]
	RTC_DateStruct.RTC_Month = data->month;
	RTC_DateStruct.RTC_Year = data->year;
	RTC_DateStruct.RTC_WeekDay = data->day;
	
	/* Set the RTC time base to 1s and hours format to 24h */
	RTC_InitStruct.RTC_HourFormat = RTC_HourFormat_24;
 802651e:	481b      	ldr	r0, [pc, #108]	; (802658c <TM_RTC_SetDateTime+0x178>)
		return TM_RTC_Result_Error; 
	}
	
	/* Fill time */
	RTC_TimeStruct.RTC_Hours = data->hours;
	RTC_TimeStruct.RTC_Minutes = data->minutes;
 8026520:	706a      	strb	r2, [r5, #1]
	RTC_TimeStruct.RTC_Seconds = data->seconds;
 8026522:	781a      	ldrb	r2, [r3, #0]
 8026524:	70aa      	strb	r2, [r5, #2]
	/* Fill date */
	RTC_DateStruct.RTC_Date = data->date;
 8026526:	79da      	ldrb	r2, [r3, #7]
 8026528:	70a2      	strb	r2, [r4, #2]
	RTC_DateStruct.RTC_Month = data->month;
 802652a:	7a1a      	ldrb	r2, [r3, #8]
 802652c:	7062      	strb	r2, [r4, #1]
	RTC_DateStruct.RTC_Year = data->year;
 802652e:	7a5a      	ldrb	r2, [r3, #9]
	RTC_DateStruct.RTC_WeekDay = data->day;
 8026530:	799b      	ldrb	r3, [r3, #6]
	RTC_TimeStruct.RTC_Minutes = data->minutes;
	RTC_TimeStruct.RTC_Seconds = data->seconds;
	/* Fill date */
	RTC_DateStruct.RTC_Date = data->date;
	RTC_DateStruct.RTC_Month = data->month;
	RTC_DateStruct.RTC_Year = data->year;
 8026532:	70e2      	strb	r2, [r4, #3]
	RTC_DateStruct.RTC_WeekDay = data->day;
	
	/* Set the RTC time base to 1s and hours format to 24h */
	RTC_InitStruct.RTC_HourFormat = RTC_HourFormat_24;
	RTC_InitStruct.RTC_AsynchPrediv = RTC_ASYNC_PREDIV;
 8026534:	221f      	movs	r2, #31
	RTC_DateStruct.RTC_Month = data->month;
	RTC_DateStruct.RTC_Year = data->year;
	RTC_DateStruct.RTC_WeekDay = data->day;
	
	/* Set the RTC time base to 1s and hours format to 24h */
	RTC_InitStruct.RTC_HourFormat = RTC_HourFormat_24;
 8026536:	2700      	movs	r7, #0
	RTC_InitStruct.RTC_AsynchPrediv = RTC_ASYNC_PREDIV;
 8026538:	6042      	str	r2, [r0, #4]
	RTC_InitStruct.RTC_SynchPrediv = RTC_SYNC_PREDIV;
 802653a:	f502 7278 	add.w	r2, r2, #992	; 0x3e0
	RTC_TimeStruct.RTC_Seconds = data->seconds;
	/* Fill date */
	RTC_DateStruct.RTC_Date = data->date;
	RTC_DateStruct.RTC_Month = data->month;
	RTC_DateStruct.RTC_Year = data->year;
	RTC_DateStruct.RTC_WeekDay = data->day;
 802653e:	7023      	strb	r3, [r4, #0]
	
	/* Set the RTC time base to 1s and hours format to 24h */
	RTC_InitStruct.RTC_HourFormat = RTC_HourFormat_24;
 8026540:	6007      	str	r7, [r0, #0]
	RTC_InitStruct.RTC_AsynchPrediv = RTC_ASYNC_PREDIV;
	RTC_InitStruct.RTC_SynchPrediv = RTC_SYNC_PREDIV;
 8026542:	6082      	str	r2, [r0, #8]
	RTC_Init(&RTC_InitStruct);
 8026544:	f7ff fb08 	bl	8025b58 <RTC_Init>

	/* Set time */
	if (format == TM_RTC_Format_BCD) {
 8026548:	2e01      	cmp	r6, #1
 802654a:	d105      	bne.n	8026558 <TM_RTC_SetDateTime+0x144>
		RTC_SetTime(RTC_Format_BCD, &RTC_TimeStruct);
 802654c:	4630      	mov	r0, r6
 802654e:	4629      	mov	r1, r5
 8026550:	f7ff fb46 	bl	8025be0 <RTC_SetTime>
		RTC_SetTime(RTC_Format_BIN, &RTC_TimeStruct);
	}
	
	/* Set date */
	if (format == TM_RTC_Format_BCD) {
		RTC_SetDate(RTC_Format_BCD, &RTC_DateStruct);
 8026554:	4630      	mov	r0, r6
 8026556:	e004      	b.n	8026562 <TM_RTC_SetDateTime+0x14e>

	/* Set time */
	if (format == TM_RTC_Format_BCD) {
		RTC_SetTime(RTC_Format_BCD, &RTC_TimeStruct);
	} else {
		RTC_SetTime(RTC_Format_BIN, &RTC_TimeStruct);
 8026558:	4638      	mov	r0, r7
 802655a:	4629      	mov	r1, r5
 802655c:	f7ff fb40 	bl	8025be0 <RTC_SetTime>
	
	/* Set date */
	if (format == TM_RTC_Format_BCD) {
		RTC_SetDate(RTC_Format_BCD, &RTC_DateStruct);
	} else {
		RTC_SetDate(RTC_Format_BIN, &RTC_DateStruct);
 8026560:	4638      	mov	r0, r7
 8026562:	4621      	mov	r1, r4
 8026564:	f7ff fbaa 	bl	8025cbc <RTC_SetDate>
	}	
	
	if (TM_RTC_Status != RTC_STATUS_ZERO) {
 8026568:	4b09      	ldr	r3, [pc, #36]	; (8026590 <TM_RTC_SetDateTime+0x17c>)
 802656a:	6818      	ldr	r0, [r3, #0]
 802656c:	b140      	cbz	r0, 8026580 <TM_RTC_SetDateTime+0x16c>
		/* Write backup registers */
		RTC_WriteBackupRegister(RTC_STATUS_REG, RTC_STATUS_TIME_OK);
 802656e:	2013      	movs	r0, #19
 8026570:	f244 3121 	movw	r1, #17185	; 0x4321
 8026574:	f7ff fc0c 	bl	8025d90 <RTC_WriteBackupRegister>
	}
	
	/* Return OK */
	return TM_RTC_Result_Ok;
 8026578:	2000      	movs	r0, #0
 802657a:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}
		tmp.seconds > 59 ||
		tmp.day == 0 ||
		tmp.day > 7
	) {
		/* Invalid date */
		return TM_RTC_Result_Error; 
 802657e:	2001      	movs	r0, #1
		RTC_WriteBackupRegister(RTC_STATUS_REG, RTC_STATUS_TIME_OK);
	}
	
	/* Return OK */
	return TM_RTC_Result_Ok;
}
 8026580:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}
 8026584:	2000c810 	.word	0x2000c810
 8026588:	2000c820 	.word	0x2000c820
 802658c:	2000c814 	.word	0x2000c814
 8026590:	20000b04 	.word	0x20000b04
 8026594:	20000648 	.word	0x20000648

08026598 <TM_RTC_SetDateTimeString>:

TM_RTC_Result_t TM_RTC_SetDateTimeString(char* str) {
 8026598:	b530      	push	{r4, r5, lr}
	TM_RTC_t tmp;
	uint8_t i = 0;
	
	/* Get date */
	tmp.date = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 802659a:	2200      	movs	r2, #0
	
	/* Return OK */
	return TM_RTC_Result_Ok;
}

TM_RTC_Result_t TM_RTC_SetDateTimeString(char* str) {
 802659c:	b085      	sub	sp, #20
	TM_RTC_t tmp;
	uint8_t i = 0;
 802659e:	4613      	mov	r3, r2
	
	/* Get date */
	tmp.date = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
		tmp.date = tmp.date * 10 + TM_RTC_CHAR2NUM(*(str + i));
 80265a0:	250a      	movs	r5, #10
	TM_RTC_t tmp;
	uint8_t i = 0;
	
	/* Get date */
	tmp.date = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 80265a2:	e006      	b.n	80265b2 <TM_RTC_SetDateTimeString+0x1a>
		tmp.date = tmp.date * 10 + TM_RTC_CHAR2NUM(*(str + i));
 80265a4:	fb05 1202 	mla	r2, r5, r2, r1
 80265a8:	3a30      	subs	r2, #48	; 0x30
		i++;
 80265aa:	3301      	adds	r3, #1
	uint8_t i = 0;
	
	/* Get date */
	tmp.date = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
		tmp.date = tmp.date * 10 + TM_RTC_CHAR2NUM(*(str + i));
 80265ac:	f002 02ff 	and.w	r2, r2, #255	; 0xff
		i++;
 80265b0:	b2db      	uxtb	r3, r3
	TM_RTC_t tmp;
	uint8_t i = 0;
	
	/* Get date */
	tmp.date = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 80265b2:	5cc1      	ldrb	r1, [r0, r3]
 80265b4:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 80265b8:	2c09      	cmp	r4, #9
 80265ba:	d9f3      	bls.n	80265a4 <TM_RTC_SetDateTimeString+0xc>
		tmp.date = tmp.date * 10 + TM_RTC_CHAR2NUM(*(str + i));
		i++;
	}
	i++;
 80265bc:	3301      	adds	r3, #1
 80265be:	f88d 2007 	strb.w	r2, [sp, #7]
 80265c2:	b2db      	uxtb	r3, r3
	
	/* Get month */
	tmp.month = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 80265c4:	2200      	movs	r2, #0
		tmp.month = tmp.month * 10 + TM_RTC_CHAR2NUM(*(str + i));
 80265c6:	250a      	movs	r5, #10
	}
	i++;
	
	/* Get month */
	tmp.month = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 80265c8:	e006      	b.n	80265d8 <TM_RTC_SetDateTimeString+0x40>
		tmp.month = tmp.month * 10 + TM_RTC_CHAR2NUM(*(str + i));
 80265ca:	fb05 1202 	mla	r2, r5, r2, r1
 80265ce:	3a30      	subs	r2, #48	; 0x30
		i++;
 80265d0:	3301      	adds	r3, #1
	i++;
	
	/* Get month */
	tmp.month = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
		tmp.month = tmp.month * 10 + TM_RTC_CHAR2NUM(*(str + i));
 80265d2:	f002 02ff 	and.w	r2, r2, #255	; 0xff
		i++;
 80265d6:	b2db      	uxtb	r3, r3
	}
	i++;
	
	/* Get month */
	tmp.month = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 80265d8:	5cc1      	ldrb	r1, [r0, r3]
 80265da:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 80265de:	2c09      	cmp	r4, #9
 80265e0:	d9f3      	bls.n	80265ca <TM_RTC_SetDateTimeString+0x32>
		tmp.month = tmp.month * 10 + TM_RTC_CHAR2NUM(*(str + i));
		i++;
	}
	i++;
 80265e2:	3301      	adds	r3, #1
 80265e4:	f88d 2008 	strb.w	r2, [sp, #8]
 80265e8:	b2db      	uxtb	r3, r3
	
	/* Get year */
	tmp.year = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 80265ea:	2200      	movs	r2, #0
		tmp.year = tmp.year * 10 + TM_RTC_CHAR2NUM(*(str + i));
 80265ec:	250a      	movs	r5, #10
	}
	i++;
	
	/* Get year */
	tmp.year = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 80265ee:	e006      	b.n	80265fe <TM_RTC_SetDateTimeString+0x66>
		tmp.year = tmp.year * 10 + TM_RTC_CHAR2NUM(*(str + i));
 80265f0:	fb05 1202 	mla	r2, r5, r2, r1
 80265f4:	3a30      	subs	r2, #48	; 0x30
		i++;
 80265f6:	3301      	adds	r3, #1
	i++;
	
	/* Get year */
	tmp.year = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
		tmp.year = tmp.year * 10 + TM_RTC_CHAR2NUM(*(str + i));
 80265f8:	f002 02ff 	and.w	r2, r2, #255	; 0xff
		i++;
 80265fc:	b2db      	uxtb	r3, r3
	}
	i++;
	
	/* Get year */
	tmp.year = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 80265fe:	5cc1      	ldrb	r1, [r0, r3]
 8026600:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 8026604:	2c09      	cmp	r4, #9
 8026606:	d9f3      	bls.n	80265f0 <TM_RTC_SetDateTimeString+0x58>
		tmp.year = tmp.year * 10 + TM_RTC_CHAR2NUM(*(str + i));
		i++;
	}
	i++;
 8026608:	3301      	adds	r3, #1
 802660a:	f88d 2009 	strb.w	r2, [sp, #9]
 802660e:	b2db      	uxtb	r3, r3
	
	/* Get day in a week */
	tmp.day = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 8026610:	2200      	movs	r2, #0
		tmp.day = tmp.day * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026612:	250a      	movs	r5, #10
	}
	i++;
	
	/* Get day in a week */
	tmp.day = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 8026614:	e006      	b.n	8026624 <TM_RTC_SetDateTimeString+0x8c>
		tmp.day = tmp.day * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026616:	fb05 1202 	mla	r2, r5, r2, r1
 802661a:	3a30      	subs	r2, #48	; 0x30
		i++;
 802661c:	3301      	adds	r3, #1
	i++;
	
	/* Get day in a week */
	tmp.day = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
		tmp.day = tmp.day * 10 + TM_RTC_CHAR2NUM(*(str + i));
 802661e:	f002 02ff 	and.w	r2, r2, #255	; 0xff
		i++;
 8026622:	b2db      	uxtb	r3, r3
	}
	i++;
	
	/* Get day in a week */
	tmp.day = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 8026624:	5cc1      	ldrb	r1, [r0, r3]
 8026626:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 802662a:	2c09      	cmp	r4, #9
 802662c:	d9f3      	bls.n	8026616 <TM_RTC_SetDateTimeString+0x7e>
		tmp.day = tmp.day * 10 + TM_RTC_CHAR2NUM(*(str + i));
		i++;
	}
	i++;
 802662e:	3301      	adds	r3, #1
 8026630:	f88d 2006 	strb.w	r2, [sp, #6]
 8026634:	b2db      	uxtb	r3, r3
	
	/* Get hours */
	tmp.hours = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 8026636:	2200      	movs	r2, #0
		tmp.hours = tmp.hours * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026638:	250a      	movs	r5, #10
	}
	i++;
	
	/* Get hours */
	tmp.hours = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 802663a:	e006      	b.n	802664a <TM_RTC_SetDateTimeString+0xb2>
		tmp.hours = tmp.hours * 10 + TM_RTC_CHAR2NUM(*(str + i));
 802663c:	fb05 1202 	mla	r2, r5, r2, r1
 8026640:	3a30      	subs	r2, #48	; 0x30
		i++;
 8026642:	3301      	adds	r3, #1
	i++;
	
	/* Get hours */
	tmp.hours = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
		tmp.hours = tmp.hours * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026644:	f002 02ff 	and.w	r2, r2, #255	; 0xff
		i++;
 8026648:	b2db      	uxtb	r3, r3
	}
	i++;
	
	/* Get hours */
	tmp.hours = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 802664a:	5cc1      	ldrb	r1, [r0, r3]
 802664c:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 8026650:	2c09      	cmp	r4, #9
 8026652:	d9f3      	bls.n	802663c <TM_RTC_SetDateTimeString+0xa4>
		tmp.hours = tmp.hours * 10 + TM_RTC_CHAR2NUM(*(str + i));
		i++;
	}
	i++;
 8026654:	3301      	adds	r3, #1
 8026656:	f88d 2005 	strb.w	r2, [sp, #5]
 802665a:	b2db      	uxtb	r3, r3
	
	/* Get minutes */
	tmp.minutes = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 802665c:	2200      	movs	r2, #0
		tmp.minutes = tmp.minutes * 10 + TM_RTC_CHAR2NUM(*(str + i));
 802665e:	250a      	movs	r5, #10
	}
	i++;
	
	/* Get minutes */
	tmp.minutes = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 8026660:	e006      	b.n	8026670 <TM_RTC_SetDateTimeString+0xd8>
		tmp.minutes = tmp.minutes * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026662:	fb05 1202 	mla	r2, r5, r2, r1
 8026666:	3a30      	subs	r2, #48	; 0x30
		i++;
 8026668:	3301      	adds	r3, #1
	i++;
	
	/* Get minutes */
	tmp.minutes = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
		tmp.minutes = tmp.minutes * 10 + TM_RTC_CHAR2NUM(*(str + i));
 802666a:	f002 02ff 	and.w	r2, r2, #255	; 0xff
		i++;
 802666e:	b2db      	uxtb	r3, r3
	}
	i++;
	
	/* Get minutes */
	tmp.minutes = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 8026670:	5cc1      	ldrb	r1, [r0, r3]
 8026672:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 8026676:	2c09      	cmp	r4, #9
 8026678:	d9f3      	bls.n	8026662 <TM_RTC_SetDateTimeString+0xca>
		tmp.minutes = tmp.minutes * 10 + TM_RTC_CHAR2NUM(*(str + i));
		i++;
	}
	i++;
 802667a:	3301      	adds	r3, #1
 802667c:	f88d 2004 	strb.w	r2, [sp, #4]
 8026680:	b2db      	uxtb	r3, r3
	
	/* Get seconds */
	tmp.seconds = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 8026682:	2200      	movs	r2, #0
		tmp.seconds = tmp.seconds * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026684:	250a      	movs	r5, #10
	}
	i++;
	
	/* Get seconds */
	tmp.seconds = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 8026686:	e006      	b.n	8026696 <TM_RTC_SetDateTimeString+0xfe>
		tmp.seconds = tmp.seconds * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026688:	fb05 1202 	mla	r2, r5, r2, r1
 802668c:	3a30      	subs	r2, #48	; 0x30
		i++;
 802668e:	3301      	adds	r3, #1
	i++;
	
	/* Get seconds */
	tmp.seconds = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
		tmp.seconds = tmp.seconds * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026690:	f002 02ff 	and.w	r2, r2, #255	; 0xff
		i++;
 8026694:	b2db      	uxtb	r3, r3
	}
	i++;
	
	/* Get seconds */
	tmp.seconds = 0;
	while (TM_RTC_CHARISNUM(*(str + i))) {
 8026696:	5cc1      	ldrb	r1, [r0, r3]
 8026698:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 802669c:	2c09      	cmp	r4, #9
 802669e:	d9f3      	bls.n	8026688 <TM_RTC_SetDateTimeString+0xf0>
 80266a0:	a804      	add	r0, sp, #16
		i++;
	}
	i++;
	
	/* Return status from set date time function */
	return TM_RTC_SetDateTime(&tmp, TM_RTC_Format_BIN);
 80266a2:	2100      	movs	r1, #0
 80266a4:	f800 2d10 	strb.w	r2, [r0, #-16]!
 80266a8:	4668      	mov	r0, sp
 80266aa:	f7ff feb3 	bl	8026414 <TM_RTC_SetDateTime>
}
 80266ae:	b005      	add	sp, #20
 80266b0:	bd30      	pop	{r4, r5, pc}

080266b2 <TM_RTC_Config>:
uint16_t TM_RTC_GetDaysInYear(uint8_t year) {
	/* Return days in year */
	return TM_RTC_DAYS_IN_YEAR(2000 + year);
}

void TM_RTC_Config(TM_RTC_ClockSource_t source) {
 80266b2:	b508      	push	{r3, lr}
	if (source == TM_RTC_ClockSource_Internal) {
 80266b4:	b950      	cbnz	r0, 80266cc <TM_RTC_Config+0x1a>
		/* Enable the LSI OSC */
		RCC_LSICmd(ENABLE);
 80266b6:	2001      	movs	r0, #1
 80266b8:	f7ff f92e 	bl	8025918 <RCC_LSICmd>

		/* Wait till LSI is ready */
		while (RCC_GetFlagStatus(RCC_FLAG_LSIRDY) == RESET);
 80266bc:	2061      	movs	r0, #97	; 0x61
 80266be:	f7ff f9e9 	bl	8025a94 <RCC_GetFlagStatus>
 80266c2:	2800      	cmp	r0, #0
 80266c4:	d0fa      	beq.n	80266bc <TM_RTC_Config+0xa>

		/* Select the RTC Clock Source */
		RCC_RTCCLKConfig(RCC_RTCCLKSource_LSI);
 80266c6:	f44f 7000 	mov.w	r0, #512	; 0x200
 80266ca:	e00a      	b.n	80266e2 <TM_RTC_Config+0x30>
	} else if (source == TM_RTC_ClockSource_External) {
 80266cc:	2801      	cmp	r0, #1
 80266ce:	d10a      	bne.n	80266e6 <TM_RTC_Config+0x34>
		/* Enable the LSE OSC */
		RCC_LSEConfig(RCC_LSE_ON);
 80266d0:	f7ff f912 	bl	80258f8 <RCC_LSEConfig>

		/* Wait till LSE is ready */ 
		while (RCC_GetFlagStatus(RCC_FLAG_LSERDY) == RESET);
 80266d4:	2041      	movs	r0, #65	; 0x41
 80266d6:	f7ff f9dd 	bl	8025a94 <RCC_GetFlagStatus>
 80266da:	2800      	cmp	r0, #0
 80266dc:	d0fa      	beq.n	80266d4 <TM_RTC_Config+0x22>

		/* Select the RTC Clock Source */
		RCC_RTCCLKConfig(RCC_RTCCLKSource_LSE);
 80266de:	f44f 7080 	mov.w	r0, #256	; 0x100
 80266e2:	f7ff f965 	bl	80259b0 <RCC_RTCCLKConfig>
	}
	
	/* Enable the RTC Clock */
	RCC_RTCCLKCmd(ENABLE);
 80266e6:	2001      	movs	r0, #1
 80266e8:	f7ff f97a 	bl	80259e0 <RCC_RTCCLKCmd>
	
	/* Wait for register synchronization */
	RTC_WaitForSynchro();
 80266ec:	f7ff fa56 	bl	8025b9c <RTC_WaitForSynchro>

	/* Write status */
	RTC_WriteBackupRegister(RTC_STATUS_REG, RTC_STATUS_INIT_OK);
 80266f0:	2013      	movs	r0, #19
 80266f2:	f241 2134 	movw	r1, #4660	; 0x1234
}
 80266f6:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
	
	/* Wait for register synchronization */
	RTC_WaitForSynchro();

	/* Write status */
	RTC_WriteBackupRegister(RTC_STATUS_REG, RTC_STATUS_INIT_OK);
 80266fa:	f7ff bb49 	b.w	8025d90 <RTC_WriteBackupRegister>
 80266fe:	0000      	movs	r0, r0

08026700 <TM_RTC_GetUnixTimeStamp>:
		/* Enable wakeup command */
		RTC_WakeUpCmd(ENABLE);
	}
}

uint32_t TM_RTC_GetUnixTimeStamp(TM_RTC_t* data) {
 8026700:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
	uint32_t days = 0, seconds = 0;
	uint16_t i;
	uint16_t year = (uint16_t) (data->year + 2000);
 8026704:	7a42      	ldrb	r2, [r0, #9]
 8026706:	f240 73b2 	movw	r3, #1970	; 0x7b2
 802670a:	f502 62fa 	add.w	r2, r2, #2000	; 0x7d0
 802670e:	2100      	movs	r1, #0
	if (year < TM_RTC_OFFSET_YEAR) {
		return 0;
	}
	/* Days in back years */
	for (i = TM_RTC_OFFSET_YEAR; i < year; i++) {
		days += TM_RTC_DAYS_IN_YEAR(i);
 8026710:	f44f 75c8 	mov.w	r5, #400	; 0x190
 8026714:	2664      	movs	r6, #100	; 0x64
 8026716:	079c      	lsls	r4, r3, #30
 8026718:	d108      	bne.n	802672c <TM_RTC_GetUnixTimeStamp+0x2c>
 802671a:	fbb3 f4f6 	udiv	r4, r3, r6
 802671e:	fb06 3414 	mls	r4, r6, r4, r3
 8026722:	b2a4      	uxth	r4, r4
 8026724:	b114      	cbz	r4, 802672c <TM_RTC_GetUnixTimeStamp+0x2c>
 8026726:	f44f 74b7 	mov.w	r4, #366	; 0x16e
 802672a:	e008      	b.n	802673e <TM_RTC_GetUnixTimeStamp+0x3e>
 802672c:	fbb3 f4f5 	udiv	r4, r3, r5
 8026730:	fb05 3414 	mls	r4, r5, r4, r3
 8026734:	b2a4      	uxth	r4, r4
 8026736:	2c00      	cmp	r4, #0
 8026738:	d0f5      	beq.n	8026726 <TM_RTC_GetUnixTimeStamp+0x26>
 802673a:	f240 146d 	movw	r4, #365	; 0x16d
	/* Year is below offset year */
	if (year < TM_RTC_OFFSET_YEAR) {
		return 0;
	}
	/* Days in back years */
	for (i = TM_RTC_OFFSET_YEAR; i < year; i++) {
 802673e:	3301      	adds	r3, #1
 8026740:	b29b      	uxth	r3, r3
 8026742:	4293      	cmp	r3, r2
		days += TM_RTC_DAYS_IN_YEAR(i);
 8026744:	4421      	add	r1, r4
	/* Year is below offset year */
	if (year < TM_RTC_OFFSET_YEAR) {
		return 0;
	}
	/* Days in back years */
	for (i = TM_RTC_OFFSET_YEAR; i < year; i++) {
 8026746:	d3e6      	bcc.n	8026716 <TM_RTC_GetUnixTimeStamp+0x16>
		days += TM_RTC_DAYS_IN_YEAR(i);
	}
	/* Days in current year */
	for (i = 1; i < data->month; i++) {
		days += TM_RTC_Months[TM_RTC_LEAP_YEAR(year)][i - 1];
 8026748:	2364      	movs	r3, #100	; 0x64
 802674a:	fbb2 f7f3 	udiv	r7, r2, r3
 802674e:	fb03 2317 	mls	r3, r3, r7, r2
 8026752:	b29f      	uxth	r7, r3
 8026754:	f44f 73c8 	mov.w	r3, #400	; 0x190
 8026758:	fbb2 f4f3 	udiv	r4, r2, r3
 802675c:	fb03 2414 	mls	r4, r3, r4, r2
 8026760:	b2a4      	uxth	r4, r4
 8026762:	f1d4 0401 	rsbs	r4, r4, #1
 8026766:	bf38      	it	cc
 8026768:	2400      	movcc	r4, #0
	/* Days in back years */
	for (i = TM_RTC_OFFSET_YEAR; i < year; i++) {
		days += TM_RTC_DAYS_IN_YEAR(i);
	}
	/* Days in current year */
	for (i = 1; i < data->month; i++) {
 802676a:	7a06      	ldrb	r6, [r0, #8]
		days += TM_RTC_Months[TM_RTC_LEAP_YEAR(year)][i - 1];
 802676c:	f8df c058 	ldr.w	ip, [pc, #88]	; 80267c8 <TM_RTC_GetUnixTimeStamp+0xc8>
 8026770:	2300      	movs	r3, #0
 8026772:	f002 0203 	and.w	r2, r2, #3
 8026776:	f04f 080c 	mov.w	r8, #12
 802677a:	e00c      	b.n	8026796 <TM_RTC_GetUnixTimeStamp+0x96>
 802677c:	b922      	cbnz	r2, 8026788 <TM_RTC_GetUnixTimeStamp+0x88>
 802677e:	2f00      	cmp	r7, #0
 8026780:	bf0c      	ite	eq
 8026782:	4625      	moveq	r5, r4
 8026784:	2501      	movne	r5, #1
 8026786:	e000      	b.n	802678a <TM_RTC_GetUnixTimeStamp+0x8a>
 8026788:	4625      	mov	r5, r4
 802678a:	fb08 3505 	mla	r5, r8, r5, r3
 802678e:	3301      	adds	r3, #1
 8026790:	f81c 5005 	ldrb.w	r5, [ip, r5]
 8026794:	1949      	adds	r1, r1, r5
	/* Days in back years */
	for (i = TM_RTC_OFFSET_YEAR; i < year; i++) {
		days += TM_RTC_DAYS_IN_YEAR(i);
	}
	/* Days in current year */
	for (i = 1; i < data->month; i++) {
 8026796:	1c5d      	adds	r5, r3, #1
 8026798:	b2ad      	uxth	r5, r5
 802679a:	42b5      	cmp	r5, r6
 802679c:	d3ee      	bcc.n	802677c <TM_RTC_GetUnixTimeStamp+0x7c>
		days += TM_RTC_Months[TM_RTC_LEAP_YEAR(year)][i - 1];
	}
	/* Day starts with 1 */
	days += data->date - 1;
 802679e:	79c3      	ldrb	r3, [r0, #7]
	seconds = days * TM_RTC_SECONDS_PER_DAY;
	seconds += data->hours * TM_RTC_SECONDS_PER_HOUR;
 80267a0:	7944      	ldrb	r4, [r0, #5]
	/* Days in current year */
	for (i = 1; i < data->month; i++) {
		days += TM_RTC_Months[TM_RTC_LEAP_YEAR(year)][i - 1];
	}
	/* Day starts with 1 */
	days += data->date - 1;
 80267a2:	3b01      	subs	r3, #1
 80267a4:	1859      	adds	r1, r3, r1
	seconds = days * TM_RTC_SECONDS_PER_DAY;
	seconds += data->hours * TM_RTC_SECONDS_PER_HOUR;
	seconds += data->minutes * TM_RTC_SECONDS_PER_MINUTE;
 80267a6:	7903      	ldrb	r3, [r0, #4]
 80267a8:	009a      	lsls	r2, r3, #2
 80267aa:	019b      	lsls	r3, r3, #6
 80267ac:	1a9a      	subs	r2, r3, r2
		days += TM_RTC_Months[TM_RTC_LEAP_YEAR(year)][i - 1];
	}
	/* Day starts with 1 */
	days += data->date - 1;
	seconds = days * TM_RTC_SECONDS_PER_DAY;
	seconds += data->hours * TM_RTC_SECONDS_PER_HOUR;
 80267ae:	f44f 6361 	mov.w	r3, #3600	; 0xe10
 80267b2:	fb03 2304 	mla	r3, r3, r4, r2
	seconds += data->minutes * TM_RTC_SECONDS_PER_MINUTE;
	seconds += data->seconds;
 80267b6:	7802      	ldrb	r2, [r0, #0]
	
	/* seconds = days * 86400; */
	return seconds;
}
 80267b8:	4802      	ldr	r0, [pc, #8]	; (80267c4 <TM_RTC_GetUnixTimeStamp+0xc4>)
	}
	/* Day starts with 1 */
	days += data->date - 1;
	seconds = days * TM_RTC_SECONDS_PER_DAY;
	seconds += data->hours * TM_RTC_SECONDS_PER_HOUR;
	seconds += data->minutes * TM_RTC_SECONDS_PER_MINUTE;
 80267ba:	189b      	adds	r3, r3, r2
	seconds += data->seconds;
	
	/* seconds = days * 86400; */
	return seconds;
}
 80267bc:	fb00 3001 	mla	r0, r0, r1, r3
 80267c0:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 80267c4:	00015180 	.word	0x00015180
 80267c8:	20000648 	.word	0x20000648

080267cc <TM_RTC_GetDateTime>:
	
	/* Return status from set date time function */
	return TM_RTC_SetDateTime(&tmp, TM_RTC_Format_BIN);
}

void TM_RTC_GetDateTime(TM_RTC_t* data, TM_RTC_Format_t format) {
 80267cc:	b538      	push	{r3, r4, r5, lr}
 80267ce:	4604      	mov	r4, r0
	uint32_t unix;

	/* Get time */
	if (format == TM_RTC_Format_BIN) {
 80267d0:	460d      	mov	r5, r1
 80267d2:	b909      	cbnz	r1, 80267d8 <TM_RTC_GetDateTime+0xc>
		RTC_GetTime(RTC_Format_BIN, &RTC_TimeStruct);
 80267d4:	4608      	mov	r0, r1
 80267d6:	e000      	b.n	80267da <TM_RTC_GetDateTime+0xe>
	} else {
		RTC_GetTime(RTC_Format_BCD, &RTC_TimeStruct);
 80267d8:	2001      	movs	r0, #1
 80267da:	4911      	ldr	r1, [pc, #68]	; (8026820 <TM_RTC_GetDateTime+0x54>)
 80267dc:	f7ff fa4c 	bl	8025c78 <RTC_GetTime>
	}
	
	/* Format hours */
	data->hours = RTC_TimeStruct.RTC_Hours;
 80267e0:	4b0f      	ldr	r3, [pc, #60]	; (8026820 <TM_RTC_GetDateTime+0x54>)
 80267e2:	781a      	ldrb	r2, [r3, #0]
 80267e4:	7162      	strb	r2, [r4, #5]
	data->minutes = RTC_TimeStruct.RTC_Minutes;
 80267e6:	785a      	ldrb	r2, [r3, #1]
	data->seconds = RTC_TimeStruct.RTC_Seconds;
 80267e8:	789b      	ldrb	r3, [r3, #2]
		RTC_GetTime(RTC_Format_BCD, &RTC_TimeStruct);
	}
	
	/* Format hours */
	data->hours = RTC_TimeStruct.RTC_Hours;
	data->minutes = RTC_TimeStruct.RTC_Minutes;
 80267ea:	7122      	strb	r2, [r4, #4]
	data->seconds = RTC_TimeStruct.RTC_Seconds;
 80267ec:	7023      	strb	r3, [r4, #0]
	
	/* Get subseconds */
	data->subseconds = RTC->SSR;
 80267ee:	4b0d      	ldr	r3, [pc, #52]	; (8026824 <TM_RTC_GetDateTime+0x58>)
 80267f0:	6a9b      	ldr	r3, [r3, #40]	; 0x28
 80267f2:	8063      	strh	r3, [r4, #2]
	
	/* Get date */
	if (format == TM_RTC_Format_BIN) {
 80267f4:	b90d      	cbnz	r5, 80267fa <TM_RTC_GetDateTime+0x2e>
		RTC_GetDate(RTC_Format_BIN, &RTC_DateStruct);
 80267f6:	4628      	mov	r0, r5
 80267f8:	e000      	b.n	80267fc <TM_RTC_GetDateTime+0x30>
	} else {
		RTC_GetDate(RTC_Format_BCD, &RTC_DateStruct);
 80267fa:	2001      	movs	r0, #1
 80267fc:	490a      	ldr	r1, [pc, #40]	; (8026828 <TM_RTC_GetDateTime+0x5c>)
 80267fe:	f7ff faa7 	bl	8025d50 <RTC_GetDate>
	}
	
	/* Format date */
	data->year = RTC_DateStruct.RTC_Year;
 8026802:	4b09      	ldr	r3, [pc, #36]	; (8026828 <TM_RTC_GetDateTime+0x5c>)
 8026804:	78da      	ldrb	r2, [r3, #3]
 8026806:	7262      	strb	r2, [r4, #9]
	data->month = RTC_DateStruct.RTC_Month;
 8026808:	785a      	ldrb	r2, [r3, #1]
 802680a:	7222      	strb	r2, [r4, #8]
	data->date = RTC_DateStruct.RTC_Date;
 802680c:	789a      	ldrb	r2, [r3, #2]
	data->day = RTC_DateStruct.RTC_WeekDay;
 802680e:	781b      	ldrb	r3, [r3, #0]
	}
	
	/* Format date */
	data->year = RTC_DateStruct.RTC_Year;
	data->month = RTC_DateStruct.RTC_Month;
	data->date = RTC_DateStruct.RTC_Date;
 8026810:	71e2      	strb	r2, [r4, #7]
	data->day = RTC_DateStruct.RTC_WeekDay;
 8026812:	71a3      	strb	r3, [r4, #6]
	
	/* Calculate unix offset */
	unix = TM_RTC_GetUnixTimeStamp(data);
 8026814:	4620      	mov	r0, r4
 8026816:	f7ff ff73 	bl	8026700 <TM_RTC_GetUnixTimeStamp>
	data->unix = unix;
 802681a:	60e0      	str	r0, [r4, #12]
 802681c:	bd38      	pop	{r3, r4, r5, pc}
 802681e:	bf00      	nop
 8026820:	2000c810 	.word	0x2000c810
 8026824:	40002800 	.word	0x40002800
 8026828:	2000c820 	.word	0x2000c820

0802682c <TM_RTC_Init>:
  }

}

uint32_t TM_RTC_Init(TM_RTC_ClockSource_t source) 
{
 802682c:	b5f0      	push	{r4, r5, r6, r7, lr}
  uint32_t status;
  uint8_t stat = 1;
  TM_RTC_t datatime;
	
  /* Enable PWR peripheral clock */
  RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR, ENABLE);
 802682e:	2101      	movs	r1, #1
  }

}

uint32_t TM_RTC_Init(TM_RTC_ClockSource_t source) 
{
 8026830:	b085      	sub	sp, #20
 8026832:	4605      	mov	r5, r0
  uint32_t status;
  uint8_t stat = 1;
  TM_RTC_t datatime;
	
  /* Enable PWR peripheral clock */
  RCC_APB1PeriphClockCmd(RCC_APB1Periph_PWR, ENABLE);
 8026834:	f04f 5080 	mov.w	r0, #268435456	; 0x10000000
 8026838:	f7ff f8f0 	bl	8025a1c <RCC_APB1PeriphClockCmd>

  /* Allow access to BKP Domain */
  PWR_BackupAccessCmd(ENABLE);
 802683c:	2001      	movs	r0, #1
 802683e:	f7ff f855 	bl	80258ec <PWR_BackupAccessCmd>
	
  /* Get RTC status */
  status = RTC_ReadBackupRegister(RTC_STATUS_REG);
 8026842:	2013      	movs	r0, #19
 8026844:	f7ff fab4 	bl	8025db0 <RTC_ReadBackupRegister>
	
  if (status == RTC_STATUS_TIME_OK) 
 8026848:	f244 3321 	movw	r3, #17185	; 0x4321
 802684c:	4298      	cmp	r0, r3
 802684e:	4e25      	ldr	r6, [pc, #148]	; (80268e4 <TM_RTC_Init+0xb8>)
 8026850:	d113      	bne.n	802687a <TM_RTC_Init+0x4e>
  {
    TM_RTC_Status = RTC_STATUS_TIME_OK;
 8026852:	6030      	str	r0, [r6, #0]
		
    /* Start internal clock if we choose internal clock */
    if (source == TM_RTC_ClockSource_Internal)
 8026854:	b915      	cbnz	r5, 802685c <TM_RTC_Init+0x30>
      TM_RTC_Config(TM_RTC_ClockSource_Internal);
 8026856:	4628      	mov	r0, r5
 8026858:	f7ff ff2b 	bl	80266b2 <TM_RTC_Config>

    /* Wait for RTC APB registers synchronisation (needed after start-up from Reset) */
    RTC_WaitForSynchro();
 802685c:	f7ff f99e 	bl	8025b9c <RTC_WaitForSynchro>
		
    /* Clear interrupt flags */
    RTC_ClearITPendingBit(RTC_IT_WUT);
 8026860:	f44f 4080 	mov.w	r0, #16384	; 0x4000
 8026864:	f7ff facc 	bl	8025e00 <RTC_ClearITPendingBit>
    EXTI->PR = 0x00400000;
 8026868:	4b1f      	ldr	r3, [pc, #124]	; (80268e8 <TM_RTC_Init+0xbc>)
 802686a:	f44f 0280 	mov.w	r2, #4194304	; 0x400000
 802686e:	615a      	str	r2, [r3, #20]
		
    /* Get date and time */
    TM_RTC_GetDateTime(&datatime, TM_RTC_Format_BIN);
 8026870:	4668      	mov	r0, sp
 8026872:	2100      	movs	r1, #0
 8026874:	f7ff ffaa 	bl	80267cc <TM_RTC_GetDateTime>
 8026878:	e02f      	b.n	80268da <TM_RTC_Init+0xae>
  } 
  else if (status == RTC_STATUS_INIT_OK) 
 802687a:	f241 2734 	movw	r7, #4660	; 0x1234
 802687e:	42b8      	cmp	r0, r7
 8026880:	d10f      	bne.n	80268a2 <TM_RTC_Init+0x76>
  {
    TM_RTC_Status = RTC_STATUS_INIT_OK;
 8026882:	6030      	str	r0, [r6, #0]
		
    /* Start internal clock if we choose internal clock */
    if (source == TM_RTC_ClockSource_Internal)
 8026884:	b915      	cbnz	r5, 802688c <TM_RTC_Init+0x60>
      TM_RTC_Config(TM_RTC_ClockSource_Internal);
 8026886:	4628      	mov	r0, r5
 8026888:	f7ff ff13 	bl	80266b2 <TM_RTC_Config>

    /* Wait for RTC APB registers synchronisation (needed after start-up from Reset) */
    RTC_WaitForSynchro();
 802688c:	f7ff f986 	bl	8025b9c <RTC_WaitForSynchro>
		
    /* Clear interrupt flags */
    RTC_ClearITPendingBit(RTC_IT_WUT);
 8026890:	f44f 4080 	mov.w	r0, #16384	; 0x4000
 8026894:	f7ff fab4 	bl	8025e00 <RTC_ClearITPendingBit>
    EXTI->PR = 0x00400000;
 8026898:	4b13      	ldr	r3, [pc, #76]	; (80268e8 <TM_RTC_Init+0xbc>)
 802689a:	f44f 0280 	mov.w	r2, #4194304	; 0x400000
 802689e:	615a      	str	r2, [r3, #20]
 80268a0:	e01b      	b.n	80268da <TM_RTC_Init+0xae>
    /* Get date and time */
    //TM_RTC_GetDateTime(&datatime, TM_RTC_Format_BIN);
  } 
  else 
  {
    TM_RTC_Status = RTC_STATUS_ZERO;
 80268a2:	2400      	movs	r4, #0
    /* Return status = 0 -> RTC Never initialized before */
    stat = RTC_STATUS_ZERO;
    /* Config RTC */
	TM_RTC_Config(source);
 80268a4:	4628      	mov	r0, r5
    /* Get date and time */
    //TM_RTC_GetDateTime(&datatime, TM_RTC_Format_BIN);
  } 
  else 
  {
    TM_RTC_Status = RTC_STATUS_ZERO;
 80268a6:	6034      	str	r4, [r6, #0]
    /* Return status = 0 -> RTC Never initialized before */
    stat = RTC_STATUS_ZERO;
    /* Config RTC */
	TM_RTC_Config(source);
 80268a8:	f7ff ff03 	bl	80266b2 <TM_RTC_Config>
    datatime.day = 1;
    datatime.month = 1;
    datatime.year = 0;
    datatime.hours = 0;
    datatime.minutes = 0;
    datatime.seconds = 0;
 80268ac:	a804      	add	r0, sp, #16
    stat = RTC_STATUS_ZERO;
    /* Config RTC */
	TM_RTC_Config(source);
		
    /* Set date and time */
    datatime.date = 1;
 80268ae:	2301      	movs	r3, #1
    datatime.day = 1;
    datatime.month = 1;
    datatime.year = 0;
    datatime.hours = 0;
    datatime.minutes = 0;
    datatime.seconds = 0;
 80268b0:	f800 4d10 	strb.w	r4, [r0, #-16]!

    /* Set date and time */
    TM_RTC_SetDateTime(&datatime, TM_RTC_Format_BIN);
 80268b4:	4621      	mov	r1, r4
 80268b6:	4668      	mov	r0, sp
    stat = RTC_STATUS_ZERO;
    /* Config RTC */
	TM_RTC_Config(source);
		
    /* Set date and time */
    datatime.date = 1;
 80268b8:	f88d 3007 	strb.w	r3, [sp, #7]
    datatime.day = 1;
 80268bc:	f88d 3006 	strb.w	r3, [sp, #6]
    datatime.month = 1;
 80268c0:	f88d 3008 	strb.w	r3, [sp, #8]
    datatime.year = 0;
 80268c4:	f88d 4009 	strb.w	r4, [sp, #9]
    datatime.hours = 0;
 80268c8:	f88d 4005 	strb.w	r4, [sp, #5]
    datatime.minutes = 0;
 80268cc:	f88d 4004 	strb.w	r4, [sp, #4]
    datatime.seconds = 0;

    /* Set date and time */
    TM_RTC_SetDateTime(&datatime, TM_RTC_Format_BIN);
 80268d0:	f7ff fda0 	bl	8026414 <TM_RTC_SetDateTime>
		
    /* Initialized OK */
    TM_RTC_Status = RTC_STATUS_INIT_OK;
 80268d4:	6037      	str	r7, [r6, #0]
  }
  /* If first time initialized */
  if (stat == RTC_STATUS_ZERO) 
	return 0;
 80268d6:	4620      	mov	r0, r4
 80268d8:	e001      	b.n	80268de <TM_RTC_Init+0xb2>
  
  return TM_RTC_Status;  
 80268da:	4b02      	ldr	r3, [pc, #8]	; (80268e4 <TM_RTC_Init+0xb8>)
 80268dc:	6818      	ldr	r0, [r3, #0]

}
 80268de:	b005      	add	sp, #20
 80268e0:	bdf0      	pop	{r4, r5, r6, r7, pc}
 80268e2:	bf00      	nop
 80268e4:	20000b04 	.word	0x20000b04
 80268e8:	40013c00 	.word	0x40013c00

080268ec <TM_RTC_GetDateTimeFromUnix>:
	uint16_t year;
	
	/* Store unix time to unix in struct */
	data->unix = unix;
	/* Get seconds from unix */
	data->seconds = unix % 60;
 80268ec:	233c      	movs	r3, #60	; 0x3c
	
	/* seconds = days * 86400; */
	return seconds;
}

void TM_RTC_GetDateTimeFromUnix(TM_RTC_t* data, uint32_t unix) {
 80268ee:	b5f0      	push	{r4, r5, r6, r7, lr}
	uint16_t year;
	
	/* Store unix time to unix in struct */
	data->unix = unix;
	/* Get seconds from unix */
	data->seconds = unix % 60;
 80268f0:	fbb1 f4f3 	udiv	r4, r1, r3
	/* Go to minutes */
	unix /= 60;
	/* Get minutes */
	data->minutes = unix % 60;
 80268f4:	fbb4 f2f3 	udiv	r2, r4, r3

void TM_RTC_GetDateTimeFromUnix(TM_RTC_t* data, uint32_t unix) {
	uint16_t year;
	
	/* Store unix time to unix in struct */
	data->unix = unix;
 80268f8:	60c1      	str	r1, [r0, #12]
	/* Get seconds from unix */
	data->seconds = unix % 60;
 80268fa:	fb03 1114 	mls	r1, r3, r4, r1
 80268fe:	7001      	strb	r1, [r0, #0]
	/* Go to minutes */
	unix /= 60;
	/* Get minutes */
	data->minutes = unix % 60;
 8026900:	fb03 4312 	mls	r3, r3, r2, r4
	/* Go to hours */
	unix /= 60;
	/* Get hours */
	data->hours = unix % 24;
 8026904:	2118      	movs	r1, #24
	/* Get seconds from unix */
	data->seconds = unix % 60;
	/* Go to minutes */
	unix /= 60;
	/* Get minutes */
	data->minutes = unix % 60;
 8026906:	7103      	strb	r3, [r0, #4]
	/* Go to hours */
	unix /= 60;
	/* Get hours */
	data->hours = unix % 24;
 8026908:	fbb2 f3f1 	udiv	r3, r2, r1
 802690c:	fb01 2213 	mls	r2, r1, r3, r2
 8026910:	7142      	strb	r2, [r0, #5]
	/* Go to days */
	unix /= 24;
	
	/* Get week day */
	/* Monday is day one */
	data->day = (unix + 3) % 7 + 1;
 8026912:	1cd9      	adds	r1, r3, #3
 8026914:	2207      	movs	r2, #7
 8026916:	fbb1 f4f2 	udiv	r4, r1, r2
 802691a:	fb02 1214 	mls	r2, r2, r4, r1
 802691e:	3201      	adds	r2, #1
 8026920:	7182      	strb	r2, [r0, #6]

	/* Get year */
	year = 1970;
	while (1) {
		if (TM_RTC_LEAP_YEAR(year)) {
			if (unix >= 366) {
 8026922:	f240 156d 	movw	r5, #365	; 0x16d
	/* Get week day */
	/* Monday is day one */
	data->day = (unix + 3) % 7 + 1;

	/* Get year */
	year = 1970;
 8026926:	f240 72b2 	movw	r2, #1970	; 0x7b2
	while (1) {
		if (TM_RTC_LEAP_YEAR(year)) {
 802692a:	f44f 71c8 	mov.w	r1, #400	; 0x190
 802692e:	2464      	movs	r4, #100	; 0x64
 8026930:	f012 0603 	ands.w	r6, r2, #3
 8026934:	d105      	bne.n	8026942 <TM_RTC_GetDateTimeFromUnix+0x56>
 8026936:	fbb2 f7f4 	udiv	r7, r2, r4
 802693a:	fb04 2717 	mls	r7, r4, r7, r2
 802693e:	b2bf      	uxth	r7, r7
 8026940:	b92f      	cbnz	r7, 802694e <TM_RTC_GetDateTimeFromUnix+0x62>
 8026942:	fbb2 f7f1 	udiv	r7, r2, r1
 8026946:	fb01 2717 	mls	r7, r1, r7, r2
 802694a:	b2bf      	uxth	r7, r7
 802694c:	b927      	cbnz	r7, 8026958 <TM_RTC_GetDateTimeFromUnix+0x6c>
			if (unix >= 366) {
 802694e:	42ab      	cmp	r3, r5
 8026950:	d90b      	bls.n	802696a <TM_RTC_GetDateTimeFromUnix+0x7e>
				unix -= 366;
 8026952:	f5a3 73b7 	sub.w	r3, r3, #366	; 0x16e

	/* Get year */
	year = 1970;
	while (1) {
		if (TM_RTC_LEAP_YEAR(year)) {
			if (unix >= 366) {
 8026956:	e005      	b.n	8026964 <TM_RTC_GetDateTimeFromUnix+0x78>
				unix -= 366;
			} else {
				break;
			}
		} else if (unix >= 365) {
 8026958:	f5b3 7fb6 	cmp.w	r3, #364	; 0x16c
 802695c:	d905      	bls.n	802696a <TM_RTC_GetDateTimeFromUnix+0x7e>
			unix -= 365;
 802695e:	f46f 76b6 	mvn.w	r6, #364	; 0x16c
 8026962:	199b      	adds	r3, r3, r6
		} else {
			break;
		}
		year++;
 8026964:	3201      	adds	r2, #1
 8026966:	b292      	uxth	r2, r2
	}
 8026968:	e7e2      	b.n	8026930 <TM_RTC_GetDateTimeFromUnix+0x44>
	/* Get year in xx format */
	data->year = (uint8_t) (year - 2000);
 802696a:	f102 0130 	add.w	r1, r2, #48	; 0x30
 802696e:	7241      	strb	r1, [r0, #9]
	/* Get month */
	for (data->month = 0; data->month < 12; data->month++) {
 8026970:	2100      	movs	r1, #0
 8026972:	7201      	strb	r1, [r0, #8]
		if (TM_RTC_LEAP_YEAR(year) && unix >= (uint32_t)TM_RTC_Months[1][data->month]) {
 8026974:	2164      	movs	r1, #100	; 0x64
 8026976:	fbb2 f7f1 	udiv	r7, r2, r1
 802697a:	fb01 2117 	mls	r1, r1, r7, r2
 802697e:	b28f      	uxth	r7, r1
 8026980:	f44f 71c8 	mov.w	r1, #400	; 0x190
 8026984:	fbb2 f4f1 	udiv	r4, r2, r1
 8026988:	fb01 2214 	mls	r2, r1, r4, r2
 802698c:	b292      	uxth	r2, r2
			unix -= TM_RTC_Months[1][data->month];
		} else if (unix >= (uint32_t)TM_RTC_Months[0][data->month]) {
 802698e:	4c0c      	ldr	r4, [pc, #48]	; (80269c0 <TM_RTC_GetDateTimeFromUnix+0xd4>)
		year++;
	}
	/* Get year in xx format */
	data->year = (uint8_t) (year - 2000);
	/* Get month */
	for (data->month = 0; data->month < 12; data->month++) {
 8026990:	e012      	b.n	80269b8 <TM_RTC_GetDateTimeFromUnix+0xcc>
		if (TM_RTC_LEAP_YEAR(year) && unix >= (uint32_t)TM_RTC_Months[1][data->month]) {
 8026992:	b906      	cbnz	r6, 8026996 <TM_RTC_GetDateTimeFromUnix+0xaa>
 8026994:	b907      	cbnz	r7, 8026998 <TM_RTC_GetDateTimeFromUnix+0xac>
 8026996:	b922      	cbnz	r2, 80269a2 <TM_RTC_GetDateTimeFromUnix+0xb6>
 8026998:	1865      	adds	r5, r4, r1
 802699a:	7b2d      	ldrb	r5, [r5, #12]
 802699c:	42ab      	cmp	r3, r5
 802699e:	d300      	bcc.n	80269a2 <TM_RTC_GetDateTimeFromUnix+0xb6>
 80269a0:	e007      	b.n	80269b2 <TM_RTC_GetDateTimeFromUnix+0xc6>
			unix -= TM_RTC_Months[1][data->month];
		} else if (unix >= (uint32_t)TM_RTC_Months[0][data->month]) {
 80269a2:	5c65      	ldrb	r5, [r4, r1]
 80269a4:	42ab      	cmp	r3, r5
 80269a6:	d204      	bcs.n	80269b2 <TM_RTC_GetDateTimeFromUnix+0xc6>
			break;
		}
	}
	/* Get month */
	/* Month starts with 1 */
	data->month++;
 80269a8:	3101      	adds	r1, #1
	/* Get date */
	/* Date starts with 1 */
	data->date = unix + 1;
 80269aa:	3301      	adds	r3, #1
			break;
		}
	}
	/* Get month */
	/* Month starts with 1 */
	data->month++;
 80269ac:	7201      	strb	r1, [r0, #8]
	/* Get date */
	/* Date starts with 1 */
	data->date = unix + 1;
 80269ae:	71c3      	strb	r3, [r0, #7]
 80269b0:	bdf0      	pop	{r4, r5, r6, r7, pc}
		year++;
	}
	/* Get year in xx format */
	data->year = (uint8_t) (year - 2000);
	/* Get month */
	for (data->month = 0; data->month < 12; data->month++) {
 80269b2:	3101      	adds	r1, #1
		if (TM_RTC_LEAP_YEAR(year) && unix >= (uint32_t)TM_RTC_Months[1][data->month]) {
			unix -= TM_RTC_Months[1][data->month];
		} else if (unix >= (uint32_t)TM_RTC_Months[0][data->month]) {
			unix -= TM_RTC_Months[0][data->month];
 80269b4:	1b5b      	subs	r3, r3, r5
		year++;
	}
	/* Get year in xx format */
	data->year = (uint8_t) (year - 2000);
	/* Get month */
	for (data->month = 0; data->month < 12; data->month++) {
 80269b6:	7201      	strb	r1, [r0, #8]
 80269b8:	7a01      	ldrb	r1, [r0, #8]
 80269ba:	290b      	cmp	r1, #11
 80269bc:	d9e9      	bls.n	8026992 <TM_RTC_GetDateTimeFromUnix+0xa6>
 80269be:	e7f3      	b.n	80269a8 <TM_RTC_GetDateTimeFromUnix+0xbc>
 80269c0:	20000648 	.word	0x20000648
 80269c4:	00000000 	.word	0x00000000

080269c8 <TM_RTC_Correction>:
  * @brief  Кореектировака времени.
  * @param  Ча�овой по��
  * @retval 
  */
void TM_RTC_Correction(float utc)
{
 80269c8:	b510      	push	{r4, lr}
 80269ca:	b088      	sub	sp, #32
 80269cc:	4604      	mov	r4, r0
  TM_RTC_t newData;
  int      utcSec;
  uint32_t unixTime;
  
  /* Получаем текущее врем� */
  TM_RTC_GetDateTime(&data, TM_RTC_Format_BIN);
 80269ce:	2100      	movs	r1, #0
 80269d0:	4668      	mov	r0, sp
 80269d2:	f7ff fefb 	bl	80267cc <TM_RTC_GetDateTime>
  
  /* Ра��читываем поправку */
  utcSec = (int)(3600.0*utc);
 80269d6:	4620      	mov	r0, r4
 80269d8:	f7f9 fd9e 	bl	8020518 <__aeabi_f2d>
 80269dc:	a308      	add	r3, pc, #32	; (adr r3, 8026a00 <TM_RTC_Correction+0x38>)
 80269de:	e9d3 2300 	ldrd	r2, r3, [r3]
 80269e2:	f7f9 fded 	bl	80205c0 <__aeabi_dmul>
 80269e6:	f7fa f885 	bl	8020af4 <__aeabi_d2iz>
  unixTime = data.unix + utcSec;
 80269ea:	9903      	ldr	r1, [sp, #12]
 80269ec:	1841      	adds	r1, r0, r1
  
  /* У�танавливаем новое врем� */
  TM_RTC_GetDateTimeFromUnix(&newData, unixTime);
 80269ee:	a804      	add	r0, sp, #16
 80269f0:	f7ff ff7c 	bl	80268ec <TM_RTC_GetDateTimeFromUnix>
  TM_RTC_SetDateTime(&newData, TM_RTC_Format_BIN);
 80269f4:	a804      	add	r0, sp, #16
 80269f6:	2100      	movs	r1, #0
 80269f8:	f7ff fd0c 	bl	8026414 <TM_RTC_SetDateTime>
}
 80269fc:	b008      	add	sp, #32
 80269fe:	bd10      	pop	{r4, pc}
 8026a00:	00000000 	.word	0x00000000
 8026a04:	40ac2000 	.word	0x40ac2000

08026a08 <TM_RTC_SetDataTimeUnix>:
  return TM_RTC_Status;  

}

void TM_RTC_SetDataTimeUnix(uint32_t unixTime)
{
 8026a08:	b51f      	push	{r0, r1, r2, r3, r4, lr}
 8026a0a:	4601      	mov	r1, r0
  TM_RTC_t data;
  
  TM_RTC_GetDateTimeFromUnix(&data, unixTime);
 8026a0c:	4668      	mov	r0, sp
 8026a0e:	f7ff ff6d 	bl	80268ec <TM_RTC_GetDateTimeFromUnix>
  TM_RTC_SetDateTime(&data, TM_RTC_Format_BIN);
 8026a12:	4668      	mov	r0, sp
 8026a14:	2100      	movs	r1, #0
 8026a16:	f7ff fcfd 	bl	8026414 <TM_RTC_SetDateTime>
}
 8026a1a:	b005      	add	sp, #20
 8026a1c:	bd00      	pop	{pc}

08026a1e <TM_RTC_RequestHandler>:
	/* Read data from backup register */
	return *(uint32_t *)((&RTC->BKP0R) + 4 * location);
}

/* Callbacks */
__weak void TM_RTC_RequestHandler(void) {
 8026a1e:	4770      	bx	lr

08026a20 <TM_RTC_AlarmAHandler>:
	/* If user needs this function, then they should be defined separatelly in your project */
}

__weak void TM_RTC_AlarmAHandler(void) {
 8026a20:	4770      	bx	lr

08026a22 <TM_RTC_AlarmBHandler>:
	/* If user needs this function, then they should be defined separatelly in your project */
}

__weak void TM_RTC_AlarmBHandler(void) {
 8026a22:	4770      	bx	lr

08026a24 <RTC_WKUP_IRQHandler>:
	/* If user needs this function, then they should be defined separatelly in your project */
}

/* Private RTC IRQ handlers */
void RTC_WKUP_IRQHandler(void) {
 8026a24:	b508      	push	{r3, lr}
	/* Check for RTC interrupt */
	if (RTC_GetITStatus(RTC_IT_WUT) != RESET) {
 8026a26:	f44f 4080 	mov.w	r0, #16384	; 0x4000
 8026a2a:	f7ff f9d1 	bl	8025dd0 <RTC_GetITStatus>
 8026a2e:	b128      	cbz	r0, 8026a3c <RTC_WKUP_IRQHandler+0x18>
		/* Clear interrupt flags */
		RTC_ClearITPendingBit(RTC_IT_WUT);
 8026a30:	f44f 4080 	mov.w	r0, #16384	; 0x4000
 8026a34:	f7ff f9e4 	bl	8025e00 <RTC_ClearITPendingBit>
		
		/* Call user function */
		TM_RTC_RequestHandler();
 8026a38:	f7ff fff1 	bl	8026a1e <TM_RTC_RequestHandler>
	}
	
	/* Clear EXTI line 22 bit */
	EXTI->PR = 0x00400000;
 8026a3c:	4b02      	ldr	r3, [pc, #8]	; (8026a48 <RTC_WKUP_IRQHandler+0x24>)
 8026a3e:	f44f 0280 	mov.w	r2, #4194304	; 0x400000
 8026a42:	615a      	str	r2, [r3, #20]
 8026a44:	bd08      	pop	{r3, pc}
 8026a46:	bf00      	nop
 8026a48:	40013c00 	.word	0x40013c00

08026a4c <RTC_Alarm_IRQHandler>:
}

void RTC_Alarm_IRQHandler(void) {
 8026a4c:	b508      	push	{r3, lr}
	/* RTC Alarm A check */
	if (RTC_GetITStatus(RTC_IT_ALRA) != RESET) {
 8026a4e:	f44f 5080 	mov.w	r0, #4096	; 0x1000
 8026a52:	f7ff f9bd 	bl	8025dd0 <RTC_GetITStatus>
 8026a56:	b128      	cbz	r0, 8026a64 <RTC_Alarm_IRQHandler+0x18>
		/* Clear RTC Alarm A interrupt flag */
		RTC_ClearITPendingBit(RTC_IT_ALRA);
 8026a58:	f44f 5080 	mov.w	r0, #4096	; 0x1000
 8026a5c:	f7ff f9d0 	bl	8025e00 <RTC_ClearITPendingBit>
		
		/* Call user function for Alarm A */
		TM_RTC_AlarmAHandler();
 8026a60:	f7ff ffde 	bl	8026a20 <TM_RTC_AlarmAHandler>
	}
	
	/* RTC Alarm B check */
	if (RTC_GetITStatus(RTC_IT_ALRB) != RESET) {
 8026a64:	f44f 5000 	mov.w	r0, #8192	; 0x2000
 8026a68:	f7ff f9b2 	bl	8025dd0 <RTC_GetITStatus>
 8026a6c:	b128      	cbz	r0, 8026a7a <RTC_Alarm_IRQHandler+0x2e>
		/* Clear RTC Alarm A interrupt flag */
		RTC_ClearITPendingBit(RTC_IT_ALRB);
 8026a6e:	f44f 5000 	mov.w	r0, #8192	; 0x2000
 8026a72:	f7ff f9c5 	bl	8025e00 <RTC_ClearITPendingBit>
		
		/* Call user function for Alarm B */
		TM_RTC_AlarmBHandler();
 8026a76:	f7ff ffd4 	bl	8026a22 <TM_RTC_AlarmBHandler>
	}
	
	/* Clear EXTI line 17 bit */
	EXTI->PR = 0x00020000;
 8026a7a:	4b02      	ldr	r3, [pc, #8]	; (8026a84 <RTC_Alarm_IRQHandler+0x38>)
 8026a7c:	f44f 3200 	mov.w	r2, #131072	; 0x20000
 8026a80:	615a      	str	r2, [r3, #20]
 8026a82:	bd08      	pop	{r3, pc}
 8026a84:	40013c00 	.word	0x40013c00

08026a88 <RTC_SetProfTime>:

/**
  * @brief  У�тановливает врем� �рабатывани� профилактики �ульфатации
  */
void RTC_SetProfTime(char *str)
{
 8026a88:	b530      	push	{r4, r5, lr}
  uint32_t unixTime;
  uint8_t i = 0;
	
  /* Get date */
  tmp.date = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026a8a:	2200      	movs	r2, #0

/**
  * @brief  У�тановливает врем� �рабатывани� профилактики �ульфатации
  */
void RTC_SetProfTime(char *str)
{
 8026a8c:	b085      	sub	sp, #20
  TM_RTC_t tmp;
  uint32_t unixTime;
  uint8_t i = 0;
 8026a8e:	4613      	mov	r3, r2
	
  /* Get date */
  tmp.date = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
	tmp.date = tmp.date * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026a90:	250a      	movs	r5, #10
  uint32_t unixTime;
  uint8_t i = 0;
	
  /* Get date */
  tmp.date = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026a92:	e006      	b.n	8026aa2 <RTC_SetProfTime+0x1a>
	tmp.date = tmp.date * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026a94:	fb05 1202 	mla	r2, r5, r2, r1
 8026a98:	3a30      	subs	r2, #48	; 0x30
	i++;
 8026a9a:	3301      	adds	r3, #1
  uint8_t i = 0;
	
  /* Get date */
  tmp.date = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
	tmp.date = tmp.date * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026a9c:	f002 02ff 	and.w	r2, r2, #255	; 0xff
	i++;
 8026aa0:	b2db      	uxtb	r3, r3
  uint32_t unixTime;
  uint8_t i = 0;
	
  /* Get date */
  tmp.date = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026aa2:	5cc1      	ldrb	r1, [r0, r3]
 8026aa4:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 8026aa8:	2c09      	cmp	r4, #9
 8026aaa:	d9f3      	bls.n	8026a94 <RTC_SetProfTime+0xc>
	tmp.date = tmp.date * 10 + TM_RTC_CHAR2NUM(*(str + i));
	i++;
  }
  i++;
 8026aac:	3301      	adds	r3, #1
 8026aae:	f88d 2007 	strb.w	r2, [sp, #7]
 8026ab2:	b2db      	uxtb	r3, r3
	
  /* Get month */
  tmp.month = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026ab4:	2200      	movs	r2, #0
	tmp.month = tmp.month * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026ab6:	250a      	movs	r5, #10
  }
  i++;
	
  /* Get month */
  tmp.month = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026ab8:	e006      	b.n	8026ac8 <RTC_SetProfTime+0x40>
	tmp.month = tmp.month * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026aba:	fb05 1202 	mla	r2, r5, r2, r1
 8026abe:	3a30      	subs	r2, #48	; 0x30
	i++;
 8026ac0:	3301      	adds	r3, #1
  i++;
	
  /* Get month */
  tmp.month = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
	tmp.month = tmp.month * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026ac2:	f002 02ff 	and.w	r2, r2, #255	; 0xff
	i++;
 8026ac6:	b2db      	uxtb	r3, r3
  }
  i++;
	
  /* Get month */
  tmp.month = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026ac8:	5cc1      	ldrb	r1, [r0, r3]
 8026aca:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 8026ace:	2c09      	cmp	r4, #9
 8026ad0:	d9f3      	bls.n	8026aba <RTC_SetProfTime+0x32>
	tmp.month = tmp.month * 10 + TM_RTC_CHAR2NUM(*(str + i));
	i++;
  }
  //i++;
  i+=3;
 8026ad2:	3303      	adds	r3, #3
 8026ad4:	f88d 2008 	strb.w	r2, [sp, #8]
 8026ad8:	b2db      	uxtb	r3, r3
  
  /* Get year */
  tmp.year = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026ada:	2200      	movs	r2, #0
	tmp.year = tmp.year * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026adc:	250a      	movs	r5, #10
  //i++;
  i+=3;
  
  /* Get year */
  tmp.year = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026ade:	e006      	b.n	8026aee <RTC_SetProfTime+0x66>
	tmp.year = tmp.year * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026ae0:	fb05 1202 	mla	r2, r5, r2, r1
 8026ae4:	3a30      	subs	r2, #48	; 0x30
	i++;
 8026ae6:	3301      	adds	r3, #1
  i+=3;
  
  /* Get year */
  tmp.year = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
	tmp.year = tmp.year * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026ae8:	f002 02ff 	and.w	r2, r2, #255	; 0xff
	i++;
 8026aec:	b2db      	uxtb	r3, r3
  //i++;
  i+=3;
  
  /* Get year */
  tmp.year = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026aee:	5cc1      	ldrb	r1, [r0, r3]
 8026af0:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 8026af4:	2c09      	cmp	r4, #9
 8026af6:	d9f3      	bls.n	8026ae0 <RTC_SetProfTime+0x58>
	tmp.year = tmp.year * 10 + TM_RTC_CHAR2NUM(*(str + i));
	i++;
  }
  i++;
  i++;
 8026af8:	3302      	adds	r3, #2
 8026afa:	f88d 2009 	strb.w	r2, [sp, #9]
 8026afe:	b2db      	uxtb	r3, r3
	
  /* Get hours */
  tmp.hours = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026b00:	2200      	movs	r2, #0
	tmp.hours = tmp.hours * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026b02:	250a      	movs	r5, #10
  i++;
  i++;
	
  /* Get hours */
  tmp.hours = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026b04:	e006      	b.n	8026b14 <RTC_SetProfTime+0x8c>
	tmp.hours = tmp.hours * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026b06:	fb05 1202 	mla	r2, r5, r2, r1
 8026b0a:	3a30      	subs	r2, #48	; 0x30
	i++;
 8026b0c:	3301      	adds	r3, #1
  i++;
	
  /* Get hours */
  tmp.hours = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
	tmp.hours = tmp.hours * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026b0e:	f002 02ff 	and.w	r2, r2, #255	; 0xff
	i++;
 8026b12:	b2db      	uxtb	r3, r3
  i++;
  i++;
	
  /* Get hours */
  tmp.hours = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026b14:	5cc1      	ldrb	r1, [r0, r3]
 8026b16:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 8026b1a:	2c09      	cmp	r4, #9
 8026b1c:	d9f3      	bls.n	8026b06 <RTC_SetProfTime+0x7e>
	tmp.hours = tmp.hours * 10 + TM_RTC_CHAR2NUM(*(str + i));
	i++;
  }
  i++;
 8026b1e:	3301      	adds	r3, #1
 8026b20:	f88d 2005 	strb.w	r2, [sp, #5]
 8026b24:	b2db      	uxtb	r3, r3
	
  /* Get minutes */
  tmp.minutes = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026b26:	2200      	movs	r2, #0
	tmp.minutes = tmp.minutes * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026b28:	250a      	movs	r5, #10
  }
  i++;
	
  /* Get minutes */
  tmp.minutes = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026b2a:	e006      	b.n	8026b3a <RTC_SetProfTime+0xb2>
	tmp.minutes = tmp.minutes * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026b2c:	fb05 1202 	mla	r2, r5, r2, r1
 8026b30:	3a30      	subs	r2, #48	; 0x30
	i++;
 8026b32:	3301      	adds	r3, #1
  i++;
	
  /* Get minutes */
  tmp.minutes = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
	tmp.minutes = tmp.minutes * 10 + TM_RTC_CHAR2NUM(*(str + i));
 8026b34:	f002 02ff 	and.w	r2, r2, #255	; 0xff
	i++;
 8026b38:	b2db      	uxtb	r3, r3
  }
  i++;
	
  /* Get minutes */
  tmp.minutes = 0;
  while (TM_RTC_CHARISNUM(*(str + i))) {
 8026b3a:	5cc1      	ldrb	r1, [r0, r3]
 8026b3c:	f1a1 0430 	sub.w	r4, r1, #48	; 0x30
 8026b40:	2c09      	cmp	r4, #9
 8026b42:	d9f3      	bls.n	8026b2c <RTC_SetProfTime+0xa4>
	i++;
  }
  i++;
	
  /* Get seconds */
  tmp.seconds = 0;
 8026b44:	2300      	movs	r3, #0
 8026b46:	f88d 3000 	strb.w	r3, [sp]
	
  /* У�танавливаем +1 дл� профилактики */
  tmp.year += 1;
 8026b4a:	f89d 3009 	ldrb.w	r3, [sp, #9]
 8026b4e:	f88d 2004 	strb.w	r2, [sp, #4]
 8026b52:	3301      	adds	r3, #1
  unixTime = TM_RTC_GetUnixTimeStamp(&tmp);  
 8026b54:	4668      	mov	r0, sp
	
  /* Get seconds */
  tmp.seconds = 0;
	
  /* У�танавливаем +1 дл� профилактики */
  tmp.year += 1;
 8026b56:	f88d 3009 	strb.w	r3, [sp, #9]
  unixTime = TM_RTC_GetUnixTimeStamp(&tmp);  
 8026b5a:	f7ff fdd1 	bl	8026700 <TM_RTC_GetUnixTimeStamp>
	if (location > 18) {
		return;
	}
	
	/* Write data to backup register */
	*(uint32_t *)((&RTC->BKP0R) + 4 * location) = value;
 8026b5e:	4b02      	ldr	r3, [pc, #8]	; (8026b68 <RTC_SetProfTime+0xe0>)
 8026b60:	6018      	str	r0, [r3, #0]
	
  /* У�танавливаем +1 дл� профилактики */
  tmp.year += 1;
  unixTime = TM_RTC_GetUnixTimeStamp(&tmp);  
  TM_RTC_WriteBackupRegister(RTC_BKP_DR0, unixTime);
 8026b62:	b005      	add	sp, #20
 8026b64:	bd30      	pop	{r4, r5, pc}
 8026b66:	bf00      	nop
 8026b68:	40002850 	.word	0x40002850

08026b6c <spi_tx_rx>:


//static TN_MUTEX spi_mutex;

static uint8_t spi_tx_rx(uint8_t byte) {
	while (!(SPI2->SR & SPI_SR_TXE)) {}
 8026b6c:	4907      	ldr	r1, [pc, #28]	; (8026b8c <spi_tx_rx+0x20>)
 8026b6e:	890a      	ldrh	r2, [r1, #8]
 8026b70:	4b06      	ldr	r3, [pc, #24]	; (8026b8c <spi_tx_rx+0x20>)
 8026b72:	f002 0202 	and.w	r2, r2, #2
 8026b76:	b292      	uxth	r2, r2
 8026b78:	2a00      	cmp	r2, #0
 8026b7a:	d0f8      	beq.n	8026b6e <spi_tx_rx+0x2>
	SPI2->DR = byte;
 8026b7c:	8198      	strh	r0, [r3, #12]
		
	while (!(SPI2->SR & SPI_SR_RXNE)) {}
 8026b7e:	891a      	ldrh	r2, [r3, #8]
 8026b80:	07d2      	lsls	r2, r2, #31
 8026b82:	d5fc      	bpl.n	8026b7e <spi_tx_rx+0x12>
	return SPI2->DR;
 8026b84:	4b01      	ldr	r3, [pc, #4]	; (8026b8c <spi_tx_rx+0x20>)
 8026b86:	8998      	ldrh	r0, [r3, #12]
}
 8026b88:	b2c0      	uxtb	r0, r0
 8026b8a:	4770      	bx	lr
 8026b8c:	40003800 	.word	0x40003800

08026b90 <send_addr>:
		status = spi_tx_rx(0);
	} while (status & SR_WIP);
	SPI_FLASH_CS_H();
}

static inline void send_addr(int addr) {
 8026b90:	b510      	push	{r4, lr}
 8026b92:	4604      	mov	r4, r0
	spi_tx_rx((addr >> 16) & 0xFF);
 8026b94:	f3c0 4007 	ubfx	r0, r0, #16, #8
 8026b98:	f7ff ffe8 	bl	8026b6c <spi_tx_rx>
	spi_tx_rx((addr >> 8) & 0xFF);
 8026b9c:	f3c4 2007 	ubfx	r0, r4, #8, #8
 8026ba0:	f7ff ffe4 	bl	8026b6c <spi_tx_rx>
	spi_tx_rx(addr & 0xFF);
 8026ba4:	b2e0      	uxtb	r0, r4
}
 8026ba6:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
}

static inline void send_addr(int addr) {
	spi_tx_rx((addr >> 16) & 0xFF);
	spi_tx_rx((addr >> 8) & 0xFF);
	spi_tx_rx(addr & 0xFF);
 8026baa:	f7ff bfdf 	b.w	8026b6c <spi_tx_rx>

08026bae <spi_flash_read_sfdp>:
}

static int spi_flash_read_sfdp(int addr, void *buf, size_t len) {
 8026bae:	b570      	push	{r4, r5, r6, lr}
 8026bb0:	4605      	mov	r5, r0
 8026bb2:	460c      	mov	r4, r1
    uint8_t* foo = (uint8_t *)buf;
    SPI_FLASH_CS_L();
 8026bb4:	2005      	movs	r0, #5
 8026bb6:	2100      	movs	r1, #0
	spi_tx_rx((addr >> 16) & 0xFF);
	spi_tx_rx((addr >> 8) & 0xFF);
	spi_tx_rx(addr & 0xFF);
}

static int spi_flash_read_sfdp(int addr, void *buf, size_t len) {
 8026bb8:	4616      	mov	r6, r2
    uint8_t* foo = (uint8_t *)buf;
    SPI_FLASH_CS_L();
 8026bba:	f7ff fb5b 	bl	8026274 <gpio_set>
	spi_tx_rx(CMD_RDSFDP);
 8026bbe:	205a      	movs	r0, #90	; 0x5a
 8026bc0:	f7ff ffd4 	bl	8026b6c <spi_tx_rx>
	send_addr(addr);
 8026bc4:	4628      	mov	r0, r5
 8026bc6:	f7ff ffe3 	bl	8026b90 <send_addr>
	spi_tx_rx(0);
 8026bca:	2000      	movs	r0, #0
 8026bcc:	f7ff ffce 	bl	8026b6c <spi_tx_rx>
	spi_tx_rx((addr >> 16) & 0xFF);
	spi_tx_rx((addr >> 8) & 0xFF);
	spi_tx_rx(addr & 0xFF);
}

static int spi_flash_read_sfdp(int addr, void *buf, size_t len) {
 8026bd0:	19a6      	adds	r6, r4, r6
    uint8_t* foo = (uint8_t *)buf;
    SPI_FLASH_CS_L();
	spi_tx_rx(CMD_RDSFDP);
	send_addr(addr);
	spi_tx_rx(0);
	while (len--)
 8026bd2:	e004      	b.n	8026bde <spi_flash_read_sfdp+0x30>
		//*((uint8_t *)buf++) = spi_tx_rx(0);
      *(foo++) = spi_tx_rx(0);
 8026bd4:	2000      	movs	r0, #0
 8026bd6:	f7ff ffc9 	bl	8026b6c <spi_tx_rx>
 8026bda:	f804 0b01 	strb.w	r0, [r4], #1
    uint8_t* foo = (uint8_t *)buf;
    SPI_FLASH_CS_L();
	spi_tx_rx(CMD_RDSFDP);
	send_addr(addr);
	spi_tx_rx(0);
	while (len--)
 8026bde:	42b4      	cmp	r4, r6
 8026be0:	d1f8      	bne.n	8026bd4 <spi_flash_read_sfdp+0x26>
		//*((uint8_t *)buf++) = spi_tx_rx(0);
      *(foo++) = spi_tx_rx(0);
    SPI_FLASH_CS_H();
 8026be2:	2005      	movs	r0, #5
 8026be4:	2101      	movs	r1, #1
 8026be6:	f7ff fb45 	bl	8026274 <gpio_set>
	return 0;
}
 8026bea:	2000      	movs	r0, #0
 8026bec:	bd70      	pop	{r4, r5, r6, pc}

08026bee <wait_write_enable>:
spi_flash_desc_t spi_flash_desc;

static inline void wait_write_enable(void) {
	uint8_t status;
//	spi_cs_down();
	SPI_FLASH_CS_L();
 8026bee:	2005      	movs	r0, #5
#define SR_WEL	(1 << 1)
#define SR_SRWD	(1 << 7)

spi_flash_desc_t spi_flash_desc;

static inline void wait_write_enable(void) {
 8026bf0:	b508      	push	{r3, lr}
	uint8_t status;
//	spi_cs_down();
	SPI_FLASH_CS_L();
 8026bf2:	2100      	movs	r1, #0
 8026bf4:	f7ff fb3e 	bl	8026274 <gpio_set>
	spi_tx_rx(CMD_RDSR);
 8026bf8:	2005      	movs	r0, #5
 8026bfa:	f7ff ffb7 	bl	8026b6c <spi_tx_rx>
	do {
		status = spi_tx_rx(0);
 8026bfe:	2000      	movs	r0, #0
 8026c00:	f7ff ffb4 	bl	8026b6c <spi_tx_rx>
	} while (!(status & SR_WEL));
 8026c04:	f000 0002 	and.w	r0, r0, #2
 8026c08:	b2c0      	uxtb	r0, r0
 8026c0a:	2800      	cmp	r0, #0
 8026c0c:	d0f7      	beq.n	8026bfe <wait_write_enable+0x10>
//	spi_cs_up();
	SPI_FLASH_CS_H();
 8026c0e:	2005      	movs	r0, #5
 8026c10:	2101      	movs	r1, #1
}
 8026c12:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
	spi_tx_rx(CMD_RDSR);
	do {
		status = spi_tx_rx(0);
	} while (!(status & SR_WEL));
//	spi_cs_up();
	SPI_FLASH_CS_H();
 8026c16:	f7ff bb2d 	b.w	8026274 <gpio_set>

08026c1a <wait_write_end>:
}

static inline void wait_write_end(void) {
	uint8_t status;
	SPI_FLASH_CS_L();
 8026c1a:	2005      	movs	r0, #5
	} while (!(status & SR_WEL));
//	spi_cs_up();
	SPI_FLASH_CS_H();
}

static inline void wait_write_end(void) {
 8026c1c:	b508      	push	{r3, lr}
	uint8_t status;
	SPI_FLASH_CS_L();
 8026c1e:	2100      	movs	r1, #0
 8026c20:	f7ff fb28 	bl	8026274 <gpio_set>
	spi_tx_rx(CMD_RDSR);
 8026c24:	2005      	movs	r0, #5
 8026c26:	f7ff ffa1 	bl	8026b6c <spi_tx_rx>
	do {
		status = spi_tx_rx(0);
 8026c2a:	2000      	movs	r0, #0
 8026c2c:	f7ff ff9e 	bl	8026b6c <spi_tx_rx>
	} while (status & SR_WIP);
 8026c30:	07c1      	lsls	r1, r0, #31
 8026c32:	d4fa      	bmi.n	8026c2a <wait_write_end+0x10>
	SPI_FLASH_CS_H();
 8026c34:	2005      	movs	r0, #5
 8026c36:	2101      	movs	r1, #1
}
 8026c38:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
	SPI_FLASH_CS_L();
	spi_tx_rx(CMD_RDSR);
	do {
		status = spi_tx_rx(0);
	} while (status & SR_WIP);
	SPI_FLASH_CS_H();
 8026c3c:	f7ff bb1a 	b.w	8026274 <gpio_set>

08026c40 <spi_flash_read>:
      *(foo++) = spi_tx_rx(0);
    SPI_FLASH_CS_H();
	return 0;
}

ssize_t spi_flash_read(int addr, void *buf, size_t len, uint32_t timeout) {
 8026c40:	b570      	push	{r4, r5, r6, lr}
 8026c42:	4605      	mov	r5, r0
 8026c44:	460c      	mov	r4, r1
	ssize_t ret = 0;
//	ret = tn_mutex_lock(&spi_mutex, timeout);
//	if (ret != TERR_NO_ERR)
//		return ret;

	SPI_FLASH_CS_L();
 8026c46:	2005      	movs	r0, #5
 8026c48:	2100      	movs	r1, #0
      *(foo++) = spi_tx_rx(0);
    SPI_FLASH_CS_H();
	return 0;
}

ssize_t spi_flash_read(int addr, void *buf, size_t len, uint32_t timeout) {
 8026c4a:	4616      	mov	r6, r2
	ssize_t ret = 0;
//	ret = tn_mutex_lock(&spi_mutex, timeout);
//	if (ret != TERR_NO_ERR)
//		return ret;

	SPI_FLASH_CS_L();
 8026c4c:	f7ff fb12 	bl	8026274 <gpio_set>
	spi_tx_rx(CMD_READ);
 8026c50:	2003      	movs	r0, #3
 8026c52:	f7ff ff8b 	bl	8026b6c <spi_tx_rx>
	send_addr(addr);
 8026c56:	4628      	mov	r0, r5
 8026c58:	f7ff ff9a 	bl	8026b90 <send_addr>
      *(foo++) = spi_tx_rx(0);
    SPI_FLASH_CS_H();
	return 0;
}

ssize_t spi_flash_read(int addr, void *buf, size_t len, uint32_t timeout) {
 8026c5c:	19a6      	adds	r6, r4, r6
//		return ret;

	SPI_FLASH_CS_L();
	spi_tx_rx(CMD_READ);
	send_addr(addr);
	while (len--)
 8026c5e:	e004      	b.n	8026c6a <spi_flash_read+0x2a>
		//*((uint8_t *)buf++) = spi_tx_rx(0);
        *(foo++) = spi_tx_rx(0);
 8026c60:	2000      	movs	r0, #0
 8026c62:	f7ff ff83 	bl	8026b6c <spi_tx_rx>
 8026c66:	f804 0b01 	strb.w	r0, [r4], #1
//		return ret;

	SPI_FLASH_CS_L();
	spi_tx_rx(CMD_READ);
	send_addr(addr);
	while (len--)
 8026c6a:	42b4      	cmp	r4, r6
 8026c6c:	d1f8      	bne.n	8026c60 <spi_flash_read+0x20>
		//*((uint8_t *)buf++) = spi_tx_rx(0);
        *(foo++) = spi_tx_rx(0);
	SPI_FLASH_CS_H();
 8026c6e:	2005      	movs	r0, #5
 8026c70:	2101      	movs	r1, #1
 8026c72:	f7ff faff 	bl	8026274 <gpio_set>
//	tn_mutex_unlock(&spi_mutex);
	return len;
}
 8026c76:	f04f 30ff 	mov.w	r0, #4294967295
 8026c7a:	bd70      	pop	{r4, r5, r6, pc}

08026c7c <spi_flash_pp>:
//	ret = tn_mutex_lock(&spi_mutex, timeout);
//	if (ret != TERR_NO_ERR)
//		return ret;
	// don't allow page wrapping
	ssize_t ret = 0;
	if ((addr & 0xFF) + len > 0xFF)
 8026c7c:	b2c3      	uxtb	r3, r0
	return len;
}

#define TIMEOUT 10000

uint16_t spi_flash_pp(int addr, const void *buf, size_t len, uint32_t timeout) {
 8026c7e:	b570      	push	{r4, r5, r6, lr}
 8026c80:	4614      	mov	r4, r2
//	ret = tn_mutex_lock(&spi_mutex, timeout);
//	if (ret != TERR_NO_ERR)
//		return ret;
	// don't allow page wrapping
	ssize_t ret = 0;
	if ((addr & 0xFF) + len > 0xFF)
 8026c82:	18d2      	adds	r2, r2, r3
 8026c84:	2aff      	cmp	r2, #255	; 0xff
	    len = 0x100 - (addr & 0xFF);
 8026c86:	bf88      	it	hi
 8026c88:	f5c3 7480 	rsbhi	r4, r3, #256	; 0x100
	return len;
}

#define TIMEOUT 10000

uint16_t spi_flash_pp(int addr, const void *buf, size_t len, uint32_t timeout) {
 8026c8c:	4606      	mov	r6, r0
 8026c8e:	460d      	mov	r5, r1
	ssize_t ret = 0;
	if ((addr & 0xFF) + len > 0xFF)
	    len = 0x100 - (addr & 0xFF);
	ret = len;

	SPI_FLASH_CS_L();
 8026c90:	2005      	movs	r0, #5
 8026c92:	2100      	movs	r1, #0
 8026c94:	f7ff faee 	bl	8026274 <gpio_set>
	spi_tx_rx(CMD_WREN);
 8026c98:	2006      	movs	r0, #6
 8026c9a:	f7ff ff67 	bl	8026b6c <spi_tx_rx>
	SPI_FLASH_CS_H();
 8026c9e:	2005      	movs	r0, #5
 8026ca0:	2101      	movs	r1, #1
 8026ca2:	f7ff fae7 	bl	8026274 <gpio_set>

	wait_write_enable();
 8026ca6:	f7ff ffa2 	bl	8026bee <wait_write_enable>

	SPI_FLASH_CS_L();
 8026caa:	2100      	movs	r1, #0
 8026cac:	2005      	movs	r0, #5
 8026cae:	f7ff fae1 	bl	8026274 <gpio_set>
	spi_tx_rx(CMD_PP);
 8026cb2:	2002      	movs	r0, #2
 8026cb4:	f7ff ff5a 	bl	8026b6c <spi_tx_rx>
	send_addr(addr);
 8026cb8:	4630      	mov	r0, r6
 8026cba:	f7ff ff69 	bl	8026b90 <send_addr>
	return len;
}

#define TIMEOUT 10000

uint16_t spi_flash_pp(int addr, const void *buf, size_t len, uint32_t timeout) {
 8026cbe:	192e      	adds	r6, r5, r4
	wait_write_enable();

	SPI_FLASH_CS_L();
	spi_tx_rx(CMD_PP);
	send_addr(addr);
	while (len--)
 8026cc0:	e003      	b.n	8026cca <spi_flash_pp+0x4e>
	    //spi_tx_rx(*((uint8_t *)buf++));
        spi_tx_rx(*(foo++));
 8026cc2:	f815 0b01 	ldrb.w	r0, [r5], #1
 8026cc6:	f7ff ff51 	bl	8026b6c <spi_tx_rx>
	wait_write_enable();

	SPI_FLASH_CS_L();
	spi_tx_rx(CMD_PP);
	send_addr(addr);
	while (len--)
 8026cca:	42b5      	cmp	r5, r6
 8026ccc:	d1f9      	bne.n	8026cc2 <spi_flash_pp+0x46>
	    //spi_tx_rx(*((uint8_t *)buf++));
        spi_tx_rx(*(foo++));
	SPI_FLASH_CS_H();
 8026cce:	2005      	movs	r0, #5
 8026cd0:	2101      	movs	r1, #1
 8026cd2:	f7ff facf 	bl	8026274 <gpio_set>

	wait_write_end();
 8026cd6:	f7ff ffa0 	bl	8026c1a <wait_write_end>

//	tn_mutex_unlock(&spi_mutex);
	return ret;
}
 8026cda:	b2a0      	uxth	r0, r4
 8026cdc:	bd70      	pop	{r4, r5, r6, pc}

08026cde <spi_flash_write>:

ssize_t spi_flash_write(int addr, const void *buf, size_t len, uint32_t timeout) {
 8026cde:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 8026ce0:	4607      	mov	r7, r0
 8026ce2:	460e      	mov	r6, r1
 8026ce4:	4615      	mov	r5, r2
    uint8_t* foo = (uint8_t *)buf;
	int ret = 0, offset = 0;
 8026ce6:	2400      	movs	r4, #0
	do {
	    //ret = spi_flash_pp(addr + offset, buf + offset, len - offset, 0);
        ret = spi_flash_pp(addr + offset, foo + offset, len - offset, 0);
 8026ce8:	1938      	adds	r0, r7, r4
 8026cea:	1931      	adds	r1, r6, r4
 8026cec:	1b2a      	subs	r2, r5, r4
 8026cee:	2300      	movs	r3, #0
 8026cf0:	f7ff ffc4 	bl	8026c7c <spi_flash_pp>
	    offset += ret;
 8026cf4:	1824      	adds	r4, r4, r0
	} while (len - offset);
 8026cf6:	42a5      	cmp	r5, r4
 8026cf8:	d1f6      	bne.n	8026ce8 <spi_flash_write+0xa>
	return 0;
}
 8026cfa:	2000      	movs	r0, #0
 8026cfc:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}

08026cfe <spi_flash_erase_sector>:

	wait_write_end();
	return 0;
}

int spi_flash_erase_sector(int addr, uint32_t timeout) {
 8026cfe:	b510      	push	{r4, lr}
	int ret = 0;
//	ret = tn_mutex_lock(&spi_mutex, timeout);
//	if (ret != TERR_NO_ERR)
//		return ret;

	SPI_FLASH_CS_L();
 8026d00:	2100      	movs	r1, #0

	wait_write_end();
	return 0;
}

int spi_flash_erase_sector(int addr, uint32_t timeout) {
 8026d02:	4604      	mov	r4, r0
	int ret = 0;
//	ret = tn_mutex_lock(&spi_mutex, timeout);
//	if (ret != TERR_NO_ERR)
//		return ret;

	SPI_FLASH_CS_L();
 8026d04:	2005      	movs	r0, #5
 8026d06:	f7ff fab5 	bl	8026274 <gpio_set>
	spi_tx_rx(CMD_WREN);
 8026d0a:	2006      	movs	r0, #6
 8026d0c:	f7ff ff2e 	bl	8026b6c <spi_tx_rx>
	SPI_FLASH_CS_H();
 8026d10:	2005      	movs	r0, #5
 8026d12:	2101      	movs	r1, #1
 8026d14:	f7ff faae 	bl	8026274 <gpio_set>

	wait_write_enable();
 8026d18:	f7ff ff69 	bl	8026bee <wait_write_enable>

	SPI_FLASH_CS_L();
 8026d1c:	2100      	movs	r1, #0
 8026d1e:	2005      	movs	r0, #5
 8026d20:	f7ff faa8 	bl	8026274 <gpio_set>
	spi_tx_rx(CMD_SE);
 8026d24:	2020      	movs	r0, #32
 8026d26:	f7ff ff21 	bl	8026b6c <spi_tx_rx>
	send_addr(addr);
 8026d2a:	4620      	mov	r0, r4
 8026d2c:	f7ff ff30 	bl	8026b90 <send_addr>
	SPI_FLASH_CS_H();
 8026d30:	2005      	movs	r0, #5
 8026d32:	2101      	movs	r1, #1
 8026d34:	f7ff fa9e 	bl	8026274 <gpio_set>

	wait_write_end();
 8026d38:	f7ff ff6f 	bl	8026c1a <wait_write_end>

//	tn_mutex_unlock(&spi_mutex);
	return 0;
}
 8026d3c:	2000      	movs	r0, #0
 8026d3e:	bd10      	pop	{r4, pc}

08026d40 <spi_flash_init>:

bool spi_flash_init(void) {
 8026d40:	b530      	push	{r4, r5, lr}
	uint32_t i, ptable, bitsize = 0;
	uint8_t tmp[4];

	spi_flash_desc.present = false;
 8026d42:	4b48      	ldr	r3, [pc, #288]	; (8026e64 <spi_flash_init+0x124>)
//	tn_mutex_unlock(&spi_mutex);
	return 0;
}

bool spi_flash_init(void) {
	uint32_t i, ptable, bitsize = 0;
 8026d44:	2400      	movs	r4, #0

//	tn_mutex_unlock(&spi_mutex);
	return 0;
}

bool spi_flash_init(void) {
 8026d46:	b085      	sub	sp, #20
	uint32_t i, ptable, bitsize = 0;
	uint8_t tmp[4];

	spi_flash_desc.present = false;
 8026d48:	701c      	strb	r4, [r3, #0]

static void spi_init_(void) {
//	tn_mutex_create(&spi_mutex, TN_MUTEX_ATTR_INHERIT, 0);
	//tn_sem_create(&xact.ready, 0, 1);

	RCC->APB1ENR |= RCC_APB1ENR_SPI2EN;
 8026d4a:	4b47      	ldr	r3, [pc, #284]	; (8026e68 <spi_flash_init+0x128>)
//	tn_mutex_unlock(&spi_mutex);
	return 0;
}

bool spi_flash_init(void) {
	uint32_t i, ptable, bitsize = 0;
 8026d4c:	9402      	str	r4, [sp, #8]

static void spi_init_(void) {
//	tn_mutex_create(&spi_mutex, TN_MUTEX_ATTR_INHERIT, 0);
	//tn_sem_create(&xact.ready, 0, 1);

	RCC->APB1ENR |= RCC_APB1ENR_SPI2EN;
 8026d4e:	6c1a      	ldr	r2, [r3, #64]	; 0x40
 8026d50:	f442 4280 	orr.w	r2, r2, #16384	; 0x4000
 8026d54:	641a      	str	r2, [r3, #64]	; 0x40
	RCC->APB1RSTR |= RCC_APB1RSTR_SPI2RST;
 8026d56:	6a1a      	ldr	r2, [r3, #32]
 8026d58:	f442 4200 	orr.w	r2, r2, #32768	; 0x8000
 8026d5c:	621a      	str	r2, [r3, #32]
	RCC->APB1RSTR &= ~RCC_APB1RSTR_SPI2RST;
 8026d5e:	6a1a      	ldr	r2, [r3, #32]
 8026d60:	f422 4200 	bic.w	r2, r2, #32768	; 0x8000
 8026d64:	621a      	str	r2, [r3, #32]

	SPI2->CR1 &= ~SPI_CR1_SPE;
 8026d66:	f5a3 3300 	sub.w	r3, r3, #131072	; 0x20000
	spi_flash_desc.present = false;

	spi_init_();

	// check SFDP magic
	spi_flash_read_sfdp(0, tmp, 4);
 8026d6a:	ad03      	add	r5, sp, #12

	RCC->APB1ENR |= RCC_APB1ENR_SPI2EN;
	RCC->APB1RSTR |= RCC_APB1RSTR_SPI2RST;
	RCC->APB1RSTR &= ~RCC_APB1RSTR_SPI2RST;

	SPI2->CR1 &= ~SPI_CR1_SPE;
 8026d6c:	881a      	ldrh	r2, [r3, #0]
 8026d6e:	f022 0240 	bic.w	r2, r2, #64	; 0x40
 8026d72:	0412      	lsls	r2, r2, #16
 8026d74:	0c12      	lsrs	r2, r2, #16
 8026d76:	801a      	strh	r2, [r3, #0]
	//SPI2->CR1 = SPI_CR1_MSTR | SPI_CR1_BR_1 | SPI_CR1_SSM | SPI_CR1_SSI;
	SPI2->CR1 = SPI_CR1_MSTR | SPI_CR1_SSM | SPI_CR1_SSI;
 8026d78:	f44f 7241 	mov.w	r2, #772	; 0x304
 8026d7c:	801a      	strh	r2, [r3, #0]
	SPI2->CR2 = 0;//SPI_CR2_SSOE;
 8026d7e:	809c      	strh	r4, [r3, #4]
	SPI2->CR1 |= SPI_CR1_SPE;
 8026d80:	881a      	ldrh	r2, [r3, #0]
 8026d82:	b292      	uxth	r2, r2
 8026d84:	f042 0240 	orr.w	r2, r2, #64	; 0x40
 8026d88:	801a      	strh	r2, [r3, #0]
	spi_flash_desc.present = false;

	spi_init_();

	// check SFDP magic
	spi_flash_read_sfdp(0, tmp, 4);
 8026d8a:	4620      	mov	r0, r4
 8026d8c:	2204      	movs	r2, #4
 8026d8e:	4629      	mov	r1, r5
 8026d90:	f7ff ff0d 	bl	8026bae <spi_flash_read_sfdp>
	if (!(tmp[0] == 0x53 && tmp[1] == 0x46 && 
 8026d94:	f89d 300c 	ldrb.w	r3, [sp, #12]
 8026d98:	2b53      	cmp	r3, #83	; 0x53
 8026d9a:	d001      	beq.n	8026da0 <spi_flash_init+0x60>
		tmp[2] == 0x44 && tmp[3] == 0x50))
		return 0;
 8026d9c:	2000      	movs	r0, #0
 8026d9e:	e05e      	b.n	8026e5e <spi_flash_init+0x11e>

	spi_init_();

	// check SFDP magic
	spi_flash_read_sfdp(0, tmp, 4);
	if (!(tmp[0] == 0x53 && tmp[1] == 0x46 && 
 8026da0:	f89d 300d 	ldrb.w	r3, [sp, #13]
 8026da4:	2b46      	cmp	r3, #70	; 0x46
 8026da6:	d1f9      	bne.n	8026d9c <spi_flash_init+0x5c>
 8026da8:	f89d 300e 	ldrb.w	r3, [sp, #14]
 8026dac:	2b44      	cmp	r3, #68	; 0x44
 8026dae:	d1f5      	bne.n	8026d9c <spi_flash_init+0x5c>
 8026db0:	f89d 300f 	ldrb.w	r3, [sp, #15]
 8026db4:	2b50      	cmp	r3, #80	; 0x50
 8026db6:	d1f1      	bne.n	8026d9c <spi_flash_init+0x5c>
		tmp[2] == 0x44 && tmp[3] == 0x50))
		return 0;

	// get parameter headers count
	spi_flash_read_sfdp(0x06, tmp, 1);
 8026db8:	2006      	movs	r0, #6
 8026dba:	4629      	mov	r1, r5
 8026dbc:	2201      	movs	r2, #1
 8026dbe:	f7ff fef6 	bl	8026bae <spi_flash_read_sfdp>

	// find first jedec pheader (with ID == 0)
	for (ptable = 0x08, i = 0; i <= tmp[0]; i++, ptable += 8) {
 8026dc2:	2308      	movs	r3, #8
 8026dc4:	e01a      	b.n	8026dfc <spi_flash_init+0xbc>
		spi_flash_read_sfdp(ptable, tmp, 1);
 8026dc6:	9801      	ldr	r0, [sp, #4]
 8026dc8:	4629      	mov	r1, r5
 8026dca:	2201      	movs	r2, #1
 8026dcc:	f7ff feef 	bl	8026bae <spi_flash_read_sfdp>
		if (tmp[0] == 0)
 8026dd0:	f89d 300c 	ldrb.w	r3, [sp, #12]
 8026dd4:	b97b      	cbnz	r3, 8026df6 <spi_flash_init+0xb6>
			break;
	}

	// read ptable pointer from pheader
	spi_flash_read_sfdp(ptable + 4, &ptable, 3);
 8026dd6:	a904      	add	r1, sp, #16
 8026dd8:	2203      	movs	r2, #3
 8026dda:	f851 0d0c 	ldr.w	r0, [r1, #-12]!
 8026dde:	3004      	adds	r0, #4
 8026de0:	f7ff fee5 	bl	8026bae <spi_flash_read_sfdp>

	// get flash density (size in bits)
	if (spi_flash_read_sfdp(ptable + 4, &bitsize, 4) < 0 || !bitsize)
 8026de4:	9801      	ldr	r0, [sp, #4]
 8026de6:	2204      	movs	r2, #4
 8026de8:	3004      	adds	r0, #4
 8026dea:	a902      	add	r1, sp, #8
 8026dec:	f7ff fedf 	bl	8026bae <spi_flash_read_sfdp>
 8026df0:	2800      	cmp	r0, #0
 8026df2:	da09      	bge.n	8026e08 <spi_flash_init+0xc8>
 8026df4:	e7d2      	b.n	8026d9c <spi_flash_init+0x5c>

	// get parameter headers count
	spi_flash_read_sfdp(0x06, tmp, 1);

	// find first jedec pheader (with ID == 0)
	for (ptable = 0x08, i = 0; i <= tmp[0]; i++, ptable += 8) {
 8026df6:	9b01      	ldr	r3, [sp, #4]
 8026df8:	3401      	adds	r4, #1
 8026dfa:	3308      	adds	r3, #8
 8026dfc:	9301      	str	r3, [sp, #4]
 8026dfe:	f89d 300c 	ldrb.w	r3, [sp, #12]
 8026e02:	429c      	cmp	r4, r3
 8026e04:	d9df      	bls.n	8026dc6 <spi_flash_init+0x86>
 8026e06:	e7e6      	b.n	8026dd6 <spi_flash_init+0x96>

	// read ptable pointer from pheader
	spi_flash_read_sfdp(ptable + 4, &ptable, 3);

	// get flash density (size in bits)
	if (spi_flash_read_sfdp(ptable + 4, &bitsize, 4) < 0 || !bitsize)
 8026e08:	9b02      	ldr	r3, [sp, #8]
 8026e0a:	2b00      	cmp	r3, #0
 8026e0c:	d0c6      	beq.n	8026d9c <spi_flash_init+0x5c>
 8026e0e:	2400      	movs	r4, #0
		return 0;

	// find smallest available sector
	for (i = 0; i < 4; i++) {
		tmp[0] = 0;
 8026e10:	4625      	mov	r5, r4
		if (spi_flash_read_sfdp(ptable + 0x1C + i*2, &tmp, 2) >= 0 &&
 8026e12:	9801      	ldr	r0, [sp, #4]
	if (spi_flash_read_sfdp(ptable + 4, &bitsize, 4) < 0 || !bitsize)
		return 0;

	// find smallest available sector
	for (i = 0; i < 4; i++) {
		tmp[0] = 0;
 8026e14:	f88d 500c 	strb.w	r5, [sp, #12]
		if (spi_flash_read_sfdp(ptable + 0x1C + i*2, &tmp, 2) >= 0 &&
 8026e18:	301c      	adds	r0, #28
 8026e1a:	2202      	movs	r2, #2
 8026e1c:	1900      	adds	r0, r0, r4
 8026e1e:	a903      	add	r1, sp, #12
 8026e20:	f7ff fec5 	bl	8026bae <spi_flash_read_sfdp>
 8026e24:	2800      	cmp	r0, #0
 8026e26:	db11      	blt.n	8026e4c <spi_flash_init+0x10c>
				tmp[0]) {
 8026e28:	f89d 200c 	ldrb.w	r2, [sp, #12]
		return 0;

	// find smallest available sector
	for (i = 0; i < 4; i++) {
		tmp[0] = 0;
		if (spi_flash_read_sfdp(ptable + 0x1C + i*2, &tmp, 2) >= 0 &&
 8026e2c:	b172      	cbz	r2, 8026e4c <spi_flash_init+0x10c>
				tmp[0]) {
			spi_flash_desc.sector_size = 1 << tmp[0];
 8026e2e:	4b0d      	ldr	r3, [pc, #52]	; (8026e64 <spi_flash_init+0x124>)
 8026e30:	2101      	movs	r1, #1
 8026e32:	fa01 f102 	lsl.w	r1, r1, r2
 8026e36:	6059      	str	r1, [r3, #4]
			spi_flash_desc.sector_erase_op = tmp[1];
 8026e38:	f89d 100d 	ldrb.w	r1, [sp, #13]
 8026e3c:	7219      	strb	r1, [r3, #8]
			spi_flash_desc.sector_count = (bitsize + 1) >> (3 + tmp[0]);
 8026e3e:	9902      	ldr	r1, [sp, #8]
 8026e40:	3203      	adds	r2, #3
 8026e42:	3101      	adds	r1, #1
 8026e44:	fa21 f202 	lsr.w	r2, r1, r2
 8026e48:	815a      	strh	r2, [r3, #10]
			break;
 8026e4a:	e002      	b.n	8026e52 <spi_flash_init+0x112>
 8026e4c:	3402      	adds	r4, #2
	// get flash density (size in bits)
	if (spi_flash_read_sfdp(ptable + 4, &bitsize, 4) < 0 || !bitsize)
		return 0;

	// find smallest available sector
	for (i = 0; i < 4; i++) {
 8026e4e:	2c08      	cmp	r4, #8
 8026e50:	d1df      	bne.n	8026e12 <spi_flash_init+0xd2>
			spi_flash_desc.sector_erase_op = tmp[1];
			spi_flash_desc.sector_count = (bitsize + 1) >> (3 + tmp[0]);
			break;
		}
	}
	if (!spi_flash_desc.sector_size)
 8026e52:	4b04      	ldr	r3, [pc, #16]	; (8026e64 <spi_flash_init+0x124>)
 8026e54:	685a      	ldr	r2, [r3, #4]
 8026e56:	2a00      	cmp	r2, #0
 8026e58:	d0a0      	beq.n	8026d9c <spi_flash_init+0x5c>
		return 0;

	spi_flash_desc.present = true;
 8026e5a:	2001      	movs	r0, #1
 8026e5c:	7018      	strb	r0, [r3, #0]
    
    return 1;

}
 8026e5e:	b005      	add	sp, #20
 8026e60:	bd30      	pop	{r4, r5, pc}
 8026e62:	bf00      	nop
 8026e64:	2000c840 	.word	0x2000c840
 8026e68:	40023800 	.word	0x40023800

08026e6c <NVIC_EncodePriority.constprop.0>:
    \param [in]       SubPriority  Subpriority value (starting from 0).
    \return                        Encoded priority. Value can be used in the function \ref NVIC_SetPriority().
 */
__STATIC_INLINE uint32_t NVIC_EncodePriority (uint32_t PriorityGroup, uint32_t PreemptPriority, uint32_t SubPriority)
{
  uint32_t PriorityGroupTmp = (PriorityGroup & 0x07);          /* only values 0..7 are used          */
 8026e6c:	f000 0007 	and.w	r0, r0, #7
  uint32_t PreemptPriorityBits;
  uint32_t SubPriorityBits;

  PreemptPriorityBits = ((7 - PriorityGroupTmp) > __NVIC_PRIO_BITS) ? __NVIC_PRIO_BITS : 7 - PriorityGroupTmp;
 8026e70:	f1c0 0307 	rsb	r3, r0, #7
  SubPriorityBits     = ((PriorityGroupTmp + __NVIC_PRIO_BITS) < 7) ? 0 : PriorityGroupTmp - 7 + __NVIC_PRIO_BITS;
 8026e74:	1d02      	adds	r2, r0, #4
{
  uint32_t PriorityGroupTmp = (PriorityGroup & 0x07);          /* only values 0..7 are used          */
  uint32_t PreemptPriorityBits;
  uint32_t SubPriorityBits;

  PreemptPriorityBits = ((7 - PriorityGroupTmp) > __NVIC_PRIO_BITS) ? __NVIC_PRIO_BITS : 7 - PriorityGroupTmp;
 8026e76:	2b04      	cmp	r3, #4
 8026e78:	bf28      	it	cs
 8026e7a:	2304      	movcs	r3, #4
  SubPriorityBits     = ((PriorityGroupTmp + __NVIC_PRIO_BITS) < 7) ? 0 : PriorityGroupTmp - 7 + __NVIC_PRIO_BITS;
 8026e7c:	2a06      	cmp	r2, #6
 8026e7e:	d901      	bls.n	8026e84 <NVIC_EncodePriority.constprop.0+0x18>
 8026e80:	3803      	subs	r0, #3
 8026e82:	e000      	b.n	8026e86 <NVIC_EncodePriority.constprop.0+0x1a>
 8026e84:	2000      	movs	r0, #0

  return (
           ((PreemptPriority & ((1 << (PreemptPriorityBits)) - 1)) << SubPriorityBits) |
 8026e86:	2201      	movs	r2, #1
 8026e88:	fa02 f303 	lsl.w	r3, r2, r3
 8026e8c:	3b01      	subs	r3, #1
 8026e8e:	f003 0305 	and.w	r3, r3, #5
           ((SubPriority     & ((1 << (SubPriorityBits    )) - 1)))
         );
}
 8026e92:	fa03 f000 	lsl.w	r0, r3, r0
 8026e96:	4770      	bx	lr

08026e98 <uart_hw_init>:
uint32_t ups_tx_fifo[UPS_RBUF_SIZE];
SemaphoreHandle_t xSem_rx_buf;

USART_InitTypeDef USART_InitStructure;

void uart_hw_init(USART_TypeDef *uart, uint32_t baud, uint16_t wordlen, uint16_t parity, uint16_t stop) {
 8026e98:	b570      	push	{r4, r5, r6, lr}
	if (wordlen == 8)
		wordlen_tmp = USART_WordLength_8b;
	if (wordlen == 9)
		wordlen_tmp = USART_WordLength_9b;

	USART_InitStructure.USART_BaudRate = baud;
 8026e9a:	4d34      	ldr	r5, [pc, #208]	; (8026f6c <uart_hw_init+0xd4>)
uint32_t ups_tx_fifo[UPS_RBUF_SIZE];
SemaphoreHandle_t xSem_rx_buf;

USART_InitTypeDef USART_InitStructure;

void uart_hw_init(USART_TypeDef *uart, uint32_t baud, uint16_t wordlen, uint16_t parity, uint16_t stop) {
 8026e9c:	f8bd 6010 	ldrh.w	r6, [sp, #16]
		wordlen_tmp = USART_WordLength_9b;

	USART_InitStructure.USART_BaudRate = baud;
	USART_InitStructure.USART_WordLength = wordlen_tmp;
	USART_InitStructure.USART_StopBits = stop;
	USART_InitStructure.USART_Parity = parity;
 8026ea0:	812b      	strh	r3, [r5, #8]
void uart_hw_init(USART_TypeDef *uart, uint32_t baud, uint16_t wordlen, uint16_t parity, uint16_t stop) {
	uint16_t wordlen_tmp;

	if (wordlen == 8)
		wordlen_tmp = USART_WordLength_8b;
	if (wordlen == 9)
 8026ea2:	2a09      	cmp	r2, #9
 8026ea4:	bf0c      	ite	eq
 8026ea6:	f44f 5280 	moveq.w	r2, #4096	; 0x1000
 8026eaa:	2200      	movne	r2, #0
	USART_InitStructure.USART_BaudRate = baud;
	USART_InitStructure.USART_WordLength = wordlen_tmp;
	USART_InitStructure.USART_StopBits = stop;
	USART_InitStructure.USART_Parity = parity;
	USART_InitStructure.USART_HardwareFlowControl = USART_HardwareFlowControl_None;
	USART_InitStructure.USART_Mode = USART_Mode_Rx | USART_Mode_Tx;
 8026eac:	230c      	movs	r3, #12
	if (wordlen == 9)
		wordlen_tmp = USART_WordLength_9b;

	USART_InitStructure.USART_BaudRate = baud;
	USART_InitStructure.USART_WordLength = wordlen_tmp;
	USART_InitStructure.USART_StopBits = stop;
 8026eae:	80ee      	strh	r6, [r5, #6]
	USART_InitStructure.USART_Parity = parity;
	USART_InitStructure.USART_HardwareFlowControl = USART_HardwareFlowControl_None;
 8026eb0:	2600      	movs	r6, #0
uint32_t ups_tx_fifo[UPS_RBUF_SIZE];
SemaphoreHandle_t xSem_rx_buf;

USART_InitTypeDef USART_InitStructure;

void uart_hw_init(USART_TypeDef *uart, uint32_t baud, uint16_t wordlen, uint16_t parity, uint16_t stop) {
 8026eb2:	4604      	mov	r4, r0
	USART_InitStructure.USART_BaudRate = baud;
	USART_InitStructure.USART_WordLength = wordlen_tmp;
	USART_InitStructure.USART_StopBits = stop;
	USART_InitStructure.USART_Parity = parity;
	USART_InitStructure.USART_HardwareFlowControl = USART_HardwareFlowControl_None;
	USART_InitStructure.USART_Mode = USART_Mode_Rx | USART_Mode_Tx;
 8026eb4:	816b      	strh	r3, [r5, #10]
	if (wordlen == 8)
		wordlen_tmp = USART_WordLength_8b;
	if (wordlen == 9)
		wordlen_tmp = USART_WordLength_9b;

	USART_InitStructure.USART_BaudRate = baud;
 8026eb6:	6029      	str	r1, [r5, #0]
	USART_InitStructure.USART_WordLength = wordlen_tmp;
 8026eb8:	80aa      	strh	r2, [r5, #4]
	USART_InitStructure.USART_StopBits = stop;
	USART_InitStructure.USART_Parity = parity;
	USART_InitStructure.USART_HardwareFlowControl = USART_HardwareFlowControl_None;
 8026eba:	81ae      	strh	r6, [r5, #12]
	USART_InitStructure.USART_Mode = USART_Mode_Rx | USART_Mode_Tx;

	USART_DeInit(uart);
 8026ebc:	f7ff f80a 	bl	8025ed4 <USART_DeInit>

	if (uart == USART1) {
 8026ec0:	4b2b      	ldr	r3, [pc, #172]	; (8026f70 <uart_hw_init+0xd8>)
 8026ec2:	429c      	cmp	r4, r3
 8026ec4:	d111      	bne.n	8026eea <uart_hw_init+0x52>
		RCC->APB2ENR |= RCC_APB2Periph_USART1;
 8026ec6:	f503 3394 	add.w	r3, r3, #75776	; 0x12800
 8026eca:	6c5a      	ldr	r2, [r3, #68]	; 0x44
 8026ecc:	f042 0210 	orr.w	r2, r2, #16
 8026ed0:	645a      	str	r2, [r3, #68]	; 0x44

    \return                Priority grouping field (SCB->AIRCR [10:8] PRIGROUP field).
 */
__STATIC_INLINE uint32_t NVIC_GetPriorityGrouping(void)
{
  return ((SCB->AIRCR & SCB_AIRCR_PRIGROUP_Msk) >> SCB_AIRCR_PRIGROUP_Pos);   /* read priority grouping field */
 8026ed2:	4b28      	ldr	r3, [pc, #160]	; (8026f74 <uart_hw_init+0xdc>)
 8026ed4:	68d8      	ldr	r0, [r3, #12]
		NVIC_SetPriority(USART1_IRQn, NVIC_EncodePriority(NVIC_GetPriorityGrouping(), 0x05, 0));
 8026ed6:	f3c0 2002 	ubfx	r0, r0, #8, #3
 8026eda:	f7ff ffc7 	bl	8026e6c <NVIC_EncodePriority.constprop.0>
__STATIC_INLINE void NVIC_SetPriority(IRQn_Type IRQn, uint32_t priority)
{
  if(IRQn < 0) {
    SCB->SHP[((uint32_t)(IRQn) & 0xF)-4] = ((priority << (8 - __NVIC_PRIO_BITS)) & 0xff); } /* set Priority for Cortex-M  System Interrupts */
  else {
    NVIC->IP[(uint32_t)(IRQn)] = ((priority << (8 - __NVIC_PRIO_BITS)) & 0xff);    }        /* set Priority for device specific Interrupts  */
 8026ede:	4b26      	ldr	r3, [pc, #152]	; (8026f78 <uart_hw_init+0xe0>)
 8026ee0:	0100      	lsls	r0, r0, #4
 8026ee2:	f883 0325 	strb.w	r0, [r3, #805]	; 0x325
    \param [in]      IRQn  External interrupt number. Value cannot be negative.
 */
__STATIC_INLINE void NVIC_EnableIRQ(IRQn_Type IRQn)
{
/*  NVIC->ISER[((uint32_t)(IRQn) >> 5)] = (1 << ((uint32_t)(IRQn) & 0x1F));  enable interrupt */
  NVIC->ISER[(uint32_t)((int32_t)IRQn) >> 5] = (uint32_t)(1 << ((uint32_t)((int32_t)IRQn) & (uint32_t)0x1F)); /* enable interrupt */
 8026ee6:	2220      	movs	r2, #32
 8026ee8:	e028      	b.n	8026f3c <uart_hw_init+0xa4>
		USART_Cmd(USART1, ENABLE);
		USART_ITConfig(USART1, USART_IT_RXNE, ENABLE);
		USART_ITConfig(USART1, USART_IT_TXE, DISABLE);
	}

	if (uart == USART2) {
 8026eea:	4b24      	ldr	r3, [pc, #144]	; (8026f7c <uart_hw_init+0xe4>)
 8026eec:	429c      	cmp	r4, r3
 8026eee:	d111      	bne.n	8026f14 <uart_hw_init+0x7c>
		RCC->APB1ENR |= RCC_APB1Periph_USART2;
 8026ef0:	f503 33fa 	add.w	r3, r3, #128000	; 0x1f400
 8026ef4:	6c1a      	ldr	r2, [r3, #64]	; 0x40
 8026ef6:	f442 3200 	orr.w	r2, r2, #131072	; 0x20000
 8026efa:	641a      	str	r2, [r3, #64]	; 0x40

    \return                Priority grouping field (SCB->AIRCR [10:8] PRIGROUP field).
 */
__STATIC_INLINE uint32_t NVIC_GetPriorityGrouping(void)
{
  return ((SCB->AIRCR & SCB_AIRCR_PRIGROUP_Msk) >> SCB_AIRCR_PRIGROUP_Pos);   /* read priority grouping field */
 8026efc:	4b1d      	ldr	r3, [pc, #116]	; (8026f74 <uart_hw_init+0xdc>)
 8026efe:	68d8      	ldr	r0, [r3, #12]
		NVIC_SetPriority(USART2_IRQn, NVIC_EncodePriority(NVIC_GetPriorityGrouping(), 0x05, 0));
 8026f00:	f3c0 2002 	ubfx	r0, r0, #8, #3
 8026f04:	f7ff ffb2 	bl	8026e6c <NVIC_EncodePriority.constprop.0>
__STATIC_INLINE void NVIC_SetPriority(IRQn_Type IRQn, uint32_t priority)
{
  if(IRQn < 0) {
    SCB->SHP[((uint32_t)(IRQn) & 0xF)-4] = ((priority << (8 - __NVIC_PRIO_BITS)) & 0xff); } /* set Priority for Cortex-M  System Interrupts */
  else {
    NVIC->IP[(uint32_t)(IRQn)] = ((priority << (8 - __NVIC_PRIO_BITS)) & 0xff);    }        /* set Priority for device specific Interrupts  */
 8026f08:	4b1b      	ldr	r3, [pc, #108]	; (8026f78 <uart_hw_init+0xe0>)
 8026f0a:	0100      	lsls	r0, r0, #4
 8026f0c:	f883 0326 	strb.w	r0, [r3, #806]	; 0x326
    \param [in]      IRQn  External interrupt number. Value cannot be negative.
 */
__STATIC_INLINE void NVIC_EnableIRQ(IRQn_Type IRQn)
{
/*  NVIC->ISER[((uint32_t)(IRQn) >> 5)] = (1 << ((uint32_t)(IRQn) & 0x1F));  enable interrupt */
  NVIC->ISER[(uint32_t)((int32_t)IRQn) >> 5] = (uint32_t)(1 << ((uint32_t)((int32_t)IRQn) & (uint32_t)0x1F)); /* enable interrupt */
 8026f10:	2240      	movs	r2, #64	; 0x40
 8026f12:	e013      	b.n	8026f3c <uart_hw_init+0xa4>
		USART_Cmd(USART2, ENABLE);
		USART_ITConfig(USART2, USART_IT_RXNE, ENABLE);
		USART_ITConfig(USART2, USART_IT_TXE, DISABLE);
	}

    if (uart == USART3) {
 8026f14:	4b1a      	ldr	r3, [pc, #104]	; (8026f80 <uart_hw_init+0xe8>)
 8026f16:	429c      	cmp	r4, r3
 8026f18:	d127      	bne.n	8026f6a <uart_hw_init+0xd2>
        RCC->APB1ENR |= RCC_APB1Periph_USART3;
 8026f1a:	f503 33f8 	add.w	r3, r3, #126976	; 0x1f000
 8026f1e:	6c1a      	ldr	r2, [r3, #64]	; 0x40
 8026f20:	f442 2280 	orr.w	r2, r2, #262144	; 0x40000
 8026f24:	641a      	str	r2, [r3, #64]	; 0x40

    \return                Priority grouping field (SCB->AIRCR [10:8] PRIGROUP field).
 */
__STATIC_INLINE uint32_t NVIC_GetPriorityGrouping(void)
{
  return ((SCB->AIRCR & SCB_AIRCR_PRIGROUP_Msk) >> SCB_AIRCR_PRIGROUP_Pos);   /* read priority grouping field */
 8026f26:	4b13      	ldr	r3, [pc, #76]	; (8026f74 <uart_hw_init+0xdc>)
 8026f28:	68d8      	ldr	r0, [r3, #12]
        NVIC_SetPriority(USART3_IRQn, NVIC_EncodePriority(NVIC_GetPriorityGrouping(), 0x05, 0));
 8026f2a:	f3c0 2002 	ubfx	r0, r0, #8, #3
 8026f2e:	f7ff ff9d 	bl	8026e6c <NVIC_EncodePriority.constprop.0>
__STATIC_INLINE void NVIC_SetPriority(IRQn_Type IRQn, uint32_t priority)
{
  if(IRQn < 0) {
    SCB->SHP[((uint32_t)(IRQn) & 0xF)-4] = ((priority << (8 - __NVIC_PRIO_BITS)) & 0xff); } /* set Priority for Cortex-M  System Interrupts */
  else {
    NVIC->IP[(uint32_t)(IRQn)] = ((priority << (8 - __NVIC_PRIO_BITS)) & 0xff);    }        /* set Priority for device specific Interrupts  */
 8026f32:	4b11      	ldr	r3, [pc, #68]	; (8026f78 <uart_hw_init+0xe0>)
 8026f34:	0100      	lsls	r0, r0, #4
 8026f36:	f883 0327 	strb.w	r0, [r3, #807]	; 0x327
    \param [in]      IRQn  External interrupt number. Value cannot be negative.
 */
__STATIC_INLINE void NVIC_EnableIRQ(IRQn_Type IRQn)
{
/*  NVIC->ISER[((uint32_t)(IRQn) >> 5)] = (1 << ((uint32_t)(IRQn) & 0x1F));  enable interrupt */
  NVIC->ISER[(uint32_t)((int32_t)IRQn) >> 5] = (uint32_t)(1 << ((uint32_t)((int32_t)IRQn) & (uint32_t)0x1F)); /* enable interrupt */
 8026f3a:	2280      	movs	r2, #128	; 0x80
 8026f3c:	605a      	str	r2, [r3, #4]
        NVIC_EnableIRQ(USART3_IRQn);
        USART_Init(USART3, &USART_InitStructure);
 8026f3e:	4620      	mov	r0, r4
 8026f40:	4629      	mov	r1, r5
 8026f42:	f7ff f81b 	bl	8025f7c <USART_Init>
        USART_Cmd(USART3, ENABLE);
 8026f46:	4620      	mov	r0, r4
 8026f48:	2101      	movs	r1, #1
 8026f4a:	f7ff f871 	bl	8026030 <USART_Cmd>
    USART_ITConfig(USART3, USART_IT_RXNE, ENABLE);
 8026f4e:	4620      	mov	r0, r4
 8026f50:	2201      	movs	r2, #1
 8026f52:	f240 5125 	movw	r1, #1317	; 0x525
 8026f56:	f7ff f877 	bl	8026048 <USART_ITConfig>
    USART_ITConfig(USART3, USART_IT_TXE, DISABLE);
 8026f5a:	4620      	mov	r0, r4
 8026f5c:	f240 7127 	movw	r1, #1831	; 0x727
 8026f60:	4632      	mov	r2, r6
    }
}
 8026f62:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
        NVIC_SetPriority(USART3_IRQn, NVIC_EncodePriority(NVIC_GetPriorityGrouping(), 0x05, 0));
        NVIC_EnableIRQ(USART3_IRQn);
        USART_Init(USART3, &USART_InitStructure);
        USART_Cmd(USART3, ENABLE);
    USART_ITConfig(USART3, USART_IT_RXNE, ENABLE);
    USART_ITConfig(USART3, USART_IT_TXE, DISABLE);
 8026f66:	f7ff b86f 	b.w	8026048 <USART_ITConfig>
 8026f6a:	bd70      	pop	{r4, r5, r6, pc}
 8026f6c:	2000cb8c 	.word	0x2000cb8c
 8026f70:	40011000 	.word	0x40011000
 8026f74:	e000ed00 	.word	0xe000ed00
 8026f78:	e000e100 	.word	0xe000e100
 8026f7c:	40004400 	.word	0x40004400
 8026f80:	40004800 	.word	0x40004800

08026f84 <InitUSART>:
    }
}

void InitUSART(void) {
 8026f84:	b507      	push	{r0, r1, r2, lr}
	xSem_rx_buf = xSemaphoreCreateCounting( UPS_RBUF_SIZE, 0 );
 8026f86:	2100      	movs	r1, #0
 8026f88:	2064      	movs	r0, #100	; 0x64
 8026f8a:	f003 fcf2 	bl	802a972 <xQueueCreateCountingSemaphore>
 8026f8e:	4b0a      	ldr	r3, [pc, #40]	; (8026fb8 <InitUSART+0x34>)
	rbuf32_init(&ups_tx_rbuf, ups_tx_fifo, UPS_RBUF_SIZE);
 8026f90:	490a      	ldr	r1, [pc, #40]	; (8026fbc <InitUSART+0x38>)
    USART_ITConfig(USART3, USART_IT_TXE, DISABLE);
    }
}

void InitUSART(void) {
	xSem_rx_buf = xSemaphoreCreateCounting( UPS_RBUF_SIZE, 0 );
 8026f92:	6018      	str	r0, [r3, #0]
	rbuf32_init(&ups_tx_rbuf, ups_tx_fifo, UPS_RBUF_SIZE);
 8026f94:	2264      	movs	r2, #100	; 0x64
 8026f96:	480a      	ldr	r0, [pc, #40]	; (8026fc0 <InitUSART+0x3c>)
 8026f98:	f002 fa9e 	bl	80294d8 <rbuf32_init>
	rbuf32_init(&ups_rx_rbuf, ups_rx_fifo, UPS_RBUF_SIZE);
 8026f9c:	2264      	movs	r2, #100	; 0x64
 8026f9e:	4809      	ldr	r0, [pc, #36]	; (8026fc4 <InitUSART+0x40>)
 8026fa0:	4909      	ldr	r1, [pc, #36]	; (8026fc8 <InitUSART+0x44>)
 8026fa2:	f002 fa99 	bl	80294d8 <rbuf32_init>
	uart_hw_init(UPS_USART, UPS_USART_BAUD, UPS_USART_WORD_LEN, UPS_USART_PARITY, UPS_USART_STOP_BIT);
 8026fa6:	2300      	movs	r3, #0
 8026fa8:	9300      	str	r3, [sp, #0]
 8026faa:	4808      	ldr	r0, [pc, #32]	; (8026fcc <InitUSART+0x48>)
 8026fac:	f44f 6116 	mov.w	r1, #2400	; 0x960
 8026fb0:	2208      	movs	r2, #8
 8026fb2:	f7ff ff71 	bl	8026e98 <uart_hw_init>
}
 8026fb6:	bd0e      	pop	{r1, r2, r3, pc}
 8026fb8:	2000cb9c 	.word	0x2000cb9c
 8026fbc:	2000c85c 	.word	0x2000c85c
 8026fc0:	2000cb7c 	.word	0x2000cb7c
 8026fc4:	2000c84c 	.word	0x2000c84c
 8026fc8:	2000c9ec 	.word	0x2000c9ec
 8026fcc:	40004400 	.word	0x40004400

08026fd0 <ups_send_block>:
}

int ups_send_block(void *data, uint8_t len) {
	int i = 0;
	uint32_t s_temp = 0;
	UPS_USART->CR1 &= ~USART_CR1_TXEIE;
 8026fd0:	4a0f      	ldr	r2, [pc, #60]	; (8027010 <ups_send_block+0x40>)
 8026fd2:	8993      	ldrh	r3, [r2, #12]
 8026fd4:	f023 0380 	bic.w	r3, r3, #128	; 0x80
 8026fd8:	041b      	lsls	r3, r3, #16
 8026fda:	0c1b      	lsrs	r3, r3, #16
		rbuf32_put(&ups_tx_rbuf, (uint32_t)(byte));
	}
	UPS_USART->CR1 |= USART_CR1_TXEIE;
}

int ups_send_block(void *data, uint8_t len) {
 8026fdc:	b570      	push	{r4, r5, r6, lr}
 8026fde:	4606      	mov	r6, r0
 8026fe0:	460d      	mov	r5, r1
	int i = 0;
	uint32_t s_temp = 0;
	UPS_USART->CR1 &= ~USART_CR1_TXEIE;
 8026fe2:	8193      	strh	r3, [r2, #12]
	}
	UPS_USART->CR1 |= USART_CR1_TXEIE;
}

int ups_send_block(void *data, uint8_t len) {
	int i = 0;
 8026fe4:	2400      	movs	r4, #0
	uint32_t s_temp = 0;
	UPS_USART->CR1 &= ~USART_CR1_TXEIE;
	//DBG printf("STOP \r\n");
	while (i < len) {
 8026fe6:	e008      	b.n	8026ffa <ups_send_block+0x2a>
		if (!rbuf_isfull(&ups_tx_rbuf)) {
 8026fe8:	480a      	ldr	r0, [pc, #40]	; (8027014 <ups_send_block+0x44>)
 8026fea:	f002 fa7b 	bl	80294e4 <rbuf_isfull>
 8026fee:	b930      	cbnz	r0, 8026ffe <ups_send_block+0x2e>
			s_temp = ((uint8_t *)data)[i++];
 8026ff0:	5d31      	ldrb	r1, [r6, r4]
			rbuf32_put(&ups_tx_rbuf, s_temp);
 8026ff2:	4808      	ldr	r0, [pc, #32]	; (8027014 <ups_send_block+0x44>)
	uint32_t s_temp = 0;
	UPS_USART->CR1 &= ~USART_CR1_TXEIE;
	//DBG printf("STOP \r\n");
	while (i < len) {
		if (!rbuf_isfull(&ups_tx_rbuf)) {
			s_temp = ((uint8_t *)data)[i++];
 8026ff4:	3401      	adds	r4, #1
			rbuf32_put(&ups_tx_rbuf, s_temp);
 8026ff6:	f002 fa96 	bl	8029526 <rbuf32_put>
int ups_send_block(void *data, uint8_t len) {
	int i = 0;
	uint32_t s_temp = 0;
	UPS_USART->CR1 &= ~USART_CR1_TXEIE;
	//DBG printf("STOP \r\n");
	while (i < len) {
 8026ffa:	42ac      	cmp	r4, r5
 8026ffc:	dbf4      	blt.n	8026fe8 <ups_send_block+0x18>
			rbuf32_put(&ups_tx_rbuf, s_temp);
		}
		else
			break;
	}
	UPS_USART->CR1 |= USART_CR1_TXEIE;
 8026ffe:	4b04      	ldr	r3, [pc, #16]	; (8027010 <ups_send_block+0x40>)
 8027000:	899a      	ldrh	r2, [r3, #12]
 8027002:	b292      	uxth	r2, r2
 8027004:	f042 0280 	orr.w	r2, r2, #128	; 0x80
 8027008:	819a      	strh	r2, [r3, #12]
	return i;
}
 802700a:	4620      	mov	r0, r4
 802700c:	bd70      	pop	{r4, r5, r6, pc}
 802700e:	bf00      	nop
 8027010:	40004400 	.word	0x40004400
 8027014:	2000cb7c 	.word	0x2000cb7c

08027018 <ups_getchar>:

int ups_getchar(unsigned int timeout) {
	int res;
	res = xSemaphoreTake( xSem_rx_buf, (TickType_t)timeout );
 8027018:	4b09      	ldr	r3, [pc, #36]	; (8027040 <ups_getchar+0x28>)
	}
	UPS_USART->CR1 |= USART_CR1_TXEIE;
	return i;
}

int ups_getchar(unsigned int timeout) {
 802701a:	b507      	push	{r0, r1, r2, lr}
	int res;
	res = xSemaphoreTake( xSem_rx_buf, (TickType_t)timeout );
 802701c:	2100      	movs	r1, #0
	}
	UPS_USART->CR1 |= USART_CR1_TXEIE;
	return i;
}

int ups_getchar(unsigned int timeout) {
 802701e:	4602      	mov	r2, r0
	int res;
	res = xSemaphoreTake( xSem_rx_buf, (TickType_t)timeout );
 8027020:	6818      	ldr	r0, [r3, #0]
 8027022:	460b      	mov	r3, r1
 8027024:	f003 fdfb 	bl	802ac1e <xQueueGenericReceive>
 8027028:	9001      	str	r0, [sp, #4]
	if (res == pdFALSE) {
 802702a:	b128      	cbz	r0, 8027038 <ups_getchar+0x20>
		return -1;
	}
	rbuf32_get(&ups_rx_rbuf, &res);
 802702c:	4805      	ldr	r0, [pc, #20]	; (8027044 <ups_getchar+0x2c>)
 802702e:	a901      	add	r1, sp, #4
 8027030:	f002 fa64 	bl	80294fc <rbuf32_get>
//	DBG printf("STOP \r\n");
//	DBG printf("wr: %d 0x%x\r\n", rs485_rx_rbuf.read_index,res);
	return res;
 8027034:	9801      	ldr	r0, [sp, #4]
 8027036:	e001      	b.n	802703c <ups_getchar+0x24>

int ups_getchar(unsigned int timeout) {
	int res;
	res = xSemaphoreTake( xSem_rx_buf, (TickType_t)timeout );
	if (res == pdFALSE) {
		return -1;
 8027038:	f04f 30ff 	mov.w	r0, #4294967295
	}
	rbuf32_get(&ups_rx_rbuf, &res);
//	DBG printf("STOP \r\n");
//	DBG printf("wr: %d 0x%x\r\n", rs485_rx_rbuf.read_index,res);
	return res;
}
 802703c:	bd0e      	pop	{r1, r2, r3, pc}
 802703e:	bf00      	nop
 8027040:	2000cb9c 	.word	0x2000cb9c
 8027044:	2000c84c 	.word	0x2000c84c

08027048 <rs232_irq_handler>:



//inline void rs232_irq_handler(void)
void rs232_irq_handler(void)
{
 8027048:	b513      	push	{r0, r1, r4, lr}
	uint32_t c = 0;
 802704a:	2300      	movs	r3, #0
 802704c:	9301      	str	r3, [sp, #4]

	static BaseType_t xHigherPriorityTaskWoken = pdFALSE;
	if ((UPS_USART->SR & USART_SR_ORE)) {
 802704e:	4b26      	ldr	r3, [pc, #152]	; (80270e8 <rs232_irq_handler+0xa0>)
 8027050:	881a      	ldrh	r2, [r3, #0]
 8027052:	f002 0208 	and.w	r2, r2, #8
 8027056:	b292      	uxth	r2, r2
 8027058:	b112      	cbz	r2, 8027060 <rs232_irq_handler+0x18>
		c = (uint32_t)UPS_USART->DR;
 802705a:	889b      	ldrh	r3, [r3, #4]
 802705c:	b29b      	uxth	r3, r3
 802705e:	9301      	str	r3, [sp, #4]
		//DBG printf("overrunRS485\r\n");
	}
	if (USART_GetITStatus(UPS_USART, USART_IT_TXE) != RESET) {
 8027060:	4c21      	ldr	r4, [pc, #132]	; (80270e8 <rs232_irq_handler+0xa0>)
 8027062:	f240 7127 	movw	r1, #1831	; 0x727
 8027066:	4620      	mov	r0, r4
 8027068:	f7ff f807 	bl	802607a <USART_GetITStatus>
 802706c:	b1c0      	cbz	r0, 80270a0 <rs232_irq_handler+0x58>
		if(rbuf32_get(&ups_tx_rbuf, &c)) {
 802706e:	481f      	ldr	r0, [pc, #124]	; (80270ec <rs232_irq_handler+0xa4>)
 8027070:	a901      	add	r1, sp, #4
 8027072:	f002 fa43 	bl	80294fc <rbuf32_get>
 8027076:	b118      	cbz	r0, 8027080 <rs232_irq_handler+0x38>
			UPS_USART->DR = (uint16_t)c;
 8027078:	f8bd 3004 	ldrh.w	r3, [sp, #4]
 802707c:	80a3      	strh	r3, [r4, #4]
 802707e:	e00a      	b.n	8027096 <rs232_irq_handler+0x4e>
			//DBG printf("wr: %d 0x%x\r\n", rs485_tx_rbuf.read_index,c);
		}
		else {
			UPS_USART->CR1 &= ~USART_CR1_TXEIE;
 8027080:	89a3      	ldrh	r3, [r4, #12]
 8027082:	f023 0380 	bic.w	r3, r3, #128	; 0x80
 8027086:	041b      	lsls	r3, r3, #16
 8027088:	0c1b      	lsrs	r3, r3, #16
 802708a:	81a3      	strh	r3, [r4, #12]
			UPS_USART->CR1 |= USART_CR1_RXNEIE;
 802708c:	89a3      	ldrh	r3, [r4, #12]
 802708e:	b29b      	uxth	r3, r3
 8027090:	f043 0320 	orr.w	r3, r3, #32
 8027094:	81a3      	strh	r3, [r4, #12]
		}
			USART_ClearITPendingBit(UPS_USART, USART_IT_TXE);
 8027096:	4814      	ldr	r0, [pc, #80]	; (80270e8 <rs232_irq_handler+0xa0>)
 8027098:	f240 7127 	movw	r1, #1831	; 0x727
 802709c:	f7ff f80d 	bl	80260ba <USART_ClearITPendingBit>
	}
	if(USART_GetITStatus(UPS_USART, USART_IT_RXNE) != RESET)
 80270a0:	4c11      	ldr	r4, [pc, #68]	; (80270e8 <rs232_irq_handler+0xa0>)
 80270a2:	f240 5125 	movw	r1, #1317	; 0x525
 80270a6:	4620      	mov	r0, r4
 80270a8:	f7fe ffe7 	bl	802607a <USART_GetITStatus>
 80270ac:	b1d8      	cbz	r0, 80270e6 <rs232_irq_handler+0x9e>
	{
		c = (uint32_t)UPS_USART->DR;
 80270ae:	88a3      	ldrh	r3, [r4, #4]
		//DBG printf("read: %d 0x%x\r\n", rs485_rx_rbuf.write_index,c);
		if (!rbuf_isfull(&ups_rx_rbuf))
 80270b0:	480f      	ldr	r0, [pc, #60]	; (80270f0 <rs232_irq_handler+0xa8>)
		}
			USART_ClearITPendingBit(UPS_USART, USART_IT_TXE);
	}
	if(USART_GetITStatus(UPS_USART, USART_IT_RXNE) != RESET)
	{
		c = (uint32_t)UPS_USART->DR;
 80270b2:	b29b      	uxth	r3, r3
 80270b4:	9301      	str	r3, [sp, #4]
		//DBG printf("read: %d 0x%x\r\n", rs485_rx_rbuf.write_index,c);
		if (!rbuf_isfull(&ups_rx_rbuf))
 80270b6:	f002 fa15 	bl	80294e4 <rbuf_isfull>
 80270ba:	b918      	cbnz	r0, 80270c4 <rs232_irq_handler+0x7c>
			rbuf32_put(&ups_rx_rbuf, c);
 80270bc:	480c      	ldr	r0, [pc, #48]	; (80270f0 <rs232_irq_handler+0xa8>)
 80270be:	9901      	ldr	r1, [sp, #4]
 80270c0:	f002 fa31 	bl	8029526 <rbuf32_put>
		USART_ClearITPendingBit(UPS_USART, USART_IT_RXNE);
 80270c4:	4808      	ldr	r0, [pc, #32]	; (80270e8 <rs232_irq_handler+0xa0>)
		xSemaphoreGiveFromISR(xSem_rx_buf, &xHigherPriorityTaskWoken);
 80270c6:	4c0b      	ldr	r4, [pc, #44]	; (80270f4 <rs232_irq_handler+0xac>)
	{
		c = (uint32_t)UPS_USART->DR;
		//DBG printf("read: %d 0x%x\r\n", rs485_rx_rbuf.write_index,c);
		if (!rbuf_isfull(&ups_rx_rbuf))
			rbuf32_put(&ups_rx_rbuf, c);
		USART_ClearITPendingBit(UPS_USART, USART_IT_RXNE);
 80270c8:	f240 5125 	movw	r1, #1317	; 0x525
 80270cc:	f7fe fff5 	bl	80260ba <USART_ClearITPendingBit>
		xSemaphoreGiveFromISR(xSem_rx_buf, &xHigherPriorityTaskWoken);
 80270d0:	4b09      	ldr	r3, [pc, #36]	; (80270f8 <rs232_irq_handler+0xb0>)
 80270d2:	4621      	mov	r1, r4
 80270d4:	6818      	ldr	r0, [r3, #0]
 80270d6:	f003 fd70 	bl	802abba <xQueueGiveFromISR>
		portYIELD_FROM_ISR(xHigherPriorityTaskWoken);
 80270da:	6823      	ldr	r3, [r4, #0]
 80270dc:	b11b      	cbz	r3, 80270e6 <rs232_irq_handler+0x9e>
 80270de:	4b07      	ldr	r3, [pc, #28]	; (80270fc <rs232_irq_handler+0xb4>)
 80270e0:	f04f 5280 	mov.w	r2, #268435456	; 0x10000000
 80270e4:	601a      	str	r2, [r3, #0]
	}
}
 80270e6:	bd1c      	pop	{r2, r3, r4, pc}
 80270e8:	40004400 	.word	0x40004400
 80270ec:	2000cb7c 	.word	0x2000cb7c
 80270f0:	2000c84c 	.word	0x2000c84c
 80270f4:	20000b08 	.word	0x20000b08
 80270f8:	2000cb9c 	.word	0x2000cb9c
 80270fc:	e000ed04 	.word	0xe000ed04

08027100 <USART1_IRQHandler>:


void USART1_IRQHandler(void) {
 8027100:	4770      	bx	lr

08027102 <USART2_IRQHandler>:

}

void USART2_IRQHandler(void) {
	rs232_irq_handler();
 8027102:	f7ff bfa1 	b.w	8027048 <rs232_irq_handler>

08027106 <USART3_IRQHandler>:
}

void USART3_IRQHandler(void) {
 8027106:	4770      	bx	lr

08027108 <InitTask>:
/**
  * @brief  Задача инициализации. Запу�кает о�новные задачи девай�а и умирает.
  * @retval 
  */
void InitTask(void *params)
{
 8027108:	b51f      	push	{r0, r1, r2, r3, r4, lr}
// -----------------------------------------------------------------------------    
 // xTaskCreate(vTaskWdt, "WDT", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, NULL);
// -----------------------------------------------------------------------------    
  InitUSART();
 802710a:	f7ff ff3b 	bl	8026f84 <InitUSART>
  ups_megatec_init();
 802710e:	f002 f9a9 	bl	8029464 <ups_megatec_init>
// -----------------------------------------------------------------------------    
 // RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_CRC, ENABLE);
  //SETTINGS_SetDefaultDebug();
  //SETTINGS_Save();
  SETTINGS_Load();
 8027112:	f001 fd57 	bl	8028bc4 <SETTINGS_Load>

	if(set_mode_jumper()){
 8027116:	f001 fec1 	bl	8028e9c <set_mode_jumper>
 802711a:	b138      	cbz	r0, 802712c <InitTask+0x24>
		SETTINGS_SetServiceDef();
 802711c:	f001 fc12 	bl	8028944 <SETTINGS_SetServiceDef>
		SETTINGS_Save();
 8027120:	f001 fcfc 	bl	8028b1c <SETTINGS_Save>
		log_event_data(LOG_PSW_CHANGE, "Сбро� к завод�кому");
 8027124:	2003      	movs	r0, #3
 8027126:	4937      	ldr	r1, [pc, #220]	; (8027204 <InitTask+0xfc>)
 8027128:	f002 fea6 	bl	8029e78 <log_event_data>

// -----------------------------------------------------------------------------  
#ifdef LED_ENABLE
  LED_Init();
  /* Про�та� мигалка дл� подтверждени� живуче�ти контроллера */
  xTaskCreate(vTaskLedBlink, "LED_Blink", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, NULL);//&xTaskToKill
 802712c:	2400      	movs	r4, #0
#endif  
// -----------------------------------------------------------------------------    

// -----------------------------------------------------------------------------  
#ifdef LED_ENABLE
  LED_Init();
 802712e:	f001 fe11 	bl	8028d54 <LED_Init>
  /* Про�та� мигалка дл� подтверждени� живуче�ти контроллера */
  xTaskCreate(vTaskLedBlink, "LED_Blink", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, NULL);//&xTaskToKill
 8027132:	2280      	movs	r2, #128	; 0x80
 8027134:	4623      	mov	r3, r4
 8027136:	4934      	ldr	r1, [pc, #208]	; (8027208 <InitTask+0x100>)
 8027138:	9400      	str	r4, [sp, #0]
 802713a:	9401      	str	r4, [sp, #4]
 802713c:	9402      	str	r4, [sp, #8]
 802713e:	9403      	str	r4, [sp, #12]
 8027140:	4832      	ldr	r0, [pc, #200]	; (802720c <InitTask+0x104>)
 8027142:	f003 fe75 	bl	802ae30 <xTaskGenericCreate>
#endif  
// -----------------------------------------------------------------------------    
  
// -----------------------------------------------------------------------------  
#ifdef BUTTON_ENABLE  
  BUTTON_Init();
 8027146:	f001 fe61 	bl	8028e0c <BUTTON_Init>
  xTaskCreate(vTaskButtons, "Buttons", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, NULL);
 802714a:	2280      	movs	r2, #128	; 0x80
 802714c:	4623      	mov	r3, r4
 802714e:	4930      	ldr	r1, [pc, #192]	; (8027210 <InitTask+0x108>)
 8027150:	9400      	str	r4, [sp, #0]
 8027152:	9401      	str	r4, [sp, #4]
 8027154:	9402      	str	r4, [sp, #8]
 8027156:	9403      	str	r4, [sp, #12]
 8027158:	482e      	ldr	r0, [pc, #184]	; (8027214 <InitTask+0x10c>)
 802715a:	f003 fe69 	bl	802ae30 <xTaskGenericCreate>
  //xTaskCreate( d_inouts_task,  "inouts_task", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, NULL);
 // 	xTaskCreate( d_inouts_test, "d_inouts_test", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, NULL);

// -----------------------------------------------------------------------------    
#ifdef RTC_ENABLE  
  TM_RTC_Init(TM_RTC_ClockSource_External);  // Так было
 802715e:	2001      	movs	r0, #1
 8027160:	f7ff fb64 	bl	802682c <TM_RTC_Init>
  
  /* UDP for net settings */
  //UDP_netsetting_init();
// -----------------------------------------------------------------------------
#ifdef UPS_ENABLE
  xTaskCreate(UPS_Monitor, "UPS_Monitor", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, NULL);
 8027164:	2280      	movs	r2, #128	; 0x80
 8027166:	4623      	mov	r3, r4
 8027168:	492b      	ldr	r1, [pc, #172]	; (8027218 <InitTask+0x110>)
 802716a:	9400      	str	r4, [sp, #0]
 802716c:	9401      	str	r4, [sp, #4]
 802716e:	9402      	str	r4, [sp, #8]
 8027170:	9403      	str	r4, [sp, #12]
 8027172:	482a      	ldr	r0, [pc, #168]	; (802721c <InitTask+0x114>)
 8027174:	f003 fe5c 	bl	802ae30 <xTaskGenericCreate>
#endif
// -----------------------------------------------------------------------------    
  /* Random number generator */
  RNG_Init();
 8027178:	f7ff f940 	bl	80263fc <RNG_Init>
// -----------------------------------------------------------------------------  
#ifdef NET_ENABLE
  ETH_BSP_Config();
 802717c:	f010 fd4c 	bl	8037c18 <ETH_BSP_Config>
  LwIP_Init();
 8027180:	f00f ff5c 	bl	803703c <LwIP_Init>
  
#ifdef WEB_SERVER_ENABLE
  HTTP_Init();
 8027184:	f004 ffca 	bl	802c11c <HTTP_Init>
#endif
  
#ifdef SNMP_ENABLE

  SNMP_Init();
 8027188:	f010 fb08 	bl	803779c <SNMP_Init>
	  
	xTaskCreate(SNMP_SysUpTimeTask, "snmpSysUpTime", configMINIMAL_STACK_SIZE,
 802718c:	2280      	movs	r2, #128	; 0x80
 802718e:	4623      	mov	r3, r4
 8027190:	9400      	str	r4, [sp, #0]
 8027192:	9401      	str	r4, [sp, #4]
 8027194:	9402      	str	r4, [sp, #8]
 8027196:	9403      	str	r4, [sp, #12]
 8027198:	4921      	ldr	r1, [pc, #132]	; (8027220 <InitTask+0x118>)
 802719a:	4822      	ldr	r0, [pc, #136]	; (8027224 <InitTask+0x11c>)
 802719c:	f003 fe48 	bl	802ae30 <xTaskGenericCreate>
              NULL, tskIDLE_PRIORITY, NULL);
	
	xTaskCreate(snmp_trap_tread, "snmpTrapTest", 3*configMINIMAL_STACK_SIZE,
 80271a0:	4623      	mov	r3, r4
 80271a2:	4921      	ldr	r1, [pc, #132]	; (8027228 <InitTask+0x120>)
 80271a4:	9400      	str	r4, [sp, #0]
 80271a6:	f44f 72c0 	mov.w	r2, #384	; 0x180
 80271aa:	9401      	str	r4, [sp, #4]
 80271ac:	9402      	str	r4, [sp, #8]
 80271ae:	9403      	str	r4, [sp, #12]
 80271b0:	481e      	ldr	r0, [pc, #120]	; (802722c <InitTask+0x124>)
 80271b2:	f003 fe3d 	bl	802ae30 <xTaskGenericCreate>
#endif	
    
#endif  
// -----------------------------------------------------------------------------      
	 /* SNTP */
	 SNTP_Init();
 80271b6:	f010 fb8d 	bl	80378d4 <SNTP_Init>
	 xTaskCreate(vTaskOnceSynchro, "sntpOnceSinhro", 2*configMINIMAL_STACK_SIZE,
 80271ba:	4b1d      	ldr	r3, [pc, #116]	; (8027230 <InitTask+0x128>)
 80271bc:	9400      	str	r4, [sp, #0]
 80271be:	9301      	str	r3, [sp, #4]
 80271c0:	9402      	str	r4, [sp, #8]
 80271c2:	4623      	mov	r3, r4
 80271c4:	9403      	str	r4, [sp, #12]
 80271c6:	491b      	ldr	r1, [pc, #108]	; (8027234 <InitTask+0x12c>)
 80271c8:	481b      	ldr	r0, [pc, #108]	; (8027238 <InitTask+0x130>)
 80271ca:	f44f 7280 	mov.w	r2, #256	; 0x100
 80271ce:	f003 fe2f 	bl	802ae30 <xTaskGenericCreate>
				 NULL, tskIDLE_PRIORITY, &xHandleSntpOnceSinhro);
	 xTaskCreate(vTaskPeriodicSynchro, "sntpPeriodicSinhro", 2*configMINIMAL_STACK_SIZE,
 80271d2:	491a      	ldr	r1, [pc, #104]	; (802723c <InitTask+0x134>)
 80271d4:	9400      	str	r4, [sp, #0]
 80271d6:	f44f 7280 	mov.w	r2, #256	; 0x100
 80271da:	4623      	mov	r3, r4
 80271dc:	9401      	str	r4, [sp, #4]
 80271de:	9402      	str	r4, [sp, #8]
 80271e0:	9403      	str	r4, [sp, #12]
 80271e2:	4817      	ldr	r0, [pc, #92]	; (8027240 <InitTask+0x138>)
 80271e4:	f003 fe24 	bl	802ae30 <xTaskGenericCreate>
  //TEST_IO();
  
  /* Контроль у�пешной загрузки. Сбро� флага bootry */
  /* Сбро� флага и �охранение нового значени� во флеш пам�ти прои�ходт по�ле
     некоторой задержки дл� запу�ка в�ех задач */
  vTaskDelay(4000);
 80271e8:	f44f 607a 	mov.w	r0, #4000	; 0xfa0
 80271ec:	f004 f8ba 	bl	802b364 <vTaskDelay>
 
  SETTINGS_ResetBootTry();
 80271f0:	f001 fd1c 	bl	8028c2c <SETTINGS_ResetBootTry>
 /* if (!dhcp)
    SNMP_SendUserTrap(DEVICE_REBOOTED);
  
  printf("Hello world\r\n");*/
  
  vTaskDelete(NULL);
 80271f4:	4620      	mov	r0, r4
 80271f6:	f003 fef3 	bl	802afe0 <vTaskDelete>
     taskYIELD();
}
 80271fa:	b004      	add	sp, #16
 80271fc:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
    SNMP_SendUserTrap(DEVICE_REBOOTED);
  
  printf("Hello world\r\n");*/
  
  vTaskDelete(NULL);
     taskYIELD();
 8027200:	f004 bc90 	b.w	802bb24 <vPortYield>
 8027204:	080387f8 	.word	0x080387f8
 8027208:	0803881b 	.word	0x0803881b
 802720c:	08028d79 	.word	0x08028d79
 8027210:	08038825 	.word	0x08038825
 8027214:	08028e89 	.word	0x08028e89
 8027218:	0803882d 	.word	0x0803882d
 802721c:	08029c2d 	.word	0x08029c2d
 8027220:	08038839 	.word	0x08038839
 8027224:	08037535 	.word	0x08037535
 8027228:	08038847 	.word	0x08038847
 802722c:	08037695 	.word	0x08037695
 8027230:	20000b0c 	.word	0x20000b0c
 8027234:	08038854 	.word	0x08038854
 8027238:	080379a1 	.word	0x080379a1
 802723c:	08038863 	.word	0x08038863
 8027240:	08037959 	.word	0x08037959

08027244 <main>:

void vApplicationTickHook(void) {
}
 
int main()
{
 8027244:	b51f      	push	{r0, r1, r2, r3, r4, lr}
  TIM_Cmd(TIM13, DISABLE);
 8027246:	4c22      	ldr	r4, [pc, #136]	; (80272d0 <main+0x8c>)
 8027248:	2100      	movs	r1, #0
 802724a:	4620      	mov	r0, r4
 802724c:	f7fe fe2a 	bl	8025ea4 <TIM_Cmd>
  TIM_ClearITPendingBit(TIM13, TIM_IT_Update);
 8027250:	4620      	mov	r0, r4
 8027252:	2101      	movs	r1, #1
 8027254:	f7fe fe3b 	bl	8025ece <TIM_ClearITPendingBit>
  This function disables IRQ interrupts by setting the I-bit in the CPSR.
  Can only be executed in Privileged modes.
 */
__attribute__( ( always_inline ) ) __STATIC_INLINE void __disable_irq(void)
{
  __ASM volatile ("cpsid i" : : : "memory");
 8027258:	b672      	cpsid	i
  
	__disable_irq();
	NVIC_SetVectorTable(NVIC_VectTab_FLASH, 0x20000);
 802725a:	f04f 6000 	mov.w	r0, #134217728	; 0x8000000
 802725e:	f44f 3100 	mov.w	r1, #131072	; 0x20000
 8027262:	f7fe f9a1 	bl	80255a8 <NVIC_SetVectorTable>
__STATIC_INLINE void NVIC_SetPriorityGrouping(uint32_t PriorityGroup)
{
  uint32_t reg_value;
  uint32_t PriorityGroupTmp = (PriorityGroup & (uint32_t)0x07);               /* only values 0..7 are used          */

  reg_value  =  SCB->AIRCR;                                                   /* read old register configuration    */
 8027266:	4a1b      	ldr	r2, [pc, #108]	; (80272d4 <main+0x90>)
 8027268:	68d1      	ldr	r1, [r2, #12]
  reg_value &= ~(SCB_AIRCR_VECTKEY_Msk | SCB_AIRCR_PRIGROUP_Msk);             /* clear bits to change               */
 802726a:	f64f 03ff 	movw	r3, #63743	; 0xf8ff
 802726e:	400b      	ands	r3, r1
  reg_value  =  (reg_value                                 |
 8027270:	f043 63bf 	orr.w	r3, r3, #100139008	; 0x5f80000
 8027274:	f443 3300 	orr.w	r3, r3, #131072	; 0x20000
                ((uint32_t)0x5FA << SCB_AIRCR_VECTKEY_Pos) |
                (PriorityGroupTmp << 8));                                     /* Insert write key and priorty group */
  SCB->AIRCR =  reg_value;
 8027278:	60d3      	str	r3, [r2, #12]
	NVIC_SetPriorityGrouping(0);
	NVIC_PriorityGroupConfig( NVIC_PriorityGroup_4 );
 802727a:	f44f 7040 	mov.w	r0, #768	; 0x300
 802727e:	f7fe f955 	bl	802552c <NVIC_PriorityGroupConfig>
  This function enables IRQ interrupts by clearing the I-bit in the CPSR.
  Can only be executed in Privileged modes.
 */
__attribute__( ( always_inline ) ) __STATIC_INLINE void __enable_irq(void)
{
  __ASM volatile ("cpsie i" : : : "memory");
 8027282:	b662      	cpsie	i
	__enable_irq();

	RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_CRC, ENABLE);
 8027284:	2101      	movs	r1, #1
 8027286:	f44f 5080 	mov.w	r0, #4096	; 0x1000
 802728a:	f7fe fbaf 	bl	80259ec <RCC_AHB1PeriphClockCmd>

	/* Clear flash error flags if were set */
	FLASH_ClearFlag(FLASH_FLAG_PGPERR);
 802728e:	2040      	movs	r0, #64	; 0x40
 8027290:	f7fe f9c0 	bl	8025614 <FLASH_ClearFlag>
	FLASH_ClearFlag(FLASH_FLAG_PGSERR);
 8027294:	2080      	movs	r0, #128	; 0x80
 8027296:	f7fe f9bd 	bl	8025614 <FLASH_ClearFlag>
	log_init(false);
	//log_test();
	//spi_flash_test();
//  NVIC_PriorityGroupConfig(NVIC_PriorityGroup_4);
  
  xTaskCreate( InitTask, "InitTask", 1000, NULL, tskIDLE_PRIORITY, NULL);
 802729a:	2400      	movs	r4, #0

	/* Clear flash error flags if were set */
	FLASH_ClearFlag(FLASH_FLAG_PGPERR);
	FLASH_ClearFlag(FLASH_FLAG_PGSERR);

	gpio_init();
 802729c:	f7ff f84a 	bl	8026334 <gpio_init>

	WDG_Init();
 80272a0:	f001 fd0e 	bl	8028cc0 <WDG_Init>

	spi_flash_init();
 80272a4:	f7ff fd4c 	bl	8026d40 <spi_flash_init>
	log_init(false);
 80272a8:	2000      	movs	r0, #0
 80272aa:	f002 fd1d 	bl	8029ce8 <log_init>
	//log_test();
	//spi_flash_test();
//  NVIC_PriorityGroupConfig(NVIC_PriorityGroup_4);
  
  xTaskCreate( InitTask, "InitTask", 1000, NULL, tskIDLE_PRIORITY, NULL);
 80272ae:	490a      	ldr	r1, [pc, #40]	; (80272d8 <main+0x94>)
 80272b0:	9400      	str	r4, [sp, #0]
 80272b2:	f44f 727a 	mov.w	r2, #1000	; 0x3e8
 80272b6:	4623      	mov	r3, r4
 80272b8:	9401      	str	r4, [sp, #4]
 80272ba:	9402      	str	r4, [sp, #8]
 80272bc:	9403      	str	r4, [sp, #12]
 80272be:	4807      	ldr	r0, [pc, #28]	; (80272dc <main+0x98>)
 80272c0:	f003 fdb6 	bl	802ae30 <xTaskGenericCreate>
  
  vTaskStartScheduler();
 80272c4:	f003 fee6 	bl	802b094 <vTaskStartScheduler>
	/*while(1)
	{

	}*/

}
 80272c8:	4620      	mov	r0, r4
 80272ca:	b004      	add	sp, #16
 80272cc:	bd10      	pop	{r4, pc}
 80272ce:	bf00      	nop
 80272d0:	40001c00 	.word	0x40001c00
 80272d4:	e000ed00 	.word	0xe000ed00
 80272d8:	08038876 	.word	0x08038876
 80272dc:	08027109 	.word	0x08027109

080272e0 <NMI_Handler>:
  * @brief  This function handles NMI exception.
  * @param  None
  * @retval None
  */
void NMI_Handler(void)
{
 80272e0:	4770      	bx	lr
 80272e2:	0000      	movs	r0, r0

080272e4 <HardFault_Output>:
}

void HardFault_Output(uint32_t *sp)
{
 80272e4:	e92d 4ff7 	stmdb	sp!, {r0, r1, r2, r4, r5, r6, r7, r8, r9, sl, fp, lr}
    uint32_t r0  = sp[0];
    uint32_t r1  = sp[1];
 80272e8:	e890 0808 	ldmia.w	r0, {r3, fp}
    uint32_t r2  = sp[2];
 80272ec:	f8d0 a008 	ldr.w	sl, [r0, #8]
    uint32_t r3  = sp[3];
 80272f0:	f8d0 900c 	ldr.w	r9, [r0, #12]
    uint32_t r12 = sp[4];
 80272f4:	f8d0 8010 	ldr.w	r8, [r0, #16]
    uint32_t lr  = sp[5];
 80272f8:	6947      	ldr	r7, [r0, #20]
    uint32_t pc  = sp[6];
 80272fa:	6986      	ldr	r6, [r0, #24]
    uint32_t psr = sp[7];
 80272fc:	69c5      	ldr	r5, [r0, #28]

    printf("HardFault:\n\r");
 80272fe:	9301      	str	r3, [sp, #4]
void NMI_Handler(void)
{
}

void HardFault_Output(uint32_t *sp)
{
 8027300:	4604      	mov	r4, r0
    uint32_t r12 = sp[4];
    uint32_t lr  = sp[5];
    uint32_t pc  = sp[6];
    uint32_t psr = sp[7];

    printf("HardFault:\n\r");
 8027302:	4816      	ldr	r0, [pc, #88]	; (802735c <HardFault_Output+0x78>)
 8027304:	f000 fbc0 	bl	8027a88 <tfp_printf>
    /* Print CFSR register */

    /* Print CPU registers */
    printf("\n\rRegisters:\n\r");
 8027308:	4815      	ldr	r0, [pc, #84]	; (8027360 <HardFault_Output+0x7c>)
 802730a:	f000 fbbd 	bl	8027a88 <tfp_printf>
    printf("SP          0x%08lx\n\r", (uint32_t)sp);
 802730e:	4815      	ldr	r0, [pc, #84]	; (8027364 <HardFault_Output+0x80>)
 8027310:	4621      	mov	r1, r4
 8027312:	f000 fbb9 	bl	8027a88 <tfp_printf>
    printf("R0          0x%08lx\n\r", r0);
 8027316:	9b01      	ldr	r3, [sp, #4]
 8027318:	4813      	ldr	r0, [pc, #76]	; (8027368 <HardFault_Output+0x84>)
 802731a:	4619      	mov	r1, r3
 802731c:	f000 fbb4 	bl	8027a88 <tfp_printf>
    printf("R1          0x%08lx\n\r", r1);
 8027320:	4812      	ldr	r0, [pc, #72]	; (802736c <HardFault_Output+0x88>)
 8027322:	4659      	mov	r1, fp
 8027324:	f000 fbb0 	bl	8027a88 <tfp_printf>
    printf("R2          0x%08lx\n\r", r2);
 8027328:	4811      	ldr	r0, [pc, #68]	; (8027370 <HardFault_Output+0x8c>)
 802732a:	4651      	mov	r1, sl
 802732c:	f000 fbac 	bl	8027a88 <tfp_printf>
    printf("R3          0x%08lx\n\r", r3);
 8027330:	4810      	ldr	r0, [pc, #64]	; (8027374 <HardFault_Output+0x90>)
 8027332:	4649      	mov	r1, r9
 8027334:	f000 fba8 	bl	8027a88 <tfp_printf>
    printf("R12         0x%08lx\n\r", r12);
 8027338:	480f      	ldr	r0, [pc, #60]	; (8027378 <HardFault_Output+0x94>)
 802733a:	4641      	mov	r1, r8
 802733c:	f000 fba4 	bl	8027a88 <tfp_printf>
    printf("LR          0x%08lx\n\r", lr);
 8027340:	480e      	ldr	r0, [pc, #56]	; (802737c <HardFault_Output+0x98>)
 8027342:	4639      	mov	r1, r7
 8027344:	f000 fba0 	bl	8027a88 <tfp_printf>
    printf("PC          0x%08lx\n\r", pc);
 8027348:	480d      	ldr	r0, [pc, #52]	; (8027380 <HardFault_Output+0x9c>)
 802734a:	4631      	mov	r1, r6
 802734c:	f000 fb9c 	bl	8027a88 <tfp_printf>
    printf("PSR         0x%08lx\n\r", psr);
 8027350:	480c      	ldr	r0, [pc, #48]	; (8027384 <HardFault_Output+0xa0>)
 8027352:	4629      	mov	r1, r5
 8027354:	f000 fb98 	bl	8027a88 <tfp_printf>
 8027358:	e7fe      	b.n	8027358 <HardFault_Output+0x74>
 802735a:	bf00      	nop
 802735c:	0803887f 	.word	0x0803887f
 8027360:	0803888c 	.word	0x0803888c
 8027364:	0803889b 	.word	0x0803889b
 8027368:	080388b1 	.word	0x080388b1
 802736c:	080388c7 	.word	0x080388c7
 8027370:	080388dd 	.word	0x080388dd
 8027374:	080388f3 	.word	0x080388f3
 8027378:	08038909 	.word	0x08038909
 802737c:	0803891f 	.word	0x0803891f
 8027380:	08038935 	.word	0x08038935
 8027384:	0803894b 	.word	0x0803894b

08027388 <HardFault_Handler>:
  * @retval None
  */
__attribute__( (naked) )
void HardFault_Handler(void)
{
__asm volatile
 8027388:	f01e 0f04 	tst.w	lr, #4
 802738c:	bf0c      	ite	eq
 802738e:	f3ef 8008 	mrseq	r0, MSP
 8027392:	f3ef 8009 	mrsne	r0, PSP
 8027396:	f8df 1004 	ldr.w	r1, [pc, #4]	; 802739c <debugHardfault_address>
 802739a:	4708      	bx	r1

0802739c <debugHardfault_address>:
 802739c:	080272e5 	.word	0x080272e5

080273a0 <MemManage_Handler>:
  * @brief  This function handles Memory Manage exception.
  * @param  None
  * @retval None
  */
void MemManage_Handler(void)
{
 80273a0:	e7fe      	b.n	80273a0 <MemManage_Handler>

080273a2 <BusFault_Handler>:
  * @brief  This function handles Bus Fault exception.
  * @param  None
  * @retval None
  */
void BusFault_Handler(void)
{
 80273a2:	e7fe      	b.n	80273a2 <BusFault_Handler>

080273a4 <UsageFault_Handler>:
  * @brief  This function handles Usage Fault exception.
  * @param  None
  * @retval None
  */
void UsageFault_Handler(void)
{
 80273a4:	e7fe      	b.n	80273a4 <UsageFault_Handler>

080273a6 <DebugMon_Handler>:
  * @brief  This function handles Debug Monitor exception.
  * @param  None
  * @retval None
  */
void DebugMon_Handler(void)
{
 80273a6:	4770      	bx	lr

080273a8 <SDIO_IRQHandler>:
/*void PPP_IRQHandler(void)
{
}*/

void SDIO_IRQHandler(void)
{
 80273a8:	4770      	bx	lr
 80273aa:	0000      	movs	r0, r0

080273ac <ETH_IRQHandler>:
  * @brief  This function handles ethernet DMA interrupt request.
  * @param  None
  * @retval None
  */
void ETH_IRQHandler(void)
{
 80273ac:	b507      	push	{r0, r1, r2, lr}
  portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE;
 80273ae:	2300      	movs	r3, #0

  /* Frame received */
  if ( ETH_GetDMAFlagStatus(ETH_DMA_FLAG_R) == SET)
 80273b0:	2040      	movs	r0, #64	; 0x40
  * @param  None
  * @retval None
  */
void ETH_IRQHandler(void)
{
  portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE;
 80273b2:	9301      	str	r3, [sp, #4]

  /* Frame received */
  if ( ETH_GetDMAFlagStatus(ETH_DMA_FLAG_R) == SET)
 80273b4:	f010 fece 	bl	8038154 <ETH_GetDMAFlagStatus>
 80273b8:	2801      	cmp	r0, #1
 80273ba:	d104      	bne.n	80273c6 <ETH_IRQHandler+0x1a>
  {
    /* Give the semaphore to wakeup LwIP task */
    xSemaphoreGiveFromISR( s_xSemaphore, &xHigherPriorityTaskWoken );
 80273bc:	4b09      	ldr	r3, [pc, #36]	; (80273e4 <ETH_IRQHandler+0x38>)
 80273be:	a901      	add	r1, sp, #4
 80273c0:	6818      	ldr	r0, [r3, #0]
 80273c2:	f003 fbfa 	bl	802abba <xQueueGiveFromISR>
  }

  /* Clear the interrupt flags. */
  /* Clear the Eth DMA Rx IT pending bits */
  ETH_DMAClearITPendingBit(ETH_DMA_IT_R);
 80273c6:	2040      	movs	r0, #64	; 0x40
 80273c8:	f010 feda 	bl	8038180 <ETH_DMAClearITPendingBit>
  ETH_DMAClearITPendingBit(ETH_DMA_IT_NIS);
 80273cc:	f44f 3080 	mov.w	r0, #65536	; 0x10000
 80273d0:	f010 fed6 	bl	8038180 <ETH_DMAClearITPendingBit>

  // Switch tasks if necessary. */
  if( xHigherPriorityTaskWoken != pdFALSE )
 80273d4:	9b01      	ldr	r3, [sp, #4]
 80273d6:	b11b      	cbz	r3, 80273e0 <ETH_IRQHandler+0x34>
  {
    portEND_SWITCHING_ISR( xHigherPriorityTaskWoken );
 80273d8:	4b03      	ldr	r3, [pc, #12]	; (80273e8 <ETH_IRQHandler+0x3c>)
 80273da:	f04f 5280 	mov.w	r2, #268435456	; 0x10000000
 80273de:	601a      	str	r2, [r3, #0]
  }
}
 80273e0:	bd0e      	pop	{r1, r2, r3, pc}
 80273e2:	bf00      	nop
 80273e4:	2000c7d0 	.word	0x2000c7d0
 80273e8:	e000ed04 	.word	0xe000ed04

080273ec <ulli2a>:


#ifdef PRINTF_LONG_LONG_SUPPORT
static void _TFP_GCC_NO_INLINE_ ulli2a(
    unsigned long long int num, struct param *p)
{
 80273ec:	e92d 4ff8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, lr}
    int n = 0;
    unsigned long long int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
 80273f0:	68d3      	ldr	r3, [r2, #12]
static void _TFP_GCC_NO_INLINE_ ulli2a(
    unsigned long long int num, struct param *p)
{
    int n = 0;
    unsigned long long int d = 1;
    char *bf = p->bf;
 80273f2:	f8d2 b010 	ldr.w	fp, [r2, #16]


#ifdef PRINTF_LONG_LONG_SUPPORT
static void _TFP_GCC_NO_INLINE_ ulli2a(
    unsigned long long int num, struct param *p)
{
 80273f6:	4681      	mov	r9, r0
 80273f8:	468a      	mov	sl, r1
 80273fa:	4690      	mov	r8, r2
    int n = 0;
    unsigned long long int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
 80273fc:	461e      	mov	r6, r3
 80273fe:	2700      	movs	r7, #0
#ifdef PRINTF_LONG_LONG_SUPPORT
static void _TFP_GCC_NO_INLINE_ ulli2a(
    unsigned long long int num, struct param *p)
{
    int n = 0;
    unsigned long long int d = 1;
 8027400:	2401      	movs	r4, #1
 8027402:	2500      	movs	r5, #0
    char *bf = p->bf;
    while (num / d >= p->base)
 8027404:	e006      	b.n	8027414 <ulli2a+0x28>
        d *= p->base;
 8027406:	fb04 f307 	mul.w	r3, r4, r7
 802740a:	fb06 3305 	mla	r3, r6, r5, r3
 802740e:	fba4 4506 	umull	r4, r5, r4, r6
 8027412:	195d      	adds	r5, r3, r5
    unsigned long long int num, struct param *p)
{
    int n = 0;
    unsigned long long int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
 8027414:	4648      	mov	r0, r9
 8027416:	4651      	mov	r1, sl
 8027418:	4622      	mov	r2, r4
 802741a:	462b      	mov	r3, r5
 802741c:	f7f9 fed6 	bl	80211cc <__aeabi_uldivmod>
 8027420:	42b9      	cmp	r1, r7
 8027422:	bf08      	it	eq
 8027424:	42b0      	cmpeq	r0, r6
 8027426:	d2ee      	bcs.n	8027406 <ulli2a+0x1a>
 8027428:	2600      	movs	r6, #0
 802742a:	e02d      	b.n	8027488 <ulli2a+0x9c>
        d *= p->base;
    while (d != 0) {
        int dgt = num / d;
 802742c:	4622      	mov	r2, r4
 802742e:	462b      	mov	r3, r5
 8027430:	4648      	mov	r0, r9
 8027432:	4651      	mov	r1, sl
 8027434:	f7f9 feca 	bl	80211cc <__aeabi_uldivmod>
        num %= d;
 8027438:	4651      	mov	r1, sl
 802743a:	4622      	mov	r2, r4
 802743c:	462b      	mov	r3, r5
    unsigned long long int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
        d *= p->base;
    while (d != 0) {
        int dgt = num / d;
 802743e:	4607      	mov	r7, r0
        num %= d;
 8027440:	4648      	mov	r0, r9
 8027442:	f7f9 fec3 	bl	80211cc <__aeabi_uldivmod>
        d /= p->base;
 8027446:	4620      	mov	r0, r4
 8027448:	4629      	mov	r1, r5
    char *bf = p->bf;
    while (num / d >= p->base)
        d *= p->base;
    while (d != 0) {
        int dgt = num / d;
        num %= d;
 802744a:	4691      	mov	r9, r2
 802744c:	469a      	mov	sl, r3
        d /= p->base;
 802744e:	f8d8 200c 	ldr.w	r2, [r8, #12]
 8027452:	2300      	movs	r3, #0
 8027454:	f7f9 feba 	bl	80211cc <__aeabi_uldivmod>
 8027458:	4604      	mov	r4, r0
 802745a:	460d      	mov	r5, r1
        if (n || dgt > 0 || d == 0) {
 802745c:	b926      	cbnz	r6, 8027468 <ulli2a+0x7c>
 802745e:	2f00      	cmp	r7, #0
 8027460:	dc02      	bgt.n	8027468 <ulli2a+0x7c>
 8027462:	ea54 0305 	orrs.w	r3, r4, r5
 8027466:	d1e1      	bne.n	802742c <ulli2a+0x40>
            *bf++ = dgt + (dgt < 10 ? '0' : (p->uc ? 'A' : 'a') - 10);
 8027468:	2f09      	cmp	r7, #9
 802746a:	b2fa      	uxtb	r2, r7
 802746c:	dd07      	ble.n	802747e <ulli2a+0x92>
 802746e:	f898 3000 	ldrb.w	r3, [r8]
 8027472:	f013 0f04 	tst.w	r3, #4
 8027476:	bf0c      	ite	eq
 8027478:	2357      	moveq	r3, #87	; 0x57
 802747a:	2337      	movne	r3, #55	; 0x37
 802747c:	e000      	b.n	8027480 <ulli2a+0x94>
 802747e:	2330      	movs	r3, #48	; 0x30
 8027480:	189b      	adds	r3, r3, r2
 8027482:	f80b 3b01 	strb.w	r3, [fp], #1
            ++n;
 8027486:	3601      	adds	r6, #1
    int n = 0;
    unsigned long long int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
        d *= p->base;
    while (d != 0) {
 8027488:	ea54 0305 	orrs.w	r3, r4, r5
 802748c:	d1ce      	bne.n	802742c <ulli2a+0x40>
        if (n || dgt > 0 || d == 0) {
            *bf++ = dgt + (dgt < 10 ? '0' : (p->uc ? 'A' : 'a') - 10);
            ++n;
        }
    }
    *bf = 0;
 802748e:	2300      	movs	r3, #0
 8027490:	f88b 3000 	strb.w	r3, [fp]
 8027494:	e8bd 8ff8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}

08027498 <uli2a>:
}
#endif

#ifdef PRINTF_LONG_SUPPORT
static void uli2a(unsigned long int num, struct param *p)
{
 8027498:	b570      	push	{r4, r5, r6, lr}
    int n = 0;
    unsigned long int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
 802749a:	68ca      	ldr	r2, [r1, #12]
#ifdef PRINTF_LONG_SUPPORT
static void uli2a(unsigned long int num, struct param *p)
{
    int n = 0;
    unsigned long int d = 1;
    char *bf = p->bf;
 802749c:	690c      	ldr	r4, [r1, #16]

#ifdef PRINTF_LONG_SUPPORT
static void uli2a(unsigned long int num, struct param *p)
{
    int n = 0;
    unsigned long int d = 1;
 802749e:	2301      	movs	r3, #1
    char *bf = p->bf;
    while (num / d >= p->base)
 80274a0:	e000      	b.n	80274a4 <uli2a+0xc>
        d *= p->base;
 80274a2:	4353      	muls	r3, r2
static void uli2a(unsigned long int num, struct param *p)
{
    int n = 0;
    unsigned long int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
 80274a4:	fbb0 f5f3 	udiv	r5, r0, r3
 80274a8:	4295      	cmp	r5, r2
 80274aa:	d2fa      	bcs.n	80274a2 <uli2a+0xa>
 80274ac:	2500      	movs	r5, #0
 80274ae:	e01a      	b.n	80274e6 <uli2a+0x4e>
        d *= p->base;
    while (d != 0) {
        int dgt = num / d;
        num %= d;
        d /= p->base;
 80274b0:	68ce      	ldr	r6, [r1, #12]
    unsigned long int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
        d *= p->base;
    while (d != 0) {
        int dgt = num / d;
 80274b2:	fbb0 f2f3 	udiv	r2, r0, r3
        num %= d;
 80274b6:	fb03 0012 	mls	r0, r3, r2, r0
        d /= p->base;
 80274ba:	fbb3 f3f6 	udiv	r3, r3, r6
        if (n || dgt > 0 || d == 0) {
 80274be:	b91d      	cbnz	r5, 80274c8 <uli2a+0x30>
 80274c0:	2a00      	cmp	r2, #0
 80274c2:	dc01      	bgt.n	80274c8 <uli2a+0x30>
 80274c4:	2b00      	cmp	r3, #0
 80274c6:	d1f3      	bne.n	80274b0 <uli2a+0x18>
            *bf++ = dgt + (dgt < 10 ? '0' : (p->uc ? 'A' : 'a') - 10);
 80274c8:	2a09      	cmp	r2, #9
 80274ca:	b2d6      	uxtb	r6, r2
 80274cc:	dd06      	ble.n	80274dc <uli2a+0x44>
 80274ce:	780a      	ldrb	r2, [r1, #0]
 80274d0:	f012 0f04 	tst.w	r2, #4
 80274d4:	bf0c      	ite	eq
 80274d6:	2257      	moveq	r2, #87	; 0x57
 80274d8:	2237      	movne	r2, #55	; 0x37
 80274da:	e000      	b.n	80274de <uli2a+0x46>
 80274dc:	2230      	movs	r2, #48	; 0x30
 80274de:	1992      	adds	r2, r2, r6
 80274e0:	f804 2b01 	strb.w	r2, [r4], #1
            ++n;
 80274e4:	3501      	adds	r5, #1
    int n = 0;
    unsigned long int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
        d *= p->base;
    while (d != 0) {
 80274e6:	2b00      	cmp	r3, #0
 80274e8:	d1e2      	bne.n	80274b0 <uli2a+0x18>
        if (n || dgt > 0 || d == 0) {
            *bf++ = dgt + (dgt < 10 ? '0' : (p->uc ? 'A' : 'a') - 10);
            ++n;
        }
    }
    *bf = 0;
 80274ea:	7023      	strb	r3, [r4, #0]
 80274ec:	bd70      	pop	{r4, r5, r6, pc}

080274ee <ui2a>:
    uli2a(num, p);
}
#endif

static void ui2a(unsigned int num, struct param *p)
{
 80274ee:	b570      	push	{r4, r5, r6, lr}
    int n = 0;
    unsigned int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
 80274f0:	68ca      	ldr	r2, [r1, #12]

static void ui2a(unsigned int num, struct param *p)
{
    int n = 0;
    unsigned int d = 1;
    char *bf = p->bf;
 80274f2:	690c      	ldr	r4, [r1, #16]
#endif

static void ui2a(unsigned int num, struct param *p)
{
    int n = 0;
    unsigned int d = 1;
 80274f4:	2301      	movs	r3, #1
    char *bf = p->bf;
    while (num / d >= p->base)
 80274f6:	e000      	b.n	80274fa <ui2a+0xc>
        d *= p->base;
 80274f8:	4353      	muls	r3, r2
static void ui2a(unsigned int num, struct param *p)
{
    int n = 0;
    unsigned int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
 80274fa:	fbb0 f5f3 	udiv	r5, r0, r3
 80274fe:	4295      	cmp	r5, r2
 8027500:	d2fa      	bcs.n	80274f8 <ui2a+0xa>
 8027502:	2500      	movs	r5, #0
 8027504:	e01a      	b.n	802753c <ui2a+0x4e>
        d *= p->base;
    while (d != 0) {
        int dgt = num / d;
        num %= d;
        d /= p->base;
 8027506:	68ce      	ldr	r6, [r1, #12]
    unsigned int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
        d *= p->base;
    while (d != 0) {
        int dgt = num / d;
 8027508:	fbb0 f2f3 	udiv	r2, r0, r3
        num %= d;
 802750c:	fb03 0012 	mls	r0, r3, r2, r0
        d /= p->base;
 8027510:	fbb3 f3f6 	udiv	r3, r3, r6
        if (n || dgt > 0 || d == 0) {
 8027514:	b91d      	cbnz	r5, 802751e <ui2a+0x30>
 8027516:	2a00      	cmp	r2, #0
 8027518:	dc01      	bgt.n	802751e <ui2a+0x30>
 802751a:	2b00      	cmp	r3, #0
 802751c:	d1f3      	bne.n	8027506 <ui2a+0x18>
            *bf++ = dgt + (dgt < 10 ? '0' : (p->uc ? 'A' : 'a') - 10);
 802751e:	2a09      	cmp	r2, #9
 8027520:	b2d6      	uxtb	r6, r2
 8027522:	dd06      	ble.n	8027532 <ui2a+0x44>
 8027524:	780a      	ldrb	r2, [r1, #0]
 8027526:	f012 0f04 	tst.w	r2, #4
 802752a:	bf0c      	ite	eq
 802752c:	2257      	moveq	r2, #87	; 0x57
 802752e:	2237      	movne	r2, #55	; 0x37
 8027530:	e000      	b.n	8027534 <ui2a+0x46>
 8027532:	2230      	movs	r2, #48	; 0x30
 8027534:	1992      	adds	r2, r2, r6
 8027536:	f804 2b01 	strb.w	r2, [r4], #1
            ++n;
 802753a:	3501      	adds	r5, #1
    int n = 0;
    unsigned int d = 1;
    char *bf = p->bf;
    while (num / d >= p->base)
        d *= p->base;
    while (d != 0) {
 802753c:	2b00      	cmp	r3, #0
 802753e:	d1e2      	bne.n	8027506 <ui2a+0x18>
        if (n || dgt > 0 || d == 0) {
            *bf++ = dgt + (dgt < 10 ? '0' : (p->uc ? 'A' : 'a') - 10);
            ++n;
        }
    }
    *bf = 0;
 8027540:	7023      	strb	r3, [r4, #0]
 8027542:	bd70      	pop	{r4, r5, r6, pc}

08027544 <putchw>:


}

static void putchw(void *putp, putcf putf, struct param *p)
{
 8027544:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
    char ch;
    int n = p->width;
    char *bf = p->bf;
 8027548:	6913      	ldr	r3, [r2, #16]
}

static void putchw(void *putp, putcf putf, struct param *p)
{
    char ch;
    int n = p->width;
 802754a:	6854      	ldr	r4, [r2, #4]


}

static void putchw(void *putp, putcf putf, struct param *p)
{
 802754c:	4606      	mov	r6, r0
 802754e:	460f      	mov	r7, r1
 8027550:	4615      	mov	r5, r2
    char ch;
    int n = p->width;
    char *bf = p->bf;

    /* Number of filling characters */
    while (*bf++ && n > 0)
 8027552:	e000      	b.n	8027556 <putchw+0x12>
        n--;
 8027554:	3c01      	subs	r4, #1
    char ch;
    int n = p->width;
    char *bf = p->bf;

    /* Number of filling characters */
    while (*bf++ && n > 0)
 8027556:	f813 2b01 	ldrb.w	r2, [r3], #1
 802755a:	b912      	cbnz	r2, 8027562 <putchw+0x1e>
        n--;
    if (p->sign)
 802755c:	7a2b      	ldrb	r3, [r5, #8]
 802755e:	b91b      	cbnz	r3, 8027568 <putchw+0x24>
 8027560:	e003      	b.n	802756a <putchw+0x26>
    char ch;
    int n = p->width;
    char *bf = p->bf;

    /* Number of filling characters */
    while (*bf++ && n > 0)
 8027562:	2c00      	cmp	r4, #0
 8027564:	dcf6      	bgt.n	8027554 <putchw+0x10>
 8027566:	e7f9      	b.n	802755c <putchw+0x18>
        n--;
    if (p->sign)
        n--;
 8027568:	3c01      	subs	r4, #1
    if (p->alt && p->base == 16)
 802756a:	782b      	ldrb	r3, [r5, #0]
 802756c:	0799      	lsls	r1, r3, #30
 802756e:	d507      	bpl.n	8027580 <putchw+0x3c>
 8027570:	68eb      	ldr	r3, [r5, #12]
 8027572:	2b10      	cmp	r3, #16
 8027574:	d101      	bne.n	802757a <putchw+0x36>
        n -= 2;
 8027576:	3c02      	subs	r4, #2
 8027578:	e002      	b.n	8027580 <putchw+0x3c>
    else if (p->alt && p->base == 8)
 802757a:	2b08      	cmp	r3, #8
        n--;
 802757c:	bf08      	it	eq
 802757e:	3c01      	subeq	r4, #1

    /* Fill with space to align to the right, before alternate or sign */
    if (!p->lz && !p->align_left) {
 8027580:	782b      	ldrb	r3, [r5, #0]
 8027582:	f013 0f09 	tst.w	r3, #9
 8027586:	d10d      	bne.n	80275a4 <putchw+0x60>
 8027588:	46a0      	mov	r8, r4
 802758a:	e004      	b.n	8027596 <putchw+0x52>
        while (n-- > 0)
            putf(putp, ' ');
 802758c:	4630      	mov	r0, r6
 802758e:	2120      	movs	r1, #32
 8027590:	47b8      	blx	r7
 8027592:	f108 38ff 	add.w	r8, r8, #4294967295
    else if (p->alt && p->base == 8)
        n--;

    /* Fill with space to align to the right, before alternate or sign */
    if (!p->lz && !p->align_left) {
        while (n-- > 0)
 8027596:	f1b8 0f00 	cmp.w	r8, #0
 802759a:	dcf7      	bgt.n	802758c <putchw+0x48>
    return neg ? -fvalue : fvalue;


}

static void putchw(void *putp, putcf putf, struct param *p)
 802759c:	1e63      	subs	r3, r4, #1
 802759e:	ea24 74e4 	bic.w	r4, r4, r4, asr #31
 80275a2:	1b1c      	subs	r4, r3, r4
        while (n-- > 0)
            putf(putp, ' ');
    }

    /* print sign */
    if (p->sign)
 80275a4:	7a29      	ldrb	r1, [r5, #8]
 80275a6:	b109      	cbz	r1, 80275ac <putchw+0x68>
        putf(putp, p->sign);
 80275a8:	4630      	mov	r0, r6
 80275aa:	47b8      	blx	r7

    /* Alternate */
    if (p->alt && p->base == 16) {
 80275ac:	782b      	ldrb	r3, [r5, #0]
 80275ae:	079a      	lsls	r2, r3, #30
 80275b0:	d512      	bpl.n	80275d8 <putchw+0x94>
 80275b2:	68eb      	ldr	r3, [r5, #12]
 80275b4:	2b10      	cmp	r3, #16
 80275b6:	d10a      	bne.n	80275ce <putchw+0x8a>
        putf(putp, '0');
 80275b8:	2130      	movs	r1, #48	; 0x30
 80275ba:	4630      	mov	r0, r6
 80275bc:	47b8      	blx	r7
        putf(putp, (p->uc ? 'X' : 'x'));
 80275be:	782b      	ldrb	r3, [r5, #0]
 80275c0:	f013 0f04 	tst.w	r3, #4
 80275c4:	4630      	mov	r0, r6
 80275c6:	bf0c      	ite	eq
 80275c8:	2178      	moveq	r1, #120	; 0x78
 80275ca:	2158      	movne	r1, #88	; 0x58
 80275cc:	e003      	b.n	80275d6 <putchw+0x92>
    } else if (p->alt && p->base == 8) {
 80275ce:	2b08      	cmp	r3, #8
 80275d0:	d102      	bne.n	80275d8 <putchw+0x94>
        putf(putp, '0');
 80275d2:	4630      	mov	r0, r6
 80275d4:	2130      	movs	r1, #48	; 0x30
 80275d6:	47b8      	blx	r7
    }

    /* Fill with zeros, after alternate or sign */
    if (p->lz) {
 80275d8:	782b      	ldrb	r3, [r5, #0]
 80275da:	07db      	lsls	r3, r3, #31
 80275dc:	d50d      	bpl.n	80275fa <putchw+0xb6>
 80275de:	46a0      	mov	r8, r4
 80275e0:	e004      	b.n	80275ec <putchw+0xa8>
        while (n-- > 0)
            putf(putp, '0');
 80275e2:	4630      	mov	r0, r6
 80275e4:	2130      	movs	r1, #48	; 0x30
 80275e6:	47b8      	blx	r7
 80275e8:	f108 38ff 	add.w	r8, r8, #4294967295
        putf(putp, '0');
    }

    /* Fill with zeros, after alternate or sign */
    if (p->lz) {
        while (n-- > 0)
 80275ec:	f1b8 0f00 	cmp.w	r8, #0
 80275f0:	dcf7      	bgt.n	80275e2 <putchw+0x9e>
    return neg ? -fvalue : fvalue;


}

static void putchw(void *putp, putcf putf, struct param *p)
 80275f2:	1e63      	subs	r3, r4, #1
 80275f4:	ea24 74e4 	bic.w	r4, r4, r4, asr #31
 80275f8:	1b1c      	subs	r4, r3, r4
        while (n-- > 0)
            putf(putp, '0');
    }

    /* Put actual buffer */
    bf = p->bf;
 80275fa:	f8d5 8010 	ldr.w	r8, [r5, #16]
    while ((ch = *bf++))
 80275fe:	e001      	b.n	8027604 <putchw+0xc0>
        putf(putp, ch);
 8027600:	4630      	mov	r0, r6
 8027602:	47b8      	blx	r7
            putf(putp, '0');
    }

    /* Put actual buffer */
    bf = p->bf;
    while ((ch = *bf++))
 8027604:	f818 1b01 	ldrb.w	r1, [r8], #1
 8027608:	2900      	cmp	r1, #0
 802760a:	d1f9      	bne.n	8027600 <putchw+0xbc>
        putf(putp, ch);

    /* Fill with space to align to the left, after string */
    if (!p->lz && p->align_left) {
 802760c:	782b      	ldrb	r3, [r5, #0]
 802760e:	f003 0309 	and.w	r3, r3, #9
 8027612:	2b08      	cmp	r3, #8
 8027614:	d106      	bne.n	8027624 <putchw+0xe0>
 8027616:	e003      	b.n	8027620 <putchw+0xdc>
        while (n-- > 0)
            putf(putp, ' ');
 8027618:	4630      	mov	r0, r6
 802761a:	2120      	movs	r1, #32
 802761c:	47b8      	blx	r7
 802761e:	3c01      	subs	r4, #1
    while ((ch = *bf++))
        putf(putp, ch);

    /* Fill with space to align to the left, after string */
    if (!p->lz && p->align_left) {
        while (n-- > 0)
 8027620:	2c00      	cmp	r4, #0
 8027622:	dcf9      	bgt.n	8027618 <putchw+0xd4>
 8027624:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}

08027628 <_vsnprintf_putcf>:
};

static void _vsnprintf_putcf(void *p, char c)
{
  struct _vsnprintf_putcf_data *data = (struct _vsnprintf_putcf_data*)p;
  if (data->num_chars < data->dest_capacity)
 8027628:	6883      	ldr	r3, [r0, #8]
 802762a:	6802      	ldr	r2, [r0, #0]
 802762c:	4293      	cmp	r3, r2
    data->dest[data->num_chars] = c;
 802762e:	bf3c      	itt	cc
 8027630:	6842      	ldrcc	r2, [r0, #4]
 8027632:	54d1      	strbcc	r1, [r2, r3]
  data->num_chars ++;
 8027634:	6883      	ldr	r3, [r0, #8]
 8027636:	3301      	adds	r3, #1
 8027638:	6083      	str	r3, [r0, #8]
 802763a:	4770      	bx	lr

0802763c <_vsprintf_putcf>:
};

static void _vsprintf_putcf(void *p, char c)
{
  struct _vsprintf_putcf_data *data = (struct _vsprintf_putcf_data*)p;
  data->dest[data->num_chars++] = c;
 802763c:	e890 000c 	ldmia.w	r0, {r2, r3}
 8027640:	54d1      	strb	r1, [r2, r3]
 8027642:	3301      	adds	r3, #1
 8027644:	6043      	str	r3, [r0, #4]
 8027646:	4770      	bx	lr

08027648 <tfp_format>:
            putf(putp, ' ');
    }
}

void tfp_format(void *putp, putcf putf, const char *fmt, va_list va)
{
 8027648:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 802764c:	b09b      	sub	sp, #108	; 0x6c
 802764e:	4617      	mov	r7, r2
    char bf[23];  /* long = 64b on some architectures */
#else
    char bf[12];  /* int = 32b on some architectures */
#endif
    char ch;
    p.bf = bf;
 8027650:	aa04      	add	r2, sp, #16
            putf(putp, ' ');
    }
}

void tfp_format(void *putp, putcf putf, const char *fmt, va_list va)
{
 8027652:	4605      	mov	r5, r0
 8027654:	460e      	mov	r6, r1
 8027656:	461c      	mov	r4, r3
    char bf[23];  /* long = 64b on some architectures */
#else
    char bf[12];  /* int = 32b on some architectures */
#endif
    char ch;
    p.bf = bf;
 8027658:	920e      	str	r2, [sp, #56]	; 0x38

    while ((ch = *(fmt++))) {
 802765a:	e208      	b.n	8027a6e <tfp_format+0x426>
        if (ch != '%') {
 802765c:	2925      	cmp	r1, #37	; 0x25
 802765e:	d000      	beq.n	8027662 <tfp_format+0x1a>
 8027660:	e13a      	b.n	80278d8 <tfp_format+0x290>
#endif
            /* Init parameter struct */
            p.lz = 0;
            p.alt = 0;
            p.width = 0;
            p.align_left = 0;
 8027662:	f89d 2028 	ldrb.w	r2, [sp, #40]	; 0x28
            char lng = 0;  /* 1 for long, 2 for long long */
#endif
            /* Init parameter struct */
            p.lz = 0;
            p.alt = 0;
            p.width = 0;
 8027666:	2300      	movs	r3, #0
            p.align_left = 0;
 8027668:	f002 02fc 	and.w	r2, r2, #252	; 0xfc
 802766c:	f363 02c3 	bfi	r2, r3, #3, #1
 8027670:	f88d 2028 	strb.w	r2, [sp, #40]	; 0x28
            p.sign = 0;
            p.prec = 2;
 8027674:	2102      	movs	r1, #2
        } else {
#ifdef PRINTF_LONG_SUPPORT
            char lng = 0;  /* 1 for long, 2 for long long */
#endif
            /* Init parameter struct */
            p.lz = 0;
 8027676:	b2d2      	uxtb	r2, r2
 8027678:	f002 0c01 	and.w	ip, r2, #1
 802767c:	f3c2 0040 	ubfx	r0, r2, #1, #1
            p.alt = 0;
            p.width = 0;
 8027680:	930b      	str	r3, [sp, #44]	; 0x2c
            p.align_left = 0;
            p.sign = 0;
 8027682:	f88d 3030 	strb.w	r3, [sp, #48]	; 0x30
            p.prec = 2;
 8027686:	f88d 103c 	strb.w	r1, [sp, #60]	; 0x3c
 802768a:	f3c2 02c0 	ubfx	r2, r2, #3, #1

            /* Flags */
            while ((ch = *(fmt++))) {
 802768e:	e012      	b.n	80276b6 <tfp_format+0x6e>
                switch (ch) {
 8027690:	292d      	cmp	r1, #45	; 0x2d
 8027692:	d00f      	beq.n	80276b4 <tfp_format+0x6c>
 8027694:	d804      	bhi.n	80276a0 <tfp_format+0x58>
 8027696:	2923      	cmp	r1, #35	; 0x23
 8027698:	d008      	beq.n	80276ac <tfp_format+0x64>
 802769a:	292b      	cmp	r1, #43	; 0x2b
 802769c:	d10f      	bne.n	80276be <tfp_format+0x76>
 802769e:	e007      	b.n	80276b0 <tfp_format+0x68>
 80276a0:	2930      	cmp	r1, #48	; 0x30
 80276a2:	d000      	beq.n	80276a6 <tfp_format+0x5e>
 80276a4:	e00b      	b.n	80276be <tfp_format+0x76>
                case '-':
                    p.align_left = 1;
                    continue;
                case '0':
                    p.lz = 1;
 80276a6:	f04f 0c01 	mov.w	ip, #1
                    continue;
 80276aa:	e004      	b.n	80276b6 <tfp_format+0x6e>
                case '#':
                    p.alt = 1;
 80276ac:	2001      	movs	r0, #1
                    continue;
 80276ae:	e002      	b.n	80276b6 <tfp_format+0x6e>
                case '+':
                	p.sign = 1;
 80276b0:	2301      	movs	r3, #1
                	continue;
 80276b2:	e000      	b.n	80276b6 <tfp_format+0x6e>

            /* Flags */
            while ((ch = *(fmt++))) {
                switch (ch) {
                case '-':
                    p.align_left = 1;
 80276b4:	2201      	movs	r2, #1
            p.align_left = 0;
            p.sign = 0;
            p.prec = 2;

            /* Flags */
            while ((ch = *(fmt++))) {
 80276b6:	f817 1b01 	ldrb.w	r1, [r7], #1
 80276ba:	2900      	cmp	r1, #0
 80276bc:	d1e8      	bne.n	8027690 <tfp_format+0x48>
 80276be:	f89d 8028 	ldrb.w	r8, [sp, #40]	; 0x28
 80276c2:	f88d 3030 	strb.w	r3, [sp, #48]	; 0x30
 80276c6:	f36c 0800 	bfi	r8, ip, #0, #1
 80276ca:	46c4      	mov	ip, r8
 80276cc:	f360 0c41 	bfi	ip, r0, #1, #1
 80276d0:	4660      	mov	r0, ip
                }
                break;
            }

            /* Width */
            if (ch >= '0' && ch <= '9') {
 80276d2:	f1a1 0330 	sub.w	r3, r1, #48	; 0x30
 80276d6:	f362 00c3 	bfi	r0, r2, #3, #1
 80276da:	2b09      	cmp	r3, #9
 80276dc:	f88d 0028 	strb.w	r0, [sp, #40]	; 0x28
 80276e0:	d81d      	bhi.n	802771e <tfp_format+0xd6>
 80276e2:	e004      	b.n	80276ee <tfp_format+0xa6>
    unsigned int num = 0;
    int digit;
    while ((digit = a2d(ch)) >= 0) {
        if (digit > base)
            break;
        num = num * base + digit;
 80276e4:	fb00 3202 	mla	r2, r0, r2, r3
        ch = *p++;
 80276e8:	f817 1b01 	ldrb.w	r1, [r7], #1
 80276ec:	e001      	b.n	80276f2 <tfp_format+0xaa>
                }
                break;
            }

            /* Width */
            if (ch >= '0' && ch <= '9') {
 80276ee:	2200      	movs	r2, #0
    unsigned int num = 0;
    int digit;
    while ((digit = a2d(ch)) >= 0) {
        if (digit > base)
            break;
        num = num * base + digit;
 80276f0:	200a      	movs	r0, #10
    ui2a(num, p);
}

static int a2d(char ch)
{
    if (ch >= '0' && ch <= '9')
 80276f2:	f1a1 0330 	sub.w	r3, r1, #48	; 0x30
 80276f6:	fa5f fc83 	uxtb.w	ip, r3
 80276fa:	f1bc 0f09 	cmp.w	ip, #9
 80276fe:	d9f1      	bls.n	80276e4 <tfp_format+0x9c>
        return ch - '0';
    else if (ch >= 'a' && ch <= 'f')
 8027700:	f1a1 0361 	sub.w	r3, r1, #97	; 0x61
 8027704:	2b05      	cmp	r3, #5
 8027706:	d802      	bhi.n	802770e <tfp_format+0xc6>
        return ch - 'a' + 10;
 8027708:	f1a1 0357 	sub.w	r3, r1, #87	; 0x57
 802770c:	e1b5      	b.n	8027a7a <tfp_format+0x432>
    else if (ch >= 'A' && ch <= 'F')
 802770e:	f1a1 0341 	sub.w	r3, r1, #65	; 0x41
 8027712:	2b05      	cmp	r3, #5
 8027714:	d802      	bhi.n	802771c <tfp_format+0xd4>
        return ch - 'A' + 10;
 8027716:	f1a1 0337 	sub.w	r3, r1, #55	; 0x37
 802771a:	e1ae      	b.n	8027a7a <tfp_format+0x432>
            break;
        num = num * base + digit;
        ch = *p++;
    }
    *src = p;
    *nump = num;
 802771c:	920b      	str	r2, [sp, #44]	; 0x2c
            }

            /* We accept 'x.y' format but don't support it completely:
             * we ignore the 'y' digit => this ignores 0-fill
             * size and makes it == width (ie. 'x') */
            if (ch == '.') {
 802771e:	292e      	cmp	r1, #46	; 0x2e
 8027720:	d10e      	bne.n	8027740 <tfp_format+0xf8>
              //p.lz = 1;  /* zero-padding */
              /* ignore actual 0-fill size: */
               ch = *(fmt++);
               if (ch >= '0' && ch <= '9')
 8027722:	783a      	ldrb	r2, [r7, #0]
 8027724:	3a30      	subs	r2, #48	; 0x30
 8027726:	b2d2      	uxtb	r2, r2
             * we ignore the 'y' digit => this ignores 0-fill
             * size and makes it == width (ie. 'x') */
            if (ch == '.') {
              //p.lz = 1;  /* zero-padding */
              /* ignore actual 0-fill size: */
               ch = *(fmt++);
 8027728:	1c7b      	adds	r3, r7, #1
               if (ch >= '0' && ch <= '9')
 802772a:	2a09      	cmp	r2, #9
            	   p.prec = ch - '0';
 802772c:	bf98      	it	ls
 802772e:	f88d 203c 	strbls.w	r2, [sp, #60]	; 0x3c
               do
               {
            	   ch = *(fmt++);
 8027732:	f813 1b01 	ldrb.w	r1, [r3], #1
               }   while (ch >= '0' && ch <= '9');
 8027736:	f1a1 0230 	sub.w	r2, r1, #48	; 0x30
 802773a:	2a09      	cmp	r2, #9
               ch = *(fmt++);
               if (ch >= '0' && ch <= '9')
            	   p.prec = ch - '0';
               do
               {
            	   ch = *(fmt++);
 802773c:	461f      	mov	r7, r3
               }   while (ch >= '0' && ch <= '9');
 802773e:	d9f8      	bls.n	8027732 <tfp_format+0xea>

            }

#ifdef PRINTF_SIZE_T_SUPPORT
# ifdef PRINTF_LONG_SUPPORT
            if (ch == 'z') {
 8027740:	297a      	cmp	r1, #122	; 0x7a
 8027742:	d102      	bne.n	802774a <tfp_format+0x102>
                ch = *(fmt++);
 8027744:	f817 1b01 	ldrb.w	r1, [r7], #1
 8027748:	e005      	b.n	8027756 <tfp_format+0x10e>
            } else
# endif
#endif

#ifdef PRINTF_LONG_SUPPORT
            if (ch == 'l') {
 802774a:	296c      	cmp	r1, #108	; 0x6c
 802774c:	d109      	bne.n	8027762 <tfp_format+0x11a>
                ch = *(fmt++);
 802774e:	7839      	ldrb	r1, [r7, #0]
                lng = 1;
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (ch == 'l') {
 8027750:	296c      	cmp	r1, #108	; 0x6c
 8027752:	d002      	beq.n	802775a <tfp_format+0x112>
# endif
#endif

#ifdef PRINTF_LONG_SUPPORT
            if (ch == 'l') {
                ch = *(fmt++);
 8027754:	3701      	adds	r7, #1
                lng = 1;
 8027756:	2301      	movs	r3, #1
 8027758:	e004      	b.n	8027764 <tfp_format+0x11c>
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (ch == 'l') {
                  ch = *(fmt++);
 802775a:	7879      	ldrb	r1, [r7, #1]
                  lng = 2;
 802775c:	2302      	movs	r3, #2
            if (ch == 'l') {
                ch = *(fmt++);
                lng = 1;
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (ch == 'l') {
                  ch = *(fmt++);
 802775e:	3702      	adds	r7, #2
 8027760:	e000      	b.n	8027764 <tfp_format+0x11c>
    while ((ch = *(fmt++))) {
        if (ch != '%') {
            putf(putp, ch);
        } else {
#ifdef PRINTF_LONG_SUPPORT
            char lng = 0;  /* 1 for long, 2 for long long */
 8027762:	2300      	movs	r3, #0
                  lng = 2;
                }
#endif
            }
#endif
            switch (ch) {
 8027764:	2969      	cmp	r1, #105	; 0x69
 8027766:	d036      	beq.n	80277d6 <tfp_format+0x18e>
 8027768:	d816      	bhi.n	8027798 <tfp_format+0x150>
 802776a:	2963      	cmp	r1, #99	; 0x63
 802776c:	f000 80a1 	beq.w	80278b2 <tfp_format+0x26a>
 8027770:	d80c      	bhi.n	802778c <tfp_format+0x144>
 8027772:	2946      	cmp	r1, #70	; 0x46
 8027774:	f000 80b3 	beq.w	80278de <tfp_format+0x296>
 8027778:	d806      	bhi.n	8027788 <tfp_format+0x140>
 802777a:	2900      	cmp	r1, #0
 802777c:	f000 8181 	beq.w	8027a82 <tfp_format+0x43a>
 8027780:	2925      	cmp	r1, #37	; 0x25
 8027782:	f040 8174 	bne.w	8027a6e <tfp_format+0x426>
 8027786:	e0a7      	b.n	80278d8 <tfp_format+0x290>
 8027788:	2958      	cmp	r1, #88	; 0x58
 802778a:	e012      	b.n	80277b2 <tfp_format+0x16a>
 802778c:	2964      	cmp	r1, #100	; 0x64
 802778e:	d022      	beq.n	80277d6 <tfp_format+0x18e>
 8027790:	2966      	cmp	r1, #102	; 0x66
 8027792:	f040 816c 	bne.w	8027a6e <tfp_format+0x426>
 8027796:	e0a2      	b.n	80278de <tfp_format+0x296>
 8027798:	2973      	cmp	r1, #115	; 0x73
 802779a:	f000 8090 	beq.w	80278be <tfp_format+0x276>
 802779e:	d805      	bhi.n	80277ac <tfp_format+0x164>
 80277a0:	296f      	cmp	r1, #111	; 0x6f
 80277a2:	d078      	beq.n	8027896 <tfp_format+0x24e>
 80277a4:	2970      	cmp	r1, #112	; 0x70
 80277a6:	f040 8162 	bne.w	8027a6e <tfp_format+0x426>
 80277aa:	e040      	b.n	802782e <tfp_format+0x1e6>
 80277ac:	2975      	cmp	r1, #117	; 0x75
 80277ae:	d003      	beq.n	80277b8 <tfp_format+0x170>
 80277b0:	2978      	cmp	r1, #120	; 0x78
 80277b2:	f040 815c 	bne.w	8027a6e <tfp_format+0x426>
 80277b6:	e041      	b.n	802783c <tfp_format+0x1f4>
            case 0:
                goto abort;
            case 'u':
                p.base = 10;
 80277b8:	220a      	movs	r2, #10
#ifdef PRINTF_LONG_SUPPORT
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (2 == lng)
 80277ba:	2b02      	cmp	r3, #2
#endif
            switch (ch) {
            case 0:
                goto abort;
            case 'u':
                p.base = 10;
 80277bc:	920d      	str	r2, [sp, #52]	; 0x34
#ifdef PRINTF_LONG_SUPPORT
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (2 == lng)
 80277be:	d107      	bne.n	80277d0 <tfp_format+0x188>
                    ulli2a(va_arg(va, unsigned long long int), &p);
 80277c0:	3407      	adds	r4, #7
 80277c2:	f024 0307 	bic.w	r3, r4, #7
 80277c6:	f103 0408 	add.w	r4, r3, #8
 80277ca:	e9d3 0100 	ldrd	r0, r1, [r3]
 80277ce:	e017      	b.n	8027800 <tfp_format+0x1b8>
                else
#endif
                  if (1 == lng)
                    uli2a(va_arg(va, unsigned long int), &p);
 80277d0:	6820      	ldr	r0, [r4, #0]
 80277d2:	a90a      	add	r1, sp, #40	; 0x28
 80277d4:	e04f      	b.n	8027876 <tfp_format+0x22e>
                    ui2a(va_arg(va, unsigned int), &p);
                putchw(putp, putf, &p);
                break;
            case 'd':
            case 'i':
                p.base = 10;
 80277d6:	220a      	movs	r2, #10
#ifdef PRINTF_LONG_SUPPORT
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (2 == lng)
 80277d8:	2b02      	cmp	r3, #2
                    ui2a(va_arg(va, unsigned int), &p);
                putchw(putp, putf, &p);
                break;
            case 'd':
            case 'i':
                p.base = 10;
 80277da:	920d      	str	r2, [sp, #52]	; 0x34
#ifdef PRINTF_LONG_SUPPORT
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (2 == lng)
 80277dc:	d112      	bne.n	8027804 <tfp_format+0x1bc>
                    lli2a(va_arg(va, long long int), &p);
 80277de:	3407      	adds	r4, #7
 80277e0:	f024 0307 	bic.w	r3, r4, #7
 80277e4:	e9d3 0100 	ldrd	r0, r1, [r3]
 80277e8:	f103 0408 	add.w	r4, r3, #8
    *bf = 0;
}

static void lli2a(long long int num, struct param *p)
{
    if (num < 0) {
 80277ec:	2800      	cmp	r0, #0
 80277ee:	f171 0300 	sbcs.w	r3, r1, #0
 80277f2:	da05      	bge.n	8027800 <tfp_format+0x1b8>
        num = -num;
        p->sign = '-';
 80277f4:	232d      	movs	r3, #45	; 0x2d
}

static void lli2a(long long int num, struct param *p)
{
    if (num < 0) {
        num = -num;
 80277f6:	4240      	negs	r0, r0
 80277f8:	eb61 0141 	sbc.w	r1, r1, r1, lsl #1
        p->sign = '-';
 80277fc:	f88d 3030 	strb.w	r3, [sp, #48]	; 0x30
    }
    ulli2a(num, p);
 8027800:	aa0a      	add	r2, sp, #40	; 0x28
 8027802:	e033      	b.n	802786c <tfp_format+0x224>
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (2 == lng)
                    lli2a(va_arg(va, long long int), &p);
                else
#endif
                  if (1 == lng)
 8027804:	2b01      	cmp	r3, #1
                    li2a(va_arg(va, long int), &p);
 8027806:	6820      	ldr	r0, [r4, #0]
 8027808:	f104 0804 	add.w	r8, r4, #4
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (2 == lng)
                    lli2a(va_arg(va, long long int), &p);
                else
#endif
                  if (1 == lng)
 802780c:	d107      	bne.n	802781e <tfp_format+0x1d6>
    *bf = 0;
}

static void li2a(long num, struct param *p)
{
    if (num < 0) {
 802780e:	2800      	cmp	r0, #0
 8027810:	da03      	bge.n	802781a <tfp_format+0x1d2>
        num = -num;
        p->sign = '-';
 8027812:	232d      	movs	r3, #45	; 0x2d
}

static void li2a(long num, struct param *p)
{
    if (num < 0) {
        num = -num;
 8027814:	4240      	negs	r0, r0
        p->sign = '-';
 8027816:	f88d 3030 	strb.w	r3, [sp, #48]	; 0x30
    }
    uli2a(num, p);
 802781a:	a90a      	add	r1, sp, #40	; 0x28
 802781c:	e02f      	b.n	802787e <tfp_format+0x236>
    *bf = 0;
}

static void i2a(int num, struct param *p)
{
    if (num < 0) {
 802781e:	2800      	cmp	r0, #0
 8027820:	da03      	bge.n	802782a <tfp_format+0x1e2>
        num = -num;
        p->sign = '-';
 8027822:	232d      	movs	r3, #45	; 0x2d
}

static void i2a(int num, struct param *p)
{
    if (num < 0) {
        num = -num;
 8027824:	4240      	negs	r0, r0
        p->sign = '-';
 8027826:	f88d 3030 	strb.w	r3, [sp, #48]	; 0x30
    }
    ui2a(num, p);
 802782a:	a90a      	add	r1, sp, #40	; 0x28
 802782c:	e02a      	b.n	8027884 <tfp_format+0x23c>
                    i2a(va_arg(va, int), &p);
                putchw(putp, putf, &p);
                break;
#ifdef SIZEOF_POINTER
            case 'p':
                p.alt = 1;
 802782e:	f89d 3028 	ldrb.w	r3, [sp, #40]	; 0x28
 8027832:	f043 0302 	orr.w	r3, r3, #2
 8027836:	f88d 3028 	strb.w	r3, [sp, #40]	; 0x28
# if defined(SIZEOF_INT) && SIZEOF_POINTER <= SIZEOF_INT
                lng = 0;
 802783a:	2300      	movs	r3, #0
                lng = 2;
# endif
#endif
            case 'x':
            case 'X':
                p.base = 16;
 802783c:	2210      	movs	r2, #16
                p.uc = (ch == 'X')?1:0;
 802783e:	f1b1 0e58 	subs.w	lr, r1, #88	; 0x58
 8027842:	f1de 0100 	rsbs	r1, lr, #0
 8027846:	f89d 0028 	ldrb.w	r0, [sp, #40]	; 0x28
                lng = 2;
# endif
#endif
            case 'x':
            case 'X':
                p.base = 16;
 802784a:	920d      	str	r2, [sp, #52]	; 0x34
                p.uc = (ch == 'X')?1:0;
 802784c:	eb51 010e 	adcs.w	r1, r1, lr
 8027850:	aa1a      	add	r2, sp, #104	; 0x68
 8027852:	f361 0082 	bfi	r0, r1, #2, #1
#ifdef PRINTF_LONG_SUPPORT
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (2 == lng)
 8027856:	2b02      	cmp	r3, #2
# endif
#endif
            case 'x':
            case 'X':
                p.base = 16;
                p.uc = (ch == 'X')?1:0;
 8027858:	f802 0d40 	strb.w	r0, [r2, #-64]!
#ifdef PRINTF_LONG_SUPPORT
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (2 == lng)
 802785c:	d109      	bne.n	8027872 <tfp_format+0x22a>
                    ulli2a(va_arg(va, unsigned long long int), &p);
 802785e:	3407      	adds	r4, #7
 8027860:	f024 0307 	bic.w	r3, r4, #7
 8027864:	e9d3 0100 	ldrd	r0, r1, [r3]
 8027868:	f103 0408 	add.w	r4, r3, #8
 802786c:	f7ff fdbe 	bl	80273ec <ulli2a>
 8027870:	e00b      	b.n	802788a <tfp_format+0x242>
                else
#endif
                  if (1 == lng)
                    uli2a(va_arg(va, unsigned long int), &p);
 8027872:	6820      	ldr	r0, [r4, #0]
 8027874:	4611      	mov	r1, r2
#ifdef PRINTF_LONG_LONG_SUPPORT
                if (2 == lng)
                    ulli2a(va_arg(va, unsigned long long int), &p);
                else
#endif
                  if (1 == lng)
 8027876:	2b01      	cmp	r3, #1
 8027878:	f104 0804 	add.w	r8, r4, #4
 802787c:	d102      	bne.n	8027884 <tfp_format+0x23c>
                    uli2a(va_arg(va, unsigned long int), &p);
 802787e:	f7ff fe0b 	bl	8027498 <uli2a>
 8027882:	e001      	b.n	8027888 <tfp_format+0x240>
                else
#endif
                    ui2a(va_arg(va, unsigned int), &p);
 8027884:	f7ff fe33 	bl	80274ee <ui2a>
 8027888:	4644      	mov	r4, r8
                putchw(putp, putf, &p);
 802788a:	4628      	mov	r0, r5
 802788c:	4631      	mov	r1, r6
 802788e:	aa0a      	add	r2, sp, #40	; 0x28
 8027890:	f7ff fe58 	bl	8027544 <putchw>
                break;
 8027894:	e0eb      	b.n	8027a6e <tfp_format+0x426>
            case 'o':
                p.base = 8;
 8027896:	2308      	movs	r3, #8
                ui2a(va_arg(va, unsigned int), &p);
 8027898:	6820      	ldr	r0, [r4, #0]
#endif
                    ui2a(va_arg(va, unsigned int), &p);
                putchw(putp, putf, &p);
                break;
            case 'o':
                p.base = 8;
 802789a:	930d      	str	r3, [sp, #52]	; 0x34
                ui2a(va_arg(va, unsigned int), &p);
 802789c:	a90a      	add	r1, sp, #40	; 0x28
 802789e:	f7ff fe26 	bl	80274ee <ui2a>
                putchw(putp, putf, &p);
 80278a2:	4628      	mov	r0, r5
 80278a4:	4631      	mov	r1, r6
 80278a6:	aa0a      	add	r2, sp, #40	; 0x28
                    ui2a(va_arg(va, unsigned int), &p);
                putchw(putp, putf, &p);
                break;
            case 'o':
                p.base = 8;
                ui2a(va_arg(va, unsigned int), &p);
 80278a8:	f104 0804 	add.w	r8, r4, #4
                putchw(putp, putf, &p);
 80278ac:	f7ff fe4a 	bl	8027544 <putchw>
 80278b0:	e010      	b.n	80278d4 <tfp_format+0x28c>
                break;
            case 'c':
                putf(putp, (char)(va_arg(va, int)));
 80278b2:	4628      	mov	r0, r5
 80278b4:	7821      	ldrb	r1, [r4, #0]
 80278b6:	f104 0804 	add.w	r8, r4, #4
 80278ba:	47b0      	blx	r6
 80278bc:	e00a      	b.n	80278d4 <tfp_format+0x28c>
                break;
            case 's':
                p.bf = va_arg(va, char *);
 80278be:	6823      	ldr	r3, [r4, #0]
                putchw(putp, putf, &p);
 80278c0:	aa0a      	add	r2, sp, #40	; 0x28
 80278c2:	4628      	mov	r0, r5
 80278c4:	4631      	mov	r1, r6
                break;
            case 'c':
                putf(putp, (char)(va_arg(va, int)));
                break;
            case 's':
                p.bf = va_arg(va, char *);
 80278c6:	930e      	str	r3, [sp, #56]	; 0x38
                putchw(putp, putf, &p);
 80278c8:	f7ff fe3c 	bl	8027544 <putchw>
                p.bf = bf;
 80278cc:	aa04      	add	r2, sp, #16
                break;
            case 'c':
                putf(putp, (char)(va_arg(va, int)));
                break;
            case 's':
                p.bf = va_arg(va, char *);
 80278ce:	f104 0804 	add.w	r8, r4, #4
                putchw(putp, putf, &p);
                p.bf = bf;
 80278d2:	920e      	str	r2, [sp, #56]	; 0x38
                break;
            case 'c':
                putf(putp, (char)(va_arg(va, int)));
                break;
            case 's':
                p.bf = va_arg(va, char *);
 80278d4:	4644      	mov	r4, r8
                putchw(putp, putf, &p);
                p.bf = bf;
                break;
 80278d6:	e0ca      	b.n	8027a6e <tfp_format+0x426>
            case '%':
                putf(putp, ch);
 80278d8:	4628      	mov	r0, r5
 80278da:	47b0      	blx	r6
                break;
 80278dc:	e0c7      	b.n	8027a6e <tfp_format+0x426>
            case 'f':
            case 'F':
                fval  = va_arg(va, double);
 80278de:	3407      	adds	r4, #7
 80278e0:	f024 0307 	bic.w	r3, r4, #7
 80278e4:	f103 0408 	add.w	r4, r3, #8
 80278e8:	e893 0404 	ldmia.w	r3, {r2, sl}
 80278ec:	9200      	str	r2, [sp, #0]
                sign = 0;
                if (fval < 0)
 80278ee:	4610      	mov	r0, r2
 80278f0:	4651      	mov	r1, sl
 80278f2:	2200      	movs	r2, #0
 80278f4:	2300      	movs	r3, #0
 80278f6:	f7f9 f8d5 	bl	8020aa4 <__aeabi_dcmplt>
 80278fa:	b138      	cbz	r0, 802790c <tfp_format+0x2c4>
				   {
                	   sign    = 1;
					   p.width--;
 80278fc:	9b0b      	ldr	r3, [sp, #44]	; 0x2c
 80278fe:	3b01      	subs	r3, #1
 8027900:	930b      	str	r3, [sp, #44]	; 0x2c
					   fval    = - fval;
 8027902:	f10a 4a00 	add.w	sl, sl, #2147483648	; 0x80000000
            case 'F':
                fval  = va_arg(va, double);
                sign = 0;
                if (fval < 0)
				   {
                	   sign    = 1;
 8027906:	f04f 0b01 	mov.w	fp, #1
 802790a:	e009      	b.n	8027920 <tfp_format+0x2d8>
					   p.width--;
					   fval    = - fval;
				   }
				   else if (p.sign) {
 802790c:	f89d 3030 	ldrb.w	r3, [sp, #48]	; 0x30
 8027910:	b12b      	cbz	r3, 802791e <tfp_format+0x2d6>
					   sign = 2;
					   p.width--;
 8027912:	9b0b      	ldr	r3, [sp, #44]	; 0x2c
 8027914:	3b01      	subs	r3, #1
 8027916:	930b      	str	r3, [sp, #44]	; 0x2c
                	   sign    = 1;
					   p.width--;
					   fval    = - fval;
				   }
				   else if (p.sign) {
					   sign = 2;
 8027918:	f04f 0b02 	mov.w	fp, #2
 802791c:	e000      	b.n	8027920 <tfp_format+0x2d8>
                putf(putp, ch);
                break;
            case 'f':
            case 'F':
                fval  = va_arg(va, double);
                sign = 0;
 802791e:	469b      	mov	fp, r3
				   else if (p.sign) {
					   sign = 2;
					   p.width--;
				   }

                fpart = (int)fval;
 8027920:	4651      	mov	r1, sl
 8027922:	9800      	ldr	r0, [sp, #0]
 8027924:	f7f9 f8e6 	bl	8020af4 <__aeabi_d2iz>

                fiter = 0;
 8027928:	2200      	movs	r2, #0
				   else if (p.sign) {
					   sign = 2;
					   p.width--;
				   }

                fpart = (int)fval;
 802792a:	9001      	str	r0, [sp, #4]
 802792c:	4680      	mov	r8, r0

                fiter = 0;
                while (fpart != 0)
                {
                    temp_buffer[fiter++] = fpart % 10;
 802792e:	210a      	movs	r1, #10
				   }

                fpart = (int)fval;

                fiter = 0;
                while (fpart != 0)
 8027930:	e008      	b.n	8027944 <tfp_format+0x2fc>
                {
                    temp_buffer[fiter++] = fpart % 10;
 8027932:	fb98 f0f1 	sdiv	r0, r8, r1
 8027936:	ab10      	add	r3, sp, #64	; 0x40
 8027938:	fb01 8810 	mls	r8, r1, r0, r8
 802793c:	f843 8022 	str.w	r8, [r3, r2, lsl #2]
 8027940:	3201      	adds	r2, #1
                    fpart = fpart / 10;
 8027942:	4680      	mov	r8, r0
				   }

                fpart = (int)fval;

                fiter = 0;
                while (fpart != 0)
 8027944:	f1b8 0f00 	cmp.w	r8, #0
 8027948:	d1f3      	bne.n	8027932 <tfp_format+0x2ea>
                    temp_buffer[fiter++] = fpart % 10;
                    fpart = fpart / 10;

                }
                fiter--;
                if (fiter == -1)
 802794a:	f102 39ff 	add.w	r9, r2, #4294967295
 802794e:	b912      	cbnz	r2, 8027956 <tfp_format+0x30e>
                	p.width--;
 8027950:	9a0b      	ldr	r2, [sp, #44]	; 0x2c
 8027952:	3a01      	subs	r2, #1
 8027954:	920b      	str	r2, [sp, #44]	; 0x2c
                /* Leading zeros */
                if (p.lz) {
 8027956:	f89d 2028 	ldrb.w	r2, [sp, #40]	; 0x28
 802795a:	07d0      	lsls	r0, r2, #31
 802795c:	d51b      	bpl.n	8027996 <tfp_format+0x34e>

                	if (sign == 1)
 802795e:	f1bb 0f01 	cmp.w	fp, #1
 8027962:	d102      	bne.n	802796a <tfp_format+0x322>
 					   putf(putp, '-');
 8027964:	4628      	mov	r0, r5
 8027966:	212d      	movs	r1, #45	; 0x2d
 8027968:	e007      	b.n	802797a <tfp_format+0x332>
                	else if (sign == 2)
 802796a:	f1bb 0f02 	cmp.w	fp, #2
 802796e:	d105      	bne.n	802797c <tfp_format+0x334>
                	   putf(putp, '+');
 8027970:	4628      	mov	r0, r5
 8027972:	212b      	movs	r1, #43	; 0x2b
 8027974:	e001      	b.n	802797a <tfp_format+0x332>

					while (p.width-- > p.prec + fiter + 2)
					{
						putf(putp, '0');
 8027976:	4628      	mov	r0, r5
 8027978:	2130      	movs	r1, #48	; 0x30
 802797a:	47b0      	blx	r6
                	if (sign == 1)
 					   putf(putp, '-');
                	else if (sign == 2)
                	   putf(putp, '+');

					while (p.width-- > p.prec + fiter + 2)
 802797c:	f89d 203c 	ldrb.w	r2, [sp, #60]	; 0x3c
 8027980:	9b0b      	ldr	r3, [sp, #44]	; 0x2c
 8027982:	444a      	add	r2, r9
 8027984:	3202      	adds	r2, #2
 8027986:	1e59      	subs	r1, r3, #1
 8027988:	4293      	cmp	r3, r2
 802798a:	910b      	str	r1, [sp, #44]	; 0x2c
 802798c:	dcf3      	bgt.n	8027976 <tfp_format+0x32e>
 802798e:	e017      	b.n	80279c0 <tfp_format+0x378>
                else
                {

					while (p.width-- > p.prec + fiter + 2)
					{
						putf(putp, ' ');
 8027990:	4628      	mov	r0, r5
 8027992:	2120      	movs	r1, #32
 8027994:	47b0      	blx	r6
					}
                }
                else
                {

					while (p.width-- > p.prec + fiter + 2)
 8027996:	f89d 103c 	ldrb.w	r1, [sp, #60]	; 0x3c
 802799a:	9a0b      	ldr	r2, [sp, #44]	; 0x2c
 802799c:	4449      	add	r1, r9
 802799e:	3102      	adds	r1, #2
 80279a0:	1e50      	subs	r0, r2, #1
 80279a2:	428a      	cmp	r2, r1
 80279a4:	900b      	str	r0, [sp, #44]	; 0x2c
 80279a6:	dcf3      	bgt.n	8027990 <tfp_format+0x348>
					{
						putf(putp, ' ');
					}

                	if (sign == 1)
 80279a8:	f1bb 0f01 	cmp.w	fp, #1
 80279ac:	d102      	bne.n	80279b4 <tfp_format+0x36c>
 					   putf(putp, '-');
 80279ae:	4628      	mov	r0, r5
 80279b0:	212d      	movs	r1, #45	; 0x2d
 80279b2:	e004      	b.n	80279be <tfp_format+0x376>
                	else if (sign == 2)
 80279b4:	f1bb 0f02 	cmp.w	fp, #2
 80279b8:	d102      	bne.n	80279c0 <tfp_format+0x378>
                	   putf(putp, '+');
 80279ba:	4628      	mov	r0, r5
 80279bc:	212b      	movs	r1, #43	; 0x2b
 80279be:	47b0      	blx	r6

                }

                if (fiter == -1)
 80279c0:	f1b9 3fff 	cmp.w	r9, #4294967295
 80279c4:	d102      	bne.n	80279cc <tfp_format+0x384>
                	putf(putp, '0');
 80279c6:	4628      	mov	r0, r5
 80279c8:	2130      	movs	r1, #48	; 0x30
 80279ca:	e007      	b.n	80279dc <tfp_format+0x394>
                while (fiter > -1)
                {
                    putf(putp, '0' + (temp_buffer[fiter--]));
 80279cc:	ab10      	add	r3, sp, #64	; 0x40
 80279ce:	4628      	mov	r0, r5
 80279d0:	f853 1029 	ldr.w	r1, [r3, r9, lsl #2]
 80279d4:	3130      	adds	r1, #48	; 0x30
 80279d6:	f109 39ff 	add.w	r9, r9, #4294967295
 80279da:	b2c9      	uxtb	r1, r1
 80279dc:	47b0      	blx	r6

                }

                if (fiter == -1)
                	putf(putp, '0');
                while (fiter > -1)
 80279de:	f1b9 3fff 	cmp.w	r9, #4294967295
 80279e2:	d1f3      	bne.n	80279cc <tfp_format+0x384>
                {
                    putf(putp, '0' + (temp_buffer[fiter--]));
                }

                putf(putp, '.');
 80279e4:	4628      	mov	r0, r5
 80279e6:	212e      	movs	r1, #46	; 0x2e
 80279e8:	47b0      	blx	r6
                ffactor = 1;
 80279ea:	f04f 0901 	mov.w	r9, #1
                while (p.prec-- > 0)
 80279ee:	e01d      	b.n	8027a2c <tfp_format+0x3e4>
                {
                	ffactor *= 10;
 80279f0:	230a      	movs	r3, #10
                	fpart = (int)((fval - (int)fval)*ffactor);
 80279f2:	9801      	ldr	r0, [sp, #4]

                putf(putp, '.');
                ffactor = 1;
                while (p.prec-- > 0)
                {
                	ffactor *= 10;
 80279f4:	fb03 f909 	mul.w	r9, r3, r9
                	fpart = (int)((fval - (int)fval)*ffactor);
 80279f8:	f7f8 fd7c 	bl	80204f4 <__aeabi_i2d>
 80279fc:	4602      	mov	r2, r0
 80279fe:	460b      	mov	r3, r1
 8027a00:	9800      	ldr	r0, [sp, #0]
 8027a02:	4651      	mov	r1, sl
 8027a04:	f7f8 fc28 	bl	8020258 <__aeabi_dsub>
 8027a08:	e9cd 0102 	strd	r0, r1, [sp, #8]
 8027a0c:	4648      	mov	r0, r9
 8027a0e:	f7f8 fd71 	bl	80204f4 <__aeabi_i2d>
 8027a12:	4602      	mov	r2, r0
 8027a14:	460b      	mov	r3, r1
 8027a16:	e9dd 0102 	ldrd	r0, r1, [sp, #8]
 8027a1a:	f7f8 fdd1 	bl	80205c0 <__aeabi_dmul>
 8027a1e:	f7f9 f869 	bl	8020af4 <__aeabi_d2iz>
                	if (fpart == 0)
 8027a22:	4680      	mov	r8, r0
 8027a24:	b910      	cbnz	r0, 8027a2c <tfp_format+0x3e4>
						putf(putp, '0');
 8027a26:	4628      	mov	r0, r5
 8027a28:	2130      	movs	r1, #48	; 0x30
 8027a2a:	47b0      	blx	r6
                    putf(putp, '0' + (temp_buffer[fiter--]));
                }

                putf(putp, '.');
                ffactor = 1;
                while (p.prec-- > 0)
 8027a2c:	f89d 303c 	ldrb.w	r3, [sp, #60]	; 0x3c
 8027a30:	1e5a      	subs	r2, r3, #1
 8027a32:	f88d 203c 	strb.w	r2, [sp, #60]	; 0x3c
 8027a36:	2b00      	cmp	r3, #0
 8027a38:	d1da      	bne.n	80279f0 <tfp_format+0x3a8>
						putf(putp, '0');
                }
                fiter = 0;
                while (fpart != 0)
                {
                    temp_buffer[fiter++] = fpart % 10;
 8027a3a:	220a      	movs	r2, #10
 8027a3c:	e008      	b.n	8027a50 <tfp_format+0x408>
 8027a3e:	fb98 f1f2 	sdiv	r1, r8, r2
 8027a42:	a810      	add	r0, sp, #64	; 0x40
 8027a44:	fb02 8811 	mls	r8, r2, r1, r8
 8027a48:	f840 8023 	str.w	r8, [r0, r3, lsl #2]
 8027a4c:	3301      	adds	r3, #1
                    fpart = fpart / 10;
 8027a4e:	4688      	mov	r8, r1
                	fpart = (int)((fval - (int)fval)*ffactor);
                	if (fpart == 0)
						putf(putp, '0');
                }
                fiter = 0;
                while (fpart != 0)
 8027a50:	f1b8 0f00 	cmp.w	r8, #0
 8027a54:	d1f3      	bne.n	8027a3e <tfp_format+0x3f6>
 8027a56:	4698      	mov	r8, r3
                    temp_buffer[fiter++] = fpart % 10;
                    fpart = fpart / 10;

                }
                fiter--;
                while (fiter > -1)
 8027a58:	e006      	b.n	8027a68 <tfp_format+0x420>
                {
                    putf(putp, '0' + (temp_buffer[fiter--]));
 8027a5a:	ab10      	add	r3, sp, #64	; 0x40
 8027a5c:	4628      	mov	r0, r5
 8027a5e:	f853 1028 	ldr.w	r1, [r3, r8, lsl #2]
 8027a62:	3130      	adds	r1, #48	; 0x30
 8027a64:	b2c9      	uxtb	r1, r1
 8027a66:	47b0      	blx	r6
                    temp_buffer[fiter++] = fpart % 10;
                    fpart = fpart / 10;

                }
                fiter--;
                while (fiter > -1)
 8027a68:	f118 38ff 	adds.w	r8, r8, #4294967295
 8027a6c:	d2f5      	bcs.n	8027a5a <tfp_format+0x412>
    char bf[12];  /* int = 32b on some architectures */
#endif
    char ch;
    p.bf = bf;

    while ((ch = *(fmt++))) {
 8027a6e:	f817 1b01 	ldrb.w	r1, [r7], #1
 8027a72:	2900      	cmp	r1, #0
 8027a74:	f47f adf2 	bne.w	802765c <tfp_format+0x14>
 8027a78:	e003      	b.n	8027a82 <tfp_format+0x43a>
{
    const char *p = *src;
    unsigned int num = 0;
    int digit;
    while ((digit = a2d(ch)) >= 0) {
        if (digit > base)
 8027a7a:	2b0a      	cmp	r3, #10
 8027a7c:	f77f ae32 	ble.w	80276e4 <tfp_format+0x9c>
 8027a80:	e64c      	b.n	802771c <tfp_format+0xd4>
                break;
            }
        }
    }
 abort:;
}
 8027a82:	b01b      	add	sp, #108	; 0x6c
 8027a84:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}

08027a88 <tfp_printf>:
    stdout_putf = putf;
    stdout_putp = putp;
}

void tfp_printf(char *fmt, ...)
{
 8027a88:	b40f      	push	{r0, r1, r2, r3}
 8027a8a:	b507      	push	{r0, r1, r2, lr}
    va_list va;
    va_start(va, fmt);
    tfp_format(stdout_putp, stdout_putf, fmt, va);
 8027a8c:	4906      	ldr	r1, [pc, #24]	; (8027aa8 <tfp_printf+0x20>)
    stdout_putf = putf;
    stdout_putp = putp;
}

void tfp_printf(char *fmt, ...)
{
 8027a8e:	ab04      	add	r3, sp, #16
    va_list va;
    va_start(va, fmt);
    tfp_format(stdout_putp, stdout_putf, fmt, va);
 8027a90:	6808      	ldr	r0, [r1, #0]
 8027a92:	4906      	ldr	r1, [pc, #24]	; (8027aac <tfp_printf+0x24>)
    stdout_putf = putf;
    stdout_putp = putp;
}

void tfp_printf(char *fmt, ...)
{
 8027a94:	f853 2b04 	ldr.w	r2, [r3], #4
    va_list va;
    va_start(va, fmt);
    tfp_format(stdout_putp, stdout_putf, fmt, va);
 8027a98:	6809      	ldr	r1, [r1, #0]
}

void tfp_printf(char *fmt, ...)
{
    va_list va;
    va_start(va, fmt);
 8027a9a:	9301      	str	r3, [sp, #4]
    tfp_format(stdout_putp, stdout_putf, fmt, va);
 8027a9c:	f7ff fdd4 	bl	8027648 <tfp_format>
    va_end(va);
}
 8027aa0:	e8bd 400e 	ldmia.w	sp!, {r1, r2, r3, lr}
 8027aa4:	b004      	add	sp, #16
 8027aa6:	4770      	bx	lr
 8027aa8:	20000b14 	.word	0x20000b14
 8027aac:	20000b10 	.word	0x20000b10

08027ab0 <tfp_vsnprintf>:
    data->dest[data->num_chars] = c;
  data->num_chars ++;
}

int tfp_vsnprintf(char *str, size_t size, const char *format, va_list ap)
{
 8027ab0:	b51f      	push	{r0, r1, r2, r3, r4, lr}
 8027ab2:	2400      	movs	r4, #0
  struct _vsnprintf_putcf_data data;

  if (size < 1)
 8027ab4:	b181      	cbz	r1, 8027ad8 <tfp_vsnprintf+0x28>
    return 0;

  data.dest = str;
  data.dest_capacity = size-1;
 8027ab6:	3901      	subs	r1, #1
  struct _vsnprintf_putcf_data data;

  if (size < 1)
    return 0;

  data.dest = str;
 8027ab8:	9002      	str	r0, [sp, #8]
  data.dest_capacity = size-1;
 8027aba:	9101      	str	r1, [sp, #4]
  data.num_chars = 0;
  tfp_format(&data, _vsnprintf_putcf, format, ap);
 8027abc:	a801      	add	r0, sp, #4
 8027abe:	4908      	ldr	r1, [pc, #32]	; (8027ae0 <tfp_vsnprintf+0x30>)
  if (size < 1)
    return 0;

  data.dest = str;
  data.dest_capacity = size-1;
  data.num_chars = 0;
 8027ac0:	9403      	str	r4, [sp, #12]
  tfp_format(&data, _vsnprintf_putcf, format, ap);
 8027ac2:	f7ff fdc1 	bl	8027648 <tfp_format>

  if (data.num_chars < data.dest_capacity)
 8027ac6:	9903      	ldr	r1, [sp, #12]
 8027ac8:	9b01      	ldr	r3, [sp, #4]
 8027aca:	9a02      	ldr	r2, [sp, #8]
 8027acc:	4299      	cmp	r1, r3
    data.dest[data.num_chars] = '\0';
 8027ace:	bf34      	ite	cc
 8027ad0:	5454      	strbcc	r4, [r2, r1]
  else
    data.dest[data.dest_capacity] = '\0';
 8027ad2:	54d4      	strbcs	r4, [r2, r3]

  return data.num_chars;
 8027ad4:	9803      	ldr	r0, [sp, #12]
 8027ad6:	e000      	b.n	8027ada <tfp_vsnprintf+0x2a>
int tfp_vsnprintf(char *str, size_t size, const char *format, va_list ap)
{
  struct _vsnprintf_putcf_data data;

  if (size < 1)
    return 0;
 8027ad8:	4608      	mov	r0, r1
    data.dest[data.num_chars] = '\0';
  else
    data.dest[data.dest_capacity] = '\0';

  return data.num_chars;
}
 8027ada:	b004      	add	sp, #16
 8027adc:	bd10      	pop	{r4, pc}
 8027ade:	bf00      	nop
 8027ae0:	08027629 	.word	0x08027629

08027ae4 <tfp_snprintf>:

int tfp_snprintf(char *str, size_t size, const char *format, ...)
{
 8027ae4:	b40c      	push	{r2, r3}
 8027ae6:	b507      	push	{r0, r1, r2, lr}
 8027ae8:	ab04      	add	r3, sp, #16
 8027aea:	f853 2b04 	ldr.w	r2, [r3], #4
  va_list ap;
  int retval;

  va_start(ap, format);
 8027aee:	9301      	str	r3, [sp, #4]
  retval = tfp_vsnprintf(str, size, format, ap);
 8027af0:	f7ff ffde 	bl	8027ab0 <tfp_vsnprintf>
  va_end(ap);
  return retval;
}
 8027af4:	e8bd 400e 	ldmia.w	sp!, {r1, r2, r3, lr}
 8027af8:	b002      	add	sp, #8
 8027afa:	4770      	bx	lr

08027afc <tfp_vsprintf>:
  struct _vsprintf_putcf_data *data = (struct _vsprintf_putcf_data*)p;
  data->dest[data->num_chars++] = c;
}

int tfp_vsprintf(char *str, const char *format, va_list ap)
{
 8027afc:	b537      	push	{r0, r1, r2, r4, r5, lr}
 8027afe:	460d      	mov	r5, r1
 8027b00:	4613      	mov	r3, r2
  struct _vsprintf_putcf_data data;
  data.dest = str;
 8027b02:	9000      	str	r0, [sp, #0]
  data.num_chars = 0;
 8027b04:	2400      	movs	r4, #0
  tfp_format(&data, _vsprintf_putcf, format, ap);
 8027b06:	4668      	mov	r0, sp
 8027b08:	462a      	mov	r2, r5
 8027b0a:	4904      	ldr	r1, [pc, #16]	; (8027b1c <tfp_vsprintf+0x20>)

int tfp_vsprintf(char *str, const char *format, va_list ap)
{
  struct _vsprintf_putcf_data data;
  data.dest = str;
  data.num_chars = 0;
 8027b0c:	9401      	str	r4, [sp, #4]
  tfp_format(&data, _vsprintf_putcf, format, ap);
 8027b0e:	f7ff fd9b 	bl	8027648 <tfp_format>
  data.dest[data.num_chars] = '\0';
 8027b12:	e89d 000c 	ldmia.w	sp, {r2, r3}
 8027b16:	54d4      	strb	r4, [r2, r3]
  return data.num_chars;
}
 8027b18:	9801      	ldr	r0, [sp, #4]
 8027b1a:	bd3e      	pop	{r1, r2, r3, r4, r5, pc}
 8027b1c:	0802763d 	.word	0x0802763d

08027b20 <tfp_sprintf>:

int tfp_sprintf(char *str, const char *format, ...)
{
 8027b20:	b40e      	push	{r1, r2, r3}
 8027b22:	b503      	push	{r0, r1, lr}
 8027b24:	aa03      	add	r2, sp, #12
 8027b26:	f852 1b04 	ldr.w	r1, [r2], #4
  va_list ap;
  int retval;

  va_start(ap, format);
 8027b2a:	9201      	str	r2, [sp, #4]
  retval = tfp_vsprintf(str, format, ap);
 8027b2c:	f7ff ffe6 	bl	8027afc <tfp_vsprintf>
  va_end(ap);
  return retval;
}
 8027b30:	e8bd 400c 	ldmia.w	sp!, {r2, r3, lr}
 8027b34:	b003      	add	sp, #12
 8027b36:	4770      	bx	lr

08027b38 <GetInputFreqStr>:

/**
  * @brief  
  */
void GetInputFreqStr(char *str, uint8_t *len)
{
 8027b38:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%0.1f", UPS.Freq_in);
 8027b3a:	4b08      	ldr	r3, [pc, #32]	; (8027b5c <GetInputFreqStr+0x24>)

/**
  * @brief  
  */
void GetInputFreqStr(char *str, uint8_t *len)
{
 8027b3c:	4604      	mov	r4, r0
  sprintf(str, "%0.1f", UPS.Freq_in);
 8027b3e:	6818      	ldr	r0, [r3, #0]

/**
  * @brief  
  */
void GetInputFreqStr(char *str, uint8_t *len)
{
 8027b40:	460d      	mov	r5, r1
  sprintf(str, "%0.1f", UPS.Freq_in);
 8027b42:	f7f8 fce9 	bl	8020518 <__aeabi_f2d>
 8027b46:	4602      	mov	r2, r0
 8027b48:	460b      	mov	r3, r1
 8027b4a:	4620      	mov	r0, r4
 8027b4c:	4904      	ldr	r1, [pc, #16]	; (8027b60 <GetInputFreqStr+0x28>)
 8027b4e:	f7ff ffe7 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027b52:	4620      	mov	r0, r4
 8027b54:	f7fa fafc 	bl	8022150 <strlen>
 8027b58:	7028      	strb	r0, [r5, #0]
 8027b5a:	bd38      	pop	{r3, r4, r5, pc}
 8027b5c:	2000cf64 	.word	0x2000cf64
 8027b60:	08038961 	.word	0x08038961

08027b64 <GetOutputFreqStr>:

/**
  * @brief  
  */
void GetOutputFreqStr(char *str, uint8_t *len)
{
 8027b64:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%0.1f", UPS.Freq_in);
 8027b66:	4b08      	ldr	r3, [pc, #32]	; (8027b88 <GetOutputFreqStr+0x24>)

/**
  * @brief  
  */
void GetOutputFreqStr(char *str, uint8_t *len)
{
 8027b68:	4604      	mov	r4, r0
  sprintf(str, "%0.1f", UPS.Freq_in);
 8027b6a:	6818      	ldr	r0, [r3, #0]

/**
  * @brief  
  */
void GetOutputFreqStr(char *str, uint8_t *len)
{
 8027b6c:	460d      	mov	r5, r1
  sprintf(str, "%0.1f", UPS.Freq_in);
 8027b6e:	f7f8 fcd3 	bl	8020518 <__aeabi_f2d>
 8027b72:	4602      	mov	r2, r0
 8027b74:	460b      	mov	r3, r1
 8027b76:	4620      	mov	r0, r4
 8027b78:	4904      	ldr	r1, [pc, #16]	; (8027b8c <GetOutputFreqStr+0x28>)
 8027b7a:	f7ff ffd1 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027b7e:	4620      	mov	r0, r4
 8027b80:	f7fa fae6 	bl	8022150 <strlen>
 8027b84:	7028      	strb	r0, [r5, #0]
 8027b86:	bd38      	pop	{r3, r4, r5, pc}
 8027b88:	2000cf64 	.word	0x2000cf64
 8027b8c:	08038961 	.word	0x08038961

08027b90 <GetInputVoltageStr>:

/**
  * @brief  
  */
void GetInputVoltageStr(char *str, uint8_t *len)
{
 8027b90:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%0.1f", UPS.VAC_in);
 8027b92:	4b08      	ldr	r3, [pc, #32]	; (8027bb4 <GetInputVoltageStr+0x24>)

/**
  * @brief  
  */
void GetInputVoltageStr(char *str, uint8_t *len)
{
 8027b94:	4604      	mov	r4, r0
  sprintf(str, "%0.1f", UPS.VAC_in);
 8027b96:	6858      	ldr	r0, [r3, #4]

/**
  * @brief  
  */
void GetInputVoltageStr(char *str, uint8_t *len)
{
 8027b98:	460d      	mov	r5, r1
  sprintf(str, "%0.1f", UPS.VAC_in);
 8027b9a:	f7f8 fcbd 	bl	8020518 <__aeabi_f2d>
 8027b9e:	4602      	mov	r2, r0
 8027ba0:	460b      	mov	r3, r1
 8027ba2:	4620      	mov	r0, r4
 8027ba4:	4904      	ldr	r1, [pc, #16]	; (8027bb8 <GetInputVoltageStr+0x28>)
 8027ba6:	f7ff ffbb 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027baa:	4620      	mov	r0, r4
 8027bac:	f7fa fad0 	bl	8022150 <strlen>
 8027bb0:	7028      	strb	r0, [r5, #0]
 8027bb2:	bd38      	pop	{r3, r4, r5, pc}
 8027bb4:	2000cf64 	.word	0x2000cf64
 8027bb8:	08038961 	.word	0x08038961

08027bbc <GetOutputVoltageStr>:

/**
  * @brief  
  */
void GetOutputVoltageStr(char *str, uint8_t *len)
{
 8027bbc:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%0.1f", UPS.VAC_out);
 8027bbe:	4b08      	ldr	r3, [pc, #32]	; (8027be0 <GetOutputVoltageStr+0x24>)

/**
  * @brief  
  */
void GetOutputVoltageStr(char *str, uint8_t *len)
{
 8027bc0:	4604      	mov	r4, r0
  sprintf(str, "%0.1f", UPS.VAC_out);
 8027bc2:	6898      	ldr	r0, [r3, #8]

/**
  * @brief  
  */
void GetOutputVoltageStr(char *str, uint8_t *len)
{
 8027bc4:	460d      	mov	r5, r1
  sprintf(str, "%0.1f", UPS.VAC_out);
 8027bc6:	f7f8 fca7 	bl	8020518 <__aeabi_f2d>
 8027bca:	4602      	mov	r2, r0
 8027bcc:	460b      	mov	r3, r1
 8027bce:	4620      	mov	r0, r4
 8027bd0:	4904      	ldr	r1, [pc, #16]	; (8027be4 <GetOutputVoltageStr+0x28>)
 8027bd2:	f7ff ffa5 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027bd6:	4620      	mov	r0, r4
 8027bd8:	f7fa faba 	bl	8022150 <strlen>
 8027bdc:	7028      	strb	r0, [r5, #0]
 8027bde:	bd38      	pop	{r3, r4, r5, pc}
 8027be0:	2000cf64 	.word	0x2000cf64
 8027be4:	08038961 	.word	0x08038961

08027be8 <GetPowerStr>:

/**
  * @brief  
  */
void GetPowerStr(char *str, uint8_t *len)
{
 8027be8:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%d", UPS.Load);
 8027bea:	4b06      	ldr	r3, [pc, #24]	; (8027c04 <GetPowerStr+0x1c>)

/**
  * @brief  
  */
void GetPowerStr(char *str, uint8_t *len)
{
 8027bec:	4605      	mov	r5, r0
 8027bee:	460c      	mov	r4, r1
  sprintf(str, "%d", UPS.Load);
 8027bf0:	7c1a      	ldrb	r2, [r3, #16]
 8027bf2:	4905      	ldr	r1, [pc, #20]	; (8027c08 <GetPowerStr+0x20>)
 8027bf4:	f7ff ff94 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str); 
 8027bf8:	4628      	mov	r0, r5
 8027bfa:	f7fa faa9 	bl	8022150 <strlen>
 8027bfe:	7020      	strb	r0, [r4, #0]
 8027c00:	bd38      	pop	{r3, r4, r5, pc}
 8027c02:	bf00      	nop
 8027c04:	2000cf64 	.word	0x2000cf64
 8027c08:	08038967 	.word	0x08038967

08027c0c <GetBatCapacityStr>:

/**
  * @brief  
  */
void GetBatCapacityStr(char *str, uint8_t *len)
{
 8027c0c:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%d", UPS.SOC);
 8027c0e:	4b06      	ldr	r3, [pc, #24]	; (8027c28 <GetBatCapacityStr+0x1c>)

/**
  * @brief  
  */
void GetBatCapacityStr(char *str, uint8_t *len)
{
 8027c10:	4605      	mov	r5, r0
 8027c12:	460c      	mov	r4, r1
  sprintf(str, "%d", UPS.SOC);
 8027c14:	7c5a      	ldrb	r2, [r3, #17]
 8027c16:	4905      	ldr	r1, [pc, #20]	; (8027c2c <GetBatCapacityStr+0x20>)
 8027c18:	f7ff ff82 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027c1c:	4628      	mov	r0, r5
 8027c1e:	f7fa fa97 	bl	8022150 <strlen>
 8027c22:	7020      	strb	r0, [r4, #0]
 8027c24:	bd38      	pop	{r3, r4, r5, pc}
 8027c26:	bf00      	nop
 8027c28:	2000cf64 	.word	0x2000cf64
 8027c2c:	08038967 	.word	0x08038967

08027c30 <GetRuntimeStr>:

/**
  * @brief  
  */
void GetRuntimeStr(char *str, uint8_t *len)
{
 8027c30:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%d", UPS.work_time);
 8027c32:	4b06      	ldr	r3, [pc, #24]	; (8027c4c <GetRuntimeStr+0x1c>)

/**
  * @brief  
  */
void GetRuntimeStr(char *str, uint8_t *len)
{
 8027c34:	4605      	mov	r5, r0
 8027c36:	460c      	mov	r4, r1
  sprintf(str, "%d", UPS.work_time);
 8027c38:	7c9a      	ldrb	r2, [r3, #18]
 8027c3a:	4905      	ldr	r1, [pc, #20]	; (8027c50 <GetRuntimeStr+0x20>)
 8027c3c:	f7ff ff70 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027c40:	4628      	mov	r0, r5
 8027c42:	f7fa fa85 	bl	8022150 <strlen>
 8027c46:	7020      	strb	r0, [r4, #0]
 8027c48:	bd38      	pop	{r3, r4, r5, pc}
 8027c4a:	bf00      	nop
 8027c4c:	2000cf64 	.word	0x2000cf64
 8027c50:	08038967 	.word	0x08038967

08027c54 <GetInternalTempStr>:

/**
  * @brief  
  */
void GetInternalTempStr(char *str, uint8_t *len)
{
 8027c54:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%0.1f", UPS.Temp);
 8027c56:	4b08      	ldr	r3, [pc, #32]	; (8027c78 <GetInternalTempStr+0x24>)

/**
  * @brief  
  */
void GetInternalTempStr(char *str, uint8_t *len)
{
 8027c58:	4604      	mov	r4, r0
  sprintf(str, "%0.1f", UPS.Temp);
 8027c5a:	68d8      	ldr	r0, [r3, #12]

/**
  * @brief  
  */
void GetInternalTempStr(char *str, uint8_t *len)
{
 8027c5c:	460d      	mov	r5, r1
  sprintf(str, "%0.1f", UPS.Temp);
 8027c5e:	f7f8 fc5b 	bl	8020518 <__aeabi_f2d>
 8027c62:	4602      	mov	r2, r0
 8027c64:	460b      	mov	r3, r1
 8027c66:	4620      	mov	r0, r4
 8027c68:	4904      	ldr	r1, [pc, #16]	; (8027c7c <GetInternalTempStr+0x28>)
 8027c6a:	f7ff ff59 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027c6e:	4620      	mov	r0, r4
 8027c70:	f7fa fa6e 	bl	8022150 <strlen>
 8027c74:	7028      	strb	r0, [r5, #0]
 8027c76:	bd38      	pop	{r3, r4, r5, pc}
 8027c78:	2000cf64 	.word	0x2000cf64
 8027c7c:	08038961 	.word	0x08038961

08027c80 <GetAlarmMonitorStr>:

/**
  * @brief  
  */
void GetAlarmMonitorStr(char *str, uint8_t *len)
{
 8027c80:	b538      	push	{r3, r4, r5, lr}
	sprintf(str, "%d", UPS.Alarm);
 8027c82:	4b06      	ldr	r3, [pc, #24]	; (8027c9c <GetAlarmMonitorStr+0x1c>)

/**
  * @brief  
  */
void GetAlarmMonitorStr(char *str, uint8_t *len)
{
 8027c84:	4605      	mov	r5, r0
 8027c86:	460c      	mov	r4, r1
	sprintf(str, "%d", UPS.Alarm);
 8027c88:	7d1a      	ldrb	r2, [r3, #20]
 8027c8a:	4905      	ldr	r1, [pc, #20]	; (8027ca0 <GetAlarmMonitorStr+0x20>)
 8027c8c:	f7ff ff48 	bl	8027b20 <tfp_sprintf>
	*len = strlen(str);
 8027c90:	4628      	mov	r0, r5
 8027c92:	f7fa fa5d 	bl	8022150 <strlen>
 8027c96:	7020      	strb	r0, [r4, #0]
 8027c98:	bd38      	pop	{r3, r4, r5, pc}
 8027c9a:	bf00      	nop
 8027c9c:	2000cf64 	.word	0x2000cf64
 8027ca0:	08038967 	.word	0x08038967

08027ca4 <GetConnectMonitorStr>:

/**
  * @brief
  */
void GetConnectMonitorStr(char *str, uint8_t *len)
{
 8027ca4:	b538      	push	{r3, r4, r5, lr}
	if(UPS.Present)
 8027ca6:	4b08      	ldr	r3, [pc, #32]	; (8027cc8 <GetConnectMonitorStr+0x24>)
 8027ca8:	f893 302c 	ldrb.w	r3, [r3, #44]	; 0x2c

/**
  * @brief
  */
void GetConnectMonitorStr(char *str, uint8_t *len)
{
 8027cac:	4605      	mov	r5, r0
 8027cae:	460c      	mov	r4, r1
	if(UPS.Present)
 8027cb0:	b10b      	cbz	r3, 8027cb6 <GetConnectMonitorStr+0x12>
		strcpy(str, "0");
 8027cb2:	4906      	ldr	r1, [pc, #24]	; (8027ccc <GetConnectMonitorStr+0x28>)
 8027cb4:	e000      	b.n	8027cb8 <GetConnectMonitorStr+0x14>
	else
		strcpy(str, "1");
 8027cb6:	4906      	ldr	r1, [pc, #24]	; (8027cd0 <GetConnectMonitorStr+0x2c>)
 8027cb8:	f7fa f9ec 	bl	8022094 <strcpy>
	*len = strlen(str);
 8027cbc:	4628      	mov	r0, r5
 8027cbe:	f7fa fa47 	bl	8022150 <strlen>
 8027cc2:	7020      	strb	r0, [r4, #0]
 8027cc4:	bd38      	pop	{r3, r4, r5, pc}
 8027cc6:	bf00      	nop
 8027cc8:	2000cf64 	.word	0x2000cf64
 8027ccc:	08038a13 	.word	0x08038a13
 8027cd0:	08038c9e 	.word	0x08038c9e

08027cd4 <GetAlarmStr>:

/**
  * @brief  Индикаци� аварийных �итуаций
  */
void GetAlarmStr(char *str, uint8_t *len)
{
 8027cd4:	b538      	push	{r3, r4, r5, lr}
	sprintf(str, "%d", UPS.Status);
 8027cd6:	4b06      	ldr	r3, [pc, #24]	; (8027cf0 <GetAlarmStr+0x1c>)

/**
  * @brief  Индикаци� аварийных �итуаций
  */
void GetAlarmStr(char *str, uint8_t *len)
{
 8027cd8:	4605      	mov	r5, r0
 8027cda:	460c      	mov	r4, r1
	sprintf(str, "%d", UPS.Status);
 8027cdc:	7cda      	ldrb	r2, [r3, #19]
 8027cde:	4905      	ldr	r1, [pc, #20]	; (8027cf4 <GetAlarmStr+0x20>)
 8027ce0:	f7ff ff1e 	bl	8027b20 <tfp_sprintf>
	*len = strlen(str);
 8027ce4:	4628      	mov	r0, r5
 8027ce6:	f7fa fa33 	bl	8022150 <strlen>
 8027cea:	7020      	strb	r0, [r4, #0]
 8027cec:	bd38      	pop	{r3, r4, r5, pc}
 8027cee:	bf00      	nop
 8027cf0:	2000cf64 	.word	0x2000cf64
 8027cf4:	08038967 	.word	0x08038967

08027cf8 <GetDateStr>:

/**
  * @brief  Дата (Ready for PRS!)
  */
void GetDateStr(char *str, uint8_t *len)
{
 8027cf8:	b530      	push	{r4, r5, lr}
 8027cfa:	b087      	sub	sp, #28
 8027cfc:	4604      	mov	r4, r0
 8027cfe:	460d      	mov	r5, r1
    TM_RTC_t data;
    uint16_t sys_year ;

    TM_RTC_GetDateTime(&data, TM_RTC_Format_BIN);
 8027d00:	a802      	add	r0, sp, #8
 8027d02:	2100      	movs	r1, #0
 8027d04:	f7fe fd62 	bl	80267cc <TM_RTC_GetDateTime>
    sys_year = 2000 + data.year;

    sprintf(str, "%04i-%02i-%02i", sys_year, data.month, data.date);
 8027d08:	f89d 100f 	ldrb.w	r1, [sp, #15]
{
    TM_RTC_t data;
    uint16_t sys_year ;

    TM_RTC_GetDateTime(&data, TM_RTC_Format_BIN);
    sys_year = 2000 + data.year;
 8027d0c:	f89d 2011 	ldrb.w	r2, [sp, #17]

    sprintf(str, "%04i-%02i-%02i", sys_year, data.month, data.date);
 8027d10:	f89d 3010 	ldrb.w	r3, [sp, #16]
 8027d14:	9100      	str	r1, [sp, #0]
 8027d16:	f502 62fa 	add.w	r2, r2, #2000	; 0x7d0
 8027d1a:	4905      	ldr	r1, [pc, #20]	; (8027d30 <GetDateStr+0x38>)
 8027d1c:	4620      	mov	r0, r4
 8027d1e:	f7ff feff 	bl	8027b20 <tfp_sprintf>
    *len = strlen(str);
 8027d22:	4620      	mov	r0, r4
 8027d24:	f7fa fa14 	bl	8022150 <strlen>
 8027d28:	7028      	strb	r0, [r5, #0]
}
 8027d2a:	b007      	add	sp, #28
 8027d2c:	bd30      	pop	{r4, r5, pc}
 8027d2e:	bf00      	nop
 8027d30:	0803896a 	.word	0x0803896a

08027d34 <GetTimeStr>:

/**
  * @brief  Врем� (Ready for PRS!)
  */
void GetTimeStr(char *str, uint8_t *len)
{
 8027d34:	b530      	push	{r4, r5, lr}
 8027d36:	b085      	sub	sp, #20
 8027d38:	4604      	mov	r4, r0
 8027d3a:	460d      	mov	r5, r1
    TM_RTC_t data;

    TM_RTC_GetDateTime(&data, TM_RTC_Format_BIN);
 8027d3c:	4668      	mov	r0, sp
 8027d3e:	2100      	movs	r1, #0
 8027d40:	f7fe fd44 	bl	80267cc <TM_RTC_GetDateTime>

    sprintf(str, "%02i:%02i", data.hours, data.minutes);
 8027d44:	4906      	ldr	r1, [pc, #24]	; (8027d60 <GetTimeStr+0x2c>)
 8027d46:	f89d 2005 	ldrb.w	r2, [sp, #5]
 8027d4a:	f89d 3004 	ldrb.w	r3, [sp, #4]
 8027d4e:	4620      	mov	r0, r4
 8027d50:	f7ff fee6 	bl	8027b20 <tfp_sprintf>
    *len = strlen(str);
 8027d54:	4620      	mov	r0, r4
 8027d56:	f7fa f9fb 	bl	8022150 <strlen>
 8027d5a:	7028      	strb	r0, [r5, #0]
}
 8027d5c:	b005      	add	sp, #20
 8027d5e:	bd30      	pop	{r4, r5, pc}
 8027d60:	080389b0 	.word	0x080389b0

08027d64 <GetUnixTimeStr>:

/**
  * @brief  Врем� (Ready for PRS!)
  */
void GetUnixTimeStr(char *str, uint8_t *len)
{
 8027d64:	b530      	push	{r4, r5, lr}
 8027d66:	b085      	sub	sp, #20
 8027d68:	4604      	mov	r4, r0
 8027d6a:	460d      	mov	r5, r1
    TM_RTC_t data;

    TM_RTC_GetDateTime(&data, TM_RTC_Format_BIN);
 8027d6c:	4668      	mov	r0, sp
 8027d6e:	2100      	movs	r1, #0
 8027d70:	f7fe fd2c 	bl	80267cc <TM_RTC_GetDateTime>

    sprintf(str, "%d", data.unix);
 8027d74:	4905      	ldr	r1, [pc, #20]	; (8027d8c <GetUnixTimeStr+0x28>)
 8027d76:	9a03      	ldr	r2, [sp, #12]
 8027d78:	4620      	mov	r0, r4
 8027d7a:	f7ff fed1 	bl	8027b20 <tfp_sprintf>
    *len = strlen(str);
 8027d7e:	4620      	mov	r0, r4
 8027d80:	f7fa f9e6 	bl	8022150 <strlen>
 8027d84:	7028      	strb	r0, [r5, #0]
}
 8027d86:	b005      	add	sp, #20
 8027d88:	bd30      	pop	{r4, r5, pc}
 8027d8a:	bf00      	nop
 8027d8c:	08038967 	.word	0x08038967

08027d90 <GetSntpStateStr>:

/**
  * @brief  Со�то�ние SNTP (Ready for PRS!)
  */
void GetSntpStateStr(char *str, uint8_t *len)
{
 8027d90:	b538      	push	{r3, r4, r5, lr}
  if (sSettings.sSNTP.sntpEnable)
 8027d92:	4b08      	ldr	r3, [pc, #32]	; (8027db4 <GetSntpStateStr+0x24>)
 8027d94:	f893 3340 	ldrb.w	r3, [r3, #832]	; 0x340

/**
  * @brief  Со�то�ние SNTP (Ready for PRS!)
  */
void GetSntpStateStr(char *str, uint8_t *len)
{
 8027d98:	460c      	mov	r4, r1
 8027d9a:	4605      	mov	r5, r0
  if (sSettings.sSNTP.sntpEnable)
  {
    sprintf(str, "%s", "1"); //авто
 8027d9c:	4906      	ldr	r1, [pc, #24]	; (8027db8 <GetSntpStateStr+0x28>)
/**
  * @brief  Со�то�ние SNTP (Ready for PRS!)
  */
void GetSntpStateStr(char *str, uint8_t *len)
{
  if (sSettings.sSNTP.sntpEnable)
 8027d9e:	b10b      	cbz	r3, 8027da4 <GetSntpStateStr+0x14>
  {
    sprintf(str, "%s", "1"); //авто
 8027da0:	4a06      	ldr	r2, [pc, #24]	; (8027dbc <GetSntpStateStr+0x2c>)
 8027da2:	e000      	b.n	8027da6 <GetSntpStateStr+0x16>
    *len = strlen(str);
  }
  else
  {
    sprintf(str, "%s", "0"); //ручной
 8027da4:	4a06      	ldr	r2, [pc, #24]	; (8027dc0 <GetSntpStateStr+0x30>)
 8027da6:	f7ff febb 	bl	8027b20 <tfp_sprintf>
    *len = strlen(str);
 8027daa:	4628      	mov	r0, r5
 8027dac:	f7fa f9d0 	bl	8022150 <strlen>
 8027db0:	7020      	strb	r0, [r4, #0]
 8027db2:	bd38      	pop	{r3, r4, r5, pc}
 8027db4:	2000cba0 	.word	0x2000cba0
 8027db8:	0804288f 	.word	0x0804288f
 8027dbc:	08038c9e 	.word	0x08038c9e
 8027dc0:	08038a13 	.word	0x08038a13

08027dc4 <GetSntpServerIpStr>:

/**
  * @brief  IP адре� SNTP �ервера (Ready for PRS!)
  */
void GetSntpServerIpStr(char *str, uint8_t *len)
{
 8027dc4:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%s", sSettings.sSNTP.ip);
 8027dc6:	4a05      	ldr	r2, [pc, #20]	; (8027ddc <GetSntpServerIpStr+0x18>)

/**
  * @brief  IP адре� SNTP �ервера (Ready for PRS!)
  */
void GetSntpServerIpStr(char *str, uint8_t *len)
{
 8027dc8:	4605      	mov	r5, r0
 8027dca:	460c      	mov	r4, r1
  sprintf(str, "%s", sSettings.sSNTP.ip);
 8027dcc:	4904      	ldr	r1, [pc, #16]	; (8027de0 <GetSntpServerIpStr+0x1c>)
 8027dce:	f7ff fea7 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027dd2:	4628      	mov	r0, r5
 8027dd4:	f7fa f9bc 	bl	8022150 <strlen>
 8027dd8:	7020      	strb	r0, [r4, #0]
 8027dda:	bd38      	pop	{r3, r4, r5, pc}
 8027ddc:	2000cee1 	.word	0x2000cee1
 8027de0:	0804288f 	.word	0x0804288f

08027de4 <GetSntpTimeZoneStr>:

/**
  * @brief  Ча�овой по�� контроллера (Ready for PRS!)
  */
void GetSntpTimeZoneStr(char *str, uint8_t *len)
{
 8027de4:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%0.1f", sSettings.sSNTP.timeZone);
 8027de6:	4b09      	ldr	r3, [pc, #36]	; (8027e0c <GetSntpTimeZoneStr+0x28>)

/**
  * @brief  Ча�овой по�� контроллера (Ready for PRS!)
  */
void GetSntpTimeZoneStr(char *str, uint8_t *len)
{
 8027de8:	4604      	mov	r4, r0
  sprintf(str, "%0.1f", sSettings.sSNTP.timeZone);
 8027dea:	f8d3 0370 	ldr.w	r0, [r3, #880]	; 0x370

/**
  * @brief  Ча�овой по�� контроллера (Ready for PRS!)
  */
void GetSntpTimeZoneStr(char *str, uint8_t *len)
{
 8027dee:	460d      	mov	r5, r1
  sprintf(str, "%0.1f", sSettings.sSNTP.timeZone);
 8027df0:	f7f8 fb92 	bl	8020518 <__aeabi_f2d>
 8027df4:	4602      	mov	r2, r0
 8027df6:	460b      	mov	r3, r1
 8027df8:	4620      	mov	r0, r4
 8027dfa:	4905      	ldr	r1, [pc, #20]	; (8027e10 <GetSntpTimeZoneStr+0x2c>)
 8027dfc:	f7ff fe90 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027e00:	4620      	mov	r0, r4
 8027e02:	f7fa f9a5 	bl	8022150 <strlen>
 8027e06:	7028      	strb	r0, [r5, #0]
 8027e08:	bd38      	pop	{r3, r4, r5, pc}
 8027e0a:	bf00      	nop
 8027e0c:	2000cba0 	.word	0x2000cba0
 8027e10:	08038961 	.word	0x08038961

08027e14 <GetSntpLastDataStr>:

/**
  * @brief  Дата по�ледней �инхронизации SNTP (Ready for PRS!)
  */
void GetSntpLastDataStr(char *str, uint8_t *len)
{
 8027e14:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%s", sSettings.sSNTP.data);
 8027e16:	4a05      	ldr	r2, [pc, #20]	; (8027e2c <GetSntpLastDataStr+0x18>)

/**
  * @brief  Дата по�ледней �инхронизации SNTP (Ready for PRS!)
  */
void GetSntpLastDataStr(char *str, uint8_t *len)
{
 8027e18:	4605      	mov	r5, r0
 8027e1a:	460c      	mov	r4, r1
  sprintf(str, "%s", sSettings.sSNTP.data);
 8027e1c:	4904      	ldr	r1, [pc, #16]	; (8027e30 <GetSntpLastDataStr+0x1c>)
 8027e1e:	f7ff fe7f 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027e22:	4628      	mov	r0, r5
 8027e24:	f7fa f994 	bl	8022150 <strlen>
 8027e28:	7020      	strb	r0, [r4, #0]
 8027e2a:	bd38      	pop	{r3, r4, r5, pc}
 8027e2c:	2000cef1 	.word	0x2000cef1
 8027e30:	0804288f 	.word	0x0804288f

08027e34 <GetDINTypeActStr>:

/**
  * @brief  Тип дей�твий при �рабатывание �ухих контактов
  */
void GetDINTypeActStr(char *str, uint8_t *len, uint8_t num)
{
 8027e34:	b538      	push	{r3, r4, r5, lr}
	sprintf(str, "%d", sSettings.sInOuts.din_type_act[num]);
 8027e36:	4b07      	ldr	r3, [pc, #28]	; (8027e54 <GetDINTypeActStr+0x20>)
 8027e38:	189a      	adds	r2, r3, r2

/**
  * @brief  Тип дей�твий при �рабатывание �ухих контактов
  */
void GetDINTypeActStr(char *str, uint8_t *len, uint8_t num)
{
 8027e3a:	4605      	mov	r5, r0
 8027e3c:	460c      	mov	r4, r1
	sprintf(str, "%d", sSettings.sInOuts.din_type_act[num]);
 8027e3e:	f892 2376 	ldrb.w	r2, [r2, #886]	; 0x376
 8027e42:	4905      	ldr	r1, [pc, #20]	; (8027e58 <GetDINTypeActStr+0x24>)
 8027e44:	f7ff fe6c 	bl	8027b20 <tfp_sprintf>
	*len = strlen(str);
 8027e48:	4628      	mov	r0, r5
 8027e4a:	f7fa f981 	bl	8022150 <strlen>
 8027e4e:	7020      	strb	r0, [r4, #0]
 8027e50:	bd38      	pop	{r3, r4, r5, pc}
 8027e52:	bf00      	nop
 8027e54:	2000cba0 	.word	0x2000cba0
 8027e58:	08038967 	.word	0x08038967

08027e5c <GetDINStatusStr>:
/**
  * @brief  Со�то�ние �ухого контакта
  */
void GetDINStatusStr(char *str, uint8_t *len, uint8_t num)
{
	sprintf(str, "%d", get_state_din_outs(DIN1+num));
 8027e5c:	3206      	adds	r2, #6

/**
  * @brief  Со�то�ние �ухого контакта
  */
void GetDINStatusStr(char *str, uint8_t *len, uint8_t num)
{
 8027e5e:	b538      	push	{r3, r4, r5, lr}
 8027e60:	4604      	mov	r4, r0
	sprintf(str, "%d", get_state_din_outs(DIN1+num));
 8027e62:	b2d0      	uxtb	r0, r2

/**
  * @brief  Со�то�ние �ухого контакта
  */
void GetDINStatusStr(char *str, uint8_t *len, uint8_t num)
{
 8027e64:	460d      	mov	r5, r1
	sprintf(str, "%d", get_state_din_outs(DIN1+num));
 8027e66:	f001 f81c 	bl	8028ea2 <get_state_din_outs>
 8027e6a:	4905      	ldr	r1, [pc, #20]	; (8027e80 <GetDINStatusStr+0x24>)
 8027e6c:	4602      	mov	r2, r0
 8027e6e:	4620      	mov	r0, r4
 8027e70:	f7ff fe56 	bl	8027b20 <tfp_sprintf>
	*len = strlen(str);
 8027e74:	4620      	mov	r0, r4
 8027e76:	f7fa f96b 	bl	8022150 <strlen>
 8027e7a:	7028      	strb	r0, [r5, #0]
 8027e7c:	bd38      	pop	{r3, r4, r5, pc}
 8027e7e:	bf00      	nop
 8027e80:	08038967 	.word	0x08038967

08027e84 <GetDIN0StatusStr>:

/**
  * @brief  Со�то�ние �ухого контакта
  */
void GetDIN0StatusStr(char *str, uint8_t *len)
{
 8027e84:	b538      	push	{r3, r4, r5, lr}
 8027e86:	4604      	mov	r4, r0
	sprintf(str, "%d", get_state_din_outs(DIN1));
 8027e88:	2006      	movs	r0, #6

/**
  * @brief  Со�то�ние �ухого контакта
  */
void GetDIN0StatusStr(char *str, uint8_t *len)
{
 8027e8a:	460d      	mov	r5, r1
	sprintf(str, "%d", get_state_din_outs(DIN1));
 8027e8c:	f001 f809 	bl	8028ea2 <get_state_din_outs>
 8027e90:	4904      	ldr	r1, [pc, #16]	; (8027ea4 <GetDIN0StatusStr+0x20>)
 8027e92:	4602      	mov	r2, r0
 8027e94:	4620      	mov	r0, r4
 8027e96:	f7ff fe43 	bl	8027b20 <tfp_sprintf>
	*len = strlen(str);
 8027e9a:	4620      	mov	r0, r4
 8027e9c:	f7fa f958 	bl	8022150 <strlen>
 8027ea0:	7028      	strb	r0, [r5, #0]
 8027ea2:	bd38      	pop	{r3, r4, r5, pc}
 8027ea4:	08038967 	.word	0x08038967

08027ea8 <GetROTypeActStr>:

/**
  * @brief  И�точник �рабатывани� реле
  */
void GetROTypeActStr(char *str, uint8_t *len, uint8_t num)
{
 8027ea8:	b538      	push	{r3, r4, r5, lr}
	sprintf(str, "%d", sSettings.sInOuts.ro_type_source[num]);
 8027eaa:	4b07      	ldr	r3, [pc, #28]	; (8027ec8 <GetROTypeActStr+0x20>)
 8027eac:	189a      	adds	r2, r3, r2

/**
  * @brief  И�точник �рабатывани� реле
  */
void GetROTypeActStr(char *str, uint8_t *len, uint8_t num)
{
 8027eae:	4605      	mov	r5, r0
 8027eb0:	460c      	mov	r4, r1
	sprintf(str, "%d", sSettings.sInOuts.ro_type_source[num]);
 8027eb2:	f892 2374 	ldrb.w	r2, [r2, #884]	; 0x374
 8027eb6:	4905      	ldr	r1, [pc, #20]	; (8027ecc <GetROTypeActStr+0x24>)
 8027eb8:	f7ff fe32 	bl	8027b20 <tfp_sprintf>
	*len = strlen(str);
 8027ebc:	4628      	mov	r0, r5
 8027ebe:	f7fa f947 	bl	8022150 <strlen>
 8027ec2:	7020      	strb	r0, [r4, #0]
 8027ec4:	bd38      	pop	{r3, r4, r5, pc}
 8027ec6:	bf00      	nop
 8027ec8:	2000cba0 	.word	0x2000cba0
 8027ecc:	08038967 	.word	0x08038967

08027ed0 <GetDOUTStatusStr>:
/**
  * @brief  Со�то�ние релейного выхода
  */
void GetDOUTStatusStr(char *str, uint8_t *len, uint8_t num)
{
	sprintf(str, "%d", get_state_din_outs(DOUT1+num));
 8027ed0:	3207      	adds	r2, #7

/**
  * @brief  Со�то�ние релейного выхода
  */
void GetDOUTStatusStr(char *str, uint8_t *len, uint8_t num)
{
 8027ed2:	b538      	push	{r3, r4, r5, lr}
 8027ed4:	4604      	mov	r4, r0
	sprintf(str, "%d", get_state_din_outs(DOUT1+num));
 8027ed6:	b2d0      	uxtb	r0, r2

/**
  * @brief  Со�то�ние релейного выхода
  */
void GetDOUTStatusStr(char *str, uint8_t *len, uint8_t num)
{
 8027ed8:	460d      	mov	r5, r1
	sprintf(str, "%d", get_state_din_outs(DOUT1+num));
 8027eda:	f000 ffe2 	bl	8028ea2 <get_state_din_outs>
 8027ede:	4905      	ldr	r1, [pc, #20]	; (8027ef4 <GetDOUTStatusStr+0x24>)
 8027ee0:	4602      	mov	r2, r0
 8027ee2:	4620      	mov	r0, r4
 8027ee4:	f7ff fe1c 	bl	8027b20 <tfp_sprintf>
	*len = strlen(str);
 8027ee8:	4620      	mov	r0, r4
 8027eea:	f7fa f931 	bl	8022150 <strlen>
 8027eee:	7028      	strb	r0, [r5, #0]
 8027ef0:	bd38      	pop	{r3, r4, r5, pc}
 8027ef2:	bf00      	nop
 8027ef4:	08038967 	.word	0x08038967

08027ef8 <GetDOUT0StatusStr>:

/**
  * @brief  Со�то�ние релейного выхода
  */
void GetDOUT0StatusStr(char *str, uint8_t *len)
{
 8027ef8:	b538      	push	{r3, r4, r5, lr}
 8027efa:	4604      	mov	r4, r0
	sprintf(str, "%d", get_state_din_outs(DOUT1));
 8027efc:	2007      	movs	r0, #7

/**
  * @brief  Со�то�ние релейного выхода
  */
void GetDOUT0StatusStr(char *str, uint8_t *len)
{
 8027efe:	460d      	mov	r5, r1
	sprintf(str, "%d", get_state_din_outs(DOUT1));
 8027f00:	f000 ffcf 	bl	8028ea2 <get_state_din_outs>
 8027f04:	4904      	ldr	r1, [pc, #16]	; (8027f18 <GetDOUT0StatusStr+0x20>)
 8027f06:	4602      	mov	r2, r0
 8027f08:	4620      	mov	r0, r4
 8027f0a:	f7ff fe09 	bl	8027b20 <tfp_sprintf>
	*len = strlen(str);
 8027f0e:	4620      	mov	r0, r4
 8027f10:	f7fa f91e 	bl	8022150 <strlen>
 8027f14:	7028      	strb	r0, [r5, #0]
 8027f16:	bd38      	pop	{r3, r4, r5, pc}
 8027f18:	08038967 	.word	0x08038967

08027f1c <GetDOUT1StatusStr>:

/**
  * @brief  Со�то�ние релейного выхода
  */
void GetDOUT1StatusStr(char *str, uint8_t *len)
{
 8027f1c:	b538      	push	{r3, r4, r5, lr}
 8027f1e:	4604      	mov	r4, r0
	sprintf(str, "%d", get_state_din_outs(DOUT2));
 8027f20:	2008      	movs	r0, #8

/**
  * @brief  Со�то�ние релейного выхода
  */
void GetDOUT1StatusStr(char *str, uint8_t *len)
{
 8027f22:	460d      	mov	r5, r1
	sprintf(str, "%d", get_state_din_outs(DOUT2));
 8027f24:	f000 ffbd 	bl	8028ea2 <get_state_din_outs>
 8027f28:	4904      	ldr	r1, [pc, #16]	; (8027f3c <GetDOUT1StatusStr+0x20>)
 8027f2a:	4602      	mov	r2, r0
 8027f2c:	4620      	mov	r0, r4
 8027f2e:	f7ff fdf7 	bl	8027b20 <tfp_sprintf>
	*len = strlen(str);
 8027f32:	4620      	mov	r0, r4
 8027f34:	f7fa f90c 	bl	8022150 <strlen>
 8027f38:	7028      	strb	r0, [r5, #0]
 8027f3a:	bd38      	pop	{r3, r4, r5, pc}
 8027f3c:	08038967 	.word	0x08038967

08027f40 <GetWorkTimeStr>:

/**
  * @brief  Врем� работы у�трой�тва
  */
void GetWorkTimeStr(char *str, uint8_t *len)
{
 8027f40:	b57f      	push	{r0, r1, r2, r3, r4, r5, r6, lr}
 8027f42:	4604      	mov	r4, r0
  u32_t    tick;
  uint16_t day;
  uint8_t  hour;
  uint8_t  min;

  snmp_get_sysuptime(&tick);
 8027f44:	a803      	add	r0, sp, #12

/**
  * @brief  Врем� работы у�трой�тва
  */
void GetWorkTimeStr(char *str, uint8_t *len)
{
 8027f46:	460e      	mov	r6, r1
  u32_t    tick;
  uint16_t day;
  uint8_t  hour;
  uint8_t  min;

  snmp_get_sysuptime(&tick);
 8027f48:	f00b fdda 	bl	8033b00 <snmp_get_sysuptime>

  day = tick/8640000;
 8027f4c:	9803      	ldr	r0, [sp, #12]
  
  tick = tick%8640000;
 8027f4e:	4b0c      	ldr	r3, [pc, #48]	; (8027f80 <GetWorkTimeStr+0x40>)
  hour = tick/360000;
  
  tick = tick%360000;
 8027f50:	4d0c      	ldr	r5, [pc, #48]	; (8027f84 <GetWorkTimeStr+0x44>)

  snmp_get_sysuptime(&tick);

  day = tick/8640000;
  
  tick = tick%8640000;
 8027f52:	fbb0 f2f3 	udiv	r2, r0, r3
 8027f56:	fb03 0012 	mls	r0, r3, r2, r0
  hour = tick/360000;
  
  tick = tick%360000;
 8027f5a:	fbb0 f3f5 	udiv	r3, r0, r5
 8027f5e:	fb05 0013 	mls	r0, r5, r3, r0
  min = tick/6000;
 8027f62:	f241 7170 	movw	r1, #6000	; 0x1770
  day = tick/8640000;
  
  tick = tick%8640000;
  hour = tick/360000;
  
  tick = tick%360000;
 8027f66:	9003      	str	r0, [sp, #12]
  min = tick/6000;
 8027f68:	fbb0 f0f1 	udiv	r0, r0, r1

  sprintf(str, "%d дн. %d ч. %d мин.", day, hour, min);
 8027f6c:	9000      	str	r0, [sp, #0]
 8027f6e:	4906      	ldr	r1, [pc, #24]	; (8027f88 <GetWorkTimeStr+0x48>)
 8027f70:	4620      	mov	r0, r4
 8027f72:	f7ff fdd5 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 8027f76:	4620      	mov	r0, r4
 8027f78:	f7fa f8ea 	bl	8022150 <strlen>
 8027f7c:	7030      	strb	r0, [r6, #0]
}
 8027f7e:	bd7f      	pop	{r0, r1, r2, r3, r4, r5, r6, pc}
 8027f80:	0083d600 	.word	0x0083d600
 8027f84:	00057e40 	.word	0x00057e40
 8027f88:	08038979 	.word	0x08038979

08027f8c <GetModelStr>:

/**
  * @brief  Модель у�трой�тва
  */
void GetModelStr(char *str, uint8_t *len)
{
 8027f8c:	b570      	push	{r4, r5, r6, lr}
  *len = strlen(sSettings.sSnmp.sysName);
 8027f8e:	4c07      	ldr	r4, [pc, #28]	; (8027fac <GetModelStr+0x20>)

/**
  * @brief  Модель у�трой�тва
  */
void GetModelStr(char *str, uint8_t *len)
{
 8027f90:	4605      	mov	r5, r0
  *len = strlen(sSettings.sSnmp.sysName);
 8027f92:	4620      	mov	r0, r4

/**
  * @brief  Модель у�трой�тва
  */
void GetModelStr(char *str, uint8_t *len)
{
 8027f94:	460e      	mov	r6, r1
  *len = strlen(sSettings.sSnmp.sysName);
 8027f96:	f7fa f8db 	bl	8022150 <strlen>
 8027f9a:	4602      	mov	r2, r0
 8027f9c:	7030      	strb	r0, [r6, #0]
  strncpy(str, sSettings.sSnmp.sysName, *len);
 8027f9e:	4621      	mov	r1, r4
 8027fa0:	4628      	mov	r0, r5
 8027fa2:	b2d2      	uxtb	r2, r2
}
 8027fa4:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  Модель у�трой�тва
  */
void GetModelStr(char *str, uint8_t *len)
{
  *len = strlen(sSettings.sSnmp.sysName);
  strncpy(str, sSettings.sSnmp.sysName, *len);
 8027fa8:	f7fa b98a 	b.w	80222c0 <strncpy>
 8027fac:	2000cdcb 	.word	0x2000cdcb

08027fb0 <GetProductionDataStr>:

/**
  * @brief  Дата производ�тва
  */
void GetProductionDataStr(char *str, uint8_t *len)
{
 8027fb0:	b570      	push	{r4, r5, r6, lr}
  *len = strlen(sSettings.sInfo.productionData);
 8027fb2:	4c07      	ldr	r4, [pc, #28]	; (8027fd0 <GetProductionDataStr+0x20>)

/**
  * @brief  Дата производ�тва
  */
void GetProductionDataStr(char *str, uint8_t *len)
{
 8027fb4:	4605      	mov	r5, r0
  *len = strlen(sSettings.sInfo.productionData);
 8027fb6:	4620      	mov	r0, r4

/**
  * @brief  Дата производ�тва
  */
void GetProductionDataStr(char *str, uint8_t *len)
{
 8027fb8:	460e      	mov	r6, r1
  *len = strlen(sSettings.sInfo.productionData);
 8027fba:	f7fa f8c9 	bl	8022150 <strlen>
 8027fbe:	4602      	mov	r2, r0
 8027fc0:	7030      	strb	r0, [r6, #0]
  strncpy(str, sSettings.sInfo.productionData, *len);
 8027fc2:	4621      	mov	r1, r4
 8027fc4:	4628      	mov	r0, r5
 8027fc6:	b2d2      	uxtb	r2, r2
}
 8027fc8:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  Дата производ�тва
  */
void GetProductionDataStr(char *str, uint8_t *len)
{
  *len = strlen(sSettings.sInfo.productionData);
  strncpy(str, sSettings.sInfo.productionData, *len);
 8027fcc:	f7fa b978 	b.w	80222c0 <strncpy>
 8027fd0:	2000cc04 	.word	0x2000cc04

08027fd4 <GetVersionStr>:

/**
  * @brief  Вер�и� ПО
  */
void GetVersionStr(char *str, uint8_t *len) // +
{
 8027fd4:	b570      	push	{r4, r5, r6, lr}
  *len = strlen(VERSION);
 8027fd6:	4c07      	ldr	r4, [pc, #28]	; (8027ff4 <GetVersionStr+0x20>)

/**
  * @brief  Вер�и� ПО
  */
void GetVersionStr(char *str, uint8_t *len) // +
{
 8027fd8:	4605      	mov	r5, r0
  *len = strlen(VERSION);
 8027fda:	4620      	mov	r0, r4

/**
  * @brief  Вер�и� ПО
  */
void GetVersionStr(char *str, uint8_t *len) // +
{
 8027fdc:	460e      	mov	r6, r1
  *len = strlen(VERSION);
 8027fde:	f7fa f8b7 	bl	8022150 <strlen>
 8027fe2:	4602      	mov	r2, r0
 8027fe4:	7030      	strb	r0, [r6, #0]
  strncpy(str, VERSION, *len);
 8027fe6:	4621      	mov	r1, r4
 8027fe8:	4628      	mov	r0, r5
 8027fea:	b2d2      	uxtb	r2, r2
}
 8027fec:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  Вер�и� ПО
  */
void GetVersionStr(char *str, uint8_t *len) // +
{
  *len = strlen(VERSION);
  strncpy(str, VERSION, *len);
 8027ff0:	f7fa b966 	b.w	80222c0 <strncpy>
 8027ff4:	08038994 	.word	0x08038994

08027ff8 <GetMacStr>:

/**
  * @brief  MAC адре� у�трой�тва
  */
void GetMacStr(char *str, uint8_t *len)
{
 8027ff8:	b570      	push	{r4, r5, r6, lr}
  *len = strlen(sSettings.sInfo.mac);
 8027ffa:	4c07      	ldr	r4, [pc, #28]	; (8028018 <GetMacStr+0x20>)

/**
  * @brief  MAC адре� у�трой�тва
  */
void GetMacStr(char *str, uint8_t *len)
{
 8027ffc:	4605      	mov	r5, r0
  *len = strlen(sSettings.sInfo.mac);
 8027ffe:	4620      	mov	r0, r4

/**
  * @brief  MAC адре� у�трой�тва
  */
void GetMacStr(char *str, uint8_t *len)
{
 8028000:	460e      	mov	r6, r1
  *len = strlen(sSettings.sInfo.mac);
 8028002:	f7fa f8a5 	bl	8022150 <strlen>
 8028006:	4602      	mov	r2, r0
 8028008:	7030      	strb	r0, [r6, #0]
  strncpy(str, sSettings.sInfo.mac, *len);
 802800a:	4621      	mov	r1, r4
 802800c:	4628      	mov	r0, r5
 802800e:	b2d2      	uxtb	r2, r2
}
 8028010:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  MAC адре� у�трой�тва
  */
void GetMacStr(char *str, uint8_t *len)
{
  *len = strlen(sSettings.sInfo.mac);
  strncpy(str, sSettings.sInfo.mac, *len);
 8028014:	f7fa b954 	b.w	80222c0 <strncpy>
 8028018:	2000cc2c 	.word	0x2000cc2c

0802801c <GetSerialNumberStr>:

/**
  * @brief  Серийный номер у�трой�тва
  */
void GetSerialNumberStr(char *str, uint8_t *len)
{
 802801c:	b570      	push	{r4, r5, r6, lr}
  *len = strlen(sSettings.sInfo.serialNumber);
 802801e:	4c07      	ldr	r4, [pc, #28]	; (802803c <GetSerialNumberStr+0x20>)

/**
  * @brief  Серийный номер у�трой�тва
  */
void GetSerialNumberStr(char *str, uint8_t *len)
{
 8028020:	4605      	mov	r5, r0
  *len = strlen(sSettings.sInfo.serialNumber);
 8028022:	4620      	mov	r0, r4

/**
  * @brief  Серийный номер у�трой�тва
  */
void GetSerialNumberStr(char *str, uint8_t *len)
{
 8028024:	460e      	mov	r6, r1
  *len = strlen(sSettings.sInfo.serialNumber);
 8028026:	f7fa f893 	bl	8022150 <strlen>
 802802a:	4602      	mov	r2, r0
 802802c:	7030      	strb	r0, [r6, #0]
  strncpy(str, sSettings.sInfo.serialNumber, *len);
 802802e:	4621      	mov	r1, r4
 8028030:	4628      	mov	r0, r5
 8028032:	b2d2      	uxtb	r2, r2
}
 8028034:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  Серийный номер у�трой�тва
  */
void GetSerialNumberStr(char *str, uint8_t *len)
{
  *len = strlen(sSettings.sInfo.serialNumber);
  strncpy(str, sSettings.sInfo.serialNumber, *len);
 8028038:	f7fa b942 	b.w	80222c0 <strncpy>
 802803c:	2000cc3e 	.word	0x2000cc3e

08028040 <GetOwnerStr>:

/**
  * @brief  Владелец у�трой�тва
  */
void GetOwnerStr(char *str, uint8_t *len)
{
 8028040:	b570      	push	{r4, r5, r6, lr}
  *len = strlen(sSettings.sSnmp.sysContact);
 8028042:	4c07      	ldr	r4, [pc, #28]	; (8028060 <GetOwnerStr+0x20>)

/**
  * @brief  Владелец у�трой�тва
  */
void GetOwnerStr(char *str, uint8_t *len)
{
 8028044:	4605      	mov	r5, r0
  *len = strlen(sSettings.sSnmp.sysContact);
 8028046:	4620      	mov	r0, r4

/**
  * @brief  Владелец у�трой�тва
  */
void GetOwnerStr(char *str, uint8_t *len)
{
 8028048:	460e      	mov	r6, r1
  *len = strlen(sSettings.sSnmp.sysContact);
 802804a:	f7fa f881 	bl	8022150 <strlen>
 802804e:	4602      	mov	r2, r0
 8028050:	7030      	strb	r0, [r6, #0]
  strncpy(str, sSettings.sSnmp.sysContact, *len);
 8028052:	4621      	mov	r1, r4
 8028054:	4628      	mov	r0, r5
 8028056:	b2d2      	uxtb	r2, r2
}
 8028058:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  Владелец у�трой�тва
  */
void GetOwnerStr(char *str, uint8_t *len)
{
  *len = strlen(sSettings.sSnmp.sysContact);
  strncpy(str, sSettings.sSnmp.sysContact, *len);
 802805c:	f7fa b930 	b.w	80222c0 <strncpy>
 8028060:	2000cd99 	.word	0x2000cd99

08028064 <GetLocationStr>:

/**
  * @brief  Ме�тоположение у�трой�тва
  */
void GetLocationStr(char *str, uint8_t *len)
{
 8028064:	b570      	push	{r4, r5, r6, lr}
  *len = strlen(sSettings.sSnmp.sysLocation);
 8028066:	4c07      	ldr	r4, [pc, #28]	; (8028084 <GetLocationStr+0x20>)

/**
  * @brief  Ме�тоположение у�трой�тва
  */
void GetLocationStr(char *str, uint8_t *len)
{
 8028068:	4605      	mov	r5, r0
  *len = strlen(sSettings.sSnmp.sysLocation);
 802806a:	4620      	mov	r0, r4

/**
  * @brief  Ме�тоположение у�трой�тва
  */
void GetLocationStr(char *str, uint8_t *len)
{
 802806c:	460e      	mov	r6, r1
  *len = strlen(sSettings.sSnmp.sysLocation);
 802806e:	f7fa f86f 	bl	8022150 <strlen>
 8028072:	4602      	mov	r2, r0
 8028074:	7030      	strb	r0, [r6, #0]
  strncpy(str, sSettings.sSnmp.sysLocation, *len);
 8028076:	4621      	mov	r1, r4
 8028078:	4628      	mov	r0, r5
 802807a:	b2d2      	uxtb	r2, r2
}
 802807c:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  Ме�тоположение у�трой�тва
  */
void GetLocationStr(char *str, uint8_t *len)
{
  *len = strlen(sSettings.sSnmp.sysLocation);
  strncpy(str, sSettings.sSnmp.sysLocation, *len);
 8028080:	f7fa b91e 	b.w	80222c0 <strncpy>
 8028084:	2000cddf 	.word	0x2000cddf

08028088 <GetCommentsStr>:

/**
  * @brief  Комментарии
  */
void GetCommentsStr(char *str, uint8_t *len)
{
 8028088:	b570      	push	{r4, r5, r6, lr}
  *len = strlen(sSettings.sInfo.comments);
 802808a:	4c07      	ldr	r4, [pc, #28]	; (80280a8 <GetCommentsStr+0x20>)

/**
  * @brief  Комментарии
  */
void GetCommentsStr(char *str, uint8_t *len)
{
 802808c:	4605      	mov	r5, r0
  *len = strlen(sSettings.sInfo.comments);
 802808e:	4620      	mov	r0, r4

/**
  * @brief  Комментарии
  */
void GetCommentsStr(char *str, uint8_t *len)
{
 8028090:	460e      	mov	r6, r1
  *len = strlen(sSettings.sInfo.comments);
 8028092:	f7fa f85d 	bl	8022150 <strlen>
 8028096:	4602      	mov	r2, r0
 8028098:	7030      	strb	r0, [r6, #0]
  strncpy(str, sSettings.sInfo.comments, *len);
 802809a:	4621      	mov	r1, r4
 802809c:	4628      	mov	r0, r5
 802809e:	b2d2      	uxtb	r2, r2
}
 80280a0:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  Комментарии
  */
void GetCommentsStr(char *str, uint8_t *len)
{
  *len = strlen(sSettings.sInfo.comments);
  strncpy(str, sSettings.sInfo.comments, *len);
 80280a4:	f7fa b90c 	b.w	80222c0 <strncpy>
 80280a8:	2000cc4e 	.word	0x2000cc4e

080280ac <GetUPSModelStr>:

/**
  * @brief  Модель UPS
  */
void GetUPSModelStr(char *str, uint8_t *len)
{
 80280ac:	b570      	push	{r4, r5, r6, lr}
  *len = strlen(UPS.model);
 80280ae:	4c07      	ldr	r4, [pc, #28]	; (80280cc <GetUPSModelStr+0x20>)

/**
  * @brief  Модель UPS
  */
void GetUPSModelStr(char *str, uint8_t *len)
{
 80280b0:	4605      	mov	r5, r0
  *len = strlen(UPS.model);
 80280b2:	4620      	mov	r0, r4

/**
  * @brief  Модель UPS
  */
void GetUPSModelStr(char *str, uint8_t *len)
{
 80280b4:	460e      	mov	r6, r1
  *len = strlen(UPS.model);
 80280b6:	f7fa f84b 	bl	8022150 <strlen>
 80280ba:	4602      	mov	r2, r0
 80280bc:	7030      	strb	r0, [r6, #0]
  strncpy(str, UPS.model, *len);
 80280be:	4621      	mov	r1, r4
 80280c0:	4628      	mov	r0, r5
 80280c2:	b2d2      	uxtb	r2, r2
}
 80280c4:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  Модель UPS
  */
void GetUPSModelStr(char *str, uint8_t *len)
{
  *len = strlen(UPS.model);
  strncpy(str, UPS.model, *len);
 80280c8:	f7fa b8fa 	b.w	80222c0 <strncpy>
 80280cc:	2000cf79 	.word	0x2000cf79

080280d0 <GetUPSVersionStr>:

/**
  * @brief  Вер�и� UPS ПО
  */
void GetUPSVersionStr(char *str, uint8_t *len) // +
{
 80280d0:	b570      	push	{r4, r5, r6, lr}
	*len = strlen(UPS.vertion);
 80280d2:	4c07      	ldr	r4, [pc, #28]	; (80280f0 <GetUPSVersionStr+0x20>)

/**
  * @brief  Вер�и� UPS ПО
  */
void GetUPSVersionStr(char *str, uint8_t *len) // +
{
 80280d4:	4605      	mov	r5, r0
	*len = strlen(UPS.vertion);
 80280d6:	4620      	mov	r0, r4

/**
  * @brief  Вер�и� UPS ПО
  */
void GetUPSVersionStr(char *str, uint8_t *len) // +
{
 80280d8:	460e      	mov	r6, r1
	*len = strlen(UPS.vertion);
 80280da:	f7fa f839 	bl	8022150 <strlen>
 80280de:	4602      	mov	r2, r0
 80280e0:	7030      	strb	r0, [r6, #0]
	strncpy(str, UPS.vertion, *len);
 80280e2:	4621      	mov	r1, r4
 80280e4:	4628      	mov	r0, r5
 80280e6:	b2d2      	uxtb	r2, r2
}
 80280e8:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  Вер�и� UPS ПО
  */
void GetUPSVersionStr(char *str, uint8_t *len) // +
{
	*len = strlen(UPS.vertion);
	strncpy(str, UPS.vertion, *len);
 80280ec:	f7fa b8e8 	b.w	80222c0 <strncpy>
 80280f0:	2000cf84 	.word	0x2000cf84

080280f4 <GetUserLogin>:

// ************************************************************************** //
//                          �а�тройки аутентификации

void GetUserLogin(uint8_t user_id, char *str, uint8_t *len)
{
 80280f4:	b538      	push	{r3, r4, r5, lr}
    sprintf(str, "%s", sSettings.sAuth[user_id].login);
 80280f6:	4b08      	ldr	r3, [pc, #32]	; (8028118 <GetUserLogin+0x24>)

// ************************************************************************** //
//                          �а�тройки аутентификации

void GetUserLogin(uint8_t user_id, char *str, uint8_t *len)
{
 80280f8:	4615      	mov	r5, r2
    sprintf(str, "%s", sSettings.sAuth[user_id].login);
 80280fa:	2217      	movs	r2, #23
 80280fc:	fb02 3200 	mla	r2, r2, r0, r3

// ************************************************************************** //
//                          �а�тройки аутентификации

void GetUserLogin(uint8_t user_id, char *str, uint8_t *len)
{
 8028100:	460c      	mov	r4, r1
    sprintf(str, "%s", sSettings.sAuth[user_id].login);
 8028102:	4608      	mov	r0, r1
 8028104:	3202      	adds	r2, #2
 8028106:	4905      	ldr	r1, [pc, #20]	; (802811c <GetUserLogin+0x28>)
 8028108:	f7ff fd0a 	bl	8027b20 <tfp_sprintf>
    *len = strlen(str);
 802810c:	4620      	mov	r0, r4
 802810e:	f7fa f81f 	bl	8022150 <strlen>
 8028112:	7028      	strb	r0, [r5, #0]
 8028114:	bd38      	pop	{r3, r4, r5, pc}
 8028116:	bf00      	nop
 8028118:	2000ceb0 	.word	0x2000ceb0
 802811c:	0804288f 	.word	0x0804288f

08028120 <GetUserPassword>:
}

void GetUserPassword(uint8_t user_id, char *str, uint8_t *len)
{
 8028120:	b538      	push	{r3, r4, r5, lr}
    sprintf(str, "%s", sSettings.sAuth[user_id].password);
 8028122:	4b08      	ldr	r3, [pc, #32]	; (8028144 <GetUserPassword+0x24>)
    sprintf(str, "%s", sSettings.sAuth[user_id].login);
    *len = strlen(str);
}

void GetUserPassword(uint8_t user_id, char *str, uint8_t *len)
{
 8028124:	4615      	mov	r5, r2
    sprintf(str, "%s", sSettings.sAuth[user_id].password);
 8028126:	2217      	movs	r2, #23
 8028128:	fb02 3200 	mla	r2, r2, r0, r3
    sprintf(str, "%s", sSettings.sAuth[user_id].login);
    *len = strlen(str);
}

void GetUserPassword(uint8_t user_id, char *str, uint8_t *len)
{
 802812c:	460c      	mov	r4, r1
    sprintf(str, "%s", sSettings.sAuth[user_id].password);
 802812e:	4608      	mov	r0, r1
 8028130:	3205      	adds	r2, #5
 8028132:	4905      	ldr	r1, [pc, #20]	; (8028148 <GetUserPassword+0x28>)
 8028134:	f7ff fcf4 	bl	8027b20 <tfp_sprintf>
    *len = strlen(str);
 8028138:	4620      	mov	r0, r4
 802813a:	f7fa f809 	bl	8022150 <strlen>
 802813e:	7028      	strb	r0, [r5, #0]
 8028140:	bd38      	pop	{r3, r4, r5, pc}
 8028142:	bf00      	nop
 8028144:	2000ceb8 	.word	0x2000ceb8
 8028148:	0804288f 	.word	0x0804288f

0802814c <GetUserLevelInt>:
    *len = strlen(str);
}

void GetUserLevelInt(uint8_t user_id, uint8_t *value)
{
    *value = sSettings.sAuth[user_id].level;
 802814c:	4b03      	ldr	r3, [pc, #12]	; (802815c <GetUserLevelInt+0x10>)
 802814e:	2217      	movs	r2, #23
 8028150:	fb02 3000 	mla	r0, r2, r0, r3
 8028154:	f890 3311 	ldrb.w	r3, [r0, #785]	; 0x311
 8028158:	700b      	strb	r3, [r1, #0]
 802815a:	4770      	bx	lr
 802815c:	2000cba0 	.word	0x2000cba0

08028160 <GetIpStr>:
  * @brief  Текущий IP адре�
  */
void GetIpStr(char *str, uint8_t *len)
{
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
 8028160:	4a08      	ldr	r2, [pc, #32]	; (8028184 <GetIpStr+0x24>)

/**
  * @brief  Текущий IP адре�
  */
void GetIpStr(char *str, uint8_t *len)
{
 8028162:	b538      	push	{r3, r4, r5, lr}
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
 8028164:	f892 3120 	ldrb.w	r3, [r2, #288]	; 0x120

/**
  * @brief  Текущий IP адре�
  */
void GetIpStr(char *str, uint8_t *len)
{
 8028168:	460c      	mov	r4, r1
 802816a:	4605      	mov	r5, r0
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
	sprintf(str, "%s", sSettings.sWebTempParams.ip);
 802816c:	4906      	ldr	r1, [pc, #24]	; (8028188 <GetIpStr+0x28>)
  * @brief  Текущий IP адре�
  */
void GetIpStr(char *str, uint8_t *len)
{
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
 802816e:	b10b      	cbz	r3, 8028174 <GetIpStr+0x14>
	sprintf(str, "%s", sSettings.sWebTempParams.ip);
 8028170:	3233      	adds	r2, #51	; 0x33
 8028172:	e000      	b.n	8028176 <GetIpStr+0x16>
  else	
    sprintf(str, "%s", sSettings.sWebParams.ip);
 8028174:	3202      	adds	r2, #2
 8028176:	f7ff fcd3 	bl	8027b20 <tfp_sprintf>
  
  *len = strlen(str);
 802817a:	4628      	mov	r0, r5
 802817c:	f7f9 ffe8 	bl	8022150 <strlen>
 8028180:	7020      	strb	r0, [r4, #0]
 8028182:	bd38      	pop	{r3, r4, r5, pc}
 8028184:	2000cba0 	.word	0x2000cba0
 8028188:	0804288f 	.word	0x0804288f

0802818c <GetGatewayStr>:
  * @brief  Текущий шлюз
  */
void GetGatewayStr(char *str, uint8_t *len)
{
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
 802818c:	4a08      	ldr	r2, [pc, #32]	; (80281b0 <GetGatewayStr+0x24>)

/**
  * @brief  Текущий шлюз
  */
void GetGatewayStr(char *str, uint8_t *len)
{
 802818e:	b538      	push	{r3, r4, r5, lr}
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
 8028190:	f892 3120 	ldrb.w	r3, [r2, #288]	; 0x120

/**
  * @brief  Текущий шлюз
  */
void GetGatewayStr(char *str, uint8_t *len)
{
 8028194:	460c      	mov	r4, r1
 8028196:	4605      	mov	r5, r0
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
	sprintf(str, "%s", sSettings.sWebTempParams.gate);
 8028198:	4906      	ldr	r1, [pc, #24]	; (80281b4 <GetGatewayStr+0x28>)
  * @brief  Текущий шлюз
  */
void GetGatewayStr(char *str, uint8_t *len)
{
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
 802819a:	b10b      	cbz	r3, 80281a0 <GetGatewayStr+0x14>
	sprintf(str, "%s", sSettings.sWebTempParams.gate);
 802819c:	3243      	adds	r2, #67	; 0x43
 802819e:	e000      	b.n	80281a2 <GetGatewayStr+0x16>
  else
	sprintf(str, "%s", sSettings.sWebParams.gate);
 80281a0:	3212      	adds	r2, #18
 80281a2:	f7ff fcbd 	bl	8027b20 <tfp_sprintf>
  
  *len = strlen(str);
 80281a6:	4628      	mov	r0, r5
 80281a8:	f7f9 ffd2 	bl	8022150 <strlen>
 80281ac:	7020      	strb	r0, [r4, #0]
 80281ae:	bd38      	pop	{r3, r4, r5, pc}
 80281b0:	2000cba0 	.word	0x2000cba0
 80281b4:	0804288f 	.word	0x0804288f

080281b8 <GetMaskStr>:
  * @brief  Текуща� ма�ка под�ети
  */
void GetMaskStr(char *str, uint8_t *len)
{
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
 80281b8:	4a08      	ldr	r2, [pc, #32]	; (80281dc <GetMaskStr+0x24>)

/**
  * @brief  Текуща� ма�ка под�ети
  */
void GetMaskStr(char *str, uint8_t *len)
{
 80281ba:	b538      	push	{r3, r4, r5, lr}
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
 80281bc:	f892 3120 	ldrb.w	r3, [r2, #288]	; 0x120

/**
  * @brief  Текуща� ма�ка под�ети
  */
void GetMaskStr(char *str, uint8_t *len)
{
 80281c0:	460c      	mov	r4, r1
 80281c2:	4605      	mov	r5, r0
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
    sprintf(str, "%s", sSettings.sWebTempParams.mask);
 80281c4:	4906      	ldr	r1, [pc, #24]	; (80281e0 <GetMaskStr+0x28>)
  * @brief  Текуща� ма�ка под�ети
  */
void GetMaskStr(char *str, uint8_t *len)
{
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
 80281c6:	b10b      	cbz	r3, 80281cc <GetMaskStr+0x14>
    sprintf(str, "%s", sSettings.sWebTempParams.mask);
 80281c8:	3253      	adds	r2, #83	; 0x53
 80281ca:	e000      	b.n	80281ce <GetMaskStr+0x16>
  else	
    sprintf(str, "%s", sSettings.sWebParams.mask);
 80281cc:	3222      	adds	r2, #34	; 0x22
 80281ce:	f7ff fca7 	bl	8027b20 <tfp_sprintf>
  
  *len = strlen(str);
 80281d2:	4628      	mov	r0, r5
 80281d4:	f7f9 ffbc 	bl	8022150 <strlen>
 80281d8:	7020      	strb	r0, [r4, #0]
 80281da:	bd38      	pop	{r3, r4, r5, pc}
 80281dc:	2000cba0 	.word	0x2000cba0
 80281e0:	0804288f 	.word	0x0804288f

080281e4 <GetDhcpStateStr>:
  * @brief  �а�тройка DHCP
  */
void GetDhcpStateStr(char *str, uint8_t *len)
{
  /* Е�ли �ейча� временные на�тройки */
  if (sSettings.sFlags.netsettingsChanged)
 80281e4:	4b08      	ldr	r3, [pc, #32]	; (8028208 <GetDhcpStateStr+0x24>)
 80281e6:	f893 2120 	ldrb.w	r2, [r3, #288]	; 0x120
 80281ea:	b112      	cbz	r2, 80281f2 <GetDhcpStateStr+0xe>
  {
    if (sSettings.sWebTempParams.dhcpEnable)
 80281ec:	f893 3063 	ldrb.w	r3, [r3, #99]	; 0x63
 80281f0:	e001      	b.n	80281f6 <GetDhcpStateStr+0x12>
    else
      *str = '0';
  }
  else
  {
    if (sSettings.sWebParams.dhcpEnable)
 80281f2:	f893 3032 	ldrb.w	r3, [r3, #50]	; 0x32
 80281f6:	b10b      	cbz	r3, 80281fc <GetDhcpStateStr+0x18>
      *str = '1';
 80281f8:	2331      	movs	r3, #49	; 0x31
 80281fa:	e000      	b.n	80281fe <GetDhcpStateStr+0x1a>
    else
      *str = '0';
 80281fc:	2330      	movs	r3, #48	; 0x30
 80281fe:	7003      	strb	r3, [r0, #0]
  }
  
  *len = 1;
 8028200:	2301      	movs	r3, #1
 8028202:	700b      	strb	r3, [r1, #0]
 8028204:	4770      	bx	lr
 8028206:	bf00      	nop
 8028208:	2000cba0 	.word	0x2000cba0

0802820c <GetReadCommunity>:

/**
  * @brief  Текущее community дл� чтени�
  */
void GetReadCommunity(char *str, uint8_t *len)
{
 802820c:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%s", sSettings.sSnmp.readCommunity);
 802820e:	4a05      	ldr	r2, [pc, #20]	; (8028224 <GetReadCommunity+0x18>)

/**
  * @brief  Текущее community дл� чтени�
  */
void GetReadCommunity(char *str, uint8_t *len)
{
 8028210:	4605      	mov	r5, r0
 8028212:	460c      	mov	r4, r1
  sprintf(str, "%s", sSettings.sSnmp.readCommunity);
 8028214:	4904      	ldr	r1, [pc, #16]	; (8028228 <GetReadCommunity+0x1c>)
 8028216:	f7ff fc83 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 802821a:	4628      	mov	r0, r5
 802821c:	f7f9 ff98 	bl	8022150 <strlen>
 8028220:	7020      	strb	r0, [r4, #0]
 8028222:	bd38      	pop	{r3, r4, r5, pc}
 8028224:	2000cd71 	.word	0x2000cd71
 8028228:	0804288f 	.word	0x0804288f

0802822c <GetWriteCommunity>:

/**
  * @brief  Текущее community дл� запи�и
  */
void GetWriteCommunity(char *str, uint8_t *len)
{
 802822c:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%s", sSettings.sSnmp.writeCommunity);
 802822e:	4a05      	ldr	r2, [pc, #20]	; (8028244 <GetWriteCommunity+0x18>)

/**
  * @brief  Текущее community дл� запи�и
  */
void GetWriteCommunity(char *str, uint8_t *len)
{
 8028230:	4605      	mov	r5, r0
 8028232:	460c      	mov	r4, r1
  sprintf(str, "%s", sSettings.sSnmp.writeCommunity);
 8028234:	4904      	ldr	r1, [pc, #16]	; (8028248 <GetWriteCommunity+0x1c>)
 8028236:	f7ff fc73 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 802823a:	4628      	mov	r0, r5
 802823c:	f7f9 ff88 	bl	8022150 <strlen>
 8028240:	7020      	strb	r0, [r4, #0]
 8028242:	bd38      	pop	{r3, r4, r5, pc}
 8028244:	2000cd85 	.word	0x2000cd85
 8028248:	0804288f 	.word	0x0804288f

0802824c <GetManagerIp>:

/**
  * @brief  IP SNMP менеджера
  */
void GetManagerIp(char *str, uint8_t *len)
{
 802824c:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%s", sSettings.sSnmp.managerIP);
 802824e:	4a05      	ldr	r2, [pc, #20]	; (8028264 <GetManagerIp+0x18>)

/**
  * @brief  IP SNMP менеджера
  */
void GetManagerIp(char *str, uint8_t *len)
{
 8028250:	4605      	mov	r5, r0
 8028252:	460c      	mov	r4, r1
  sprintf(str, "%s", sSettings.sSnmp.managerIP);
 8028254:	4904      	ldr	r1, [pc, #16]	; (8028268 <GetManagerIp+0x1c>)
 8028256:	f7ff fc63 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 802825a:	4628      	mov	r0, r5
 802825c:	f7f9 ff78 	bl	8022150 <strlen>
 8028260:	7020      	strb	r0, [r4, #0]
 8028262:	bd38      	pop	{r3, r4, r5, pc}
 8028264:	2000ce4d 	.word	0x2000ce4d
 8028268:	0804288f 	.word	0x0804288f

0802826c <GetManagerIp2>:
}

void GetManagerIp2(char *str, uint8_t *len)
{
 802826c:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%s", sSettings.sSnmp.managerIP2);
 802826e:	4a05      	ldr	r2, [pc, #20]	; (8028284 <GetManagerIp2+0x18>)
  sprintf(str, "%s", sSettings.sSnmp.managerIP);
  *len = strlen(str);
}

void GetManagerIp2(char *str, uint8_t *len)
{
 8028270:	4605      	mov	r5, r0
 8028272:	460c      	mov	r4, r1
  sprintf(str, "%s", sSettings.sSnmp.managerIP2);
 8028274:	4904      	ldr	r1, [pc, #16]	; (8028288 <GetManagerIp2+0x1c>)
 8028276:	f7ff fc53 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 802827a:	4628      	mov	r0, r5
 802827c:	f7f9 ff68 	bl	8022150 <strlen>
 8028280:	7020      	strb	r0, [r4, #0]
 8028282:	bd38      	pop	{r3, r4, r5, pc}
 8028284:	2000ce61 	.word	0x2000ce61
 8028288:	0804288f 	.word	0x0804288f

0802828c <GetManagerIp3>:
}

void GetManagerIp3(char *str, uint8_t *len)
{
 802828c:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%s", sSettings.sSnmp.managerIP3);
 802828e:	4a05      	ldr	r2, [pc, #20]	; (80282a4 <GetManagerIp3+0x18>)
  sprintf(str, "%s", sSettings.sSnmp.managerIP2);
  *len = strlen(str);
}

void GetManagerIp3(char *str, uint8_t *len)
{
 8028290:	4605      	mov	r5, r0
 8028292:	460c      	mov	r4, r1
  sprintf(str, "%s", sSettings.sSnmp.managerIP3);
 8028294:	4904      	ldr	r1, [pc, #16]	; (80282a8 <GetManagerIp3+0x1c>)
 8028296:	f7ff fc43 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 802829a:	4628      	mov	r0, r5
 802829c:	f7f9 ff58 	bl	8022150 <strlen>
 80282a0:	7020      	strb	r0, [r4, #0]
 80282a2:	bd38      	pop	{r3, r4, r5, pc}
 80282a4:	2000ce75 	.word	0x2000ce75
 80282a8:	0804288f 	.word	0x0804288f

080282ac <GetManagerIp4>:
}

void GetManagerIp4(char *str, uint8_t *len)
{
 80282ac:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%s", sSettings.sSnmp.managerIP4);
 80282ae:	4a05      	ldr	r2, [pc, #20]	; (80282c4 <GetManagerIp4+0x18>)
  sprintf(str, "%s", sSettings.sSnmp.managerIP3);
  *len = strlen(str);
}

void GetManagerIp4(char *str, uint8_t *len)
{
 80282b0:	4605      	mov	r5, r0
 80282b2:	460c      	mov	r4, r1
  sprintf(str, "%s", sSettings.sSnmp.managerIP4);
 80282b4:	4904      	ldr	r1, [pc, #16]	; (80282c8 <GetManagerIp4+0x1c>)
 80282b6:	f7ff fc33 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 80282ba:	4628      	mov	r0, r5
 80282bc:	f7f9 ff48 	bl	8022150 <strlen>
 80282c0:	7020      	strb	r0, [r4, #0]
 80282c2:	bd38      	pop	{r3, r4, r5, pc}
 80282c4:	2000ce89 	.word	0x2000ce89
 80282c8:	0804288f 	.word	0x0804288f

080282cc <GetManagerIp5>:
}

void GetManagerIp5(char *str, uint8_t *len)
{
 80282cc:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%s", sSettings.sSnmp.managerIP5);
 80282ce:	4a05      	ldr	r2, [pc, #20]	; (80282e4 <GetManagerIp5+0x18>)
  sprintf(str, "%s", sSettings.sSnmp.managerIP4);
  *len = strlen(str);
}

void GetManagerIp5(char *str, uint8_t *len)
{
 80282d0:	4605      	mov	r5, r0
 80282d2:	460c      	mov	r4, r1
  sprintf(str, "%s", sSettings.sSnmp.managerIP5);
 80282d4:	4904      	ldr	r1, [pc, #16]	; (80282e8 <GetManagerIp5+0x1c>)
 80282d6:	f7ff fc23 	bl	8027b20 <tfp_sprintf>
  *len = strlen(str);
 80282da:	4628      	mov	r0, r5
 80282dc:	f7f9 ff38 	bl	8022150 <strlen>
 80282e0:	7020      	strb	r0, [r4, #0]
 80282e2:	bd38      	pop	{r3, r4, r5, pc}
 80282e4:	2000ce9d 	.word	0x2000ce9d
 80282e8:	0804288f 	.word	0x0804288f

080282ec <GetRDSIpStr>:

/**
  * @brief  Текущий IP адре�
  */
void GetRDSIpStr(char *str, uint8_t *len)
{
 80282ec:	b538      	push	{r3, r4, r5, lr}
   sprintf(str, "%s", sSettings.sRADIUS.ServerIP);
 80282ee:	4a05      	ldr	r2, [pc, #20]	; (8028304 <GetRDSIpStr+0x18>)

/**
  * @brief  Текущий IP адре�
  */
void GetRDSIpStr(char *str, uint8_t *len)
{
 80282f0:	4605      	mov	r5, r0
 80282f2:	460c      	mov	r4, r1
   sprintf(str, "%s", sSettings.sRADIUS.ServerIP);
 80282f4:	4904      	ldr	r1, [pc, #16]	; (8028308 <GetRDSIpStr+0x1c>)
 80282f6:	f7ff fc13 	bl	8027b20 <tfp_sprintf>

  *len = strlen(str);
 80282fa:	4628      	mov	r0, r5
 80282fc:	f7f9 ff28 	bl	8022150 <strlen>
 8028300:	7020      	strb	r0, [r4, #0]
 8028302:	bd38      	pop	{r3, r4, r5, pc}
 8028304:	2000cf19 	.word	0x2000cf19
 8028308:	0804288f 	.word	0x0804288f

0802830c <GetRDSPortStr>:

/**
  * @brief Текущий Порт
  */
void GetRDSPortStr(char *str, uint8_t *len)
{
 802830c:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%d", sSettings.sRADIUS.port);
 802830e:	4b06      	ldr	r3, [pc, #24]	; (8028328 <GetRDSPortStr+0x1c>)

/**
  * @brief Текущий Порт
  */
void GetRDSPortStr(char *str, uint8_t *len)
{
 8028310:	4605      	mov	r5, r0
 8028312:	460c      	mov	r4, r1
  sprintf(str, "%d", sSettings.sRADIUS.port);
 8028314:	f8d3 239c 	ldr.w	r2, [r3, #924]	; 0x39c
 8028318:	4904      	ldr	r1, [pc, #16]	; (802832c <GetRDSPortStr+0x20>)
 802831a:	f7ff fc01 	bl	8027b20 <tfp_sprintf>

  *len = strlen(str);
 802831e:	4628      	mov	r0, r5
 8028320:	f7f9 ff16 	bl	8022150 <strlen>
 8028324:	7020      	strb	r0, [r4, #0]
 8028326:	bd38      	pop	{r3, r4, r5, pc}
 8028328:	2000cba0 	.word	0x2000cba0
 802832c:	08038967 	.word	0x08038967

08028330 <GetRDSKeyAccesstStr>:

/**
  * @brief  Текущий Код access
  */
void GetRDSKeyAccesstStr(char *str, uint8_t *len)
{
 8028330:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%d", sSettings.sRADIUS.key_access);
 8028332:	4b06      	ldr	r3, [pc, #24]	; (802834c <GetRDSKeyAccesstStr+0x1c>)

/**
  * @brief  Текущий Код access
  */
void GetRDSKeyAccesstStr(char *str, uint8_t *len)
{
 8028334:	4605      	mov	r5, r0
 8028336:	460c      	mov	r4, r1
  sprintf(str, "%d", sSettings.sRADIUS.key_access);
 8028338:	f8d3 23a0 	ldr.w	r2, [r3, #928]	; 0x3a0
 802833c:	4904      	ldr	r1, [pc, #16]	; (8028350 <GetRDSKeyAccesstStr+0x20>)
 802833e:	f7ff fbef 	bl	8027b20 <tfp_sprintf>

  *len = strlen(str);
 8028342:	4628      	mov	r0, r5
 8028344:	f7f9 ff04 	bl	8022150 <strlen>
 8028348:	7020      	strb	r0, [r4, #0]
 802834a:	bd38      	pop	{r3, r4, r5, pc}
 802834c:	2000cba0 	.word	0x2000cba0
 8028350:	08038967 	.word	0x08038967

08028354 <GetRDSPasswordkStr>:

/**
  * @brief  Текуща� пароль RADIUS
  */
void GetRDSPasswordkStr(char *str, uint8_t *len)
{
 8028354:	b538      	push	{r3, r4, r5, lr}
  sprintf(str, "%s", sSettings.sRADIUS.rds_password);
 8028356:	4a05      	ldr	r2, [pc, #20]	; (802836c <GetRDSPasswordkStr+0x18>)

/**
  * @brief  Текуща� пароль RADIUS
  */
void GetRDSPasswordkStr(char *str, uint8_t *len)
{
 8028358:	4605      	mov	r5, r0
 802835a:	460c      	mov	r4, r1
  sprintf(str, "%s", sSettings.sRADIUS.rds_password);
 802835c:	4904      	ldr	r1, [pc, #16]	; (8028370 <GetRDSPasswordkStr+0x1c>)
 802835e:	f7ff fbdf 	bl	8027b20 <tfp_sprintf>

  *len = strlen(str);
 8028362:	4628      	mov	r0, r5
 8028364:	f7f9 fef4 	bl	8022150 <strlen>
 8028368:	7020      	strb	r0, [r4, #0]
 802836a:	bd38      	pop	{r3, r4, r5, pc}
 802836c:	2000cf29 	.word	0x2000cf29
 8028370:	0804288f 	.word	0x0804288f

08028374 <GetRDSEnableStateStr>:
/**
  * @brief  �а�тройка вкл/ выкл RADIUS �ервера
  */
void GetRDSEnableStateStr(char *str, uint8_t *len)
{
    if (sSettings.sRADIUS.RDSEnable)
 8028374:	4b05      	ldr	r3, [pc, #20]	; (802838c <GetRDSEnableStateStr+0x18>)
 8028376:	f893 339a 	ldrb.w	r3, [r3, #922]	; 0x39a
 802837a:	b10b      	cbz	r3, 8028380 <GetRDSEnableStateStr+0xc>
      *str = '1';
 802837c:	2331      	movs	r3, #49	; 0x31
 802837e:	e000      	b.n	8028382 <GetRDSEnableStateStr+0xe>
    else
      *str = '0';
 8028380:	2330      	movs	r3, #48	; 0x30
 8028382:	7003      	strb	r3, [r0, #0]

  *len = 1;
 8028384:	2301      	movs	r3, #1
 8028386:	700b      	strb	r3, [r1, #0]
 8028388:	4770      	bx	lr
 802838a:	bf00      	nop
 802838c:	2000cba0 	.word	0x2000cba0

08028390 <GetAuthEnableStateStr>:
/**
  * @brief  �а�тройка вкл/ выкл авторизации
  */
void GetAuthEnableStateStr(char *str, uint8_t *len)
{
    if (sSettings.sRADIUS.Auth_enable)
 8028390:	4b05      	ldr	r3, [pc, #20]	; (80283a8 <GetAuthEnableStateStr+0x18>)
 8028392:	f893 3378 	ldrb.w	r3, [r3, #888]	; 0x378
 8028396:	b10b      	cbz	r3, 802839c <GetAuthEnableStateStr+0xc>
      *str = '1';
 8028398:	2331      	movs	r3, #49	; 0x31
 802839a:	e000      	b.n	802839e <GetAuthEnableStateStr+0xe>
    else
      *str = '0';
 802839c:	2330      	movs	r3, #48	; 0x30
 802839e:	7003      	strb	r3, [r0, #0]

  *len = 1;
 80283a0:	2301      	movs	r3, #1
 80283a2:	700b      	strb	r3, [r1, #0]
 80283a4:	4770      	bx	lr
 80283a6:	bf00      	nop
 80283a8:	2000cba0 	.word	0x2000cba0

080283ac <GetWebReinitFlag>:

/**
  * @brief  Вернуть признак изменени� �етевых параметров
  */
void GetWebReinitFlag(char *str, uint8_t *len)
{
 80283ac:	b538      	push	{r3, r4, r5, lr}
  if (sSettings.sFlags.netsettingsChanged)
 80283ae:	4b08      	ldr	r3, [pc, #32]	; (80283d0 <GetWebReinitFlag+0x24>)
 80283b0:	f893 3120 	ldrb.w	r3, [r3, #288]	; 0x120

/**
  * @brief  Вернуть признак изменени� �етевых параметров
  */
void GetWebReinitFlag(char *str, uint8_t *len)
{
 80283b4:	460c      	mov	r4, r1
 80283b6:	4605      	mov	r5, r0
  if (sSettings.sFlags.netsettingsChanged)
  {
    sprintf(str, "%s", "true");
 80283b8:	4906      	ldr	r1, [pc, #24]	; (80283d4 <GetWebReinitFlag+0x28>)
/**
  * @brief  Вернуть признак изменени� �етевых параметров
  */
void GetWebReinitFlag(char *str, uint8_t *len)
{
  if (sSettings.sFlags.netsettingsChanged)
 80283ba:	b10b      	cbz	r3, 80283c0 <GetWebReinitFlag+0x14>
  {
    sprintf(str, "%s", "true");
 80283bc:	4a06      	ldr	r2, [pc, #24]	; (80283d8 <GetWebReinitFlag+0x2c>)
 80283be:	e000      	b.n	80283c2 <GetWebReinitFlag+0x16>
    *len = strlen(str);
  }
  else
  {
    sprintf(str, "%s", "false");
 80283c0:	4a06      	ldr	r2, [pc, #24]	; (80283dc <GetWebReinitFlag+0x30>)
 80283c2:	f7ff fbad 	bl	8027b20 <tfp_sprintf>
    *len = strlen(str);
 80283c6:	4628      	mov	r0, r5
 80283c8:	f7f9 fec2 	bl	8022150 <strlen>
 80283cc:	7020      	strb	r0, [r4, #0]
 80283ce:	bd38      	pop	{r3, r4, r5, pc}
 80283d0:	2000cba0 	.word	0x2000cba0
 80283d4:	0804288f 	.word	0x0804288f
 80283d8:	0803899e 	.word	0x0803899e
 80283dc:	080389a3 	.word	0x080389a3

080283e0 <SetLoadMode>:
  * @brief  У�тановить признак обновлени� ПО. 
  */
void SetLoadMode(void)
{
  /* Set loadMode = 1 */
  RTC_WriteBackupRegister(RTC_BKP_DR1, 1);
 80283e0:	2001      	movs	r0, #1

/**
  * @brief  У�тановить признак обновлени� ПО. 
  */
void SetLoadMode(void)
{
 80283e2:	b508      	push	{r3, lr}
  /* Set loadMode = 1 */
  RTC_WriteBackupRegister(RTC_BKP_DR1, 1);
 80283e4:	4601      	mov	r1, r0
 80283e6:	f7fd fcd3 	bl	8025d90 <RTC_WriteBackupRegister>
  /* Set bootTry = 0 */
  RTC_WriteBackupRegister(RTC_BKP_DR2, 0);
 80283ea:	2002      	movs	r0, #2
 80283ec:	2100      	movs	r1, #0
}
 80283ee:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
void SetLoadMode(void)
{
  /* Set loadMode = 1 */
  RTC_WriteBackupRegister(RTC_BKP_DR1, 1);
  /* Set bootTry = 0 */
  RTC_WriteBackupRegister(RTC_BKP_DR2, 0);
 80283f2:	f7fd bccd 	b.w	8025d90 <RTC_WriteBackupRegister>
 80283f6:	0000      	movs	r0, r0

080283f8 <SetWebReinitFlag>:
/**
  * @brief  У�тановить признак изменени� �етевых параметров
  */
void SetWebReinitFlag(bool value)
{
  sSettings.sFlags.netsettingsChanged = value;
 80283f8:	4b01      	ldr	r3, [pc, #4]	; (8028400 <SetWebReinitFlag+0x8>)
 80283fa:	f883 0120 	strb.w	r0, [r3, #288]	; 0x120
 80283fe:	4770      	bx	lr
 8028400:	2000cba0 	.word	0x2000cba0

08028404 <SetConfirmWebParamsFlag>:
/**
  * @brief  У�тановить флаг подтверждени� �етевых на�троек пользователем
  */
void SetConfirmWebParamsFlag(void)
{
  fConfirmWebParams = true;
 8028404:	4b01      	ldr	r3, [pc, #4]	; (802840c <SetConfirmWebParamsFlag+0x8>)
 8028406:	2201      	movs	r2, #1
 8028408:	701a      	strb	r2, [r3, #0]
 802840a:	4770      	bx	lr
 802840c:	20000b18 	.word	0x20000b18

08028410 <SetIPStr>:
//                             Сетевые параметры
/**
  * @brief  IP адре�
  */
void SetIPStr(char *str)
{
 8028410:	4601      	mov	r1, r0
  //strcpy(sSettings.sWebParams.ip, str);
  strcpy(sSettings.sWebTempParams.ip, str); 
 8028412:	4801      	ldr	r0, [pc, #4]	; (8028418 <SetIPStr+0x8>)
 8028414:	f7f9 be3e 	b.w	8022094 <strcpy>
 8028418:	2000cbd3 	.word	0x2000cbd3

0802841c <SetGatewayStr>:

/**
  * @brief  Шлюз
  */
void SetGatewayStr(char *str)
{
 802841c:	4601      	mov	r1, r0
  //strcpy(sSettings.sWebParams.gate, str);
  strcpy(sSettings.sWebTempParams.gate, str);
 802841e:	4801      	ldr	r0, [pc, #4]	; (8028424 <SetGatewayStr+0x8>)
 8028420:	f7f9 be38 	b.w	8022094 <strcpy>
 8028424:	2000cbe3 	.word	0x2000cbe3

08028428 <SetMaskStr>:

/**
  * @brief  Текуща� ма�ка под�ети
  */
void SetMaskStr(char *str)
{
 8028428:	4601      	mov	r1, r0
  //strcpy(sSettings.sWebParams.mask, str);
  strcpy(sSettings.sWebTempParams.mask, str);
 802842a:	4801      	ldr	r0, [pc, #4]	; (8028430 <SetMaskStr+0x8>)
 802842c:	f7f9 be32 	b.w	8022094 <strcpy>
 8028430:	2000cbf3 	.word	0x2000cbf3

08028434 <SetDhcpStateStr>:

/**
  * @brief  �а�тройка DHCP
  */
void SetDhcpStateStr(char *str)
{
 8028434:	b508      	push	{r3, lr}
  if (strncmp(str, "on", 2) == 0)
 8028436:	4906      	ldr	r1, [pc, #24]	; (8028450 <SetDhcpStateStr+0x1c>)
 8028438:	2202      	movs	r2, #2
 802843a:	f7f9 feeb 	bl	8022214 <strncmp>
 802843e:	4b05      	ldr	r3, [pc, #20]	; (8028454 <SetDhcpStateStr+0x20>)
 8028440:	b908      	cbnz	r0, 8028446 <SetDhcpStateStr+0x12>
	//sSettings.sWebParams.dhcpEnable = 1;
    sSettings.sWebTempParams.dhcpEnable = 1;
 8028442:	2201      	movs	r2, #1
 8028444:	e000      	b.n	8028448 <SetDhcpStateStr+0x14>
  else
	//sSettings.sWebParams.dhcpEnable = 0;
    sSettings.sWebTempParams.dhcpEnable = 0;
 8028446:	2200      	movs	r2, #0
 8028448:	f883 2063 	strb.w	r2, [r3, #99]	; 0x63
 802844c:	bd08      	pop	{r3, pc}
 802844e:	bf00      	nop
 8028450:	080389a9 	.word	0x080389a9
 8028454:	2000cba0 	.word	0x2000cba0

08028458 <SetReadCommunity>:

/**
  * @brief  Community дл� чтени�
  */
void SetReadCommunity(char *str)
{
 8028458:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.readCommunity, str);
 802845a:	4801      	ldr	r0, [pc, #4]	; (8028460 <SetReadCommunity+0x8>)
 802845c:	f7f9 be1a 	b.w	8022094 <strcpy>
 8028460:	2000cd71 	.word	0x2000cd71

08028464 <SetWriteCommunity>:

/**
  * @brief  Community дл� запи�и
  */
void SetWriteCommunity(char *str)
{
 8028464:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.writeCommunity, str);
 8028466:	4801      	ldr	r0, [pc, #4]	; (802846c <SetWriteCommunity+0x8>)
 8028468:	f7f9 be14 	b.w	8022094 <strcpy>
 802846c:	2000cd85 	.word	0x2000cd85

08028470 <SetManagerIp>:

/**
  * @brief  IP SNMP менеджера
  */
void SetManagerIp(char *str)
{
 8028470:	b510      	push	{r4, lr}
  strcpy(sSettings.sSnmp.managerIP, str);
 8028472:	4c05      	ldr	r4, [pc, #20]	; (8028488 <SetManagerIp+0x18>)

/**
  * @brief  IP SNMP менеджера
  */
void SetManagerIp(char *str)
{
 8028474:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.managerIP, str);
 8028476:	4620      	mov	r0, r4
 8028478:	f7f9 fe0c 	bl	8022094 <strcpy>
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP);
 802847c:	4620      	mov	r0, r4
}
 802847e:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  * @brief  IP SNMP менеджера
  */
void SetManagerIp(char *str)
{
  strcpy(sSettings.sSnmp.managerIP, str);
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP);
 8028482:	f00f b8f9 	b.w	8037678 <SNMP_SetManagerIP>
 8028486:	bf00      	nop
 8028488:	2000ce4d 	.word	0x2000ce4d

0802848c <SetManagerIp2>:
}

void SetManagerIp2(char *str)
{
 802848c:	b510      	push	{r4, lr}
  strcpy(sSettings.sSnmp.managerIP2, str);
 802848e:	4c05      	ldr	r4, [pc, #20]	; (80284a4 <SetManagerIp2+0x18>)
  strcpy(sSettings.sSnmp.managerIP, str);
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP);
}

void SetManagerIp2(char *str)
{
 8028490:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.managerIP2, str);
 8028492:	4620      	mov	r0, r4
 8028494:	f7f9 fdfe 	bl	8022094 <strcpy>
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP2);
 8028498:	4620      	mov	r0, r4
}
 802849a:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
}

void SetManagerIp2(char *str)
{
  strcpy(sSettings.sSnmp.managerIP2, str);
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP2);
 802849e:	f00f b8eb 	b.w	8037678 <SNMP_SetManagerIP>
 80284a2:	bf00      	nop
 80284a4:	2000ce61 	.word	0x2000ce61

080284a8 <SetManagerIp3>:
}

void SetManagerIp3(char *str)
{
 80284a8:	b510      	push	{r4, lr}
  strcpy(sSettings.sSnmp.managerIP3, str);
 80284aa:	4c05      	ldr	r4, [pc, #20]	; (80284c0 <SetManagerIp3+0x18>)
  strcpy(sSettings.sSnmp.managerIP2, str);
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP2);
}

void SetManagerIp3(char *str)
{
 80284ac:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.managerIP3, str);
 80284ae:	4620      	mov	r0, r4
 80284b0:	f7f9 fdf0 	bl	8022094 <strcpy>
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP3);
 80284b4:	4620      	mov	r0, r4
}
 80284b6:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
}

void SetManagerIp3(char *str)
{
  strcpy(sSettings.sSnmp.managerIP3, str);
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP3);
 80284ba:	f00f b8dd 	b.w	8037678 <SNMP_SetManagerIP>
 80284be:	bf00      	nop
 80284c0:	2000ce75 	.word	0x2000ce75

080284c4 <SetManagerIp4>:
}

void SetManagerIp4(char *str)
{
 80284c4:	b510      	push	{r4, lr}
  strcpy(sSettings.sSnmp.managerIP4, str);
 80284c6:	4c05      	ldr	r4, [pc, #20]	; (80284dc <SetManagerIp4+0x18>)
  strcpy(sSettings.sSnmp.managerIP3, str);
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP3);
}

void SetManagerIp4(char *str)
{
 80284c8:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.managerIP4, str);
 80284ca:	4620      	mov	r0, r4
 80284cc:	f7f9 fde2 	bl	8022094 <strcpy>
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP4);
 80284d0:	4620      	mov	r0, r4
}
 80284d2:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
}

void SetManagerIp4(char *str)
{
  strcpy(sSettings.sSnmp.managerIP4, str);
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP4);
 80284d6:	f00f b8cf 	b.w	8037678 <SNMP_SetManagerIP>
 80284da:	bf00      	nop
 80284dc:	2000ce89 	.word	0x2000ce89

080284e0 <SetManagerIp5>:
}

void SetManagerIp5(char *str)
{
 80284e0:	b510      	push	{r4, lr}
  strcpy(sSettings.sSnmp.managerIP5, str);
 80284e2:	4c05      	ldr	r4, [pc, #20]	; (80284f8 <SetManagerIp5+0x18>)
  strcpy(sSettings.sSnmp.managerIP4, str);
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP4);
}

void SetManagerIp5(char *str)
{
 80284e4:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.managerIP5, str);
 80284e6:	4620      	mov	r0, r4
 80284e8:	f7f9 fdd4 	bl	8022094 <strcpy>
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP5);
 80284ec:	4620      	mov	r0, r4
}
 80284ee:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
}

void SetManagerIp5(char *str)
{
  strcpy(sSettings.sSnmp.managerIP5, str);
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP5);
 80284f2:	f00f b8c1 	b.w	8037678 <SNMP_SetManagerIP>
 80284f6:	bf00      	nop
 80284f8:	2000ce9d 	.word	0x2000ce9d

080284fc <SetOwner>:

/**
  * @brief  У�тановить владельца
  */
void SetOwner(char *str)
{
 80284fc:	b510      	push	{r4, lr}
  strcpy(sSettings.sSnmp.sysContact, str);
 80284fe:	4c06      	ldr	r4, [pc, #24]	; (8028518 <SetOwner+0x1c>)

/**
  * @brief  У�тановить владельца
  */
void SetOwner(char *str)
{
 8028500:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.sysContact, str);
 8028502:	4620      	mov	r0, r4
 8028504:	f7f9 fdc6 	bl	8022094 <strcpy>
  SNMP_SetSysContact(sSettings.sSnmp.sysContact);
 8028508:	4620      	mov	r0, r4
 802850a:	f00f f88b 	bl	8037624 <SNMP_SetSysContact>
  SNMP_SetObjDescr();
}
 802850e:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  */
void SetOwner(char *str)
{
  strcpy(sSettings.sSnmp.sysContact, str);
  SNMP_SetSysContact(sSettings.sSnmp.sysContact);
  SNMP_SetObjDescr();
 8028512:	f00f b83d 	b.w	8037590 <SNMP_SetObjDescr>
 8028516:	bf00      	nop
 8028518:	2000cd99 	.word	0x2000cd99

0802851c <SetLocation>:

/**
  * @brief  У�тановить ме�тоположение
  */
void SetLocation(char *str)
{
 802851c:	b510      	push	{r4, lr}
  strcpy(sSettings.sSnmp.sysLocation, str);
 802851e:	4c05      	ldr	r4, [pc, #20]	; (8028534 <SetLocation+0x18>)

/**
  * @brief  У�тановить ме�тоположение
  */
void SetLocation(char *str)
{
 8028520:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.sysLocation, str);
 8028522:	4620      	mov	r0, r4
 8028524:	f7f9 fdb6 	bl	8022094 <strcpy>
  SNMP_SetSysLocation(sSettings.sSnmp.sysLocation);
 8028528:	4620      	mov	r0, r4
}
 802852a:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  * @brief  У�тановить ме�тоположение
  */
void SetLocation(char *str)
{
  strcpy(sSettings.sSnmp.sysLocation, str);
  SNMP_SetSysLocation(sSettings.sSnmp.sysLocation);
 802852e:	f00f b895 	b.w	803765c <SNMP_SetSysLocation>
 8028532:	bf00      	nop
 8028534:	2000cddf 	.word	0x2000cddf

08028538 <SetComment>:

/**
  * @brief  У�тановить комментарий
  */
void SetComment(char *str)
{
 8028538:	4601      	mov	r1, r0
  strcpy(sSettings.sInfo.comments, str);
 802853a:	4801      	ldr	r0, [pc, #4]	; (8028540 <SetComment+0x8>)
 802853c:	f7f9 bdaa 	b.w	8022094 <strcpy>
 8028540:	2000cc4e 	.word	0x2000cc4e

08028544 <SetRDSIpStr>:
//                             Сетевые параметры RADIUS �ервера
/**
  * @brief  IP адре�
  */
void SetRDSIpStr(char *str)
{
 8028544:	4601      	mov	r1, r0
  strcpy(sSettings.sRADIUS.ServerIP, str);
 8028546:	4801      	ldr	r0, [pc, #4]	; (802854c <SetRDSIpStr+0x8>)
 8028548:	f7f9 bda4 	b.w	8022094 <strcpy>
 802854c:	2000cf19 	.word	0x2000cf19

08028550 <SetRDSPortStr>:

/**
  * @brief  Порт
  */
void SetRDSPortStr(char *str)
{
 8028550:	b508      	push	{r3, lr}
	sSettings.sRADIUS.port = atoi(str);
 8028552:	f7f9 fb05 	bl	8021b60 <atoi>
 8028556:	4b02      	ldr	r3, [pc, #8]	; (8028560 <SetRDSPortStr+0x10>)
 8028558:	f8c3 039c 	str.w	r0, [r3, #924]	; 0x39c
 802855c:	bd08      	pop	{r3, pc}
 802855e:	bf00      	nop
 8028560:	2000cba0 	.word	0x2000cba0

08028564 <SetRDSKeyAccesstStr>:

/**
  * @brief  Код access
  */
void SetRDSKeyAccesstStr(char *str)
{
 8028564:	b508      	push	{r3, lr}
	sSettings.sRADIUS.key_access = atoi(str);
 8028566:	f7f9 fafb 	bl	8021b60 <atoi>
 802856a:	4b02      	ldr	r3, [pc, #8]	; (8028574 <SetRDSKeyAccesstStr+0x10>)
 802856c:	f8c3 03a0 	str.w	r0, [r3, #928]	; 0x3a0
 8028570:	bd08      	pop	{r3, pc}
 8028572:	bf00      	nop
 8028574:	2000cba0 	.word	0x2000cba0

08028578 <SetRDSPasswordkStr>:

/**
  * @brief  пароль RADIUS
  */
void SetRDSPasswordkStr(char *str)
{
 8028578:	4601      	mov	r1, r0
  strcpy(sSettings.sRADIUS.rds_password, str);
 802857a:	4801      	ldr	r0, [pc, #4]	; (8028580 <SetRDSPasswordkStr+0x8>)
 802857c:	f7f9 bd8a 	b.w	8022094 <strcpy>
 8028580:	2000cf29 	.word	0x2000cf29

08028584 <SetRDSEnableStateStr>:

/**
  * @brief  �а�тройка вкл/ выкл RADIUS �ервера
  */
void SetRDSEnableStateStr(char *str)
{
 8028584:	b508      	push	{r3, lr}
  if (strncmp(str, "on", 2) == 0)
 8028586:	4906      	ldr	r1, [pc, #24]	; (80285a0 <SetRDSEnableStateStr+0x1c>)
 8028588:	2202      	movs	r2, #2
 802858a:	f7f9 fe43 	bl	8022214 <strncmp>
 802858e:	4b05      	ldr	r3, [pc, #20]	; (80285a4 <SetRDSEnableStateStr+0x20>)
 8028590:	b908      	cbnz	r0, 8028596 <SetRDSEnableStateStr+0x12>
	  sSettings.sRADIUS.RDSEnable = 1;
 8028592:	2201      	movs	r2, #1
 8028594:	e000      	b.n	8028598 <SetRDSEnableStateStr+0x14>
  else
	  sSettings.sRADIUS.RDSEnable = 0;
 8028596:	2200      	movs	r2, #0
 8028598:	f883 239a 	strb.w	r2, [r3, #922]	; 0x39a
 802859c:	bd08      	pop	{r3, pc}
 802859e:	bf00      	nop
 80285a0:	080389a9 	.word	0x080389a9
 80285a4:	2000cba0 	.word	0x2000cba0

080285a8 <SetAuthEnableStateStr>:

/**
  * @brief  �а�тройка вкл/ выкл авторизации
  */
void SetAuthEnableStateStr(char *str)
{
 80285a8:	b508      	push	{r3, lr}
  if (strncmp(str, "on", 2) == 0)
 80285aa:	4906      	ldr	r1, [pc, #24]	; (80285c4 <SetAuthEnableStateStr+0x1c>)
 80285ac:	2202      	movs	r2, #2
 80285ae:	f7f9 fe31 	bl	8022214 <strncmp>
 80285b2:	4b05      	ldr	r3, [pc, #20]	; (80285c8 <SetAuthEnableStateStr+0x20>)
 80285b4:	b908      	cbnz	r0, 80285ba <SetAuthEnableStateStr+0x12>
	  sSettings.sRADIUS.Auth_enable = 1;
 80285b6:	2201      	movs	r2, #1
 80285b8:	e000      	b.n	80285bc <SetAuthEnableStateStr+0x14>
  else
	  sSettings.sRADIUS.Auth_enable = 0;
 80285ba:	2200      	movs	r2, #0
 80285bc:	f883 2378 	strb.w	r2, [r3, #888]	; 0x378
 80285c0:	bd08      	pop	{r3, pc}
 80285c2:	bf00      	nop
 80285c4:	080389a9 	.word	0x080389a9
 80285c8:	2000cba0 	.word	0x2000cba0

080285cc <SetDateStr>:

/**
  * @brief  Дата
  */
void SetDateStr(char *str)
{
 80285cc:	b510      	push	{r4, lr}
 80285ce:	b08c      	sub	sp, #48	; 0x30
 80285d0:	4604      	mov	r4, r0
	TM_RTC_t tmp_data;
	char str_data[18];
	char str_time[9];
	uint8_t len;

	memset(str_data, 0, 18);
 80285d2:	2100      	movs	r1, #0
 80285d4:	2212      	movs	r2, #18
 80285d6:	a807      	add	r0, sp, #28
 80285d8:	f7f9 fbe2 	bl	8021da0 <memset>
	memset(str_time, 0, 9);
 80285dc:	2100      	movs	r1, #0
 80285de:	2209      	movs	r2, #9
 80285e0:	4668      	mov	r0, sp
 80285e2:	f7f9 fbdd 	bl	8021da0 <memset>
	str += 2;
	strncpy(str_data, (str + 6), 2);
 80285e6:	f104 0108 	add.w	r1, r4, #8
 80285ea:	2202      	movs	r2, #2
 80285ec:	a807      	add	r0, sp, #28
 80285ee:	f7f9 fe67 	bl	80222c0 <strncpy>
	strncat(str_data, (str + 2), 4);
 80285f2:	1d21      	adds	r1, r4, #4
 80285f4:	2204      	movs	r2, #4
 80285f6:	a807      	add	r0, sp, #28
 80285f8:	f7f9 fdda 	bl	80221b0 <strncat>
	strncat(str_data, str, 2);
 80285fc:	2202      	movs	r2, #2
 80285fe:	1ca1      	adds	r1, r4, #2
 8028600:	a807      	add	r0, sp, #28
 8028602:	f7f9 fdd5 	bl	80221b0 <strncat>
	TM_RTC_GetDateTime(&tmp_data, TM_RTC_Format_BIN);
 8028606:	a803      	add	r0, sp, #12
 8028608:	2100      	movs	r1, #0
 802860a:	f7fe f8df 	bl	80267cc <TM_RTC_GetDateTime>
	sprintf(str_time, "-01-%02i:%02i", tmp_data.hours, tmp_data.minutes);
 802860e:	f89d 2011 	ldrb.w	r2, [sp, #17]
 8028612:	f89d 3010 	ldrb.w	r3, [sp, #16]
 8028616:	4908      	ldr	r1, [pc, #32]	; (8028638 <SetDateStr+0x6c>)
 8028618:	4668      	mov	r0, sp
 802861a:	f7ff fa81 	bl	8027b20 <tfp_sprintf>
	len = strlen(str_time);
 802861e:	4668      	mov	r0, sp
 8028620:	f7f9 fd96 	bl	8022150 <strlen>
	strncat(str_data, str_time, len);
 8028624:	4669      	mov	r1, sp
 8028626:	b2c2      	uxtb	r2, r0
 8028628:	a807      	add	r0, sp, #28
 802862a:	f7f9 fdc1 	bl	80221b0 <strncat>

	//TM_RTC_SetDateTimeString(&str_data);
    TM_RTC_SetDateTimeString(str_data);
 802862e:	a807      	add	r0, sp, #28
 8028630:	f7fd ffb2 	bl	8026598 <TM_RTC_SetDateTimeString>
}
 8028634:	b00c      	add	sp, #48	; 0x30
 8028636:	bd10      	pop	{r4, pc}
 8028638:	080389ac 	.word	0x080389ac

0802863c <SetTimeStr>:

/**
  * @brief  Врем�
  */
void SetTimeStr(char *str)
{
 802863c:	b510      	push	{r4, lr}
 802863e:	b090      	sub	sp, #64	; 0x40
 8028640:	4604      	mov	r4, r0
	TM_RTC_t tmp_data;
	char str_data[18];
	char str_date[14];
	uint8_t len;

	memset(str_data, 0, 18);
 8028642:	2100      	movs	r1, #0
 8028644:	2212      	movs	r2, #18
 8028646:	a80b      	add	r0, sp, #44	; 0x2c
 8028648:	f7f9 fbaa 	bl	8021da0 <memset>
	memset(str_date, 0, 14);
 802864c:	220e      	movs	r2, #14
 802864e:	2100      	movs	r1, #0
 8028650:	a803      	add	r0, sp, #12
 8028652:	f7f9 fba5 	bl	8021da0 <memset>

	TM_RTC_GetDateTime(&tmp_data, TM_RTC_Format_BIN);
 8028656:	a807      	add	r0, sp, #28
 8028658:	2100      	movs	r1, #0
 802865a:	f7fe f8b7 	bl	80267cc <TM_RTC_GetDateTime>
	sprintf(str_date, "%02i-%02i-%02i-01-", tmp_data.date, tmp_data.month, tmp_data.year);
 802865e:	f89d 1025 	ldrb.w	r1, [sp, #37]	; 0x25
 8028662:	f89d 3024 	ldrb.w	r3, [sp, #36]	; 0x24
 8028666:	f89d 2023 	ldrb.w	r2, [sp, #35]	; 0x23
 802866a:	9100      	str	r1, [sp, #0]
 802866c:	a803      	add	r0, sp, #12
 802866e:	490a      	ldr	r1, [pc, #40]	; (8028698 <SetTimeStr+0x5c>)
 8028670:	f7ff fa56 	bl	8027b20 <tfp_sprintf>
	len = strlen(str_date);
 8028674:	a803      	add	r0, sp, #12
 8028676:	f7f9 fd6b 	bl	8022150 <strlen>
	strncat(str_data, str_date, len);
 802867a:	a903      	add	r1, sp, #12
 802867c:	b2c2      	uxtb	r2, r0
 802867e:	a80b      	add	r0, sp, #44	; 0x2c
 8028680:	f7f9 fd96 	bl	80221b0 <strncat>
	strncat(str_data, str, 5);
 8028684:	a80b      	add	r0, sp, #44	; 0x2c
 8028686:	4621      	mov	r1, r4
 8028688:	2205      	movs	r2, #5
 802868a:	f7f9 fd91 	bl	80221b0 <strncat>

	//TM_RTC_SetDateTimeString(&str_data);
    TM_RTC_SetDateTimeString(str_data);
 802868e:	a80b      	add	r0, sp, #44	; 0x2c
 8028690:	f7fd ff82 	bl	8026598 <TM_RTC_SetDateTimeString>
}
 8028694:	b010      	add	sp, #64	; 0x40
 8028696:	bd10      	pop	{r4, pc}
 8028698:	080389ba 	.word	0x080389ba

0802869c <SetSntpStateStr>:

/**
  * @brief  Со�то�ние SNTP
  */
void SetSntpStateStr(char *str)
{
 802869c:	b538      	push	{r3, r4, r5, lr}
	bool old_sntpEnable = sSettings.sSNTP.sntpEnable;
 802869e:	4c0d      	ldr	r4, [pc, #52]	; (80286d4 <SetSntpStateStr+0x38>)
  if (strncmp(str, "1", 1) == 0){
 80286a0:	490d      	ldr	r1, [pc, #52]	; (80286d8 <SetSntpStateStr+0x3c>)
/**
  * @brief  Со�то�ние SNTP
  */
void SetSntpStateStr(char *str)
{
	bool old_sntpEnable = sSettings.sSNTP.sntpEnable;
 80286a2:	f894 5340 	ldrb.w	r5, [r4, #832]	; 0x340
  if (strncmp(str, "1", 1) == 0){
 80286a6:	2201      	movs	r2, #1
 80286a8:	f7f9 fdb4 	bl	8022214 <strncmp>
 80286ac:	b948      	cbnz	r0, 80286c2 <SetSntpStateStr+0x26>
	sSettings.sSNTP.sntpEnable = true;
 80286ae:	2001      	movs	r0, #1
 80286b0:	f884 0340 	strb.w	r0, [r4, #832]	; 0x340
	if(old_sntpEnable != sSettings.sSNTP.sntpEnable){
 80286b4:	b965      	cbnz	r5, 80286d0 <SetSntpStateStr+0x34>
		SNTP_Enable(sSettings.sSNTP.sntpEnable);
 80286b6:	f00f f8db 	bl	8037870 <SNTP_Enable>
  }
  else{
	sSettings.sSNTP.sntpEnable = false;
	SNTP_Enable(sSettings.sSNTP.sntpEnable);
  }
}
 80286ba:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
	bool old_sntpEnable = sSettings.sSNTP.sntpEnable;
  if (strncmp(str, "1", 1) == 0){
	sSettings.sSNTP.sntpEnable = true;
	if(old_sntpEnable != sSettings.sSNTP.sntpEnable){
		SNTP_Enable(sSettings.sSNTP.sntpEnable);
		SNTP_Poll();
 80286be:	f00f b919 	b.w	80378f4 <SNTP_Poll>
	}
  }
  else{
	sSettings.sSNTP.sntpEnable = false;
 80286c2:	2000      	movs	r0, #0
 80286c4:	f884 0340 	strb.w	r0, [r4, #832]	; 0x340
	SNTP_Enable(sSettings.sSNTP.sntpEnable);
  }
}
 80286c8:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
		SNTP_Poll();
	}
  }
  else{
	sSettings.sSNTP.sntpEnable = false;
	SNTP_Enable(sSettings.sSNTP.sntpEnable);
 80286cc:	f00f b8d0 	b.w	8037870 <SNTP_Enable>
 80286d0:	bd38      	pop	{r3, r4, r5, pc}
 80286d2:	bf00      	nop
 80286d4:	2000cba0 	.word	0x2000cba0
 80286d8:	08038c9e 	.word	0x08038c9e

080286dc <SetSntpServerIpStr>:

/**
  * @brief  IP адре� SNTP �ервера
  */
void SetSntpServerIpStr(char *str)
{
 80286dc:	4601      	mov	r1, r0
	strcpy(sSettings.sSNTP.ip, str);
 80286de:	4801      	ldr	r0, [pc, #4]	; (80286e4 <SetSntpServerIpStr+0x8>)
 80286e0:	f7f9 bcd8 	b.w	8022094 <strcpy>
 80286e4:	2000cee1 	.word	0x2000cee1

080286e8 <SetSntpTimeZoneStr>:

/**
  * @brief  Ча�овой по�� контроллера
  */
void SetSntpTimeZoneStr(char *str)
{
 80286e8:	b570      	push	{r4, r5, r6, lr}
  float newUtc;

  newUtc = atof(str);
 80286ea:	f7f9 fa35 	bl	8021b58 <atof>
 80286ee:	f7f8 fa49 	bl	8020b84 <__aeabi_d2f>

  if (sSettings.sSNTP.timeZone > 0)
 80286f2:	4b27      	ldr	r3, [pc, #156]	; (8028790 <SetSntpTimeZoneStr+0xa8>)
 80286f4:	f8d3 4370 	ldr.w	r4, [r3, #880]	; 0x370
  */
void SetSntpTimeZoneStr(char *str)
{
  float newUtc;

  newUtc = atof(str);
 80286f8:	4606      	mov	r6, r0

  if (sSettings.sSNTP.timeZone > 0)
 80286fa:	2100      	movs	r1, #0
 80286fc:	4620      	mov	r0, r4
 80286fe:	f7f8 fd5b 	bl	80211b8 <__aeabi_fcmpgt>
 8028702:	b100      	cbz	r0, 8028706 <SetSntpTimeZoneStr+0x1e>
 8028704:	e033      	b.n	802876e <SetSntpTimeZoneStr+0x86>
	{
	  TM_RTC_Correction(newUtc - sSettings.sSNTP.timeZone);
	}

  }
  else if (sSettings.sSNTP.timeZone < 0)
 8028706:	4620      	mov	r0, r4
 8028708:	2100      	movs	r1, #0
 802870a:	f7f8 fd37 	bl	802117c <__aeabi_fcmplt>
 802870e:	2800      	cmp	r0, #0
 8028710:	d032      	beq.n	8028778 <SetSntpTimeZoneStr+0x90>
  {
    if (newUtc >= 0)
 8028712:	4630      	mov	r0, r6
 8028714:	2100      	movs	r1, #0
 8028716:	f7f8 fd45 	bl	80211a4 <__aeabi_fcmpge>
 802871a:	b170      	cbz	r0, 802873a <SetSntpTimeZoneStr+0x52>
	{
	  TM_RTC_Correction(newUtc + fabs(sSettings.sSNTP.timeZone));
 802871c:	4620      	mov	r0, r4
 802871e:	f7f7 fefb 	bl	8020518 <__aeabi_f2d>
 8028722:	f7fc feff 	bl	8025524 <fabs>
 8028726:	4604      	mov	r4, r0
 8028728:	460d      	mov	r5, r1
 802872a:	4630      	mov	r0, r6
 802872c:	f7f7 fef4 	bl	8020518 <__aeabi_f2d>
 8028730:	4622      	mov	r2, r4
 8028732:	462b      	mov	r3, r5
 8028734:	f7f7 fd92 	bl	802025c <__adddf3>
 8028738:	e016      	b.n	8028768 <SetSntpTimeZoneStr+0x80>
	}
	else
	{
	  if (newUtc >= sSettings.sSNTP.timeZone)
 802873a:	4630      	mov	r0, r6
 802873c:	4621      	mov	r1, r4
 802873e:	f7f8 fd31 	bl	80211a4 <__aeabi_fcmpge>
 8028742:	b1a0      	cbz	r0, 802876e <SetSntpTimeZoneStr+0x86>
	    TM_RTC_Correction(fabs(sSettings.sSNTP.timeZone) - fabs(newUtc));
 8028744:	4620      	mov	r0, r4
 8028746:	f7f7 fee7 	bl	8020518 <__aeabi_f2d>
 802874a:	f7fc feeb 	bl	8025524 <fabs>
 802874e:	4604      	mov	r4, r0
 8028750:	4630      	mov	r0, r6
 8028752:	460d      	mov	r5, r1
 8028754:	f7f7 fee0 	bl	8020518 <__aeabi_f2d>
 8028758:	f7fc fee4 	bl	8025524 <fabs>
 802875c:	4602      	mov	r2, r0
 802875e:	460b      	mov	r3, r1
 8028760:	4620      	mov	r0, r4
 8028762:	4629      	mov	r1, r5
 8028764:	f7f7 fd78 	bl	8020258 <__aeabi_dsub>
 8028768:	f7f8 fa0c 	bl	8020b84 <__aeabi_d2f>
 802876c:	e00a      	b.n	8028784 <SetSntpTimeZoneStr+0x9c>
	  else
		TM_RTC_Correction(newUtc - sSettings.sSNTP.timeZone);
 802876e:	4630      	mov	r0, r6
 8028770:	4621      	mov	r1, r4
 8028772:	f7f8 fa5b 	bl	8020c2c <__aeabi_fsub>
 8028776:	e005      	b.n	8028784 <SetSntpTimeZoneStr+0x9c>
	}
  }
  else if (sSettings.sSNTP.timeZone == 0)
 8028778:	4620      	mov	r0, r4
 802877a:	2100      	movs	r1, #0
 802877c:	f7f8 fcf4 	bl	8021168 <__aeabi_fcmpeq>
 8028780:	b110      	cbz	r0, 8028788 <SetSntpTimeZoneStr+0xa0>
  {
    TM_RTC_Correction(newUtc);
 8028782:	4630      	mov	r0, r6
 8028784:	f7fe f920 	bl	80269c8 <TM_RTC_Correction>
  }

  sSettings.sSNTP.timeZone = newUtc; // atof(str);
 8028788:	4b01      	ldr	r3, [pc, #4]	; (8028790 <SetSntpTimeZoneStr+0xa8>)
 802878a:	f8c3 6370 	str.w	r6, [r3, #880]	; 0x370
 802878e:	bd70      	pop	{r4, r5, r6, pc}
 8028790:	2000cba0 	.word	0x2000cba0

08028794 <SetDINTypeActStr>:

/**
  * @brief  Тип дей�твий при �рабатывание �ухих контактов
  */
void SetDINTypeActStr(char *str, uint8_t num)
{
 8028794:	b510      	push	{r4, lr}
 8028796:	460c      	mov	r4, r1
	sSettings.sInOuts.din_type_act[num] = atoi(str);
 8028798:	f7f9 f9e2 	bl	8021b60 <atoi>
 802879c:	4902      	ldr	r1, [pc, #8]	; (80287a8 <SetDINTypeActStr+0x14>)
 802879e:	1909      	adds	r1, r1, r4
 80287a0:	f881 0376 	strb.w	r0, [r1, #886]	; 0x376
 80287a4:	bd10      	pop	{r4, pc}
 80287a6:	bf00      	nop
 80287a8:	2000cba0 	.word	0x2000cba0

080287ac <SetROStr>:

/**
  * @brief
  */
void SetROStr(char *str, uint8_t num)
{
 80287ac:	b510      	push	{r4, lr}
 80287ae:	460c      	mov	r4, r1
	set_state_douts((DOUT1+num), atoi(str));
 80287b0:	f7f9 f9d6 	bl	8021b60 <atoi>
 80287b4:	1de3      	adds	r3, r4, #7
 80287b6:	b2c1      	uxtb	r1, r0
 80287b8:	b2d8      	uxtb	r0, r3
}
 80287ba:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
/**
  * @brief
  */
void SetROStr(char *str, uint8_t num)
{
	set_state_douts((DOUT1+num), atoi(str));
 80287be:	f000 bb72 	b.w	8028ea6 <set_state_douts>

080287c2 <SetROInt>:

/**
  * @brief
  */
void SetROInt(uint8_t val, uint8_t num)
{
 80287c2:	4603      	mov	r3, r0
	set_state_douts((DOUT1+num), val);
 80287c4:	3107      	adds	r1, #7
 80287c6:	b2c8      	uxtb	r0, r1
 80287c8:	4619      	mov	r1, r3
 80287ca:	f000 bb6c 	b.w	8028ea6 <set_state_douts>
 80287ce:	0000      	movs	r0, r0

080287d0 <SetROTypeActStr>:

/**
  * @brief  И�точник �рабатывани� реле
  */
void SetROTypeActStr(char *str, uint8_t num)
{
 80287d0:	b510      	push	{r4, lr}
 80287d2:	460c      	mov	r4, r1
	sSettings.sInOuts.ro_type_source[num] = atoi(str);
 80287d4:	f7f9 f9c4 	bl	8021b60 <atoi>
 80287d8:	4b04      	ldr	r3, [pc, #16]	; (80287ec <SetROTypeActStr+0x1c>)
 80287da:	191b      	adds	r3, r3, r4
	SetROInt(0, num);
 80287dc:	4621      	mov	r1, r4
/**
  * @brief  И�точник �рабатывани� реле
  */
void SetROTypeActStr(char *str, uint8_t num)
{
	sSettings.sInOuts.ro_type_source[num] = atoi(str);
 80287de:	f883 0374 	strb.w	r0, [r3, #884]	; 0x374
	SetROInt(0, num);
 80287e2:	2000      	movs	r0, #0
}
 80287e4:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  * @brief  И�точник �рабатывани� реле
  */
void SetROTypeActStr(char *str, uint8_t num)
{
	sSettings.sInOuts.ro_type_source[num] = atoi(str);
	SetROInt(0, num);
 80287e8:	f7ff bfeb 	b.w	80287c2 <SetROInt>
 80287ec:	2000cba0 	.word	0x2000cba0

080287f0 <SETTINGS_SetBootParamsDef>:
/**
  * @brief  У�тановить параметры обновлени� ПО по умолчанию
  */
void SETTINGS_SetBootParamsDef(void)
{
  sSettings.bootParams.loadMode = 0;
 80287f0:	4b02      	ldr	r3, [pc, #8]	; (80287fc <SETTINGS_SetBootParamsDef+0xc>)
 80287f2:	2200      	movs	r2, #0
 80287f4:	701a      	strb	r2, [r3, #0]
  sSettings.bootParams.bootTry = 0;
 80287f6:	705a      	strb	r2, [r3, #1]
 80287f8:	4770      	bx	lr
 80287fa:	bf00      	nop
 80287fc:	2000cba0 	.word	0x2000cba0

08028800 <SETTINGS_SetWebParamsDef>:

/**
  * @brief  У�тановить параметры �етевого подключени� по умолчанию
  */
void SETTINGS_SetWebParamsDef(void)
{
 8028800:	b510      	push	{r4, lr}
	  strcpy(sSettings.sWebParams.ip, "192.168.1.8");
 8028802:	4c09      	ldr	r4, [pc, #36]	; (8028828 <SETTINGS_SetWebParamsDef+0x28>)
 8028804:	4909      	ldr	r1, [pc, #36]	; (802882c <SETTINGS_SetWebParamsDef+0x2c>)
 8028806:	4620      	mov	r0, r4
 8028808:	f7f9 fc44 	bl	8022094 <strcpy>
	  strcpy(sSettings.sWebParams.gate, "192.168.1.1");
 802880c:	4908      	ldr	r1, [pc, #32]	; (8028830 <SETTINGS_SetWebParamsDef+0x30>)
 802880e:	f104 0010 	add.w	r0, r4, #16
 8028812:	f7f9 fc3f 	bl	8022094 <strcpy>
	  strcpy(sSettings.sWebParams.mask, "255.255.255.0");
 8028816:	f104 0020 	add.w	r0, r4, #32
 802881a:	4906      	ldr	r1, [pc, #24]	; (8028834 <SETTINGS_SetWebParamsDef+0x34>)
 802881c:	f7f9 fc3a 	bl	8022094 <strcpy>
	  sSettings.sWebParams.dhcpEnable = 1;
 8028820:	2201      	movs	r2, #1
 8028822:	f884 2030 	strb.w	r2, [r4, #48]	; 0x30
 8028826:	bd10      	pop	{r4, pc}
 8028828:	2000cba2 	.word	0x2000cba2
 802882c:	080389cd 	.word	0x080389cd
 8028830:	080389d9 	.word	0x080389d9
 8028834:	080389e5 	.word	0x080389e5

08028838 <SETTINGS_SetTempWebParamsDef>:

/**
  * @brief  У�тановить временные параметры �етевого подключени� по умолчанию
  */
void SETTINGS_SetTempWebParamsDef(void)
{
 8028838:	b510      	push	{r4, lr}
	  strcpy(sSettings.sWebParams.ip, "192.168.1.2");
 802883a:	4c09      	ldr	r4, [pc, #36]	; (8028860 <SETTINGS_SetTempWebParamsDef+0x28>)
 802883c:	4909      	ldr	r1, [pc, #36]	; (8028864 <SETTINGS_SetTempWebParamsDef+0x2c>)
 802883e:	4620      	mov	r0, r4
 8028840:	f7f9 fc28 	bl	8022094 <strcpy>
	  strcpy(sSettings.sWebParams.gate, "192.168.1.1");
 8028844:	4908      	ldr	r1, [pc, #32]	; (8028868 <SETTINGS_SetTempWebParamsDef+0x30>)
 8028846:	f104 0010 	add.w	r0, r4, #16
 802884a:	f7f9 fc23 	bl	8022094 <strcpy>
	  strcpy(sSettings.sWebParams.mask, "255.255.255.0");
 802884e:	f104 0020 	add.w	r0, r4, #32
 8028852:	4906      	ldr	r1, [pc, #24]	; (802886c <SETTINGS_SetTempWebParamsDef+0x34>)
 8028854:	f7f9 fc1e 	bl	8022094 <strcpy>
	  sSettings.sWebParams.dhcpEnable = 1;
 8028858:	2201      	movs	r2, #1
 802885a:	f884 2030 	strb.w	r2, [r4, #48]	; 0x30
 802885e:	bd10      	pop	{r4, pc}
 8028860:	2000cba2 	.word	0x2000cba2
 8028864:	080389f3 	.word	0x080389f3
 8028868:	080389d9 	.word	0x080389d9
 802886c:	080389e5 	.word	0x080389e5

08028870 <SETTINGS_SetSnmpDef>:

/**
  * @brief  У�тановить параметры SNMP по умолчанию
  */
void SETTINGS_SetSnmpDef(void)
{
 8028870:	b570      	push	{r4, r5, r6, lr}
  strcpy(sSettings.sSnmp.sysDescr, "");
 8028872:	4c1e      	ldr	r4, [pc, #120]	; (80288ec <SETTINGS_SetSnmpDef+0x7c>)
 8028874:	4d1e      	ldr	r5, [pc, #120]	; (80288f0 <SETTINGS_SetSnmpDef+0x80>)
  strcpy(sSettings.sSnmp.readCommunity, "public");
 8028876:	4e1f      	ldr	r6, [pc, #124]	; (80288f4 <SETTINGS_SetSnmpDef+0x84>)
/**
  * @brief  У�тановить параметры SNMP по умолчанию
  */
void SETTINGS_SetSnmpDef(void)
{
  strcpy(sSettings.sSnmp.sysDescr, "");
 8028878:	4629      	mov	r1, r5
 802887a:	4620      	mov	r0, r4
 802887c:	f7f9 fc0a 	bl	8022094 <strcpy>
  strcpy(sSettings.sSnmp.readCommunity, "public");
 8028880:	4631      	mov	r1, r6
 8028882:	f104 00a0 	add.w	r0, r4, #160	; 0xa0
 8028886:	f7f9 fc05 	bl	8022094 <strcpy>
  strcpy(sSettings.sSnmp.writeCommunity, "public");
 802888a:	4631      	mov	r1, r6
 802888c:	f104 00b4 	add.w	r0, r4, #180	; 0xb4
 8028890:	f7f9 fc00 	bl	8022094 <strcpy>
  strcpy(sSettings.sSnmp.sysContact, "");
 8028894:	4629      	mov	r1, r5
 8028896:	f104 00c8 	add.w	r0, r4, #200	; 0xc8
 802889a:	f7f9 fbfb 	bl	8022094 <strcpy>
  strcpy(sSettings.sSnmp.sysName, "BT6702");
 802889e:	f104 00fa 	add.w	r0, r4, #250	; 0xfa
 80288a2:	4915      	ldr	r1, [pc, #84]	; (80288f8 <SETTINGS_SetSnmpDef+0x88>)
 80288a4:	f7f9 fbf6 	bl	8022094 <strcpy>
  strcpy(sSettings.sSnmp.sysLocation, "");
 80288a8:	4629      	mov	r1, r5
  strcpy(sSettings.sSnmp.managerIP, "0.0.0.0");
 80288aa:	4d14      	ldr	r5, [pc, #80]	; (80288fc <SETTINGS_SetSnmpDef+0x8c>)
  strcpy(sSettings.sSnmp.sysDescr, "");
  strcpy(sSettings.sSnmp.readCommunity, "public");
  strcpy(sSettings.sSnmp.writeCommunity, "public");
  strcpy(sSettings.sSnmp.sysContact, "");
  strcpy(sSettings.sSnmp.sysName, "BT6702");
  strcpy(sSettings.sSnmp.sysLocation, "");
 80288ac:	f504 7087 	add.w	r0, r4, #270	; 0x10e
 80288b0:	f7f9 fbf0 	bl	8022094 <strcpy>
  strcpy(sSettings.sSnmp.managerIP, "0.0.0.0");
 80288b4:	4629      	mov	r1, r5
 80288b6:	f504 70be 	add.w	r0, r4, #380	; 0x17c
 80288ba:	f7f9 fbeb 	bl	8022094 <strcpy>
  strcpy(sSettings.sSnmp.managerIP2, "0.0.0.0");
 80288be:	4629      	mov	r1, r5
 80288c0:	f504 70c8 	add.w	r0, r4, #400	; 0x190
 80288c4:	f7f9 fbe6 	bl	8022094 <strcpy>
  strcpy(sSettings.sSnmp.managerIP3, "0.0.0.0");
 80288c8:	4629      	mov	r1, r5
 80288ca:	f504 70d2 	add.w	r0, r4, #420	; 0x1a4
 80288ce:	f7f9 fbe1 	bl	8022094 <strcpy>
  strcpy(sSettings.sSnmp.managerIP4, "0.0.0.0");
 80288d2:	4629      	mov	r1, r5
 80288d4:	f504 70dc 	add.w	r0, r4, #440	; 0x1b8
 80288d8:	f7f9 fbdc 	bl	8022094 <strcpy>
  strcpy(sSettings.sSnmp.managerIP5, "0.0.0.0");
 80288dc:	f504 70e6 	add.w	r0, r4, #460	; 0x1cc
 80288e0:	4629      	mov	r1, r5
}
 80288e2:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  strcpy(sSettings.sSnmp.sysLocation, "");
  strcpy(sSettings.sSnmp.managerIP, "0.0.0.0");
  strcpy(sSettings.sSnmp.managerIP2, "0.0.0.0");
  strcpy(sSettings.sSnmp.managerIP3, "0.0.0.0");
  strcpy(sSettings.sSnmp.managerIP4, "0.0.0.0");
  strcpy(sSettings.sSnmp.managerIP5, "0.0.0.0");
 80288e6:	f7f9 bbd5 	b.w	8022094 <strcpy>
 80288ea:	bf00      	nop
 80288ec:	2000ccd1 	.word	0x2000ccd1
 80288f0:	08042b4c 	.word	0x08042b4c
 80288f4:	080389ff 	.word	0x080389ff
 80288f8:	08038a06 	.word	0x08038a06
 80288fc:	08038a0d 	.word	0x08038a0d

08028900 <SETTINGS_SetInfoDef>:

/**
  * @brief  У�тановить Информацию об у�трой�тве по умолчанию
  */
void SETTINGS_SetInfoDef(void)
{
 8028900:	b510      	push	{r4, lr}
  strcpy(sSettings.sInfo.productionData, "09.10.2015");
 8028902:	4c0b      	ldr	r4, [pc, #44]	; (8028930 <SETTINGS_SetInfoDef+0x30>)
 8028904:	490b      	ldr	r1, [pc, #44]	; (8028934 <SETTINGS_SetInfoDef+0x34>)
 8028906:	4620      	mov	r0, r4
 8028908:	f7f9 fbc4 	bl	8022094 <strcpy>
  strcpy(sSettings.sInfo.mac, DEVICE_MAC);
 802890c:	f104 0028 	add.w	r0, r4, #40	; 0x28
 8028910:	4909      	ldr	r1, [pc, #36]	; (8028938 <SETTINGS_SetInfoDef+0x38>)
 8028912:	f7f9 fbbf 	bl	8022094 <strcpy>
  strcpy(sSettings.sInfo.serialNumber, SERIAL);
 8028916:	f104 003a 	add.w	r0, r4, #58	; 0x3a
 802891a:	4908      	ldr	r1, [pc, #32]	; (802893c <SETTINGS_SetInfoDef+0x3c>)
 802891c:	f7f9 fbba 	bl	8022094 <strcpy>
  strcpy(sSettings.sInfo.comments, "");
 8028920:	4907      	ldr	r1, [pc, #28]	; (8028940 <SETTINGS_SetInfoDef+0x40>)
 8028922:	f104 004a 	add.w	r0, r4, #74	; 0x4a
}  
 8028926:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
void SETTINGS_SetInfoDef(void)
{
  strcpy(sSettings.sInfo.productionData, "09.10.2015");
  strcpy(sSettings.sInfo.mac, DEVICE_MAC);
  strcpy(sSettings.sInfo.serialNumber, SERIAL);
  strcpy(sSettings.sInfo.comments, "");
 802892a:	f7f9 bbb3 	b.w	8022094 <strcpy>
 802892e:	bf00      	nop
 8028930:	2000cc04 	.word	0x2000cc04
 8028934:	08038a15 	.word	0x08038a15
 8028938:	08038a20 	.word	0x08038a20
 802893c:	08038a32 	.word	0x08038a32
 8028940:	08042b4c 	.word	0x08042b4c

08028944 <SETTINGS_SetServiceDef>:

/**
  * @brief  У�тановить значение �ерви�ных на�троек по умолчанию
  */
void SETTINGS_SetServiceDef(void)
{
 8028944:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 8028948:	4d14      	ldr	r5, [pc, #80]	; (802899c <SETTINGS_SetServiceDef+0x58>)
 802894a:	2400      	movs	r4, #0
}

/**
  * @brief  У�тановить значение �ерви�ных на�троек по умолчанию
  */
void SETTINGS_SetServiceDef(void)
 802894c:	2717      	movs	r7, #23
            strcpy(sSettings.sAuth[user_id].login, "admin");
            strcpy(sSettings.sAuth[user_id].password, "12345");
            break;
        case 1:
        default:
        	sSettings.sAuth[user_id].level = USER;
 802894e:	f04f 0801 	mov.w	r8, #1
void SETTINGS_SetServiceDef(void)
{
    uint8_t user_id;

    for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {
        switch (user_id) {
 8028952:	f014 03ff 	ands.w	r3, r4, #255	; 0xff
 8028956:	d108      	bne.n	802896a <SETTINGS_SetServiceDef+0x26>
        /* First users in the system is always ADMIN.
         * Others are USER */
        case 0:
            sSettings.sAuth[user_id].level = ADMIN;
            strcpy(sSettings.sAuth[user_id].login, "admin");
 8028958:	4911      	ldr	r1, [pc, #68]	; (80289a0 <SETTINGS_SetServiceDef+0x5c>)
 802895a:	4812      	ldr	r0, [pc, #72]	; (80289a4 <SETTINGS_SetServiceDef+0x60>)
    for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {
        switch (user_id) {
        /* First users in the system is always ADMIN.
         * Others are USER */
        case 0:
            sSettings.sAuth[user_id].level = ADMIN;
 802895c:	f885 3311 	strb.w	r3, [r5, #785]	; 0x311
            strcpy(sSettings.sAuth[user_id].login, "admin");
 8028960:	f7f9 fb98 	bl	8022094 <strcpy>
            strcpy(sSettings.sAuth[user_id].password, "12345");
 8028964:	4810      	ldr	r0, [pc, #64]	; (80289a8 <SETTINGS_SetServiceDef+0x64>)
 8028966:	4911      	ldr	r1, [pc, #68]	; (80289ac <SETTINGS_SetServiceDef+0x68>)
 8028968:	e010      	b.n	802898c <SETTINGS_SetServiceDef+0x48>
}

/**
  * @brief  У�тановить значение �ерви�ных на�троек по умолчанию
  */
void SETTINGS_SetServiceDef(void)
 802896a:	fb07 f604 	mul.w	r6, r7, r4
 802896e:	19ab      	adds	r3, r5, r6
            strcpy(sSettings.sAuth[user_id].password, "12345");
            break;
        case 1:
        default:
        	sSettings.sAuth[user_id].level = USER;
            strcpy(sSettings.sAuth[user_id].login, "user");
 8028970:	f506 7044 	add.w	r0, r6, #784	; 0x310
 8028974:	1828      	adds	r0, r5, r0
 8028976:	490e      	ldr	r1, [pc, #56]	; (80289b0 <SETTINGS_SetServiceDef+0x6c>)
            strcpy(sSettings.sAuth[user_id].login, "admin");
            strcpy(sSettings.sAuth[user_id].password, "12345");
            break;
        case 1:
        default:
        	sSettings.sAuth[user_id].level = USER;
 8028978:	f883 8311 	strb.w	r8, [r3, #785]	; 0x311
            strcpy(sSettings.sAuth[user_id].login, "user");
 802897c:	3002      	adds	r0, #2
            strcpy(sSettings.sAuth[user_id].password, "1234");
 802897e:	f506 7646 	add.w	r6, r6, #792	; 0x318
            strcpy(sSettings.sAuth[user_id].password, "12345");
            break;
        case 1:
        default:
        	sSettings.sAuth[user_id].level = USER;
            strcpy(sSettings.sAuth[user_id].login, "user");
 8028982:	f7f9 fb87 	bl	8022094 <strcpy>
            strcpy(sSettings.sAuth[user_id].password, "1234");
 8028986:	19a8      	adds	r0, r5, r6
 8028988:	490a      	ldr	r1, [pc, #40]	; (80289b4 <SETTINGS_SetServiceDef+0x70>)
 802898a:	3005      	adds	r0, #5
 802898c:	3401      	adds	r4, #1
 802898e:	f7f9 fb81 	bl	8022094 <strcpy>
  */
void SETTINGS_SetServiceDef(void)
{
    uint8_t user_id;

    for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {
 8028992:	2c02      	cmp	r4, #2
 8028994:	d1dd      	bne.n	8028952 <SETTINGS_SetServiceDef+0xe>
            strcpy(sSettings.sAuth[user_id].login, "user");
            strcpy(sSettings.sAuth[user_id].password, "1234");
            break;
        }
    }
}
 8028996:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 802899a:	bf00      	nop
 802899c:	2000cba0 	.word	0x2000cba0
 80289a0:	08038a3e 	.word	0x08038a3e
 80289a4:	2000ceb2 	.word	0x2000ceb2
 80289a8:	2000cebd 	.word	0x2000cebd
 80289ac:	08038a44 	.word	0x08038a44
 80289b0:	08038a4a 	.word	0x08038a4a
 80289b4:	08038a4f 	.word	0x08038a4f

080289b8 <SETTINGS_SetSntpDef>:

/**
  * @brief  У�тановить параметры SNTP по умолчанию
  */
void SETTINGS_SetSntpDef(void)
{
 80289b8:	b510      	push	{r4, lr}
  sSettings.sSNTP.sntpEnable = true;
 80289ba:	4c08      	ldr	r4, [pc, #32]	; (80289dc <SETTINGS_SetSntpDef+0x24>)
  strcpy(sSettings.sSNTP.ip, "88.147.254.235");
 80289bc:	4908      	ldr	r1, [pc, #32]	; (80289e0 <SETTINGS_SetSntpDef+0x28>)
 80289be:	4809      	ldr	r0, [pc, #36]	; (80289e4 <SETTINGS_SetSntpDef+0x2c>)
/**
  * @brief  У�тановить параметры SNTP по умолчанию
  */
void SETTINGS_SetSntpDef(void)
{
  sSettings.sSNTP.sntpEnable = true;
 80289c0:	2301      	movs	r3, #1
 80289c2:	f884 3340 	strb.w	r3, [r4, #832]	; 0x340
  strcpy(sSettings.sSNTP.ip, "88.147.254.235");
 80289c6:	f7f9 fb65 	bl	8022094 <strcpy>
  sSettings.sSNTP.timeZone = 3.0;
 80289ca:	4b07      	ldr	r3, [pc, #28]	; (80289e8 <SETTINGS_SetSntpDef+0x30>)
  strcpy(sSettings.sSNTP.data, "none");
 80289cc:	4807      	ldr	r0, [pc, #28]	; (80289ec <SETTINGS_SetSntpDef+0x34>)
 80289ce:	4908      	ldr	r1, [pc, #32]	; (80289f0 <SETTINGS_SetSntpDef+0x38>)
  */
void SETTINGS_SetSntpDef(void)
{
  sSettings.sSNTP.sntpEnable = true;
  strcpy(sSettings.sSNTP.ip, "88.147.254.235");
  sSettings.sSNTP.timeZone = 3.0;
 80289d0:	f8c4 3370 	str.w	r3, [r4, #880]	; 0x370
  strcpy(sSettings.sSNTP.data, "none");
}
 80289d4:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
void SETTINGS_SetSntpDef(void)
{
  sSettings.sSNTP.sntpEnable = true;
  strcpy(sSettings.sSNTP.ip, "88.147.254.235");
  sSettings.sSNTP.timeZone = 3.0;
  strcpy(sSettings.sSNTP.data, "none");
 80289d8:	f7f9 bb5c 	b.w	8022094 <strcpy>
 80289dc:	2000cba0 	.word	0x2000cba0
 80289e0:	08038a54 	.word	0x08038a54
 80289e4:	2000cee1 	.word	0x2000cee1
 80289e8:	40400000 	.word	0x40400000
 80289ec:	2000cef1 	.word	0x2000cef1
 80289f0:	08038a63 	.word	0x08038a63

080289f4 <SETTINGS_SetINOUTSDef>:
/**
  * @brief  У�тановить параметры на�троек �ухих контактов / реле по умолчанию
  */
void SETTINGS_SetINOUTSDef(void)
{
	sSettings.sInOuts.ro_type_source[0] = CRITICAL;
 80289f4:	4b05      	ldr	r3, [pc, #20]	; (8028a0c <SETTINGS_SetINOUTSDef+0x18>)
 80289f6:	2201      	movs	r2, #1
 80289f8:	f883 2374 	strb.w	r2, [r3, #884]	; 0x374
	sSettings.sInOuts.ro_type_source[1] = SNMP_SET;
 80289fc:	2203      	movs	r2, #3
 80289fe:	f883 2375 	strb.w	r2, [r3, #885]	; 0x375

	sSettings.sInOuts.din_type_act[0] = SNMP_TRAP;
 8028a02:	2202      	movs	r2, #2
 8028a04:	f883 2376 	strb.w	r2, [r3, #886]	; 0x376
 8028a08:	4770      	bx	lr
 8028a0a:	bf00      	nop
 8028a0c:	2000cba0 	.word	0x2000cba0

08028a10 <SETTINGS_SetRADIUSDef>:

/**
  * @brief  У�тановить параметры RADIUS по умолчанию
  */
void SETTINGS_SetRADIUSDef(void)
{
 8028a10:	b510      	push	{r4, lr}
  sSettings.sRADIUS.Auth_enable = true;
 8028a12:	4c0b      	ldr	r4, [pc, #44]	; (8028a40 <SETTINGS_SetRADIUSDef+0x30>)
  sSettings.sRADIUS.RDSEnable = true;
  strcpy(sSettings.sRADIUS.ServerIP, "127.0.0.1");
 8028a14:	490b      	ldr	r1, [pc, #44]	; (8028a44 <SETTINGS_SetRADIUSDef+0x34>)
 8028a16:	480c      	ldr	r0, [pc, #48]	; (8028a48 <SETTINGS_SetRADIUSDef+0x38>)
/**
  * @brief  У�тановить параметры RADIUS по умолчанию
  */
void SETTINGS_SetRADIUSDef(void)
{
  sSettings.sRADIUS.Auth_enable = true;
 8028a18:	2301      	movs	r3, #1
 8028a1a:	f884 3378 	strb.w	r3, [r4, #888]	; 0x378
  sSettings.sRADIUS.RDSEnable = true;
 8028a1e:	f884 339a 	strb.w	r3, [r4, #922]	; 0x39a
  strcpy(sSettings.sRADIUS.ServerIP, "127.0.0.1");
 8028a22:	f7f9 fb37 	bl	8022094 <strcpy>
  sSettings.sRADIUS.port = 1227;
 8028a26:	f240 43cb 	movw	r3, #1227	; 0x4cb
  sSettings.sRADIUS.key_access = 123;
  strcpy(sSettings.sRADIUS.rds_password, "12345");
 8028a2a:	4808      	ldr	r0, [pc, #32]	; (8028a4c <SETTINGS_SetRADIUSDef+0x3c>)
 8028a2c:	4908      	ldr	r1, [pc, #32]	; (8028a50 <SETTINGS_SetRADIUSDef+0x40>)
void SETTINGS_SetRADIUSDef(void)
{
  sSettings.sRADIUS.Auth_enable = true;
  sSettings.sRADIUS.RDSEnable = true;
  strcpy(sSettings.sRADIUS.ServerIP, "127.0.0.1");
  sSettings.sRADIUS.port = 1227;
 8028a2e:	f8c4 339c 	str.w	r3, [r4, #924]	; 0x39c
  sSettings.sRADIUS.key_access = 123;
 8028a32:	237b      	movs	r3, #123	; 0x7b
 8028a34:	f8c4 33a0 	str.w	r3, [r4, #928]	; 0x3a0
  strcpy(sSettings.sRADIUS.rds_password, "12345");
}
 8028a38:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  sSettings.sRADIUS.Auth_enable = true;
  sSettings.sRADIUS.RDSEnable = true;
  strcpy(sSettings.sRADIUS.ServerIP, "127.0.0.1");
  sSettings.sRADIUS.port = 1227;
  sSettings.sRADIUS.key_access = 123;
  strcpy(sSettings.sRADIUS.rds_password, "12345");
 8028a3c:	f7f9 bb2a 	b.w	8022094 <strcpy>
 8028a40:	2000cba0 	.word	0x2000cba0
 8028a44:	08038a68 	.word	0x08038a68
 8028a48:	2000cf19 	.word	0x2000cf19
 8028a4c:	2000cf29 	.word	0x2000cf29
 8028a50:	08038a44 	.word	0x08038a44

08028a54 <SETTINGS_ReadFromFlash>:
  */
void SETTINGS_ReadFromFlash(uint8_t *data, uint32_t size)
{
  uint32_t baseAddress = SETTINGS_SECTOR;
  
  for (uint32_t i = 0; i < size; i++)
 8028a54:	2300      	movs	r3, #0
 8028a56:	e006      	b.n	8028a66 <SETTINGS_ReadFromFlash+0x12>
	*data++ = (*(uint32_t*)baseAddress++);;
 8028a58:	f103 6200 	add.w	r2, r3, #134217728	; 0x8000000
 8028a5c:	f502 4280 	add.w	r2, r2, #16384	; 0x4000
 8028a60:	6812      	ldr	r2, [r2, #0]
 8028a62:	54c2      	strb	r2, [r0, r3]
  */
void SETTINGS_ReadFromFlash(uint8_t *data, uint32_t size)
{
  uint32_t baseAddress = SETTINGS_SECTOR;
  
  for (uint32_t i = 0; i < size; i++)
 8028a64:	3301      	adds	r3, #1
 8028a66:	428b      	cmp	r3, r1
 8028a68:	d1f6      	bne.n	8028a58 <SETTINGS_ReadFromFlash+0x4>
	*data++ = (*(uint32_t*)baseAddress++);;
}
 8028a6a:	4770      	bx	lr

08028a6c <SETTINGS_EraseFlashSector>:
  */
void SETTINGS_EraseFlashSector(void)
{
  FLASH_Status status;

  if ((status = FLASH_EraseSector(FLASH_Sector_1, VoltageRange_3)) != FLASH_COMPLETE) {
 8028a6c:	2008      	movs	r0, #8
 8028a6e:	2102      	movs	r1, #2
 8028a70:	f7fc be3a 	b.w	80256e8 <FLASH_EraseSector>

08028a74 <SETTINGS_GetCRC>:
/**
  * @brief  
  * @retval 
  */
uint32_t SETTINGS_GetCRC(void)
{
 8028a74:	b508      	push	{r3, lr}
  CRC_ResetDR();
 8028a76:	f7fc fda1 	bl	80255bc <CRC_ResetDR>
  return CRC_CalcBlockCRC((uint32_t*)&sSettings, sizeof(sSettings)/4 - 1);
 8028a7a:	4803      	ldr	r0, [pc, #12]	; (8028a88 <SETTINGS_GetCRC+0x14>)
 8028a7c:	21e9      	movs	r1, #233	; 0xe9
}
 8028a7e:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  * @retval 
  */
uint32_t SETTINGS_GetCRC(void)
{
  CRC_ResetDR();
  return CRC_CalcBlockCRC((uint32_t*)&sSettings, sizeof(sSettings)/4 - 1);
 8028a82:	f7fc bda1 	b.w	80255c8 <CRC_CalcBlockCRC>
 8028a86:	bf00      	nop
 8028a88:	2000cba0 	.word	0x2000cba0

08028a8c <SETTINGS_WriteToFlash>:

/**
  * @brief  
  */
void SETTINGS_WriteToFlash(uint8_t *data, uint32_t size)
{
 8028a8c:	e92d 4ff8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8028a90:	4606      	mov	r6, r0
 8028a92:	468a      	mov	sl, r1
  uint32_t baseAddress = SETTINGS_SECTOR;
  uint32_t checkCrc = 0;
  uint32_t crc = SETTINGS_GetCRC();
 8028a94:	f7ff ffee 	bl	8028a74 <SETTINGS_GetCRC>
/**
  * @brief  
  */
void SETTINGS_WriteToFlash(uint8_t *data, uint32_t size)
{
  uint32_t baseAddress = SETTINGS_SECTOR;
 8028a98:	4c17      	ldr	r4, [pc, #92]	; (8028af8 <SETTINGS_WriteToFlash+0x6c>)
  uint32_t checkCrc = 0;
  uint32_t crc = SETTINGS_GetCRC();
 8028a9a:	4680      	mov	r8, r0
 8028a9c:	2703      	movs	r7, #3
  FLASH_Status status;

  for (uint8_t i = 0; i < 3; i++)
  {	
		fAlarm = 0;
		FLASH_Unlock();
 8028a9e:	f7fc fda3 	bl	80255e8 <FLASH_Unlock>
 8028aa2:	4635      	mov	r5, r6

		SETTINGS_EraseFlashSector();
 8028aa4:	f7ff ffe2 	bl	8028a6c <SETTINGS_EraseFlashSector>
}

/**
  * @brief  
  */
void SETTINGS_WriteToFlash(uint8_t *data, uint32_t size)
 8028aa8:	eb04 0b0a 	add.w	fp, r4, sl
		fAlarm = 0;
		FLASH_Unlock();

		SETTINGS_EraseFlashSector();

		for (uint32_t i = 0; i < size; i++)
 8028aac:	e00a      	b.n	8028ac4 <SETTINGS_WriteToFlash+0x38>
		if ((status = FLASH_ProgramByte(baseAddress++, *data++)) != FLASH_COMPLETE) {
 8028aae:	f815 1b01 	ldrb.w	r1, [r5], #1
 8028ab2:	4620      	mov	r0, r4
 8028ab4:	f7fc fdde 	bl	8025674 <FLASH_ProgramByte>
 8028ab8:	f104 0901 	add.w	r9, r4, #1
 8028abc:	2808      	cmp	r0, #8
 8028abe:	462e      	mov	r6, r5
 8028ac0:	464c      	mov	r4, r9
 8028ac2:	d102      	bne.n	8028aca <SETTINGS_WriteToFlash+0x3e>
		fAlarm = 0;
		FLASH_Unlock();

		SETTINGS_EraseFlashSector();

		for (uint32_t i = 0; i < size; i++)
 8028ac4:	455c      	cmp	r4, fp
 8028ac6:	462e      	mov	r6, r5
 8028ac8:	d1f1      	bne.n	8028aae <SETTINGS_WriteToFlash+0x22>
		if ((status = FLASH_ProgramByte(baseAddress++, *data++)) != FLASH_COMPLETE) {
			 DBG printf("FLASH_ProgramByte error: status = %d\r\n", status);
			 break;
		 }

		if ((status = FLASH_ProgramWord((uint32_t)CRC_ADDRESS, crc)) != FLASH_COMPLETE) {
 8028aca:	4641      	mov	r1, r8
 8028acc:	480b      	ldr	r0, [pc, #44]	; (8028afc <SETTINGS_WriteToFlash+0x70>)
 8028ace:	f7fc fded 	bl	80256ac <FLASH_ProgramWord>
			 DBG printf("FLASH_ProgramWord error: status = %d\r\n", status);
		 }

		FLASH_Lock();
 8028ad2:	f7fc fd97 	bl	8025604 <FLASH_Lock>

		/* Считываем что запи�али */
		SETTINGS_ReadFromFlash((uint8_t*)&sSettings, sizeof(sSettings));
 8028ad6:	480a      	ldr	r0, [pc, #40]	; (8028b00 <SETTINGS_WriteToFlash+0x74>)
 8028ad8:	f44f 716a 	mov.w	r1, #936	; 0x3a8
 8028adc:	f7ff ffba 	bl	8028a54 <SETTINGS_ReadFromFlash>

		checkCrc = SETTINGS_GetCRC();
 8028ae0:	f7ff ffc8 	bl	8028a74 <SETTINGS_GetCRC>
	
		/* Провер�ем  CRC того что было запи�ано */
		if (checkCrc == crc)
 8028ae4:	4540      	cmp	r0, r8
 8028ae6:	d004      	beq.n	8028af2 <SETTINGS_WriteToFlash+0x66>
 8028ae8:	3f01      	subs	r7, #1
  uint32_t checkCrc = 0;
  uint32_t crc = SETTINGS_GetCRC();
  bool fAlarm = 0;	
  FLASH_Status status;

  for (uint8_t i = 0; i < 3; i++)
 8028aea:	f017 07ff 	ands.w	r7, r7, #255	; 0xff
 8028aee:	d1d6      	bne.n	8028a9e <SETTINGS_WriteToFlash+0x12>
 8028af0:	e7fe      	b.n	8028af0 <SETTINGS_WriteToFlash+0x64>
 8028af2:	e8bd 8ff8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8028af6:	bf00      	nop
 8028af8:	08004000 	.word	0x08004000
 8028afc:	08005f9c 	.word	0x08005f9c
 8028b00:	2000cba0 	.word	0x2000cba0

08028b04 <SETTINGS_GetCritSecCRC>:
/**
  * @brief
  * @retval
  */
uint32_t SETTINGS_GetCritSecCRC(void)
{
 8028b04:	b508      	push	{r3, lr}
  CRC_ResetDR();
 8028b06:	f7fc fd59 	bl	80255bc <CRC_ResetDR>
  uint32_t critsec_len = (uint32_t)((uint8_t *)(&sSettings.CritSecCRC) - (uint8_t *)&sSettings) / 4;
  return CRC_CalcBlockCRC((uint32_t *)&sSettings, critsec_len);
 8028b0a:	4803      	ldr	r0, [pc, #12]	; (8028b18 <SETTINGS_GetCritSecCRC+0x14>)
 8028b0c:	2147      	movs	r1, #71	; 0x47
}
 8028b0e:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  */
uint32_t SETTINGS_GetCritSecCRC(void)
{
  CRC_ResetDR();
  uint32_t critsec_len = (uint32_t)((uint8_t *)(&sSettings.CritSecCRC) - (uint8_t *)&sSettings) / 4;
  return CRC_CalcBlockCRC((uint32_t *)&sSettings, critsec_len);
 8028b12:	f7fc bd59 	b.w	80255c8 <CRC_CalcBlockCRC>
 8028b16:	bf00      	nop
 8028b18:	2000cba0 	.word	0x2000cba0

08028b1c <SETTINGS_Save>:
  
/**
  * @brief  Запи�ь �труктуры на�троек во flesh
  */
void SETTINGS_Save(void)
{
 8028b1c:	b508      	push	{r3, lr}
  /* Calc critical section CRC and store to the settings structure */
  sSettings.CritSecCRC = SETTINGS_GetCritSecCRC();
 8028b1e:	f7ff fff1 	bl	8028b04 <SETTINGS_GetCritSecCRC>
 8028b22:	4b05      	ldr	r3, [pc, #20]	; (8028b38 <SETTINGS_Save+0x1c>)

  SETTINGS_WriteToFlash((uint8_t*)&sSettings, sizeof(sSettings));
 8028b24:	f44f 716a 	mov.w	r1, #936	; 0x3a8
  * @brief  Запи�ь �труктуры на�троек во flesh
  */
void SETTINGS_Save(void)
{
  /* Calc critical section CRC and store to the settings structure */
  sSettings.CritSecCRC = SETTINGS_GetCritSecCRC();
 8028b28:	f8c3 011c 	str.w	r0, [r3, #284]	; 0x11c

  SETTINGS_WriteToFlash((uint8_t*)&sSettings, sizeof(sSettings));
 8028b2c:	4618      	mov	r0, r3
}
 8028b2e:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
void SETTINGS_Save(void)
{
  /* Calc critical section CRC and store to the settings structure */
  sSettings.CritSecCRC = SETTINGS_GetCritSecCRC();

  SETTINGS_WriteToFlash((uint8_t*)&sSettings, sizeof(sSettings));
 8028b32:	f7ff bfab 	b.w	8028a8c <SETTINGS_WriteToFlash>
 8028b36:	bf00      	nop
 8028b38:	2000cba0 	.word	0x2000cba0

08028b3c <SETTINGS_SetDefaultDebug>:

/**
  * @brief  У�тановка на�троек дл� отладки
  */
void SETTINGS_SetDefaultDebug(void)
{
 8028b3c:	b510      	push	{r4, lr}
/**
  * @brief  У�тановить флаги по умолчанию
  */
void SETTINGS_SetFlagsDef(void)
{
  sSettings.sFlags.netsettingsChanged = false;
 8028b3e:	4c0d      	ldr	r4, [pc, #52]	; (8028b74 <SETTINGS_SetDefaultDebug+0x38>)
/**
  * @brief  У�тановка на�троек дл� отладки
  */
void SETTINGS_SetDefaultDebug(void)
{
  SETTINGS_SetWebParamsDef();
 8028b40:	f7ff fe5e 	bl	8028800 <SETTINGS_SetWebParamsDef>
  SETTINGS_SetTempWebParamsDef();
 8028b44:	f7ff fe78 	bl	8028838 <SETTINGS_SetTempWebParamsDef>
  SETTINGS_SetSnmpDef();
 8028b48:	f7ff fe92 	bl	8028870 <SETTINGS_SetSnmpDef>
  SETTINGS_SetBootParamsDef();
 8028b4c:	f7ff fe50 	bl	80287f0 <SETTINGS_SetBootParamsDef>
/**
  * @brief  У�тановить флаги по умолчанию
  */
void SETTINGS_SetFlagsDef(void)
{
  sSettings.sFlags.netsettingsChanged = false;
 8028b50:	2300      	movs	r3, #0
 8028b52:	f884 3120 	strb.w	r3, [r4, #288]	; 0x120
  SETTINGS_SetTempWebParamsDef();
  SETTINGS_SetSnmpDef();
  SETTINGS_SetBootParamsDef();
  SETTINGS_SetFlagsDef();
  //SETTINGS_SetServiceDef();
  SETTINGS_SetSntpDef();
 8028b56:	f7ff ff2f 	bl	80289b8 <SETTINGS_SetSntpDef>
  SETTINGS_SetINOUTSDef();
 8028b5a:	f7ff ff4b 	bl	80289f4 <SETTINGS_SetINOUTSDef>
  SETTINGS_SetRADIUSDef();
 8028b5e:	f7ff ff57 	bl	8028a10 <SETTINGS_SetRADIUSDef>
  //SETTINGS_SetInfoDef();
  
  sSettings.CritSecCRC = SETTINGS_GetCritSecCRC();
 8028b62:	f7ff ffcf 	bl	8028b04 <SETTINGS_GetCritSecCRC>

  sSettings.controlWorld = SETTINGS_CONTROL_WORD;
 8028b66:	4b04      	ldr	r3, [pc, #16]	; (8028b78 <SETTINGS_SetDefaultDebug+0x3c>)
  SETTINGS_SetSntpDef();
  SETTINGS_SetINOUTSDef();
  SETTINGS_SetRADIUSDef();
  //SETTINGS_SetInfoDef();
  
  sSettings.CritSecCRC = SETTINGS_GetCritSecCRC();
 8028b68:	f8c4 011c 	str.w	r0, [r4, #284]	; 0x11c

  sSettings.controlWorld = SETTINGS_CONTROL_WORD;
 8028b6c:	f8c4 33a4 	str.w	r3, [r4, #932]	; 0x3a4
 8028b70:	bd10      	pop	{r4, pc}
 8028b72:	bf00      	nop
 8028b74:	2000cba0 	.word	0x2000cba0
 8028b78:	075bcd15 	.word	0x075bcd15

08028b7c <SETTINGS_SetAllDefault>:

/**
  * @brief  Сбро� в�ех на�троек в значени� по умолчанию
  */
void SETTINGS_SetAllDefault(void)
{
 8028b7c:	b510      	push	{r4, lr}
/**
  * @brief  У�тановить флаги по умолчанию
  */
void SETTINGS_SetFlagsDef(void)
{
  sSettings.sFlags.netsettingsChanged = false;
 8028b7e:	4c0f      	ldr	r4, [pc, #60]	; (8028bbc <SETTINGS_SetAllDefault+0x40>)
/**
  * @brief  Сбро� в�ех на�троек в значени� по умолчанию
  */
void SETTINGS_SetAllDefault(void)
{
  SETTINGS_SetBootParamsDef();
 8028b80:	f7ff fe36 	bl	80287f0 <SETTINGS_SetBootParamsDef>
  SETTINGS_SetWebParamsDef();
 8028b84:	f7ff fe3c 	bl	8028800 <SETTINGS_SetWebParamsDef>
  SETTINGS_SetTempWebParamsDef();
 8028b88:	f7ff fe56 	bl	8028838 <SETTINGS_SetTempWebParamsDef>
  SETTINGS_SetSnmpDef();
 8028b8c:	f7ff fe70 	bl	8028870 <SETTINGS_SetSnmpDef>
  SETTINGS_SetInfoDef();
 8028b90:	f7ff feb6 	bl	8028900 <SETTINGS_SetInfoDef>
/**
  * @brief  У�тановить флаги по умолчанию
  */
void SETTINGS_SetFlagsDef(void)
{
  sSettings.sFlags.netsettingsChanged = false;
 8028b94:	2300      	movs	r3, #0
 8028b96:	f884 3120 	strb.w	r3, [r4, #288]	; 0x120
  SETTINGS_SetWebParamsDef();
  SETTINGS_SetTempWebParamsDef();
  SETTINGS_SetSnmpDef();
  SETTINGS_SetInfoDef();
  SETTINGS_SetFlagsDef();
  SETTINGS_SetServiceDef();
 8028b9a:	f7ff fed3 	bl	8028944 <SETTINGS_SetServiceDef>
  SETTINGS_SetSntpDef();
 8028b9e:	f7ff ff0b 	bl	80289b8 <SETTINGS_SetSntpDef>
  SETTINGS_SetINOUTSDef();
 8028ba2:	f7ff ff27 	bl	80289f4 <SETTINGS_SetINOUTSDef>
  SETTINGS_SetRADIUSDef();
 8028ba6:	f7ff ff33 	bl	8028a10 <SETTINGS_SetRADIUSDef>
  
  sSettings.CritSecCRC = SETTINGS_GetCritSecCRC();
 8028baa:	f7ff ffab 	bl	8028b04 <SETTINGS_GetCritSecCRC>

  sSettings.controlWorld = SETTINGS_CONTROL_WORD;
 8028bae:	4b04      	ldr	r3, [pc, #16]	; (8028bc0 <SETTINGS_SetAllDefault+0x44>)
  SETTINGS_SetServiceDef();
  SETTINGS_SetSntpDef();
  SETTINGS_SetINOUTSDef();
  SETTINGS_SetRADIUSDef();
  
  sSettings.CritSecCRC = SETTINGS_GetCritSecCRC();
 8028bb0:	f8c4 011c 	str.w	r0, [r4, #284]	; 0x11c

  sSettings.controlWorld = SETTINGS_CONTROL_WORD;
 8028bb4:	f8c4 33a4 	str.w	r3, [r4, #932]	; 0x3a4
 8028bb8:	bd10      	pop	{r4, pc}
 8028bba:	bf00      	nop
 8028bbc:	2000cba0 	.word	0x2000cba0
 8028bc0:	075bcd15 	.word	0x075bcd15

08028bc4 <SETTINGS_Load>:

/**
  * @brief  Загрузка �труктуры на�троек из flesh
  */
void SETTINGS_Load(void)
{
 8028bc4:	b510      	push	{r4, lr}
  uint32_t loadCRC;  // CRC из flash
  uint32_t newCRC;   // CRC загруженной �труктуры на�троек

  SETTINGS_ReadFromFlash((uint8_t*)&sSettings, sizeof(sSettings));
 8028bc6:	4809      	ldr	r0, [pc, #36]	; (8028bec <SETTINGS_Load+0x28>)
 8028bc8:	f44f 716a 	mov.w	r1, #936	; 0x3a8
 8028bcc:	f7ff ff42 	bl	8028a54 <SETTINGS_ReadFromFlash>
  /* Считываем CRC из флеш пам�ти */
  loadCRC = (*(uint32_t*)CRC_ADDRESS);
 8028bd0:	4b07      	ldr	r3, [pc, #28]	; (8028bf0 <SETTINGS_Load+0x2c>)
 8028bd2:	681c      	ldr	r4, [r3, #0]

  /* Ра��читываем CRC дл� �труктуры на�троек */
  newCRC = SETTINGS_GetCRC();
 8028bd4:	f7ff ff4e 	bl	8028a74 <SETTINGS_GetCRC>

  if (loadCRC != newCRC) {
 8028bd8:	4284      	cmp	r4, r0
 8028bda:	d005      	beq.n	8028be8 <SETTINGS_Load+0x24>
	   SETTINGS_SetAllDefault();
 8028bdc:	f7ff ffce 	bl	8028b7c <SETTINGS_SetAllDefault>
	   SETTINGS_Save();
   }
}
 8028be0:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  /* Ра��читываем CRC дл� �труктуры на�троек */
  newCRC = SETTINGS_GetCRC();

  if (loadCRC != newCRC) {
	   SETTINGS_SetAllDefault();
	   SETTINGS_Save();
 8028be4:	f7ff bf9a 	b.w	8028b1c <SETTINGS_Save>
 8028be8:	bd10      	pop	{r4, pc}
 8028bea:	bf00      	nop
 8028bec:	2000cba0 	.word	0x2000cba0
 8028bf0:	08005f9c 	.word	0x08005f9c

08028bf4 <SETTINGS_SetPartDefault>:

/**
  * @brief  Сбро� в�ех на�троек в значени� по умолчанию кроме �етевых на�троек
  */
void SETTINGS_SetPartDefault(void)
{
 8028bf4:	b510      	push	{r4, lr}
/**
  * @brief  У�тановить флаги по умолчанию
  */
void SETTINGS_SetFlagsDef(void)
{
  sSettings.sFlags.netsettingsChanged = false;
 8028bf6:	4c0b      	ldr	r4, [pc, #44]	; (8028c24 <SETTINGS_SetPartDefault+0x30>)
/**
  * @brief  Сбро� в�ех на�троек в значени� по умолчанию кроме �етевых на�троек
  */
void SETTINGS_SetPartDefault(void)
{
  SETTINGS_SetBootParamsDef();
 8028bf8:	f7ff fdfa 	bl	80287f0 <SETTINGS_SetBootParamsDef>
  SETTINGS_SetSnmpDef();
 8028bfc:	f7ff fe38 	bl	8028870 <SETTINGS_SetSnmpDef>
/**
  * @brief  У�тановить флаги по умолчанию
  */
void SETTINGS_SetFlagsDef(void)
{
  sSettings.sFlags.netsettingsChanged = false;
 8028c00:	2300      	movs	r3, #0
 8028c02:	f884 3120 	strb.w	r3, [r4, #288]	; 0x120
{
  SETTINGS_SetBootParamsDef();
  SETTINGS_SetSnmpDef();
  SETTINGS_SetFlagsDef();
 // SETTINGS_SetServiceDef();
  SETTINGS_SetSntpDef();
 8028c06:	f7ff fed7 	bl	80289b8 <SETTINGS_SetSntpDef>
  SETTINGS_SetINOUTSDef();
 8028c0a:	f7ff fef3 	bl	80289f4 <SETTINGS_SetINOUTSDef>
  SETTINGS_SetRADIUSDef();
 8028c0e:	f7ff feff 	bl	8028a10 <SETTINGS_SetRADIUSDef>
  
  sSettings.CritSecCRC = SETTINGS_GetCritSecCRC();
 8028c12:	f7ff ff77 	bl	8028b04 <SETTINGS_GetCritSecCRC>

  sSettings.controlWorld = SETTINGS_CONTROL_WORD;
 8028c16:	4b04      	ldr	r3, [pc, #16]	; (8028c28 <SETTINGS_SetPartDefault+0x34>)
 // SETTINGS_SetServiceDef();
  SETTINGS_SetSntpDef();
  SETTINGS_SetINOUTSDef();
  SETTINGS_SetRADIUSDef();
  
  sSettings.CritSecCRC = SETTINGS_GetCritSecCRC();
 8028c18:	f8c4 011c 	str.w	r0, [r4, #284]	; 0x11c

  sSettings.controlWorld = SETTINGS_CONTROL_WORD;
 8028c1c:	f8c4 33a4 	str.w	r3, [r4, #932]	; 0x3a4
 8028c20:	bd10      	pop	{r4, pc}
 8028c22:	bf00      	nop
 8028c24:	2000cba0 	.word	0x2000cba0
 8028c28:	075bcd15 	.word	0x075bcd15

08028c2c <SETTINGS_ResetBootTry>:
/**
  * @brief   Сбро� флага boottry в реги�тре RTC
  */
void SETTINGS_ResetBootTry(void)
{
  uint8_t bootTry = RTC_ReadBackupRegister(RTC_BKP_DR2);
 8028c2c:	2002      	movs	r0, #2

/**
  * @brief   Сбро� флага boottry в реги�тре RTC
  */
void SETTINGS_ResetBootTry(void)
{
 8028c2e:	b508      	push	{r3, lr}
  uint8_t bootTry = RTC_ReadBackupRegister(RTC_BKP_DR2);
 8028c30:	f7fd f8be 	bl	8025db0 <RTC_ReadBackupRegister>

  if (bootTry > 0 )
 8028c34:	f010 0fff 	tst.w	r0, #255	; 0xff
 8028c38:	d014      	beq.n	8028c64 <SETTINGS_ResetBootTry+0x38>
  {
	bootTry = 0;
	RTC_WriteBackupRegister(RTC_BKP_DR2, 0);
 8028c3a:	2002      	movs	r0, #2
 8028c3c:	2100      	movs	r1, #0
 8028c3e:	f7fd f8a7 	bl	8025d90 <RTC_WriteBackupRegister>

	/* Check FW update flag */
	if (RTC_ReadBackupRegister(RTC_BKP_DR3)) {
 8028c42:	2003      	movs	r0, #3
 8028c44:	f7fd f8b4 	bl	8025db0 <RTC_ReadBackupRegister>
 8028c48:	b160      	cbz	r0, 8028c64 <SETTINGS_ResetBootTry+0x38>
		/* Отправка трапа об у�пешном обновлении ПО */
		SNMP_SendUserTrap(FW_VERSION_UPDATED);
 8028c4a:	2002      	movs	r0, #2
 8028c4c:	f00e fc80 	bl	8037550 <SNMP_SendUserTrap>
		log_event_data(LOG_UPDATE_SOFT, "У�пешно");
 8028c50:	2002      	movs	r0, #2
 8028c52:	4905      	ldr	r1, [pc, #20]	; (8028c68 <SETTINGS_ResetBootTry+0x3c>)
 8028c54:	f001 f910 	bl	8029e78 <log_event_data>

		/* Clear FW update flag */
		RTC_WriteBackupRegister(RTC_BKP_DR3, 0);
 8028c58:	2003      	movs	r0, #3
 8028c5a:	2100      	movs	r1, #0
	
	//taskENTER_CRITICAL();
    SETTINGS_Save();
    //taskEXIT_CRITICAL();
  }	*/
}
 8028c5c:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
		/* Отправка трапа об у�пешном обновлении ПО */
		SNMP_SendUserTrap(FW_VERSION_UPDATED);
		log_event_data(LOG_UPDATE_SOFT, "У�пешно");

		/* Clear FW update flag */
		RTC_WriteBackupRegister(RTC_BKP_DR3, 0);
 8028c60:	f7fd b896 	b.w	8025d90 <RTC_WriteBackupRegister>
 8028c64:	bd08      	pop	{r3, pc}
 8028c66:	bf00      	nop
 8028c68:	08038a72 	.word	0x08038a72

08028c6c <SETTINGS_GetMac>:
/**
  * @brief  Преобразует mac адре� �трокового формата в ма��ив uint8_t
  * @param  mac - буфер дл� вывода mac адре�а
  */
void SETTINGS_GetMac(uint8_t *mac)
{
 8028c6c:	b573      	push	{r0, r1, r4, r5, r6, lr}
#if defined ( __ICCARM__ ) 
  macPtr = DEVICE_MAC;
#endif
  for (uint8_t i = 0; i < 6; i++)
  {
    strncpy(dummy, macPtr+i*3, 2);
 8028c6e:	4e0a      	ldr	r6, [pc, #40]	; (8028c98 <SETTINGS_GetMac+0x2c>)

/**
  * @brief  Преобразует mac адре� �трокового формата в ма��ив uint8_t
  * @param  mac - буфер дл� вывода mac адре�а
  */
void SETTINGS_GetMac(uint8_t *mac)
 8028c70:	1e45      	subs	r5, r0, #1
 8028c72:	2400      	movs	r4, #0
#if defined ( __ICCARM__ ) 
  macPtr = DEVICE_MAC;
#endif
  for (uint8_t i = 0; i < 6; i++)
  {
    strncpy(dummy, macPtr+i*3, 2);
 8028c74:	1931      	adds	r1, r6, r4
 8028c76:	318c      	adds	r1, #140	; 0x8c
 8028c78:	2202      	movs	r2, #2
 8028c7a:	a801      	add	r0, sp, #4
 8028c7c:	f7f9 fb20 	bl	80222c0 <strncpy>
	mac[i] = (uint8_t)strtol(dummy, NULL, 16);
 8028c80:	2100      	movs	r1, #0
 8028c82:	2210      	movs	r2, #16
 8028c84:	a801      	add	r0, sp, #4
 8028c86:	f7fa fe51 	bl	802392c <strtol>
 8028c8a:	3403      	adds	r4, #3
  char *macPtr = sSettings.sInfo.mac;	
  
#if defined ( __ICCARM__ ) 
  macPtr = DEVICE_MAC;
#endif
  for (uint8_t i = 0; i < 6; i++)
 8028c8c:	2c12      	cmp	r4, #18
  {
    strncpy(dummy, macPtr+i*3, 2);
	mac[i] = (uint8_t)strtol(dummy, NULL, 16);
 8028c8e:	f805 0f01 	strb.w	r0, [r5, #1]!
  char *macPtr = sSettings.sInfo.mac;	
  
#if defined ( __ICCARM__ ) 
  macPtr = DEVICE_MAC;
#endif
  for (uint8_t i = 0; i < 6; i++)
 8028c92:	d1ef      	bne.n	8028c74 <SETTINGS_GetMac+0x8>
  {
    strncpy(dummy, macPtr+i*3, 2);
	mac[i] = (uint8_t)strtol(dummy, NULL, 16);
  }

}
 8028c94:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}
 8028c96:	bf00      	nop
 8028c98:	2000cba0 	.word	0x2000cba0

08028c9c <SETTINGS_SetProDate>:

/**
  * @brief  У�тановить дату производ�тва
  */
void SETTINGS_SetProDate(char *proDate, uint8_t len)
{
 8028c9c:	b570      	push	{r4, r5, r6, lr}
  memset(sSettings.sInfo.productionData, 0, 40);
 8028c9e:	4c07      	ldr	r4, [pc, #28]	; (8028cbc <SETTINGS_SetProDate+0x20>)

/**
  * @brief  У�тановить дату производ�тва
  */
void SETTINGS_SetProDate(char *proDate, uint8_t len)
{
 8028ca0:	4606      	mov	r6, r0
 8028ca2:	460d      	mov	r5, r1
  memset(sSettings.sInfo.productionData, 0, 40);
 8028ca4:	2228      	movs	r2, #40	; 0x28
 8028ca6:	2100      	movs	r1, #0
 8028ca8:	4620      	mov	r0, r4
 8028caa:	f7f9 f879 	bl	8021da0 <memset>
  memcpy(sSettings.sInfo.productionData, proDate, len); 
 8028cae:	4620      	mov	r0, r4
 8028cb0:	4631      	mov	r1, r6
 8028cb2:	462a      	mov	r2, r5
}
 8028cb4:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  * @brief  У�тановить дату производ�тва
  */
void SETTINGS_SetProDate(char *proDate, uint8_t len)
{
  memset(sSettings.sInfo.productionData, 0, 40);
  memcpy(sSettings.sInfo.productionData, proDate, len); 
 8028cb8:	f7f8 bfb8 	b.w	8021c2c <memcpy>
 8028cbc:	2000cc04 	.word	0x2000cc04

08028cc0 <WDG_Init>:
/**
  * @brief  
  * @retval 
  */
void WDG_Init(void)
{
 8028cc0:	b530      	push	{r4, r5, lr}
//  GPIO_InitTypeDef GPIO_InitStructure;
  NVIC_InitTypeDef          NVIC_InitStructure;
  TIM_TimeBaseInitTypeDef   TIM_TimeBaseStructure;
  
 // RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOE, ENABLE);
  RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM13, ENABLE);
 8028cc2:	2101      	movs	r1, #1
/**
  * @brief  
  * @retval 
  */
void WDG_Init(void)
{
 8028cc4:	b085      	sub	sp, #20
//  GPIO_InitTypeDef GPIO_InitStructure;
  NVIC_InitTypeDef          NVIC_InitStructure;
  TIM_TimeBaseInitTypeDef   TIM_TimeBaseStructure;
  
 // RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOE, ENABLE);
  RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM13, ENABLE);
 8028cc6:	2080      	movs	r0, #128	; 0x80
 8028cc8:	f7fc fea8 	bl	8025a1c <RCC_APB1PeriphClockCmd>
  GPIO_InitStructure.GPIO_Mode = GPIO_Mode_OUT;
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
  GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_NOPULL;
  GPIO_Init(GPIOE, &GPIO_InitStructure);*/
  
  NVIC_InitStructure.NVIC_IRQChannel = TIM8_UP_TIM13_IRQn;
 8028ccc:	232c      	movs	r3, #44	; 0x2c
  NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 0x6;
  NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0x0;
 8028cce:	2400      	movs	r4, #0
  NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
 8028cd0:	2501      	movs	r5, #1
  GPIO_InitStructure.GPIO_Mode = GPIO_Mode_OUT;
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
  GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_NOPULL;
  GPIO_Init(GPIOE, &GPIO_InitStructure);*/
  
  NVIC_InitStructure.NVIC_IRQChannel = TIM8_UP_TIM13_IRQn;
 8028cd2:	f88d 3000 	strb.w	r3, [sp]
  NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 0x6;
  NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0x0;
  NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
  NVIC_Init(&NVIC_InitStructure);
 8028cd6:	4668      	mov	r0, sp
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
  GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_NOPULL;
  GPIO_Init(GPIOE, &GPIO_InitStructure);*/
  
  NVIC_InitStructure.NVIC_IRQChannel = TIM8_UP_TIM13_IRQn;
  NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 0x6;
 8028cd8:	2306      	movs	r3, #6
 8028cda:	f88d 3001 	strb.w	r3, [sp, #1]
  NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0x0;
 8028cde:	f88d 4002 	strb.w	r4, [sp, #2]
  NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
 8028ce2:	f88d 5003 	strb.w	r5, [sp, #3]
  NVIC_Init(&NVIC_InitStructure);
 8028ce6:	f7fc fc2b 	bl	8025540 <NVIC_Init>
__STATIC_INLINE void NVIC_SetPriority(IRQn_Type IRQn, uint32_t priority)
{
  if(IRQn < 0) {
    SCB->SHP[((uint32_t)(IRQn) & 0xF)-4] = ((priority << (8 - __NVIC_PRIO_BITS)) & 0xff); } /* set Priority for Cortex-M  System Interrupts */
  else {
    NVIC->IP[(uint32_t)(IRQn)] = ((priority << (8 - __NVIC_PRIO_BITS)) & 0xff);    }        /* set Priority for device specific Interrupts  */
 8028cea:	4b0f      	ldr	r3, [pc, #60]	; (8028d28 <WDG_Init+0x68>)
 8028cec:	2220      	movs	r2, #32
 8028cee:	f883 232c 	strb.w	r2, [r3, #812]	; 0x32c
  
  /* APB1 Timer clock is 60Mhz, configure timer clock to 10khz (1 update event per 100 us) */
  TIM_TimeBaseStructure.TIM_Prescaler = 6000 - 1;
  /* Configure timer period to 100ms */
  TIM_TimeBaseStructure.TIM_Period = 1000;
  TIM_TimeBaseStructure.TIM_ClockDivision = 0;
 8028cf2:	f8ad 400c 	strh.w	r4, [sp, #12]
  TIM_TimeBaseStructure.TIM_CounterMode	= TIM_CounterMode_Up;
 8028cf6:	f8ad 4006 	strh.w	r4, [sp, #6]
  TIM_TimeBaseInit(TIM13, &TIM_TimeBaseStructure);
 8028cfa:	4c0c      	ldr	r4, [pc, #48]	; (8028d2c <WDG_Init+0x6c>)
  NVIC_Init(&NVIC_InitStructure);

  NVIC_SetPriority(TIM8_UP_TIM13_IRQn, 2);
  
  /* APB1 Timer clock is 60Mhz, configure timer clock to 10khz (1 update event per 100 us) */
  TIM_TimeBaseStructure.TIM_Prescaler = 6000 - 1;
 8028cfc:	f241 736f 	movw	r3, #5999	; 0x176f
 8028d00:	f8ad 3004 	strh.w	r3, [sp, #4]
  /* Configure timer period to 100ms */
  TIM_TimeBaseStructure.TIM_Period = 1000;
  TIM_TimeBaseStructure.TIM_ClockDivision = 0;
  TIM_TimeBaseStructure.TIM_CounterMode	= TIM_CounterMode_Up;
  TIM_TimeBaseInit(TIM13, &TIM_TimeBaseStructure);
 8028d04:	4620      	mov	r0, r4
  NVIC_SetPriority(TIM8_UP_TIM13_IRQn, 2);
  
  /* APB1 Timer clock is 60Mhz, configure timer clock to 10khz (1 update event per 100 us) */
  TIM_TimeBaseStructure.TIM_Prescaler = 6000 - 1;
  /* Configure timer period to 100ms */
  TIM_TimeBaseStructure.TIM_Period = 1000;
 8028d06:	f44f 737a 	mov.w	r3, #1000	; 0x3e8
  TIM_TimeBaseStructure.TIM_ClockDivision = 0;
  TIM_TimeBaseStructure.TIM_CounterMode	= TIM_CounterMode_Up;
  TIM_TimeBaseInit(TIM13, &TIM_TimeBaseStructure);
 8028d0a:	a901      	add	r1, sp, #4
  NVIC_SetPriority(TIM8_UP_TIM13_IRQn, 2);
  
  /* APB1 Timer clock is 60Mhz, configure timer clock to 10khz (1 update event per 100 us) */
  TIM_TimeBaseStructure.TIM_Prescaler = 6000 - 1;
  /* Configure timer period to 100ms */
  TIM_TimeBaseStructure.TIM_Period = 1000;
 8028d0c:	9302      	str	r3, [sp, #8]
  TIM_TimeBaseStructure.TIM_ClockDivision = 0;
  TIM_TimeBaseStructure.TIM_CounterMode	= TIM_CounterMode_Up;
  TIM_TimeBaseInit(TIM13, &TIM_TimeBaseStructure);
 8028d0e:	f7fd f88b 	bl	8025e28 <TIM_TimeBaseInit>
  
  TIM_Cmd(TIM13, ENABLE);
 8028d12:	4620      	mov	r0, r4
 8028d14:	4629      	mov	r1, r5
 8028d16:	f7fd f8c5 	bl	8025ea4 <TIM_Cmd>
  TIM_ITConfig(TIM13, TIM_IT_Update, ENABLE);
 8028d1a:	4620      	mov	r0, r4
 8028d1c:	4629      	mov	r1, r5
 8028d1e:	462a      	mov	r2, r5
 8028d20:	f7fd f8cc 	bl	8025ebc <TIM_ITConfig>

}
 8028d24:	b005      	add	sp, #20
 8028d26:	bd30      	pop	{r4, r5, pc}
 8028d28:	e000e100 	.word	0xe000e100
 8028d2c:	40001c00 	.word	0x40001c00

08028d30 <TIM8_UP_TIM13_IRQHandler>:
/**
  * @brief  Дергаем пином (�бро� внешнего WDT)
  * @retval 
  */
void TIM8_UP_TIM13_IRQHandler(void)
{
 8028d30:	b508      	push	{r3, lr}
  TIM_ClearITPendingBit(TIM13, TIM_IT_Update);
 8028d32:	4804      	ldr	r0, [pc, #16]	; (8028d44 <TIM8_UP_TIM13_IRQHandler+0x14>)
 8028d34:	2101      	movs	r1, #1
 8028d36:	f7fd f8ca 	bl	8025ece <TIM_ClearITPendingBit>
  gpio_invert_output(_WDG);
 8028d3a:	2010      	movs	r0, #16
}
 8028d3c:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  * @retval 
  */
void TIM8_UP_TIM13_IRQHandler(void)
{
  TIM_ClearITPendingBit(TIM13, TIM_IT_Update);
  gpio_invert_output(_WDG);
 8028d40:	f7fd bb2c 	b.w	802639c <gpio_invert_output>
 8028d44:	40001c00 	.word	0x40001c00

08028d48 <LED_On>:
/**
  * @brief  
  */
void LED_On(gpio_t pin)
{
	gpio_set(pin, 1);
 8028d48:	2101      	movs	r1, #1
 8028d4a:	f7fd ba93 	b.w	8026274 <gpio_set>

08028d4e <LED_Off>:
/**
  * @brief  
  */
void LED_Off(gpio_t pin)
{
	gpio_set(pin, 0);
 8028d4e:	2100      	movs	r1, #0
 8028d50:	f7fd ba90 	b.w	8026274 <gpio_set>

08028d54 <LED_Init>:
/**
  * @brief  
  * @retval 
  */
void LED_Init(void)
{
 8028d54:	b508      	push	{r3, lr}
  LED_Off(LED_INIT_R);
 8028d56:	2009      	movs	r0, #9
 8028d58:	f7ff fff9 	bl	8028d4e <LED_Off>
  LED_Off(LED_INIT_G);
 8028d5c:	200a      	movs	r0, #10
 8028d5e:	f7ff fff6 	bl	8028d4e <LED_Off>
  LED_Off(LED_MAJOR_R);
 8028d62:	200b      	movs	r0, #11
 8028d64:	f7ff fff3 	bl	8028d4e <LED_Off>
  LED_Off(LED_MINOR_G);
 8028d68:	200c      	movs	r0, #12
 8028d6a:	f7ff fff0 	bl	8028d4e <LED_Off>
  LED_Off(LED_MINOR_R);
 8028d6e:	200d      	movs	r0, #13
}
 8028d70:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
{
  LED_Off(LED_INIT_R);
  LED_Off(LED_INIT_G);
  LED_Off(LED_MAJOR_R);
  LED_Off(LED_MINOR_G);
  LED_Off(LED_MINOR_R);
 8028d74:	f7ff bfeb 	b.w	8028d4e <LED_Off>

08028d78 <vTaskLedBlink>:

/**
  * @brief  Задача про�той мигалки
  */
void vTaskLedBlink(void *arg)
{
 8028d78:	b570      	push	{r4, r5, r6, lr}
	uint8_t start_status = 0;
	uint8_t start_status_old = 0;
	start_status = (UPS.Status >> 7) & 0x01;
  for (;;) 
  {
	  start_status = (UPS.Status >> 7) & 0x01;
 8028d7a:	4e0e      	ldr	r6, [pc, #56]	; (8028db4 <vTaskLedBlink+0x3c>)
		  	LED_Off(LED_INIT_R);
		  LED_Toggle(LED_INIT_G);
	  }
	  start_status_old = start_status;

    vTaskDelay(statusLedFreq);
 8028d7c:	4d0e      	ldr	r5, [pc, #56]	; (8028db8 <vTaskLedBlink+0x40>)
  * @brief  Задача про�той мигалки
  */
void vTaskLedBlink(void *arg)
{
	uint8_t start_status = 0;
	uint8_t start_status_old = 0;
 8028d7e:	2300      	movs	r3, #0
	start_status = (UPS.Status >> 7) & 0x01;
  for (;;) 
  {
	  start_status = (UPS.Status >> 7) & 0x01;
 8028d80:	7cf4      	ldrb	r4, [r6, #19]
	/* Про�то отражает �о�то�ние контроллера - "живой" */
	  if((UPS.Status >> 7) & 0x01){
 8028d82:	09e4      	lsrs	r4, r4, #7
 8028d84:	d009      	beq.n	8028d9a <vTaskLedBlink+0x22>
		  if(start_status_old != start_status)
 8028d86:	42a3      	cmp	r3, r4
 8028d88:	d002      	beq.n	8028d90 <vTaskLedBlink+0x18>
			  LED_Off(LED_INIT_G);
 8028d8a:	200a      	movs	r0, #10
 8028d8c:	f7ff ffdf 	bl	8028d4e <LED_Off>
/**
  * @brief  Изменить �о�то�ние LED 
  */
void LED_Toggle(gpio_t pin)
{
	gpio_invert_output(pin);
 8028d90:	200a      	movs	r0, #10
 8028d92:	f7fd fb03 	bl	802639c <gpio_invert_output>
 8028d96:	2009      	movs	r0, #9
 8028d98:	e005      	b.n	8028da6 <vTaskLedBlink+0x2e>
			  LED_Off(LED_INIT_G);
		  LED_Toggle(LED_INIT_G);
		  LED_Toggle(LED_INIT_R);
	  }
	  else{
		  if(start_status_old != start_status)
 8028d9a:	42a3      	cmp	r3, r4
 8028d9c:	d002      	beq.n	8028da4 <vTaskLedBlink+0x2c>
		  	LED_Off(LED_INIT_R);
 8028d9e:	2009      	movs	r0, #9
 8028da0:	f7ff ffd5 	bl	8028d4e <LED_Off>
/**
  * @brief  Изменить �о�то�ние LED 
  */
void LED_Toggle(gpio_t pin)
{
	gpio_invert_output(pin);
 8028da4:	200a      	movs	r0, #10
 8028da6:	f7fd faf9 	bl	802639c <gpio_invert_output>
		  	LED_Off(LED_INIT_R);
		  LED_Toggle(LED_INIT_G);
	  }
	  start_status_old = start_status;

    vTaskDelay(statusLedFreq);
 8028daa:	8828      	ldrh	r0, [r5, #0]
 8028dac:	f002 fada 	bl	802b364 <vTaskDelay>
	uint8_t start_status = 0;
	uint8_t start_status_old = 0;
	start_status = (UPS.Status >> 7) & 0x01;
  for (;;) 
  {
	  start_status = (UPS.Status >> 7) & 0x01;
 8028db0:	4623      	mov	r3, r4
		  LED_Toggle(LED_INIT_G);
	  }
	  start_status_old = start_status;

    vTaskDelay(statusLedFreq);
  }
 8028db2:	e7e5      	b.n	8028d80 <vTaskLedBlink+0x8>
 8028db4:	2000cf64 	.word	0x2000cf64
 8028db8:	20000660 	.word	0x20000660

08028dbc <LED_Toggle>:
/**
  * @brief  Изменить �о�то�ние LED 
  */
void LED_Toggle(gpio_t pin)
{
	gpio_invert_output(pin);
 8028dbc:	f7fd baee 	b.w	802639c <gpio_invert_output>

08028dc0 <LED_SetStatusLedFreq>:
/**
  * @brief  
  */
void LED_SetStatusLedFreq(uint16_t freq)
{
  statusLedFreq = freq;
 8028dc0:	4b01      	ldr	r3, [pc, #4]	; (8028dc8 <LED_SetStatusLedFreq+0x8>)
 8028dc2:	8018      	strh	r0, [r3, #0]
 8028dc4:	4770      	bx	lr
 8028dc6:	bf00      	nop
 8028dc8:	20000660 	.word	0x20000660

08028dcc <BUTTON_VoidHandler>:

/**
  * @brief  Заглушка
  */
void BUTTON_VoidHandler(void)
{
 8028dcc:	4770      	bx	lr
 8028dce:	0000      	movs	r0, r0

08028dd0 <BUTTON_DEF_DownHandler>:

/**
  * @brief  Хендлер кнопки DEFAULT. Сбро� в�ех на�троек, �охранение и перезагрузка
  */
void BUTTON_DEF_DownHandler(void)
{
 8028dd0:	b508      	push	{r3, lr}
  //taskENTER_CRITICAL();
  SNMP_SendUserTrap(DEVICE_RESTORED);
 8028dd2:	2003      	movs	r0, #3
 8028dd4:	f00e fbbc 	bl	8037550 <SNMP_SendUserTrap>
  log_event_data(LOG_SYSTEM_DEFCONFIG, "�дмини�тратор");
 8028dd8:	4909      	ldr	r1, [pc, #36]	; (8028e00 <BUTTON_DEF_DownHandler+0x30>)
 8028dda:	2001      	movs	r0, #1
 8028ddc:	f001 f84c 	bl	8029e78 <log_event_data>
  vTaskDelay(500);
 8028de0:	f44f 70fa 	mov.w	r0, #500	; 0x1f4
 8028de4:	f002 fabe 	bl	802b364 <vTaskDelay>
  SETTINGS_SetDefaultDebug();
 8028de8:	f7ff fea8 	bl	8028b3c <SETTINGS_SetDefaultDebug>
  SETTINGS_Save();
 8028dec:	f7ff fe96 	bl	8028b1c <SETTINGS_Save>

  vTaskDelay(1010);
 8028df0:	f240 30f2 	movw	r0, #1010	; 0x3f2
 8028df4:	f002 fab6 	bl	802b364 <vTaskDelay>
  Reboot();
  
  //taskEXIT_CRITICAL();
}
 8028df8:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  vTaskDelay(500);
  SETTINGS_SetDefaultDebug();
  SETTINGS_Save();

  vTaskDelay(1010);
  Reboot();
 8028dfc:	f000 bb4c 	b.w	8029498 <Reboot>
 8028e00:	08038a86 	.word	0x08038a86

08028e04 <BUTTON_GetState>:
/**
  * @brief   Возвращает �ото�ние ключа
  */
BUTTON_STATE_t BUTTON_GetState(BUTTON_NO_FIX_t *button)
{
  return (BUTTON_STATE_t)gpio_get(button->id_pin);
 8028e04:	7800      	ldrb	r0, [r0, #0]
 8028e06:	f7fd bad9 	b.w	80263bc <gpio_get>
 8028e0a:	0000      	movs	r0, r0

08028e0c <BUTTON_Init>:
/**
  * @brief  
  * @retval 
  */
void BUTTON_Init(void) 
{
 8028e0c:	b510      	push	{r4, lr}
  defButton.id_pin			  = KEY_DEF;
 8028e0e:	4c09      	ldr	r4, [pc, #36]	; (8028e34 <BUTTON_Init+0x28>)
 8028e10:	230f      	movs	r3, #15
 8028e12:	7023      	strb	r3, [r4, #0]
  defButton.timeDelay         = 5;
 8028e14:	2305      	movs	r3, #5
 8028e16:	8063      	strh	r3, [r4, #2]
  defButton.pressHandler      = BUTTON_VoidHandler;
 8028e18:	4b07      	ldr	r3, [pc, #28]	; (8028e38 <BUTTON_Init+0x2c>)
 8028e1a:	60a3      	str	r3, [r4, #8]
  defButton.unpressHandler    = BUTTON_DEF_DownHandler;
 8028e1c:	4b07      	ldr	r3, [pc, #28]	; (8028e3c <BUTTON_Init+0x30>)
  defButton.counterActivation = 0;
  defButton.timeActivation    = 40;
 8028e1e:	2228      	movs	r2, #40	; 0x28
void BUTTON_Init(void) 
{
  defButton.id_pin			  = KEY_DEF;
  defButton.timeDelay         = 5;
  defButton.pressHandler      = BUTTON_VoidHandler;
  defButton.unpressHandler    = BUTTON_DEF_DownHandler;
 8028e20:	60e3      	str	r3, [r4, #12]
  defButton.counterActivation = 0;
  defButton.timeActivation    = 40;
  defButton.fActivation       = false;
    
  defButton.stateOld     = BUTTON_GetState(&defButton);
 8028e22:	4620      	mov	r0, r4
{
  defButton.id_pin			  = KEY_DEF;
  defButton.timeDelay         = 5;
  defButton.pressHandler      = BUTTON_VoidHandler;
  defButton.unpressHandler    = BUTTON_DEF_DownHandler;
  defButton.counterActivation = 0;
 8028e24:	2300      	movs	r3, #0
 8028e26:	6163      	str	r3, [r4, #20]
  defButton.timeActivation    = 40;
 8028e28:	8322      	strh	r2, [r4, #24]
  defButton.fActivation       = false;
 8028e2a:	76a3      	strb	r3, [r4, #26]
    
  defButton.stateOld     = BUTTON_GetState(&defButton);
 8028e2c:	f7ff ffea 	bl	8028e04 <BUTTON_GetState>
 8028e30:	71a0      	strb	r0, [r4, #6]
 8028e32:	bd10      	pop	{r4, pc}
 8028e34:	2000cf48 	.word	0x2000cf48
 8028e38:	08028dcd 	.word	0x08028dcd
 8028e3c:	08028dd1 	.word	0x08028dd1

08028e40 <BUTTON_DellayHandler>:
            врем� нажати�.
  * @param *button: указатель на �труктуру типа BUTTON_NO_FIX
  * @retval нет
  */
void BUTTON_DellayHandler(BUTTON_NO_FIX_t *button)
{
 8028e40:	b510      	push	{r4, lr}
 8028e42:	4604      	mov	r4, r0
  /* Кнопка нажата. Ведем от�чет времени удержани� */
  if (gpio_get(button->id_pin) == 0)  // определ�ем текущее (новое) �о�то�ние кнопки
 8028e44:	7800      	ldrb	r0, [r0, #0]
 8028e46:	f7fd fab9 	bl	80263bc <gpio_get>
 8028e4a:	6963      	ldr	r3, [r4, #20]
 8028e4c:	b950      	cbnz	r0, 8028e64 <BUTTON_DellayHandler+0x24>
  {  
	button->counterActivation++;
	button->fActivation = false;
	
	/* Кнопка нажата более необходимого времени - начинаем чаще мигать диодом */
	if (button->counterActivation > button->timeActivation)
 8028e4e:	8b22      	ldrh	r2, [r4, #24]
{
  /* Кнопка нажата. Ведем от�чет времени удержани� */
  if (gpio_get(button->id_pin) == 0)  // определ�ем текущее (новое) �о�то�ние кнопки
  {  
	button->counterActivation++;
	button->fActivation = false;
 8028e50:	76a0      	strb	r0, [r4, #26]
void BUTTON_DellayHandler(BUTTON_NO_FIX_t *button)
{
  /* Кнопка нажата. Ведем от�чет времени удержани� */
  if (gpio_get(button->id_pin) == 0)  // определ�ем текущее (новое) �о�то�ние кнопки
  {  
	button->counterActivation++;
 8028e52:	3301      	adds	r3, #1
	button->fActivation = false;
	
	/* Кнопка нажата более необходимого времени - начинаем чаще мигать диодом */
	if (button->counterActivation > button->timeActivation)
 8028e54:	4293      	cmp	r3, r2
void BUTTON_DellayHandler(BUTTON_NO_FIX_t *button)
{
  /* Кнопка нажата. Ведем от�чет времени удержани� */
  if (gpio_get(button->id_pin) == 0)  // определ�ем текущее (новое) �о�то�ние кнопки
  {  
	button->counterActivation++;
 8028e56:	6163      	str	r3, [r4, #20]
	button->fActivation = false;
	
	/* Кнопка нажата более необходимого времени - начинаем чаще мигать диодом */
	if (button->counterActivation > button->timeActivation)
 8028e58:	d914      	bls.n	8028e84 <BUTTON_DellayHandler+0x44>
	  LED_SetStatusLedFreq(100);
 8028e5a:	2064      	movs	r0, #100	; 0x64
	}  
	else
	  button->counterActivation = 0;
  }		

}
 8028e5c:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
	button->counterActivation++;
	button->fActivation = false;
	
	/* Кнопка нажата более необходимого времени - начинаем чаще мигать диодом */
	if (button->counterActivation > button->timeActivation)
	  LED_SetStatusLedFreq(100);
 8028e60:	f7ff bfae 	b.w	8028dc0 <LED_SetStatusLedFreq>
  }
  /* Кнопку отжата. Е�ли до �того она была нажата нужное врем� - вызываем хендлер */
  else
  {
	if ((button->counterActivation > button->timeActivation) 
 8028e64:	8b22      	ldrh	r2, [r4, #24]
 8028e66:	4293      	cmp	r3, r2
 8028e68:	d90a      	bls.n	8028e80 <BUTTON_DellayHandler+0x40>
	     && button->fActivation == false)
 8028e6a:	7ea3      	ldrb	r3, [r4, #26]
 8028e6c:	b943      	cbnz	r3, 8028e80 <BUTTON_DellayHandler+0x40>
	{  
	  button->fActivation = true;
 8028e6e:	2301      	movs	r3, #1
 8028e70:	76a3      	strb	r3, [r4, #26]
	  LED_SetStatusLedFreq(1000);
 8028e72:	f44f 707a 	mov.w	r0, #1000	; 0x3e8
 8028e76:	f7ff ffa3 	bl	8028dc0 <LED_SetStatusLedFreq>
	  button->unpressHandler();
 8028e7a:	68e3      	ldr	r3, [r4, #12]
 8028e7c:	4798      	blx	r3
 8028e7e:	bd10      	pop	{r4, pc}
	}  
	else
	  button->counterActivation = 0;
 8028e80:	2300      	movs	r3, #0
 8028e82:	6163      	str	r3, [r4, #20]
 8028e84:	bd10      	pop	{r4, pc}
 8028e86:	0000      	movs	r0, r0

08028e88 <vTaskButtons>:

/**
  * @brief  Опро� кнопок
  */
void vTaskButtons(void *pvParameters) 
{
 8028e88:	b508      	push	{r3, lr}
  for (;;) 
  {
	BUTTON_DellayHandler(&defButton);
 8028e8a:	4803      	ldr	r0, [pc, #12]	; (8028e98 <vTaskButtons+0x10>)
 8028e8c:	f7ff ffd8 	bl	8028e40 <BUTTON_DellayHandler>
	
    vTaskDelay(100);  //20
 8028e90:	2064      	movs	r0, #100	; 0x64
 8028e92:	f002 fa67 	bl	802b364 <vTaskDelay>
 8028e96:	e7f8      	b.n	8028e8a <vTaskButtons+0x2>
 8028e98:	2000cf48 	.word	0x2000cf48

08028e9c <set_mode_jumper>:
#include <stdbool.h>
#include "gpio.h"

bool set_mode_jumper(void)
{
	return gpio_get(MODE_JUMPER);
 8028e9c:	200e      	movs	r0, #14
 8028e9e:	f7fd ba8d 	b.w	80263bc <gpio_get>

08028ea2 <get_state_din_outs>:
/* data actuality mutexes */
static SemaphoreHandle_t outputs_mutex, inputs_mutex;

uint8_t get_state_din_outs(gpio_t pin) {
	uint8_t res = 0;
	res = gpio_get(pin);
 8028ea2:	f7fd ba8b 	b.w	80263bc <gpio_get>

08028ea6 <set_state_douts>:
	return res;
}

void set_state_douts(gpio_t pin, uint8_t value)
{
	gpio_set(pin, value);
 8028ea6:	3100      	adds	r1, #0
 8028ea8:	bf18      	it	ne
 8028eaa:	2101      	movne	r1, #1
 8028eac:	f7fd b9e2 	b.w	8026274 <gpio_set>

08028eb0 <init_UPS_value>:

extern bool flUpdateLog;


void init_UPS_value(void)
{
 8028eb0:	b538      	push	{r3, r4, r5, lr}
	UPS.Freq_in = 0;
 8028eb2:	4c10      	ldr	r4, [pc, #64]	; (8028ef4 <init_UPS_value+0x44>)
	UPS.VAC_in = 0;
	UPS.VAC_out = 0;
	UPS.Temp = 0;
	UPS.Load = 0;
 8028eb4:	2500      	movs	r5, #0
extern bool flUpdateLog;


void init_UPS_value(void)
{
	UPS.Freq_in = 0;
 8028eb6:	2300      	movs	r3, #0
	UPS.Alarm = 0;
	UPS.cnt_err_ups = 0;
	UPS.Flag_Present = false;
	UPS.Present = false;

	memset(UPS.model, 0, 11);
 8028eb8:	4629      	mov	r1, r5
 8028eba:	220b      	movs	r2, #11
 8028ebc:	f104 0015 	add.w	r0, r4, #21
extern bool flUpdateLog;


void init_UPS_value(void)
{
	UPS.Freq_in = 0;
 8028ec0:	6023      	str	r3, [r4, #0]
	UPS.VAC_in = 0;
 8028ec2:	6063      	str	r3, [r4, #4]
	UPS.VAC_out = 0;
 8028ec4:	60a3      	str	r3, [r4, #8]
	UPS.Temp = 0;
 8028ec6:	60e3      	str	r3, [r4, #12]
	UPS.Load = 0;
 8028ec8:	7425      	strb	r5, [r4, #16]
	UPS.SOC = 0;
 8028eca:	7465      	strb	r5, [r4, #17]
	UPS.work_time = 0;
 8028ecc:	74a5      	strb	r5, [r4, #18]
	UPS.Status = 0;
 8028ece:	74e5      	strb	r5, [r4, #19]
	UPS.Alarm = 0;
 8028ed0:	7525      	strb	r5, [r4, #20]
	UPS.cnt_err_ups = 0;
 8028ed2:	f884 502b 	strb.w	r5, [r4, #43]	; 0x2b
	UPS.Flag_Present = false;
 8028ed6:	f884 502d 	strb.w	r5, [r4, #45]	; 0x2d
	UPS.Present = false;
 8028eda:	f884 502c 	strb.w	r5, [r4, #44]	; 0x2c

	memset(UPS.model, 0, 11);
 8028ede:	f7f8 ff5f 	bl	8021da0 <memset>
	memset(UPS.vertion, 0, 11);
 8028ee2:	f104 0020 	add.w	r0, r4, #32
 8028ee6:	4629      	mov	r1, r5
 8028ee8:	220b      	movs	r2, #11
}
 8028eea:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
	UPS.cnt_err_ups = 0;
	UPS.Flag_Present = false;
	UPS.Present = false;

	memset(UPS.model, 0, 11);
	memset(UPS.vertion, 0, 11);
 8028eee:	f7f8 bf57 	b.w	8021da0 <memset>
 8028ef2:	bf00      	nop
 8028ef4:	2000cf64 	.word	0x2000cf64

08028ef8 <send_MegaTec_cmd>:
}

void send_MegaTec_cmd(cmdMegaTecEnums_t command)
{
 8028ef8:	b530      	push	{r4, r5, lr}
	if(command == ups_test_time){
 8028efa:	2803      	cmp	r0, #3
	memset(UPS.model, 0, 11);
	memset(UPS.vertion, 0, 11);
}

void send_MegaTec_cmd(cmdMegaTecEnums_t command)
{
 8028efc:	b087      	sub	sp, #28
 8028efe:	4d36      	ldr	r5, [pc, #216]	; (8028fd8 <send_MegaTec_cmd+0xe0>)
	if(command == ups_test_time){
 8028f00:	d10c      	bne.n	8028f1c <send_MegaTec_cmd+0x24>
		uint8_t req[10];

		memset(req, 0, 10);
 8028f02:	2100      	movs	r1, #0
 8028f04:	220a      	movs	r2, #10
 8028f06:	a803      	add	r0, sp, #12
 8028f08:	f7f8 ff4a 	bl	8021da0 <memset>
		sprintf(req, "%s%d\r", MegaTecCMD[command], TimeParam);
 8028f0c:	4b33      	ldr	r3, [pc, #204]	; (8028fdc <send_MegaTec_cmd+0xe4>)
 8028f0e:	4934      	ldr	r1, [pc, #208]	; (8028fe0 <send_MegaTec_cmd+0xe8>)
 8028f10:	68ea      	ldr	r2, [r5, #12]
 8028f12:	881b      	ldrh	r3, [r3, #0]
 8028f14:	a803      	add	r0, sp, #12
 8028f16:	f7fe fe03 	bl	8027b20 <tfp_sprintf>
 8028f1a:	e037      	b.n	8028f8c <send_MegaTec_cmd+0x94>
		ups_send_block(req, strlen(req));
	}
	else if(command == ups_shutdown){
 8028f1c:	2805      	cmp	r0, #5
 8028f1e:	d13b      	bne.n	8028f98 <send_MegaTec_cmd+0xa0>
		uint8_t req[10];

		memset(req, 0, 10);
 8028f20:	2100      	movs	r1, #0
 8028f22:	a803      	add	r0, sp, #12
 8028f24:	220a      	movs	r2, #10
 8028f26:	f7f8 ff3b 	bl	8021da0 <memset>
		if(TimeParamFloat >= 1 && TimeParamFloat < 10)
 8028f2a:	4b2e      	ldr	r3, [pc, #184]	; (8028fe4 <send_MegaTec_cmd+0xec>)
 8028f2c:	681c      	ldr	r4, [r3, #0]
 8028f2e:	f04f 517e 	mov.w	r1, #1065353216	; 0x3f800000
 8028f32:	4620      	mov	r0, r4
 8028f34:	f7f8 f936 	bl	80211a4 <__aeabi_fcmpge>
 8028f38:	b160      	cbz	r0, 8028f54 <send_MegaTec_cmd+0x5c>
 8028f3a:	4620      	mov	r0, r4
 8028f3c:	492a      	ldr	r1, [pc, #168]	; (8028fe8 <send_MegaTec_cmd+0xf0>)
 8028f3e:	f7f8 f91d 	bl	802117c <__aeabi_fcmplt>
 8028f42:	b138      	cbz	r0, 8028f54 <send_MegaTec_cmd+0x5c>
		{
			sprintf(req, "%s0%f\r", MegaTecCMD[command], TimeParamFloat);
 8028f44:	4620      	mov	r0, r4
 8028f46:	f7f7 fae7 	bl	8020518 <__aeabi_f2d>
 8028f4a:	e9cd 0100 	strd	r0, r1, [sp]
 8028f4e:	a803      	add	r0, sp, #12
 8028f50:	4926      	ldr	r1, [pc, #152]	; (8028fec <send_MegaTec_cmd+0xf4>)
 8028f52:	e018      	b.n	8028f86 <send_MegaTec_cmd+0x8e>
		}
		else if(TimeParamFloat < 1){
 8028f54:	4620      	mov	r0, r4
 8028f56:	f04f 517e 	mov.w	r1, #1065353216	; 0x3f800000
 8028f5a:	f7f8 f90f 	bl	802117c <__aeabi_fcmplt>
 8028f5e:	4d1e      	ldr	r5, [pc, #120]	; (8028fd8 <send_MegaTec_cmd+0xe0>)
 8028f60:	b150      	cbz	r0, 8028f78 <send_MegaTec_cmd+0x80>
			sprintf(req, "%s.%f\r", MegaTecCMD[command], 10*TimeParamFloat);
 8028f62:	4921      	ldr	r1, [pc, #132]	; (8028fe8 <send_MegaTec_cmd+0xf0>)
 8028f64:	4620      	mov	r0, r4
 8028f66:	f7f7 ff6b 	bl	8020e40 <__aeabi_fmul>
 8028f6a:	f7f7 fad5 	bl	8020518 <__aeabi_f2d>
 8028f6e:	e9cd 0100 	strd	r0, r1, [sp]
 8028f72:	a803      	add	r0, sp, #12
 8028f74:	491e      	ldr	r1, [pc, #120]	; (8028ff0 <send_MegaTec_cmd+0xf8>)
 8028f76:	e006      	b.n	8028f86 <send_MegaTec_cmd+0x8e>
		}
		else{
			sprintf(req, "%s%f\r", MegaTecCMD[command], TimeParamFloat);
 8028f78:	4620      	mov	r0, r4
 8028f7a:	f7f7 facd 	bl	8020518 <__aeabi_f2d>
 8028f7e:	e9cd 0100 	strd	r0, r1, [sp]
 8028f82:	491c      	ldr	r1, [pc, #112]	; (8028ff4 <send_MegaTec_cmd+0xfc>)
 8028f84:	a803      	add	r0, sp, #12
 8028f86:	696a      	ldr	r2, [r5, #20]
 8028f88:	f7fe fdca 	bl	8027b20 <tfp_sprintf>
		}
		ups_send_block(req, strlen(req));
 8028f8c:	a803      	add	r0, sp, #12
 8028f8e:	f7f9 f8df 	bl	8022150 <strlen>
 8028f92:	b2c1      	uxtb	r1, r0
 8028f94:	a803      	add	r0, sp, #12
 8028f96:	e01a      	b.n	8028fce <send_MegaTec_cmd+0xd6>
	}
	else if(command == ups_shutdown_restore){
 8028f98:	2806      	cmp	r0, #6
 8028f9a:	d111      	bne.n	8028fc0 <send_MegaTec_cmd+0xc8>
		uint8_t req[10];

		memset(req, 0, 10);
 8028f9c:	2100      	movs	r1, #0
 8028f9e:	220a      	movs	r2, #10
 8028fa0:	a803      	add	r0, sp, #12
 8028fa2:	f7f8 fefd 	bl	8021da0 <memset>
		sprintf(req, "%s.%d%s%d\r", MegaTecCMD[command-1], TimeParam, MegaTecCMD[command], TimeParam2);
 8028fa6:	69aa      	ldr	r2, [r5, #24]
 8028fa8:	4b0c      	ldr	r3, [pc, #48]	; (8028fdc <send_MegaTec_cmd+0xe4>)
 8028faa:	4913      	ldr	r1, [pc, #76]	; (8028ff8 <send_MegaTec_cmd+0x100>)
 8028fac:	881b      	ldrh	r3, [r3, #0]
 8028fae:	9200      	str	r2, [sp, #0]
 8028fb0:	4a12      	ldr	r2, [pc, #72]	; (8028ffc <send_MegaTec_cmd+0x104>)
 8028fb2:	8812      	ldrh	r2, [r2, #0]
 8028fb4:	a803      	add	r0, sp, #12
 8028fb6:	9201      	str	r2, [sp, #4]
 8028fb8:	696a      	ldr	r2, [r5, #20]
 8028fba:	f7fe fdb1 	bl	8027b20 <tfp_sprintf>
 8028fbe:	e7e5      	b.n	8028f8c <send_MegaTec_cmd+0x94>
		ups_send_block(req, strlen(req));
	}
	else{
        // TODO Ñîãëàñîâàòü èçìåíåíèÿ
		//ups_send_block(MegaTecCMD[command], strlen(MegaTecCMD[command]));
        ups_send_block((void*)MegaTecCMD[command], strlen(MegaTecCMD[command]));
 8028fc0:	f855 4020 	ldr.w	r4, [r5, r0, lsl #2]
 8028fc4:	4620      	mov	r0, r4
 8028fc6:	f7f9 f8c3 	bl	8022150 <strlen>
 8028fca:	b2c1      	uxtb	r1, r0
 8028fcc:	4620      	mov	r0, r4
 8028fce:	f7fd ffff 	bl	8026fd0 <ups_send_block>
	}
}
 8028fd2:	b007      	add	sp, #28
 8028fd4:	bd30      	pop	{r4, r5, pc}
 8028fd6:	bf00      	nop
 8028fd8:	20000664 	.word	0x20000664
 8028fdc:	20000b54 	.word	0x20000b54
 8028fe0:	08038aba 	.word	0x08038aba
 8028fe4:	20000b50 	.word	0x20000b50
 8028fe8:	41200000 	.word	0x41200000
 8028fec:	08038aa1 	.word	0x08038aa1
 8028ff0:	08038aa8 	.word	0x08038aa8
 8028ff4:	08038aaf 	.word	0x08038aaf
 8028ff8:	08038ab5 	.word	0x08038ab5
 8028ffc:	20000b1a 	.word	0x20000b1a

08029000 <ups_megatec_rx_pdu>:

bool ups_megatec_rx_pdu(void)
{
 8029000:	b510      	push	{r4, lr}
	int c = 0;

	ups_pdu.len = 0;
 8029002:	4c0e      	ldr	r4, [pc, #56]	; (802903c <ups_megatec_rx_pdu+0x3c>)
 8029004:	2000      	movs	r0, #0
 8029006:	8660      	strh	r0, [r4, #50]	; 0x32

	while ((ups_pdu.len < UPS_PDU_MAX_LEN) && (c != 0x0d)) {
 8029008:	e00d      	b.n	8029026 <ups_megatec_rx_pdu+0x26>
		c = ups_getchar(500);//portMAX_DELAY
 802900a:	f44f 70fa 	mov.w	r0, #500	; 0x1f4
 802900e:	f7fe f803 	bl	8027018 <ups_getchar>
		if(c < 0)
 8029012:	2800      	cmp	r0, #0
 8029014:	da03      	bge.n	802901e <ups_megatec_rx_pdu+0x1e>
		{
			ups_pdu.len = 0;
 8029016:	4b09      	ldr	r3, [pc, #36]	; (802903c <ups_megatec_rx_pdu+0x3c>)
 8029018:	2200      	movs	r2, #0
 802901a:	865a      	strh	r2, [r3, #50]	; 0x32
			break;
 802901c:	e008      	b.n	8029030 <ups_megatec_rx_pdu+0x30>
		}
		ups_pdu.data[ups_pdu.len++] = c;
 802901e:	8e63      	ldrh	r3, [r4, #50]	; 0x32
 8029020:	54e0      	strb	r0, [r4, r3]
 8029022:	3301      	adds	r3, #1
 8029024:	8663      	strh	r3, [r4, #50]	; 0x32
{
	int c = 0;

	ups_pdu.len = 0;

	while ((ups_pdu.len < UPS_PDU_MAX_LEN) && (c != 0x0d)) {
 8029026:	8e63      	ldrh	r3, [r4, #50]	; 0x32
 8029028:	2b31      	cmp	r3, #49	; 0x31
 802902a:	d801      	bhi.n	8029030 <ups_megatec_rx_pdu+0x30>
 802902c:	280d      	cmp	r0, #13
 802902e:	d1ec      	bne.n	802900a <ups_megatec_rx_pdu+0xa>
			break;
		}
		ups_pdu.data[ups_pdu.len++] = c;
	}

	if (ups_pdu.len == 0)
 8029030:	4b02      	ldr	r3, [pc, #8]	; (802903c <ups_megatec_rx_pdu+0x3c>)
 8029032:	8e58      	ldrh	r0, [r3, #50]	; 0x32
		return false;

	return true;
}
 8029034:	3000      	adds	r0, #0
 8029036:	bf18      	it	ne
 8029038:	2001      	movne	r0, #1
 802903a:	bd10      	pop	{r4, pc}
 802903c:	20000b1c 	.word	0x20000b1c

08029040 <ups_status_response>:

void ups_status_response(char *data)
{
 8029040:	e92d 41ff 	stmdb	sp!, {r0, r1, r2, r3, r4, r5, r6, r7, r8, lr}
	uint8_t i;
	char *endValue;
	char value[10];
	uint8_t len = 0;
	if(data[0] != '(')
 8029044:	7803      	ldrb	r3, [r0, #0]
 8029046:	2b28      	cmp	r3, #40	; 0x28

	return true;
}

void ups_status_response(char *data)
{
 8029048:	4604      	mov	r4, r0
	uint8_t i;
	char *endValue;
	char value[10];
	uint8_t len = 0;
	if(data[0] != '(')
 802904a:	f040 80e4 	bne.w	8029216 <ups_status_response+0x1d6>
		return;

	UPS.Present = true;
 802904e:	4b78      	ldr	r3, [pc, #480]	; (8029230 <ups_status_response+0x1f0>)
 8029050:	2201      	movs	r2, #1
 8029052:	f883 202c 	strb.w	r2, [r3, #44]	; 0x2c
	UPS.Flag_Present = true;
 8029056:	f883 202d 	strb.w	r2, [r3, #45]	; 0x2d
	UPS.cnt_err_ups = 0;
 802905a:	2200      	movs	r2, #0
 802905c:	f883 202b 	strb.w	r2, [r3, #43]	; 0x2b

	if(flUpdateLog){
 8029060:	4b74      	ldr	r3, [pc, #464]	; (8029234 <ups_status_response+0x1f4>)
 8029062:	7819      	ldrb	r1, [r3, #0]
 8029064:	b111      	cbz	r1, 802906c <ups_status_response+0x2c>
		flUpdateLog = false;
 8029066:	701a      	strb	r2, [r3, #0]
		log_add(data);
 8029068:	f000 ff16 	bl	8029e98 <log_add>
	}

	data++;
 802906c:	3401      	adds	r4, #1

	memset(value, 0, 10);
 802906e:	220a      	movs	r2, #10
 8029070:	2100      	movs	r1, #0
 8029072:	a801      	add	r0, sp, #4
 8029074:	f7f8 fe94 	bl	8021da0 <memset>
	endValue = strpbrk(data," ");
 8029078:	4620      	mov	r0, r4
 802907a:	496f      	ldr	r1, [pc, #444]	; (8029238 <ups_status_response+0x1f8>)
 802907c:	f7f9 f952 	bl	8022324 <strpbrk>
	len = endValue - data;
 8029080:	1b00      	subs	r0, r0, r4
void ups_megatec_init(void) {
	init_UPS_value();
	UPS.Present = true;
	xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);

}
 8029082:	b2c6      	uxtb	r6, r0
	data++;

	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
 8029084:	4632      	mov	r2, r6
 8029086:	4621      	mov	r1, r4
 8029088:	a801      	add	r0, sp, #4
 802908a:	f7f9 f919 	bl	80222c0 <strncpy>
	data += (len + 1);
	UPS.VAC_in = atof(value);
 802908e:	a801      	add	r0, sp, #4
 8029090:	f7f8 fd62 	bl	8021b58 <atof>
 8029094:	f7f7 fd76 	bl	8020b84 <__aeabi_d2f>

	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
	data += (len + 1);
 8029098:	3601      	adds	r6, #1
 802909a:	19a6      	adds	r6, r4, r6
	UPS.VAC_in = atof(value);
 802909c:	4c64      	ldr	r4, [pc, #400]	; (8029230 <ups_status_response+0x1f0>)

	//TODO
	memset(value, 0, 10);
 802909e:	220a      	movs	r2, #10
	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
	data += (len + 1);
	UPS.VAC_in = atof(value);
 80290a0:	6060      	str	r0, [r4, #4]

	//TODO
	memset(value, 0, 10);
 80290a2:	2100      	movs	r1, #0
 80290a4:	a801      	add	r0, sp, #4
 80290a6:	f7f8 fe7b 	bl	8021da0 <memset>
	endValue = strpbrk(data," ");
 80290aa:	4630      	mov	r0, r6
 80290ac:	4962      	ldr	r1, [pc, #392]	; (8029238 <ups_status_response+0x1f8>)
 80290ae:	f7f9 f939 	bl	8022324 <strpbrk>
	len = endValue - data;
 80290b2:	1b80      	subs	r0, r0, r6
void ups_megatec_init(void) {
	init_UPS_value();
	UPS.Present = true;
	xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);

}
 80290b4:	b2c5      	uxtb	r5, r0

	//TODO
	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
 80290b6:	4631      	mov	r1, r6
 80290b8:	462a      	mov	r2, r5
 80290ba:	a801      	add	r0, sp, #4
	data += (len + 1);
 80290bc:	3501      	adds	r5, #1

	//TODO
	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
 80290be:	f7f9 f8ff 	bl	80222c0 <strncpy>
	data += (len + 1);
 80290c2:	1975      	adds	r5, r6, r5

	memset(value, 0, 10);
 80290c4:	220a      	movs	r2, #10
 80290c6:	2100      	movs	r1, #0
 80290c8:	a801      	add	r0, sp, #4
 80290ca:	f7f8 fe69 	bl	8021da0 <memset>
	endValue = strpbrk(data," ");
 80290ce:	4628      	mov	r0, r5
 80290d0:	4959      	ldr	r1, [pc, #356]	; (8029238 <ups_status_response+0x1f8>)
 80290d2:	f7f9 f927 	bl	8022324 <strpbrk>
	len = endValue - data;
 80290d6:	1b40      	subs	r0, r0, r5
void ups_megatec_init(void) {
	init_UPS_value();
	UPS.Present = true;
	xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);

}
 80290d8:	fa5f f880 	uxtb.w	r8, r0
	data += (len + 1);

	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
 80290dc:	4642      	mov	r2, r8
 80290de:	4629      	mov	r1, r5
 80290e0:	a801      	add	r0, sp, #4
 80290e2:	f7f9 f8ed 	bl	80222c0 <strncpy>
	data += (len + 1);
	UPS.VAC_out = atof(value);
 80290e6:	a801      	add	r0, sp, #4
 80290e8:	f7f8 fd36 	bl	8021b58 <atof>
 80290ec:	f7f7 fd4a 	bl	8020b84 <__aeabi_d2f>

	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
	data += (len + 1);
 80290f0:	f108 0801 	add.w	r8, r8, #1
 80290f4:	44a8      	add	r8, r5
	UPS.VAC_out = atof(value);

	memset(value, 0, 10);
 80290f6:	220a      	movs	r2, #10
	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
	data += (len + 1);
	UPS.VAC_out = atof(value);
 80290f8:	60a0      	str	r0, [r4, #8]

	memset(value, 0, 10);
 80290fa:	2100      	movs	r1, #0
 80290fc:	a801      	add	r0, sp, #4
 80290fe:	f7f8 fe4f 	bl	8021da0 <memset>
	endValue = strpbrk(data," ");
 8029102:	494d      	ldr	r1, [pc, #308]	; (8029238 <ups_status_response+0x1f8>)
 8029104:	4640      	mov	r0, r8
 8029106:	f7f9 f90d 	bl	8022324 <strpbrk>
	len = endValue - data;
 802910a:	ebc8 0000 	rsb	r0, r8, r0
void ups_megatec_init(void) {
	init_UPS_value();
	UPS.Present = true;
	xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);

}
 802910e:	b2c7      	uxtb	r7, r0
	UPS.VAC_out = atof(value);

	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
 8029110:	463a      	mov	r2, r7
 8029112:	4641      	mov	r1, r8
 8029114:	a801      	add	r0, sp, #4
 8029116:	f7f9 f8d3 	bl	80222c0 <strncpy>
	data += (len + 1);
	UPS.Load = atoi(value);
 802911a:	a801      	add	r0, sp, #4
 802911c:	f7f8 fd20 	bl	8021b60 <atoi>

	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
	data += (len + 1);
 8029120:	3701      	adds	r7, #1
 8029122:	4447      	add	r7, r8
	UPS.Load = atoi(value);

	memset(value, 0, 10);
 8029124:	220a      	movs	r2, #10
	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
	data += (len + 1);
	UPS.Load = atoi(value);
 8029126:	7420      	strb	r0, [r4, #16]

	memset(value, 0, 10);
 8029128:	2100      	movs	r1, #0
 802912a:	a801      	add	r0, sp, #4
 802912c:	f7f8 fe38 	bl	8021da0 <memset>
	endValue = strpbrk(data," ");
 8029130:	4941      	ldr	r1, [pc, #260]	; (8029238 <ups_status_response+0x1f8>)
 8029132:	4638      	mov	r0, r7
 8029134:	f7f9 f8f6 	bl	8022324 <strpbrk>
	len = endValue - data;
 8029138:	1bc0      	subs	r0, r0, r7
void ups_megatec_init(void) {
	init_UPS_value();
	UPS.Present = true;
	xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);

}
 802913a:	b2c6      	uxtb	r6, r0
	UPS.Load = atoi(value);

	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
 802913c:	4632      	mov	r2, r6
 802913e:	4639      	mov	r1, r7
 8029140:	a801      	add	r0, sp, #4
 8029142:	f7f9 f8bd 	bl	80222c0 <strncpy>
	data += (len + 1);
	UPS.Freq_in = atof(value);
 8029146:	a801      	add	r0, sp, #4
 8029148:	f7f8 fd06 	bl	8021b58 <atof>
 802914c:	f7f7 fd1a 	bl	8020b84 <__aeabi_d2f>

	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
	data += (len + 1);
 8029150:	3601      	adds	r6, #1
 8029152:	19be      	adds	r6, r7, r6
	UPS.Freq_in = atof(value);
 8029154:	6020      	str	r0, [r4, #0]

	//TODO
	memset(value, 0, 10);
 8029156:	220a      	movs	r2, #10
 8029158:	2100      	movs	r1, #0
 802915a:	a801      	add	r0, sp, #4
 802915c:	f7f8 fe20 	bl	8021da0 <memset>
	endValue = strpbrk(data," ");
 8029160:	4630      	mov	r0, r6
 8029162:	4935      	ldr	r1, [pc, #212]	; (8029238 <ups_status_response+0x1f8>)
 8029164:	f7f9 f8de 	bl	8022324 <strpbrk>
	len = endValue - data;
 8029168:	1b80      	subs	r0, r0, r6
void ups_megatec_init(void) {
	init_UPS_value();
	UPS.Present = true;
	xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);

}
 802916a:	b2c5      	uxtb	r5, r0

	//TODO
	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
 802916c:	462a      	mov	r2, r5
 802916e:	4631      	mov	r1, r6
 8029170:	a801      	add	r0, sp, #4
 8029172:	f7f9 f8a5 	bl	80222c0 <strncpy>
	data += (len + 1);
	UPS.SOC = 100*((atof(value)) - 1.6)/0.7;
 8029176:	a801      	add	r0, sp, #4
 8029178:	f7f8 fcee 	bl	8021b58 <atof>
 802917c:	a328      	add	r3, pc, #160	; (adr r3, 8029220 <ups_status_response+0x1e0>)
 802917e:	e9d3 2300 	ldrd	r2, r3, [r3]
 8029182:	f7f7 f869 	bl	8020258 <__aeabi_dsub>
 8029186:	2200      	movs	r2, #0
 8029188:	4b2c      	ldr	r3, [pc, #176]	; (802923c <ups_status_response+0x1fc>)
 802918a:	f7f7 fa19 	bl	80205c0 <__aeabi_dmul>
 802918e:	a326      	add	r3, pc, #152	; (adr r3, 8029228 <ups_status_response+0x1e8>)
 8029190:	e9d3 2300 	ldrd	r2, r3, [r3]
 8029194:	f7f7 fb3e 	bl	8020814 <__aeabi_ddiv>
 8029198:	f7f7 fcd4 	bl	8020b44 <__aeabi_d2uiz>
	//TODO
	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
	data += (len + 1);
 802919c:	3501      	adds	r5, #1
 802919e:	1975      	adds	r5, r6, r5
	UPS.SOC = 100*((atof(value)) - 1.6)/0.7;
 80291a0:	7460      	strb	r0, [r4, #17]

	memset(value, 0, 10);
 80291a2:	220a      	movs	r2, #10
 80291a4:	2100      	movs	r1, #0
 80291a6:	a801      	add	r0, sp, #4
 80291a8:	f7f8 fdfa 	bl	8021da0 <memset>
	endValue = strpbrk(data," ");
 80291ac:	4628      	mov	r0, r5
 80291ae:	4922      	ldr	r1, [pc, #136]	; (8029238 <ups_status_response+0x1f8>)
 80291b0:	f7f9 f8b8 	bl	8022324 <strpbrk>
	len = endValue - data;
 80291b4:	1b40      	subs	r0, r0, r5
void ups_megatec_init(void) {
	init_UPS_value();
	UPS.Present = true;
	xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);

}
 80291b6:	b2c6      	uxtb	r6, r0
	UPS.SOC = 100*((atof(value)) - 1.6)/0.7;

	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
 80291b8:	4632      	mov	r2, r6
 80291ba:	4629      	mov	r1, r5
 80291bc:	a801      	add	r0, sp, #4
 80291be:	f7f9 f87f 	bl	80222c0 <strncpy>
	data += (len + 1);
	UPS.Temp = atof(value);
 80291c2:	a801      	add	r0, sp, #4
 80291c4:	f7f8 fcc8 	bl	8021b58 <atof>
 80291c8:	f7f7 fcdc 	bl	8020b84 <__aeabi_d2f>

	memset(value, 0, 10);
	endValue = strpbrk(data," ");
	len = endValue - data;
	strncpy(value, data, len);
	data += (len + 1);
 80291cc:	3601      	adds	r6, #1
 80291ce:	19ad      	adds	r5, r5, r6
	UPS.Temp = atof(value);
 80291d0:	60e0      	str	r0, [r4, #12]

	memset(value, 0, 10);
 80291d2:	220a      	movs	r2, #10
 80291d4:	2100      	movs	r1, #0
 80291d6:	a801      	add	r0, sp, #4
 80291d8:	f7f8 fde2 	bl	8021da0 <memset>
	endValue = strpbrk(data,"\r");
 80291dc:	4918      	ldr	r1, [pc, #96]	; (8029240 <ups_status_response+0x200>)
 80291de:	4628      	mov	r0, r5
 80291e0:	f7f9 f8a0 	bl	8022324 <strpbrk>
	len = endValue - data;
 80291e4:	1b40      	subs	r0, r0, r5
 80291e6:	b2c4      	uxtb	r4, r0
	strncpy(value, data, len);
 80291e8:	4629      	mov	r1, r5
 80291ea:	a801      	add	r0, sp, #4
 80291ec:	4622      	mov	r2, r4
 80291ee:	f7f9 f867 	bl	80222c0 <strncpy>
	uint8_t stat = 0;
	for(i = 0; i < len; i ++)
 80291f2:	2300      	movs	r3, #0

	memset(value, 0, 10);
	endValue = strpbrk(data,"\r");
	len = endValue - data;
	strncpy(value, data, len);
	uint8_t stat = 0;
 80291f4:	4619      	mov	r1, r3
	for(i = 0; i < len; i ++)
 80291f6:	e009      	b.n	802920c <ups_status_response+0x1cc>
	{
		stat |= (value[i] - 0x30) << (7-i);
 80291f8:	aa01      	add	r2, sp, #4
		return false;

	return true;
}

void ups_status_response(char *data)
 80291fa:	f1c3 0007 	rsb	r0, r3, #7
	len = endValue - data;
	strncpy(value, data, len);
	uint8_t stat = 0;
	for(i = 0; i < len; i ++)
	{
		stat |= (value[i] - 0x30) << (7-i);
 80291fe:	5c9a      	ldrb	r2, [r3, r2]
 8029200:	3a30      	subs	r2, #48	; 0x30
 8029202:	fa02 f200 	lsl.w	r2, r2, r0
 8029206:	4311      	orrs	r1, r2
 8029208:	b2c9      	uxtb	r1, r1
 802920a:	3301      	adds	r3, #1
	memset(value, 0, 10);
	endValue = strpbrk(data,"\r");
	len = endValue - data;
	strncpy(value, data, len);
	uint8_t stat = 0;
	for(i = 0; i < len; i ++)
 802920c:	b2da      	uxtb	r2, r3
 802920e:	42a2      	cmp	r2, r4
 8029210:	d3f2      	bcc.n	80291f8 <ups_status_response+0x1b8>
	{
		stat |= (value[i] - 0x30) << (7-i);
	}
	UPS.Status = stat;
 8029212:	4b07      	ldr	r3, [pc, #28]	; (8029230 <ups_status_response+0x1f0>)
 8029214:	74d9      	strb	r1, [r3, #19]
}
 8029216:	e8bd 81ff 	ldmia.w	sp!, {r0, r1, r2, r3, r4, r5, r6, r7, r8, pc}
 802921a:	bf00      	nop
 802921c:	f3af 8000 	nop.w
 8029220:	9999999a 	.word	0x9999999a
 8029224:	3ff99999 	.word	0x3ff99999
 8029228:	66666666 	.word	0x66666666
 802922c:	3fe66666 	.word	0x3fe66666
 8029230:	2000cf64 	.word	0x2000cf64
 8029234:	20000bc4 	.word	0x20000bc4
 8029238:	08038ac0 	.word	0x08038ac0
 802923c:	40590000 	.word	0x40590000
 8029240:	08044af1 	.word	0x08044af1
 8029244:	f3af 8000 	nop.w

08029248 <ups_info_response>:

void ups_info_response(char *data)
{
 8029248:	b570      	push	{r4, r5, r6, lr}
	uint8_t i = 0;
	char *endValue;
	uint8_t len = 0;
	if(data[0] != '#')
 802924a:	7803      	ldrb	r3, [r0, #0]
 802924c:	2b23      	cmp	r3, #35	; 0x23
 802924e:	d142      	bne.n	80292d6 <ups_info_response+0x8e>
		return;

	UPS.Present = true;
 8029250:	4b21      	ldr	r3, [pc, #132]	; (80292d8 <ups_info_response+0x90>)
 8029252:	2201      	movs	r2, #1
 8029254:	f883 202c 	strb.w	r2, [r3, #44]	; 0x2c
	UPS.Flag_Present = true;
 8029258:	f883 202d 	strb.w	r2, [r3, #45]	; 0x2d
	UPS.cnt_err_ups = 0;

	data++;

	data += 16;
 802925c:	3011      	adds	r0, #17
	if(data[0] != '#')
		return;

	UPS.Present = true;
	UPS.Flag_Present = true;
	UPS.cnt_err_ups = 0;
 802925e:	2200      	movs	r2, #0
 8029260:	f883 202b 	strb.w	r2, [r3, #43]	; 0x2b

	data++;

	data += 16;

	while(data[0] == ' '){
 8029264:	4603      	mov	r3, r0
 8029266:	461c      	mov	r4, r3
		stat |= (value[i] - 0x30) << (7-i);
	}
	UPS.Status = stat;
}

void ups_info_response(char *data)
 8029268:	1a1a      	subs	r2, r3, r0

	data++;

	data += 16;

	while(data[0] == ' '){
 802926a:	7821      	ldrb	r1, [r4, #0]
 802926c:	3301      	adds	r3, #1
 802926e:	2920      	cmp	r1, #32
		stat |= (value[i] - 0x30) << (7-i);
	}
	UPS.Status = stat;
}

void ups_info_response(char *data)
 8029270:	b2d2      	uxtb	r2, r2

	data++;

	data += 16;

	while(data[0] == ' '){
 8029272:	d0f8      	beq.n	8029266 <ups_info_response+0x1e>
		data ++;
		i ++;
	}
	if(i < 11){
 8029274:	2a0a      	cmp	r2, #10
 8029276:	4d18      	ldr	r5, [pc, #96]	; (80292d8 <ups_info_response+0x90>)
 8029278:	d815      	bhi.n	80292a6 <ups_info_response+0x5e>
		endValue = strpbrk(data," ");
 802927a:	4918      	ldr	r1, [pc, #96]	; (80292dc <ups_info_response+0x94>)
 802927c:	4620      	mov	r0, r4
 802927e:	f7f9 f851 	bl	8022324 <strpbrk>
		len = endValue - data;
		if(UPS.model[0] == 0){
 8029282:	7d6b      	ldrb	r3, [r5, #21]
		data ++;
		i ++;
	}
	if(i < 11){
		endValue = strpbrk(data," ");
		len = endValue - data;
 8029284:	1b06      	subs	r6, r0, r4
 8029286:	b2f2      	uxtb	r2, r6
		if(UPS.model[0] == 0){
			strncpy(UPS.model, data, len);
 8029288:	f105 0015 	add.w	r0, r5, #21
 802928c:	4621      	mov	r1, r4
		i ++;
	}
	if(i < 11){
		endValue = strpbrk(data," ");
		len = endValue - data;
		if(UPS.model[0] == 0){
 802928e:	b923      	cbnz	r3, 802929a <ups_info_response+0x52>
			strncpy(UPS.model, data, len);
 8029290:	f7f9 f816 	bl	80222c0 <strncpy>
			SNMP_SetObjDescr();
 8029294:	f00e f97c 	bl	8037590 <SNMP_SetObjDescr>
 8029298:	e001      	b.n	802929e <ups_info_response+0x56>
		}
		else{
			strncpy(UPS.model, data, len);
 802929a:	f7f9 f811 	bl	80222c0 <strncpy>
void ups_megatec_init(void) {
	init_UPS_value();
	UPS.Present = true;
	xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);

}
 802929e:	b2f6      	uxtb	r6, r6
		}
		else{
			strncpy(UPS.model, data, len);
		}

		data += (len + 1);
 80292a0:	3601      	adds	r6, #1
 80292a2:	19a4      	adds	r4, r4, r6
 80292a4:	e00b      	b.n	80292be <ups_info_response+0x76>
	}
	else
	{
		if(UPS.model[0] == 0){
 80292a6:	7d6b      	ldrb	r3, [r5, #21]
			strcpy(UPS.model, "RTMP II");
 80292a8:	490d      	ldr	r1, [pc, #52]	; (80292e0 <ups_info_response+0x98>)
 80292aa:	f105 0015 	add.w	r0, r5, #21

		data += (len + 1);
	}
	else
	{
		if(UPS.model[0] == 0){
 80292ae:	b923      	cbnz	r3, 80292ba <ups_info_response+0x72>
			strcpy(UPS.model, "RTMP II");
 80292b0:	f7f8 fef0 	bl	8022094 <strcpy>
			SNMP_SetObjDescr();
 80292b4:	f00e f96c 	bl	8037590 <SNMP_SetObjDescr>
 80292b8:	e001      	b.n	80292be <ups_info_response+0x76>
		}
		else{
			strcpy(UPS.model, "RTMP II");
 80292ba:	f7f8 feeb 	bl	8022094 <strcpy>
		}
	}

	endValue = strpbrk(data,"\r");
 80292be:	4620      	mov	r0, r4
 80292c0:	4908      	ldr	r1, [pc, #32]	; (80292e4 <ups_info_response+0x9c>)
 80292c2:	f7f9 f82f 	bl	8022324 <strpbrk>
	len = endValue - data;
 80292c6:	1b02      	subs	r2, r0, r4
	strncpy(UPS.vertion, data, len);
 80292c8:	4807      	ldr	r0, [pc, #28]	; (80292e8 <ups_info_response+0xa0>)
 80292ca:	4621      	mov	r1, r4
 80292cc:	b2d2      	uxtb	r2, r2

}
 80292ce:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
		}
	}

	endValue = strpbrk(data,"\r");
	len = endValue - data;
	strncpy(UPS.vertion, data, len);
 80292d2:	f7f8 bff5 	b.w	80222c0 <strncpy>
 80292d6:	bd70      	pop	{r4, r5, r6, pc}
 80292d8:	2000cf64 	.word	0x2000cf64
 80292dc:	08038ac0 	.word	0x08038ac0
 80292e0:	08038ac2 	.word	0x08038ac2
 80292e4:	08044af1 	.word	0x08044af1
 80292e8:	2000cf84 	.word	0x2000cf84

080292ec <ups_remain_time_response>:

}

void ups_remain_time_response(char *data)
{
 80292ec:	b530      	push	{r4, r5, lr}
	char value[10];
	if(data[0] != '(')
 80292ee:	7803      	ldrb	r3, [r0, #0]
 80292f0:	2b28      	cmp	r3, #40	; 0x28
	strncpy(UPS.vertion, data, len);

}

void ups_remain_time_response(char *data)
{
 80292f2:	b085      	sub	sp, #20
 80292f4:	4605      	mov	r5, r0
	char value[10];
	if(data[0] != '(')
 80292f6:	d116      	bne.n	8029326 <ups_remain_time_response+0x3a>
		return;

	UPS.Present = true;
 80292f8:	4c0c      	ldr	r4, [pc, #48]	; (802932c <ups_remain_time_response+0x40>)
 80292fa:	2301      	movs	r3, #1
	UPS.Flag_Present = true;
	UPS.cnt_err_ups = 0;

	data++;

	memset(value, 0, 10);
 80292fc:	220a      	movs	r2, #10
	if(data[0] != '(')
		return;

	UPS.Present = true;
	UPS.Flag_Present = true;
	UPS.cnt_err_ups = 0;
 80292fe:	2100      	movs	r1, #0

	data++;

	memset(value, 0, 10);
 8029300:	a801      	add	r0, sp, #4
{
	char value[10];
	if(data[0] != '(')
		return;

	UPS.Present = true;
 8029302:	f884 302c 	strb.w	r3, [r4, #44]	; 0x2c
	UPS.Flag_Present = true;
 8029306:	f884 302d 	strb.w	r3, [r4, #45]	; 0x2d
	UPS.cnt_err_ups = 0;
 802930a:	f884 102b 	strb.w	r1, [r4, #43]	; 0x2b

	data++;

	memset(value, 0, 10);
 802930e:	f7f8 fd47 	bl	8021da0 <memset>
	strcpy(value, data);
 8029312:	1c69      	adds	r1, r5, #1
 8029314:	a801      	add	r0, sp, #4
 8029316:	f7f8 febd 	bl	8022094 <strcpy>
	UPS.work_time = atof(value);
 802931a:	a801      	add	r0, sp, #4
 802931c:	f7f8 fc1c 	bl	8021b58 <atof>
 8029320:	f7f7 fc10 	bl	8020b44 <__aeabi_d2uiz>
 8029324:	74a0      	strb	r0, [r4, #18]
}
 8029326:	b005      	add	sp, #20
 8029328:	bd30      	pop	{r4, r5, pc}
 802932a:	bf00      	nop
 802932c:	2000cf64 	.word	0x2000cf64

08029330 <request_task>:
}

// TODO Ñîãëàñîâàòü èçìåíåíèÿ
//void request_task(void)
void request_task(void* params)
{
 8029330:	b570      	push	{r4, r5, r6, lr}

		for(;;)
		{
			if(UPS.Present == true){
 8029332:	4c2e      	ldr	r4, [pc, #184]	; (80293ec <request_task+0xbc>)
						//memset(UPS.model, 0, 11);
						memset(UPS.vertion, 0, 11);
					}
				}
			}
			if(megatec_send){
 8029334:	4d2e      	ldr	r5, [pc, #184]	; (80293f0 <request_task+0xc0>)
				if(UPS.Flag_Present == false)
				{
					if(UPS.cnt_err_ups != 2)
						UPS.cnt_err_ups++;
					else{
						UPS.Freq_in = 0;
 8029336:	2600      	movs	r6, #0
void request_task(void* params)
{

		for(;;)
		{
			if(UPS.Present == true){
 8029338:	f894 302c 	ldrb.w	r3, [r4, #44]	; 0x2c
 802933c:	b1cb      	cbz	r3, 8029372 <request_task+0x42>
				if(UPS.Flag_Present == false)
 802933e:	f894 102d 	ldrb.w	r1, [r4, #45]	; 0x2d
 8029342:	b9b1      	cbnz	r1, 8029372 <request_task+0x42>
				{
					if(UPS.cnt_err_ups != 2)
 8029344:	f894 302b 	ldrb.w	r3, [r4, #43]	; 0x2b
 8029348:	2b02      	cmp	r3, #2
 802934a:	d003      	beq.n	8029354 <request_task+0x24>
						UPS.cnt_err_ups++;
 802934c:	3301      	adds	r3, #1
 802934e:	f884 302b 	strb.w	r3, [r4, #43]	; 0x2b
 8029352:	e00e      	b.n	8029372 <request_task+0x42>
						UPS.Status = 0;
						UPS.Alarm = 0;
						UPS.Present = false;

						//memset(UPS.model, 0, 11);
						memset(UPS.vertion, 0, 11);
 8029354:	4827      	ldr	r0, [pc, #156]	; (80293f4 <request_task+0xc4>)
				if(UPS.Flag_Present == false)
				{
					if(UPS.cnt_err_ups != 2)
						UPS.cnt_err_ups++;
					else{
						UPS.Freq_in = 0;
 8029356:	6026      	str	r6, [r4, #0]
						UPS.Status = 0;
						UPS.Alarm = 0;
						UPS.Present = false;

						//memset(UPS.model, 0, 11);
						memset(UPS.vertion, 0, 11);
 8029358:	220b      	movs	r2, #11
				{
					if(UPS.cnt_err_ups != 2)
						UPS.cnt_err_ups++;
					else{
						UPS.Freq_in = 0;
						UPS.VAC_in = 0;
 802935a:	6066      	str	r6, [r4, #4]
						UPS.VAC_out = 0;
 802935c:	60a6      	str	r6, [r4, #8]
						UPS.Temp = 0;
 802935e:	60e6      	str	r6, [r4, #12]
						UPS.Load = 0;
 8029360:	7421      	strb	r1, [r4, #16]
						UPS.SOC = 0;
 8029362:	7461      	strb	r1, [r4, #17]
						UPS.work_time = 0;
 8029364:	74a1      	strb	r1, [r4, #18]
						UPS.Status = 0;
 8029366:	74e1      	strb	r1, [r4, #19]
						UPS.Alarm = 0;
 8029368:	7521      	strb	r1, [r4, #20]
						UPS.Present = false;
 802936a:	f884 102c 	strb.w	r1, [r4, #44]	; 0x2c

						//memset(UPS.model, 0, 11);
						memset(UPS.vertion, 0, 11);
 802936e:	f7f8 fd17 	bl	8021da0 <memset>
					}
				}
			}
			if(megatec_send){
 8029372:	782b      	ldrb	r3, [r5, #0]
 8029374:	b16b      	cbz	r3, 8029392 <request_task+0x62>
				megatec_send= false;
 8029376:	2000      	movs	r0, #0
 8029378:	7028      	strb	r0, [r5, #0]
				UPS.Flag_Present = false;
 802937a:	f884 002d 	strb.w	r0, [r4, #45]	; 0x2d
				send_MegaTec_cmd(ups_status_req);
 802937e:	f7ff fdbb 	bl	8028ef8 <send_MegaTec_cmd>
				if (ups_megatec_rx_pdu())
 8029382:	f7ff fe3d 	bl	8029000 <ups_megatec_rx_pdu>
 8029386:	b110      	cbz	r0, 802938e <request_task+0x5e>
void ups_megatec_process_pdu(cmdMegaTecEnums_t command)
{
	switch(command)
	{
	case ups_status_req:
		ups_status_response(ups_pdu.data);
 8029388:	481b      	ldr	r0, [pc, #108]	; (80293f8 <request_task+0xc8>)
 802938a:	f7ff fe59 	bl	8029040 <ups_status_response>
				UPS.Flag_Present = false;
				send_MegaTec_cmd(ups_status_req);
				if (ups_megatec_rx_pdu())
					ups_megatec_process_pdu(ups_status_req);

				megatec_send=true;
 802938e:	2301      	movs	r3, #1
 8029390:	702b      	strb	r3, [r5, #0]
			}
			if(megatec_send){
 8029392:	782b      	ldrb	r3, [r5, #0]
 8029394:	b19b      	cbz	r3, 80293be <request_task+0x8e>
				memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN);
 8029396:	2100      	movs	r1, #0
 8029398:	2232      	movs	r2, #50	; 0x32
 802939a:	4817      	ldr	r0, [pc, #92]	; (80293f8 <request_task+0xc8>)
 802939c:	f7f8 fd00 	bl	8021da0 <memset>
				megatec_send= false;
 80293a0:	2300      	movs	r3, #0
				UPS.Flag_Present = false;
				send_MegaTec_cmd(ups_remain_time_reg);
 80293a2:	200b      	movs	r0, #11

				megatec_send=true;
			}
			if(megatec_send){
				memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN);
				megatec_send= false;
 80293a4:	702b      	strb	r3, [r5, #0]
				UPS.Flag_Present = false;
 80293a6:	f884 302d 	strb.w	r3, [r4, #45]	; 0x2d
				send_MegaTec_cmd(ups_remain_time_reg);
 80293aa:	f7ff fda5 	bl	8028ef8 <send_MegaTec_cmd>
				if (ups_megatec_rx_pdu())
 80293ae:	f7ff fe27 	bl	8029000 <ups_megatec_rx_pdu>
 80293b2:	b110      	cbz	r0, 80293ba <request_task+0x8a>
		break;
	case ups_rating_info:

		break;
	case ups_remain_time_reg:
		ups_remain_time_response(ups_pdu.data);
 80293b4:	4810      	ldr	r0, [pc, #64]	; (80293f8 <request_task+0xc8>)
 80293b6:	f7ff ff99 	bl	80292ec <ups_remain_time_response>
				UPS.Flag_Present = false;
				send_MegaTec_cmd(ups_remain_time_reg);
				if (ups_megatec_rx_pdu())
					ups_megatec_process_pdu(ups_remain_time_reg);

				megatec_send=true;
 80293ba:	2301      	movs	r3, #1
 80293bc:	702b      	strb	r3, [r5, #0]
			}
			//vTaskDelay(100);
			if(megatec_send){
 80293be:	782b      	ldrb	r3, [r5, #0]
 80293c0:	b173      	cbz	r3, 80293e0 <request_task+0xb0>
				megatec_send = false;
 80293c2:	2300      	movs	r3, #0
				UPS.Flag_Present = false;
				 send_MegaTec_cmd(ups_info);
 80293c4:	2009      	movs	r0, #9

				megatec_send=true;
			}
			//vTaskDelay(100);
			if(megatec_send){
				megatec_send = false;
 80293c6:	702b      	strb	r3, [r5, #0]
				UPS.Flag_Present = false;
 80293c8:	f884 302d 	strb.w	r3, [r4, #45]	; 0x2d
				 send_MegaTec_cmd(ups_info);
 80293cc:	f7ff fd94 	bl	8028ef8 <send_MegaTec_cmd>
				if (ups_megatec_rx_pdu())
 80293d0:	f7ff fe16 	bl	8029000 <ups_megatec_rx_pdu>
 80293d4:	b110      	cbz	r0, 80293dc <request_task+0xac>
	{
	case ups_status_req:
		ups_status_response(ups_pdu.data);
		break;
	case ups_info:
		ups_info_response(ups_pdu.data);
 80293d6:	4808      	ldr	r0, [pc, #32]	; (80293f8 <request_task+0xc8>)
 80293d8:	f7ff ff36 	bl	8029248 <ups_info_response>
				megatec_send = false;
				UPS.Flag_Present = false;
				 send_MegaTec_cmd(ups_info);
				if (ups_megatec_rx_pdu())
					ups_megatec_process_pdu(ups_info);
				megatec_send = true;
 80293dc:	2301      	movs	r3, #1
 80293de:	702b      	strb	r3, [r5, #0]
			}

	        vTaskDelay(1000);
 80293e0:	f44f 707a 	mov.w	r0, #1000	; 0x3e8
 80293e4:	f001 ffbe 	bl	802b364 <vTaskDelay>

		}
 80293e8:	e7a6      	b.n	8029338 <request_task+0x8>
 80293ea:	bf00      	nop
 80293ec:	2000cf64 	.word	0x2000cf64
 80293f0:	20000662 	.word	0x20000662
 80293f4:	2000cf84 	.word	0x2000cf84
 80293f8:	20000b1c 	.word	0x20000b1c

080293fc <ups_metac_service_pdu>:
		break;
	}
}

int ups_metac_service_pdu(cmdMegaTecEnums_t command)
{
 80293fc:	b570      	push	{r4, r5, r6, lr}
 80293fe:	4606      	mov	r6, r0
	while(!megatec_send)
 8029400:	4c14      	ldr	r4, [pc, #80]	; (8029454 <ups_metac_service_pdu+0x58>)
 8029402:	e002      	b.n	802940a <ups_metac_service_pdu+0xe>
	{
		vTaskDelay(50);
 8029404:	2032      	movs	r0, #50	; 0x32
 8029406:	f001 ffad 	bl	802b364 <vTaskDelay>
	}
}

int ups_metac_service_pdu(cmdMegaTecEnums_t command)
{
	while(!megatec_send)
 802940a:	7823      	ldrb	r3, [r4, #0]
 802940c:	4d11      	ldr	r5, [pc, #68]	; (8029454 <ups_metac_service_pdu+0x58>)
 802940e:	2b00      	cmp	r3, #0
 8029410:	d0f8      	beq.n	8029404 <ups_metac_service_pdu+0x8>
	{
		vTaskDelay(50);
	}
	megatec_send = false;
 8029412:	2300      	movs	r3, #0
	send_MegaTec_cmd(command);
 8029414:	4630      	mov	r0, r6
{
	while(!megatec_send)
	{
		vTaskDelay(50);
	}
	megatec_send = false;
 8029416:	702b      	strb	r3, [r5, #0]
	send_MegaTec_cmd(command);
 8029418:	f7ff fd6e 	bl	8028ef8 <send_MegaTec_cmd>
	if (ups_megatec_rx_pdu())
 802941c:	f7ff fdf0 	bl	8029000 <ups_megatec_rx_pdu>
 8029420:	b190      	cbz	r0, 8029448 <ups_metac_service_pdu+0x4c>
	{
		megatec_send = true;
 8029422:	2401      	movs	r4, #1
		if(strncmp(ups_pdu.data, "ACK", 3) == 0)
 8029424:	480c      	ldr	r0, [pc, #48]	; (8029458 <ups_metac_service_pdu+0x5c>)
 8029426:	490d      	ldr	r1, [pc, #52]	; (802945c <ups_metac_service_pdu+0x60>)
	}
	megatec_send = false;
	send_MegaTec_cmd(command);
	if (ups_megatec_rx_pdu())
	{
		megatec_send = true;
 8029428:	702c      	strb	r4, [r5, #0]
		if(strncmp(ups_pdu.data, "ACK", 3) == 0)
 802942a:	2203      	movs	r2, #3
 802942c:	f7f8 fef2 	bl	8022214 <strncmp>
 8029430:	b168      	cbz	r0, 802944e <ups_metac_service_pdu+0x52>
			return 1;
		else if(strncmp(ups_pdu.data, "NCK", 3) == 0)
 8029432:	490b      	ldr	r1, [pc, #44]	; (8029460 <ups_metac_service_pdu+0x64>)
 8029434:	4808      	ldr	r0, [pc, #32]	; (8029458 <ups_metac_service_pdu+0x5c>)
 8029436:	2203      	movs	r2, #3
 8029438:	f7f8 feec 	bl	8022214 <strncmp>
			return 0;
 802943c:	2800      	cmp	r0, #0
 802943e:	bf14      	ite	ne
 8029440:	f04f 30ff 	movne.w	r0, #4294967295
 8029444:	2000      	moveq	r0, #0
 8029446:	bd70      	pop	{r4, r5, r6, pc}

	}
	return -1;
 8029448:	f04f 30ff 	mov.w	r0, #4294967295
 802944c:	bd70      	pop	{r4, r5, r6, pc}
	send_MegaTec_cmd(command);
	if (ups_megatec_rx_pdu())
	{
		megatec_send = true;
		if(strncmp(ups_pdu.data, "ACK", 3) == 0)
			return 1;
 802944e:	4620      	mov	r0, r4
		else if(strncmp(ups_pdu.data, "NCK", 3) == 0)
			return 0;

	}
	return -1;
}
 8029450:	bd70      	pop	{r4, r5, r6, pc}
 8029452:	bf00      	nop
 8029454:	20000662 	.word	0x20000662
 8029458:	20000b1c 	.word	0x20000b1c
 802945c:	08038aca 	.word	0x08038aca
 8029460:	08038ace 	.word	0x08038ace

08029464 <ups_megatec_init>:
	        vTaskDelay(1000);

		}
}

void ups_megatec_init(void) {
 8029464:	b51f      	push	{r0, r1, r2, r3, r4, lr}
	init_UPS_value();
 8029466:	f7ff fd23 	bl	8028eb0 <init_UPS_value>
	UPS.Present = true;
 802946a:	4b08      	ldr	r3, [pc, #32]	; (802948c <ups_megatec_init+0x28>)
	xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);
 802946c:	4908      	ldr	r1, [pc, #32]	; (8029490 <ups_megatec_init+0x2c>)
 802946e:	4809      	ldr	r0, [pc, #36]	; (8029494 <ups_megatec_init+0x30>)
		}
}

void ups_megatec_init(void) {
	init_UPS_value();
	UPS.Present = true;
 8029470:	2201      	movs	r2, #1
 8029472:	f883 202c 	strb.w	r2, [r3, #44]	; 0x2c
	xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);
 8029476:	2300      	movs	r3, #0
 8029478:	9300      	str	r3, [sp, #0]
 802947a:	9301      	str	r3, [sp, #4]
 802947c:	9302      	str	r3, [sp, #8]
 802947e:	9303      	str	r3, [sp, #12]
 8029480:	f44f 7280 	mov.w	r2, #256	; 0x100
 8029484:	f001 fcd4 	bl	802ae30 <xTaskGenericCreate>

}
 8029488:	b005      	add	sp, #20
 802948a:	bd00      	pop	{pc}
 802948c:	2000cf64 	.word	0x2000cf64
 8029490:	08038ad2 	.word	0x08038ad2
 8029494:	08029331 	.word	0x08029331

08029498 <Reboot>:
#include "trap_api.h"
#include <stddef.h>
#include "FreeRTOS.h"
#include "task.h"

void Reboot(void) {
 8029498:	b508      	push	{r3, lr}
	SNMP_SendUserTrap(DEVICE_REBOOTED);
 802949a:	2004      	movs	r0, #4
 802949c:	f00e f858 	bl	8037550 <SNMP_SendUserTrap>
	log_event_data(LOG_SYSTEM_BOOT, "�дмини�тратор");
 80294a0:	490a      	ldr	r1, [pc, #40]	; (80294cc <Reboot+0x34>)
 80294a2:	2000      	movs	r0, #0
 80294a4:	f000 fce8 	bl	8029e78 <log_event_data>
	vTaskDelay(1010);
 80294a8:	f240 30f2 	movw	r0, #1010	; 0x3f2
 80294ac:	f001 ff5a 	bl	802b364 <vTaskDelay>
	LOG_Disable();
 80294b0:	f000 fc04 	bl	8029cbc <LOG_Disable>
    This function acts as a special kind of Data Memory Barrier.
    It completes when all explicit memory accesses before this instruction complete.
 */
__attribute__( ( always_inline ) ) __STATIC_INLINE void __DSB(void)
{
  __ASM volatile ("dsb");
 80294b4:	f3bf 8f4f 	dsb	sy
//static inline void NVIC_SystemReset(void)
{
  __DSB();                                                     /* Ensure all outstanding memory accesses included
                                                                  buffered write are completed before reset */
  SCB->AIRCR  = ((0x5FA << SCB_AIRCR_VECTKEY_Pos)      |
                 (SCB->AIRCR & SCB_AIRCR_PRIGROUP_Msk) |
 80294b8:	4a05      	ldr	r2, [pc, #20]	; (80294d0 <Reboot+0x38>)
 80294ba:	4b06      	ldr	r3, [pc, #24]	; (80294d4 <Reboot+0x3c>)
 80294bc:	68d1      	ldr	r1, [r2, #12]
 80294be:	f401 61e0 	and.w	r1, r1, #1792	; 0x700
 80294c2:	430b      	orrs	r3, r1
__STATIC_INLINE void NVIC_SystemReset(void)
//static inline void NVIC_SystemReset(void)
{
  __DSB();                                                     /* Ensure all outstanding memory accesses included
                                                                  buffered write are completed before reset */
  SCB->AIRCR  = ((0x5FA << SCB_AIRCR_VECTKEY_Pos)      |
 80294c4:	60d3      	str	r3, [r2, #12]
 80294c6:	f3bf 8f4f 	dsb	sy
 80294ca:	e7fe      	b.n	80294ca <Reboot+0x32>
 80294cc:	08038a86 	.word	0x08038a86
 80294d0:	e000ed00 	.word	0xe000ed00
 80294d4:	05fa0004 	.word	0x05fa0004

080294d8 <rbuf32_init>:
#define _size_w(n) sizeof(n) / sizeof(int)

void rbuf32_init(rbuf_t *rbuf32, uint32_t *buffer, uint32_t size) {
	rbuf32->buf_ptr = buffer;
	rbuf32->size = size;
	rbuf32->read_index = 0;
 80294d8:	2300      	movs	r3, #0

#define _size_w(n) sizeof(n) / sizeof(int)

void rbuf32_init(rbuf_t *rbuf32, uint32_t *buffer, uint32_t size) {
	rbuf32->buf_ptr = buffer;
	rbuf32->size = size;
 80294da:	e880 0006 	stmia.w	r0, {r1, r2}
	rbuf32->read_index = 0;
 80294de:	6083      	str	r3, [r0, #8]
	rbuf32->write_index = 0;
 80294e0:	60c3      	str	r3, [r0, #12]
 80294e2:	4770      	bx	lr

080294e4 <rbuf_isfull>:
	return full_space;
}

bool rbuf_isfull(rbuf_t *rbuf) {
	int r_tmp;
	if (rbuf->write_index == (rbuf->size - 1)) {
 80294e4:	6842      	ldr	r2, [r0, #4]
 80294e6:	68c3      	ldr	r3, [r0, #12]
 80294e8:	6880      	ldr	r0, [r0, #8]
 80294ea:	1e51      	subs	r1, r2, #1
 80294ec:	428b      	cmp	r3, r1
		r_tmp = rbuf->read_index + rbuf->size;
 80294ee:	bf08      	it	eq
 80294f0:	1810      	addeq	r0, r2, r0
	}
	else
		r_tmp = rbuf->read_index;
	if (r_tmp - rbuf->write_index == 1)
 80294f2:	1ac0      	subs	r0, r0, r3
		return true;
	else
		return false;
}
 80294f4:	1e42      	subs	r2, r0, #1
 80294f6:	4250      	negs	r0, r2
 80294f8:	4150      	adcs	r0, r2
 80294fa:	4770      	bx	lr

080294fc <rbuf32_get>:
	rbuf64->read_index = 0;
	rbuf64->write_index = 0;
}

bool rbuf_isempty(rbuf_t *rbuf) {
	if (rbuf->read_index == rbuf->write_index)
 80294fc:	6883      	ldr	r3, [r0, #8]
 80294fe:	68c2      	ldr	r2, [r0, #12]
 8029500:	4293      	cmp	r3, r2
 8029502:	d105      	bne.n	8029510 <rbuf32_get+0x14>
 8029504:	e002      	b.n	802950c <rbuf32_get+0x10>
	/* Check whether buffer is not empty */
	if (!rbuf_isempty(rbuf32)) {
		*data = rbuf32->buf_ptr[rbuf32->read_index++];
		/* swap the read pointer */
		if (rbuf32->read_index == (rbuf32->size))
			rbuf32->read_index = 0;
 8029506:	2300      	movs	r3, #0
 8029508:	6083      	str	r3, [r0, #8]
 802950a:	e00a      	b.n	8029522 <rbuf32_get+0x26>
		return true;
	}
	else
		return false;
 802950c:	2000      	movs	r0, #0
 802950e:	4770      	bx	lr
}

bool rbuf32_get(rbuf_t *rbuf32, uint32_t *data) {
	/* Check whether buffer is not empty */
	if (!rbuf_isempty(rbuf32)) {
		*data = rbuf32->buf_ptr[rbuf32->read_index++];
 8029510:	6802      	ldr	r2, [r0, #0]
 8029512:	f852 2023 	ldr.w	r2, [r2, r3, lsl #2]
 8029516:	600a      	str	r2, [r1, #0]
		/* swap the read pointer */
		if (rbuf32->read_index == (rbuf32->size))
 8029518:	6842      	ldr	r2, [r0, #4]
}

bool rbuf32_get(rbuf_t *rbuf32, uint32_t *data) {
	/* Check whether buffer is not empty */
	if (!rbuf_isempty(rbuf32)) {
		*data = rbuf32->buf_ptr[rbuf32->read_index++];
 802951a:	3301      	adds	r3, #1
		/* swap the read pointer */
		if (rbuf32->read_index == (rbuf32->size))
 802951c:	4293      	cmp	r3, r2
}

bool rbuf32_get(rbuf_t *rbuf32, uint32_t *data) {
	/* Check whether buffer is not empty */
	if (!rbuf_isempty(rbuf32)) {
		*data = rbuf32->buf_ptr[rbuf32->read_index++];
 802951e:	6083      	str	r3, [r0, #8]
		/* swap the read pointer */
		if (rbuf32->read_index == (rbuf32->size))
 8029520:	d0f1      	beq.n	8029506 <rbuf32_get+0xa>
			rbuf32->read_index = 0;
		return true;
 8029522:	2001      	movs	r0, #1
	}
	else
		return false;
}
 8029524:	4770      	bx	lr

08029526 <rbuf32_put>:
/*
 * Oldest data is overwriting when write_ptr reaches read_ptr - 1 (!).
 * For check use rbuf_isfull.
 */

bool rbuf32_put(rbuf_t *rbuf32, uint32_t data) {
 8029526:	b538      	push	{r3, r4, r5, lr}
 8029528:	4604      	mov	r4, r0
 802952a:	460d      	mov	r5, r1
	if(!rbuf_isfull(rbuf32))
 802952c:	f7ff ffda 	bl	80294e4 <rbuf_isfull>
 8029530:	b950      	cbnz	r0, 8029548 <rbuf32_put+0x22>
	{
		rbuf32->buf_ptr[rbuf32->write_index++] = data;
 8029532:	68e3      	ldr	r3, [r4, #12]
 8029534:	6822      	ldr	r2, [r4, #0]
 8029536:	f842 5023 	str.w	r5, [r2, r3, lsl #2]
		/* swap the write pointer */
		if (rbuf32->write_index == (rbuf32->size))
 802953a:	6862      	ldr	r2, [r4, #4]
 */

bool rbuf32_put(rbuf_t *rbuf32, uint32_t data) {
	if(!rbuf_isfull(rbuf32))
	{
		rbuf32->buf_ptr[rbuf32->write_index++] = data;
 802953c:	3301      	adds	r3, #1
		/* swap the write pointer */
		if (rbuf32->write_index == (rbuf32->size))
 802953e:	4293      	cmp	r3, r2
 */

bool rbuf32_put(rbuf_t *rbuf32, uint32_t data) {
	if(!rbuf_isfull(rbuf32))
	{
		rbuf32->buf_ptr[rbuf32->write_index++] = data;
 8029540:	60e3      	str	r3, [r4, #12]
		/* swap the write pointer */
		if (rbuf32->write_index == (rbuf32->size))
 8029542:	d103      	bne.n	802954c <rbuf32_put+0x26>
			rbuf32->write_index = 0;
 8029544:	60e0      	str	r0, [r4, #12]
 8029546:	e001      	b.n	802954c <rbuf32_put+0x26>
		return true;
	}
	else
		return false;
 8029548:	2000      	movs	r0, #0
 802954a:	bd38      	pop	{r3, r4, r5, pc}
bool rbuf32_put(rbuf_t *rbuf32, uint32_t data) {
	if(!rbuf_isfull(rbuf32))
	{
		rbuf32->buf_ptr[rbuf32->write_index++] = data;
		/* swap the write pointer */
		if (rbuf32->write_index == (rbuf32->size))
 802954c:	2001      	movs	r0, #1
			rbuf32->write_index = 0;
		return true;
	}
	else
		return false;
}
 802954e:	bd38      	pop	{r3, r4, r5, pc}

08029550 <from_hex>:
#include <ctype.h>
#include <stdint.h>

/* Converts a hex character to its integer value */
char from_hex(char ch) {
  return isdigit(ch) ? ch - '0' : tolower(ch) - 'a' + 10;
 8029550:	4b08      	ldr	r3, [pc, #32]	; (8029574 <from_hex+0x24>)
 8029552:	681b      	ldr	r3, [r3, #0]
 8029554:	181b      	adds	r3, r3, r0
 8029556:	785b      	ldrb	r3, [r3, #1]
 8029558:	f003 0204 	and.w	r2, r3, #4
 802955c:	b2d2      	uxtb	r2, r2
 802955e:	b10a      	cbz	r2, 8029564 <from_hex+0x14>
 8029560:	3830      	subs	r0, #48	; 0x30
 8029562:	e005      	b.n	8029570 <from_hex+0x20>
 8029564:	f003 0303 	and.w	r3, r3, #3
 8029568:	2b01      	cmp	r3, #1
 802956a:	bf08      	it	eq
 802956c:	3020      	addeq	r0, #32
 802956e:	3857      	subs	r0, #87	; 0x57
 8029570:	b2c0      	uxtb	r0, r0
}
 8029572:	4770      	bx	lr
 8029574:	20000000 	.word	0x20000000

08029578 <url_decode>:
  return buf;
}

/* Returns a url-decoded version of str */
/* IMPORTANT:  be sure that outbuf is big enougth */
char *url_decode(char *outbuf, uint32_t outlen, char *inbuf) {
 8029578:	e92d 47f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, lr}
 802957c:	4607      	mov	r7, r0
 802957e:	460e      	mov	r6, r1
  char *pstr = inbuf, *buf = outbuf, *pbuf = buf;
 8029580:	4604      	mov	r4, r0
 8029582:	4615      	mov	r5, r2
      if (pstr[1] && pstr[2]) {
        *pbuf++ = from_hex(pstr[1]) << 4 | from_hex(pstr[2]);
        pstr += 2;
      }
    } else if (*pstr == '+') {
      *pbuf++ = ' ';
 8029584:	f04f 0920 	mov.w	r9, #32

/* Returns a url-decoded version of str */
/* IMPORTANT:  be sure that outbuf is big enougth */
char *url_decode(char *outbuf, uint32_t outlen, char *inbuf) {
  char *pstr = inbuf, *buf = outbuf, *pbuf = buf;
  while ((*pstr) && outlen > 1) {
 8029588:	e01e      	b.n	80295c8 <url_decode+0x50>
    if (*pstr == '%') {
 802958a:	2b25      	cmp	r3, #37	; 0x25
 802958c:	d112      	bne.n	80295b4 <url_decode+0x3c>
      if (pstr[1] && pstr[2]) {
 802958e:	7868      	ldrb	r0, [r5, #1]
 8029590:	b1c0      	cbz	r0, 80295c4 <url_decode+0x4c>
 8029592:	f895 8002 	ldrb.w	r8, [r5, #2]
 8029596:	f1b8 0f00 	cmp.w	r8, #0
 802959a:	d013      	beq.n	80295c4 <url_decode+0x4c>
        *pbuf++ = from_hex(pstr[1]) << 4 | from_hex(pstr[2]);
 802959c:	f7ff ffd8 	bl	8029550 <from_hex>
 80295a0:	4682      	mov	sl, r0
 80295a2:	4640      	mov	r0, r8
 80295a4:	f7ff ffd4 	bl	8029550 <from_hex>
 80295a8:	ea40 100a 	orr.w	r0, r0, sl, lsl #4
 80295ac:	f804 0b01 	strb.w	r0, [r4], #1
        pstr += 2;
 80295b0:	3502      	adds	r5, #2
 80295b2:	e007      	b.n	80295c4 <url_decode+0x4c>
      }
    } else if (*pstr == '+') {
 80295b4:	2b2b      	cmp	r3, #43	; 0x2b
 80295b6:	f104 0201 	add.w	r2, r4, #1
      *pbuf++ = ' ';
 80295ba:	bf0c      	ite	eq
 80295bc:	f884 9000 	strbeq.w	r9, [r4]
    } else {
      *pbuf++ = *pstr;
 80295c0:	7023      	strbne	r3, [r4, #0]
 80295c2:	4614      	mov	r4, r2
    }
    pstr++;
 80295c4:	3501      	adds	r5, #1
    outlen--;
 80295c6:	3e01      	subs	r6, #1

/* Returns a url-decoded version of str */
/* IMPORTANT:  be sure that outbuf is big enougth */
char *url_decode(char *outbuf, uint32_t outlen, char *inbuf) {
  char *pstr = inbuf, *buf = outbuf, *pbuf = buf;
  while ((*pstr) && outlen > 1) {
 80295c8:	782b      	ldrb	r3, [r5, #0]
 80295ca:	b10b      	cbz	r3, 80295d0 <url_decode+0x58>
 80295cc:	2e01      	cmp	r6, #1
 80295ce:	d8dc      	bhi.n	802958a <url_decode+0x12>
      *pbuf++ = *pstr;
    }
    pstr++;
    outlen--;
  }
  *pbuf = '\0';
 80295d0:	2300      	movs	r3, #0
 80295d2:	7023      	strb	r3, [r4, #0]
  return buf;
}
 80295d4:	4638      	mov	r0, r7
 80295d6:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}
 80295da:	0000      	movs	r0, r0

080295dc <UPS_DI0Monitor>:

/**
  * @brief  Мониторинг бита DI0 state
  */
void UPS_DI0Monitor(void)
{
 80295dc:	b538      	push	{r3, r4, r5, lr}
  static bool isValueRecv = false;
  static uint8_t DI0OldState = 0;
  uint8_t DI0StateCurrent;

  DI0StateCurrent = get_state_din_outs(DIN1);
 80295de:	2006      	movs	r0, #6
 80295e0:	f7ff fc5f 	bl	8028ea2 <get_state_din_outs>

  	if (!isValueRecv) {
 80295e4:	4a18      	ldr	r2, [pc, #96]	; (8029648 <UPS_DI0Monitor+0x6c>)
 80295e6:	4b19      	ldr	r3, [pc, #100]	; (802964c <UPS_DI0Monitor+0x70>)
 80295e8:	7811      	ldrb	r1, [r2, #0]
{
  static bool isValueRecv = false;
  static uint8_t DI0OldState = 0;
  uint8_t DI0StateCurrent;

  DI0StateCurrent = get_state_din_outs(DIN1);
 80295ea:	4604      	mov	r4, r0

  	if (!isValueRecv) {
 80295ec:	b969      	cbnz	r1, 802960a <UPS_DI0Monitor+0x2e>
	  isValueRecv = true;
 80295ee:	2501      	movs	r5, #1
 80295f0:	7015      	strb	r5, [r2, #0]
	  DI0OldState = DI0StateCurrent;
 80295f2:	7018      	strb	r0, [r3, #0]
	  if (!DI0StateCurrent){
 80295f4:	bb38      	cbnz	r0, 8029646 <UPS_DI0Monitor+0x6a>
		  log_event_data(LOG_ALARM_DIO, "�вари�");
 80295f6:	2008      	movs	r0, #8
 80295f8:	4915      	ldr	r1, [pc, #84]	; (8029650 <UPS_DI0Monitor+0x74>)
 80295fa:	f000 fc3d 	bl	8029e78 <log_event_data>
		  SNMP_SendUserTrap(DI0_ALARM);
 80295fe:	2006      	movs	r0, #6
 8029600:	f00d ffa6 	bl	8037550 <SNMP_SendUserTrap>
		  flUpdateLog = true;
 8029604:	4b13      	ldr	r3, [pc, #76]	; (8029654 <UPS_DI0Monitor+0x78>)
 8029606:	701d      	strb	r5, [r3, #0]
 8029608:	bd38      	pop	{r3, r4, r5, pc}
	  }
	  return;
	}

	if (!DI0StateCurrent)
 802960a:	b910      	cbnz	r0, 8029612 <UPS_DI0Monitor+0x36>
	  flCriticalAlarm = true;
 802960c:	4a12      	ldr	r2, [pc, #72]	; (8029658 <UPS_DI0Monitor+0x7c>)
 802960e:	2101      	movs	r1, #1
 8029610:	7011      	strb	r1, [r2, #0]

	// Значение параметра изменило�ь
	if (DI0StateCurrent != DI0OldState)
 8029612:	781b      	ldrb	r3, [r3, #0]
 8029614:	42a3      	cmp	r3, r4
 8029616:	d014      	beq.n	8029642 <UPS_DI0Monitor+0x66>
	{
	  if(sSettings.sInOuts.din_type_act[0] == SNMP_TRAP)
 8029618:	4b10      	ldr	r3, [pc, #64]	; (802965c <UPS_DI0Monitor+0x80>)
 802961a:	f893 3376 	ldrb.w	r3, [r3, #886]	; 0x376
 802961e:	2b02      	cmp	r3, #2
 8029620:	d10f      	bne.n	8029642 <UPS_DI0Monitor+0x66>
 8029622:	4d0c      	ldr	r5, [pc, #48]	; (8029654 <UPS_DI0Monitor+0x78>)
	  {
		  if (DI0StateCurrent){
			log_event_data(LOG_ALARM_DIO, "�орма");
 8029624:	2008      	movs	r0, #8
	// Значение параметра изменило�ь
	if (DI0StateCurrent != DI0OldState)
	{
	  if(sSettings.sInOuts.din_type_act[0] == SNMP_TRAP)
	  {
		  if (DI0StateCurrent){
 8029626:	b124      	cbz	r4, 8029632 <UPS_DI0Monitor+0x56>
			log_event_data(LOG_ALARM_DIO, "�орма");
 8029628:	490d      	ldr	r1, [pc, #52]	; (8029660 <UPS_DI0Monitor+0x84>)
 802962a:	f000 fc25 	bl	8029e78 <log_event_data>
			SNMP_SendUserTrap(DI0_NORM);
 802962e:	2005      	movs	r0, #5
 8029630:	e003      	b.n	802963a <UPS_DI0Monitor+0x5e>
			flUpdateLog = true;
		  }
		  else{
			log_event_data(LOG_ALARM_DIO, "�вари�");
 8029632:	4907      	ldr	r1, [pc, #28]	; (8029650 <UPS_DI0Monitor+0x74>)
 8029634:	f000 fc20 	bl	8029e78 <log_event_data>
			SNMP_SendUserTrap(DI0_ALARM);
 8029638:	2006      	movs	r0, #6
 802963a:	f00d ff89 	bl	8037550 <SNMP_SendUserTrap>
			flUpdateLog = true;
 802963e:	2301      	movs	r3, #1
 8029640:	702b      	strb	r3, [r5, #0]
		  }
	  }
	}

	DI0OldState = DI0StateCurrent;
 8029642:	4b02      	ldr	r3, [pc, #8]	; (802964c <UPS_DI0Monitor+0x70>)
 8029644:	701c      	strb	r4, [r3, #0]
 8029646:	bd38      	pop	{r3, r4, r5, pc}
 8029648:	20000b5d 	.word	0x20000b5d
 802964c:	20000b5a 	.word	0x20000b5a
 8029650:	08038b01 	.word	0x08038b01
 8029654:	20000bc4 	.word	0x20000bc4
 8029658:	20000b61 	.word	0x20000b61
 802965c:	2000cba0 	.word	0x2000cba0
 8029660:	08038b0e 	.word	0x08038b0e

08029664 <UPS_CriticalAlarmMonitor>:

/**
  * @brief  Мониторинг бита CriticalAlarm
  */
void UPS_CriticalAlarmMonitor(void)
{
 8029664:	b5f0      	push	{r4, r5, r6, r7, lr}
 8029666:	b089      	sub	sp, #36	; 0x24
  static uint8_t OldRO2type_Sourse = 0;
  uint8_t CurrRO2type_Sourse = 0;
  uint8_t CurrRO1type_Sourse = 0;
  char str[30];

  memset(str, 0, 30);
 8029668:	2100      	movs	r1, #0
 802966a:	4668      	mov	r0, sp
 802966c:	221e      	movs	r2, #30
 802966e:	f7f8 fb97 	bl	8021da0 <memset>

  CurrRO1type_Sourse = sSettings.sInOuts.ro_type_source[0];
 8029672:	4b45      	ldr	r3, [pc, #276]	; (8029788 <UPS_CriticalAlarmMonitor+0x124>)
 8029674:	f893 5374 	ldrb.w	r5, [r3, #884]	; 0x374
  CurrRO2type_Sourse = sSettings.sInOuts.ro_type_source[1];
 8029678:	f893 7375 	ldrb.w	r7, [r3, #885]	; 0x375
  CriticalAlarmCurrent = flCriticalAlarm;
 802967c:	4b43      	ldr	r3, [pc, #268]	; (802978c <UPS_CriticalAlarmMonitor+0x128>)
 802967e:	781c      	ldrb	r4, [r3, #0]

  if (!isValueRecv) {
 8029680:	4b43      	ldr	r3, [pc, #268]	; (8029790 <UPS_CriticalAlarmMonitor+0x12c>)
 8029682:	7819      	ldrb	r1, [r3, #0]
 8029684:	bb29      	cbnz	r1, 80296d2 <UPS_CriticalAlarmMonitor+0x6e>
	isValueRecv = true;
 8029686:	2201      	movs	r2, #1
 8029688:	701a      	strb	r2, [r3, #0]
	CriticalAlarmOldState = CriticalAlarmCurrent;
 802968a:	4b42      	ldr	r3, [pc, #264]	; (8029794 <UPS_CriticalAlarmMonitor+0x130>)
 802968c:	701c      	strb	r4, [r3, #0]
	OldRO0type_Sourse = CurrRO1type_Sourse;
 802968e:	4b42      	ldr	r3, [pc, #264]	; (8029798 <UPS_CriticalAlarmMonitor+0x134>)
 8029690:	701d      	strb	r5, [r3, #0]
	OldRO2type_Sourse = CurrRO2type_Sourse;
 8029692:	4b42      	ldr	r3, [pc, #264]	; (802979c <UPS_CriticalAlarmMonitor+0x138>)
	if(OldRO0type_Sourse == CRITICAL){
 8029694:	4295      	cmp	r5, r2

  if (!isValueRecv) {
	isValueRecv = true;
	CriticalAlarmOldState = CriticalAlarmCurrent;
	OldRO0type_Sourse = CurrRO1type_Sourse;
	OldRO2type_Sourse = CurrRO2type_Sourse;
 8029696:	701f      	strb	r7, [r3, #0]
	if(OldRO0type_Sourse == CRITICAL){
 8029698:	d10a      	bne.n	80296b0 <UPS_CriticalAlarmMonitor+0x4c>
	  if(CriticalAlarmCurrent){
 802969a:	b14c      	cbz	r4, 80296b0 <UPS_CriticalAlarmMonitor+0x4c>
		  SetROInt(1, 0);
 802969c:	4628      	mov	r0, r5
 802969e:	f7ff f890 	bl	80287c2 <SetROInt>
		  SNMP_SendUserTrap(DO0_TOGGLED);
 80296a2:	2007      	movs	r0, #7
 80296a4:	f00d ff54 	bl	8037550 <SNMP_SendUserTrap>
		  log_event_data(LOG_DO0_STATE, "Замкнуто");
 80296a8:	2009      	movs	r0, #9
 80296aa:	493d      	ldr	r1, [pc, #244]	; (80297a0 <UPS_CriticalAlarmMonitor+0x13c>)
 80296ac:	f000 fbe4 	bl	8029e78 <log_event_data>
	  }
    }
	  if(OldRO2type_Sourse == CRITICAL){
 80296b0:	4b3a      	ldr	r3, [pc, #232]	; (802979c <UPS_CriticalAlarmMonitor+0x138>)
 80296b2:	7818      	ldrb	r0, [r3, #0]
 80296b4:	2801      	cmp	r0, #1
 80296b6:	d165      	bne.n	8029784 <UPS_CriticalAlarmMonitor+0x120>
		  if(CriticalAlarmCurrent){
 80296b8:	2c00      	cmp	r4, #0
 80296ba:	d063      	beq.n	8029784 <UPS_CriticalAlarmMonitor+0x120>
			  SetROInt(1, 1);
 80296bc:	4601      	mov	r1, r0
 80296be:	f7ff f880 	bl	80287c2 <SetROInt>
			  SNMP_SendUserTrap(DO1_TOGGLED);
 80296c2:	2008      	movs	r0, #8
 80296c4:	f00d ff44 	bl	8037550 <SNMP_SendUserTrap>
			  log_event_data(LOG_DO1_STATE, "Замкнуто");
 80296c8:	200a      	movs	r0, #10
 80296ca:	4935      	ldr	r1, [pc, #212]	; (80297a0 <UPS_CriticalAlarmMonitor+0x13c>)
 80296cc:	f000 fbd4 	bl	8029e78 <log_event_data>
 80296d0:	e058      	b.n	8029784 <UPS_CriticalAlarmMonitor+0x120>
		  }
	  }
	return;
  }

  if(CriticalAlarmCurrent){
 80296d2:	b154      	cbz	r4, 80296ea <UPS_CriticalAlarmMonitor+0x86>
	  if (UPS.Present)
 80296d4:	4b33      	ldr	r3, [pc, #204]	; (80297a4 <UPS_CriticalAlarmMonitor+0x140>)
 80296d6:	f893 302c 	ldrb.w	r3, [r3, #44]	; 0x2c
		  LED_Toggle(LED_MAJOR_R);
 80296da:	200b      	movs	r0, #11
	  }
	return;
  }

  if(CriticalAlarmCurrent){
	  if (UPS.Present)
 80296dc:	b113      	cbz	r3, 80296e4 <UPS_CriticalAlarmMonitor+0x80>
		  LED_Toggle(LED_MAJOR_R);
 80296de:	f7ff fb6d 	bl	8028dbc <LED_Toggle>
 80296e2:	e005      	b.n	80296f0 <UPS_CriticalAlarmMonitor+0x8c>
	  else
		  LED_On(LED_MAJOR_R);
 80296e4:	f7ff fb30 	bl	8028d48 <LED_On>
 80296e8:	e002      	b.n	80296f0 <UPS_CriticalAlarmMonitor+0x8c>
  }
  else{
	  LED_Off(LED_MAJOR_R);
 80296ea:	200b      	movs	r0, #11
 80296ec:	f7ff fb2f 	bl	8028d4e <LED_Off>
  }

  // Значение параметра изменило�ь
  if (CriticalAlarmCurrent != CriticalAlarmOldState)
 80296f0:	4b28      	ldr	r3, [pc, #160]	; (8029794 <UPS_CriticalAlarmMonitor+0x130>)
 80296f2:	781b      	ldrb	r3, [r3, #0]
 80296f4:	42a3      	cmp	r3, r4
 80296f6:	d03f      	beq.n	8029778 <UPS_CriticalAlarmMonitor+0x114>
  {
	  if(OldRO0type_Sourse == CRITICAL){
 80296f8:	4b27      	ldr	r3, [pc, #156]	; (8029798 <UPS_CriticalAlarmMonitor+0x134>)
 80296fa:	781e      	ldrb	r6, [r3, #0]
 80296fc:	2e01      	cmp	r6, #1
 80296fe:	d11b      	bne.n	8029738 <UPS_CriticalAlarmMonitor+0xd4>
		  memset(str, 0, 30);
 8029700:	4668      	mov	r0, sp
 8029702:	2100      	movs	r1, #0
 8029704:	221e      	movs	r2, #30
 8029706:	f7f8 fb4b 	bl	8021da0 <memset>
		  if(CriticalAlarmCurrent){
 802970a:	b134      	cbz	r4, 802971a <UPS_CriticalAlarmMonitor+0xb6>
			  SetROInt(1, 0);
 802970c:	4630      	mov	r0, r6
 802970e:	2100      	movs	r1, #0
 8029710:	f7ff f857 	bl	80287c2 <SetROInt>
			  strcat(str, "Замкнуто");
 8029714:	4668      	mov	r0, sp
 8029716:	4922      	ldr	r1, [pc, #136]	; (80297a0 <UPS_CriticalAlarmMonitor+0x13c>)
 8029718:	e005      	b.n	8029726 <UPS_CriticalAlarmMonitor+0xc2>
		  }
		  else{
			  SetROInt(0, 0);
 802971a:	4620      	mov	r0, r4
 802971c:	4621      	mov	r1, r4
 802971e:	f7ff f850 	bl	80287c2 <SetROInt>
			  strcat(str, "Разомкнуто");
 8029722:	4921      	ldr	r1, [pc, #132]	; (80297a8 <UPS_CriticalAlarmMonitor+0x144>)
 8029724:	4668      	mov	r0, sp
 8029726:	f7f8 fba1 	bl	8021e6c <strcat>
		  }
		  SNMP_SendUserTrap(DO0_TOGGLED);
 802972a:	2007      	movs	r0, #7
 802972c:	f00d ff10 	bl	8037550 <SNMP_SendUserTrap>
		  log_event_data(LOG_DO0_STATE, str);
 8029730:	2009      	movs	r0, #9
 8029732:	4669      	mov	r1, sp
 8029734:	f000 fba0 	bl	8029e78 <log_event_data>
	  }
	  if(OldRO2type_Sourse == CRITICAL){
 8029738:	4b18      	ldr	r3, [pc, #96]	; (802979c <UPS_CriticalAlarmMonitor+0x138>)
 802973a:	781e      	ldrb	r6, [r3, #0]
 802973c:	2e01      	cmp	r6, #1
 802973e:	d11b      	bne.n	8029778 <UPS_CriticalAlarmMonitor+0x114>
		  memset(str, 0, 30);
 8029740:	4668      	mov	r0, sp
 8029742:	2100      	movs	r1, #0
 8029744:	221e      	movs	r2, #30
 8029746:	f7f8 fb2b 	bl	8021da0 <memset>
		  if(CriticalAlarmCurrent){
 802974a:	b134      	cbz	r4, 802975a <UPS_CriticalAlarmMonitor+0xf6>
			  SetROInt(1, 1);
 802974c:	4630      	mov	r0, r6
 802974e:	4631      	mov	r1, r6
 8029750:	f7ff f837 	bl	80287c2 <SetROInt>
			  strcat(str, "Замкнуто");
 8029754:	4668      	mov	r0, sp
 8029756:	4912      	ldr	r1, [pc, #72]	; (80297a0 <UPS_CriticalAlarmMonitor+0x13c>)
 8029758:	e005      	b.n	8029766 <UPS_CriticalAlarmMonitor+0x102>
		  }
		  else{
			  SetROInt(0, 1);
 802975a:	4620      	mov	r0, r4
 802975c:	4631      	mov	r1, r6
 802975e:	f7ff f830 	bl	80287c2 <SetROInt>
			  strcat(str, "Разомкнуто");
 8029762:	4911      	ldr	r1, [pc, #68]	; (80297a8 <UPS_CriticalAlarmMonitor+0x144>)
 8029764:	4668      	mov	r0, sp
 8029766:	f7f8 fb81 	bl	8021e6c <strcat>
		  }
	  	  SNMP_SendUserTrap(DO1_TOGGLED);
 802976a:	2008      	movs	r0, #8
 802976c:	f00d fef0 	bl	8037550 <SNMP_SendUserTrap>
	  	log_event_data(LOG_DO1_STATE, str);
 8029770:	200a      	movs	r0, #10
 8029772:	4669      	mov	r1, sp
 8029774:	f000 fb80 	bl	8029e78 <log_event_data>
		  SNMP_SendUserTrap(DO1_TOGGLED);
		  log_event_data(LOG_DO1_STATE, str);
	  }
  }

  OldRO0type_Sourse = CurrRO1type_Sourse;
 8029778:	4b07      	ldr	r3, [pc, #28]	; (8029798 <UPS_CriticalAlarmMonitor+0x134>)
 802977a:	701d      	strb	r5, [r3, #0]
  OldRO2type_Sourse = CurrRO2type_Sourse;
 802977c:	4b07      	ldr	r3, [pc, #28]	; (802979c <UPS_CriticalAlarmMonitor+0x138>)
 802977e:	701f      	strb	r7, [r3, #0]
  CriticalAlarmOldState = CriticalAlarmCurrent;
 8029780:	4b04      	ldr	r3, [pc, #16]	; (8029794 <UPS_CriticalAlarmMonitor+0x130>)
 8029782:	701c      	strb	r4, [r3, #0]
}
 8029784:	b009      	add	sp, #36	; 0x24
 8029786:	bdf0      	pop	{r4, r5, r6, r7, pc}
 8029788:	2000cba0 	.word	0x2000cba0
 802978c:	20000b61 	.word	0x20000b61
 8029790:	20000b5e 	.word	0x20000b5e
 8029794:	20000b60 	.word	0x20000b60
 8029798:	20000b56 	.word	0x20000b56
 802979c:	20000b59 	.word	0x20000b59
 80297a0:	08038b19 	.word	0x08038b19
 80297a4:	2000cf64 	.word	0x2000cf64
 80297a8:	08038b2a 	.word	0x08038b2a

080297ac <UPS_NonCriticalAlarmMonitor>:

/**
  * @brief  Мониторинг бита NonCriticalAlarm
  */
void UPS_NonCriticalAlarmMonitor(void)
{
 80297ac:	b5f0      	push	{r4, r5, r6, r7, lr}
 80297ae:	b089      	sub	sp, #36	; 0x24
  static uint8_t OldRO0type_Sourse = 0;
  static uint8_t OldRO2type_Sourse = 0;
  uint8_t CurrRO2type_Sourse = 0;
  uint8_t CurrRO1type_Sourse = 0;
  char str[30];
  memset(str, 0, 30);
 80297b0:	2100      	movs	r1, #0
 80297b2:	221e      	movs	r2, #30
 80297b4:	4668      	mov	r0, sp
 80297b6:	f7f8 faf3 	bl	8021da0 <memset>

  CurrRO1type_Sourse = sSettings.sInOuts.ro_type_source[0];
  CurrRO2type_Sourse = sSettings.sInOuts.ro_type_source[1];
  NonCriticalAlarmCurrent = flNonCriticalAlarm;

  if (!isValueRecv) {
 80297ba:	4f3d      	ldr	r7, [pc, #244]	; (80298b0 <UPS_NonCriticalAlarmMonitor+0x104>)
  uint8_t CurrRO2type_Sourse = 0;
  uint8_t CurrRO1type_Sourse = 0;
  char str[30];
  memset(str, 0, 30);

  CurrRO1type_Sourse = sSettings.sInOuts.ro_type_source[0];
 80297bc:	4b3d      	ldr	r3, [pc, #244]	; (80298b4 <UPS_NonCriticalAlarmMonitor+0x108>)
  CurrRO2type_Sourse = sSettings.sInOuts.ro_type_source[1];
  NonCriticalAlarmCurrent = flNonCriticalAlarm;

  if (!isValueRecv) {
 80297be:	7839      	ldrb	r1, [r7, #0]
  uint8_t CurrRO2type_Sourse = 0;
  uint8_t CurrRO1type_Sourse = 0;
  char str[30];
  memset(str, 0, 30);

  CurrRO1type_Sourse = sSettings.sInOuts.ro_type_source[0];
 80297c0:	f893 5374 	ldrb.w	r5, [r3, #884]	; 0x374
  CurrRO2type_Sourse = sSettings.sInOuts.ro_type_source[1];
 80297c4:	f893 6375 	ldrb.w	r6, [r3, #885]	; 0x375
  NonCriticalAlarmCurrent = flNonCriticalAlarm;
 80297c8:	4b3b      	ldr	r3, [pc, #236]	; (80298b8 <UPS_NonCriticalAlarmMonitor+0x10c>)
 80297ca:	4a3c      	ldr	r2, [pc, #240]	; (80298bc <UPS_NonCriticalAlarmMonitor+0x110>)
 80297cc:	781c      	ldrb	r4, [r3, #0]
 80297ce:	4b3c      	ldr	r3, [pc, #240]	; (80298c0 <UPS_NonCriticalAlarmMonitor+0x114>)

  if (!isValueRecv) {
 80297d0:	bb19      	cbnz	r1, 802981a <UPS_NonCriticalAlarmMonitor+0x6e>
	isValueRecv = true;
	NonCriticalAlarmOldState = NonCriticalAlarmCurrent;
	OldRO0type_Sourse = CurrRO1type_Sourse;
 80297d2:	701d      	strb	r5, [r3, #0]
	OldRO2type_Sourse = CurrRO2type_Sourse;
 80297d4:	4b3b      	ldr	r3, [pc, #236]	; (80298c4 <UPS_NonCriticalAlarmMonitor+0x118>)
  CurrRO2type_Sourse = sSettings.sInOuts.ro_type_source[1];
  NonCriticalAlarmCurrent = flNonCriticalAlarm;

  if (!isValueRecv) {
	isValueRecv = true;
	NonCriticalAlarmOldState = NonCriticalAlarmCurrent;
 80297d6:	7014      	strb	r4, [r2, #0]
  CurrRO1type_Sourse = sSettings.sInOuts.ro_type_source[0];
  CurrRO2type_Sourse = sSettings.sInOuts.ro_type_source[1];
  NonCriticalAlarmCurrent = flNonCriticalAlarm;

  if (!isValueRecv) {
	isValueRecv = true;
 80297d8:	2001      	movs	r0, #1
	NonCriticalAlarmOldState = NonCriticalAlarmCurrent;
	OldRO0type_Sourse = CurrRO1type_Sourse;
	OldRO2type_Sourse = CurrRO2type_Sourse;
	if(OldRO0type_Sourse == NON_CRITICAL){
 80297da:	2d02      	cmp	r5, #2
  CurrRO1type_Sourse = sSettings.sInOuts.ro_type_source[0];
  CurrRO2type_Sourse = sSettings.sInOuts.ro_type_source[1];
  NonCriticalAlarmCurrent = flNonCriticalAlarm;

  if (!isValueRecv) {
	isValueRecv = true;
 80297dc:	7038      	strb	r0, [r7, #0]
	NonCriticalAlarmOldState = NonCriticalAlarmCurrent;
	OldRO0type_Sourse = CurrRO1type_Sourse;
	OldRO2type_Sourse = CurrRO2type_Sourse;
 80297de:	701e      	strb	r6, [r3, #0]
	if(OldRO0type_Sourse == NON_CRITICAL){
 80297e0:	d109      	bne.n	80297f6 <UPS_NonCriticalAlarmMonitor+0x4a>
	  if(NonCriticalAlarmCurrent){
 80297e2:	b144      	cbz	r4, 80297f6 <UPS_NonCriticalAlarmMonitor+0x4a>
		  SetROInt(1, 0);
 80297e4:	f7fe ffed 	bl	80287c2 <SetROInt>
		  SNMP_SendUserTrap(DO0_TOGGLED);
 80297e8:	2007      	movs	r0, #7
 80297ea:	f00d feb1 	bl	8037550 <SNMP_SendUserTrap>
		  log_event_data(LOG_DO0_STATE, "Замкнуто");
 80297ee:	2009      	movs	r0, #9
 80297f0:	4935      	ldr	r1, [pc, #212]	; (80298c8 <UPS_NonCriticalAlarmMonitor+0x11c>)
 80297f2:	f000 fb41 	bl	8029e78 <log_event_data>
	  }
	}
	  if(OldRO2type_Sourse == NON_CRITICAL){
 80297f6:	4b33      	ldr	r3, [pc, #204]	; (80298c4 <UPS_NonCriticalAlarmMonitor+0x118>)
 80297f8:	781b      	ldrb	r3, [r3, #0]
 80297fa:	2b02      	cmp	r3, #2
 80297fc:	d155      	bne.n	80298aa <UPS_NonCriticalAlarmMonitor+0xfe>
		  if(NonCriticalAlarmCurrent){
 80297fe:	2c00      	cmp	r4, #0
 8029800:	d053      	beq.n	80298aa <UPS_NonCriticalAlarmMonitor+0xfe>
			  SetROInt(1, 1);
 8029802:	2001      	movs	r0, #1
 8029804:	4601      	mov	r1, r0
 8029806:	f7fe ffdc 	bl	80287c2 <SetROInt>
			  SNMP_SendUserTrap(DO1_TOGGLED);
 802980a:	2008      	movs	r0, #8
 802980c:	f00d fea0 	bl	8037550 <SNMP_SendUserTrap>
			 log_event_data(LOG_DO1_STATE, "Замкнуто");
 8029810:	200a      	movs	r0, #10
 8029812:	492d      	ldr	r1, [pc, #180]	; (80298c8 <UPS_NonCriticalAlarmMonitor+0x11c>)
 8029814:	f000 fb30 	bl	8029e78 <log_event_data>
 8029818:	e047      	b.n	80298aa <UPS_NonCriticalAlarmMonitor+0xfe>
	  }
	return;
  }

  // Значение параметра изменило�ь
  if (NonCriticalAlarmCurrent != NonCriticalAlarmOldState)
 802981a:	7812      	ldrb	r2, [r2, #0]
 802981c:	42a2      	cmp	r2, r4
 802981e:	d03e      	beq.n	802989e <UPS_NonCriticalAlarmMonitor+0xf2>
  {
	  if(OldRO0type_Sourse == NON_CRITICAL){
 8029820:	781b      	ldrb	r3, [r3, #0]
 8029822:	2b02      	cmp	r3, #2
 8029824:	d11b      	bne.n	802985e <UPS_NonCriticalAlarmMonitor+0xb2>
		  memset(str, 0, 30);
 8029826:	4668      	mov	r0, sp
 8029828:	2100      	movs	r1, #0
 802982a:	221e      	movs	r2, #30
 802982c:	f7f8 fab8 	bl	8021da0 <memset>
		  if(NonCriticalAlarmCurrent){
 8029830:	b134      	cbz	r4, 8029840 <UPS_NonCriticalAlarmMonitor+0x94>
			  SetROInt(1, 0);
 8029832:	2001      	movs	r0, #1
 8029834:	2100      	movs	r1, #0
 8029836:	f7fe ffc4 	bl	80287c2 <SetROInt>
			  strcat(str, "Замкнуто");
 802983a:	4668      	mov	r0, sp
 802983c:	4922      	ldr	r1, [pc, #136]	; (80298c8 <UPS_NonCriticalAlarmMonitor+0x11c>)
 802983e:	e005      	b.n	802984c <UPS_NonCriticalAlarmMonitor+0xa0>
		  }
		  else{
			  SetROInt(0, 0);
 8029840:	4620      	mov	r0, r4
 8029842:	4621      	mov	r1, r4
 8029844:	f7fe ffbd 	bl	80287c2 <SetROInt>
			  strcat(str, "Разомкнуто");
 8029848:	4920      	ldr	r1, [pc, #128]	; (80298cc <UPS_NonCriticalAlarmMonitor+0x120>)
 802984a:	4668      	mov	r0, sp
 802984c:	f7f8 fb0e 	bl	8021e6c <strcat>
		  }
		  SNMP_SendUserTrap(DO0_TOGGLED);
 8029850:	2007      	movs	r0, #7
 8029852:	f00d fe7d 	bl	8037550 <SNMP_SendUserTrap>
		  log_event_data(LOG_DO0_STATE, str);
 8029856:	2009      	movs	r0, #9
 8029858:	4669      	mov	r1, sp
 802985a:	f000 fb0d 	bl	8029e78 <log_event_data>
	  }
	  if(OldRO2type_Sourse == NON_CRITICAL){
 802985e:	4b19      	ldr	r3, [pc, #100]	; (80298c4 <UPS_NonCriticalAlarmMonitor+0x118>)
 8029860:	781b      	ldrb	r3, [r3, #0]
 8029862:	2b02      	cmp	r3, #2
 8029864:	d11b      	bne.n	802989e <UPS_NonCriticalAlarmMonitor+0xf2>
		  memset(str, 0, 30);
 8029866:	4668      	mov	r0, sp
 8029868:	2100      	movs	r1, #0
 802986a:	221e      	movs	r2, #30
 802986c:	f7f8 fa98 	bl	8021da0 <memset>
		  if(NonCriticalAlarmCurrent){
 8029870:	b134      	cbz	r4, 8029880 <UPS_NonCriticalAlarmMonitor+0xd4>
			  SetROInt(1, 1);
 8029872:	2001      	movs	r0, #1
 8029874:	4601      	mov	r1, r0
 8029876:	f7fe ffa4 	bl	80287c2 <SetROInt>
			  strcat(str, "Разомкнуто");
 802987a:	4668      	mov	r0, sp
 802987c:	4913      	ldr	r1, [pc, #76]	; (80298cc <UPS_NonCriticalAlarmMonitor+0x120>)
 802987e:	e005      	b.n	802988c <UPS_NonCriticalAlarmMonitor+0xe0>
		  }
		  else{
			  SetROInt(0, 1);
 8029880:	4620      	mov	r0, r4
 8029882:	2101      	movs	r1, #1
 8029884:	f7fe ff9d 	bl	80287c2 <SetROInt>
			  strcat(str, "Замкнуто");
 8029888:	490f      	ldr	r1, [pc, #60]	; (80298c8 <UPS_NonCriticalAlarmMonitor+0x11c>)
 802988a:	4668      	mov	r0, sp
 802988c:	f7f8 faee 	bl	8021e6c <strcat>
		  }
	  	  SNMP_SendUserTrap(DO1_TOGGLED);
 8029890:	2008      	movs	r0, #8
 8029892:	f00d fe5d 	bl	8037550 <SNMP_SendUserTrap>
	  	log_event_data(LOG_DO1_STATE, str);
 8029896:	200a      	movs	r0, #10
 8029898:	4669      	mov	r1, sp
 802989a:	f000 faed 	bl	8029e78 <log_event_data>
		  SNMP_SendUserTrap(DO1_TOGGLED);
		  log_event_data(LOG_DO1_STATE, str);
	  }
  }

  OldRO0type_Sourse = CurrRO1type_Sourse;
 802989e:	4b08      	ldr	r3, [pc, #32]	; (80298c0 <UPS_NonCriticalAlarmMonitor+0x114>)
 80298a0:	701d      	strb	r5, [r3, #0]
  OldRO2type_Sourse = CurrRO2type_Sourse;
 80298a2:	4b08      	ldr	r3, [pc, #32]	; (80298c4 <UPS_NonCriticalAlarmMonitor+0x118>)
 80298a4:	701e      	strb	r6, [r3, #0]
  NonCriticalAlarmOldState = NonCriticalAlarmCurrent;
 80298a6:	4b05      	ldr	r3, [pc, #20]	; (80298bc <UPS_NonCriticalAlarmMonitor+0x110>)
 80298a8:	701c      	strb	r4, [r3, #0]
}
 80298aa:	b009      	add	sp, #36	; 0x24
 80298ac:	bdf0      	pop	{r4, r5, r6, r7, pc}
 80298ae:	bf00      	nop
 80298b0:	20000b62 	.word	0x20000b62
 80298b4:	2000cba0 	.word	0x2000cba0
 80298b8:	20000b67 	.word	0x20000b67
 80298bc:	20000b69 	.word	0x20000b69
 80298c0:	20000b64 	.word	0x20000b64
 80298c4:	20000b5f 	.word	0x20000b5f
 80298c8:	08038b19 	.word	0x08038b19
 80298cc:	08038b2a 	.word	0x08038b2a

080298d0 <UPS_LineFailMonitor>:

/**
  * @brief  Мониторинг бита LainFail
  */
void UPS_LineFailMonitor(void)
{
 80298d0:	b538      	push	{r3, r4, r5, lr}
  static uint8_t lineFailOldState = 0;
  uint8_t lineFailCurrent;
  
  lineFailCurrent = (UPS.Status >> 7) & 0x01;
  
  if (!isValueRecv) {
 80298d2:	4a17      	ldr	r2, [pc, #92]	; (8029930 <UPS_LineFailMonitor+0x60>)
{
  static bool isValueRecv = false;
  static uint8_t lineFailOldState = 0;
  uint8_t lineFailCurrent;
  
  lineFailCurrent = (UPS.Status >> 7) & 0x01;
 80298d4:	4b17      	ldr	r3, [pc, #92]	; (8029934 <UPS_LineFailMonitor+0x64>)
  
  if (!isValueRecv) {
 80298d6:	7811      	ldrb	r1, [r2, #0]
{
  static bool isValueRecv = false;
  static uint8_t lineFailOldState = 0;
  uint8_t lineFailCurrent;
  
  lineFailCurrent = (UPS.Status >> 7) & 0x01;
 80298d8:	7cdc      	ldrb	r4, [r3, #19]
 80298da:	4b17      	ldr	r3, [pc, #92]	; (8029938 <UPS_LineFailMonitor+0x68>)
 80298dc:	09e4      	lsrs	r4, r4, #7
  
  if (!isValueRecv) {
 80298de:	b969      	cbnz	r1, 80298fc <UPS_LineFailMonitor+0x2c>
    isValueRecv = true;
 80298e0:	2501      	movs	r5, #1
 80298e2:	7015      	strb	r5, [r2, #0]
    lineFailOldState = lineFailCurrent;
 80298e4:	701c      	strb	r4, [r3, #0]
    if (lineFailCurrent){
 80298e6:	b314      	cbz	r4, 802992e <UPS_LineFailMonitor+0x5e>
    	log_event_data(LOG_ALARM_LINE, "�вари�");
 80298e8:	200c      	movs	r0, #12
 80298ea:	4914      	ldr	r1, [pc, #80]	; (802993c <UPS_LineFailMonitor+0x6c>)
 80298ec:	f000 fac4 	bl	8029e78 <log_event_data>
          SNMP_SendUserTrap(LINE_ALARM);
 80298f0:	200b      	movs	r0, #11
 80298f2:	f00d fe2d 	bl	8037550 <SNMP_SendUserTrap>
          flUpdateLog = true;
 80298f6:	4b12      	ldr	r3, [pc, #72]	; (8029940 <UPS_LineFailMonitor+0x70>)
 80298f8:	701d      	strb	r5, [r3, #0]
 80298fa:	bd38      	pop	{r3, r4, r5, pc}
    }
    return;
  }

  if (lineFailCurrent)
 80298fc:	b114      	cbz	r4, 8029904 <UPS_LineFailMonitor+0x34>
	  flCriticalAlarm = true;
 80298fe:	4a11      	ldr	r2, [pc, #68]	; (8029944 <UPS_LineFailMonitor+0x74>)
 8029900:	2101      	movs	r1, #1
 8029902:	7011      	strb	r1, [r2, #0]
    
  // Значение параметра изменило�ь
  if (lineFailCurrent != lineFailOldState)
 8029904:	781b      	ldrb	r3, [r3, #0]
 8029906:	42a3      	cmp	r3, r4
 8029908:	d00f      	beq.n	802992a <UPS_LineFailMonitor+0x5a>
 802990a:	4d0d      	ldr	r5, [pc, #52]	; (8029940 <UPS_LineFailMonitor+0x70>)
  {
    if (lineFailCurrent){
      log_event_data(LOG_ALARM_LINE, "�вари�");
 802990c:	200c      	movs	r0, #12
	  flCriticalAlarm = true;
    
  // Значение параметра изменило�ь
  if (lineFailCurrent != lineFailOldState)
  {
    if (lineFailCurrent){
 802990e:	b124      	cbz	r4, 802991a <UPS_LineFailMonitor+0x4a>
      log_event_data(LOG_ALARM_LINE, "�вари�");
 8029910:	490a      	ldr	r1, [pc, #40]	; (802993c <UPS_LineFailMonitor+0x6c>)
 8029912:	f000 fab1 	bl	8029e78 <log_event_data>
      SNMP_SendUserTrap(LINE_ALARM);
 8029916:	200b      	movs	r0, #11
 8029918:	e003      	b.n	8029922 <UPS_LineFailMonitor+0x52>
      flUpdateLog = true;
    }
    else{
      log_event_data(LOG_ALARM_LINE, "�орма");
 802991a:	490b      	ldr	r1, [pc, #44]	; (8029948 <UPS_LineFailMonitor+0x78>)
 802991c:	f000 faac 	bl	8029e78 <log_event_data>
      SNMP_SendUserTrap(LINE_NORM);
 8029920:	200c      	movs	r0, #12
 8029922:	f00d fe15 	bl	8037550 <SNMP_SendUserTrap>
      flUpdateLog = true;
 8029926:	2301      	movs	r3, #1
 8029928:	702b      	strb	r3, [r5, #0]
    }
  }
  
  lineFailOldState = lineFailCurrent;
 802992a:	4b03      	ldr	r3, [pc, #12]	; (8029938 <UPS_LineFailMonitor+0x68>)
 802992c:	701c      	strb	r4, [r3, #0]
 802992e:	bd38      	pop	{r3, r4, r5, pc}
 8029930:	20000b65 	.word	0x20000b65
 8029934:	2000cf64 	.word	0x2000cf64
 8029938:	20000b58 	.word	0x20000b58
 802993c:	08038b01 	.word	0x08038b01
 8029940:	20000bc4 	.word	0x20000bc4
 8029944:	20000b61 	.word	0x20000b61
 8029948:	08038b0e 	.word	0x08038b0e

0802994c <UPS_LowBatMonitor>:

/**
  * @brief  Мониторинг бита LowBat  
  */
void UPS_LowBatMonitor(void)
{
 802994c:	b538      	push	{r3, r4, r5, lr}
  static bool isValueRecv = false;
  static uint8_t lowBatOldState = 0;
  uint8_t lowBatCurrent;
  if((UPS.Status >> 7) & 0x01)
 802994e:	4b19      	ldr	r3, [pc, #100]	; (80299b4 <UPS_LowBatMonitor+0x68>)
	  lowBatCurrent = (UPS.Status >> 6) & 0x01;
  else
	  lowBatCurrent = 0;
  
  if (!isValueRecv) {
 8029950:	4a19      	ldr	r2, [pc, #100]	; (80299b8 <UPS_LowBatMonitor+0x6c>)
void UPS_LowBatMonitor(void)
{
  static bool isValueRecv = false;
  static uint8_t lowBatOldState = 0;
  uint8_t lowBatCurrent;
  if((UPS.Status >> 7) & 0x01)
 8029952:	7cdb      	ldrb	r3, [r3, #19]
	  lowBatCurrent = (UPS.Status >> 6) & 0x01;
  else
	  lowBatCurrent = 0;
  
  if (!isValueRecv) {
 8029954:	7811      	ldrb	r1, [r2, #0]
void UPS_LowBatMonitor(void)
{
  static bool isValueRecv = false;
  static uint8_t lowBatOldState = 0;
  uint8_t lowBatCurrent;
  if((UPS.Status >> 7) & 0x01)
 8029956:	09dc      	lsrs	r4, r3, #7
	  lowBatCurrent = (UPS.Status >> 6) & 0x01;
 8029958:	bf18      	it	ne
 802995a:	f3c3 1480 	ubfxne	r4, r3, #6, #1
 802995e:	4b17      	ldr	r3, [pc, #92]	; (80299bc <UPS_LowBatMonitor+0x70>)
  else
	  lowBatCurrent = 0;
  
  if (!isValueRecv) {
 8029960:	b969      	cbnz	r1, 802997e <UPS_LowBatMonitor+0x32>
    isValueRecv = true;
 8029962:	2501      	movs	r5, #1
 8029964:	7015      	strb	r5, [r2, #0]
    lowBatOldState = lowBatCurrent;
 8029966:	701c      	strb	r4, [r3, #0]
    if (lowBatCurrent){
 8029968:	b31c      	cbz	r4, 80299b2 <UPS_LowBatMonitor+0x66>
    	log_event_data(LOG_ALARM_LOW_BAT, "�вари�");
 802996a:	200d      	movs	r0, #13
 802996c:	4914      	ldr	r1, [pc, #80]	; (80299c0 <UPS_LowBatMonitor+0x74>)
 802996e:	f000 fa83 	bl	8029e78 <log_event_data>
          SNMP_SendUserTrap(LOW_BAT_ALARM);
 8029972:	200d      	movs	r0, #13
 8029974:	f00d fdec 	bl	8037550 <SNMP_SendUserTrap>
          flUpdateLog = true;
 8029978:	4b12      	ldr	r3, [pc, #72]	; (80299c4 <UPS_LowBatMonitor+0x78>)
 802997a:	701d      	strb	r5, [r3, #0]
 802997c:	bd38      	pop	{r3, r4, r5, pc}
    }
    return;
  }
  if (lowBatCurrent)
 802997e:	b114      	cbz	r4, 8029986 <UPS_LowBatMonitor+0x3a>
	  flNonCriticalAlarm = true;
 8029980:	4a11      	ldr	r2, [pc, #68]	; (80299c8 <UPS_LowBatMonitor+0x7c>)
 8029982:	2101      	movs	r1, #1
 8029984:	7011      	strb	r1, [r2, #0]
  // Значение параметра изменило�ь
  if (lowBatCurrent != lowBatOldState)
 8029986:	781b      	ldrb	r3, [r3, #0]
 8029988:	42a3      	cmp	r3, r4
 802998a:	d010      	beq.n	80299ae <UPS_LowBatMonitor+0x62>
 802998c:	4d0d      	ldr	r5, [pc, #52]	; (80299c4 <UPS_LowBatMonitor+0x78>)
  {
    if (lowBatCurrent){
 802998e:	b12c      	cbz	r4, 802999c <UPS_LowBatMonitor+0x50>
      SNMP_SendUserTrap(LOW_BAT_ALARM);
 8029990:	200d      	movs	r0, #13
 8029992:	f00d fddd 	bl	8037550 <SNMP_SendUserTrap>
      log_event_data(LOG_ALARM_LOW_BAT, "�вари�");
 8029996:	200d      	movs	r0, #13
 8029998:	4909      	ldr	r1, [pc, #36]	; (80299c0 <UPS_LowBatMonitor+0x74>)
 802999a:	e004      	b.n	80299a6 <UPS_LowBatMonitor+0x5a>
      flUpdateLog = true;
    }
    else{
      SNMP_SendUserTrap(LOW_BAT_NORM);
 802999c:	200e      	movs	r0, #14
 802999e:	f00d fdd7 	bl	8037550 <SNMP_SendUserTrap>
      log_event_data(LOG_ALARM_LOW_BAT, "�орма");
 80299a2:	490a      	ldr	r1, [pc, #40]	; (80299cc <UPS_LowBatMonitor+0x80>)
 80299a4:	200d      	movs	r0, #13
 80299a6:	f000 fa67 	bl	8029e78 <log_event_data>
      flUpdateLog = true;
 80299aa:	2301      	movs	r3, #1
 80299ac:	702b      	strb	r3, [r5, #0]
    }
  }
  
  lowBatOldState = lowBatCurrent;
 80299ae:	4b03      	ldr	r3, [pc, #12]	; (80299bc <UPS_LowBatMonitor+0x70>)
 80299b0:	701c      	strb	r4, [r3, #0]
 80299b2:	bd38      	pop	{r3, r4, r5, pc}
 80299b4:	2000cf64 	.word	0x2000cf64
 80299b8:	20000b68 	.word	0x20000b68
 80299bc:	20000b5b 	.word	0x20000b5b
 80299c0:	08038b01 	.word	0x08038b01
 80299c4:	20000bc4 	.word	0x20000bc4
 80299c8:	20000b67 	.word	0x20000b67
 80299cc:	08038b0e 	.word	0x08038b0e

080299d0 <UPS_PowerMonitor>:

/**
  * @brief  Мониторинг нагрузки 
  */
void UPS_PowerMonitor(void)
{
 80299d0:	b538      	push	{r3, r4, r5, lr}
  float load;
  static uint8_t stateCurrent = HYST_IDLE;
    
  load = UPS.Load;
 80299d2:	4c22      	ldr	r4, [pc, #136]	; (8029a5c <UPS_PowerMonitor+0x8c>)
 80299d4:	7c20      	ldrb	r0, [r4, #16]
 80299d6:	f7f7 f9db 	bl	8020d90 <__aeabi_ui2f>

  /* От�леживает�� переход через верхнюю границу */
  if (load > UPS_LOAD)
 80299da:	4921      	ldr	r1, [pc, #132]	; (8029a60 <UPS_PowerMonitor+0x90>)
void UPS_PowerMonitor(void)
{
  float load;
  static uint8_t stateCurrent = HYST_IDLE;
    
  load = UPS.Load;
 80299dc:	4605      	mov	r5, r0

  /* От�леживает�� переход через верхнюю границу */
  if (load > UPS_LOAD)
 80299de:	f7f7 fbeb 	bl	80211b8 <__aeabi_fcmpgt>
 80299e2:	b1d8      	cbz	r0, 8029a1c <UPS_PowerMonitor+0x4c>
  {
	flCriticalAlarm = true;
 80299e4:	4b1f      	ldr	r3, [pc, #124]	; (8029a64 <UPS_PowerMonitor+0x94>)
 80299e6:	2501      	movs	r5, #1
 80299e8:	701d      	strb	r5, [r3, #0]
	UPS.Alarm = (UPS.Alarm & 0x0e) | (1 << 0);
 80299ea:	7d23      	ldrb	r3, [r4, #20]
 80299ec:	f003 030e 	and.w	r3, r3, #14
 80299f0:	432b      	orrs	r3, r5
 80299f2:	7523      	strb	r3, [r4, #20]
    if (stateCurrent == HYST_IDLE)
 80299f4:	4c1c      	ldr	r4, [pc, #112]	; (8029a68 <UPS_PowerMonitor+0x98>)
 80299f6:	7823      	ldrb	r3, [r4, #0]
 80299f8:	bb73      	cbnz	r3, 8029a58 <UPS_PowerMonitor+0x88>
	{
      LED_On(LED_MINOR_R);
 80299fa:	200d      	movs	r0, #13
 80299fc:	f7ff f9a4 	bl	8028d48 <LED_On>
      LED_On(LED_MINOR_G);
 8029a00:	200c      	movs	r0, #12
 8029a02:	f7ff f9a1 	bl	8028d48 <LED_On>
	  stateCurrent = HYST_UP;
      
	  log_event_data(LOG_ALARM_POWER, "�вари�");
 8029a06:	200e      	movs	r0, #14
 8029a08:	4918      	ldr	r1, [pc, #96]	; (8029a6c <UPS_PowerMonitor+0x9c>)
	UPS.Alarm = (UPS.Alarm & 0x0e) | (1 << 0);
    if (stateCurrent == HYST_IDLE)
	{
      LED_On(LED_MINOR_R);
      LED_On(LED_MINOR_G);
	  stateCurrent = HYST_UP;
 8029a0a:	7025      	strb	r5, [r4, #0]
      
	  log_event_data(LOG_ALARM_POWER, "�вари�");
 8029a0c:	f000 fa34 	bl	8029e78 <log_event_data>
	  // Отправка трапа о завышении 
	  SNMP_SendUserTrap(POWER_ALARM);
 8029a10:	200f      	movs	r0, #15
 8029a12:	f00d fd9d 	bl	8037550 <SNMP_SendUserTrap>
	  flUpdateLog = true;
 8029a16:	4b16      	ldr	r3, [pc, #88]	; (8029a70 <UPS_PowerMonitor+0xa0>)
 8029a18:	701d      	strb	r5, [r3, #0]
 8029a1a:	bd38      	pop	{r3, r4, r5, pc}
	}
  }
  /* От�леживает�� нормализаци� */
  else if (load < (UPS_LOAD - UPS_LOAD_HIST))
 8029a1c:	4628      	mov	r0, r5
 8029a1e:	4915      	ldr	r1, [pc, #84]	; (8029a74 <UPS_PowerMonitor+0xa4>)
 8029a20:	f7f7 fbac 	bl	802117c <__aeabi_fcmplt>
 8029a24:	b1c0      	cbz	r0, 8029a58 <UPS_PowerMonitor+0x88>
  {
	UPS.Alarm = (UPS.Alarm & 0x0e);
 8029a26:	7d23      	ldrb	r3, [r4, #20]
    if (stateCurrent == HYST_UP)
 8029a28:	4d0f      	ldr	r5, [pc, #60]	; (8029a68 <UPS_PowerMonitor+0x98>)
	}
  }
  /* От�леживает�� нормализаци� */
  else if (load < (UPS_LOAD - UPS_LOAD_HIST))
  {
	UPS.Alarm = (UPS.Alarm & 0x0e);
 8029a2a:	f003 030e 	and.w	r3, r3, #14
 8029a2e:	7523      	strb	r3, [r4, #20]
    if (stateCurrent == HYST_UP)
 8029a30:	782c      	ldrb	r4, [r5, #0]
 8029a32:	2c01      	cmp	r4, #1
 8029a34:	d110      	bne.n	8029a58 <UPS_PowerMonitor+0x88>
	{
    	LED_Off(LED_MINOR_R);
 8029a36:	200d      	movs	r0, #13
 8029a38:	f7ff f989 	bl	8028d4e <LED_Off>
    	LED_Off(LED_MINOR_G);
 8029a3c:	200c      	movs	r0, #12
 8029a3e:	f7ff f986 	bl	8028d4e <LED_Off>
	  stateCurrent = HYST_IDLE;
 8029a42:	2300      	movs	r3, #0
      
	  log_event_data(LOG_ALARM_POWER, "�орма");
 8029a44:	200e      	movs	r0, #14
 8029a46:	490c      	ldr	r1, [pc, #48]	; (8029a78 <UPS_PowerMonitor+0xa8>)
	UPS.Alarm = (UPS.Alarm & 0x0e);
    if (stateCurrent == HYST_UP)
	{
    	LED_Off(LED_MINOR_R);
    	LED_Off(LED_MINOR_G);
	  stateCurrent = HYST_IDLE;
 8029a48:	702b      	strb	r3, [r5, #0]
      
	  log_event_data(LOG_ALARM_POWER, "�орма");
 8029a4a:	f000 fa15 	bl	8029e78 <log_event_data>
	  // Отправка трапа о нормализации 
	  SNMP_SendUserTrap(POWER_NORM);
 8029a4e:	2010      	movs	r0, #16
 8029a50:	f00d fd7e 	bl	8037550 <SNMP_SendUserTrap>
	  flUpdateLog = true;
 8029a54:	4b06      	ldr	r3, [pc, #24]	; (8029a70 <UPS_PowerMonitor+0xa0>)
 8029a56:	701c      	strb	r4, [r3, #0]
 8029a58:	bd38      	pop	{r3, r4, r5, pc}
 8029a5a:	bf00      	nop
 8029a5c:	2000cf64 	.word	0x2000cf64
 8029a60:	428c0000 	.word	0x428c0000
 8029a64:	20000b61 	.word	0x20000b61
 8029a68:	20000b5c 	.word	0x20000b5c
 8029a6c:	08038b01 	.word	0x08038b01
 8029a70:	20000bc4 	.word	0x20000bc4
 8029a74:	428a0000 	.word	0x428a0000
 8029a78:	08038b0e 	.word	0x08038b0e

08029a7c <UPS_TemperatureMonitor>:

/**
  * @brief  Мониторинг температуры 
  */
void UPS_TemperatureMonitor(void)
{
 8029a7c:	b538      	push	{r3, r4, r5, lr}
  float temperature;
  static uint8_t stateCurrent = HYST_IDLE;
    
  temperature = UPS.Temp;
 8029a7e:	4c1b      	ldr	r4, [pc, #108]	; (8029aec <UPS_TemperatureMonitor+0x70>)

  /* От�леживает�� переход через верхнюю границу */
  if (temperature > UPS_TEMPERATURE)
 8029a80:	491b      	ldr	r1, [pc, #108]	; (8029af0 <UPS_TemperatureMonitor+0x74>)
void UPS_TemperatureMonitor(void)
{
  float temperature;
  static uint8_t stateCurrent = HYST_IDLE;
    
  temperature = UPS.Temp;
 8029a82:	68e5      	ldr	r5, [r4, #12]

  /* От�леживает�� переход через верхнюю границу */
  if (temperature > UPS_TEMPERATURE)
 8029a84:	4628      	mov	r0, r5
 8029a86:	f7f7 fb97 	bl	80211b8 <__aeabi_fcmpgt>
 8029a8a:	b1b0      	cbz	r0, 8029aba <UPS_TemperatureMonitor+0x3e>
  {
	flCriticalAlarm = true;
 8029a8c:	4b19      	ldr	r3, [pc, #100]	; (8029af4 <UPS_TemperatureMonitor+0x78>)
 8029a8e:	2501      	movs	r5, #1
 8029a90:	701d      	strb	r5, [r3, #0]
	UPS.Alarm = (UPS.Alarm & 0x0d) | (1 << 1);
 8029a92:	7d23      	ldrb	r3, [r4, #20]
 8029a94:	f003 030d 	and.w	r3, r3, #13
 8029a98:	f043 0302 	orr.w	r3, r3, #2
 8029a9c:	7523      	strb	r3, [r4, #20]
    if (stateCurrent == HYST_IDLE)
 8029a9e:	4b16      	ldr	r3, [pc, #88]	; (8029af8 <UPS_TemperatureMonitor+0x7c>)
 8029aa0:	781a      	ldrb	r2, [r3, #0]
 8029aa2:	bb12      	cbnz	r2, 8029aea <UPS_TemperatureMonitor+0x6e>
	{
	  stateCurrent = HYST_UP;
      

	  log_event_data(LOG_ALARM_TEMP, "�вари�");
 8029aa4:	200b      	movs	r0, #11
 8029aa6:	4915      	ldr	r1, [pc, #84]	; (8029afc <UPS_TemperatureMonitor+0x80>)
  {
	flCriticalAlarm = true;
	UPS.Alarm = (UPS.Alarm & 0x0d) | (1 << 1);
    if (stateCurrent == HYST_IDLE)
	{
	  stateCurrent = HYST_UP;
 8029aa8:	701d      	strb	r5, [r3, #0]
      

	  log_event_data(LOG_ALARM_TEMP, "�вари�");
 8029aaa:	f000 f9e5 	bl	8029e78 <log_event_data>
	  // Отправка трапа о завышении 
	  SNMP_SendUserTrap(BATTERY_TEMPERATURE_ALARM);
 8029aae:	200a      	movs	r0, #10
 8029ab0:	f00d fd4e 	bl	8037550 <SNMP_SendUserTrap>
	  flUpdateLog = true;
 8029ab4:	4b12      	ldr	r3, [pc, #72]	; (8029b00 <UPS_TemperatureMonitor+0x84>)
 8029ab6:	701d      	strb	r5, [r3, #0]
 8029ab8:	bd38      	pop	{r3, r4, r5, pc}
	}
  }
  /* От�леживает�� нормализаци� */
  else if (temperature < (UPS_TEMPERATURE - UPS_TEMPERATURE_HIST))
 8029aba:	4628      	mov	r0, r5
 8029abc:	4911      	ldr	r1, [pc, #68]	; (8029b04 <UPS_TemperatureMonitor+0x88>)
 8029abe:	f7f7 fb5d 	bl	802117c <__aeabi_fcmplt>
 8029ac2:	b190      	cbz	r0, 8029aea <UPS_TemperatureMonitor+0x6e>
  {
	  UPS.Alarm = (UPS.Alarm & 0x0d);
 8029ac4:	7d23      	ldrb	r3, [r4, #20]
 8029ac6:	f003 030d 	and.w	r3, r3, #13
 8029aca:	7523      	strb	r3, [r4, #20]
    if (stateCurrent == HYST_UP)
 8029acc:	4b0a      	ldr	r3, [pc, #40]	; (8029af8 <UPS_TemperatureMonitor+0x7c>)
 8029ace:	781c      	ldrb	r4, [r3, #0]
 8029ad0:	2c01      	cmp	r4, #1
 8029ad2:	d10a      	bne.n	8029aea <UPS_TemperatureMonitor+0x6e>
	{
	  stateCurrent = HYST_IDLE;
 8029ad4:	2200      	movs	r2, #0
      
	  log_event_data(LOG_ALARM_TEMP, "�орма");
 8029ad6:	200b      	movs	r0, #11
 8029ad8:	490b      	ldr	r1, [pc, #44]	; (8029b08 <UPS_TemperatureMonitor+0x8c>)
  else if (temperature < (UPS_TEMPERATURE - UPS_TEMPERATURE_HIST))
  {
	  UPS.Alarm = (UPS.Alarm & 0x0d);
    if (stateCurrent == HYST_UP)
	{
	  stateCurrent = HYST_IDLE;
 8029ada:	701a      	strb	r2, [r3, #0]
      
	  log_event_data(LOG_ALARM_TEMP, "�орма");
 8029adc:	f000 f9cc 	bl	8029e78 <log_event_data>
	  // Отправка трапа о нормализации 
	  SNMP_SendUserTrap(BATTERY_TEMPERATURE_NORM);
 8029ae0:	2009      	movs	r0, #9
 8029ae2:	f00d fd35 	bl	8037550 <SNMP_SendUserTrap>
	  flUpdateLog = true;
 8029ae6:	4b06      	ldr	r3, [pc, #24]	; (8029b00 <UPS_TemperatureMonitor+0x84>)
 8029ae8:	701c      	strb	r4, [r3, #0]
 8029aea:	bd38      	pop	{r3, r4, r5, pc}
 8029aec:	2000cf64 	.word	0x2000cf64
 8029af0:	42200000 	.word	0x42200000
 8029af4:	20000b61 	.word	0x20000b61
 8029af8:	20000b6a 	.word	0x20000b6a
 8029afc:	08038b01 	.word	0x08038b01
 8029b00:	20000bc4 	.word	0x20000bc4
 8029b04:	421c0000 	.word	0x421c0000
 8029b08:	08038b0e 	.word	0x08038b0e

08029b0c <UPS_ConnectMonitor>:

/**
  * @brief  Мониторинг параметра upsParams.connect
  */
void UPS_ConnectMonitor(void)
{
 8029b0c:	b538      	push	{r3, r4, r5, lr}
  static bool isValueRecv = false;
  static uint8_t connectOldState = 0;
  uint8_t connectCurrent;
  
  connectCurrent = UPS.Present;
 8029b0e:	4b1b      	ldr	r3, [pc, #108]	; (8029b7c <UPS_ConnectMonitor+0x70>)
  
  UPS.Alarm = (UPS.Alarm & 0x0b) | ((connectCurrent^1) << 2);
 8029b10:	7d1a      	ldrb	r2, [r3, #20]
{
  static bool isValueRecv = false;
  static uint8_t connectOldState = 0;
  uint8_t connectCurrent;
  
  connectCurrent = UPS.Present;
 8029b12:	f893 402c 	ldrb.w	r4, [r3, #44]	; 0x2c
  
  UPS.Alarm = (UPS.Alarm & 0x0b) | ((connectCurrent^1) << 2);
 8029b16:	f002 020b 	and.w	r2, r2, #11
 8029b1a:	f084 0101 	eor.w	r1, r4, #1
 8029b1e:	ea42 0281 	orr.w	r2, r2, r1, lsl #2
 8029b22:	751a      	strb	r2, [r3, #20]

  if (!isValueRecv) {
 8029b24:	4a16      	ldr	r2, [pc, #88]	; (8029b80 <UPS_ConnectMonitor+0x74>)
 8029b26:	4b17      	ldr	r3, [pc, #92]	; (8029b84 <UPS_ConnectMonitor+0x78>)
 8029b28:	7811      	ldrb	r1, [r2, #0]
 8029b2a:	b969      	cbnz	r1, 8029b48 <UPS_ConnectMonitor+0x3c>
    isValueRecv = true;
 8029b2c:	2501      	movs	r5, #1
 8029b2e:	7015      	strb	r5, [r2, #0]
    connectOldState = connectCurrent;
 8029b30:	701c      	strb	r4, [r3, #0]
    if (!connectCurrent){
 8029b32:	bb14      	cbnz	r4, 8029b7a <UPS_ConnectMonitor+0x6e>
    	log_event_data(LOG_ALARM_UPS, "�вари�");
 8029b34:	200f      	movs	r0, #15
 8029b36:	4914      	ldr	r1, [pc, #80]	; (8029b88 <UPS_ConnectMonitor+0x7c>)
 8029b38:	f000 f99e 	bl	8029e78 <log_event_data>
    	SNMP_SendUserTrap(CONNECT_MONITOR_ALARM);
 8029b3c:	2011      	movs	r0, #17
 8029b3e:	f00d fd07 	bl	8037550 <SNMP_SendUserTrap>
    	flUpdateLog = true;
 8029b42:	4b12      	ldr	r3, [pc, #72]	; (8029b8c <UPS_ConnectMonitor+0x80>)
 8029b44:	701d      	strb	r5, [r3, #0]
 8029b46:	bd38      	pop	{r3, r4, r5, pc}
    }
    return;
  }
  if (!connectCurrent)
 8029b48:	b914      	cbnz	r4, 8029b50 <UPS_ConnectMonitor+0x44>
  	  flCriticalAlarm = true;
 8029b4a:	4a11      	ldr	r2, [pc, #68]	; (8029b90 <UPS_ConnectMonitor+0x84>)
 8029b4c:	2101      	movs	r1, #1
 8029b4e:	7011      	strb	r1, [r2, #0]
  // Значение параметра изменило�ь
  if (connectCurrent != connectOldState)
 8029b50:	781b      	ldrb	r3, [r3, #0]
 8029b52:	42a3      	cmp	r3, r4
 8029b54:	d00f      	beq.n	8029b76 <UPS_ConnectMonitor+0x6a>
 8029b56:	4d0d      	ldr	r5, [pc, #52]	; (8029b8c <UPS_ConnectMonitor+0x80>)
  {
    if (connectCurrent){
      log_event_data(LOG_ALARM_UPS, "�орма");
 8029b58:	200f      	movs	r0, #15
  if (!connectCurrent)
  	  flCriticalAlarm = true;
  // Значение параметра изменило�ь
  if (connectCurrent != connectOldState)
  {
    if (connectCurrent){
 8029b5a:	b124      	cbz	r4, 8029b66 <UPS_ConnectMonitor+0x5a>
      log_event_data(LOG_ALARM_UPS, "�орма");
 8029b5c:	490d      	ldr	r1, [pc, #52]	; (8029b94 <UPS_ConnectMonitor+0x88>)
 8029b5e:	f000 f98b 	bl	8029e78 <log_event_data>
      SNMP_SendUserTrap(CONNECT_MONITOR_NORM);
 8029b62:	2012      	movs	r0, #18
 8029b64:	e003      	b.n	8029b6e <UPS_ConnectMonitor+0x62>
      flUpdateLog = true;
    }
    else{
      log_event_data(LOG_ALARM_UPS, "�вари�");
 8029b66:	4908      	ldr	r1, [pc, #32]	; (8029b88 <UPS_ConnectMonitor+0x7c>)
 8029b68:	f000 f986 	bl	8029e78 <log_event_data>
      SNMP_SendUserTrap(CONNECT_MONITOR_ALARM);
 8029b6c:	2011      	movs	r0, #17
 8029b6e:	f00d fcef 	bl	8037550 <SNMP_SendUserTrap>
      flUpdateLog = true;
 8029b72:	2301      	movs	r3, #1
 8029b74:	702b      	strb	r3, [r5, #0]
    }
  }
  
  connectOldState = connectCurrent;
 8029b76:	4b03      	ldr	r3, [pc, #12]	; (8029b84 <UPS_ConnectMonitor+0x78>)
 8029b78:	701c      	strb	r4, [r3, #0]
 8029b7a:	bd38      	pop	{r3, r4, r5, pc}
 8029b7c:	2000cf64 	.word	0x2000cf64
 8029b80:	20000b57 	.word	0x20000b57
 8029b84:	20000b6b 	.word	0x20000b6b
 8029b88:	08038b01 	.word	0x08038b01
 8029b8c:	20000bc4 	.word	0x20000bc4
 8029b90:	20000b61 	.word	0x20000b61
 8029b94:	08038b0e 	.word	0x08038b0e

08029b98 <UPS_BatteryConnectMonitor>:

/**
  * @brief  Мониторинг параметра upsParams.connect
  */
void UPS_BatteryConnectMonitor(void)
{
 8029b98:	b538      	push	{r3, r4, r5, lr}
  static bool isValueRecv = false;
  static uint8_t AKBconnectOldState = 0;
  uint8_t AKBconnectCurrent;

  if(((UPS.Status >> 7) & 0x01) == 0)
 8029b9a:	4b1d      	ldr	r3, [pc, #116]	; (8029c10 <UPS_BatteryConnectMonitor+0x78>)
 8029b9c:	7cdc      	ldrb	r4, [r3, #19]
 8029b9e:	09e2      	lsrs	r2, r4, #7
	  AKBconnectCurrent = (UPS.Status >> 6) & 0x01;
  else{
	  AKBconnectCurrent = 0;
  }

  UPS.Alarm = (UPS.Alarm & 0x07) | (AKBconnectCurrent << 3);
 8029ba0:	7d1a      	ldrb	r2, [r3, #20]
  static bool isValueRecv = false;
  static uint8_t AKBconnectOldState = 0;
  uint8_t AKBconnectCurrent;

  if(((UPS.Status >> 7) & 0x01) == 0)
	  AKBconnectCurrent = (UPS.Status >> 6) & 0x01;
 8029ba2:	bf08      	it	eq
 8029ba4:	f3c4 1480 	ubfxeq	r4, r4, #6, #1
  else{
	  AKBconnectCurrent = 0;
  }

  UPS.Alarm = (UPS.Alarm & 0x07) | (AKBconnectCurrent << 3);
 8029ba8:	f002 0207 	and.w	r2, r2, #7
  uint8_t AKBconnectCurrent;

  if(((UPS.Status >> 7) & 0x01) == 0)
	  AKBconnectCurrent = (UPS.Status >> 6) & 0x01;
  else{
	  AKBconnectCurrent = 0;
 8029bac:	bf18      	it	ne
 8029bae:	2400      	movne	r4, #0
  }

  UPS.Alarm = (UPS.Alarm & 0x07) | (AKBconnectCurrent << 3);
 8029bb0:	ea42 02c4 	orr.w	r2, r2, r4, lsl #3
 8029bb4:	751a      	strb	r2, [r3, #20]

  if (!isValueRecv) {
 8029bb6:	4a17      	ldr	r2, [pc, #92]	; (8029c14 <UPS_BatteryConnectMonitor+0x7c>)
 8029bb8:	4b17      	ldr	r3, [pc, #92]	; (8029c18 <UPS_BatteryConnectMonitor+0x80>)
 8029bba:	7811      	ldrb	r1, [r2, #0]
 8029bbc:	b969      	cbnz	r1, 8029bda <UPS_BatteryConnectMonitor+0x42>
    isValueRecv = true;
 8029bbe:	2501      	movs	r5, #1
 8029bc0:	7015      	strb	r5, [r2, #0]
    AKBconnectOldState = AKBconnectCurrent;
 8029bc2:	701c      	strb	r4, [r3, #0]
    if (AKBconnectCurrent){
 8029bc4:	b314      	cbz	r4, 8029c0c <UPS_BatteryConnectMonitor+0x74>
      log_event_data(LOG_ALARM_AKB, "�вари�");
 8029bc6:	2010      	movs	r0, #16
 8029bc8:	4914      	ldr	r1, [pc, #80]	; (8029c1c <UPS_BatteryConnectMonitor+0x84>)
 8029bca:	f000 f955 	bl	8029e78 <log_event_data>
	  SNMP_SendUserTrap(BATTERY_CONNECT_ALARM);
 8029bce:	2013      	movs	r0, #19
 8029bd0:	f00d fcbe 	bl	8037550 <SNMP_SendUserTrap>
	  flUpdateLog = true;
 8029bd4:	4b12      	ldr	r3, [pc, #72]	; (8029c20 <UPS_BatteryConnectMonitor+0x88>)
 8029bd6:	701d      	strb	r5, [r3, #0]
 8029bd8:	bd38      	pop	{r3, r4, r5, pc}
    }
    return;
  }
  if (AKBconnectCurrent)
 8029bda:	b114      	cbz	r4, 8029be2 <UPS_BatteryConnectMonitor+0x4a>
  	  flCriticalAlarm = true;
 8029bdc:	4a11      	ldr	r2, [pc, #68]	; (8029c24 <UPS_BatteryConnectMonitor+0x8c>)
 8029bde:	2101      	movs	r1, #1
 8029be0:	7011      	strb	r1, [r2, #0]
  // Значение параметра изменило�ь
  if (AKBconnectCurrent != AKBconnectOldState)
 8029be2:	781b      	ldrb	r3, [r3, #0]
 8029be4:	42a3      	cmp	r3, r4
 8029be6:	d00f      	beq.n	8029c08 <UPS_BatteryConnectMonitor+0x70>
 8029be8:	4d0d      	ldr	r5, [pc, #52]	; (8029c20 <UPS_BatteryConnectMonitor+0x88>)
  {
    if (!AKBconnectCurrent){
      log_event_data(LOG_ALARM_AKB, "�орма");
 8029bea:	2010      	movs	r0, #16
  if (AKBconnectCurrent)
  	  flCriticalAlarm = true;
  // Значение параметра изменило�ь
  if (AKBconnectCurrent != AKBconnectOldState)
  {
    if (!AKBconnectCurrent){
 8029bec:	b924      	cbnz	r4, 8029bf8 <UPS_BatteryConnectMonitor+0x60>
      log_event_data(LOG_ALARM_AKB, "�орма");
 8029bee:	490e      	ldr	r1, [pc, #56]	; (8029c28 <UPS_BatteryConnectMonitor+0x90>)
 8029bf0:	f000 f942 	bl	8029e78 <log_event_data>
      SNMP_SendUserTrap(BATTERY_CONNECT_NORM);
 8029bf4:	2014      	movs	r0, #20
 8029bf6:	e003      	b.n	8029c00 <UPS_BatteryConnectMonitor+0x68>
      flUpdateLog = true;
    }
    else{
      log_event_data(LOG_ALARM_AKB, "�вари�");
 8029bf8:	4908      	ldr	r1, [pc, #32]	; (8029c1c <UPS_BatteryConnectMonitor+0x84>)
 8029bfa:	f000 f93d 	bl	8029e78 <log_event_data>
      SNMP_SendUserTrap(BATTERY_CONNECT_ALARM);
 8029bfe:	2013      	movs	r0, #19
 8029c00:	f00d fca6 	bl	8037550 <SNMP_SendUserTrap>
      flUpdateLog = true;
 8029c04:	2301      	movs	r3, #1
 8029c06:	702b      	strb	r3, [r5, #0]
    }
  }

  AKBconnectOldState = AKBconnectCurrent;
 8029c08:	4b03      	ldr	r3, [pc, #12]	; (8029c18 <UPS_BatteryConnectMonitor+0x80>)
 8029c0a:	701c      	strb	r4, [r3, #0]
 8029c0c:	bd38      	pop	{r3, r4, r5, pc}
 8029c0e:	bf00      	nop
 8029c10:	2000cf64 	.word	0x2000cf64
 8029c14:	20000b66 	.word	0x20000b66
 8029c18:	20000b63 	.word	0x20000b63
 8029c1c:	08038b01 	.word	0x08038b01
 8029c20:	20000bc4 	.word	0x20000bc4
 8029c24:	20000b61 	.word	0x20000b61
 8029c28:	08038b0e 	.word	0x08038b0e

08029c2c <UPS_Monitor>:

/**
  * @brief  Задача мониторинга параметров UPS
  */
void UPS_Monitor(void *params)
{
 8029c2c:	b570      	push	{r4, r5, r6, lr}
	vTaskDelay(5000);
 8029c2e:	f241 3088 	movw	r0, #5000	; 0x1388
 8029c32:	f001 fb97 	bl	802b364 <vTaskDelay>
  for (;;)
  {
	  flCriticalAlarm = false;
 8029c36:	4d10      	ldr	r5, [pc, #64]	; (8029c78 <UPS_Monitor+0x4c>)
	  flNonCriticalAlarm = false;
 8029c38:	4e10      	ldr	r6, [pc, #64]	; (8029c7c <UPS_Monitor+0x50>)
void UPS_Monitor(void *params)
{
	vTaskDelay(5000);
  for (;;)
  {
	  flCriticalAlarm = false;
 8029c3a:	2400      	movs	r4, #0
	  flNonCriticalAlarm = false;
    // Провер�ем флаг подключени� UPS
   if (UPS.Present)
 8029c3c:	4b10      	ldr	r3, [pc, #64]	; (8029c80 <UPS_Monitor+0x54>)
void UPS_Monitor(void *params)
{
	vTaskDelay(5000);
  for (;;)
  {
	  flCriticalAlarm = false;
 8029c3e:	702c      	strb	r4, [r5, #0]
	  flNonCriticalAlarm = false;
    // Провер�ем флаг подключени� UPS
   if (UPS.Present)
 8029c40:	f893 302c 	ldrb.w	r3, [r3, #44]	; 0x2c
{
	vTaskDelay(5000);
  for (;;)
  {
	  flCriticalAlarm = false;
	  flNonCriticalAlarm = false;
 8029c44:	7034      	strb	r4, [r6, #0]
    // Провер�ем флаг подключени� UPS
   if (UPS.Present)
 8029c46:	b14b      	cbz	r3, 8029c5c <UPS_Monitor+0x30>
    {
      UPS_LineFailMonitor();
 8029c48:	f7ff fe42 	bl	80298d0 <UPS_LineFailMonitor>
      UPS_LowBatMonitor();  
 8029c4c:	f7ff fe7e 	bl	802994c <UPS_LowBatMonitor>
      UPS_PowerMonitor();
 8029c50:	f7ff febe 	bl	80299d0 <UPS_PowerMonitor>
      UPS_TemperatureMonitor();
 8029c54:	f7ff ff12 	bl	8029a7c <UPS_TemperatureMonitor>
      UPS_BatteryConnectMonitor();
 8029c58:	f7ff ff9e 	bl	8029b98 <UPS_BatteryConnectMonitor>
    }
    UPS_ConnectMonitor();
 8029c5c:	f7ff ff56 	bl	8029b0c <UPS_ConnectMonitor>
    UPS_DI0Monitor();
 8029c60:	f7ff fcbc 	bl	80295dc <UPS_DI0Monitor>

    UPS_CriticalAlarmMonitor();
 8029c64:	f7ff fcfe 	bl	8029664 <UPS_CriticalAlarmMonitor>
    UPS_NonCriticalAlarmMonitor();
 8029c68:	f7ff fda0 	bl	80297ac <UPS_NonCriticalAlarmMonitor>
      
    vTaskDelay(1000);
 8029c6c:	f44f 707a 	mov.w	r0, #1000	; 0x3e8
 8029c70:	f001 fb78 	bl	802b364 <vTaskDelay>
  }
 8029c74:	e7e2      	b.n	8029c3c <UPS_Monitor+0x10>
 8029c76:	bf00      	nop
 8029c78:	20000b61 	.word	0x20000b61
 8029c7c:	20000b67 	.word	0x20000b67
 8029c80:	2000cf64 	.word	0x2000cf64

08029c84 <op_read>:
}

static ssize_t op_read(struct ringfs_flash_partition *flash, int address, void *data, size_t size) {
	(void)flash;
	int ret;
	ret = spi_flash_read(address, data, size, 0);
 8029c84:	4608      	mov	r0, r1
 8029c86:	4611      	mov	r1, r2
 8029c88:	461a      	mov	r2, r3
 8029c8a:	2300      	movs	r3, #0
 8029c8c:	f7fc bfd8 	b.w	8026c40 <spi_flash_read>

08029c90 <op_program>:
}

static ssize_t op_program(struct ringfs_flash_partition *flash, int address, const void *data, size_t size) {
	(void)flash;
	int ret;
	ret = spi_flash_write(address, data, size, 0);
 8029c90:	4608      	mov	r0, r1
 8029c92:	4611      	mov	r1, r2
 8029c94:	461a      	mov	r2, r3
 8029c96:	2300      	movs	r3, #0
 8029c98:	f7fd b821 	b.w	8026cde <spi_flash_write>

08029c9c <op_sector_erase>:
#define ALARM_LOG_FLASH_SECTOR_OFFSET	258

static int op_sector_erase(struct ringfs_flash_partition *flash, int address) {
	(void)flash;
	int ret;
	ret = spi_flash_erase_sector(address, 0);
 8029c9c:	4608      	mov	r0, r1
 8029c9e:	2100      	movs	r1, #0
 8029ca0:	f7fd b82d 	b.w	8026cfe <spi_flash_erase_sector>

08029ca4 <log_task>:
        return true;
    }
}

void log_task(void* params)
{
 8029ca4:	b508      	push	{r3, lr}
	for(;;){
		flUpdateLog = true;
 8029ca6:	4c03      	ldr	r4, [pc, #12]	; (8029cb4 <log_task+0x10>)
 8029ca8:	2501      	movs	r5, #1
		vTaskDelay(LOG_TIME);
 8029caa:	4803      	ldr	r0, [pc, #12]	; (8029cb8 <log_task+0x14>)
}

void log_task(void* params)
{
	for(;;){
		flUpdateLog = true;
 8029cac:	7025      	strb	r5, [r4, #0]
		vTaskDelay(LOG_TIME);
 8029cae:	f001 fb59 	bl	802b364 <vTaskDelay>
 8029cb2:	e7fa      	b.n	8029caa <log_task+0x6>
 8029cb4:	20000bc4 	.word	0x20000bc4
 8029cb8:	000927c0 	.word	0x000927c0

08029cbc <LOG_Disable>:

/**
  * @brief  Отключает журнал дл� безопа�ной перезагрузки
  */
bool LOG_Disable(void)
{
 8029cbc:	b508      	push	{r3, lr}
    if (fLogInit) {
 8029cbe:	4b08      	ldr	r3, [pc, #32]	; (8029ce0 <LOG_Disable+0x24>)
 8029cc0:	781b      	ldrb	r3, [r3, #0]
 8029cc2:	b15b      	cbz	r3, 8029cdc <LOG_Disable+0x20>
        /* Ожидаем завершени� работы � журнал */
        if ( xSemaphoreTake(log_mutex, 10000) == pdTRUE ) {
 8029cc4:	4b07      	ldr	r3, [pc, #28]	; (8029ce4 <LOG_Disable+0x28>)
 8029cc6:	2100      	movs	r1, #0
 8029cc8:	6818      	ldr	r0, [r3, #0]
 8029cca:	f242 7210 	movw	r2, #10000	; 0x2710
 8029cce:	460b      	mov	r3, r1
 8029cd0:	f000 ffa5 	bl	802ac1e <xQueueGenericReceive>
 8029cd4:	1e43      	subs	r3, r0, #1
 8029cd6:	4258      	negs	r0, r3
 8029cd8:	4158      	adcs	r0, r3
 8029cda:	bd08      	pop	{r3, pc}
        else {
           return false;
        }
    }
    else {
        return true;
 8029cdc:	2001      	movs	r0, #1
    }
}
 8029cde:	bd08      	pop	{r3, pc}
 8029ce0:	20000bcc 	.word	0x20000bcc
 8029ce4:	20000bc8 	.word	0x20000bc8

08029ce8 <log_init>:
		log_event_data(LOG_SYSTEM_BOOT, "�дмини�тратор");
		log_add(")215.7;215.7;220.5;000;50.1;2.30;25.0;00000001;");*/
	}
}

void log_init(bool format) {
 8029ce8:	b51f      	push	{r0, r1, r2, r3, r4, lr}
	DBG printf(">>> Event log\n");

	if (!spi_flash_desc.present)
 8029cea:	4b22      	ldr	r3, [pc, #136]	; (8029d74 <log_init+0x8c>)
 8029cec:	781a      	ldrb	r2, [r3, #0]
		log_event_data(LOG_SYSTEM_BOOT, "�дмини�тратор");
		log_add(")215.7;215.7;220.5;000;50.1;2.30;25.0;00000001;");*/
	}
}

void log_init(bool format) {
 8029cee:	4604      	mov	r4, r0
	DBG printf(">>> Event log\n");

	if (!spi_flash_desc.present)
 8029cf0:	2a00      	cmp	r2, #0
 8029cf2:	d03e      	beq.n	8029d72 <log_init+0x8a>
		return;
	ringfs_flash.sector_size = spi_flash_desc.sector_size;
 8029cf4:	685a      	ldr	r2, [r3, #4]
	ringfs_flash.sector_count = spi_flash_desc.sector_count/2 - LOG_FLASH_SECTOR_OFFSET;
 8029cf6:	895b      	ldrh	r3, [r3, #10]
void log_init(bool format) {
	DBG printf(">>> Event log\n");

	if (!spi_flash_desc.present)
		return;
	ringfs_flash.sector_size = spi_flash_desc.sector_size;
 8029cf8:	491f      	ldr	r1, [pc, #124]	; (8029d78 <log_init+0x90>)
	ringfs_flash.sector_count = spi_flash_desc.sector_count/2 - LOG_FLASH_SECTOR_OFFSET;

	ringfs_init(&fs, &ringfs_flash, LOG_ENTRY_VERSION, sizeof(log_entry_t));
 8029cfa:	4820      	ldr	r0, [pc, #128]	; (8029d7c <log_init+0x94>)
void log_init(bool format) {
	DBG printf(">>> Event log\n");

	if (!spi_flash_desc.present)
		return;
	ringfs_flash.sector_size = spi_flash_desc.sector_size;
 8029cfc:	600a      	str	r2, [r1, #0]
	ringfs_flash.sector_count = spi_flash_desc.sector_count/2 - LOG_FLASH_SECTOR_OFFSET;
 8029cfe:	085b      	lsrs	r3, r3, #1
 8029d00:	3b04      	subs	r3, #4
 8029d02:	608b      	str	r3, [r1, #8]

	ringfs_init(&fs, &ringfs_flash, LOG_ENTRY_VERSION, sizeof(log_entry_t));
 8029d04:	2201      	movs	r2, #1
 8029d06:	2338      	movs	r3, #56	; 0x38
 8029d08:	f000 fb95 	bl	802a436 <ringfs_init>
	if (format || ringfs_scan(&fs) != 0)
 8029d0c:	b11c      	cbz	r4, 8029d16 <log_init+0x2e>
		ringfs_format(&fs);
 8029d0e:	481b      	ldr	r0, [pc, #108]	; (8029d7c <log_init+0x94>)
 8029d10:	f000 fb9b 	bl	802a44a <ringfs_format>
 8029d14:	e004      	b.n	8029d20 <log_init+0x38>
		return;
	ringfs_flash.sector_size = spi_flash_desc.sector_size;
	ringfs_flash.sector_count = spi_flash_desc.sector_count/2 - LOG_FLASH_SECTOR_OFFSET;

	ringfs_init(&fs, &ringfs_flash, LOG_ENTRY_VERSION, sizeof(log_entry_t));
	if (format || ringfs_scan(&fs) != 0)
 8029d16:	4819      	ldr	r0, [pc, #100]	; (8029d7c <log_init+0x94>)
 8029d18:	f000 fc79 	bl	802a60e <ringfs_scan>
 8029d1c:	2800      	cmp	r0, #0
 8029d1e:	d1f6      	bne.n	8029d0e <log_init+0x26>
		ringfs_format(&fs);

	ringfs_flash2.sector_size = spi_flash_desc.sector_size;
 8029d20:	4b14      	ldr	r3, [pc, #80]	; (8029d74 <log_init+0x8c>)
 8029d22:	4917      	ldr	r1, [pc, #92]	; (8029d80 <log_init+0x98>)
 8029d24:	685a      	ldr	r2, [r3, #4]
	ringfs_flash2.sector_count = spi_flash_desc.sector_count/2 - LOG_FLASH_SECTOR_OFFSET;
 8029d26:	895b      	ldrh	r3, [r3, #10]

	ringfs_init(&fs, &ringfs_flash, LOG_ENTRY_VERSION, sizeof(log_entry_t));
	if (format || ringfs_scan(&fs) != 0)
		ringfs_format(&fs);

	ringfs_flash2.sector_size = spi_flash_desc.sector_size;
 8029d28:	600a      	str	r2, [r1, #0]
	ringfs_flash2.sector_count = spi_flash_desc.sector_count/2 - LOG_FLASH_SECTOR_OFFSET;
 8029d2a:	085b      	lsrs	r3, r3, #1
 8029d2c:	3b04      	subs	r3, #4
 8029d2e:	608b      	str	r3, [r1, #8]

	ringfs_init(&fs2, &ringfs_flash2, LOG_ENTRY_VERSION, sizeof(log_entry_t));
 8029d30:	4814      	ldr	r0, [pc, #80]	; (8029d84 <log_init+0x9c>)
 8029d32:	2201      	movs	r2, #1
 8029d34:	2338      	movs	r3, #56	; 0x38
 8029d36:	f000 fb7e 	bl	802a436 <ringfs_init>
	if (format || ringfs_scan(&fs2) != 0)
 8029d3a:	b11c      	cbz	r4, 8029d44 <log_init+0x5c>
		ringfs_format(&fs2);
 8029d3c:	4811      	ldr	r0, [pc, #68]	; (8029d84 <log_init+0x9c>)
 8029d3e:	f000 fb84 	bl	802a44a <ringfs_format>
 8029d42:	e004      	b.n	8029d4e <log_init+0x66>

	ringfs_flash2.sector_size = spi_flash_desc.sector_size;
	ringfs_flash2.sector_count = spi_flash_desc.sector_count/2 - LOG_FLASH_SECTOR_OFFSET;

	ringfs_init(&fs2, &ringfs_flash2, LOG_ENTRY_VERSION, sizeof(log_entry_t));
	if (format || ringfs_scan(&fs2) != 0)
 8029d44:	480f      	ldr	r0, [pc, #60]	; (8029d84 <log_init+0x9c>)
 8029d46:	f000 fc62 	bl	802a60e <ringfs_scan>
 8029d4a:	2800      	cmp	r0, #0
 8029d4c:	d1f6      	bne.n	8029d3c <log_init+0x54>
		ringfs_format(&fs2);

	fLogInit = true;
 8029d4e:	4b0e      	ldr	r3, [pc, #56]	; (8029d88 <log_init+0xa0>)
 8029d50:	2001      	movs	r0, #1
 8029d52:	7018      	strb	r0, [r3, #0]

	log_mutex = xSemaphoreCreateMutex();
 8029d54:	f000 febd 	bl	802aad2 <xQueueCreateMutex>
 8029d58:	4b0c      	ldr	r3, [pc, #48]	; (8029d8c <log_init+0xa4>)

	xTaskCreate(log_task, ( char * ) "log_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);
 8029d5a:	490d      	ldr	r1, [pc, #52]	; (8029d90 <log_init+0xa8>)
	if (format || ringfs_scan(&fs2) != 0)
		ringfs_format(&fs2);

	fLogInit = true;

	log_mutex = xSemaphoreCreateMutex();
 8029d5c:	6018      	str	r0, [r3, #0]

	xTaskCreate(log_task, ( char * ) "log_task", configMINIMAL_STACK_SIZE * 2, NULL, tskIDLE_PRIORITY, NULL);
 8029d5e:	2300      	movs	r3, #0
 8029d60:	9300      	str	r3, [sp, #0]
 8029d62:	9301      	str	r3, [sp, #4]
 8029d64:	9302      	str	r3, [sp, #8]
 8029d66:	9303      	str	r3, [sp, #12]
 8029d68:	480a      	ldr	r0, [pc, #40]	; (8029d94 <log_init+0xac>)
 8029d6a:	f44f 7280 	mov.w	r2, #256	; 0x100
 8029d6e:	f001 f85f 	bl	802ae30 <xTaskGenericCreate>
}
 8029d72:	bd1f      	pop	{r0, r1, r2, r3, r4, pc}
 8029d74:	2000c840 	.word	0x2000c840
 8029d78:	200006ac 	.word	0x200006ac
 8029d7c:	20000b98 	.word	0x20000b98
 8029d80:	20000694 	.word	0x20000694
 8029d84:	20000b6c 	.word	0x20000b6c
 8029d88:	20000bcc 	.word	0x20000bcc
 8029d8c:	20000bc8 	.word	0x20000bc8
 8029d90:	08038b3f 	.word	0x08038b3f
 8029d94:	08029ca5 	.word	0x08029ca5

08029d98 <log_append>:
	}

	return 0;
}

int log_append(log_entry_t *entry) {
 8029d98:	b530      	push	{r4, r5, lr}
	int ret;
	TM_RTC_t data;
	ret = xSemaphoreTake( log_mutex, portMAX_DELAY );
 8029d9a:	4b12      	ldr	r3, [pc, #72]	; (8029de4 <log_append+0x4c>)
 8029d9c:	2100      	movs	r1, #0
	}

	return 0;
}

int log_append(log_entry_t *entry) {
 8029d9e:	b085      	sub	sp, #20
 8029da0:	4604      	mov	r4, r0
	int ret;
	TM_RTC_t data;
	ret = xSemaphoreTake( log_mutex, portMAX_DELAY );
 8029da2:	f04f 32ff 	mov.w	r2, #4294967295
 8029da6:	6818      	ldr	r0, [r3, #0]
 8029da8:	460b      	mov	r3, r1
 8029daa:	f000 ff38 	bl	802ac1e <xQueueGenericReceive>
	if (ret == pdFALSE)
 8029dae:	4605      	mov	r5, r0
 8029db0:	b1a8      	cbz	r0, 8029dde <log_append+0x46>
		return ret;
	if (!entry->timestamp){
 8029db2:	6821      	ldr	r1, [r4, #0]
 8029db4:	b921      	cbnz	r1, 8029dc0 <log_append+0x28>
		TM_RTC_GetDateTime(&data, TM_RTC_Format_BIN);
 8029db6:	4668      	mov	r0, sp
 8029db8:	f7fc fd08 	bl	80267cc <TM_RTC_GetDateTime>
		entry->timestamp = data.unix;
 8029dbc:	9b03      	ldr	r3, [sp, #12]
 8029dbe:	6023      	str	r3, [r4, #0]
	}
	if(entry->type == LOG_VALUE)
 8029dc0:	7923      	ldrb	r3, [r4, #4]
 8029dc2:	2b11      	cmp	r3, #17
		ringfs_append(&fs, entry);
 8029dc4:	bf0c      	ite	eq
 8029dc6:	4808      	ldreq	r0, [pc, #32]	; (8029de8 <log_append+0x50>)
	else
		ringfs_append(&fs2, entry);
 8029dc8:	4808      	ldrne	r0, [pc, #32]	; (8029dec <log_append+0x54>)
 8029dca:	4621      	mov	r1, r4
 8029dcc:	f000 fb70 	bl	802a4b0 <ringfs_append>
	xSemaphoreGive(log_mutex);
 8029dd0:	4b04      	ldr	r3, [pc, #16]	; (8029de4 <log_append+0x4c>)
 8029dd2:	2100      	movs	r1, #0
 8029dd4:	6818      	ldr	r0, [r3, #0]
 8029dd6:	460a      	mov	r2, r1
 8029dd8:	460b      	mov	r3, r1
 8029dda:	f000 fde0 	bl	802a99e <xQueueGenericSend>
	return ret;
}
 8029dde:	4628      	mov	r0, r5
 8029de0:	b005      	add	sp, #20
 8029de2:	bd30      	pop	{r4, r5, pc}
 8029de4:	20000bc8 	.word	0x20000bc8
 8029de8:	20000b98 	.word	0x20000b98
 8029dec:	20000b6c 	.word	0x20000b6c

08029df0 <log_fetch>:

int log_fetch(log_entry_t *entry, uint32_t timeout) {
 8029df0:	b570      	push	{r4, r5, r6, lr}
	int ret;
	ret = xSemaphoreTake( log_mutex, (TickType_t)timeout );
 8029df2:	4e0d      	ldr	r6, [pc, #52]	; (8029e28 <log_fetch+0x38>)
		ringfs_append(&fs2, entry);
	xSemaphoreGive(log_mutex);
	return ret;
}

int log_fetch(log_entry_t *entry, uint32_t timeout) {
 8029df4:	460a      	mov	r2, r1
	int ret;
	ret = xSemaphoreTake( log_mutex, (TickType_t)timeout );
 8029df6:	2100      	movs	r1, #0
		ringfs_append(&fs2, entry);
	xSemaphoreGive(log_mutex);
	return ret;
}

int log_fetch(log_entry_t *entry, uint32_t timeout) {
 8029df8:	4605      	mov	r5, r0
	int ret;
	ret = xSemaphoreTake( log_mutex, (TickType_t)timeout );
 8029dfa:	460b      	mov	r3, r1
 8029dfc:	6830      	ldr	r0, [r6, #0]
 8029dfe:	f000 ff0e 	bl	802ac1e <xQueueGenericReceive>
	if (ret == pdFALSE)
 8029e02:	4604      	mov	r4, r0
 8029e04:	b170      	cbz	r0, 8029e24 <log_fetch+0x34>
		return ret;
	if(entry->type == LOG_VALUE)
 8029e06:	792b      	ldrb	r3, [r5, #4]
 8029e08:	2b11      	cmp	r3, #17
		ret = ringfs_fetch(&fs, entry);
 8029e0a:	bf0c      	ite	eq
 8029e0c:	4807      	ldreq	r0, [pc, #28]	; (8029e2c <log_fetch+0x3c>)
	else
		ret = ringfs_fetch(&fs2, entry);
 8029e0e:	4808      	ldrne	r0, [pc, #32]	; (8029e30 <log_fetch+0x40>)
 8029e10:	4629      	mov	r1, r5
 8029e12:	f000 fbb7 	bl	802a584 <ringfs_fetch>
	xSemaphoreGive(log_mutex);
 8029e16:	2100      	movs	r1, #0
	if (ret == pdFALSE)
		return ret;
	if(entry->type == LOG_VALUE)
		ret = ringfs_fetch(&fs, entry);
	else
		ret = ringfs_fetch(&fs2, entry);
 8029e18:	4604      	mov	r4, r0
	xSemaphoreGive(log_mutex);
 8029e1a:	460a      	mov	r2, r1
 8029e1c:	6830      	ldr	r0, [r6, #0]
 8029e1e:	460b      	mov	r3, r1
 8029e20:	f000 fdbd 	bl	802a99e <xQueueGenericSend>
	return ret;
}
 8029e24:	4620      	mov	r0, r4
 8029e26:	bd70      	pop	{r4, r5, r6, pc}
 8029e28:	20000bc8 	.word	0x20000bc8
 8029e2c:	20000b98 	.word	0x20000b98
 8029e30:	20000b6c 	.word	0x20000b6c

08029e34 <log_rewind>:

int log_rewind(log_entry_t *entry, uint32_t timeout) {
 8029e34:	b570      	push	{r4, r5, r6, lr}
	int ret;
	ret = xSemaphoreTake( log_mutex, (TickType_t)timeout );
 8029e36:	4d0d      	ldr	r5, [pc, #52]	; (8029e6c <log_rewind+0x38>)
		ret = ringfs_fetch(&fs2, entry);
	xSemaphoreGive(log_mutex);
	return ret;
}

int log_rewind(log_entry_t *entry, uint32_t timeout) {
 8029e38:	460a      	mov	r2, r1
	int ret;
	ret = xSemaphoreTake( log_mutex, (TickType_t)timeout );
 8029e3a:	2100      	movs	r1, #0
		ret = ringfs_fetch(&fs2, entry);
	xSemaphoreGive(log_mutex);
	return ret;
}

int log_rewind(log_entry_t *entry, uint32_t timeout) {
 8029e3c:	4606      	mov	r6, r0
	int ret;
	ret = xSemaphoreTake( log_mutex, (TickType_t)timeout );
 8029e3e:	460b      	mov	r3, r1
 8029e40:	6828      	ldr	r0, [r5, #0]
 8029e42:	f000 feec 	bl	802ac1e <xQueueGenericReceive>
	if (ret == pdFALSE)
 8029e46:	4604      	mov	r4, r0
 8029e48:	b168      	cbz	r0, 8029e66 <log_rewind+0x32>
		return ret;
	if(entry->type == LOG_VALUE)
 8029e4a:	7933      	ldrb	r3, [r6, #4]
 8029e4c:	2b11      	cmp	r3, #17
		ret = ringfs_rewind(&fs);
 8029e4e:	bf0c      	ite	eq
 8029e50:	4807      	ldreq	r0, [pc, #28]	; (8029e70 <log_rewind+0x3c>)
	else
		ret = ringfs_rewind(&fs2);
 8029e52:	4808      	ldrne	r0, [pc, #32]	; (8029e74 <log_rewind+0x40>)
 8029e54:	f000 fbd0 	bl	802a5f8 <ringfs_rewind>
	xSemaphoreGive(log_mutex);
 8029e58:	2100      	movs	r1, #0
	if (ret == pdFALSE)
		return ret;
	if(entry->type == LOG_VALUE)
		ret = ringfs_rewind(&fs);
	else
		ret = ringfs_rewind(&fs2);
 8029e5a:	4604      	mov	r4, r0
	xSemaphoreGive(log_mutex);
 8029e5c:	460a      	mov	r2, r1
 8029e5e:	6828      	ldr	r0, [r5, #0]
 8029e60:	460b      	mov	r3, r1
 8029e62:	f000 fd9c 	bl	802a99e <xQueueGenericSend>
	return ret;
}
 8029e66:	4620      	mov	r0, r4
 8029e68:	bd70      	pop	{r4, r5, r6, pc}
 8029e6a:	bf00      	nop
 8029e6c:	20000bc8 	.word	0x20000bc8
 8029e70:	20000b98 	.word	0x20000b98
 8029e74:	20000b6c 	.word	0x20000b6c

08029e78 <log_event_data>:
	xSemaphoreGive(log_mutex);
	return ret;
}

void log_event_data(log_type_t type, char *data)
{
 8029e78:	b500      	push	{lr}
 8029e7a:	b08f      	sub	sp, #60	; 0x3c
	log_entry_t entry_data;

	entry_data.timestamp = 0;
 8029e7c:	2300      	movs	r3, #0
 8029e7e:	9300      	str	r3, [sp, #0]
	entry_data.type = type;
	strncpy(entry_data.data, data, 49);
 8029e80:	446b      	add	r3, sp
void log_event_data(log_type_t type, char *data)
{
	log_entry_t entry_data;

	entry_data.timestamp = 0;
	entry_data.type = type;
 8029e82:	f88d 0004 	strb.w	r0, [sp, #4]
	strncpy(entry_data.data, data, 49);
 8029e86:	2231      	movs	r2, #49	; 0x31
 8029e88:	1d58      	adds	r0, r3, #5
 8029e8a:	f7f8 fa19 	bl	80222c0 <strncpy>

	log_append(&entry_data);
 8029e8e:	4668      	mov	r0, sp
 8029e90:	f7ff ff82 	bl	8029d98 <log_append>
}
 8029e94:	b00f      	add	sp, #60	; 0x3c
 8029e96:	bd00      	pop	{pc}

08029e98 <log_add>:

void log_add(char *log_data)
{
 8029e98:	b530      	push	{r4, r5, lr}
 8029e9a:	b08f      	sub	sp, #60	; 0x3c
 8029e9c:	4605      	mov	r5, r0
	char buf_value[50];
	uint8_t i, len;


	memset(buf_value, 0, 50);
 8029e9e:	2100      	movs	r1, #0
 8029ea0:	2232      	movs	r2, #50	; 0x32
 8029ea2:	a801      	add	r0, sp, #4
 8029ea4:	f7f7 ff7c 	bl	8021da0 <memset>
	len = strlen(log_data);
 8029ea8:	4628      	mov	r0, r5
 8029eaa:	f7f8 f951 	bl	8022150 <strlen>
 8029eae:	b2c4      	uxtb	r4, r0

	strncpy(buf_value, log_data, len);
 8029eb0:	4629      	mov	r1, r5
 8029eb2:	a801      	add	r0, sp, #4
 8029eb4:	4622      	mov	r2, r4
 8029eb6:	f7f8 fa03 	bl	80222c0 <strncpy>
	buf_value[0] = '\"';
 8029eba:	2322      	movs	r3, #34	; 0x22
 8029ebc:	f88d 3004 	strb.w	r3, [sp, #4]

	for(i = 0; i < len; i++)
	{
		if(buf_value[i] == ' ')
			buf_value[i] = ';';
 8029ec0:	203b      	movs	r0, #59	; 0x3b
	len = strlen(log_data);

	strncpy(buf_value, log_data, len);
	buf_value[0] = '\"';

	for(i = 0; i < len; i++)
 8029ec2:	2300      	movs	r3, #0
 8029ec4:	e004      	b.n	8029ed0 <log_add+0x38>
	{
		if(buf_value[i] == ' ')
 8029ec6:	5cca      	ldrb	r2, [r1, r3]
 8029ec8:	2a20      	cmp	r2, #32
			buf_value[i] = ';';
 8029eca:	bf08      	it	eq
 8029ecc:	54c8      	strbeq	r0, [r1, r3]
 8029ece:	3301      	adds	r3, #1
	len = strlen(log_data);

	strncpy(buf_value, log_data, len);
	buf_value[0] = '\"';

	for(i = 0; i < len; i++)
 8029ed0:	b2da      	uxtb	r2, r3
 8029ed2:	42a2      	cmp	r2, r4
 8029ed4:	a901      	add	r1, sp, #4
 8029ed6:	d3f6      	bcc.n	8029ec6 <log_add+0x2e>
	{
		if(buf_value[i] == ' ')
			buf_value[i] = ';';
	}
	buf_value[len - 1] = ';';
 8029ed8:	ab0e      	add	r3, sp, #56	; 0x38
 8029eda:	191c      	adds	r4, r3, r4

	if(fs.write.slot>67)
	{
		log_entry_t entry_data;
		entry_data.timestamp = 0;
		log_event_data(LOG_VALUE, buf_value);
 8029edc:	2011      	movs	r0, #17
	for(i = 0; i < len; i++)
	{
		if(buf_value[i] == ' ')
			buf_value[i] = ';';
	}
	buf_value[len - 1] = ';';
 8029ede:	233b      	movs	r3, #59	; 0x3b
 8029ee0:	f804 3c35 	strb.w	r3, [r4, #-53]

	if(fs.write.slot>67)
	{
		log_entry_t entry_data;
		entry_data.timestamp = 0;
		log_event_data(LOG_VALUE, buf_value);
 8029ee4:	f7ff ffc8 	bl	8029e78 <log_event_data>
	}
	else
	log_event_data(LOG_VALUE, buf_value);

}
 8029ee8:	b00f      	add	sp, #60	; 0x3c
 8029eea:	bd30      	pop	{r4, r5, pc}

08029eec <LOG_IsInit>:
  * @brief  Возвращает true е�ли журнал проинициализирован
  */
bool LOG_IsInit()
{
  return fLogInit;
}
 8029eec:	4b01      	ldr	r3, [pc, #4]	; (8029ef4 <LOG_IsInit+0x8>)
 8029eee:	7818      	ldrb	r0, [r3, #0]
 8029ef0:	4770      	bx	lr
 8029ef2:	bf00      	nop
 8029ef4:	20000bcc 	.word	0x20000bcc

08029ef8 <LOG_GetPageCount>:

/**
  * @brief  Возвращает общее количе�тво �траниц
  */
uint32_t LOG_GetPageCount(void)
{
 8029ef8:	b508      	push	{r3, lr}
  return (((ringfs_count_estimate(&fs)) / 10) + 1);
 8029efa:	4804      	ldr	r0, [pc, #16]	; (8029f0c <LOG_GetPageCount+0x14>)
 8029efc:	f000 fac6 	bl	802a48c <ringfs_count_estimate>
 8029f00:	230a      	movs	r3, #10
 8029f02:	fb90 f0f3 	sdiv	r0, r0, r3
}
 8029f06:	3001      	adds	r0, #1
 8029f08:	bd08      	pop	{r3, pc}
 8029f0a:	bf00      	nop
 8029f0c:	20000b98 	.word	0x20000b98

08029f10 <LOG_GetTotalSTRCount>:

uint32_t LOG_GetTotalSTRCount(void)
{
	return ringfs_count_estimate(&fs);
 8029f10:	4801      	ldr	r0, [pc, #4]	; (8029f18 <LOG_GetTotalSTRCount+0x8>)
 8029f12:	f000 babb 	b.w	802a48c <ringfs_count_estimate>
 8029f16:	bf00      	nop
 8029f18:	20000b98 	.word	0x20000b98

08029f1c <LOG_GetPage>:
}

void LOG_GetPage(char *str, uint32_t page)
{
 8029f1c:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
 8029f20:	b09d      	sub	sp, #116	; 0x74
 8029f22:	460d      	mov	r5, r1
 8029f24:	4606      	mov	r6, r0
	TM_RTC_t rtc_data;
	log_entry_t entry;
	char buf[20];
	uint8_t i;
	int start =LOG_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);
 8029f26:	f7ff fff3 	bl	8029f10 <LOG_GetTotalSTRCount>

	memset(buf, 0, 20);
 8029f2a:	2100      	movs	r1, #0
{
	TM_RTC_t rtc_data;
	log_entry_t entry;
	char buf[20];
	uint8_t i;
	int start =LOG_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);
 8029f2c:	4604      	mov	r4, r0

	memset(buf, 0, 20);
 8029f2e:	2214      	movs	r2, #20
 8029f30:	a809      	add	r0, sp, #36	; 0x24
	for(i=0; i < 10; i++){
		fs.cursor_position =  start - 10*(page-1) - 1 - i;
 8029f32:	f06f 0809 	mvn.w	r8, #9
	log_entry_t entry;
	char buf[20];
	uint8_t i;
	int start =LOG_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);

	memset(buf, 0, 20);
 8029f36:	f7f7 ff33 	bl	8021da0 <memset>
	for(i=0; i < 10; i++){
		fs.cursor_position =  start - 10*(page-1) - 1 - i;
 8029f3a:	fb08 4805 	mla	r8, r8, r5, r4
 8029f3e:	4c2a      	ldr	r4, [pc, #168]	; (8029fe8 <LOG_GetPage+0xcc>)
 8029f40:	f108 0809 	add.w	r8, r8, #9
 8029f44:	2500      	movs	r5, #0
			fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;
		}
		entry.type = LOG_VALUE;
		log_fetch(&entry, portMAX_DELAY);
		entry.data[49] = 0;
		strncat(str, entry.data, strlen(entry.data));
 8029f46:	f10d 073d 	add.w	r7, sp, #61	; 0x3d
uint32_t LOG_GetTotalSTRCount(void)
{
	return ringfs_count_estimate(&fs);
}

void LOG_GetPage(char *str, uint32_t page)
 8029f4a:	ebc5 0308 	rsb	r3, r5, r8
	int start =LOG_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);

	memset(buf, 0, 20);
	for(i=0; i < 10; i++){
		fs.cursor_position =  start - 10*(page-1) - 1 - i;
		if(fs.cursor_position < 0)
 8029f4e:	2b00      	cmp	r3, #0
	uint8_t i;
	int start =LOG_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);

	memset(buf, 0, 20);
	for(i=0; i < 10; i++){
		fs.cursor_position =  start - 10*(page-1) - 1 - i;
 8029f50:	62a3      	str	r3, [r4, #40]	; 0x28
		if(fs.cursor_position < 0)
 8029f52:	db46      	blt.n	8029fe2 <LOG_GetPage+0xc6>
			break;
		else{
			fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
 8029f54:	f8d4 900c 	ldr.w	r9, [r4, #12]
 8029f58:	6920      	ldr	r0, [r4, #16]
 8029f5a:	6821      	ldr	r1, [r4, #0]
 8029f5c:	fb93 f2f9 	sdiv	r2, r3, r9
 8029f60:	eb02 0e00 	add.w	lr, r2, r0
 8029f64:	6888      	ldr	r0, [r1, #8]
 8029f66:	fb9e fcf0 	sdiv	ip, lr, r0
 8029f6a:	fb00 e01c 	mls	r0, r0, ip, lr
			fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;
 8029f6e:	fb09 3312 	mls	r3, r9, r2, r3
	for(i=0; i < 10; i++){
		fs.cursor_position =  start - 10*(page-1) - 1 - i;
		if(fs.cursor_position < 0)
			break;
		else{
			fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
 8029f72:	6220      	str	r0, [r4, #32]
			fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;
 8029f74:	6263      	str	r3, [r4, #36]	; 0x24
		}
		entry.type = LOG_VALUE;
		log_fetch(&entry, portMAX_DELAY);
 8029f76:	f04f 31ff 	mov.w	r1, #4294967295
			break;
		else{
			fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
			fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;
		}
		entry.type = LOG_VALUE;
 8029f7a:	2311      	movs	r3, #17
		log_fetch(&entry, portMAX_DELAY);
 8029f7c:	a80e      	add	r0, sp, #56	; 0x38
			break;
		else{
			fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
			fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;
		}
		entry.type = LOG_VALUE;
 8029f7e:	f88d 303c 	strb.w	r3, [sp, #60]	; 0x3c
		log_fetch(&entry, portMAX_DELAY);
 8029f82:	f7ff ff35 	bl	8029df0 <log_fetch>
		entry.data[49] = 0;
 8029f86:	2300      	movs	r3, #0
		strncat(str, entry.data, strlen(entry.data));
 8029f88:	4638      	mov	r0, r7
			fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
			fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;
		}
		entry.type = LOG_VALUE;
		log_fetch(&entry, portMAX_DELAY);
		entry.data[49] = 0;
 8029f8a:	f88d 306e 	strb.w	r3, [sp, #110]	; 0x6e
		strncat(str, entry.data, strlen(entry.data));
 8029f8e:	f7f8 f8df 	bl	8022150 <strlen>
 8029f92:	4639      	mov	r1, r7
 8029f94:	4602      	mov	r2, r0
 8029f96:	4630      	mov	r0, r6
 8029f98:	f7f8 f90a 	bl	80221b0 <strncat>
		TM_RTC_GetDateTimeFromUnix(&rtc_data, entry.timestamp);
 8029f9c:	a805      	add	r0, sp, #20
 8029f9e:	990e      	ldr	r1, [sp, #56]	; 0x38
 8029fa0:	f7fc fca4 	bl	80268ec <TM_RTC_GetDateTimeFromUnix>
		sprintf(buf, "%02i.%02i.%02i %02i:%02i:%02i",  rtc_data.date, rtc_data.month,
 8029fa4:	f89d 101d 	ldrb.w	r1, [sp, #29]
 8029fa8:	f89d 201b 	ldrb.w	r2, [sp, #27]
 8029fac:	9100      	str	r1, [sp, #0]
 8029fae:	f89d 1019 	ldrb.w	r1, [sp, #25]
 8029fb2:	f89d 301c 	ldrb.w	r3, [sp, #28]
 8029fb6:	9101      	str	r1, [sp, #4]
 8029fb8:	f89d 1018 	ldrb.w	r1, [sp, #24]
 8029fbc:	9102      	str	r1, [sp, #8]
 8029fbe:	f89d 1014 	ldrb.w	r1, [sp, #20]
 8029fc2:	a809      	add	r0, sp, #36	; 0x24
 8029fc4:	9103      	str	r1, [sp, #12]
 8029fc6:	4909      	ldr	r1, [pc, #36]	; (8029fec <LOG_GetPage+0xd0>)
 8029fc8:	f7fd fdaa 	bl	8027b20 <tfp_sprintf>
		rtc_data.year, rtc_data.hours, rtc_data.minutes, rtc_data.seconds);
		strcat(str, buf);
 8029fcc:	a909      	add	r1, sp, #36	; 0x24
 8029fce:	4630      	mov	r0, r6
 8029fd0:	f7f7 ff4c 	bl	8021e6c <strcat>
 8029fd4:	3501      	adds	r5, #1
		strcat(str, "\",");
 8029fd6:	4630      	mov	r0, r6
 8029fd8:	4905      	ldr	r1, [pc, #20]	; (8029ff0 <LOG_GetPage+0xd4>)
 8029fda:	f7f7 ff47 	bl	8021e6c <strcat>
	char buf[20];
	uint8_t i;
	int start =LOG_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);

	memset(buf, 0, 20);
	for(i=0; i < 10; i++){
 8029fde:	2d0a      	cmp	r5, #10
 8029fe0:	d1b3      	bne.n	8029f4a <LOG_GetPage+0x2e>
		sprintf(buf, "%02i.%02i.%02i %02i:%02i:%02i",  rtc_data.date, rtc_data.month,
		rtc_data.year, rtc_data.hours, rtc_data.minutes, rtc_data.seconds);
		strcat(str, buf);
		strcat(str, "\",");
	}
}
 8029fe2:	b01d      	add	sp, #116	; 0x74
 8029fe4:	e8bd 83f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, pc}
 8029fe8:	20000b98 	.word	0x20000b98
 8029fec:	08038b48 	.word	0x08038b48
 8029ff0:	08038b66 	.word	0x08038b66

08029ff4 <LOG_GetData>:

uint32_t LOG_GetData(int ptr, char *str, uint32_t size, bool start)
{
 8029ff4:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 8029ff8:	b09c      	sub	sp, #112	; 0x70
 8029ffa:	4690      	mov	r8, r2
	TM_RTC_t rtc_data;
	log_entry_t entry;
	char buf[20];
	uint8_t i;
	entry.type = LOG_VALUE;
 8029ffc:	2211      	movs	r2, #17
		strcat(str, "\",");
	}
}

uint32_t LOG_GetData(int ptr, char *str, uint32_t size, bool start)
{
 8029ffe:	4605      	mov	r5, r0
 802a000:	460c      	mov	r4, r1
	TM_RTC_t rtc_data;
	log_entry_t entry;
	char buf[20];
	uint8_t i;
	entry.type = LOG_VALUE;
 802a002:	f88d 203c 	strb.w	r2, [sp, #60]	; 0x3c
	if(start)
 802a006:	b123      	cbz	r3, 802a012 <LOG_GetData+0x1e>
		log_rewind(&entry, portMAX_DELAY);
 802a008:	a80e      	add	r0, sp, #56	; 0x38
 802a00a:	f04f 31ff 	mov.w	r1, #4294967295
 802a00e:	f7ff ff11 	bl	8029e34 <log_rewind>

	fs.cursor_position =  ptr/STRING_SIZE;
 802a012:	4b2c      	ldr	r3, [pc, #176]	; (802a0c4 <LOG_GetData+0xd0>)
 802a014:	2040      	movs	r0, #64	; 0x40
 802a016:	fb95 f0f0 	sdiv	r0, r5, r0
	fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
 802a01a:	681e      	ldr	r6, [r3, #0]
 802a01c:	68dd      	ldr	r5, [r3, #12]
 802a01e:	691f      	ldr	r7, [r3, #16]
 802a020:	68b6      	ldr	r6, [r6, #8]
	uint8_t i;
	entry.type = LOG_VALUE;
	if(start)
		log_rewind(&entry, portMAX_DELAY);

	fs.cursor_position =  ptr/STRING_SIZE;
 802a022:	6298      	str	r0, [r3, #40]	; 0x28
	fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
 802a024:	fb90 f1f5 	sdiv	r1, r0, r5
 802a028:	19cf      	adds	r7, r1, r7
 802a02a:	fb97 f2f6 	sdiv	r2, r7, r6
 802a02e:	fb06 7612 	mls	r6, r6, r2, r7
	fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;
 802a032:	fb05 0011 	mls	r0, r5, r1, r0
	entry.type = LOG_VALUE;
	if(start)
		log_rewind(&entry, portMAX_DELAY);

	fs.cursor_position =  ptr/STRING_SIZE;
	fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
 802a036:	621e      	str	r6, [r3, #32]
	fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;
 802a038:	6258      	str	r0, [r3, #36]	; 0x24

	for(i = 0; i < size/STRING_SIZE; i++)
 802a03a:	ea4f 1798 	mov.w	r7, r8, lsr #6
 802a03e:	2500      	movs	r5, #0
	{
		entry.type = LOG_VALUE;
		log_fetch(&entry, portMAX_DELAY);
		entry.data[49] = 0;
		strncat(str, &entry.data[1], (strlen(entry.data) - 1));
 802a040:	f10d 063d 	add.w	r6, sp, #61	; 0x3d

	fs.cursor_position =  ptr/STRING_SIZE;
	fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
	fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;

	for(i = 0; i < size/STRING_SIZE; i++)
 802a044:	e035      	b.n	802a0b2 <LOG_GetData+0xbe>
	{
		entry.type = LOG_VALUE;
 802a046:	2311      	movs	r3, #17
		log_fetch(&entry, portMAX_DELAY);
 802a048:	f04f 31ff 	mov.w	r1, #4294967295
 802a04c:	a80e      	add	r0, sp, #56	; 0x38
	fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
	fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;

	for(i = 0; i < size/STRING_SIZE; i++)
	{
		entry.type = LOG_VALUE;
 802a04e:	f88d 303c 	strb.w	r3, [sp, #60]	; 0x3c
		log_fetch(&entry, portMAX_DELAY);
 802a052:	f7ff fecd 	bl	8029df0 <log_fetch>
		entry.data[49] = 0;
 802a056:	2300      	movs	r3, #0
		strncat(str, &entry.data[1], (strlen(entry.data) - 1));
 802a058:	4630      	mov	r0, r6

	for(i = 0; i < size/STRING_SIZE; i++)
	{
		entry.type = LOG_VALUE;
		log_fetch(&entry, portMAX_DELAY);
		entry.data[49] = 0;
 802a05a:	f88d 306e 	strb.w	r3, [sp, #110]	; 0x6e
		strncat(str, &entry.data[1], (strlen(entry.data) - 1));
 802a05e:	f7f8 f877 	bl	8022150 <strlen>
 802a062:	f10d 013e 	add.w	r1, sp, #62	; 0x3e
 802a066:	1e42      	subs	r2, r0, #1
 802a068:	4620      	mov	r0, r4
 802a06a:	f7f8 f8a1 	bl	80221b0 <strncat>
		TM_RTC_GetDateTimeFromUnix(&rtc_data, entry.timestamp);
 802a06e:	a805      	add	r0, sp, #20
 802a070:	990e      	ldr	r1, [sp, #56]	; 0x38
 802a072:	f7fc fc3b 	bl	80268ec <TM_RTC_GetDateTimeFromUnix>
		sprintf(buf, "%02i.%02i.%02i %02i:%02i:%02i",  rtc_data.date, rtc_data.month,
 802a076:	f89d 101d 	ldrb.w	r1, [sp, #29]
 802a07a:	f89d 201b 	ldrb.w	r2, [sp, #27]
 802a07e:	9100      	str	r1, [sp, #0]
 802a080:	f89d 1019 	ldrb.w	r1, [sp, #25]
 802a084:	f89d 301c 	ldrb.w	r3, [sp, #28]
 802a088:	9101      	str	r1, [sp, #4]
 802a08a:	f89d 1018 	ldrb.w	r1, [sp, #24]
 802a08e:	9102      	str	r1, [sp, #8]
 802a090:	f89d 1014 	ldrb.w	r1, [sp, #20]
 802a094:	a809      	add	r0, sp, #36	; 0x24
 802a096:	9103      	str	r1, [sp, #12]
 802a098:	490b      	ldr	r1, [pc, #44]	; (802a0c8 <LOG_GetData+0xd4>)
 802a09a:	f7fd fd41 	bl	8027b20 <tfp_sprintf>
		rtc_data.year, rtc_data.hours, rtc_data.minutes, rtc_data.seconds);
		strcat(str, buf);
 802a09e:	a909      	add	r1, sp, #36	; 0x24
 802a0a0:	4620      	mov	r0, r4
 802a0a2:	f7f7 fee3 	bl	8021e6c <strcat>
		strcat(str, "\n");
 802a0a6:	4620      	mov	r0, r4
 802a0a8:	4908      	ldr	r1, [pc, #32]	; (802a0cc <LOG_GetData+0xd8>)
 802a0aa:	f7f7 fedf 	bl	8021e6c <strcat>

	fs.cursor_position =  ptr/STRING_SIZE;
	fs.cursor.sector = (fs.read.sector + fs.cursor_position/fs.slots_per_sector)%fs.flash->sector_count;
	fs.cursor.slot = fs.cursor_position%fs.slots_per_sector;

	for(i = 0; i < size/STRING_SIZE; i++)
 802a0ae:	3501      	adds	r5, #1
 802a0b0:	b2ed      	uxtb	r5, r5
 802a0b2:	42bd      	cmp	r5, r7
 802a0b4:	d3c7      	bcc.n	802a046 <LOG_GetData+0x52>
		sprintf(buf, "%02i.%02i.%02i %02i:%02i:%02i",  rtc_data.date, rtc_data.month,
		rtc_data.year, rtc_data.hours, rtc_data.minutes, rtc_data.seconds);
		strcat(str, buf);
		strcat(str, "\n");
	}
	return strlen(str);
 802a0b6:	4620      	mov	r0, r4
 802a0b8:	f7f8 f84a 	bl	8022150 <strlen>

}
 802a0bc:	b01c      	add	sp, #112	; 0x70
 802a0be:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 802a0c2:	bf00      	nop
 802a0c4:	20000b98 	.word	0x20000b98
 802a0c8:	08038b48 	.word	0x08038b48
 802a0cc:	08042b4b 	.word	0x08042b4b

0802a0d0 <History_GetPageCount>:

/**
  * @brief  Возвращает общее количе�тво �траниц
  */
uint32_t History_GetPageCount(void)
{
 802a0d0:	b508      	push	{r3, lr}
  return (((ringfs_count_estimate(&fs2)) / 10) + 1);
 802a0d2:	4804      	ldr	r0, [pc, #16]	; (802a0e4 <History_GetPageCount+0x14>)
 802a0d4:	f000 f9da 	bl	802a48c <ringfs_count_estimate>
 802a0d8:	230a      	movs	r3, #10
 802a0da:	fb90 f0f3 	sdiv	r0, r0, r3
}
 802a0de:	3001      	adds	r0, #1
 802a0e0:	bd08      	pop	{r3, pc}
 802a0e2:	bf00      	nop
 802a0e4:	20000b6c 	.word	0x20000b6c

0802a0e8 <History_GetTotalSTRCount>:

uint32_t History_GetTotalSTRCount(void)
{
	return ringfs_count_estimate(&fs2);
 802a0e8:	4801      	ldr	r0, [pc, #4]	; (802a0f0 <History_GetTotalSTRCount+0x8>)
 802a0ea:	f000 b9cf 	b.w	802a48c <ringfs_count_estimate>
 802a0ee:	bf00      	nop
 802a0f0:	20000b6c 	.word	0x20000b6c

0802a0f4 <History_GetPage>:
}

void History_GetPage(char *str, uint32_t page)
{
 802a0f4:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
 802a0f8:	b09d      	sub	sp, #116	; 0x74
 802a0fa:	460e      	mov	r6, r1
 802a0fc:	4604      	mov	r4, r0
	TM_RTC_t rtc_data;
	log_entry_t entry;
	char buf[20];
	uint8_t i;
	int start =History_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);
 802a0fe:	f7ff fff3 	bl	802a0e8 <History_GetTotalSTRCount>

	memset(buf, 0, 20);
 802a102:	2100      	movs	r1, #0
{
	TM_RTC_t rtc_data;
	log_entry_t entry;
	char buf[20];
	uint8_t i;
	int start =History_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);
 802a104:	4605      	mov	r5, r0

	memset(buf, 0, 20);
 802a106:	2214      	movs	r2, #20
 802a108:	a809      	add	r0, sp, #36	; 0x24
	for(i=0; i < 10; i++){
		fs2.cursor_position =  start - 10*(page-1) - 1 - i;
 802a10a:	f06f 0909 	mvn.w	r9, #9
	log_entry_t entry;
	char buf[20];
	uint8_t i;
	int start =History_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);

	memset(buf, 0, 20);
 802a10e:	f7f7 fe47 	bl	8021da0 <memset>
	for(i=0; i < 10; i++){
		fs2.cursor_position =  start - 10*(page-1) - 1 - i;
 802a112:	fb09 5906 	mla	r9, r9, r6, r5
 802a116:	4d38      	ldr	r5, [pc, #224]	; (802a1f8 <History_GetPage+0x104>)
 802a118:	f109 0909 	add.w	r9, r9, #9
 802a11c:	2600      	movs	r6, #0
		log_fetch(&entry, portMAX_DELAY);
		strcat(str, "\"");
		strncat(str, logsStrShortRu[entry.type], (strlen(logsStrShortRu[entry.type]) ));
		strcat(str, ";");
		entry.data[49] = 0;
		strncat(str, entry.data, (strlen(entry.data) ));
 802a11e:	f10d 073d 	add.w	r7, sp, #61	; 0x3d
uint32_t History_GetTotalSTRCount(void)
{
	return ringfs_count_estimate(&fs2);
}

void History_GetPage(char *str, uint32_t page)
 802a122:	ebc6 0309 	rsb	r3, r6, r9
	int start =History_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);

	memset(buf, 0, 20);
	for(i=0; i < 10; i++){
		fs2.cursor_position =  start - 10*(page-1) - 1 - i;
		if(fs2.cursor_position < 0)
 802a126:	2b00      	cmp	r3, #0
	uint8_t i;
	int start =History_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);

	memset(buf, 0, 20);
	for(i=0; i < 10; i++){
		fs2.cursor_position =  start - 10*(page-1) - 1 - i;
 802a128:	62ab      	str	r3, [r5, #40]	; 0x28
		if(fs2.cursor_position < 0)
 802a12a:	db61      	blt.n	802a1f0 <History_GetPage+0xfc>
			break;
		else{
			fs2.cursor.sector = (fs2.read.sector + fs2.cursor_position/fs.slots_per_sector)%fs2.flash->sector_count;
 802a12c:	4a33      	ldr	r2, [pc, #204]	; (802a1fc <History_GetPage+0x108>)
 802a12e:	68d1      	ldr	r1, [r2, #12]
 802a130:	692a      	ldr	r2, [r5, #16]
 802a132:	fb93 f1f1 	sdiv	r1, r3, r1
 802a136:	1889      	adds	r1, r1, r2
 802a138:	682a      	ldr	r2, [r5, #0]
 802a13a:	6892      	ldr	r2, [r2, #8]
 802a13c:	fb91 f0f2 	sdiv	r0, r1, r2
 802a140:	fb02 1210 	mls	r2, r2, r0, r1
 802a144:	622a      	str	r2, [r5, #32]
			fs2.cursor.slot = fs2.cursor_position%fs2.slots_per_sector;
 802a146:	68ea      	ldr	r2, [r5, #12]
 802a148:	fb93 f1f2 	sdiv	r1, r3, r2
 802a14c:	fb02 3311 	mls	r3, r2, r1, r3
 802a150:	626b      	str	r3, [r5, #36]	; 0x24
		}
		entry.type = LOG_LOGIN;
		log_fetch(&entry, portMAX_DELAY);
 802a152:	f04f 31ff 	mov.w	r1, #4294967295
			break;
		else{
			fs2.cursor.sector = (fs2.read.sector + fs2.cursor_position/fs.slots_per_sector)%fs2.flash->sector_count;
			fs2.cursor.slot = fs2.cursor_position%fs2.slots_per_sector;
		}
		entry.type = LOG_LOGIN;
 802a156:	2305      	movs	r3, #5
		log_fetch(&entry, portMAX_DELAY);
 802a158:	a80e      	add	r0, sp, #56	; 0x38
			break;
		else{
			fs2.cursor.sector = (fs2.read.sector + fs2.cursor_position/fs.slots_per_sector)%fs2.flash->sector_count;
			fs2.cursor.slot = fs2.cursor_position%fs2.slots_per_sector;
		}
		entry.type = LOG_LOGIN;
 802a15a:	f88d 303c 	strb.w	r3, [sp, #60]	; 0x3c
		log_fetch(&entry, portMAX_DELAY);
 802a15e:	f7ff fe47 	bl	8029df0 <log_fetch>
		strcat(str, "\"");
 802a162:	4927      	ldr	r1, [pc, #156]	; (802a200 <History_GetPage+0x10c>)
 802a164:	4620      	mov	r0, r4
 802a166:	f7f7 fe81 	bl	8021e6c <strcat>
		strncat(str, logsStrShortRu[entry.type], (strlen(logsStrShortRu[entry.type]) ));
 802a16a:	4b26      	ldr	r3, [pc, #152]	; (802a204 <History_GetPage+0x110>)
 802a16c:	f89d 203c 	ldrb.w	r2, [sp, #60]	; 0x3c
 802a170:	f853 8022 	ldr.w	r8, [r3, r2, lsl #2]
 802a174:	4640      	mov	r0, r8
 802a176:	f7f7 ffeb 	bl	8022150 <strlen>
 802a17a:	4641      	mov	r1, r8
 802a17c:	4602      	mov	r2, r0
 802a17e:	4620      	mov	r0, r4
 802a180:	f7f8 f816 	bl	80221b0 <strncat>
		strcat(str, ";");
 802a184:	4920      	ldr	r1, [pc, #128]	; (802a208 <History_GetPage+0x114>)
 802a186:	4620      	mov	r0, r4
 802a188:	f7f7 fe70 	bl	8021e6c <strcat>
		entry.data[49] = 0;
 802a18c:	2300      	movs	r3, #0
		strncat(str, entry.data, (strlen(entry.data) ));
 802a18e:	4638      	mov	r0, r7
		entry.type = LOG_LOGIN;
		log_fetch(&entry, portMAX_DELAY);
		strcat(str, "\"");
		strncat(str, logsStrShortRu[entry.type], (strlen(logsStrShortRu[entry.type]) ));
		strcat(str, ";");
		entry.data[49] = 0;
 802a190:	f88d 306e 	strb.w	r3, [sp, #110]	; 0x6e
		strncat(str, entry.data, (strlen(entry.data) ));
 802a194:	f7f7 ffdc 	bl	8022150 <strlen>
 802a198:	4639      	mov	r1, r7
 802a19a:	4602      	mov	r2, r0
 802a19c:	4620      	mov	r0, r4
 802a19e:	f7f8 f807 	bl	80221b0 <strncat>
		strcat(str, ";");
 802a1a2:	4919      	ldr	r1, [pc, #100]	; (802a208 <History_GetPage+0x114>)
 802a1a4:	4620      	mov	r0, r4
 802a1a6:	f7f7 fe61 	bl	8021e6c <strcat>
		TM_RTC_GetDateTimeFromUnix(&rtc_data, entry.timestamp);
 802a1aa:	a805      	add	r0, sp, #20
 802a1ac:	990e      	ldr	r1, [sp, #56]	; 0x38
 802a1ae:	f7fc fb9d 	bl	80268ec <TM_RTC_GetDateTimeFromUnix>
		sprintf(buf, "%02i.%02i.%02i %02i:%02i:%02i",  rtc_data.date, rtc_data.month,
 802a1b2:	f89d 101d 	ldrb.w	r1, [sp, #29]
 802a1b6:	f89d 201b 	ldrb.w	r2, [sp, #27]
 802a1ba:	9100      	str	r1, [sp, #0]
 802a1bc:	f89d 1019 	ldrb.w	r1, [sp, #25]
 802a1c0:	f89d 301c 	ldrb.w	r3, [sp, #28]
 802a1c4:	9101      	str	r1, [sp, #4]
 802a1c6:	f89d 1018 	ldrb.w	r1, [sp, #24]
 802a1ca:	9102      	str	r1, [sp, #8]
 802a1cc:	f89d 1014 	ldrb.w	r1, [sp, #20]
 802a1d0:	a809      	add	r0, sp, #36	; 0x24
 802a1d2:	9103      	str	r1, [sp, #12]
 802a1d4:	490d      	ldr	r1, [pc, #52]	; (802a20c <History_GetPage+0x118>)
 802a1d6:	f7fd fca3 	bl	8027b20 <tfp_sprintf>
		rtc_data.year, rtc_data.hours, rtc_data.minutes, rtc_data.seconds);
		strcat(str, buf);
 802a1da:	a909      	add	r1, sp, #36	; 0x24
 802a1dc:	4620      	mov	r0, r4
 802a1de:	f7f7 fe45 	bl	8021e6c <strcat>
 802a1e2:	3601      	adds	r6, #1
		strcat(str, "\",");
 802a1e4:	4620      	mov	r0, r4
 802a1e6:	490a      	ldr	r1, [pc, #40]	; (802a210 <History_GetPage+0x11c>)
 802a1e8:	f7f7 fe40 	bl	8021e6c <strcat>
	char buf[20];
	uint8_t i;
	int start =History_GetTotalSTRCount();//(fs.write.sector*fs.slots_per_sector + fs.write.slot);

	memset(buf, 0, 20);
	for(i=0; i < 10; i++){
 802a1ec:	2e0a      	cmp	r6, #10
 802a1ee:	d198      	bne.n	802a122 <History_GetPage+0x2e>
		sprintf(buf, "%02i.%02i.%02i %02i:%02i:%02i",  rtc_data.date, rtc_data.month,
		rtc_data.year, rtc_data.hours, rtc_data.minutes, rtc_data.seconds);
		strcat(str, buf);
		strcat(str, "\",");
	}
}
 802a1f0:	b01d      	add	sp, #116	; 0x74
 802a1f2:	e8bd 83f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, pc}
 802a1f6:	bf00      	nop
 802a1f8:	20000b6c 	.word	0x20000b6c
 802a1fc:	20000b98 	.word	0x20000b98
 802a200:	08043cdf 	.word	0x08043cdf
 802a204:	200006c4 	.word	0x200006c4
 802a208:	08038b69 	.word	0x08038b69
 802a20c:	08038b48 	.word	0x08038b48
 802a210:	08038b66 	.word	0x08038b66

0802a214 <History_GetData>:

uint32_t History_GetData(int ptr, char *str, uint32_t size, bool start)
{
 802a214:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 802a218:	f5ad 6d8b 	sub.w	sp, sp, #1112	; 0x458
 802a21c:	4690      	mov	r8, r2
	log_entry_t entry;
	char buf[20];
	char temp_str[FILE_BUF_MAX_LEN];
	uint8_t i;
	uint16_t len;
	entry.type = LOG_LOGIN;
 802a21e:	2205      	movs	r2, #5
		strcat(str, "\",");
	}
}

uint32_t History_GetData(int ptr, char *str, uint32_t size, bool start)
{
 802a220:	4604      	mov	r4, r0
 802a222:	460d      	mov	r5, r1
	log_entry_t entry;
	char buf[20];
	char temp_str[FILE_BUF_MAX_LEN];
	uint8_t i;
	uint16_t len;
	entry.type = LOG_LOGIN;
 802a224:	f88d 203c 	strb.w	r2, [sp, #60]	; 0x3c
	if(start)
 802a228:	b123      	cbz	r3, 802a234 <History_GetData+0x20>
		log_rewind(&entry, portMAX_DELAY);
 802a22a:	a80e      	add	r0, sp, #56	; 0x38
 802a22c:	f04f 31ff 	mov.w	r1, #4294967295
 802a230:	f7ff fe00 	bl	8029e34 <log_rewind>

	fs2.cursor_position =  ptr/STRING_SIZE_HISTORY;
 802a234:	4b43      	ldr	r3, [pc, #268]	; (802a344 <History_GetData+0x130>)
 802a236:	2164      	movs	r1, #100	; 0x64
	fs2.cursor.sector = (fs2.read.sector + fs2.cursor_position/fs2.slots_per_sector)%fs2.flash->sector_count;
 802a238:	68de      	ldr	r6, [r3, #12]
 802a23a:	691f      	ldr	r7, [r3, #16]
	uint16_t len;
	entry.type = LOG_LOGIN;
	if(start)
		log_rewind(&entry, portMAX_DELAY);

	fs2.cursor_position =  ptr/STRING_SIZE_HISTORY;
 802a23c:	fb94 f4f1 	sdiv	r4, r4, r1
	fs2.cursor.sector = (fs2.read.sector + fs2.cursor_position/fs2.slots_per_sector)%fs2.flash->sector_count;
 802a240:	fb94 f0f6 	sdiv	r0, r4, r6
 802a244:	eb00 0e07 	add.w	lr, r0, r7
 802a248:	681f      	ldr	r7, [r3, #0]
	uint16_t len;
	entry.type = LOG_LOGIN;
	if(start)
		log_rewind(&entry, portMAX_DELAY);

	fs2.cursor_position =  ptr/STRING_SIZE_HISTORY;
 802a24a:	629c      	str	r4, [r3, #40]	; 0x28
	fs2.cursor.sector = (fs2.read.sector + fs2.cursor_position/fs2.slots_per_sector)%fs2.flash->sector_count;
 802a24c:	68bf      	ldr	r7, [r7, #8]
 802a24e:	fb9e f2f7 	sdiv	r2, lr, r7
	fs2.cursor.slot = fs2.cursor_position%fs2.slots_per_sector;
 802a252:	fb06 4410 	mls	r4, r6, r0, r4
	entry.type = LOG_LOGIN;
	if(start)
		log_rewind(&entry, portMAX_DELAY);

	fs2.cursor_position =  ptr/STRING_SIZE_HISTORY;
	fs2.cursor.sector = (fs2.read.sector + fs2.cursor_position/fs2.slots_per_sector)%fs2.flash->sector_count;
 802a256:	fb07 e712 	mls	r7, r7, r2, lr
	fs2.cursor.slot = fs2.cursor_position%fs2.slots_per_sector;
 802a25a:	625c      	str	r4, [r3, #36]	; 0x24
	entry.type = LOG_LOGIN;
	if(start)
		log_rewind(&entry, portMAX_DELAY);

	fs2.cursor_position =  ptr/STRING_SIZE_HISTORY;
	fs2.cursor.sector = (fs2.read.sector + fs2.cursor_position/fs2.slots_per_sector)%fs2.flash->sector_count;
 802a25c:	621f      	str	r7, [r3, #32]
	fs2.cursor.slot = fs2.cursor_position%fs2.slots_per_sector;

	for(i = 0; i < size/STRING_SIZE_HISTORY; i++)
 802a25e:	fbb8 f8f1 	udiv	r8, r8, r1
 802a262:	2400      	movs	r4, #0
		memset(temp_str, 0, 100);
		log_fetch(&entry, portMAX_DELAY);
		strncat(temp_str, logsStrShortRu[entry.type], (strlen(logsStrShortRu[entry.type])));
		strcat(temp_str, ";");
		entry.data[49] = 0;
		strncat(temp_str, entry.data, (strlen(entry.data)));
 802a264:	f10d 063d 	add.w	r6, sp, #61	; 0x3d

	fs2.cursor_position =  ptr/STRING_SIZE_HISTORY;
	fs2.cursor.sector = (fs2.read.sector + fs2.cursor_position/fs2.slots_per_sector)%fs2.flash->sector_count;
	fs2.cursor.slot = fs2.cursor_position%fs2.slots_per_sector;

	for(i = 0; i < size/STRING_SIZE_HISTORY; i++)
 802a268:	e062      	b.n	802a330 <History_GetData+0x11c>
	{
		memset(temp_str, 0, 100);
 802a26a:	2264      	movs	r2, #100	; 0x64
 802a26c:	2100      	movs	r1, #0
 802a26e:	a81c      	add	r0, sp, #112	; 0x70
 802a270:	f7f7 fd96 	bl	8021da0 <memset>
		log_fetch(&entry, portMAX_DELAY);
 802a274:	f04f 31ff 	mov.w	r1, #4294967295
 802a278:	a80e      	add	r0, sp, #56	; 0x38
 802a27a:	f7ff fdb9 	bl	8029df0 <log_fetch>
		strncat(temp_str, logsStrShortRu[entry.type], (strlen(logsStrShortRu[entry.type])));
 802a27e:	4b32      	ldr	r3, [pc, #200]	; (802a348 <History_GetData+0x134>)
 802a280:	f89d 203c 	ldrb.w	r2, [sp, #60]	; 0x3c
 802a284:	f853 7022 	ldr.w	r7, [r3, r2, lsl #2]
 802a288:	4638      	mov	r0, r7
 802a28a:	f7f7 ff61 	bl	8022150 <strlen>
 802a28e:	4639      	mov	r1, r7
 802a290:	4602      	mov	r2, r0
 802a292:	a81c      	add	r0, sp, #112	; 0x70
 802a294:	f7f7 ff8c 	bl	80221b0 <strncat>
		strcat(temp_str, ";");
 802a298:	492c      	ldr	r1, [pc, #176]	; (802a34c <History_GetData+0x138>)
 802a29a:	a81c      	add	r0, sp, #112	; 0x70
 802a29c:	f7f7 fde6 	bl	8021e6c <strcat>
		entry.data[49] = 0;
 802a2a0:	2300      	movs	r3, #0
		strncat(temp_str, entry.data, (strlen(entry.data)));
 802a2a2:	4630      	mov	r0, r6
	{
		memset(temp_str, 0, 100);
		log_fetch(&entry, portMAX_DELAY);
		strncat(temp_str, logsStrShortRu[entry.type], (strlen(logsStrShortRu[entry.type])));
		strcat(temp_str, ";");
		entry.data[49] = 0;
 802a2a4:	f88d 306e 	strb.w	r3, [sp, #110]	; 0x6e
		strncat(temp_str, entry.data, (strlen(entry.data)));
 802a2a8:	f7f7 ff52 	bl	8022150 <strlen>
 802a2ac:	4631      	mov	r1, r6
 802a2ae:	4602      	mov	r2, r0
 802a2b0:	a81c      	add	r0, sp, #112	; 0x70
 802a2b2:	f7f7 ff7d 	bl	80221b0 <strncat>
		strcat(temp_str, ";");
 802a2b6:	4925      	ldr	r1, [pc, #148]	; (802a34c <History_GetData+0x138>)
 802a2b8:	a81c      	add	r0, sp, #112	; 0x70
 802a2ba:	f7f7 fdd7 	bl	8021e6c <strcat>
		TM_RTC_GetDateTimeFromUnix(&rtc_data, entry.timestamp);
 802a2be:	a805      	add	r0, sp, #20
 802a2c0:	990e      	ldr	r1, [sp, #56]	; 0x38
 802a2c2:	f7fc fb13 	bl	80268ec <TM_RTC_GetDateTimeFromUnix>
		sprintf(buf, "%02i.%02i.%02i %02i:%02i:%02i",  rtc_data.date, rtc_data.month,
 802a2c6:	f89d 101d 	ldrb.w	r1, [sp, #29]
 802a2ca:	f89d 301c 	ldrb.w	r3, [sp, #28]
 802a2ce:	9100      	str	r1, [sp, #0]
 802a2d0:	f89d 1019 	ldrb.w	r1, [sp, #25]
 802a2d4:	f89d 201b 	ldrb.w	r2, [sp, #27]
 802a2d8:	9101      	str	r1, [sp, #4]
 802a2da:	f89d 1018 	ldrb.w	r1, [sp, #24]
 802a2de:	9102      	str	r1, [sp, #8]
 802a2e0:	f89d 1014 	ldrb.w	r1, [sp, #20]
 802a2e4:	a809      	add	r0, sp, #36	; 0x24
 802a2e6:	9103      	str	r1, [sp, #12]
 802a2e8:	4919      	ldr	r1, [pc, #100]	; (802a350 <History_GetData+0x13c>)
 802a2ea:	f7fd fc19 	bl	8027b20 <tfp_sprintf>
		rtc_data.year, rtc_data.hours, rtc_data.minutes, rtc_data.seconds);
		strcat(temp_str, buf);
 802a2ee:	a909      	add	r1, sp, #36	; 0x24
 802a2f0:	a81c      	add	r0, sp, #112	; 0x70
 802a2f2:	f7f7 fdbb 	bl	8021e6c <strcat>

		len = strlen(temp_str);
 802a2f6:	a81c      	add	r0, sp, #112	; 0x70
 802a2f8:	f7f7 ff2a 	bl	8022150 <strlen>

		  if (len <= STRING_SIZE_HISTORY - 1)
 802a2fc:	b283      	uxth	r3, r0
 802a2fe:	2b63      	cmp	r3, #99	; 0x63
 802a300:	d80c      	bhi.n	802a31c <History_GetData+0x108>
		  strncat(str, temp_str, STRING_SIZE_HISTORY);

	}
	return strlen(str);

}
 802a302:	461a      	mov	r2, r3

		len = strlen(temp_str);

		  if (len <= STRING_SIZE_HISTORY - 1)
		  {
		    memset(&temp_str[len], ' ', STRING_SIZE_HISTORY - len - 1);
 802a304:	ab1c      	add	r3, sp, #112	; 0x70
 802a306:	1898      	adds	r0, r3, r2
 802a308:	2120      	movs	r1, #32
 802a30a:	f1c2 0263 	rsb	r2, r2, #99	; 0x63
 802a30e:	f7f7 fd47 	bl	8021da0 <memset>
		    strcat(temp_str, "\n");
 802a312:	a81c      	add	r0, sp, #112	; 0x70
 802a314:	490f      	ldr	r1, [pc, #60]	; (802a354 <History_GetData+0x140>)
 802a316:	f7f7 fda9 	bl	8021e6c <strcat>
 802a31a:	e002      	b.n	802a322 <History_GetData+0x10e>
		  }
		  else
		  {
		    temp_str[STRING_SIZE - 1] = 0xa;
 802a31c:	230a      	movs	r3, #10
 802a31e:	f88d 30af 	strb.w	r3, [sp, #175]	; 0xaf
		  }
		  strncat(str, temp_str, STRING_SIZE_HISTORY);
 802a322:	4628      	mov	r0, r5
 802a324:	a91c      	add	r1, sp, #112	; 0x70
 802a326:	2264      	movs	r2, #100	; 0x64
 802a328:	f7f7 ff42 	bl	80221b0 <strncat>

	fs2.cursor_position =  ptr/STRING_SIZE_HISTORY;
	fs2.cursor.sector = (fs2.read.sector + fs2.cursor_position/fs2.slots_per_sector)%fs2.flash->sector_count;
	fs2.cursor.slot = fs2.cursor_position%fs2.slots_per_sector;

	for(i = 0; i < size/STRING_SIZE_HISTORY; i++)
 802a32c:	3401      	adds	r4, #1
 802a32e:	b2e4      	uxtb	r4, r4
 802a330:	4544      	cmp	r4, r8
 802a332:	d39a      	bcc.n	802a26a <History_GetData+0x56>
		    temp_str[STRING_SIZE - 1] = 0xa;
		  }
		  strncat(str, temp_str, STRING_SIZE_HISTORY);

	}
	return strlen(str);
 802a334:	4628      	mov	r0, r5
 802a336:	f7f7 ff0b 	bl	8022150 <strlen>

}
 802a33a:	b016      	add	sp, #88	; 0x58
 802a33c:	f50d 6d80 	add.w	sp, sp, #1024	; 0x400
 802a340:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 802a344:	20000b6c 	.word	0x20000b6c
 802a348:	200006c4 	.word	0x200006c4
 802a34c:	08038b69 	.word	0x08038b69
 802a350:	08038b48 	.word	0x08038b48
 802a354:	08042b4b 	.word	0x08042b4b

0802a358 <_slot_address>:
    uint32_t version;
};

static int _sector_address(struct ringfs *fs, int sector_offset)
{
    return (fs->flash->sector_offset + sector_offset) * fs->flash->sector_size;
 802a358:	6803      	ldr	r3, [r0, #0]
 802a35a:	680a      	ldr	r2, [r1, #0]
struct slot_header {
    uint32_t status;
};

static int _slot_address(struct ringfs *fs, struct ringfs_loc *loc)
{
 802a35c:	b510      	push	{r4, lr}
    uint32_t version;
};

static int _sector_address(struct ringfs *fs, int sector_offset)
{
    return (fs->flash->sector_offset + sector_offset) * fs->flash->sector_size;
 802a35e:	685c      	ldr	r4, [r3, #4]
 802a360:	18a2      	adds	r2, r4, r2
 802a362:	681c      	ldr	r4, [r3, #0]

static int _slot_address(struct ringfs *fs, struct ringfs_loc *loc)
{
    return _sector_address(fs, loc->sector) +
           sizeof(struct sector_header) +
           (sizeof(struct slot_header) + fs->object_size) * loc->slot;
 802a364:	6883      	ldr	r3, [r0, #8]
 802a366:	6848      	ldr	r0, [r1, #4]
 802a368:	3304      	adds	r3, #4
 802a36a:	4343      	muls	r3, r0
};

static int _slot_address(struct ringfs *fs, struct ringfs_loc *loc)
{
    return _sector_address(fs, loc->sector) +
           sizeof(struct sector_header) +
 802a36c:	fb04 3002 	mla	r0, r4, r2, r3
           (sizeof(struct slot_header) + fs->object_size) * loc->slot;
}
 802a370:	3008      	adds	r0, #8
 802a372:	bd10      	pop	{r4, pc}

0802a374 <_slot_get_status>:

static int _slot_get_status(struct ringfs *fs, struct ringfs_loc *loc, uint32_t *status)
{
 802a374:	b570      	push	{r4, r5, r6, lr}
    return fs->flash->read(fs->flash,
 802a376:	6804      	ldr	r4, [r0, #0]
           sizeof(struct sector_header) +
           (sizeof(struct slot_header) + fs->object_size) * loc->slot;
}

static int _slot_get_status(struct ringfs *fs, struct ringfs_loc *loc, uint32_t *status)
{
 802a378:	4616      	mov	r6, r2
    return fs->flash->read(fs->flash,
 802a37a:	f7ff ffed 	bl	802a358 <_slot_address>
 802a37e:	6965      	ldr	r5, [r4, #20]
 802a380:	4601      	mov	r1, r0
 802a382:	4632      	mov	r2, r6
 802a384:	4620      	mov	r0, r4
 802a386:	2304      	movs	r3, #4
 802a388:	47a8      	blx	r5
            _slot_address(fs, loc) + offsetof(struct slot_header, status),
            status, sizeof(*status));
}
 802a38a:	bd70      	pop	{r4, r5, r6, pc}

0802a38c <_slot_set_status>:

static int _slot_set_status(struct ringfs *fs, struct ringfs_loc *loc, uint32_t status)
{
 802a38c:	b573      	push	{r0, r1, r4, r5, r6, lr}
 802a38e:	ac02      	add	r4, sp, #8
    return fs->flash->program(fs->flash, 
 802a390:	6805      	ldr	r5, [r0, #0]
            _slot_address(fs, loc) + offsetof(struct slot_header, status),
            status, sizeof(*status));
}

static int _slot_set_status(struct ringfs *fs, struct ringfs_loc *loc, uint32_t status)
{
 802a392:	f844 2d04 	str.w	r2, [r4, #-4]!
    return fs->flash->program(fs->flash, 
 802a396:	f7ff ffdf 	bl	802a358 <_slot_address>
 802a39a:	692e      	ldr	r6, [r5, #16]
 802a39c:	4601      	mov	r1, r0
 802a39e:	4622      	mov	r2, r4
 802a3a0:	4628      	mov	r0, r5
 802a3a2:	2304      	movs	r3, #4
 802a3a4:	47b0      	blx	r6
            _slot_address(fs, loc) + offsetof(struct slot_header, status),
            &status, sizeof(status));
}
 802a3a6:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}

0802a3a8 <_sector_get_status>:
    return (fs->flash->sector_offset + sector_offset) * fs->flash->sector_size;
}

static int _sector_get_status(struct ringfs *fs, int sector, uint32_t *status)
{
    return fs->flash->read(fs->flash,
 802a3a8:	6800      	ldr	r0, [r0, #0]
    uint32_t version;
};

static int _sector_address(struct ringfs *fs, int sector_offset)
{
    return (fs->flash->sector_offset + sector_offset) * fs->flash->sector_size;
 802a3aa:	6843      	ldr	r3, [r0, #4]
 802a3ac:	18cb      	adds	r3, r1, r3
 802a3ae:	6801      	ldr	r1, [r0, #0]
}

static int _sector_get_status(struct ringfs *fs, int sector, uint32_t *status)
{
 802a3b0:	b510      	push	{r4, lr}
    return fs->flash->read(fs->flash,
 802a3b2:	4359      	muls	r1, r3
 802a3b4:	6944      	ldr	r4, [r0, #20]
 802a3b6:	2304      	movs	r3, #4
 802a3b8:	47a0      	blx	r4
            _sector_address(fs, sector) + offsetof(struct sector_header, status),
            status, sizeof(*status));
}
 802a3ba:	bd10      	pop	{r4, pc}

0802a3bc <_sector_set_status>:

static int _sector_set_status(struct ringfs *fs, int sector, uint32_t status)
{
 802a3bc:	b513      	push	{r0, r1, r4, lr}
    return fs->flash->program(fs->flash,
 802a3be:	6800      	ldr	r0, [r0, #0]
            _sector_address(fs, sector) + offsetof(struct sector_header, status),
            status, sizeof(*status));
}

static int _sector_set_status(struct ringfs *fs, int sector, uint32_t status)
{
 802a3c0:	ab02      	add	r3, sp, #8
    return fs->flash->program(fs->flash,
 802a3c2:	6904      	ldr	r4, [r0, #16]
            _sector_address(fs, sector) + offsetof(struct sector_header, status),
            status, sizeof(*status));
}

static int _sector_set_status(struct ringfs *fs, int sector, uint32_t status)
{
 802a3c4:	f843 2d04 	str.w	r2, [r3, #-4]!
    uint32_t version;
};

static int _sector_address(struct ringfs *fs, int sector_offset)
{
    return (fs->flash->sector_offset + sector_offset) * fs->flash->sector_size;
 802a3c8:	6842      	ldr	r2, [r0, #4]
 802a3ca:	188a      	adds	r2, r1, r2
 802a3cc:	6801      	ldr	r1, [r0, #0]
            status, sizeof(*status));
}

static int _sector_set_status(struct ringfs *fs, int sector, uint32_t status)
{
    return fs->flash->program(fs->flash,
 802a3ce:	4351      	muls	r1, r2
 802a3d0:	461a      	mov	r2, r3
 802a3d2:	2304      	movs	r3, #4
 802a3d4:	47a0      	blx	r4
            _sector_address(fs, sector) + offsetof(struct sector_header, status),
            &status, sizeof(status));
}
 802a3d6:	bd1c      	pop	{r2, r3, r4, pc}

0802a3d8 <_sector_free>:

static int _sector_free(struct ringfs *fs, int sector)
{
 802a3d8:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
    uint32_t version;
};

static int _sector_address(struct ringfs *fs, int sector_offset)
{
    return (fs->flash->sector_offset + sector_offset) * fs->flash->sector_size;
 802a3da:	6803      	ldr	r3, [r0, #0]
 802a3dc:	cb28      	ldmia	r3, {r3, r5}
            _sector_address(fs, sector) + offsetof(struct sector_header, status),
            &status, sizeof(status));
}

static int _sector_free(struct ringfs *fs, int sector)
{
 802a3de:	4604      	mov	r4, r0
    uint32_t version;
};

static int _sector_address(struct ringfs *fs, int sector_offset)
{
    return (fs->flash->sector_offset + sector_offset) * fs->flash->sector_size;
 802a3e0:	194d      	adds	r5, r1, r5
}

static int _sector_free(struct ringfs *fs, int sector)
{
    int sector_addr = _sector_address(fs, sector);
    _sector_set_status(fs, sector, SECTOR_ERASING);
 802a3e2:	f04f 427f 	mov.w	r2, #4278190080	; 0xff000000
    uint32_t version;
};

static int _sector_address(struct ringfs *fs, int sector_offset)
{
    return (fs->flash->sector_offset + sector_offset) * fs->flash->sector_size;
 802a3e6:	435d      	muls	r5, r3
            _sector_address(fs, sector) + offsetof(struct sector_header, status),
            &status, sizeof(status));
}

static int _sector_free(struct ringfs *fs, int sector)
{
 802a3e8:	460e      	mov	r6, r1
    int sector_addr = _sector_address(fs, sector);
    _sector_set_status(fs, sector, SECTOR_ERASING);
 802a3ea:	f7ff ffe7 	bl	802a3bc <_sector_set_status>
    fs->flash->sector_erase(fs->flash, sector_addr);
 802a3ee:	6820      	ldr	r0, [r4, #0]
 802a3f0:	4629      	mov	r1, r5
 802a3f2:	68c3      	ldr	r3, [r0, #12]
 802a3f4:	4798      	blx	r3
    fs->flash->program(fs->flash,
 802a3f6:	4622      	mov	r2, r4
 802a3f8:	1d29      	adds	r1, r5, #4
 802a3fa:	f852 0b04 	ldr.w	r0, [r2], #4
 802a3fe:	2304      	movs	r3, #4
 802a400:	6907      	ldr	r7, [r0, #16]
 802a402:	47b8      	blx	r7
            sector_addr + offsetof(struct sector_header, version),
            &fs->version, sizeof(fs->version));
    _sector_set_status(fs, sector, SECTOR_FREE);
 802a404:	4620      	mov	r0, r4
 802a406:	4631      	mov	r1, r6
 802a408:	f06f 02ff 	mvn.w	r2, #255	; 0xff
 802a40c:	f7ff ffd6 	bl	802a3bc <_sector_set_status>
    return 0;
}
 802a410:	2000      	movs	r0, #0
 802a412:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}

0802a414 <_loc_advance_slot>:
}

/** Advance a location to the next slot, advancing the sector too if needed. */
static void _loc_advance_slot(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot++;
 802a414:	684b      	ldr	r3, [r1, #4]
    if (loc->slot >= fs->slots_per_sector)
 802a416:	68c2      	ldr	r2, [r0, #12]
}

/** Advance a location to the next slot, advancing the sector too if needed. */
static void _loc_advance_slot(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot++;
 802a418:	3301      	adds	r3, #1
    if (loc->slot >= fs->slots_per_sector)
 802a41a:	4293      	cmp	r3, r2
}

/** Advance a location to the next slot, advancing the sector too if needed. */
static void _loc_advance_slot(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot++;
 802a41c:	604b      	str	r3, [r1, #4]
    if (loc->slot >= fs->slots_per_sector)
 802a41e:	db09      	blt.n	802a434 <_loc_advance_slot+0x20>
/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
    loc->sector++;
    if (loc->sector >= fs->flash->sector_count)
 802a420:	6800      	ldr	r0, [r0, #0]

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
    loc->sector++;
 802a422:	680a      	ldr	r2, [r1, #0]
    if (loc->sector >= fs->flash->sector_count)
 802a424:	6880      	ldr	r0, [r0, #8]

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
    loc->sector++;
 802a426:	3201      	adds	r2, #1
}

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
 802a428:	2300      	movs	r3, #0
    loc->sector++;
    if (loc->sector >= fs->flash->sector_count)
 802a42a:	4282      	cmp	r2, r0
}

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
 802a42c:	e881 000c 	stmia.w	r1, {r2, r3}
    loc->sector++;
    if (loc->sector >= fs->flash->sector_count)
        loc->sector = 0;
 802a430:	bfa8      	it	ge
 802a432:	600b      	strge	r3, [r1, #0]
 802a434:	4770      	bx	lr

0802a436 <ringfs_init>:
int ringfs_init(struct ringfs *fs, struct ringfs_flash_partition *flash, uint32_t version, int object_size)
{
    /* Copy arguments to instance. */
    fs->flash = flash;
    fs->version = version;
    fs->object_size = object_size;
 802a436:	e880 000e 	stmia.w	r0, {r1, r2, r3}

    /* Precalculate commonly used values. */
    fs->slots_per_sector = (fs->flash->sector_size - sizeof(struct sector_header)) /
 802a43a:	680a      	ldr	r2, [r1, #0]
                           (sizeof(struct slot_header) + fs->object_size);
 802a43c:	3304      	adds	r3, #4
    fs->flash = flash;
    fs->version = version;
    fs->object_size = object_size;

    /* Precalculate commonly used values. */
    fs->slots_per_sector = (fs->flash->sector_size - sizeof(struct sector_header)) /
 802a43e:	3a08      	subs	r2, #8
 802a440:	fbb2 f3f3 	udiv	r3, r2, r3
 802a444:	60c3      	str	r3, [r0, #12]
                           (sizeof(struct slot_header) + fs->object_size);

    return 0;
}
 802a446:	2000      	movs	r0, #0
 802a448:	4770      	bx	lr

0802a44a <ringfs_format>:

int ringfs_format(struct ringfs *fs)
{
 802a44a:	b538      	push	{r3, r4, r5, lr}
 802a44c:	4604      	mov	r4, r0
    /* Mark all sectors to prevent half-erased filesystems. */
    for (int sector=0; sector<fs->flash->sector_count; sector++)
 802a44e:	2500      	movs	r5, #0
 802a450:	e005      	b.n	802a45e <ringfs_format+0x14>
        _sector_set_status(fs, sector, SECTOR_FORMATTING);
 802a452:	4629      	mov	r1, r5
 802a454:	4620      	mov	r0, r4
 802a456:	2200      	movs	r2, #0
 802a458:	f7ff ffb0 	bl	802a3bc <_sector_set_status>
}

int ringfs_format(struct ringfs *fs)
{
    /* Mark all sectors to prevent half-erased filesystems. */
    for (int sector=0; sector<fs->flash->sector_count; sector++)
 802a45c:	3501      	adds	r5, #1
 802a45e:	6823      	ldr	r3, [r4, #0]
 802a460:	689b      	ldr	r3, [r3, #8]
 802a462:	429d      	cmp	r5, r3
 802a464:	dbf5      	blt.n	802a452 <ringfs_format+0x8>
 802a466:	2500      	movs	r5, #0
 802a468:	e004      	b.n	802a474 <ringfs_format+0x2a>
        _sector_set_status(fs, sector, SECTOR_FORMATTING);

    /* Erase, update version, mark as free. */
    for (int sector=0; sector<fs->flash->sector_count; sector++)
        _sector_free(fs, sector);
 802a46a:	4629      	mov	r1, r5
 802a46c:	4620      	mov	r0, r4
 802a46e:	f7ff ffb3 	bl	802a3d8 <_sector_free>
    /* Mark all sectors to prevent half-erased filesystems. */
    for (int sector=0; sector<fs->flash->sector_count; sector++)
        _sector_set_status(fs, sector, SECTOR_FORMATTING);

    /* Erase, update version, mark as free. */
    for (int sector=0; sector<fs->flash->sector_count; sector++)
 802a472:	3501      	adds	r5, #1
 802a474:	6823      	ldr	r3, [r4, #0]
 802a476:	689b      	ldr	r3, [r3, #8]
 802a478:	429d      	cmp	r5, r3
 802a47a:	dbf6      	blt.n	802a46a <ringfs_format+0x20>
        _sector_free(fs, sector);

    /* Start reading & writing at the first sector. */
    fs->read.sector = 0;
 802a47c:	2000      	movs	r0, #0
 802a47e:	6120      	str	r0, [r4, #16]
    fs->read.slot = 0;
 802a480:	6160      	str	r0, [r4, #20]
    fs->write.sector = 0;
 802a482:	61a0      	str	r0, [r4, #24]
    fs->write.slot = 0;
 802a484:	61e0      	str	r0, [r4, #28]
    fs->cursor.sector = 0;
 802a486:	6220      	str	r0, [r4, #32]
    fs->cursor.slot = 0;
 802a488:	6260      	str	r0, [r4, #36]	; 0x24

    return 0;
}
 802a48a:	bd38      	pop	{r3, r4, r5, pc}

0802a48c <ringfs_count_estimate>:
    return fs->slots_per_sector * (fs->flash->sector_count - 1);
}

int ringfs_count_estimate(struct ringfs *fs)
{
    int sector_diff = (fs->write.sector - fs->read.sector + fs->flash->sector_count) %
 802a48c:	6803      	ldr	r3, [r0, #0]
 802a48e:	6981      	ldr	r1, [r0, #24]
 802a490:	6902      	ldr	r2, [r0, #16]
 802a492:	689b      	ldr	r3, [r3, #8]
 802a494:	1a8a      	subs	r2, r1, r2
 802a496:	18d2      	adds	r2, r2, r3
 802a498:	fb92 f1f3 	sdiv	r1, r2, r3
 802a49c:	fb03 2311 	mls	r3, r3, r1, r2
{
    return fs->slots_per_sector * (fs->flash->sector_count - 1);
}

int ringfs_count_estimate(struct ringfs *fs)
{
 802a4a0:	b510      	push	{r4, lr}
    int sector_diff = (fs->write.sector - fs->read.sector + fs->flash->sector_count) %
        fs->flash->sector_count;

    return sector_diff * fs->slots_per_sector + fs->write.slot - fs->read.slot;
 802a4a2:	69c1      	ldr	r1, [r0, #28]
 802a4a4:	68c4      	ldr	r4, [r0, #12]
 802a4a6:	6940      	ldr	r0, [r0, #20]
 802a4a8:	fb04 1103 	mla	r1, r4, r3, r1
}
 802a4ac:	1a08      	subs	r0, r1, r0
 802a4ae:	bd10      	pop	{r4, pc}

0802a4b0 <ringfs_append>:
     * - the next sector: it must be free (invariant)
     * - the next-next sector: read & cursor heads are moved there if needed
     */

    /* Make sure the next sector is free. */
    int next_sector = (fs->write.sector+1) % fs->flash->sector_count;
 802a4b0:	6803      	ldr	r3, [r0, #0]
int ringfs_cursor_position(struct ringfs *fs) {
    return fs->cursor_position;
}

int ringfs_append(struct ringfs *fs, const void *object)
{
 802a4b2:	b5f7      	push	{r0, r1, r2, r4, r5, r6, r7, lr}
     * - the next sector: it must be free (invariant)
     * - the next-next sector: read & cursor heads are moved there if needed
     */

    /* Make sure the next sector is free. */
    int next_sector = (fs->write.sector+1) % fs->flash->sector_count;
 802a4b4:	6985      	ldr	r5, [r0, #24]
 802a4b6:	689b      	ldr	r3, [r3, #8]
 802a4b8:	3501      	adds	r5, #1
 802a4ba:	fb95 f2f3 	sdiv	r2, r5, r3
 802a4be:	fb03 5512 	mls	r5, r3, r2, r5
int ringfs_cursor_position(struct ringfs *fs) {
    return fs->cursor_position;
}

int ringfs_append(struct ringfs *fs, const void *object)
{
 802a4c2:	460f      	mov	r7, r1
     * - the next-next sector: read & cursor heads are moved there if needed
     */

    /* Make sure the next sector is free. */
    int next_sector = (fs->write.sector+1) % fs->flash->sector_count;
    _sector_get_status(fs, next_sector, &status);
 802a4c4:	aa01      	add	r2, sp, #4
 802a4c6:	4629      	mov	r1, r5
int ringfs_cursor_position(struct ringfs *fs) {
    return fs->cursor_position;
}

int ringfs_append(struct ringfs *fs, const void *object)
{
 802a4c8:	4604      	mov	r4, r0
     * - the next-next sector: read & cursor heads are moved there if needed
     */

    /* Make sure the next sector is free. */
    int next_sector = (fs->write.sector+1) % fs->flash->sector_count;
    _sector_get_status(fs, next_sector, &status);
 802a4ca:	f7ff ff6d 	bl	802a3a8 <_sector_get_status>
    if (status != SECTOR_FREE) {
 802a4ce:	9b01      	ldr	r3, [sp, #4]
 802a4d0:	f513 7f80 	cmn.w	r3, #256	; 0x100
 802a4d4:	d01b      	beq.n	802a50e <ringfs_append+0x5e>
        /* Next sector must be freed. But first... */

        /* Move the read & cursor heads out of the way. */
        if (fs->read.sector == next_sector)
 802a4d6:	6923      	ldr	r3, [r4, #16]
 802a4d8:	42ab      	cmp	r3, r5
 802a4da:	d108      	bne.n	802a4ee <ringfs_append+0x3e>
/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
    loc->sector++;
    if (loc->sector >= fs->flash->sector_count)
 802a4dc:	6821      	ldr	r1, [r4, #0]
 802a4de:	6889      	ldr	r1, [r1, #8]

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
    loc->sector++;
 802a4e0:	1c6a      	adds	r2, r5, #1
}

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
 802a4e2:	2300      	movs	r3, #0
    loc->sector++;
    if (loc->sector >= fs->flash->sector_count)
 802a4e4:	428a      	cmp	r2, r1

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
    loc->sector++;
 802a4e6:	6122      	str	r2, [r4, #16]
}

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
 802a4e8:	6163      	str	r3, [r4, #20]
    loc->sector++;
    if (loc->sector >= fs->flash->sector_count)
        loc->sector = 0;
 802a4ea:	bfa8      	it	ge
 802a4ec:	6123      	strge	r3, [r4, #16]
        /* Next sector must be freed. But first... */

        /* Move the read & cursor heads out of the way. */
        if (fs->read.sector == next_sector)
            _loc_advance_sector(fs, &fs->read);
        if (fs->cursor.sector == next_sector)
 802a4ee:	6a23      	ldr	r3, [r4, #32]
 802a4f0:	42ab      	cmp	r3, r5
 802a4f2:	d108      	bne.n	802a506 <ringfs_append+0x56>
/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
    loc->sector++;
    if (loc->sector >= fs->flash->sector_count)
 802a4f4:	6821      	ldr	r1, [r4, #0]
 802a4f6:	6889      	ldr	r1, [r1, #8]

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
    loc->sector++;
 802a4f8:	1c6a      	adds	r2, r5, #1
}

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
 802a4fa:	2300      	movs	r3, #0
    loc->sector++;
    if (loc->sector >= fs->flash->sector_count)
 802a4fc:	428a      	cmp	r2, r1

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
    loc->sector++;
 802a4fe:	6222      	str	r2, [r4, #32]
}

/** Advance a location to the beginning of the next sector. */
static void _loc_advance_sector(struct ringfs *fs, struct ringfs_loc *loc)
{
    loc->slot = 0;
 802a500:	6263      	str	r3, [r4, #36]	; 0x24
    loc->sector++;
    if (loc->sector >= fs->flash->sector_count)
        loc->sector = 0;
 802a502:	bfa8      	it	ge
 802a504:	6223      	strge	r3, [r4, #32]
            _loc_advance_sector(fs, &fs->read);
        if (fs->cursor.sector == next_sector)
            _loc_advance_sector(fs, &fs->cursor);

        /* Free the next sector. */
        _sector_free(fs, next_sector);
 802a506:	4620      	mov	r0, r4
 802a508:	4629      	mov	r1, r5
 802a50a:	f7ff ff65 	bl	802a3d8 <_sector_free>
    }

    /* Now we can make sure the current write sector is writable. */
    _sector_get_status(fs, fs->write.sector, &status);
 802a50e:	4620      	mov	r0, r4
 802a510:	69a1      	ldr	r1, [r4, #24]
 802a512:	aa01      	add	r2, sp, #4
 802a514:	f7ff ff48 	bl	802a3a8 <_sector_get_status>
    if (status == SECTOR_FREE) {
 802a518:	9b01      	ldr	r3, [sp, #4]
 802a51a:	f513 7f80 	cmn.w	r3, #256	; 0x100
 802a51e:	d105      	bne.n	802a52c <ringfs_append+0x7c>
        /* Free sector. Mark as used. */
        _sector_set_status(fs, fs->write.sector, SECTOR_IN_USE);
 802a520:	4620      	mov	r0, r4
 802a522:	69a1      	ldr	r1, [r4, #24]
 802a524:	4a15      	ldr	r2, [pc, #84]	; (802a57c <ringfs_append+0xcc>)
 802a526:	f7ff ff49 	bl	802a3bc <_sector_set_status>
 802a52a:	e008      	b.n	802a53e <ringfs_append+0x8e>
    } else if (status != SECTOR_IN_USE) {
 802a52c:	f513 3f80 	cmn.w	r3, #65536	; 0x10000
 802a530:	d005      	beq.n	802a53e <ringfs_append+0x8e>
        printf("ringfs_append: corrupted filesystem\r\n");
 802a532:	4813      	ldr	r0, [pc, #76]	; (802a580 <ringfs_append+0xd0>)
 802a534:	f7fd faa8 	bl	8027a88 <tfp_printf>
        return -1;
 802a538:	f04f 30ff 	mov.w	r0, #4294967295
 802a53c:	e01d      	b.n	802a57a <ringfs_append+0xca>
    }

    /* Preallocate slot. */
    _slot_set_status(fs, &fs->write, SLOT_RESERVED);
 802a53e:	f104 0518 	add.w	r5, r4, #24
 802a542:	f06f 02ff 	mvn.w	r2, #255	; 0xff
 802a546:	4629      	mov	r1, r5
 802a548:	4620      	mov	r0, r4
 802a54a:	f7ff ff1f 	bl	802a38c <_slot_set_status>

    /* Write object. */
    fs->flash->program(fs->flash,
            _slot_address(fs, &fs->write) + sizeof(struct slot_header),
 802a54e:	4629      	mov	r1, r5
 802a550:	4620      	mov	r0, r4
 802a552:	f7ff ff01 	bl	802a358 <_slot_address>

    /* Preallocate slot. */
    _slot_set_status(fs, &fs->write, SLOT_RESERVED);

    /* Write object. */
    fs->flash->program(fs->flash,
 802a556:	6826      	ldr	r6, [r4, #0]
 802a558:	68a3      	ldr	r3, [r4, #8]
 802a55a:	f8d6 c010 	ldr.w	ip, [r6, #16]
            _slot_address(fs, &fs->write) + sizeof(struct slot_header),
 802a55e:	1d01      	adds	r1, r0, #4

    /* Preallocate slot. */
    _slot_set_status(fs, &fs->write, SLOT_RESERVED);

    /* Write object. */
    fs->flash->program(fs->flash,
 802a560:	463a      	mov	r2, r7
 802a562:	4630      	mov	r0, r6
 802a564:	47e0      	blx	ip
            _slot_address(fs, &fs->write) + sizeof(struct slot_header),
            object, fs->object_size);

    /* Commit write. */
    _slot_set_status(fs, &fs->write, SLOT_VALID);
 802a566:	4629      	mov	r1, r5
 802a568:	4a04      	ldr	r2, [pc, #16]	; (802a57c <ringfs_append+0xcc>)
 802a56a:	4620      	mov	r0, r4
 802a56c:	f7ff ff0e 	bl	802a38c <_slot_set_status>

    /* Advance the write head. */
    _loc_advance_slot(fs, &fs->write);
 802a570:	4620      	mov	r0, r4
 802a572:	4629      	mov	r1, r5
 802a574:	f7ff ff4e 	bl	802a414 <_loc_advance_slot>

    return 0;
 802a578:	2000      	movs	r0, #0
}
 802a57a:	bdfe      	pop	{r1, r2, r3, r4, r5, r6, r7, pc}
 802a57c:	ffff0000 	.word	0xffff0000
 802a580:	08038d96 	.word	0x08038d96

0802a584 <ringfs_fetch>:

int ringfs_fetch(struct ringfs *fs, void *object)
{
 802a584:	e92d 41f3 	stmdb	sp!, {r0, r1, r4, r5, r6, r7, r8, lr}
 802a588:	4604      	mov	r4, r0
 802a58a:	4688      	mov	r8, r1
    /* Advance forward in search of a valid slot. */
    while (!_loc_equal(&fs->cursor, &fs->write)) {
 802a58c:	f100 0520 	add.w	r5, r0, #32
 802a590:	e021      	b.n	802a5d6 <ringfs_fetch+0x52>
        uint32_t status;

        _slot_get_status(fs, &fs->cursor, &status);
 802a592:	4620      	mov	r0, r4
 802a594:	4629      	mov	r1, r5
 802a596:	aa01      	add	r2, sp, #4
 802a598:	f7ff feec 	bl	802a374 <_slot_get_status>

        if (status == SLOT_VALID) {
 802a59c:	9b01      	ldr	r3, [sp, #4]
 802a59e:	f513 3f80 	cmn.w	r3, #65536	; 0x10000
 802a5a2:	d114      	bne.n	802a5ce <ringfs_fetch+0x4a>
            fs->flash->read(fs->flash,
                    _slot_address(fs, &fs->cursor) + sizeof(struct slot_header),
 802a5a4:	4629      	mov	r1, r5
 802a5a6:	4620      	mov	r0, r4
 802a5a8:	f7ff fed6 	bl	802a358 <_slot_address>
        uint32_t status;

        _slot_get_status(fs, &fs->cursor, &status);

        if (status == SLOT_VALID) {
            fs->flash->read(fs->flash,
 802a5ac:	6827      	ldr	r7, [r4, #0]
 802a5ae:	68a3      	ldr	r3, [r4, #8]
 802a5b0:	f8d7 c014 	ldr.w	ip, [r7, #20]
                    _slot_address(fs, &fs->cursor) + sizeof(struct slot_header),
 802a5b4:	1d01      	adds	r1, r0, #4
        uint32_t status;

        _slot_get_status(fs, &fs->cursor, &status);

        if (status == SLOT_VALID) {
            fs->flash->read(fs->flash,
 802a5b6:	4642      	mov	r2, r8
 802a5b8:	4638      	mov	r0, r7
 802a5ba:	47e0      	blx	ip
                    _slot_address(fs, &fs->cursor) + sizeof(struct slot_header),
                    object, fs->object_size);
            _loc_advance_slot(fs, &fs->cursor);
 802a5bc:	4620      	mov	r0, r4
 802a5be:	4629      	mov	r1, r5
 802a5c0:	f7ff ff28 	bl	802a414 <_loc_advance_slot>
            fs->cursor_position++;
 802a5c4:	6aa3      	ldr	r3, [r4, #40]	; 0x28
 802a5c6:	3301      	adds	r3, #1
 802a5c8:	62a3      	str	r3, [r4, #40]	; 0x28
            return 0;
 802a5ca:	4630      	mov	r0, r6
 802a5cc:	e012      	b.n	802a5f4 <ringfs_fetch+0x70>
        }

        _loc_advance_slot(fs, &fs->cursor);
 802a5ce:	4620      	mov	r0, r4
 802a5d0:	4629      	mov	r1, r5
 802a5d2:	f7ff ff1f 	bl	802a414 <_loc_advance_slot>
 * @{
 */

static bool _loc_equal(struct ringfs_loc *a, struct ringfs_loc *b)
{
    return (a->sector == b->sector) && (a->slot == b->slot);
 802a5d6:	6a22      	ldr	r2, [r4, #32]
 802a5d8:	69a3      	ldr	r3, [r4, #24]
 802a5da:	429a      	cmp	r2, r3
 802a5dc:	d105      	bne.n	802a5ea <ringfs_fetch+0x66>
 802a5de:	6a66      	ldr	r6, [r4, #36]	; 0x24
 802a5e0:	69e3      	ldr	r3, [r4, #28]
 802a5e2:	1af1      	subs	r1, r6, r3
 802a5e4:	424e      	negs	r6, r1
 802a5e6:	414e      	adcs	r6, r1
 802a5e8:	e000      	b.n	802a5ec <ringfs_fetch+0x68>
 802a5ea:	2600      	movs	r6, #0
}

int ringfs_fetch(struct ringfs *fs, void *object)
{
    /* Advance forward in search of a valid slot. */
    while (!_loc_equal(&fs->cursor, &fs->write)) {
 802a5ec:	2e00      	cmp	r6, #0
 802a5ee:	d0d0      	beq.n	802a592 <ringfs_fetch+0xe>
        }

        _loc_advance_slot(fs, &fs->cursor);
    }

    return -1;
 802a5f0:	f04f 30ff 	mov.w	r0, #4294967295
}
 802a5f4:	e8bd 81fc 	ldmia.w	sp!, {r2, r3, r4, r5, r6, r7, r8, pc}

0802a5f8 <ringfs_rewind>:
    return 0;
}

int ringfs_rewind(struct ringfs *fs)
{
    fs->cursor = fs->read;
 802a5f8:	f100 0110 	add.w	r1, r0, #16
    fs->cursor_position = 0;
    return 0;
}

int ringfs_rewind(struct ringfs *fs)
{
 802a5fc:	4603      	mov	r3, r0
    fs->cursor = fs->read;
 802a5fe:	f100 0220 	add.w	r2, r0, #32
 802a602:	c903      	ldmia	r1, {r0, r1}
 802a604:	e882 0003 	stmia.w	r2, {r0, r1}
    fs->cursor_position = 0;
 802a608:	2000      	movs	r0, #0
 802a60a:	6298      	str	r0, [r3, #40]	; 0x28
    return 0;
}
 802a60c:	4770      	bx	lr

0802a60e <ringfs_scan>:

    return 0;
}

int ringfs_scan(struct ringfs *fs)
{
 802a60e:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
    /* The read sector is the first IN_USE sector *after* a FREE sector
     * (or the first one). */
    int read_sector = 0;
    /* The write sector is the last IN_USE sector *before* a FREE sector
     * (or the last one). */
    int write_sector = fs->flash->sector_count - 1;
 802a612:	6803      	ldr	r3, [r0, #0]
 802a614:	689e      	ldr	r6, [r3, #8]
    bool free_seen = false;
    /* If there's no IN_USE sector, we start at the first one. */
    bool used_seen = false;

    /* Iterate over sectors. */
    for (int sector=0; sector<fs->flash->sector_count; sector++) {
 802a616:	2500      	movs	r5, #0

    return 0;
}

int ringfs_scan(struct ringfs *fs)
{
 802a618:	b085      	sub	sp, #20
 802a61a:	4604      	mov	r4, r0
    /* The read sector is the first IN_USE sector *after* a FREE sector
     * (or the first one). */
    int read_sector = 0;
    /* The write sector is the last IN_USE sector *before* a FREE sector
     * (or the last one). */
    int write_sector = fs->flash->sector_count - 1;
 802a61c:	3e01      	subs	r6, #1
    /* There must be at least one FREE sector available at all times. */
    bool free_seen = false;
    /* If there's no IN_USE sector, we start at the first one. */
    bool used_seen = false;
 802a61e:	46aa      	mov	sl, r5
    int read_sector = 0;
    /* The write sector is the last IN_USE sector *before* a FREE sector
     * (or the last one). */
    int write_sector = fs->flash->sector_count - 1;
    /* There must be at least one FREE sector available at all times. */
    bool free_seen = false;
 802a620:	46a8      	mov	r8, r5
int ringfs_scan(struct ringfs *fs)
{
    uint32_t previous_sector_status = SECTOR_FREE;
    /* The read sector is the first IN_USE sector *after* a FREE sector
     * (or the first one). */
    int read_sector = 0;
 802a622:	46a9      	mov	r9, r5
    return 0;
}

int ringfs_scan(struct ringfs *fs)
{
    uint32_t previous_sector_status = SECTOR_FREE;
 802a624:	f06f 07ff 	mvn.w	r7, #255	; 0xff
    bool free_seen = false;
    /* If there's no IN_USE sector, we start at the first one. */
    bool used_seen = false;

    /* Iterate over sectors. */
    for (int sector=0; sector<fs->flash->sector_count; sector++) {
 802a628:	e031      	b.n	802a68e <ringfs_scan+0x80>
    uint32_t version;
};

static int _sector_address(struct ringfs *fs, int sector_offset)
{
    return (fs->flash->sector_offset + sector_offset) * fs->flash->sector_size;
 802a62a:	6843      	ldr	r3, [r0, #4]
    for (int sector=0; sector<fs->flash->sector_count; sector++) {
        int addr = _sector_address(fs, sector);

        /* Read sector header. */
        struct sector_header header;
        fs->flash->read(fs->flash, addr, &header, sizeof(header));
 802a62c:	f8d0 c014 	ldr.w	ip, [r0, #20]
    uint32_t version;
};

static int _sector_address(struct ringfs *fs, int sector_offset)
{
    return (fs->flash->sector_offset + sector_offset) * fs->flash->sector_size;
 802a630:	eb05 0b03 	add.w	fp, r5, r3
 802a634:	6803      	ldr	r3, [r0, #0]
 802a636:	fb03 fb0b 	mul.w	fp, r3, fp
    for (int sector=0; sector<fs->flash->sector_count; sector++) {
        int addr = _sector_address(fs, sector);

        /* Read sector header. */
        struct sector_header header;
        fs->flash->read(fs->flash, addr, &header, sizeof(header));
 802a63a:	4659      	mov	r1, fp
 802a63c:	2308      	movs	r3, #8
 802a63e:	aa02      	add	r2, sp, #8
 802a640:	47e0      	blx	ip

        /* Detect partially-formatted partitions. */
        if (header.status == SECTOR_FORMATTING) {
 802a642:	9b02      	ldr	r3, [sp, #8]
 802a644:	2b00      	cmp	r3, #0
 802a646:	d06b      	beq.n	802a720 <ringfs_scan+0x112>
        	DBG printf("ringfs_scan: partially formatted partition\r\n");
            return -1;
        }

        /* Detect and fix partially erased sectors. */
        if (header.status == SECTOR_ERASING || header.status == SECTOR_ERASED) {
 802a648:	f1b3 4f7f 	cmp.w	r3, #4278190080	; 0xff000000
 802a64c:	d001      	beq.n	802a652 <ringfs_scan+0x44>
 802a64e:	3301      	adds	r3, #1
 802a650:	d106      	bne.n	802a660 <ringfs_scan+0x52>
            _sector_free(fs, addr);
 802a652:	4620      	mov	r0, r4
 802a654:	4659      	mov	r1, fp
 802a656:	f7ff febf 	bl	802a3d8 <_sector_free>
            header.status = SECTOR_FREE;
 802a65a:	f06f 03ff 	mvn.w	r3, #255	; 0xff
 802a65e:	9302      	str	r3, [sp, #8]
        }

        /* Detect corrupted sectors. */
        if (header.status != SECTOR_FREE && header.status != SECTOR_IN_USE) {
 802a660:	9b02      	ldr	r3, [sp, #8]
 802a662:	f513 7f80 	cmn.w	r3, #256	; 0x100
 802a666:	d002      	beq.n	802a66e <ringfs_scan+0x60>
 802a668:	f513 3f80 	cmn.w	r3, #65536	; 0x10000
 802a66c:	d158      	bne.n	802a720 <ringfs_scan+0x112>
            return -1;
        }

        /* Detect obsolete versions. We can't do this earlier because the version
         * could have been invalid due to a partial erase. */
        if (header.version != fs->version) {
 802a66e:	6862      	ldr	r2, [r4, #4]
 802a670:	9903      	ldr	r1, [sp, #12]
 802a672:	4291      	cmp	r1, r2
 802a674:	d154      	bne.n	802a720 <ringfs_scan+0x112>
            DBG printf("ringfs_scan: incompatible version 0x%08"PRIx32"\r\n", header.version);
            return -1;
        }

        /* Record the presence of a FREE sector. */
        if (header.status == SECTOR_FREE)
 802a676:	f513 7f80 	cmn.w	r3, #256	; 0x100
 802a67a:	d05b      	beq.n	802a734 <ringfs_scan+0x126>
            free_seen = true;

        /* Record the presence of a IN_USE sector. */
        if (header.status == SECTOR_IN_USE)
 802a67c:	f513 3f80 	cmn.w	r3, #65536	; 0x10000
 802a680:	d103      	bne.n	802a68a <ringfs_scan+0x7c>
 802a682:	e050      	b.n	802a726 <ringfs_scan+0x118>
    fs->cursor.slot = 0;

    return 0;
}

int ringfs_scan(struct ringfs *fs)
 802a684:	1e6e      	subs	r6, r5, #1
            return -1;
        }

        /* Record the presence of a FREE sector. */
        if (header.status == SECTOR_FREE)
            free_seen = true;
 802a686:	f04f 0801 	mov.w	r8, #1
    bool free_seen = false;
    /* If there's no IN_USE sector, we start at the first one. */
    bool used_seen = false;

    /* Iterate over sectors. */
    for (int sector=0; sector<fs->flash->sector_count; sector++) {
 802a68a:	3501      	adds	r5, #1
            _sector_free(fs, addr);
            header.status = SECTOR_FREE;
        }

        /* Detect corrupted sectors. */
        if (header.status != SECTOR_FREE && header.status != SECTOR_IN_USE) {
 802a68c:	461f      	mov	r7, r3
    bool free_seen = false;
    /* If there's no IN_USE sector, we start at the first one. */
    bool used_seen = false;

    /* Iterate over sectors. */
    for (int sector=0; sector<fs->flash->sector_count; sector++) {
 802a68e:	6820      	ldr	r0, [r4, #0]
 802a690:	6883      	ldr	r3, [r0, #8]
 802a692:	429d      	cmp	r5, r3
 802a694:	dbc9      	blt.n	802a62a <ringfs_scan+0x1c>

        previous_sector_status = header.status;
    }

    /* Detect the lack of a FREE sector. */
    if (!free_seen) {
 802a696:	f1b8 0f00 	cmp.w	r8, #0
 802a69a:	d041      	beq.n	802a720 <ringfs_scan+0x112>
        return -1;
    }

    /* Start writing at the first sector if the filesystem is empty. */
    if (!used_seen) {
        write_sector = 0;
 802a69c:	f1ba 0f00 	cmp.w	sl, #0
 802a6a0:	bf08      	it	eq
 802a6a2:	2600      	moveq	r6, #0
    }

    /* Scan the write sector and skip all occupied slots at the beginning. */
    fs->write.sector = write_sector;
    fs->write.slot = 0;
 802a6a4:	2300      	movs	r3, #0
    if (!used_seen) {
        write_sector = 0;
    }

    /* Scan the write sector and skip all occupied slots at the beginning. */
    fs->write.sector = write_sector;
 802a6a6:	61a6      	str	r6, [r4, #24]
    fs->write.slot = 0;
 802a6a8:	61e3      	str	r3, [r4, #28]
    while (fs->write.sector == write_sector) {
        uint32_t status;
        _slot_get_status(fs, &fs->write, &status);
 802a6aa:	f104 0518 	add.w	r5, r4, #24
    }

    /* Scan the write sector and skip all occupied slots at the beginning. */
    fs->write.sector = write_sector;
    fs->write.slot = 0;
    while (fs->write.sector == write_sector) {
 802a6ae:	e00b      	b.n	802a6c8 <ringfs_scan+0xba>
        uint32_t status;
        _slot_get_status(fs, &fs->write, &status);
 802a6b0:	4620      	mov	r0, r4
 802a6b2:	4629      	mov	r1, r5
 802a6b4:	aa01      	add	r2, sp, #4
 802a6b6:	f7ff fe5d 	bl	802a374 <_slot_get_status>
        if (status == SLOT_ERASED)
 802a6ba:	9b01      	ldr	r3, [sp, #4]
 802a6bc:	3301      	adds	r3, #1
 802a6be:	d006      	beq.n	802a6ce <ringfs_scan+0xc0>
            break;

        _loc_advance_slot(fs, &fs->write);
 802a6c0:	4620      	mov	r0, r4
 802a6c2:	4629      	mov	r1, r5
 802a6c4:	f7ff fea6 	bl	802a414 <_loc_advance_slot>
    }

    /* Scan the write sector and skip all occupied slots at the beginning. */
    fs->write.sector = write_sector;
    fs->write.slot = 0;
    while (fs->write.sector == write_sector) {
 802a6c8:	69a3      	ldr	r3, [r4, #24]
 802a6ca:	42b3      	cmp	r3, r6
 802a6cc:	d0f0      	beq.n	802a6b0 <ringfs_scan+0xa2>

    /* Position the read head at the start of the first IN_USE sector, then skip
     * over garbage/invalid slots until something of value is found or we reach
     * the write head which means there's no data. */
    fs->read.sector = read_sector;
    fs->read.slot = 0;
 802a6ce:	2300      	movs	r3, #0
    /* If the sector was full, we're at the beginning of a FREE sector now. */

    /* Position the read head at the start of the first IN_USE sector, then skip
     * over garbage/invalid slots until something of value is found or we reach
     * the write head which means there's no data. */
    fs->read.sector = read_sector;
 802a6d0:	f8c4 9010 	str.w	r9, [r4, #16]
    fs->read.slot = 0;
 802a6d4:	6163      	str	r3, [r4, #20]
    while (!_loc_equal(&fs->read, &fs->write)) {
 802a6d6:	f104 0510 	add.w	r5, r4, #16
 802a6da:	e00c      	b.n	802a6f6 <ringfs_scan+0xe8>
        uint32_t status;
        _slot_get_status(fs, &fs->read, &status);
 802a6dc:	4620      	mov	r0, r4
 802a6de:	4629      	mov	r1, r5
 802a6e0:	aa01      	add	r2, sp, #4
 802a6e2:	f7ff fe47 	bl	802a374 <_slot_get_status>
        if (status == SLOT_VALID)
 802a6e6:	9b01      	ldr	r3, [sp, #4]
 802a6e8:	f513 3f80 	cmn.w	r3, #65536	; 0x10000
 802a6ec:	d013      	beq.n	802a716 <ringfs_scan+0x108>
            break;

        _loc_advance_slot(fs, &fs->read);
 802a6ee:	4620      	mov	r0, r4
 802a6f0:	4629      	mov	r1, r5
 802a6f2:	f7ff fe8f 	bl	802a414 <_loc_advance_slot>
 * @{
 */

static bool _loc_equal(struct ringfs_loc *a, struct ringfs_loc *b)
{
    return (a->sector == b->sector) && (a->slot == b->slot);
 802a6f6:	6922      	ldr	r2, [r4, #16]
 802a6f8:	69a3      	ldr	r3, [r4, #24]
 802a6fa:	429a      	cmp	r2, r3
 802a6fc:	d108      	bne.n	802a710 <ringfs_scan+0x102>
 802a6fe:	69e3      	ldr	r3, [r4, #28]
 802a700:	6962      	ldr	r2, [r4, #20]
 802a702:	ebb2 0e03 	subs.w	lr, r2, r3
 802a706:	f1de 0300 	rsbs	r3, lr, #0
 802a70a:	eb53 030e 	adcs.w	r3, r3, lr
 802a70e:	e000      	b.n	802a712 <ringfs_scan+0x104>
 802a710:	2300      	movs	r3, #0
    /* Position the read head at the start of the first IN_USE sector, then skip
     * over garbage/invalid slots until something of value is found or we reach
     * the write head which means there's no data. */
    fs->read.sector = read_sector;
    fs->read.slot = 0;
    while (!_loc_equal(&fs->read, &fs->write)) {
 802a712:	2b00      	cmp	r3, #0
 802a714:	d0e2      	beq.n	802a6dc <ringfs_scan+0xce>

        _loc_advance_slot(fs, &fs->read);
    }

    /* Move the read cursor to the read head position. */
    ringfs_rewind(fs);
 802a716:	4620      	mov	r0, r4
 802a718:	f7ff ff6e 	bl	802a5f8 <ringfs_rewind>

    return 0;
 802a71c:	2000      	movs	r0, #0
 802a71e:	e00d      	b.n	802a73c <ringfs_scan+0x12e>
    }

    /* Detect the lack of a FREE sector. */
    if (!free_seen) {
    	DBG printf("ringfs_scan: invariant violated: no FREE sector found\r\n");
        return -1;
 802a720:	f04f 30ff 	mov.w	r0, #4294967295
 802a724:	e00a      	b.n	802a73c <ringfs_scan+0x12e>
        /* Record the presence of a IN_USE sector. */
        if (header.status == SECTOR_IN_USE)
            used_seen = true;

        /* Update read & write sectors according to the above rules. */
        if (header.status == SECTOR_IN_USE && previous_sector_status == SECTOR_FREE)
 802a726:	f517 7f80 	cmn.w	r7, #256	; 0x100
 802a72a:	bf08      	it	eq
 802a72c:	46a9      	moveq	r9, r5
        if (header.status == SECTOR_FREE)
            free_seen = true;

        /* Record the presence of a IN_USE sector. */
        if (header.status == SECTOR_IN_USE)
            used_seen = true;
 802a72e:	f04f 0a01 	mov.w	sl, #1
 802a732:	e7aa      	b.n	802a68a <ringfs_scan+0x7c>

        /* Update read & write sectors according to the above rules. */
        if (header.status == SECTOR_IN_USE && previous_sector_status == SECTOR_FREE)
            read_sector = sector;
        if (header.status == SECTOR_FREE && previous_sector_status == SECTOR_IN_USE)
 802a734:	f517 3f80 	cmn.w	r7, #65536	; 0x10000
 802a738:	d0a4      	beq.n	802a684 <ringfs_scan+0x76>
 802a73a:	e7a4      	b.n	802a686 <ringfs_scan+0x78>

    /* Move the read cursor to the read head position. */
    ringfs_rewind(fs);

    return 0;
}
 802a73c:	b005      	add	sp, #20
 802a73e:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}

0802a742 <vListInitialise>:
void vListInitialise( List_t * const pxList )
{
	/* The list structure contains a list item which is used to mark the
	end of the list.  To initialise the list the list end is inserted
	as the only list entry. */
	pxList->pxIndex = ( ListItem_t * ) &( pxList->xListEnd );			/*lint !e826 !e740 The mini list structure is used as the list end to save RAM.  This is checked and valid. */
 802a742:	f100 0308 	add.w	r3, r0, #8
 802a746:	6043      	str	r3, [r0, #4]

	/* The list end value is the highest possible value in the list to
	ensure it remains at the end of the list. */
	pxList->xListEnd.xItemValue = portMAX_DELAY;
 802a748:	f04f 32ff 	mov.w	r2, #4294967295

	/* The list end next and previous pointers point to itself so we know
	when the list is empty. */
	pxList->xListEnd.pxNext = ( ListItem_t * ) &( pxList->xListEnd );	/*lint !e826 !e740 The mini list structure is used as the list end to save RAM.  This is checked and valid. */
 802a74c:	60c3      	str	r3, [r0, #12]
	pxList->xListEnd.pxPrevious = ( ListItem_t * ) &( pxList->xListEnd );/*lint !e826 !e740 The mini list structure is used as the list end to save RAM.  This is checked and valid. */
 802a74e:	6103      	str	r3, [r0, #16]

	pxList->uxNumberOfItems = ( UBaseType_t ) 0U;
 802a750:	2300      	movs	r3, #0
	as the only list entry. */
	pxList->pxIndex = ( ListItem_t * ) &( pxList->xListEnd );			/*lint !e826 !e740 The mini list structure is used as the list end to save RAM.  This is checked and valid. */

	/* The list end value is the highest possible value in the list to
	ensure it remains at the end of the list. */
	pxList->xListEnd.xItemValue = portMAX_DELAY;
 802a752:	6082      	str	r2, [r0, #8]
	/* The list end next and previous pointers point to itself so we know
	when the list is empty. */
	pxList->xListEnd.pxNext = ( ListItem_t * ) &( pxList->xListEnd );	/*lint !e826 !e740 The mini list structure is used as the list end to save RAM.  This is checked and valid. */
	pxList->xListEnd.pxPrevious = ( ListItem_t * ) &( pxList->xListEnd );/*lint !e826 !e740 The mini list structure is used as the list end to save RAM.  This is checked and valid. */

	pxList->uxNumberOfItems = ( UBaseType_t ) 0U;
 802a754:	6003      	str	r3, [r0, #0]
 802a756:	4770      	bx	lr

0802a758 <vListInitialiseItem>:
/*-----------------------------------------------------------*/

void vListInitialiseItem( ListItem_t * const pxItem )
{
	/* Make sure the list item is not recorded as being on a list. */
	pxItem->pvContainer = NULL;
 802a758:	2300      	movs	r3, #0
 802a75a:	6103      	str	r3, [r0, #16]
 802a75c:	4770      	bx	lr

0802a75e <vListInsertEnd>:
}
/*-----------------------------------------------------------*/

void vListInsertEnd( List_t * const pxList, ListItem_t * const pxNewListItem )
{
ListItem_t * const pxIndex = pxList->pxIndex;
 802a75e:	6843      	ldr	r3, [r0, #4]
	pxNewListItem->pxPrevious = pxIndex->pxPrevious;
	pxIndex->pxPrevious->pxNext = pxNewListItem;
	pxIndex->pxPrevious = pxNewListItem;

	/* Remember which list the item is in. */
	pxNewListItem->pvContainer = ( void * ) pxList;
 802a760:	6108      	str	r0, [r1, #16]

	/* Insert a new list item into pxList, but rather than sort the list,
	makes the new list item the last item to be removed by a call to
	listGET_OWNER_OF_NEXT_ENTRY(). */
	pxNewListItem->pxNext = pxIndex;
	pxNewListItem->pxPrevious = pxIndex->pxPrevious;
 802a762:	689a      	ldr	r2, [r3, #8]
	listTEST_LIST_ITEM_INTEGRITY( pxNewListItem );

	/* Insert a new list item into pxList, but rather than sort the list,
	makes the new list item the last item to be removed by a call to
	listGET_OWNER_OF_NEXT_ENTRY(). */
	pxNewListItem->pxNext = pxIndex;
 802a764:	604b      	str	r3, [r1, #4]
	pxNewListItem->pxPrevious = pxIndex->pxPrevious;
 802a766:	608a      	str	r2, [r1, #8]
	pxIndex->pxPrevious->pxNext = pxNewListItem;
 802a768:	689a      	ldr	r2, [r3, #8]
	pxIndex->pxPrevious = pxNewListItem;
 802a76a:	6099      	str	r1, [r3, #8]

	/* Remember which list the item is in. */
	pxNewListItem->pvContainer = ( void * ) pxList;

	( pxList->uxNumberOfItems )++;
 802a76c:	6803      	ldr	r3, [r0, #0]
	/* Insert a new list item into pxList, but rather than sort the list,
	makes the new list item the last item to be removed by a call to
	listGET_OWNER_OF_NEXT_ENTRY(). */
	pxNewListItem->pxNext = pxIndex;
	pxNewListItem->pxPrevious = pxIndex->pxPrevious;
	pxIndex->pxPrevious->pxNext = pxNewListItem;
 802a76e:	6051      	str	r1, [r2, #4]
	pxIndex->pxPrevious = pxNewListItem;

	/* Remember which list the item is in. */
	pxNewListItem->pvContainer = ( void * ) pxList;

	( pxList->uxNumberOfItems )++;
 802a770:	3301      	adds	r3, #1
 802a772:	6003      	str	r3, [r0, #0]
 802a774:	4770      	bx	lr

0802a776 <vListInsert>:
/*-----------------------------------------------------------*/

void vListInsert( List_t * const pxList, ListItem_t * const pxNewListItem )
{
ListItem_t *pxIterator;
const TickType_t xValueOfInsertion = pxNewListItem->xItemValue;
 802a776:	680a      	ldr	r2, [r1, #0]
	new list item should be placed after it.  This ensures that TCB's which are
	stored in ready lists (all of which have the same xItemValue value) get a
	share of the CPU.  However, if the xItemValue is the same as the back marker
	the iteration loop below will not end.  Therefore the value is checked
	first, and the algorithm slightly modified if necessary. */
	if( xValueOfInsertion == portMAX_DELAY )
 802a778:	1c53      	adds	r3, r2, #1
	( pxList->uxNumberOfItems )++;
}
/*-----------------------------------------------------------*/

void vListInsert( List_t * const pxList, ListItem_t * const pxNewListItem )
{
 802a77a:	b530      	push	{r4, r5, lr}
	new list item should be placed after it.  This ensures that TCB's which are
	stored in ready lists (all of which have the same xItemValue value) get a
	share of the CPU.  However, if the xItemValue is the same as the back marker
	the iteration loop below will not end.  Therefore the value is checked
	first, and the algorithm slightly modified if necessary. */
	if( xValueOfInsertion == portMAX_DELAY )
 802a77c:	d101      	bne.n	802a782 <vListInsert+0xc>
	{
		pxIterator = pxList->xListEnd.pxPrevious;
 802a77e:	6903      	ldr	r3, [r0, #16]
 802a780:	e007      	b.n	802a792 <vListInsert+0x1c>
			4) Using a queue or semaphore before it has been initialised or
			   before the scheduler has been started (are interrupts firing
			   before vTaskStartScheduler() has been called?).
		**********************************************************************/

		for( pxIterator = ( ListItem_t * ) &( pxList->xListEnd ); pxIterator->pxNext->xItemValue <= xValueOfInsertion; pxIterator = pxIterator->pxNext ) /*lint !e826 !e740 The mini list structure is used as the list end to save RAM.  This is checked and valid. */
 802a782:	f100 0308 	add.w	r3, r0, #8
 802a786:	e000      	b.n	802a78a <vListInsert+0x14>
 802a788:	4623      	mov	r3, r4
 802a78a:	685c      	ldr	r4, [r3, #4]
 802a78c:	6825      	ldr	r5, [r4, #0]
 802a78e:	4295      	cmp	r5, r2
 802a790:	d9fa      	bls.n	802a788 <vListInsert+0x12>
			/* There is nothing to do here, just iterating to the wanted
			insertion position. */
		}
	}

	pxNewListItem->pxNext = pxIterator->pxNext;
 802a792:	685a      	ldr	r2, [r3, #4]
	pxNewListItem->pxPrevious = pxIterator;
	pxIterator->pxNext = pxNewListItem;

	/* Remember which list the item is in.  This allows fast removal of the
	item later. */
	pxNewListItem->pvContainer = ( void * ) pxList;
 802a794:	6108      	str	r0, [r1, #16]
			/* There is nothing to do here, just iterating to the wanted
			insertion position. */
		}
	}

	pxNewListItem->pxNext = pxIterator->pxNext;
 802a796:	604a      	str	r2, [r1, #4]
	pxNewListItem->pxNext->pxPrevious = pxNewListItem;
 802a798:	6091      	str	r1, [r2, #8]
	pxNewListItem->pxPrevious = pxIterator;
	pxIterator->pxNext = pxNewListItem;
 802a79a:	6059      	str	r1, [r3, #4]
		}
	}

	pxNewListItem->pxNext = pxIterator->pxNext;
	pxNewListItem->pxNext->pxPrevious = pxNewListItem;
	pxNewListItem->pxPrevious = pxIterator;
 802a79c:	608b      	str	r3, [r1, #8]

	/* Remember which list the item is in.  This allows fast removal of the
	item later. */
	pxNewListItem->pvContainer = ( void * ) pxList;

	( pxList->uxNumberOfItems )++;
 802a79e:	6803      	ldr	r3, [r0, #0]
 802a7a0:	3301      	adds	r3, #1
 802a7a2:	6003      	str	r3, [r0, #0]
 802a7a4:	bd30      	pop	{r4, r5, pc}

0802a7a6 <uxListRemove>:
{
/* The list item knows which list it is in.  Obtain the list from the list
item. */
List_t * const pxList = ( List_t * ) pxItemToRemove->pvContainer;

	pxItemToRemove->pxNext->pxPrevious = pxItemToRemove->pxPrevious;
 802a7a6:	6841      	ldr	r1, [r0, #4]
 802a7a8:	6882      	ldr	r2, [r0, #8]

UBaseType_t uxListRemove( ListItem_t * const pxItemToRemove )
{
/* The list item knows which list it is in.  Obtain the list from the list
item. */
List_t * const pxList = ( List_t * ) pxItemToRemove->pvContainer;
 802a7aa:	6903      	ldr	r3, [r0, #16]

	pxItemToRemove->pxNext->pxPrevious = pxItemToRemove->pxPrevious;
 802a7ac:	608a      	str	r2, [r1, #8]
	pxItemToRemove->pxPrevious->pxNext = pxItemToRemove->pxNext;
 802a7ae:	6882      	ldr	r2, [r0, #8]
 802a7b0:	6051      	str	r1, [r2, #4]

	/* Make sure the index is left pointing to a valid item. */
	if( pxList->pxIndex == pxItemToRemove )
 802a7b2:	6859      	ldr	r1, [r3, #4]
 802a7b4:	4281      	cmp	r1, r0
	{
		pxList->pxIndex = pxItemToRemove->pxPrevious;
 802a7b6:	bf08      	it	eq
 802a7b8:	605a      	streq	r2, [r3, #4]
	else
	{
		mtCOVERAGE_TEST_MARKER();
	}

	pxItemToRemove->pvContainer = NULL;
 802a7ba:	2200      	movs	r2, #0
 802a7bc:	6102      	str	r2, [r0, #16]
	( pxList->uxNumberOfItems )--;
 802a7be:	6818      	ldr	r0, [r3, #0]
 802a7c0:	3801      	subs	r0, #1
 802a7c2:	6018      	str	r0, [r3, #0]

	return pxList->uxNumberOfItems;
}
 802a7c4:	4770      	bx	lr

0802a7c6 <prvUnlockQueue>:
	}
}
/*-----------------------------------------------------------*/

static void prvUnlockQueue( Queue_t * const pxQueue )
{
 802a7c6:	b538      	push	{r3, r4, r5, lr}
 802a7c8:	4604      	mov	r4, r0
			{
				/* Tasks that are removed from the event list will get added to
				the pending ready list as the scheduler is still suspended. */
				if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToReceive ) ) == pdFALSE )
				{
					if( xTaskRemoveFromEventList( &( pxQueue->xTasksWaitingToReceive ) ) != pdFALSE )
 802a7ca:	f104 0524 	add.w	r5, r4, #36	; 0x24

	/* The lock counts contains the number of extra data items placed or
	removed from the queue while the queue was locked.  When a queue is
	locked items can be added or removed, but the event lists cannot be
	updated. */
	taskENTER_CRITICAL();
 802a7ce:	f001 f9bd 	bl	802bb4c <vPortEnterCritical>
	{
		/* See if data was added to the queue while it was locked. */
		while( pxQueue->xTxLock > queueLOCKED_UNMODIFIED )
 802a7d2:	e00a      	b.n	802a7ea <prvUnlockQueue+0x24>
			}
			#else /* configUSE_QUEUE_SETS */
			{
				/* Tasks that are removed from the event list will get added to
				the pending ready list as the scheduler is still suspended. */
				if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToReceive ) ) == pdFALSE )
 802a7d4:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802a7d6:	b15b      	cbz	r3, 802a7f0 <prvUnlockQueue+0x2a>
				{
					if( xTaskRemoveFromEventList( &( pxQueue->xTasksWaitingToReceive ) ) != pdFALSE )
 802a7d8:	4628      	mov	r0, r5
 802a7da:	f000 fecd 	bl	802b578 <xTaskRemoveFromEventList>
 802a7de:	b108      	cbz	r0, 802a7e4 <prvUnlockQueue+0x1e>
					{
						/* The task waiting has a higher priority so record that a
						context	switch is required. */
						vTaskMissedYield();
 802a7e0:	f000 ff44 	bl	802b66c <vTaskMissedYield>
					break;
				}
			}
			#endif /* configUSE_QUEUE_SETS */

			--( pxQueue->xTxLock );
 802a7e4:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 802a7e6:	3b01      	subs	r3, #1
 802a7e8:	64a3      	str	r3, [r4, #72]	; 0x48
	locked items can be added or removed, but the event lists cannot be
	updated. */
	taskENTER_CRITICAL();
	{
		/* See if data was added to the queue while it was locked. */
		while( pxQueue->xTxLock > queueLOCKED_UNMODIFIED )
 802a7ea:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 802a7ec:	2b00      	cmp	r3, #0
 802a7ee:	dcf1      	bgt.n	802a7d4 <prvUnlockQueue+0xe>
			#endif /* configUSE_QUEUE_SETS */

			--( pxQueue->xTxLock );
		}

		pxQueue->xTxLock = queueUNLOCKED;
 802a7f0:	f04f 33ff 	mov.w	r3, #4294967295
 802a7f4:	64a3      	str	r3, [r4, #72]	; 0x48
	}
	taskEXIT_CRITICAL();
 802a7f6:	f001 f9d5 	bl	802bba4 <vPortExitCritical>
	{
		while( pxQueue->xRxLock > queueLOCKED_UNMODIFIED )
		{
			if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToSend ) ) == pdFALSE )
			{
				if( xTaskRemoveFromEventList( &( pxQueue->xTasksWaitingToSend ) ) != pdFALSE )
 802a7fa:	f104 0510 	add.w	r5, r4, #16
		pxQueue->xTxLock = queueUNLOCKED;
	}
	taskEXIT_CRITICAL();

	/* Do the same for the Rx lock. */
	taskENTER_CRITICAL();
 802a7fe:	f001 f9a5 	bl	802bb4c <vPortEnterCritical>
	{
		while( pxQueue->xRxLock > queueLOCKED_UNMODIFIED )
 802a802:	e00a      	b.n	802a81a <prvUnlockQueue+0x54>
		{
			if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToSend ) ) == pdFALSE )
 802a804:	6923      	ldr	r3, [r4, #16]
 802a806:	b15b      	cbz	r3, 802a820 <prvUnlockQueue+0x5a>
			{
				if( xTaskRemoveFromEventList( &( pxQueue->xTasksWaitingToSend ) ) != pdFALSE )
 802a808:	4628      	mov	r0, r5
 802a80a:	f000 feb5 	bl	802b578 <xTaskRemoveFromEventList>
 802a80e:	b108      	cbz	r0, 802a814 <prvUnlockQueue+0x4e>
				{
					vTaskMissedYield();
 802a810:	f000 ff2c 	bl	802b66c <vTaskMissedYield>
				else
				{
					mtCOVERAGE_TEST_MARKER();
				}

				--( pxQueue->xRxLock );
 802a814:	6c63      	ldr	r3, [r4, #68]	; 0x44
 802a816:	3b01      	subs	r3, #1
 802a818:	6463      	str	r3, [r4, #68]	; 0x44
	taskEXIT_CRITICAL();

	/* Do the same for the Rx lock. */
	taskENTER_CRITICAL();
	{
		while( pxQueue->xRxLock > queueLOCKED_UNMODIFIED )
 802a81a:	6c63      	ldr	r3, [r4, #68]	; 0x44
 802a81c:	2b00      	cmp	r3, #0
 802a81e:	dcf1      	bgt.n	802a804 <prvUnlockQueue+0x3e>
			{
				break;
			}
		}

		pxQueue->xRxLock = queueUNLOCKED;
 802a820:	f04f 33ff 	mov.w	r3, #4294967295
 802a824:	6463      	str	r3, [r4, #68]	; 0x44
	}
	taskEXIT_CRITICAL();
}
 802a826:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
			}
		}

		pxQueue->xRxLock = queueUNLOCKED;
	}
	taskEXIT_CRITICAL();
 802a82a:	f001 b9bb 	b.w	802bba4 <vPortExitCritical>

0802a82e <prvCopyDataFromQueue>:
}
/*-----------------------------------------------------------*/

static void prvCopyDataFromQueue( Queue_t * const pxQueue, void * const pvBuffer )
{
	if( pxQueue->uxItemSize != ( UBaseType_t ) 0 )
 802a82e:	6c02      	ldr	r2, [r0, #64]	; 0x40
	return xReturn;
}
/*-----------------------------------------------------------*/

static void prvCopyDataFromQueue( Queue_t * const pxQueue, void * const pvBuffer )
{
 802a830:	b530      	push	{r4, r5, lr}
 802a832:	4603      	mov	r3, r0
	if( pxQueue->uxItemSize != ( UBaseType_t ) 0 )
 802a834:	b16a      	cbz	r2, 802a852 <prvCopyDataFromQueue+0x24>
	{
		pxQueue->u.pcReadFrom += pxQueue->uxItemSize;
 802a836:	68c4      	ldr	r4, [r0, #12]
		if( pxQueue->u.pcReadFrom >= pxQueue->pcTail ) /*lint !e946 MISRA exception justified as use of the relational operator is the cleanest solutions. */
 802a838:	6845      	ldr	r5, [r0, #4]

static void prvCopyDataFromQueue( Queue_t * const pxQueue, void * const pvBuffer )
{
	if( pxQueue->uxItemSize != ( UBaseType_t ) 0 )
	{
		pxQueue->u.pcReadFrom += pxQueue->uxItemSize;
 802a83a:	18a4      	adds	r4, r4, r2
		if( pxQueue->u.pcReadFrom >= pxQueue->pcTail ) /*lint !e946 MISRA exception justified as use of the relational operator is the cleanest solutions. */
 802a83c:	42ac      	cmp	r4, r5

static void prvCopyDataFromQueue( Queue_t * const pxQueue, void * const pvBuffer )
{
	if( pxQueue->uxItemSize != ( UBaseType_t ) 0 )
	{
		pxQueue->u.pcReadFrom += pxQueue->uxItemSize;
 802a83e:	60c4      	str	r4, [r0, #12]
		if( pxQueue->u.pcReadFrom >= pxQueue->pcTail ) /*lint !e946 MISRA exception justified as use of the relational operator is the cleanest solutions. */
		{
			pxQueue->u.pcReadFrom = pxQueue->pcHead;
 802a840:	bf24      	itt	cs
 802a842:	6804      	ldrcs	r4, [r0, #0]
 802a844:	60c4      	strcs	r4, [r0, #12]
		}
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
		( void ) memcpy( ( void * ) pvBuffer, ( void * ) pxQueue->u.pcReadFrom, ( size_t ) pxQueue->uxItemSize ); /*lint !e961 !e418 MISRA exception as the casts are only redundant for some ports.  Also previous logic ensures a null pointer can only be passed to memcpy() when the count is 0. */
 802a846:	4608      	mov	r0, r1
 802a848:	68d9      	ldr	r1, [r3, #12]
	}
}
 802a84a:	e8bd 4030 	ldmia.w	sp!, {r4, r5, lr}
		}
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
		( void ) memcpy( ( void * ) pvBuffer, ( void * ) pxQueue->u.pcReadFrom, ( size_t ) pxQueue->uxItemSize ); /*lint !e961 !e418 MISRA exception as the casts are only redundant for some ports.  Also previous logic ensures a null pointer can only be passed to memcpy() when the count is 0. */
 802a84e:	f7f7 b9ed 	b.w	8021c2c <memcpy>
 802a852:	bd30      	pop	{r4, r5, pc}

0802a854 <prvCopyDataToQueue>:

#endif /* configUSE_TRACE_FACILITY */
/*-----------------------------------------------------------*/

static BaseType_t prvCopyDataToQueue( Queue_t * const pxQueue, const void *pvItemToQueue, const BaseType_t xPosition )
{
 802a854:	b538      	push	{r3, r4, r5, lr}
 802a856:	4615      	mov	r5, r2
BaseType_t xReturn = pdFALSE;

	if( pxQueue->uxItemSize == ( UBaseType_t ) 0 )
 802a858:	6c02      	ldr	r2, [r0, #64]	; 0x40

#endif /* configUSE_TRACE_FACILITY */
/*-----------------------------------------------------------*/

static BaseType_t prvCopyDataToQueue( Queue_t * const pxQueue, const void *pvItemToQueue, const BaseType_t xPosition )
{
 802a85a:	4604      	mov	r4, r0
BaseType_t xReturn = pdFALSE;

	if( pxQueue->uxItemSize == ( UBaseType_t ) 0 )
 802a85c:	b93a      	cbnz	r2, 802a86e <prvCopyDataToQueue+0x1a>
	{
		#if ( configUSE_MUTEXES == 1 )
		{
			if( pxQueue->uxQueueType == queueQUEUE_IS_MUTEX )
 802a85e:	6805      	ldr	r5, [r0, #0]
 802a860:	b105      	cbz	r5, 802a864 <prvCopyDataToQueue+0x10>
 802a862:	e028      	b.n	802a8b6 <prvCopyDataToQueue+0x62>
			{
				/* The mutex is no longer being held. */
				xReturn = xTaskPriorityDisinherit( ( void * ) pxQueue->pxMutexHolder );
 802a864:	6840      	ldr	r0, [r0, #4]
 802a866:	f000 ff63 	bl	802b730 <xTaskPriorityDisinherit>
				pxQueue->pxMutexHolder = NULL;
 802a86a:	6065      	str	r5, [r4, #4]
 802a86c:	e024      	b.n	802a8b8 <prvCopyDataToQueue+0x64>
				mtCOVERAGE_TEST_MARKER();
			}
		}
		#endif /* configUSE_MUTEXES */
	}
	else if( xPosition == queueSEND_TO_BACK )
 802a86e:	b96d      	cbnz	r5, 802a88c <prvCopyDataToQueue+0x38>
	{
		( void ) memcpy( ( void * ) pxQueue->pcWriteTo, pvItemToQueue, ( size_t ) pxQueue->uxItemSize ); /*lint !e961 !e418 MISRA exception as the casts are only redundant for some ports, plus previous logic ensures a null pointer can only be passed to memcpy() if the copy size is 0. */
 802a870:	6880      	ldr	r0, [r0, #8]
 802a872:	f7f7 f9db 	bl	8021c2c <memcpy>
		pxQueue->pcWriteTo += pxQueue->uxItemSize;
 802a876:	68a2      	ldr	r2, [r4, #8]
 802a878:	6c23      	ldr	r3, [r4, #64]	; 0x40
 802a87a:	18d3      	adds	r3, r2, r3
		if( pxQueue->pcWriteTo >= pxQueue->pcTail ) /*lint !e946 MISRA exception justified as comparison of pointers is the cleanest solution. */
 802a87c:	6862      	ldr	r2, [r4, #4]
		#endif /* configUSE_MUTEXES */
	}
	else if( xPosition == queueSEND_TO_BACK )
	{
		( void ) memcpy( ( void * ) pxQueue->pcWriteTo, pvItemToQueue, ( size_t ) pxQueue->uxItemSize ); /*lint !e961 !e418 MISRA exception as the casts are only redundant for some ports, plus previous logic ensures a null pointer can only be passed to memcpy() if the copy size is 0. */
		pxQueue->pcWriteTo += pxQueue->uxItemSize;
 802a87e:	60a3      	str	r3, [r4, #8]
		if( pxQueue->pcWriteTo >= pxQueue->pcTail ) /*lint !e946 MISRA exception justified as comparison of pointers is the cleanest solution. */
 802a880:	4293      	cmp	r3, r2
 802a882:	d318      	bcc.n	802a8b6 <prvCopyDataToQueue+0x62>
		{
			pxQueue->pcWriteTo = pxQueue->pcHead;
 802a884:	6823      	ldr	r3, [r4, #0]
#endif /* configUSE_TRACE_FACILITY */
/*-----------------------------------------------------------*/

static BaseType_t prvCopyDataToQueue( Queue_t * const pxQueue, const void *pvItemToQueue, const BaseType_t xPosition )
{
BaseType_t xReturn = pdFALSE;
 802a886:	4628      	mov	r0, r5
	{
		( void ) memcpy( ( void * ) pxQueue->pcWriteTo, pvItemToQueue, ( size_t ) pxQueue->uxItemSize ); /*lint !e961 !e418 MISRA exception as the casts are only redundant for some ports, plus previous logic ensures a null pointer can only be passed to memcpy() if the copy size is 0. */
		pxQueue->pcWriteTo += pxQueue->uxItemSize;
		if( pxQueue->pcWriteTo >= pxQueue->pcTail ) /*lint !e946 MISRA exception justified as comparison of pointers is the cleanest solution. */
		{
			pxQueue->pcWriteTo = pxQueue->pcHead;
 802a888:	60a3      	str	r3, [r4, #8]
 802a88a:	e015      	b.n	802a8b8 <prvCopyDataToQueue+0x64>
			mtCOVERAGE_TEST_MARKER();
		}
	}
	else
	{
		( void ) memcpy( ( void * ) pxQueue->u.pcReadFrom, pvItemToQueue, ( size_t ) pxQueue->uxItemSize ); /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
 802a88c:	68c0      	ldr	r0, [r0, #12]
 802a88e:	f7f7 f9cd 	bl	8021c2c <memcpy>
		pxQueue->u.pcReadFrom -= pxQueue->uxItemSize;
 802a892:	6c23      	ldr	r3, [r4, #64]	; 0x40
 802a894:	68e2      	ldr	r2, [r4, #12]
		if( pxQueue->u.pcReadFrom < pxQueue->pcHead ) /*lint !e946 MISRA exception justified as comparison of pointers is the cleanest solution. */
 802a896:	6821      	ldr	r1, [r4, #0]
		}
	}
	else
	{
		( void ) memcpy( ( void * ) pxQueue->u.pcReadFrom, pvItemToQueue, ( size_t ) pxQueue->uxItemSize ); /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
		pxQueue->u.pcReadFrom -= pxQueue->uxItemSize;
 802a898:	425b      	negs	r3, r3
 802a89a:	18d2      	adds	r2, r2, r3
		if( pxQueue->u.pcReadFrom < pxQueue->pcHead ) /*lint !e946 MISRA exception justified as comparison of pointers is the cleanest solution. */
 802a89c:	428a      	cmp	r2, r1
		}
	}
	else
	{
		( void ) memcpy( ( void * ) pxQueue->u.pcReadFrom, pvItemToQueue, ( size_t ) pxQueue->uxItemSize ); /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
		pxQueue->u.pcReadFrom -= pxQueue->uxItemSize;
 802a89e:	60e2      	str	r2, [r4, #12]
		if( pxQueue->u.pcReadFrom < pxQueue->pcHead ) /*lint !e946 MISRA exception justified as comparison of pointers is the cleanest solution. */
 802a8a0:	d202      	bcs.n	802a8a8 <prvCopyDataToQueue+0x54>
		{
			pxQueue->u.pcReadFrom = ( pxQueue->pcTail - pxQueue->uxItemSize );
 802a8a2:	6862      	ldr	r2, [r4, #4]
 802a8a4:	18d3      	adds	r3, r2, r3
 802a8a6:	60e3      	str	r3, [r4, #12]
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}

		if( xPosition == queueOVERWRITE )
 802a8a8:	2d02      	cmp	r5, #2
 802a8aa:	d104      	bne.n	802a8b6 <prvCopyDataToQueue+0x62>
		{
			if( pxQueue->uxMessagesWaiting > ( UBaseType_t ) 0 )
 802a8ac:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 802a8ae:	b113      	cbz	r3, 802a8b6 <prvCopyDataToQueue+0x62>
			{
				/* An item is not being added but overwritten, so subtract
				one from the recorded number of items in the queue so when
				one is added again below the number of recorded items remains
				correct. */
				--( pxQueue->uxMessagesWaiting );
 802a8b0:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 802a8b2:	3b01      	subs	r3, #1
 802a8b4:	63a3      	str	r3, [r4, #56]	; 0x38
#endif /* configUSE_TRACE_FACILITY */
/*-----------------------------------------------------------*/

static BaseType_t prvCopyDataToQueue( Queue_t * const pxQueue, const void *pvItemToQueue, const BaseType_t xPosition )
{
BaseType_t xReturn = pdFALSE;
 802a8b6:	2000      	movs	r0, #0
		{
			mtCOVERAGE_TEST_MARKER();
		}
	}

	++( pxQueue->uxMessagesWaiting );
 802a8b8:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 802a8ba:	3301      	adds	r3, #1
 802a8bc:	63a3      	str	r3, [r4, #56]	; 0x38

	return xReturn;
}
 802a8be:	bd38      	pop	{r3, r4, r5, pc}

0802a8c0 <xQueueGenericReset>:
	}														\
	taskEXIT_CRITICAL()
/*-----------------------------------------------------------*/

BaseType_t xQueueGenericReset( QueueHandle_t xQueue, BaseType_t xNewQueue )
{
 802a8c0:	b538      	push	{r3, r4, r5, lr}
 802a8c2:	460d      	mov	r5, r1
Queue_t * const pxQueue = ( Queue_t * ) xQueue;

	configASSERT( pxQueue );
 802a8c4:	4604      	mov	r4, r0
 802a8c6:	b910      	cbnz	r0, 802a8ce <xQueueGenericReset+0xe>
 802a8c8:	f001 f938 	bl	802bb3c <ulPortSetInterruptMask>
 802a8cc:	e7fe      	b.n	802a8cc <xQueueGenericReset+0xc>

	taskENTER_CRITICAL();
 802a8ce:	f001 f93d 	bl	802bb4c <vPortEnterCritical>
	{
		pxQueue->pcTail = pxQueue->pcHead + ( pxQueue->uxLength * pxQueue->uxItemSize );
 802a8d2:	6823      	ldr	r3, [r4, #0]
 802a8d4:	6be0      	ldr	r0, [r4, #60]	; 0x3c
 802a8d6:	6c22      	ldr	r2, [r4, #64]	; 0x40
		pxQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
		pxQueue->pcWriteTo = pxQueue->pcHead;
 802a8d8:	60a3      	str	r3, [r4, #8]

	configASSERT( pxQueue );

	taskENTER_CRITICAL();
	{
		pxQueue->pcTail = pxQueue->pcHead + ( pxQueue->uxLength * pxQueue->uxItemSize );
 802a8da:	fb00 3102 	mla	r1, r0, r2, r3
		pxQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
		pxQueue->pcWriteTo = pxQueue->pcHead;
		pxQueue->u.pcReadFrom = pxQueue->pcHead + ( ( pxQueue->uxLength - ( UBaseType_t ) 1U ) * pxQueue->uxItemSize );
 802a8de:	3801      	subs	r0, #1
 802a8e0:	fb02 3300 	mla	r3, r2, r0, r3

	configASSERT( pxQueue );

	taskENTER_CRITICAL();
	{
		pxQueue->pcTail = pxQueue->pcHead + ( pxQueue->uxLength * pxQueue->uxItemSize );
 802a8e4:	6061      	str	r1, [r4, #4]
		pxQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
		pxQueue->pcWriteTo = pxQueue->pcHead;
		pxQueue->u.pcReadFrom = pxQueue->pcHead + ( ( pxQueue->uxLength - ( UBaseType_t ) 1U ) * pxQueue->uxItemSize );
 802a8e6:	60e3      	str	r3, [r4, #12]
	configASSERT( pxQueue );

	taskENTER_CRITICAL();
	{
		pxQueue->pcTail = pxQueue->pcHead + ( pxQueue->uxLength * pxQueue->uxItemSize );
		pxQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
 802a8e8:	2100      	movs	r1, #0
		pxQueue->pcWriteTo = pxQueue->pcHead;
		pxQueue->u.pcReadFrom = pxQueue->pcHead + ( ( pxQueue->uxLength - ( UBaseType_t ) 1U ) * pxQueue->uxItemSize );
		pxQueue->xRxLock = queueUNLOCKED;
 802a8ea:	f04f 33ff 	mov.w	r3, #4294967295
	configASSERT( pxQueue );

	taskENTER_CRITICAL();
	{
		pxQueue->pcTail = pxQueue->pcHead + ( pxQueue->uxLength * pxQueue->uxItemSize );
		pxQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
 802a8ee:	63a1      	str	r1, [r4, #56]	; 0x38
		pxQueue->pcWriteTo = pxQueue->pcHead;
		pxQueue->u.pcReadFrom = pxQueue->pcHead + ( ( pxQueue->uxLength - ( UBaseType_t ) 1U ) * pxQueue->uxItemSize );
		pxQueue->xRxLock = queueUNLOCKED;
 802a8f0:	6463      	str	r3, [r4, #68]	; 0x44
		pxQueue->xTxLock = queueUNLOCKED;
 802a8f2:	64a3      	str	r3, [r4, #72]	; 0x48

		if( xNewQueue == pdFALSE )
 802a8f4:	b955      	cbnz	r5, 802a90c <xQueueGenericReset+0x4c>
			/* If there are tasks blocked waiting to read from the queue, then
			the tasks will remain blocked as after this function exits the queue
			will still be empty.  If there are tasks blocked waiting to write to
			the queue, then one should be unblocked as after this function exits
			it will be possible to write to it. */
			if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToSend ) ) == pdFALSE )
 802a8f6:	6923      	ldr	r3, [r4, #16]
 802a8f8:	b183      	cbz	r3, 802a91c <xQueueGenericReset+0x5c>
			{
				if( xTaskRemoveFromEventList( &( pxQueue->xTasksWaitingToSend ) ) == pdTRUE )
 802a8fa:	f104 0010 	add.w	r0, r4, #16
 802a8fe:	f000 fe3b 	bl	802b578 <xTaskRemoveFromEventList>
 802a902:	2801      	cmp	r0, #1
 802a904:	d10a      	bne.n	802a91c <xQueueGenericReset+0x5c>
				{
					queueYIELD_IF_USING_PREEMPTION();
 802a906:	f001 f90d 	bl	802bb24 <vPortYield>
 802a90a:	e007      	b.n	802a91c <xQueueGenericReset+0x5c>
			}
		}
		else
		{
			/* Ensure the event queues start in the correct state. */
			vListInitialise( &( pxQueue->xTasksWaitingToSend ) );
 802a90c:	f104 0010 	add.w	r0, r4, #16
 802a910:	f7ff ff17 	bl	802a742 <vListInitialise>
			vListInitialise( &( pxQueue->xTasksWaitingToReceive ) );
 802a914:	f104 0024 	add.w	r0, r4, #36	; 0x24
 802a918:	f7ff ff13 	bl	802a742 <vListInitialise>
		}
	}
	taskEXIT_CRITICAL();
 802a91c:	f001 f942 	bl	802bba4 <vPortExitCritical>

	/* A value is returned for calling semantic consistency with previous
	versions. */
	return pdPASS;
}
 802a920:	2001      	movs	r0, #1
 802a922:	bd38      	pop	{r3, r4, r5, pc}

0802a924 <xQueueGenericCreate>:
/*-----------------------------------------------------------*/

QueueHandle_t xQueueGenericCreate( const UBaseType_t uxQueueLength, const UBaseType_t uxItemSize, const uint8_t ucQueueType )
{
 802a924:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 802a926:	460d      	mov	r5, r1
 802a928:	4617      	mov	r7, r2

	/* Remove compiler warnings about unused parameters should
	configUSE_TRACE_FACILITY not be set to 1. */
	( void ) ucQueueType;

	configASSERT( uxQueueLength > ( UBaseType_t ) 0 );
 802a92a:	4606      	mov	r6, r0
 802a92c:	b910      	cbnz	r0, 802a934 <xQueueGenericCreate+0x10>
 802a92e:	f001 f905 	bl	802bb3c <ulPortSetInterruptMask>
 802a932:	e7fe      	b.n	802a932 <xQueueGenericCreate+0xe>

	if( uxItemSize == ( UBaseType_t ) 0 )
 802a934:	b111      	cbz	r1, 802a93c <xQueueGenericCreate+0x18>
	}
	else
	{
		/* The queue is one byte longer than asked for to make wrap checking
		easier/faster. */
		xQueueSizeInBytes = ( size_t ) ( uxQueueLength * uxItemSize ) + ( size_t ) 1; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
 802a936:	4348      	muls	r0, r1
 802a938:	3001      	adds	r0, #1
 802a93a:	e000      	b.n	802a93e <xQueueGenericCreate+0x1a>
	configASSERT( uxQueueLength > ( UBaseType_t ) 0 );

	if( uxItemSize == ( UBaseType_t ) 0 )
	{
		/* There is not going to be a queue storage area. */
		xQueueSizeInBytes = ( size_t ) 0;
 802a93c:	4608      	mov	r0, r1
		easier/faster. */
		xQueueSizeInBytes = ( size_t ) ( uxQueueLength * uxItemSize ) + ( size_t ) 1; /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
	}

	/* Allocate the new queue structure and storage area. */
	pcAllocatedBuffer = ( int8_t * ) pvPortMalloc( sizeof( Queue_t ) + xQueueSizeInBytes );
 802a93e:	3054      	adds	r0, #84	; 0x54
 802a940:	f001 fa12 	bl	802bd68 <pvPortMalloc>

	if( pcAllocatedBuffer != NULL )
 802a944:	4604      	mov	r4, r0
 802a946:	b138      	cbz	r0, 802a958 <xQueueGenericCreate+0x34>
	{
		pxNewQueue = ( Queue_t * ) pcAllocatedBuffer; /*lint !e826 MISRA The buffer cannot be to small because it was dimensioned by sizeof( Queue_t ) + xQueueSizeInBytes. */

		if( uxItemSize == ( UBaseType_t ) 0 )
 802a948:	b90d      	cbnz	r5, 802a94e <xQueueGenericCreate+0x2a>
		{
			/* No RAM was allocated for the queue storage area, but PC head
			cannot be set to NULL because NULL is used as a key to say the queue
			is used as a mutex.  Therefore just set pcHead to point to the queue
			as a benign value that is known to be within the memory map. */
			pxNewQueue->pcHead = ( int8_t * ) pxNewQueue;
 802a94a:	6020      	str	r0, [r4, #0]
 802a94c:	e007      	b.n	802a95e <xQueueGenericCreate+0x3a>
		}
		else
		{
			/* Jump past the queue structure to find the location of the queue
			storage area - adding the padding bytes to get a better alignment. */
			pxNewQueue->pcHead = pcAllocatedBuffer + sizeof( Queue_t );
 802a94e:	f100 0354 	add.w	r3, r0, #84	; 0x54
 802a952:	6003      	str	r3, [r0, #0]
 802a954:	e003      	b.n	802a95e <xQueueGenericCreate+0x3a>
 802a956:	e7fe      	b.n	802a956 <xQueueGenericCreate+0x32>
	else
	{
		mtCOVERAGE_TEST_MARKER();
	}

	configASSERT( xReturn );
 802a958:	f001 f8f0 	bl	802bb3c <ulPortSetInterruptMask>
 802a95c:	e7fb      	b.n	802a956 <xQueueGenericCreate+0x32>
			pxNewQueue->pcHead = pcAllocatedBuffer + sizeof( Queue_t );
		}

		/* Initialise the queue members as described above where the queue type
		is defined. */
		pxNewQueue->uxLength = uxQueueLength;
 802a95e:	63e6      	str	r6, [r4, #60]	; 0x3c
		pxNewQueue->uxItemSize = uxItemSize;
 802a960:	6425      	str	r5, [r4, #64]	; 0x40
		( void ) xQueueGenericReset( pxNewQueue, pdTRUE );
 802a962:	4620      	mov	r0, r4
 802a964:	2101      	movs	r1, #1
 802a966:	f7ff ffab 	bl	802a8c0 <xQueueGenericReset>

		#if ( configUSE_TRACE_FACILITY == 1 )
		{
			pxNewQueue->ucQueueType = ucQueueType;
 802a96a:	f884 7050 	strb.w	r7, [r4, #80]	; 0x50
	}

	configASSERT( xReturn );

	return xReturn;
}
 802a96e:	4620      	mov	r0, r4
 802a970:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}

0802a972 <xQueueCreateCountingSemaphore>:
/*-----------------------------------------------------------*/

#if ( configUSE_COUNTING_SEMAPHORES == 1 )

	QueueHandle_t xQueueCreateCountingSemaphore( const UBaseType_t uxMaxCount, const UBaseType_t uxInitialCount )
	{
 802a972:	b510      	push	{r4, lr}
 802a974:	460c      	mov	r4, r1
	QueueHandle_t xHandle;

		configASSERT( uxMaxCount != 0 );
 802a976:	b910      	cbnz	r0, 802a97e <xQueueCreateCountingSemaphore+0xc>
 802a978:	f001 f8e0 	bl	802bb3c <ulPortSetInterruptMask>
 802a97c:	e7fe      	b.n	802a97c <xQueueCreateCountingSemaphore+0xa>
		configASSERT( uxInitialCount <= uxMaxCount );
 802a97e:	4281      	cmp	r1, r0
 802a980:	d902      	bls.n	802a988 <xQueueCreateCountingSemaphore+0x16>
 802a982:	f001 f8db 	bl	802bb3c <ulPortSetInterruptMask>
 802a986:	e7fe      	b.n	802a986 <xQueueCreateCountingSemaphore+0x14>

		xHandle = xQueueGenericCreate( uxMaxCount, queueSEMAPHORE_QUEUE_ITEM_LENGTH, queueQUEUE_TYPE_COUNTING_SEMAPHORE );
 802a988:	2100      	movs	r1, #0
 802a98a:	2202      	movs	r2, #2
 802a98c:	f7ff ffca 	bl	802a924 <xQueueGenericCreate>

		if( xHandle != NULL )
 802a990:	b110      	cbz	r0, 802a998 <xQueueCreateCountingSemaphore+0x26>
		{
			( ( Queue_t * ) xHandle )->uxMessagesWaiting = uxInitialCount;
 802a992:	6384      	str	r4, [r0, #56]	; 0x38
 802a994:	bd10      	pop	{r4, pc}
 802a996:	e7fe      	b.n	802a996 <xQueueCreateCountingSemaphore+0x24>
		else
		{
			traceCREATE_COUNTING_SEMAPHORE_FAILED();
		}

		configASSERT( xHandle );
 802a998:	f001 f8d0 	bl	802bb3c <ulPortSetInterruptMask>
 802a99c:	e7fb      	b.n	802a996 <xQueueCreateCountingSemaphore+0x24>

0802a99e <xQueueGenericSend>:

#endif /* configUSE_COUNTING_SEMAPHORES */
/*-----------------------------------------------------------*/

BaseType_t xQueueGenericSend( QueueHandle_t xQueue, const void * const pvItemToQueue, TickType_t xTicksToWait, const BaseType_t xCopyPosition )
{
 802a99e:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
 802a9a2:	b085      	sub	sp, #20
 802a9a4:	460f      	mov	r7, r1
 802a9a6:	9201      	str	r2, [sp, #4]
 802a9a8:	461d      	mov	r5, r3
BaseType_t xEntryTimeSet = pdFALSE, xYieldRequired;
TimeOut_t xTimeOut;
Queue_t * const pxQueue = ( Queue_t * ) xQueue;

	configASSERT( pxQueue );
 802a9aa:	4604      	mov	r4, r0
 802a9ac:	b910      	cbnz	r0, 802a9b4 <xQueueGenericSend+0x16>
 802a9ae:	f001 f8c5 	bl	802bb3c <ulPortSetInterruptMask>
 802a9b2:	e7fe      	b.n	802a9b2 <xQueueGenericSend+0x14>
	configASSERT( !( ( pvItemToQueue == NULL ) && ( pxQueue->uxItemSize != ( UBaseType_t ) 0U ) ) );
 802a9b4:	2900      	cmp	r1, #0
 802a9b6:	d17b      	bne.n	802aab0 <xQueueGenericSend+0x112>
 802a9b8:	6c03      	ldr	r3, [r0, #64]	; 0x40
 802a9ba:	2b00      	cmp	r3, #0
 802a9bc:	d078      	beq.n	802aab0 <xQueueGenericSend+0x112>
 802a9be:	e074      	b.n	802aaaa <xQueueGenericSend+0x10c>
 802a9c0:	e7fe      	b.n	802a9c0 <xQueueGenericSend+0x22>
	configASSERT( !( ( xCopyPosition == queueOVERWRITE ) && ( pxQueue->uxLength != 1 ) ) );
 802a9c2:	6be3      	ldr	r3, [r4, #60]	; 0x3c
 802a9c4:	2b01      	cmp	r3, #1
 802a9c6:	d176      	bne.n	802aab6 <xQueueGenericSend+0x118>
 802a9c8:	e078      	b.n	802aabc <xQueueGenericSend+0x11e>
 802a9ca:	e7fe      	b.n	802a9ca <xQueueGenericSend+0x2c>
	#if ( ( INCLUDE_xTaskGetSchedulerState == 1 ) || ( configUSE_TIMERS == 1 ) )
	{
		configASSERT( !( ( xTaskGetSchedulerState() == taskSCHEDULER_SUSPENDED ) && ( xTicksToWait != 0 ) ) );
 802a9cc:	9e01      	ldr	r6, [sp, #4]
 802a9ce:	b126      	cbz	r6, 802a9da <xQueueGenericSend+0x3c>
 802a9d0:	e079      	b.n	802aac6 <xQueueGenericSend+0x128>
 802a9d2:	e7fe      	b.n	802a9d2 <xQueueGenericSend+0x34>
 802a9d4:	2601      	movs	r6, #1
 802a9d6:	e002      	b.n	802a9de <xQueueGenericSend+0x40>
 802a9d8:	2600      	movs	r6, #0

		/* Interrupts and other tasks can send to and receive from the queue
		now the critical section has been exited. */

		vTaskSuspendAll();
		prvLockQueue( pxQueue );
 802a9da:	f04f 0800 	mov.w	r8, #0
	/* This function relaxes the coding standard somewhat to allow return
	statements within the function itself.  This is done in the interest
	of execution time efficiency. */
	for( ;; )
	{
		taskENTER_CRITICAL();
 802a9de:	f001 f8b5 	bl	802bb4c <vPortEnterCritical>
		{
			/* Is there room on the queue now?  The running task must be
			the highest priority task wanting to access the queue.  If
			the head item in the queue is to be overwritten then it does
			not matter if the queue is full. */
			if( ( pxQueue->uxMessagesWaiting < pxQueue->uxLength ) || ( xCopyPosition == queueOVERWRITE ) )
 802a9e2:	6ba2      	ldr	r2, [r4, #56]	; 0x38
 802a9e4:	6be3      	ldr	r3, [r4, #60]	; 0x3c
 802a9e6:	429a      	cmp	r2, r3
 802a9e8:	d301      	bcc.n	802a9ee <xQueueGenericSend+0x50>
 802a9ea:	2d02      	cmp	r5, #2
 802a9ec:	d115      	bne.n	802aa1a <xQueueGenericSend+0x7c>
			{
				traceQUEUE_SEND( pxQueue );
				xYieldRequired = prvCopyDataToQueue( pxQueue, pvItemToQueue, xCopyPosition );
 802a9ee:	4620      	mov	r0, r4
 802a9f0:	4639      	mov	r1, r7
 802a9f2:	462a      	mov	r2, r5
 802a9f4:	f7ff ff2e 	bl	802a854 <prvCopyDataToQueue>
				}
				#else /* configUSE_QUEUE_SETS */
				{
					/* If there was a task waiting for data to arrive on the
					queue then unblock it now. */
					if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToReceive ) ) == pdFALSE )
 802a9f8:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802a9fa:	b143      	cbz	r3, 802aa0e <xQueueGenericSend+0x70>
					{
						if( xTaskRemoveFromEventList( &( pxQueue->xTasksWaitingToReceive ) ) == pdTRUE )
 802a9fc:	f104 0024 	add.w	r0, r4, #36	; 0x24
 802aa00:	f000 fdba 	bl	802b578 <xTaskRemoveFromEventList>
 802aa04:	2801      	cmp	r0, #1
 802aa06:	d104      	bne.n	802aa12 <xQueueGenericSend+0x74>
						{
							/* The unblocked task has a priority higher than
							our own so yield immediately.  Yes it is ok to do
							this from within the critical section - the kernel
							takes care of that. */
							queueYIELD_IF_USING_PREEMPTION();
 802aa08:	f001 f88c 	bl	802bb24 <vPortYield>
 802aa0c:	e001      	b.n	802aa12 <xQueueGenericSend+0x74>
						else
						{
							mtCOVERAGE_TEST_MARKER();
						}
					}
					else if( xYieldRequired != pdFALSE )
 802aa0e:	2800      	cmp	r0, #0
 802aa10:	d1fa      	bne.n	802aa08 <xQueueGenericSend+0x6a>
						mtCOVERAGE_TEST_MARKER();
					}
				}
				#endif /* configUSE_QUEUE_SETS */

				taskEXIT_CRITICAL();
 802aa12:	f001 f8c7 	bl	802bba4 <vPortExitCritical>
				return pdPASS;
 802aa16:	2001      	movs	r0, #1
 802aa18:	e058      	b.n	802aacc <xQueueGenericSend+0x12e>
			}
			else
			{
				if( xTicksToWait == ( TickType_t ) 0 )
 802aa1a:	f8dd 9004 	ldr.w	r9, [sp, #4]
 802aa1e:	f1b9 0f00 	cmp.w	r9, #0
 802aa22:	d102      	bne.n	802aa2a <xQueueGenericSend+0x8c>
				{
					/* The queue was full and no block time is specified (or
					the block time has expired) so leave now. */
					taskEXIT_CRITICAL();
 802aa24:	f001 f8be 	bl	802bba4 <vPortExitCritical>
 802aa28:	e03d      	b.n	802aaa6 <xQueueGenericSend+0x108>
					/* Return to the original privilege level before exiting
					the function. */
					traceQUEUE_SEND_FAILED( pxQueue );
					return errQUEUE_FULL;
				}
				else if( xEntryTimeSet == pdFALSE )
 802aa2a:	b916      	cbnz	r6, 802aa32 <xQueueGenericSend+0x94>
				{
					/* The queue was full and a block time was specified so
					configure the timeout structure. */
					vTaskSetTimeOutState( &xTimeOut );
 802aa2c:	a802      	add	r0, sp, #8
 802aa2e:	f000 fddf 	bl	802b5f0 <vTaskSetTimeOutState>
					/* Entry time was already set. */
					mtCOVERAGE_TEST_MARKER();
				}
			}
		}
		taskEXIT_CRITICAL();
 802aa32:	f001 f8b7 	bl	802bba4 <vPortExitCritical>

		/* Interrupts and other tasks can send to and receive from the queue
		now the critical section has been exited. */

		vTaskSuspendAll();
 802aa36:	f000 fb5b 	bl	802b0f0 <vTaskSuspendAll>
		prvLockQueue( pxQueue );
 802aa3a:	f001 f887 	bl	802bb4c <vPortEnterCritical>
 802aa3e:	6c63      	ldr	r3, [r4, #68]	; 0x44
 802aa40:	3301      	adds	r3, #1
 802aa42:	bf08      	it	eq
 802aa44:	f8c4 8044 	streq.w	r8, [r4, #68]	; 0x44
 802aa48:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 802aa4a:	3301      	adds	r3, #1
 802aa4c:	bf08      	it	eq
 802aa4e:	f8c4 8048 	streq.w	r8, [r4, #72]	; 0x48
 802aa52:	f001 f8a7 	bl	802bba4 <vPortExitCritical>

		/* Update the timeout state to see if it has expired yet. */
		if( xTaskCheckForTimeOut( &xTimeOut, &xTicksToWait ) == pdFALSE )
 802aa56:	a802      	add	r0, sp, #8
 802aa58:	a901      	add	r1, sp, #4
 802aa5a:	f000 fdd9 	bl	802b610 <xTaskCheckForTimeOut>
 802aa5e:	b9e8      	cbnz	r0, 802aa9c <xQueueGenericSend+0xfe>

static BaseType_t prvIsQueueFull( const Queue_t *pxQueue )
{
BaseType_t xReturn;

	taskENTER_CRITICAL();
 802aa60:	f001 f874 	bl	802bb4c <vPortEnterCritical>
	{
		if( pxQueue->uxMessagesWaiting == pxQueue->uxLength )
 802aa64:	f8d4 9038 	ldr.w	r9, [r4, #56]	; 0x38
 802aa68:	6be6      	ldr	r6, [r4, #60]	; 0x3c
		else
		{
			xReturn = pdFALSE;
		}
	}
	taskEXIT_CRITICAL();
 802aa6a:	f001 f89b 	bl	802bba4 <vPortExitCritical>
		prvLockQueue( pxQueue );

		/* Update the timeout state to see if it has expired yet. */
		if( xTaskCheckForTimeOut( &xTimeOut, &xTicksToWait ) == pdFALSE )
		{
			if( prvIsQueueFull( pxQueue ) != pdFALSE )
 802aa6e:	45b1      	cmp	r9, r6
 802aa70:	d10e      	bne.n	802aa90 <xQueueGenericSend+0xf2>
			{
				traceBLOCKING_ON_QUEUE_SEND( pxQueue );
				vTaskPlaceOnEventList( &( pxQueue->xTasksWaitingToSend ), xTicksToWait );
 802aa72:	f104 0010 	add.w	r0, r4, #16
 802aa76:	9901      	ldr	r1, [sp, #4]
 802aa78:	f000 fd22 	bl	802b4c0 <vTaskPlaceOnEventList>
				/* Unlocking the queue means queue events can effect the
				event list.  It is possible	that interrupts occurring now
				remove this task from the event	list again - but as the
				scheduler is suspended the task will go onto the pending
				ready last instead of the actual ready list. */
				prvUnlockQueue( pxQueue );
 802aa7c:	4620      	mov	r0, r4
 802aa7e:	f7ff fea2 	bl	802a7c6 <prvUnlockQueue>
				/* Resuming the scheduler will move tasks from the pending
				ready list into the ready list - so it is feasible that this
				task is already in a ready list before it yields - in which
				case the yield will not cause a context switch unless there
				is also a higher priority task in the pending ready list. */
				if( xTaskResumeAll() == pdFALSE )
 802aa82:	f000 fbd1 	bl	802b228 <xTaskResumeAll>
 802aa86:	2800      	cmp	r0, #0
 802aa88:	d1a4      	bne.n	802a9d4 <xQueueGenericSend+0x36>
				{
					portYIELD_WITHIN_API();
 802aa8a:	f001 f84b 	bl	802bb24 <vPortYield>
 802aa8e:	e7a1      	b.n	802a9d4 <xQueueGenericSend+0x36>
				}
			}
			else
			{
				/* Try again. */
				prvUnlockQueue( pxQueue );
 802aa90:	4620      	mov	r0, r4
 802aa92:	f7ff fe98 	bl	802a7c6 <prvUnlockQueue>
				( void ) xTaskResumeAll();
 802aa96:	f000 fbc7 	bl	802b228 <xTaskResumeAll>
 802aa9a:	e79b      	b.n	802a9d4 <xQueueGenericSend+0x36>
			}
		}
		else
		{
			/* The timeout has expired. */
			prvUnlockQueue( pxQueue );
 802aa9c:	4620      	mov	r0, r4
 802aa9e:	f7ff fe92 	bl	802a7c6 <prvUnlockQueue>
			( void ) xTaskResumeAll();
 802aaa2:	f000 fbc1 	bl	802b228 <xTaskResumeAll>

			/* Return to the original privilege level before exiting the
			function. */
			traceQUEUE_SEND_FAILED( pxQueue );
			return errQUEUE_FULL;
 802aaa6:	2000      	movs	r0, #0
 802aaa8:	e010      	b.n	802aacc <xQueueGenericSend+0x12e>
BaseType_t xEntryTimeSet = pdFALSE, xYieldRequired;
TimeOut_t xTimeOut;
Queue_t * const pxQueue = ( Queue_t * ) xQueue;

	configASSERT( pxQueue );
	configASSERT( !( ( pvItemToQueue == NULL ) && ( pxQueue->uxItemSize != ( UBaseType_t ) 0U ) ) );
 802aaaa:	f001 f847 	bl	802bb3c <ulPortSetInterruptMask>
 802aaae:	e787      	b.n	802a9c0 <xQueueGenericSend+0x22>
	configASSERT( !( ( xCopyPosition == queueOVERWRITE ) && ( pxQueue->uxLength != 1 ) ) );
 802aab0:	2d02      	cmp	r5, #2
 802aab2:	d103      	bne.n	802aabc <xQueueGenericSend+0x11e>
 802aab4:	e785      	b.n	802a9c2 <xQueueGenericSend+0x24>
 802aab6:	f001 f841 	bl	802bb3c <ulPortSetInterruptMask>
 802aaba:	e786      	b.n	802a9ca <xQueueGenericSend+0x2c>
	#if ( ( INCLUDE_xTaskGetSchedulerState == 1 ) || ( configUSE_TIMERS == 1 ) )
	{
		configASSERT( !( ( xTaskGetSchedulerState() == taskSCHEDULER_SUSPENDED ) && ( xTicksToWait != 0 ) ) );
 802aabc:	f000 fddc 	bl	802b678 <xTaskGetSchedulerState>
 802aac0:	2800      	cmp	r0, #0
 802aac2:	d189      	bne.n	802a9d8 <xQueueGenericSend+0x3a>
 802aac4:	e782      	b.n	802a9cc <xQueueGenericSend+0x2e>
 802aac6:	f001 f839 	bl	802bb3c <ulPortSetInterruptMask>
 802aaca:	e782      	b.n	802a9d2 <xQueueGenericSend+0x34>
			function. */
			traceQUEUE_SEND_FAILED( pxQueue );
			return errQUEUE_FULL;
		}
	}
}
 802aacc:	b005      	add	sp, #20
 802aace:	e8bd 83f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, pc}

0802aad2 <xQueueCreateMutex>:
/*-----------------------------------------------------------*/

#if ( configUSE_MUTEXES == 1 )

	QueueHandle_t xQueueCreateMutex( const uint8_t ucQueueType )
	{
 802aad2:	b570      	push	{r4, r5, r6, lr}
 802aad4:	4606      	mov	r6, r0
		/* Prevent compiler warnings about unused parameters if
		configUSE_TRACE_FACILITY does not equal 1. */
		( void ) ucQueueType;

		/* Allocate the new queue structure. */
		pxNewQueue = ( Queue_t * ) pvPortMalloc( sizeof( Queue_t ) );
 802aad6:	2054      	movs	r0, #84	; 0x54
 802aad8:	f001 f946 	bl	802bd68 <pvPortMalloc>
		if( pxNewQueue != NULL )
 802aadc:	4604      	mov	r4, r0
 802aade:	b108      	cbz	r0, 802aae4 <xQueueCreateMutex+0x12>
 802aae0:	e003      	b.n	802aaea <xQueueCreateMutex+0x18>
 802aae2:	e7fe      	b.n	802aae2 <xQueueCreateMutex+0x10>
		else
		{
			traceCREATE_MUTEX_FAILED();
		}

		configASSERT( pxNewQueue );
 802aae4:	f001 f82a 	bl	802bb3c <ulPortSetInterruptMask>
 802aae8:	e7fb      	b.n	802aae2 <xQueueCreateMutex+0x10>

			/* Each mutex has a length of 1 (like a binary semaphore) and
			an item size of 0 as nothing is actually copied into or out
			of the mutex. */
			pxNewQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
			pxNewQueue->uxLength = ( UBaseType_t ) 1U;
 802aaea:	2301      	movs	r3, #1
		/* Allocate the new queue structure. */
		pxNewQueue = ( Queue_t * ) pvPortMalloc( sizeof( Queue_t ) );
		if( pxNewQueue != NULL )
		{
			/* Information required for priority inheritance. */
			pxNewQueue->pxMutexHolder = NULL;
 802aaec:	2500      	movs	r5, #0

			/* Each mutex has a length of 1 (like a binary semaphore) and
			an item size of 0 as nothing is actually copied into or out
			of the mutex. */
			pxNewQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
			pxNewQueue->uxLength = ( UBaseType_t ) 1U;
 802aaee:	63c3      	str	r3, [r0, #60]	; 0x3c
			pxNewQueue->uxItemSize = ( UBaseType_t ) 0U;
			pxNewQueue->xRxLock = queueUNLOCKED;
 802aaf0:	f04f 33ff 	mov.w	r3, #4294967295
			pxNewQueue->u.pcReadFrom = NULL;

			/* Each mutex has a length of 1 (like a binary semaphore) and
			an item size of 0 as nothing is actually copied into or out
			of the mutex. */
			pxNewQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
 802aaf4:	6385      	str	r5, [r0, #56]	; 0x38
		/* Allocate the new queue structure. */
		pxNewQueue = ( Queue_t * ) pvPortMalloc( sizeof( Queue_t ) );
		if( pxNewQueue != NULL )
		{
			/* Information required for priority inheritance. */
			pxNewQueue->pxMutexHolder = NULL;
 802aaf6:	6045      	str	r5, [r0, #4]
			an item size of 0 as nothing is actually copied into or out
			of the mutex. */
			pxNewQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
			pxNewQueue->uxLength = ( UBaseType_t ) 1U;
			pxNewQueue->uxItemSize = ( UBaseType_t ) 0U;
			pxNewQueue->xRxLock = queueUNLOCKED;
 802aaf8:	6443      	str	r3, [r0, #68]	; 0x44
		pxNewQueue = ( Queue_t * ) pvPortMalloc( sizeof( Queue_t ) );
		if( pxNewQueue != NULL )
		{
			/* Information required for priority inheritance. */
			pxNewQueue->pxMutexHolder = NULL;
			pxNewQueue->uxQueueType = queueQUEUE_IS_MUTEX;
 802aafa:	6005      	str	r5, [r0, #0]
			of the mutex. */
			pxNewQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
			pxNewQueue->uxLength = ( UBaseType_t ) 1U;
			pxNewQueue->uxItemSize = ( UBaseType_t ) 0U;
			pxNewQueue->xRxLock = queueUNLOCKED;
			pxNewQueue->xTxLock = queueUNLOCKED;
 802aafc:	6483      	str	r3, [r0, #72]	; 0x48
			pxNewQueue->pxMutexHolder = NULL;
			pxNewQueue->uxQueueType = queueQUEUE_IS_MUTEX;

			/* Queues used as a mutex no data is actually copied into or out
			of the queue. */
			pxNewQueue->pcWriteTo = NULL;
 802aafe:	6085      	str	r5, [r0, #8]
			pxNewQueue->u.pcReadFrom = NULL;
 802ab00:	60c5      	str	r5, [r0, #12]
			/* Each mutex has a length of 1 (like a binary semaphore) and
			an item size of 0 as nothing is actually copied into or out
			of the mutex. */
			pxNewQueue->uxMessagesWaiting = ( UBaseType_t ) 0U;
			pxNewQueue->uxLength = ( UBaseType_t ) 1U;
			pxNewQueue->uxItemSize = ( UBaseType_t ) 0U;
 802ab02:	6405      	str	r5, [r0, #64]	; 0x40
			pxNewQueue->xRxLock = queueUNLOCKED;
			pxNewQueue->xTxLock = queueUNLOCKED;

			#if ( configUSE_TRACE_FACILITY == 1 )
			{
				pxNewQueue->ucQueueType = ucQueueType;
 802ab04:	f880 6050 	strb.w	r6, [r0, #80]	; 0x50
				pxNewQueue->pxQueueSetContainer = NULL;
			}
			#endif

			/* Ensure the event queues start with the correct state. */
			vListInitialise( &( pxNewQueue->xTasksWaitingToSend ) );
 802ab08:	3010      	adds	r0, #16
 802ab0a:	f7ff fe1a 	bl	802a742 <vListInitialise>
			vListInitialise( &( pxNewQueue->xTasksWaitingToReceive ) );
 802ab0e:	f104 0024 	add.w	r0, r4, #36	; 0x24
 802ab12:	f7ff fe16 	bl	802a742 <vListInitialise>

			traceCREATE_MUTEX( pxNewQueue );

			/* Start with the semaphore in the expected state. */
			( void ) xQueueGenericSend( pxNewQueue, NULL, ( TickType_t ) 0U, queueSEND_TO_BACK );
 802ab16:	4620      	mov	r0, r4
 802ab18:	4629      	mov	r1, r5
 802ab1a:	462a      	mov	r2, r5
 802ab1c:	462b      	mov	r3, r5
 802ab1e:	f7ff ff3e 	bl	802a99e <xQueueGenericSend>
			traceCREATE_MUTEX_FAILED();
		}

		configASSERT( pxNewQueue );
		return pxNewQueue;
	}
 802ab22:	4620      	mov	r0, r4
 802ab24:	bd70      	pop	{r4, r5, r6, pc}

0802ab26 <xQueueGenericSendFromISR>:

#endif /* configUSE_ALTERNATIVE_API */
/*-----------------------------------------------------------*/

BaseType_t xQueueGenericSendFromISR( QueueHandle_t xQueue, const void * const pvItemToQueue, BaseType_t * const pxHigherPriorityTaskWoken, const BaseType_t xCopyPosition )
{
 802ab26:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 802ab2a:	460f      	mov	r7, r1
 802ab2c:	4616      	mov	r6, r2
 802ab2e:	461d      	mov	r5, r3
BaseType_t xReturn;
UBaseType_t uxSavedInterruptStatus;
Queue_t * const pxQueue = ( Queue_t * ) xQueue;

	configASSERT( pxQueue );
 802ab30:	4604      	mov	r4, r0
 802ab32:	b910      	cbnz	r0, 802ab3a <xQueueGenericSendFromISR+0x14>
 802ab34:	f001 f802 	bl	802bb3c <ulPortSetInterruptMask>
 802ab38:	e7fe      	b.n	802ab38 <xQueueGenericSendFromISR+0x12>
	configASSERT( !( ( pvItemToQueue == NULL ) && ( pxQueue->uxItemSize != ( UBaseType_t ) 0U ) ) );
 802ab3a:	bb41      	cbnz	r1, 802ab8e <xQueueGenericSendFromISR+0x68>
 802ab3c:	6c03      	ldr	r3, [r0, #64]	; 0x40
 802ab3e:	b333      	cbz	r3, 802ab8e <xQueueGenericSendFromISR+0x68>
 802ab40:	e022      	b.n	802ab88 <xQueueGenericSendFromISR+0x62>
 802ab42:	e7fe      	b.n	802ab42 <xQueueGenericSendFromISR+0x1c>
	configASSERT( !( ( xCopyPosition == queueOVERWRITE ) && ( pxQueue->uxLength != 1 ) ) );
 802ab44:	6be3      	ldr	r3, [r4, #60]	; 0x3c
 802ab46:	2b01      	cmp	r3, #1
 802ab48:	d124      	bne.n	802ab94 <xQueueGenericSendFromISR+0x6e>
 802ab4a:	e026      	b.n	802ab9a <xQueueGenericSendFromISR+0x74>
 802ab4c:	e7fe      	b.n	802ab4c <xQueueGenericSendFromISR+0x26>
	read, instead return a flag to say whether a context switch is required or
	not (i.e. has a task with a higher priority than us been woken by this
	post). */
	uxSavedInterruptStatus = portSET_INTERRUPT_MASK_FROM_ISR();
	{
		if( ( pxQueue->uxMessagesWaiting < pxQueue->uxLength ) || ( xCopyPosition == queueOVERWRITE ) )
 802ab4e:	2d02      	cmp	r5, #2
 802ab50:	d118      	bne.n	802ab84 <xQueueGenericSendFromISR+0x5e>
			/* A task can only have an inherited priority if it is a mutex
			holder - and if there is a mutex holder then the mutex cannot be
			given from an ISR.  Therefore, unlike the xQueueGenericGive()
			function, there is no need to determine the need for priority
			disinheritance here or to clear the mutex holder TCB member. */
			( void ) prvCopyDataToQueue( pxQueue, pvItemToQueue, xCopyPosition );
 802ab52:	4620      	mov	r0, r4
 802ab54:	4639      	mov	r1, r7
 802ab56:	462a      	mov	r2, r5
 802ab58:	f7ff fe7c 	bl	802a854 <prvCopyDataToQueue>

			/* The event list is not altered if the queue is locked.  This will
			be done when the queue is unlocked later. */
			if( pxQueue->xTxLock == queueUNLOCKED )
 802ab5c:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 802ab5e:	3301      	adds	r3, #1
 802ab60:	d10b      	bne.n	802ab7a <xQueueGenericSendFromISR+0x54>
						}
					}
				}
				#else /* configUSE_QUEUE_SETS */
				{
					if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToReceive ) ) == pdFALSE )
 802ab62:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802ab64:	b903      	cbnz	r3, 802ab68 <xQueueGenericSendFromISR+0x42>
 802ab66:	e00b      	b.n	802ab80 <xQueueGenericSendFromISR+0x5a>
					{
						if( xTaskRemoveFromEventList( &( pxQueue->xTasksWaitingToReceive ) ) != pdFALSE )
 802ab68:	f104 0024 	add.w	r0, r4, #36	; 0x24
 802ab6c:	f000 fd04 	bl	802b578 <xTaskRemoveFromEventList>
 802ab70:	b130      	cbz	r0, 802ab80 <xQueueGenericSendFromISR+0x5a>
						{
							/* The task waiting has a higher priority so record that a
							context	switch is required. */
							if( pxHigherPriorityTaskWoken != NULL )
 802ab72:	b12e      	cbz	r6, 802ab80 <xQueueGenericSendFromISR+0x5a>
							{
								*pxHigherPriorityTaskWoken = pdTRUE;
 802ab74:	2401      	movs	r4, #1
 802ab76:	6034      	str	r4, [r6, #0]
 802ab78:	e019      	b.n	802abae <xQueueGenericSendFromISR+0x88>
			}
			else
			{
				/* Increment the lock count so the task that unlocks the queue
				knows that data was posted while it was locked. */
				++( pxQueue->xTxLock );
 802ab7a:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 802ab7c:	3301      	adds	r3, #1
 802ab7e:	64a3      	str	r3, [r4, #72]	; 0x48
			}

			xReturn = pdPASS;
 802ab80:	2401      	movs	r4, #1
 802ab82:	e014      	b.n	802abae <xQueueGenericSendFromISR+0x88>
		}
		else
		{
			traceQUEUE_SEND_FROM_ISR_FAILED( pxQueue );
			xReturn = errQUEUE_FULL;
 802ab84:	2400      	movs	r4, #0
 802ab86:	e012      	b.n	802abae <xQueueGenericSendFromISR+0x88>
BaseType_t xReturn;
UBaseType_t uxSavedInterruptStatus;
Queue_t * const pxQueue = ( Queue_t * ) xQueue;

	configASSERT( pxQueue );
	configASSERT( !( ( pvItemToQueue == NULL ) && ( pxQueue->uxItemSize != ( UBaseType_t ) 0U ) ) );
 802ab88:	f000 ffd8 	bl	802bb3c <ulPortSetInterruptMask>
 802ab8c:	e7d9      	b.n	802ab42 <xQueueGenericSendFromISR+0x1c>
	configASSERT( !( ( xCopyPosition == queueOVERWRITE ) && ( pxQueue->uxLength != 1 ) ) );
 802ab8e:	2d02      	cmp	r5, #2
 802ab90:	d103      	bne.n	802ab9a <xQueueGenericSendFromISR+0x74>
 802ab92:	e7d7      	b.n	802ab44 <xQueueGenericSendFromISR+0x1e>
 802ab94:	f000 ffd2 	bl	802bb3c <ulPortSetInterruptMask>
 802ab98:	e7d8      	b.n	802ab4c <xQueueGenericSendFromISR+0x26>
	that have been assigned a priority at or (logically) below the maximum
	system call	interrupt priority.  FreeRTOS maintains a separate interrupt
	safe API to ensure interrupt entry is as fast and as simple as possible.
	More information (albeit Cortex-M specific) is provided on the following
	link: http://www.freertos.org/RTOS-Cortex-M3-M4.html */
	portASSERT_IF_INTERRUPT_PRIORITY_INVALID();
 802ab9a:	f001 f89f 	bl	802bcdc <vPortValidateInterruptPriority>
	/* Similar to xQueueGenericSend, except without blocking if there is no room
	in the queue.  Also don't directly wake a task that was blocked on a queue
	read, instead return a flag to say whether a context switch is required or
	not (i.e. has a task with a higher priority than us been woken by this
	post). */
	uxSavedInterruptStatus = portSET_INTERRUPT_MASK_FROM_ISR();
 802ab9e:	f000 ffcd 	bl	802bb3c <ulPortSetInterruptMask>
	{
		if( ( pxQueue->uxMessagesWaiting < pxQueue->uxLength ) || ( xCopyPosition == queueOVERWRITE ) )
 802aba2:	6ba2      	ldr	r2, [r4, #56]	; 0x38
 802aba4:	6be3      	ldr	r3, [r4, #60]	; 0x3c
 802aba6:	429a      	cmp	r2, r3
	/* Similar to xQueueGenericSend, except without blocking if there is no room
	in the queue.  Also don't directly wake a task that was blocked on a queue
	read, instead return a flag to say whether a context switch is required or
	not (i.e. has a task with a higher priority than us been woken by this
	post). */
	uxSavedInterruptStatus = portSET_INTERRUPT_MASK_FROM_ISR();
 802aba8:	4680      	mov	r8, r0
	{
		if( ( pxQueue->uxMessagesWaiting < pxQueue->uxLength ) || ( xCopyPosition == queueOVERWRITE ) )
 802abaa:	d2d0      	bcs.n	802ab4e <xQueueGenericSendFromISR+0x28>
 802abac:	e7d1      	b.n	802ab52 <xQueueGenericSendFromISR+0x2c>
		{
			traceQUEUE_SEND_FROM_ISR_FAILED( pxQueue );
			xReturn = errQUEUE_FULL;
		}
	}
	portCLEAR_INTERRUPT_MASK_FROM_ISR( uxSavedInterruptStatus );
 802abae:	4640      	mov	r0, r8
 802abb0:	f000 fff4 	bl	802bb9c <vPortClearInterruptMask>

	return xReturn;
}
 802abb4:	4620      	mov	r0, r4
 802abb6:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}

0802abba <xQueueGiveFromISR>:
/*-----------------------------------------------------------*/

BaseType_t xQueueGiveFromISR( QueueHandle_t xQueue, BaseType_t * const pxHigherPriorityTaskWoken )
{
 802abba:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 802abbc:	460d      	mov	r5, r1
BaseType_t xReturn;
UBaseType_t uxSavedInterruptStatus;
Queue_t * const pxQueue = ( Queue_t * ) xQueue;

	configASSERT( pxQueue );
 802abbe:	4604      	mov	r4, r0
 802abc0:	b910      	cbnz	r0, 802abc8 <xQueueGiveFromISR+0xe>
 802abc2:	f000 ffbb 	bl	802bb3c <ulPortSetInterruptMask>
 802abc6:	e7fe      	b.n	802abc6 <xQueueGiveFromISR+0xc>

	/* xQueueGenericSendFromISR() should be used in the item size is not 0. */
	configASSERT( pxQueue->uxItemSize == 0 );
 802abc8:	6c06      	ldr	r6, [r0, #64]	; 0x40
 802abca:	b116      	cbz	r6, 802abd2 <xQueueGiveFromISR+0x18>
 802abcc:	f000 ffb6 	bl	802bb3c <ulPortSetInterruptMask>
 802abd0:	e7fe      	b.n	802abd0 <xQueueGiveFromISR+0x16>
	that have been assigned a priority at or (logically) below the maximum
	system call	interrupt priority.  FreeRTOS maintains a separate interrupt
	safe API to ensure interrupt entry is as fast and as simple as possible.
	More information (albeit Cortex-M specific) is provided on the following
	link: http://www.freertos.org/RTOS-Cortex-M3-M4.html */
	portASSERT_IF_INTERRUPT_PRIORITY_INVALID();
 802abd2:	f001 f883 	bl	802bcdc <vPortValidateInterruptPriority>
	/* Similar to xQueueGenericSendFromISR() but used with semaphores where the
	item size is 0.  Don't directly wake a task that was blocked on a queue
	read, instead return a flag to say whether a context switch is required or
	not (i.e. has a task with a higher priority than us been woken by this
	post). */
	uxSavedInterruptStatus = portSET_INTERRUPT_MASK_FROM_ISR();
 802abd6:	f000 ffb1 	bl	802bb3c <ulPortSetInterruptMask>
	{
		/* When the queue is used to implement a semaphore no data is ever
		moved through the queue but it is still valid to see if the queue 'has
		space'. */
		if( pxQueue->uxMessagesWaiting < pxQueue->uxLength )
 802abda:	6ba2      	ldr	r2, [r4, #56]	; 0x38
 802abdc:	6be3      	ldr	r3, [r4, #60]	; 0x3c
 802abde:	429a      	cmp	r2, r3
	/* Similar to xQueueGenericSendFromISR() but used with semaphores where the
	item size is 0.  Don't directly wake a task that was blocked on a queue
	read, instead return a flag to say whether a context switch is required or
	not (i.e. has a task with a higher priority than us been woken by this
	post). */
	uxSavedInterruptStatus = portSET_INTERRUPT_MASK_FROM_ISR();
 802abe0:	4607      	mov	r7, r0
	{
		/* When the queue is used to implement a semaphore no data is ever
		moved through the queue but it is still valid to see if the queue 'has
		space'. */
		if( pxQueue->uxMessagesWaiting < pxQueue->uxLength )
 802abe2:	d216      	bcs.n	802ac12 <xQueueGiveFromISR+0x58>
			holder - and if there is a mutex holder then the mutex cannot be
			given from an ISR.  Therefore, unlike the xQueueGenericGive()
			function, there is no need to determine the need for priority
			disinheritance here or to clear the mutex holder TCB member. */

			++( pxQueue->uxMessagesWaiting );
 802abe4:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 802abe6:	3301      	adds	r3, #1
 802abe8:	63a3      	str	r3, [r4, #56]	; 0x38

			/* The event list is not altered if the queue is locked.  This will
			be done when the queue is unlocked later. */
			if( pxQueue->xTxLock == queueUNLOCKED )
 802abea:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 802abec:	3301      	adds	r3, #1
 802abee:	d10b      	bne.n	802ac08 <xQueueGiveFromISR+0x4e>
						}
					}
				}
				#else /* configUSE_QUEUE_SETS */
				{
					if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToReceive ) ) == pdFALSE )
 802abf0:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802abf2:	b903      	cbnz	r3, 802abf6 <xQueueGiveFromISR+0x3c>
 802abf4:	e00b      	b.n	802ac0e <xQueueGiveFromISR+0x54>
					{
						if( xTaskRemoveFromEventList( &( pxQueue->xTasksWaitingToReceive ) ) != pdFALSE )
 802abf6:	f104 0024 	add.w	r0, r4, #36	; 0x24
 802abfa:	f000 fcbd 	bl	802b578 <xTaskRemoveFromEventList>
 802abfe:	b130      	cbz	r0, 802ac0e <xQueueGiveFromISR+0x54>
						{
							/* The task waiting has a higher priority so record that a
							context	switch is required. */
							if( pxHigherPriorityTaskWoken != NULL )
 802ac00:	b12d      	cbz	r5, 802ac0e <xQueueGiveFromISR+0x54>
							{
								*pxHigherPriorityTaskWoken = pdTRUE;
 802ac02:	2401      	movs	r4, #1
 802ac04:	602c      	str	r4, [r5, #0]
 802ac06:	e005      	b.n	802ac14 <xQueueGiveFromISR+0x5a>
			}
			else
			{
				/* Increment the lock count so the task that unlocks the queue
				knows that data was posted while it was locked. */
				++( pxQueue->xTxLock );
 802ac08:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 802ac0a:	3301      	adds	r3, #1
 802ac0c:	64a3      	str	r3, [r4, #72]	; 0x48
			}

			xReturn = pdPASS;
 802ac0e:	2401      	movs	r4, #1
 802ac10:	e000      	b.n	802ac14 <xQueueGiveFromISR+0x5a>
		}
		else
		{
			traceQUEUE_SEND_FROM_ISR_FAILED( pxQueue );
			xReturn = errQUEUE_FULL;
 802ac12:	4634      	mov	r4, r6
		}
	}
	portCLEAR_INTERRUPT_MASK_FROM_ISR( uxSavedInterruptStatus );
 802ac14:	4638      	mov	r0, r7
 802ac16:	f000 ffc1 	bl	802bb9c <vPortClearInterruptMask>

	return xReturn;
}
 802ac1a:	4620      	mov	r0, r4
 802ac1c:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}

0802ac1e <xQueueGenericReceive>:
/*-----------------------------------------------------------*/

BaseType_t xQueueGenericReceive( QueueHandle_t xQueue, void * const pvBuffer, TickType_t xTicksToWait, const BaseType_t xJustPeeking )
{
 802ac1e:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
 802ac22:	b085      	sub	sp, #20
 802ac24:	460e      	mov	r6, r1
 802ac26:	9201      	str	r2, [sp, #4]
 802ac28:	4699      	mov	r9, r3
BaseType_t xEntryTimeSet = pdFALSE;
TimeOut_t xTimeOut;
int8_t *pcOriginalReadPosition;
Queue_t * const pxQueue = ( Queue_t * ) xQueue;

	configASSERT( pxQueue );
 802ac2a:	4604      	mov	r4, r0
 802ac2c:	b910      	cbnz	r0, 802ac34 <xQueueGenericReceive+0x16>
 802ac2e:	f000 ff85 	bl	802bb3c <ulPortSetInterruptMask>
 802ac32:	e7fe      	b.n	802ac32 <xQueueGenericReceive+0x14>
	configASSERT( !( ( pvBuffer == NULL ) && ( pxQueue->uxItemSize != ( UBaseType_t ) 0U ) ) );
 802ac34:	2900      	cmp	r1, #0
 802ac36:	f040 8089 	bne.w	802ad4c <xQueueGenericReceive+0x12e>
 802ac3a:	6c03      	ldr	r3, [r0, #64]	; 0x40
 802ac3c:	2b00      	cmp	r3, #0
 802ac3e:	f000 8085 	beq.w	802ad4c <xQueueGenericReceive+0x12e>
 802ac42:	e080      	b.n	802ad46 <xQueueGenericReceive+0x128>
 802ac44:	e7fe      	b.n	802ac44 <xQueueGenericReceive+0x26>
	#if ( ( INCLUDE_xTaskGetSchedulerState == 1 ) || ( configUSE_TIMERS == 1 ) )
	{
		configASSERT( !( ( xTaskGetSchedulerState() == taskSCHEDULER_SUSPENDED ) && ( xTicksToWait != 0 ) ) );
 802ac46:	9d01      	ldr	r5, [sp, #4]
 802ac48:	b125      	cbz	r5, 802ac54 <xQueueGenericReceive+0x36>
 802ac4a:	e085      	b.n	802ad58 <xQueueGenericReceive+0x13a>
 802ac4c:	e7fe      	b.n	802ac4c <xQueueGenericReceive+0x2e>
 802ac4e:	2501      	movs	r5, #1
 802ac50:	e001      	b.n	802ac56 <xQueueGenericReceive+0x38>
 802ac52:	2500      	movs	r5, #0

		/* Interrupts and other tasks can send to and receive from the queue
		now the critical section has been exited. */

		vTaskSuspendAll();
		prvLockQueue( pxQueue );
 802ac54:	2700      	movs	r7, #0
	statements within the function itself.  This is done in the interest
	of execution time efficiency. */

	for( ;; )
	{
		taskENTER_CRITICAL();
 802ac56:	f000 ff79 	bl	802bb4c <vPortEnterCritical>
		{
			/* Is there data in the queue now?  To be running the calling task
			must be	the highest priority task wanting to access the queue. */
			if( pxQueue->uxMessagesWaiting > ( UBaseType_t ) 0 )
 802ac5a:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 802ac5c:	b33b      	cbz	r3, 802acae <xQueueGenericReceive+0x90>
			{
				/* Remember the read position in case the queue is only being
				peeked. */
				pcOriginalReadPosition = pxQueue->u.pcReadFrom;

				prvCopyDataFromQueue( pxQueue, pvBuffer );
 802ac5e:	4620      	mov	r0, r4
 802ac60:	4631      	mov	r1, r6
			must be	the highest priority task wanting to access the queue. */
			if( pxQueue->uxMessagesWaiting > ( UBaseType_t ) 0 )
			{
				/* Remember the read position in case the queue is only being
				peeked. */
				pcOriginalReadPosition = pxQueue->u.pcReadFrom;
 802ac62:	68e5      	ldr	r5, [r4, #12]

				prvCopyDataFromQueue( pxQueue, pvBuffer );
 802ac64:	f7ff fde3 	bl	802a82e <prvCopyDataFromQueue>

				if( xJustPeeking == pdFALSE )
 802ac68:	f1b9 0f00 	cmp.w	r9, #0
 802ac6c:	d112      	bne.n	802ac94 <xQueueGenericReceive+0x76>
				{
					traceQUEUE_RECEIVE( pxQueue );

					/* Actually removing data, not just peeking. */
					--( pxQueue->uxMessagesWaiting );
 802ac6e:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 802ac70:	3b01      	subs	r3, #1
 802ac72:	63a3      	str	r3, [r4, #56]	; 0x38

					#if ( configUSE_MUTEXES == 1 )
					{
						if( pxQueue->uxQueueType == queueQUEUE_IS_MUTEX )
 802ac74:	6823      	ldr	r3, [r4, #0]
 802ac76:	b913      	cbnz	r3, 802ac7e <xQueueGenericReceive+0x60>
						{
							/* Record the information required to implement
							priority inheritance should it become necessary. */
							pxQueue->pxMutexHolder = ( int8_t * ) pvTaskIncrementMutexHeldCount(); /*lint !e961 Cast is not redundant as TaskHandle_t is a typedef. */
 802ac78:	f000 fd98 	bl	802b7ac <pvTaskIncrementMutexHeldCount>
 802ac7c:	6060      	str	r0, [r4, #4]
							mtCOVERAGE_TEST_MARKER();
						}
					}
					#endif /* configUSE_MUTEXES */

					if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToSend ) ) == pdFALSE )
 802ac7e:	6923      	ldr	r3, [r4, #16]
 802ac80:	b18b      	cbz	r3, 802aca6 <xQueueGenericReceive+0x88>
					{
						if( xTaskRemoveFromEventList( &( pxQueue->xTasksWaitingToSend ) ) == pdTRUE )
 802ac82:	f104 0010 	add.w	r0, r4, #16
 802ac86:	f000 fc77 	bl	802b578 <xTaskRemoveFromEventList>
 802ac8a:	2801      	cmp	r0, #1
 802ac8c:	d10b      	bne.n	802aca6 <xQueueGenericReceive+0x88>
						{
							queueYIELD_IF_USING_PREEMPTION();
 802ac8e:	f000 ff49 	bl	802bb24 <vPortYield>
 802ac92:	e008      	b.n	802aca6 <xQueueGenericReceive+0x88>
					pointer. */
					pxQueue->u.pcReadFrom = pcOriginalReadPosition;

					/* The data is being left in the queue, so see if there are
					any other tasks waiting for the data. */
					if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToReceive ) ) == pdFALSE )
 802ac94:	6a63      	ldr	r3, [r4, #36]	; 0x24
				{
					traceQUEUE_PEEK( pxQueue );

					/* The data is not being removed, so reset the read
					pointer. */
					pxQueue->u.pcReadFrom = pcOriginalReadPosition;
 802ac96:	60e5      	str	r5, [r4, #12]

					/* The data is being left in the queue, so see if there are
					any other tasks waiting for the data. */
					if( listLIST_IS_EMPTY( &( pxQueue->xTasksWaitingToReceive ) ) == pdFALSE )
 802ac98:	b12b      	cbz	r3, 802aca6 <xQueueGenericReceive+0x88>
					{
						/* Tasks that are removed from the event list will get added to
						the pending ready list as the scheduler is still suspended. */
						if( xTaskRemoveFromEventList( &( pxQueue->xTasksWaitingToReceive ) ) != pdFALSE )
 802ac9a:	f104 0024 	add.w	r0, r4, #36	; 0x24
 802ac9e:	f000 fc6b 	bl	802b578 <xTaskRemoveFromEventList>
 802aca2:	2800      	cmp	r0, #0
 802aca4:	d1f3      	bne.n	802ac8e <xQueueGenericReceive+0x70>
					{
						mtCOVERAGE_TEST_MARKER();
					}
				}

				taskEXIT_CRITICAL();
 802aca6:	f000 ff7d 	bl	802bba4 <vPortExitCritical>
				return pdPASS;
 802acaa:	2001      	movs	r0, #1
 802acac:	e057      	b.n	802ad5e <xQueueGenericReceive+0x140>
			}
			else
			{
				if( xTicksToWait == ( TickType_t ) 0 )
 802acae:	f8dd 8004 	ldr.w	r8, [sp, #4]
 802acb2:	f1b8 0f00 	cmp.w	r8, #0
 802acb6:	d102      	bne.n	802acbe <xQueueGenericReceive+0xa0>
				{
					/* The queue was empty and no block time is specified (or
					the block time has expired) so leave now. */
					taskEXIT_CRITICAL();
 802acb8:	f000 ff74 	bl	802bba4 <vPortExitCritical>
 802acbc:	e041      	b.n	802ad42 <xQueueGenericReceive+0x124>
					traceQUEUE_RECEIVE_FAILED( pxQueue );
					return errQUEUE_EMPTY;
				}
				else if( xEntryTimeSet == pdFALSE )
 802acbe:	b915      	cbnz	r5, 802acc6 <xQueueGenericReceive+0xa8>
				{
					/* The queue was empty and a block time was specified so
					configure the timeout structure. */
					vTaskSetTimeOutState( &xTimeOut );
 802acc0:	a802      	add	r0, sp, #8
 802acc2:	f000 fc95 	bl	802b5f0 <vTaskSetTimeOutState>
					/* Entry time was already set. */
					mtCOVERAGE_TEST_MARKER();
				}
			}
		}
		taskEXIT_CRITICAL();
 802acc6:	f000 ff6d 	bl	802bba4 <vPortExitCritical>

		/* Interrupts and other tasks can send to and receive from the queue
		now the critical section has been exited. */

		vTaskSuspendAll();
 802acca:	f000 fa11 	bl	802b0f0 <vTaskSuspendAll>
		prvLockQueue( pxQueue );
 802acce:	f000 ff3d 	bl	802bb4c <vPortEnterCritical>
 802acd2:	6c63      	ldr	r3, [r4, #68]	; 0x44
 802acd4:	3301      	adds	r3, #1
 802acd6:	bf08      	it	eq
 802acd8:	6467      	streq	r7, [r4, #68]	; 0x44
 802acda:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 802acdc:	3301      	adds	r3, #1
 802acde:	bf08      	it	eq
 802ace0:	64a7      	streq	r7, [r4, #72]	; 0x48
 802ace2:	f000 ff5f 	bl	802bba4 <vPortExitCritical>

		/* Update the timeout state to see if it has expired yet. */
		if( xTaskCheckForTimeOut( &xTimeOut, &xTicksToWait ) == pdFALSE )
 802ace6:	a802      	add	r0, sp, #8
 802ace8:	a901      	add	r1, sp, #4
 802acea:	f000 fc91 	bl	802b610 <xTaskCheckForTimeOut>
 802acee:	bb18      	cbnz	r0, 802ad38 <xQueueGenericReceive+0x11a>

static BaseType_t prvIsQueueEmpty( const Queue_t *pxQueue )
{
BaseType_t xReturn;

	taskENTER_CRITICAL();
 802acf0:	f000 ff2c 	bl	802bb4c <vPortEnterCritical>
	{
		if( pxQueue->uxMessagesWaiting == ( UBaseType_t )  0 )
 802acf4:	6ba5      	ldr	r5, [r4, #56]	; 0x38
		else
		{
			xReturn = pdFALSE;
		}
	}
	taskEXIT_CRITICAL();
 802acf6:	f000 ff55 	bl	802bba4 <vPortExitCritical>
		prvLockQueue( pxQueue );

		/* Update the timeout state to see if it has expired yet. */
		if( xTaskCheckForTimeOut( &xTimeOut, &xTicksToWait ) == pdFALSE )
		{
			if( prvIsQueueEmpty( pxQueue ) != pdFALSE )
 802acfa:	b9bd      	cbnz	r5, 802ad2c <xQueueGenericReceive+0x10e>
			{
				traceBLOCKING_ON_QUEUE_RECEIVE( pxQueue );

				#if ( configUSE_MUTEXES == 1 )
				{
					if( pxQueue->uxQueueType == queueQUEUE_IS_MUTEX )
 802acfc:	6823      	ldr	r3, [r4, #0]
 802acfe:	b933      	cbnz	r3, 802ad0e <xQueueGenericReceive+0xf0>
					{
						taskENTER_CRITICAL();
 802ad00:	f000 ff24 	bl	802bb4c <vPortEnterCritical>
						{
							vTaskPriorityInherit( ( void * ) pxQueue->pxMutexHolder );
 802ad04:	6860      	ldr	r0, [r4, #4]
 802ad06:	f000 fcc7 	bl	802b698 <vTaskPriorityInherit>
						}
						taskEXIT_CRITICAL();
 802ad0a:	f000 ff4b 	bl	802bba4 <vPortExitCritical>
						mtCOVERAGE_TEST_MARKER();
					}
				}
				#endif

				vTaskPlaceOnEventList( &( pxQueue->xTasksWaitingToReceive ), xTicksToWait );
 802ad0e:	f104 0024 	add.w	r0, r4, #36	; 0x24
 802ad12:	9901      	ldr	r1, [sp, #4]
 802ad14:	f000 fbd4 	bl	802b4c0 <vTaskPlaceOnEventList>
				prvUnlockQueue( pxQueue );
 802ad18:	4620      	mov	r0, r4
 802ad1a:	f7ff fd54 	bl	802a7c6 <prvUnlockQueue>
				if( xTaskResumeAll() == pdFALSE )
 802ad1e:	f000 fa83 	bl	802b228 <xTaskResumeAll>
 802ad22:	2800      	cmp	r0, #0
 802ad24:	d193      	bne.n	802ac4e <xQueueGenericReceive+0x30>
				{
					portYIELD_WITHIN_API();
 802ad26:	f000 fefd 	bl	802bb24 <vPortYield>
 802ad2a:	e790      	b.n	802ac4e <xQueueGenericReceive+0x30>
				}
			}
			else
			{
				/* Try again. */
				prvUnlockQueue( pxQueue );
 802ad2c:	4620      	mov	r0, r4
 802ad2e:	f7ff fd4a 	bl	802a7c6 <prvUnlockQueue>
				( void ) xTaskResumeAll();
 802ad32:	f000 fa79 	bl	802b228 <xTaskResumeAll>
 802ad36:	e78a      	b.n	802ac4e <xQueueGenericReceive+0x30>
			}
		}
		else
		{
			prvUnlockQueue( pxQueue );
 802ad38:	4620      	mov	r0, r4
 802ad3a:	f7ff fd44 	bl	802a7c6 <prvUnlockQueue>
			( void ) xTaskResumeAll();
 802ad3e:	f000 fa73 	bl	802b228 <xTaskResumeAll>
			traceQUEUE_RECEIVE_FAILED( pxQueue );
			return errQUEUE_EMPTY;
 802ad42:	2000      	movs	r0, #0
 802ad44:	e00b      	b.n	802ad5e <xQueueGenericReceive+0x140>
TimeOut_t xTimeOut;
int8_t *pcOriginalReadPosition;
Queue_t * const pxQueue = ( Queue_t * ) xQueue;

	configASSERT( pxQueue );
	configASSERT( !( ( pvBuffer == NULL ) && ( pxQueue->uxItemSize != ( UBaseType_t ) 0U ) ) );
 802ad46:	f000 fef9 	bl	802bb3c <ulPortSetInterruptMask>
 802ad4a:	e77b      	b.n	802ac44 <xQueueGenericReceive+0x26>
	#if ( ( INCLUDE_xTaskGetSchedulerState == 1 ) || ( configUSE_TIMERS == 1 ) )
	{
		configASSERT( !( ( xTaskGetSchedulerState() == taskSCHEDULER_SUSPENDED ) && ( xTicksToWait != 0 ) ) );
 802ad4c:	f000 fc94 	bl	802b678 <xTaskGetSchedulerState>
 802ad50:	2800      	cmp	r0, #0
 802ad52:	f47f af7e 	bne.w	802ac52 <xQueueGenericReceive+0x34>
 802ad56:	e776      	b.n	802ac46 <xQueueGenericReceive+0x28>
 802ad58:	f000 fef0 	bl	802bb3c <ulPortSetInterruptMask>
 802ad5c:	e776      	b.n	802ac4c <xQueueGenericReceive+0x2e>
			( void ) xTaskResumeAll();
			traceQUEUE_RECEIVE_FAILED( pxQueue );
			return errQUEUE_EMPTY;
		}
	}
}
 802ad5e:	b005      	add	sp, #20
 802ad60:	e8bd 83f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, pc}

0802ad64 <uxQueueSpacesAvailable>:
	return uxReturn;
} /*lint !e818 Pointer cannot be declared const as xQueue is a typedef not pointer. */
/*-----------------------------------------------------------*/

UBaseType_t uxQueueSpacesAvailable( const QueueHandle_t xQueue )
{
 802ad64:	b510      	push	{r4, lr}
UBaseType_t uxReturn;
Queue_t *pxQueue;

	pxQueue = ( Queue_t * ) xQueue;
	configASSERT( pxQueue );
 802ad66:	4604      	mov	r4, r0
 802ad68:	b910      	cbnz	r0, 802ad70 <uxQueueSpacesAvailable+0xc>
 802ad6a:	f000 fee7 	bl	802bb3c <ulPortSetInterruptMask>
 802ad6e:	e7fe      	b.n	802ad6e <uxQueueSpacesAvailable+0xa>

	taskENTER_CRITICAL();
 802ad70:	f000 feec 	bl	802bb4c <vPortEnterCritical>
	{
		uxReturn = pxQueue->uxLength - pxQueue->uxMessagesWaiting;
 802ad74:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 802ad76:	6be4      	ldr	r4, [r4, #60]	; 0x3c
 802ad78:	1ae4      	subs	r4, r4, r3
	}
	taskEXIT_CRITICAL();
 802ad7a:	f000 ff13 	bl	802bba4 <vPortExitCritical>

	return uxReturn;
} /*lint !e818 Pointer cannot be declared const as xQueue is a typedef not pointer. */
 802ad7e:	4620      	mov	r0, r4
 802ad80:	bd10      	pop	{r4, pc}

0802ad82 <vQueueWaitForMessageRestricted>:
/*-----------------------------------------------------------*/

#if ( configUSE_TIMERS == 1 )

	void vQueueWaitForMessageRestricted( QueueHandle_t xQueue, TickType_t xTicksToWait )
	{
 802ad82:	b538      	push	{r3, r4, r5, lr}
 802ad84:	4604      	mov	r4, r0
 802ad86:	460d      	mov	r5, r1
		will not actually cause the task to block, just place it on a blocked
		list.  It will not block until the scheduler is unlocked - at which
		time a yield will be performed.  If an item is added to the queue while
		the queue is locked, and the calling task blocks on the queue, then the
		calling task will be immediately unblocked when the queue is unlocked. */
		prvLockQueue( pxQueue );
 802ad88:	f000 fee0 	bl	802bb4c <vPortEnterCritical>
 802ad8c:	6c63      	ldr	r3, [r4, #68]	; 0x44
 802ad8e:	3301      	adds	r3, #1
 802ad90:	d101      	bne.n	802ad96 <vQueueWaitForMessageRestricted+0x14>
 802ad92:	2300      	movs	r3, #0
 802ad94:	6463      	str	r3, [r4, #68]	; 0x44
 802ad96:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 802ad98:	3301      	adds	r3, #1
 802ad9a:	d101      	bne.n	802ada0 <vQueueWaitForMessageRestricted+0x1e>
 802ad9c:	2300      	movs	r3, #0
 802ad9e:	64a3      	str	r3, [r4, #72]	; 0x48
 802ada0:	f000 ff00 	bl	802bba4 <vPortExitCritical>
		if( pxQueue->uxMessagesWaiting == ( UBaseType_t ) 0U )
 802ada4:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 802ada6:	b923      	cbnz	r3, 802adb2 <vQueueWaitForMessageRestricted+0x30>
		{
			/* There is nothing in the queue, block for the specified period. */
			vTaskPlaceOnEventListRestricted( &( pxQueue->xTasksWaitingToReceive ), xTicksToWait );
 802ada8:	f104 0024 	add.w	r0, r4, #36	; 0x24
 802adac:	4629      	mov	r1, r5
 802adae:	f000 fbbb 	bl	802b528 <vTaskPlaceOnEventListRestricted>
		}
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
		prvUnlockQueue( pxQueue );
 802adb2:	4620      	mov	r0, r4
	}
 802adb4:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
		}
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
		prvUnlockQueue( pxQueue );
 802adb8:	f7ff bd05 	b.w	802a7c6 <prvUnlockQueue>

0802adbc <prvResetNextTaskUnblockTime>:

static void prvResetNextTaskUnblockTime( void )
{
TCB_t *pxTCB;

	if( listLIST_IS_EMPTY( pxDelayedTaskList ) != pdFALSE )
 802adbc:	4a06      	ldr	r2, [pc, #24]	; (802add8 <prvResetNextTaskUnblockTime+0x1c>)
 802adbe:	6813      	ldr	r3, [r2, #0]
 802adc0:	6819      	ldr	r1, [r3, #0]
 802adc2:	4b06      	ldr	r3, [pc, #24]	; (802addc <prvResetNextTaskUnblockTime+0x20>)
 802adc4:	b911      	cbnz	r1, 802adcc <prvResetNextTaskUnblockTime+0x10>
		/* The new current delayed list is empty.  Set
		xNextTaskUnblockTime to the maximum possible value so it is
		extremely unlikely that the
		if( xTickCount >= xNextTaskUnblockTime ) test will pass until
		there is an item in the delayed list. */
		xNextTaskUnblockTime = portMAX_DELAY;
 802adc6:	f04f 32ff 	mov.w	r2, #4294967295
 802adca:	e003      	b.n	802add4 <prvResetNextTaskUnblockTime+0x18>
	{
		/* The new current delayed list is not empty, get the value of
		the item at the head of the delayed list.  This is the time at
		which the task at the head of the delayed list should be removed
		from the Blocked state. */
		( pxTCB ) = ( TCB_t * ) listGET_OWNER_OF_HEAD_ENTRY( pxDelayedTaskList );
 802adcc:	6812      	ldr	r2, [r2, #0]
 802adce:	68d2      	ldr	r2, [r2, #12]
		xNextTaskUnblockTime = listGET_LIST_ITEM_VALUE( &( ( pxTCB )->xGenericListItem ) );
 802add0:	68d2      	ldr	r2, [r2, #12]
 802add2:	6852      	ldr	r2, [r2, #4]
 802add4:	601a      	str	r2, [r3, #0]
 802add6:	4770      	bx	lr
 802add8:	20000bd4 	.word	0x20000bd4
 802addc:	20000708 	.word	0x20000708

0802ade0 <prvAddCurrentTaskToDelayedList>:
/*-----------------------------------------------------------*/

static void prvAddCurrentTaskToDelayedList( const TickType_t xTimeToWake )
{
	/* The list item will be inserted in wake time order. */
	listSET_LIST_ITEM_VALUE( &( pxCurrentTCB->xGenericListItem ), xTimeToWake );
 802ade0:	4b0e      	ldr	r3, [pc, #56]	; (802ae1c <prvAddCurrentTaskToDelayedList+0x3c>)
 802ade2:	681a      	ldr	r2, [r3, #0]
	#endif /* vTaskDelete */
}
/*-----------------------------------------------------------*/

static void prvAddCurrentTaskToDelayedList( const TickType_t xTimeToWake )
{
 802ade4:	b510      	push	{r4, lr}
	/* The list item will be inserted in wake time order. */
	listSET_LIST_ITEM_VALUE( &( pxCurrentTCB->xGenericListItem ), xTimeToWake );
 802ade6:	6050      	str	r0, [r2, #4]

	if( xTimeToWake < xTickCount )
 802ade8:	4a0d      	ldr	r2, [pc, #52]	; (802ae20 <prvAddCurrentTaskToDelayedList+0x40>)
 802adea:	6812      	ldr	r2, [r2, #0]
 802adec:	4290      	cmp	r0, r2
	#endif /* vTaskDelete */
}
/*-----------------------------------------------------------*/

static void prvAddCurrentTaskToDelayedList( const TickType_t xTimeToWake )
{
 802adee:	4604      	mov	r4, r0
	/* The list item will be inserted in wake time order. */
	listSET_LIST_ITEM_VALUE( &( pxCurrentTCB->xGenericListItem ), xTimeToWake );

	if( xTimeToWake < xTickCount )
 802adf0:	d207      	bcs.n	802ae02 <prvAddCurrentTaskToDelayedList+0x22>
	{
		/* Wake time has overflowed.  Place this item in the overflow list. */
		vListInsert( pxOverflowDelayedTaskList, &( pxCurrentTCB->xGenericListItem ) );
 802adf2:	4a0c      	ldr	r2, [pc, #48]	; (802ae24 <prvAddCurrentTaskToDelayedList+0x44>)
 802adf4:	6810      	ldr	r0, [r2, #0]
 802adf6:	6819      	ldr	r1, [r3, #0]
 802adf8:	3104      	adds	r1, #4
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
	}
}
 802adfa:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
	listSET_LIST_ITEM_VALUE( &( pxCurrentTCB->xGenericListItem ), xTimeToWake );

	if( xTimeToWake < xTickCount )
	{
		/* Wake time has overflowed.  Place this item in the overflow list. */
		vListInsert( pxOverflowDelayedTaskList, &( pxCurrentTCB->xGenericListItem ) );
 802adfe:	f7ff bcba 	b.w	802a776 <vListInsert>
	}
	else
	{
		/* The wake time has not overflowed, so the current block list is used. */
		vListInsert( pxDelayedTaskList, &( pxCurrentTCB->xGenericListItem ) );
 802ae02:	4a09      	ldr	r2, [pc, #36]	; (802ae28 <prvAddCurrentTaskToDelayedList+0x48>)
 802ae04:	6810      	ldr	r0, [r2, #0]
 802ae06:	6819      	ldr	r1, [r3, #0]
 802ae08:	3104      	adds	r1, #4
 802ae0a:	f7ff fcb4 	bl	802a776 <vListInsert>

		/* If the task entering the blocked state was placed at the head of the
		list of blocked tasks then xNextTaskUnblockTime needs to be updated
		too. */
		if( xTimeToWake < xNextTaskUnblockTime )
 802ae0e:	4b07      	ldr	r3, [pc, #28]	; (802ae2c <prvAddCurrentTaskToDelayedList+0x4c>)
 802ae10:	681a      	ldr	r2, [r3, #0]
 802ae12:	4294      	cmp	r4, r2
		{
			xNextTaskUnblockTime = xTimeToWake;
 802ae14:	bf38      	it	cc
 802ae16:	601c      	strcc	r4, [r3, #0]
 802ae18:	bd10      	pop	{r4, pc}
 802ae1a:	bf00      	nop
 802ae1c:	20000c84 	.word	0x20000c84
 802ae20:	20000ca0 	.word	0x20000ca0
 802ae24:	20000ca4 	.word	0x20000ca4
 802ae28:	20000bd4 	.word	0x20000bd4
 802ae2c:	20000708 	.word	0x20000708

0802ae30 <xTaskGenericCreate>:

#endif
/*-----------------------------------------------------------*/

BaseType_t xTaskGenericCreate( TaskFunction_t pxTaskCode, const char * const pcName, const uint16_t usStackDepth, void * const pvParameters, UBaseType_t uxPriority, TaskHandle_t * const pxCreatedTask, StackType_t * const puxStackBuffer, const MemoryRegion_t * const xRegions ) /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
{
 802ae30:	e92d 4ff8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, lr}
 802ae34:	9d0a      	ldr	r5, [sp, #40]	; 0x28
 802ae36:	f8dd 802c 	ldr.w	r8, [sp, #44]	; 0x2c
 802ae3a:	9e0c      	ldr	r6, [sp, #48]	; 0x30
 802ae3c:	460f      	mov	r7, r1
 802ae3e:	4693      	mov	fp, r2
 802ae40:	469a      	mov	sl, r3
BaseType_t xReturn;
TCB_t * pxNewTCB;
StackType_t *pxTopOfStack;

	configASSERT( pxTaskCode );
 802ae42:	4681      	mov	r9, r0
 802ae44:	b910      	cbnz	r0, 802ae4c <xTaskGenericCreate+0x1c>
 802ae46:	f000 fe79 	bl	802bb3c <ulPortSetInterruptMask>
 802ae4a:	e7fe      	b.n	802ae4a <xTaskGenericCreate+0x1a>
	configASSERT( ( ( uxPriority & ( ~portPRIVILEGE_BIT ) ) < configMAX_PRIORITIES ) );
 802ae4c:	2d04      	cmp	r5, #4
 802ae4e:	d902      	bls.n	802ae56 <xTaskGenericCreate+0x26>
 802ae50:	f000 fe74 	bl	802bb3c <ulPortSetInterruptMask>
 802ae54:	e7fe      	b.n	802ae54 <xTaskGenericCreate+0x24>
	#else /* portSTACK_GROWTH */
	{
	StackType_t *pxStack;

		/* Allocate space for the stack used by the task being created. */
		pxStack = ( StackType_t * ) pvPortMallocAligned( ( ( ( size_t ) usStackDepth ) * sizeof( StackType_t ) ), puxStackBuffer ); /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
 802ae56:	b936      	cbnz	r6, 802ae66 <xTaskGenericCreate+0x36>
 802ae58:	0090      	lsls	r0, r2, #2
 802ae5a:	f000 ff85 	bl	802bd68 <pvPortMalloc>

		if( pxStack != NULL )
 802ae5e:	4606      	mov	r6, r0
 802ae60:	2800      	cmp	r0, #0
 802ae62:	f000 809e 	beq.w	802afa2 <xTaskGenericCreate+0x172>
		{
			/* Allocate space for the TCB.  Where the memory comes from depends
			on the implementation of the port malloc function. */
			pxNewTCB = ( TCB_t * ) pvPortMalloc( sizeof( TCB_t ) );
 802ae66:	205c      	movs	r0, #92	; 0x5c
 802ae68:	f000 ff7e 	bl	802bd68 <pvPortMalloc>

			if( pxNewTCB != NULL )
 802ae6c:	4604      	mov	r4, r0
 802ae6e:	b178      	cbz	r0, 802ae90 <xTaskGenericCreate+0x60>
			{
				/* Store the stack location in the TCB. */
				pxNewTCB->pxStack = pxStack;
 802ae70:	6306      	str	r6, [r0, #48]	; 0x30
	{
		/* Avoid dependency on memset() if it is not required. */
		#if( ( configCHECK_FOR_STACK_OVERFLOW > 1 ) || ( configUSE_TRACE_FACILITY == 1 ) || ( INCLUDE_uxTaskGetStackHighWaterMark == 1 ) )
		{
			/* Just to help debugging. */
			( void ) memset( pxNewTCB->pxStack, ( int ) tskSTACK_FILL_BYTE, ( size_t ) usStackDepth * sizeof( StackType_t ) );
 802ae72:	ea4f 028b 	mov.w	r2, fp, lsl #2
 802ae76:	4630      	mov	r0, r6
 802ae78:	21a5      	movs	r1, #165	; 0xa5
 802ae7a:	f7f6 ff91 	bl	8021da0 <memset>
		stack grows from high memory to low (as per the 80x86) or vice versa.
		portSTACK_GROWTH is used to make the result positive or negative as
		required by the port. */
		#if( portSTACK_GROWTH < 0 )
		{
			pxTopOfStack = pxNewTCB->pxStack + ( usStackDepth - ( uint16_t ) 1 );
 802ae7e:	6b23      	ldr	r3, [r4, #48]	; 0x30
 802ae80:	f10b 3bff 	add.w	fp, fp, #4294967295
 802ae84:	eb03 0b8b 	add.w	fp, r3, fp, lsl #2
			pxTopOfStack = ( StackType_t * ) ( ( ( portPOINTER_SIZE_TYPE ) pxTopOfStack ) & ( ( portPOINTER_SIZE_TYPE ) ~portBYTE_ALIGNMENT_MASK  ) ); /*lint !e923 MISRA exception.  Avoiding casts between pointers and integers is not practical.  Size differences accounted for using portPOINTER_SIZE_TYPE type. */
 802ae88:	f02b 0b07 	bic.w	fp, fp, #7
static void prvInitialiseTCBVariables( TCB_t * const pxTCB, const char * const pcName, UBaseType_t uxPriority, const MemoryRegion_t * const xRegions, const uint16_t usStackDepth ) /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
{
UBaseType_t x;

	/* Store the task name in the TCB. */
	for( x = ( UBaseType_t ) 0; x < ( UBaseType_t ) configMAX_TASK_NAME_LEN; x++ )
 802ae8c:	2600      	movs	r6, #0
 802ae8e:	e003      	b.n	802ae98 <xTaskGenericCreate+0x68>
			}
			else
			{
				/* The stack cannot be used as the TCB was not created.  Free it
				again. */
				vPortFree( pxStack );
 802ae90:	4630      	mov	r0, r6
 802ae92:	f000 ffef 	bl	802be74 <vPortFree>
 802ae96:	e084      	b.n	802afa2 <xTaskGenericCreate+0x172>
	static char *prvWriteNameToBuffer( char *pcBuffer, const char *pcTaskName );

#endif
/*-----------------------------------------------------------*/

BaseType_t xTaskGenericCreate( TaskFunction_t pxTaskCode, const char * const pcName, const uint16_t usStackDepth, void * const pvParameters, UBaseType_t uxPriority, TaskHandle_t * const pxCreatedTask, StackType_t * const puxStackBuffer, const MemoryRegion_t * const xRegions ) /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
 802ae98:	19a3      	adds	r3, r4, r6
UBaseType_t x;

	/* Store the task name in the TCB. */
	for( x = ( UBaseType_t ) 0; x < ( UBaseType_t ) configMAX_TASK_NAME_LEN; x++ )
	{
		pxTCB->pcTaskName[ x ] = pcName[ x ];
 802ae9a:	5dba      	ldrb	r2, [r7, r6]
 802ae9c:	f883 2034 	strb.w	r2, [r3, #52]	; 0x34

		/* Don't copy all configMAX_TASK_NAME_LEN if the string is shorter than
		configMAX_TASK_NAME_LEN characters just in case the memory after the
		string is not accessible (extremely unlikely). */
		if( pcName[ x ] == 0x00 )
 802aea0:	5dbb      	ldrb	r3, [r7, r6]
 802aea2:	b113      	cbz	r3, 802aeaa <xTaskGenericCreate+0x7a>
static void prvInitialiseTCBVariables( TCB_t * const pxTCB, const char * const pcName, UBaseType_t uxPriority, const MemoryRegion_t * const xRegions, const uint16_t usStackDepth ) /*lint !e971 Unqualified char types are allowed for strings and single characters only. */
{
UBaseType_t x;

	/* Store the task name in the TCB. */
	for( x = ( UBaseType_t ) 0; x < ( UBaseType_t ) configMAX_TASK_NAME_LEN; x++ )
 802aea4:	3601      	adds	r6, #1
 802aea6:	2e10      	cmp	r6, #16
 802aea8:	d1f6      	bne.n	802ae98 <xTaskGenericCreate+0x68>
		}
	}

	/* Ensure the name string is terminated in the case that the string length
	was greater or equal to configMAX_TASK_NAME_LEN. */
	pxTCB->pcTaskName[ configMAX_TASK_NAME_LEN - 1 ] = '\0';
 802aeaa:	2600      	movs	r6, #0
		pxTCB->uxBasePriority = uxPriority;
		pxTCB->uxMutexesHeld = 0;
	}
	#endif /* configUSE_MUTEXES */

	vListInitialiseItem( &( pxTCB->xGenericListItem ) );
 802aeac:	1d27      	adds	r7, r4, #4
 802aeae:	4638      	mov	r0, r7
		}
	}

	/* Ensure the name string is terminated in the case that the string length
	was greater or equal to configMAX_TASK_NAME_LEN. */
	pxTCB->pcTaskName[ configMAX_TASK_NAME_LEN - 1 ] = '\0';
 802aeb0:	f884 6043 	strb.w	r6, [r4, #67]	; 0x43
	else
	{
		mtCOVERAGE_TEST_MARKER();
	}

	pxTCB->uxPriority = uxPriority;
 802aeb4:	62e5      	str	r5, [r4, #44]	; 0x2c
	#if ( configUSE_MUTEXES == 1 )
	{
		pxTCB->uxBasePriority = uxPriority;
 802aeb6:	64e5      	str	r5, [r4, #76]	; 0x4c
		pxTCB->uxMutexesHeld = 0;
 802aeb8:	6526      	str	r6, [r4, #80]	; 0x50
	}
	#endif /* configUSE_MUTEXES */

	vListInitialiseItem( &( pxTCB->xGenericListItem ) );
 802aeba:	f7ff fc4d 	bl	802a758 <vListInitialiseItem>
	vListInitialiseItem( &( pxTCB->xEventListItem ) );
 802aebe:	f104 0018 	add.w	r0, r4, #24
 802aec2:	f7ff fc49 	bl	802a758 <vListInitialiseItem>
	/* Set the pxTCB as a link back from the ListItem_t.  This is so we can get
	back to	the containing TCB from a generic item in a list. */
	listSET_LIST_ITEM_OWNER( &( pxTCB->xGenericListItem ), pxTCB );

	/* Event lists are always in priority order. */
	listSET_LIST_ITEM_VALUE( &( pxTCB->xEventListItem ), ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) uxPriority ); /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
 802aec6:	f1c5 0305 	rsb	r3, r5, #5
	}
	#endif /* portUSING_MPU_WRAPPERS */

	#if ( configUSE_TASK_NOTIFICATIONS == 1 )
	{
		pxTCB->ulNotifiedValue = 0;
 802aeca:	6566      	str	r6, [r4, #84]	; 0x54
	vListInitialiseItem( &( pxTCB->xGenericListItem ) );
	vListInitialiseItem( &( pxTCB->xEventListItem ) );

	/* Set the pxTCB as a link back from the ListItem_t.  This is so we can get
	back to	the containing TCB from a generic item in a list. */
	listSET_LIST_ITEM_OWNER( &( pxTCB->xGenericListItem ), pxTCB );
 802aecc:	6124      	str	r4, [r4, #16]

	/* Event lists are always in priority order. */
	listSET_LIST_ITEM_VALUE( &( pxTCB->xEventListItem ), ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) uxPriority ); /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
 802aece:	61a3      	str	r3, [r4, #24]
	listSET_LIST_ITEM_OWNER( &( pxTCB->xEventListItem ), pxTCB );
 802aed0:	6264      	str	r4, [r4, #36]	; 0x24
	#endif /* portUSING_MPU_WRAPPERS */

	#if ( configUSE_TASK_NOTIFICATIONS == 1 )
	{
		pxTCB->ulNotifiedValue = 0;
		pxTCB->eNotifyState = eNotWaitingNotification;
 802aed2:	f884 6058 	strb.w	r6, [r4, #88]	; 0x58
		{
			pxNewTCB->pxTopOfStack = pxPortInitialiseStack( pxTopOfStack, pxTaskCode, pvParameters, xRunPrivileged );
		}
		#else /* portUSING_MPU_WRAPPERS */
		{
			pxNewTCB->pxTopOfStack = pxPortInitialiseStack( pxTopOfStack, pxTaskCode, pvParameters );
 802aed6:	4658      	mov	r0, fp
 802aed8:	4649      	mov	r1, r9
 802aeda:	4652      	mov	r2, sl
 802aedc:	f000 fe02 	bl	802bae4 <pxPortInitialiseStack>
 802aee0:	6020      	str	r0, [r4, #0]
		}
		#endif /* portUSING_MPU_WRAPPERS */

		if( ( void * ) pxCreatedTask != NULL )
 802aee2:	f1b8 0f00 	cmp.w	r8, #0
 802aee6:	d001      	beq.n	802aeec <xTaskGenericCreate+0xbc>
		{
			/* Pass the TCB out - in an anonymous way.  The calling function/
			task can use this as a handle to delete the task later if
			required.*/
			*pxCreatedTask = ( TaskHandle_t ) pxNewTCB;
 802aee8:	f8c8 4000 	str.w	r4, [r8]
			mtCOVERAGE_TEST_MARKER();
		}

		/* Ensure interrupts don't access the task lists while they are being
		updated. */
		taskENTER_CRITICAL();
 802aeec:	f000 fe2e 	bl	802bb4c <vPortEnterCritical>
		{
			uxCurrentNumberOfTasks++;
 802aef0:	4a2e      	ldr	r2, [pc, #184]	; (802afac <xTaskGenericCreate+0x17c>)
 802aef2:	6813      	ldr	r3, [r2, #0]
 802aef4:	3301      	adds	r3, #1
 802aef6:	6013      	str	r3, [r2, #0]
			if( pxCurrentTCB == NULL )
 802aef8:	4b2d      	ldr	r3, [pc, #180]	; (802afb0 <xTaskGenericCreate+0x180>)
 802aefa:	681e      	ldr	r6, [r3, #0]
 802aefc:	bb36      	cbnz	r6, 802af4c <xTaskGenericCreate+0x11c>
			{
				/* There are no other tasks, or all the other tasks are in
				the suspended state - make this the current task. */
				pxCurrentTCB =  pxNewTCB;
 802aefe:	601c      	str	r4, [r3, #0]

				if( uxCurrentNumberOfTasks == ( UBaseType_t ) 1 )
 802af00:	6813      	ldr	r3, [r2, #0]
 802af02:	2b01      	cmp	r3, #1
 802af04:	d12a      	bne.n	802af5c <xTaskGenericCreate+0x12c>
{
UBaseType_t uxPriority;

	for( uxPriority = ( UBaseType_t ) 0U; uxPriority < ( UBaseType_t ) configMAX_PRIORITIES; uxPriority++ )
	{
		vListInitialise( &( pxReadyTasksLists[ uxPriority ] ) );
 802af06:	f8df 80d0 	ldr.w	r8, [pc, #208]	; 802afd8 <xTaskGenericCreate+0x1a8>
 802af0a:	f04f 0914 	mov.w	r9, #20
 802af0e:	fb09 8006 	mla	r0, r9, r6, r8

static void prvInitialiseTaskLists( void )
{
UBaseType_t uxPriority;

	for( uxPriority = ( UBaseType_t ) 0U; uxPriority < ( UBaseType_t ) configMAX_PRIORITIES; uxPriority++ )
 802af12:	3601      	adds	r6, #1
	{
		vListInitialise( &( pxReadyTasksLists[ uxPriority ] ) );
 802af14:	f7ff fc15 	bl	802a742 <vListInitialise>

static void prvInitialiseTaskLists( void )
{
UBaseType_t uxPriority;

	for( uxPriority = ( UBaseType_t ) 0U; uxPriority < ( UBaseType_t ) configMAX_PRIORITIES; uxPriority++ )
 802af18:	2e05      	cmp	r6, #5
 802af1a:	d1f8      	bne.n	802af0e <xTaskGenericCreate+0xde>
	{
		vListInitialise( &( pxReadyTasksLists[ uxPriority ] ) );
	}

	vListInitialise( &xDelayedTaskList1 );
 802af1c:	f8df 80bc 	ldr.w	r8, [pc, #188]	; 802afdc <xTaskGenericCreate+0x1ac>
	vListInitialise( &xDelayedTaskList2 );
 802af20:	4e24      	ldr	r6, [pc, #144]	; (802afb4 <xTaskGenericCreate+0x184>)
	for( uxPriority = ( UBaseType_t ) 0U; uxPriority < ( UBaseType_t ) configMAX_PRIORITIES; uxPriority++ )
	{
		vListInitialise( &( pxReadyTasksLists[ uxPriority ] ) );
	}

	vListInitialise( &xDelayedTaskList1 );
 802af22:	4640      	mov	r0, r8
 802af24:	f7ff fc0d 	bl	802a742 <vListInitialise>
	vListInitialise( &xDelayedTaskList2 );
 802af28:	4630      	mov	r0, r6
 802af2a:	f7ff fc0a 	bl	802a742 <vListInitialise>
	vListInitialise( &xPendingReadyList );
 802af2e:	4822      	ldr	r0, [pc, #136]	; (802afb8 <xTaskGenericCreate+0x188>)
 802af30:	f7ff fc07 	bl	802a742 <vListInitialise>

	#if ( INCLUDE_vTaskDelete == 1 )
	{
		vListInitialise( &xTasksWaitingTermination );
 802af34:	4821      	ldr	r0, [pc, #132]	; (802afbc <xTaskGenericCreate+0x18c>)
 802af36:	f7ff fc04 	bl	802a742 <vListInitialise>
	}
	#endif /* INCLUDE_vTaskDelete */

	#if ( INCLUDE_vTaskSuspend == 1 )
	{
		vListInitialise( &xSuspendedTaskList );
 802af3a:	4821      	ldr	r0, [pc, #132]	; (802afc0 <xTaskGenericCreate+0x190>)
 802af3c:	f7ff fc01 	bl	802a742 <vListInitialise>
	}
	#endif /* INCLUDE_vTaskSuspend */

	/* Start with pxDelayedTaskList using list1 and the pxOverflowDelayedTaskList
	using list2. */
	pxDelayedTaskList = &xDelayedTaskList1;
 802af40:	4b20      	ldr	r3, [pc, #128]	; (802afc4 <xTaskGenericCreate+0x194>)
 802af42:	f8c3 8000 	str.w	r8, [r3]
	pxOverflowDelayedTaskList = &xDelayedTaskList2;
 802af46:	4b20      	ldr	r3, [pc, #128]	; (802afc8 <xTaskGenericCreate+0x198>)
 802af48:	601e      	str	r6, [r3, #0]
 802af4a:	e007      	b.n	802af5c <xTaskGenericCreate+0x12c>
			else
			{
				/* If the scheduler is not already running, make this task the
				current task if it is the highest priority task to be created
				so far. */
				if( xSchedulerRunning == pdFALSE )
 802af4c:	4a1f      	ldr	r2, [pc, #124]	; (802afcc <xTaskGenericCreate+0x19c>)
 802af4e:	6812      	ldr	r2, [r2, #0]
 802af50:	b922      	cbnz	r2, 802af5c <xTaskGenericCreate+0x12c>
				{
					if( pxCurrentTCB->uxPriority <= uxPriority )
 802af52:	681a      	ldr	r2, [r3, #0]
 802af54:	6ad2      	ldr	r2, [r2, #44]	; 0x2c
 802af56:	42aa      	cmp	r2, r5
					{
						pxCurrentTCB = pxNewTCB;
 802af58:	bf98      	it	ls
 802af5a:	601c      	strls	r4, [r3, #0]
				{
					mtCOVERAGE_TEST_MARKER();
				}
			}

			uxTaskNumber++;
 802af5c:	4a1c      	ldr	r2, [pc, #112]	; (802afd0 <xTaskGenericCreate+0x1a0>)
 802af5e:	6813      	ldr	r3, [r2, #0]
 802af60:	3301      	adds	r3, #1
 802af62:	6013      	str	r3, [r2, #0]
				pxNewTCB->uxTCBNumber = uxTaskNumber;
			}
			#endif /* configUSE_TRACE_FACILITY */
			traceTASK_CREATE( pxNewTCB );

			prvAddTaskToReadyList( pxNewTCB );
 802af64:	4a1b      	ldr	r2, [pc, #108]	; (802afd4 <xTaskGenericCreate+0x1a4>)
			uxTaskNumber++;

			#if ( configUSE_TRACE_FACILITY == 1 )
			{
				/* Add a counter into the TCB for tracing only. */
				pxNewTCB->uxTCBNumber = uxTaskNumber;
 802af66:	6463      	str	r3, [r4, #68]	; 0x44
			}
			#endif /* configUSE_TRACE_FACILITY */
			traceTASK_CREATE( pxNewTCB );

			prvAddTaskToReadyList( pxNewTCB );
 802af68:	6ae3      	ldr	r3, [r4, #44]	; 0x2c
 802af6a:	6811      	ldr	r1, [r2, #0]
 802af6c:	2401      	movs	r4, #1
 802af6e:	fa04 f003 	lsl.w	r0, r4, r3
 802af72:	4301      	orrs	r1, r0
 802af74:	6011      	str	r1, [r2, #0]
 802af76:	4a18      	ldr	r2, [pc, #96]	; (802afd8 <xTaskGenericCreate+0x1a8>)
 802af78:	2014      	movs	r0, #20
 802af7a:	fb00 2003 	mla	r0, r0, r3, r2
 802af7e:	4639      	mov	r1, r7
 802af80:	f7ff fbed 	bl	802a75e <vListInsertEnd>

			xReturn = pdPASS;
			portSETUP_TCB( pxNewTCB );
		}
		taskEXIT_CRITICAL();
 802af84:	f000 fe0e 	bl	802bba4 <vPortExitCritical>
		traceTASK_CREATE_FAILED();
	}

	if( xReturn == pdPASS )
	{
		if( xSchedulerRunning != pdFALSE )
 802af88:	4b10      	ldr	r3, [pc, #64]	; (802afcc <xTaskGenericCreate+0x19c>)
 802af8a:	681b      	ldr	r3, [r3, #0]
 802af8c:	b133      	cbz	r3, 802af9c <xTaskGenericCreate+0x16c>
		{
			/* If the created task is of a higher priority than the current task
			then it should run now. */
			if( pxCurrentTCB->uxPriority < uxPriority )
 802af8e:	4b08      	ldr	r3, [pc, #32]	; (802afb0 <xTaskGenericCreate+0x180>)
 802af90:	681b      	ldr	r3, [r3, #0]
 802af92:	6adb      	ldr	r3, [r3, #44]	; 0x2c
 802af94:	42ab      	cmp	r3, r5
 802af96:	d201      	bcs.n	802af9c <xTaskGenericCreate+0x16c>
			{
				taskYIELD_IF_USING_PREEMPTION();
 802af98:	f000 fdc4 	bl	802bb24 <vPortYield>
			#endif /* configUSE_TRACE_FACILITY */
			traceTASK_CREATE( pxNewTCB );

			prvAddTaskToReadyList( pxNewTCB );

			xReturn = pdPASS;
 802af9c:	4620      	mov	r0, r4
 802af9e:	e8bd 8ff8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}
		}
		taskEXIT_CRITICAL();
	}
	else
	{
		xReturn = errCOULD_NOT_ALLOCATE_REQUIRED_MEMORY;
 802afa2:	f04f 30ff 	mov.w	r0, #4294967295
			mtCOVERAGE_TEST_MARKER();
		}
	}

	return xReturn;
}
 802afa6:	e8bd 8ff8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}
 802afaa:	bf00      	nop
 802afac:	20000cac 	.word	0x20000cac
 802afb0:	20000c84 	.word	0x20000c84
 802afb4:	20000bf4 	.word	0x20000bf4
 802afb8:	20000c88 	.word	0x20000c88
 802afbc:	20000c70 	.word	0x20000c70
 802afc0:	20000cb0 	.word	0x20000cb0
 802afc4:	20000bd4 	.word	0x20000bd4
 802afc8:	20000ca4 	.word	0x20000ca4
 802afcc:	20000bd8 	.word	0x20000bd8
 802afd0:	20000ca8 	.word	0x20000ca8
 802afd4:	20000cc4 	.word	0x20000cc4
 802afd8:	20000c0c 	.word	0x20000c0c
 802afdc:	20000be0 	.word	0x20000be0

0802afe0 <vTaskDelete>:
/*-----------------------------------------------------------*/

#if ( INCLUDE_vTaskDelete == 1 )

	void vTaskDelete( TaskHandle_t xTaskToDelete )
	{
 802afe0:	b538      	push	{r3, r4, r5, lr}
 802afe2:	4604      	mov	r4, r0
	TCB_t *pxTCB;

		taskENTER_CRITICAL();
 802afe4:	f000 fdb2 	bl	802bb4c <vPortEnterCritical>
		{
			/* If null is passed in here then it is the calling task that is
			being deleted. */
			pxTCB = prvGetTCBFromHandle( xTaskToDelete );
 802afe8:	b90c      	cbnz	r4, 802afee <vTaskDelete+0xe>
 802afea:	4b22      	ldr	r3, [pc, #136]	; (802b074 <vTaskDelete+0x94>)
 802afec:	681c      	ldr	r4, [r3, #0]

			/* Remove task from the ready list and place in the	termination list.
			This will stop the task from be scheduled.  The idle task will check
			the termination list and free up any memory allocated by the
			scheduler for the TCB and stack. */
			if( uxListRemove( &( pxTCB->xGenericListItem ) ) == ( UBaseType_t ) 0 )
 802afee:	1d25      	adds	r5, r4, #4
 802aff0:	4628      	mov	r0, r5
 802aff2:	f7ff fbd8 	bl	802a7a6 <uxListRemove>
 802aff6:	b968      	cbnz	r0, 802b014 <vTaskDelete+0x34>
			{
				taskRESET_READY_PRIORITY( pxTCB->uxPriority );
 802aff8:	6ae2      	ldr	r2, [r4, #44]	; 0x2c
 802affa:	491f      	ldr	r1, [pc, #124]	; (802b078 <vTaskDelete+0x98>)
 802affc:	2314      	movs	r3, #20
 802affe:	4353      	muls	r3, r2
 802b000:	58cb      	ldr	r3, [r1, r3]
 802b002:	b93b      	cbnz	r3, 802b014 <vTaskDelete+0x34>
 802b004:	4b1d      	ldr	r3, [pc, #116]	; (802b07c <vTaskDelete+0x9c>)
 802b006:	2001      	movs	r0, #1
 802b008:	6819      	ldr	r1, [r3, #0]
 802b00a:	fa00 f202 	lsl.w	r2, r0, r2
 802b00e:	ea21 0202 	bic.w	r2, r1, r2
 802b012:	601a      	str	r2, [r3, #0]
			{
				mtCOVERAGE_TEST_MARKER();
			}

			/* Is the task waiting on an event also? */
			if( listLIST_ITEM_CONTAINER( &( pxTCB->xEventListItem ) ) != NULL )
 802b014:	6aa3      	ldr	r3, [r4, #40]	; 0x28
 802b016:	b11b      	cbz	r3, 802b020 <vTaskDelete+0x40>
			{
				( void ) uxListRemove( &( pxTCB->xEventListItem ) );
 802b018:	f104 0018 	add.w	r0, r4, #24
 802b01c:	f7ff fbc3 	bl	802a7a6 <uxListRemove>
			else
			{
				mtCOVERAGE_TEST_MARKER();
			}

			vListInsertEnd( &xTasksWaitingTermination, &( pxTCB->xGenericListItem ) );
 802b020:	4817      	ldr	r0, [pc, #92]	; (802b080 <vTaskDelete+0xa0>)
 802b022:	4629      	mov	r1, r5
 802b024:	f7ff fb9b 	bl	802a75e <vListInsertEnd>

			/* Increment the ucTasksDeleted variable so the idle task knows
			there is a task that has been deleted and that it should therefore
			check the xTasksWaitingTermination list. */
			++uxTasksDeleted;
 802b028:	4b16      	ldr	r3, [pc, #88]	; (802b084 <vTaskDelete+0xa4>)
 802b02a:	681a      	ldr	r2, [r3, #0]
 802b02c:	3201      	adds	r2, #1
 802b02e:	601a      	str	r2, [r3, #0]

			/* Increment the uxTaskNumberVariable also so kernel aware debuggers
			can detect that the task lists need re-generating. */
			uxTaskNumber++;
 802b030:	4b15      	ldr	r3, [pc, #84]	; (802b088 <vTaskDelete+0xa8>)
 802b032:	681a      	ldr	r2, [r3, #0]
 802b034:	3201      	adds	r2, #1
 802b036:	601a      	str	r2, [r3, #0]

			traceTASK_DELETE( pxTCB );
		}
		taskEXIT_CRITICAL();
 802b038:	f000 fdb4 	bl	802bba4 <vPortExitCritical>

		/* Force a reschedule if it is the currently running task that has just
		been deleted. */
		if( xSchedulerRunning != pdFALSE )
 802b03c:	4b13      	ldr	r3, [pc, #76]	; (802b08c <vTaskDelete+0xac>)
 802b03e:	681b      	ldr	r3, [r3, #0]
 802b040:	2b00      	cmp	r3, #0
 802b042:	d015      	beq.n	802b070 <vTaskDelete+0x90>
		{
			if( pxTCB == pxCurrentTCB )
 802b044:	4b0b      	ldr	r3, [pc, #44]	; (802b074 <vTaskDelete+0x94>)
 802b046:	681b      	ldr	r3, [r3, #0]
 802b048:	429c      	cmp	r4, r3
 802b04a:	d109      	bne.n	802b060 <vTaskDelete+0x80>
			{
				configASSERT( uxSchedulerSuspended == 0 );
 802b04c:	4b10      	ldr	r3, [pc, #64]	; (802b090 <vTaskDelete+0xb0>)
 802b04e:	681b      	ldr	r3, [r3, #0]
 802b050:	b113      	cbz	r3, 802b058 <vTaskDelete+0x78>
 802b052:	f000 fd73 	bl	802bb3c <ulPortSetInterruptMask>
 802b056:	e7fe      	b.n	802b056 <vTaskDelete+0x76>
					prvResetNextTaskUnblockTime();
				}
				taskEXIT_CRITICAL();
			}
		}
	}
 802b058:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
				in which Windows specific clean up operations are performed,
				after which it is not possible to yield away from this task -
				hence xYieldPending is used to latch that a context switch is
				required. */
				portPRE_TASK_DELETE_HOOK( pxTCB, &xYieldPending );
				portYIELD_WITHIN_API();
 802b05c:	f000 bd62 	b.w	802bb24 <vPortYield>
			}
			else
			{
				/* Reset the next expected unblock time in case it referred to
				the task that has just been deleted. */
				taskENTER_CRITICAL();
 802b060:	f000 fd74 	bl	802bb4c <vPortEnterCritical>
				{
					prvResetNextTaskUnblockTime();
 802b064:	f7ff feaa 	bl	802adbc <prvResetNextTaskUnblockTime>
				}
				taskEXIT_CRITICAL();
			}
		}
	}
 802b068:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
				the task that has just been deleted. */
				taskENTER_CRITICAL();
				{
					prvResetNextTaskUnblockTime();
				}
				taskEXIT_CRITICAL();
 802b06c:	f000 bd9a 	b.w	802bba4 <vPortExitCritical>
 802b070:	bd38      	pop	{r3, r4, r5, pc}
 802b072:	bf00      	nop
 802b074:	20000c84 	.word	0x20000c84
 802b078:	20000c0c 	.word	0x20000c0c
 802b07c:	20000cc4 	.word	0x20000cc4
 802b080:	20000c70 	.word	0x20000c70
 802b084:	20000bdc 	.word	0x20000bdc
 802b088:	20000ca8 	.word	0x20000ca8
 802b08c:	20000bd8 	.word	0x20000bd8
 802b090:	20000c9c 	.word	0x20000c9c

0802b094 <vTaskStartScheduler>:

#endif /* ( ( INCLUDE_xTaskResumeFromISR == 1 ) && ( INCLUDE_vTaskSuspend == 1 ) ) */
/*-----------------------------------------------------------*/

void vTaskStartScheduler( void )
{
 802b094:	b530      	push	{r4, r5, lr}
 802b096:	b085      	sub	sp, #20
		xReturn = xTaskCreate( prvIdleTask, "IDLE", tskIDLE_STACK_SIZE, ( void * ) NULL, ( tskIDLE_PRIORITY | portPRIVILEGE_BIT ), &xIdleTaskHandle ); /*lint !e961 MISRA exception, justified as it is not a redundant explicit cast to all supported compilers. */
	}
	#else
	{
		/* Create the idle task without storing its handle. */
		xReturn = xTaskCreate( prvIdleTask, "IDLE", tskIDLE_STACK_SIZE, ( void * ) NULL, ( tskIDLE_PRIORITY | portPRIVILEGE_BIT ), NULL );  /*lint !e961 MISRA exception, justified as it is not a redundant explicit cast to all supported compilers. */
 802b098:	2400      	movs	r4, #0
 802b09a:	2280      	movs	r2, #128	; 0x80
 802b09c:	9400      	str	r4, [sp, #0]
 802b09e:	9401      	str	r4, [sp, #4]
 802b0a0:	9402      	str	r4, [sp, #8]
 802b0a2:	9403      	str	r4, [sp, #12]
 802b0a4:	480e      	ldr	r0, [pc, #56]	; (802b0e0 <vTaskStartScheduler+0x4c>)
 802b0a6:	490f      	ldr	r1, [pc, #60]	; (802b0e4 <vTaskStartScheduler+0x50>)
 802b0a8:	4623      	mov	r3, r4
 802b0aa:	f7ff fec1 	bl	802ae30 <xTaskGenericCreate>
	}
	#endif /* INCLUDE_xTaskGetIdleTaskHandle */

	#if ( configUSE_TIMERS == 1 )
	{
		if( xReturn == pdPASS )
 802b0ae:	2801      	cmp	r0, #1
		xReturn = xTaskCreate( prvIdleTask, "IDLE", tskIDLE_STACK_SIZE, ( void * ) NULL, ( tskIDLE_PRIORITY | portPRIVILEGE_BIT ), &xIdleTaskHandle ); /*lint !e961 MISRA exception, justified as it is not a redundant explicit cast to all supported compilers. */
	}
	#else
	{
		/* Create the idle task without storing its handle. */
		xReturn = xTaskCreate( prvIdleTask, "IDLE", tskIDLE_STACK_SIZE, ( void * ) NULL, ( tskIDLE_PRIORITY | portPRIVILEGE_BIT ), NULL );  /*lint !e961 MISRA exception, justified as it is not a redundant explicit cast to all supported compilers. */
 802b0b0:	4605      	mov	r5, r0
	}
	#endif /* INCLUDE_xTaskGetIdleTaskHandle */

	#if ( configUSE_TIMERS == 1 )
	{
		if( xReturn == pdPASS )
 802b0b2:	d10f      	bne.n	802b0d4 <vTaskStartScheduler+0x40>
		{
			xReturn = xTimerCreateTimerTask();
 802b0b4:	f000 fbce 	bl	802b854 <xTimerCreateTimerTask>
			mtCOVERAGE_TEST_MARKER();
		}
	}
	#endif /* configUSE_TIMERS */

	if( xReturn == pdPASS )
 802b0b8:	2801      	cmp	r0, #1

	#if ( configUSE_TIMERS == 1 )
	{
		if( xReturn == pdPASS )
		{
			xReturn = xTimerCreateTimerTask();
 802b0ba:	4605      	mov	r5, r0
			mtCOVERAGE_TEST_MARKER();
		}
	}
	#endif /* configUSE_TIMERS */

	if( xReturn == pdPASS )
 802b0bc:	d10a      	bne.n	802b0d4 <vTaskStartScheduler+0x40>
		/* Interrupts are turned off here, to ensure a tick does not occur
		before or during the call to xPortStartScheduler().  The stacks of
		the created tasks contain a status word with interrupts switched on
		so interrupts will automatically get re-enabled when the first task
		starts to run. */
		portDISABLE_INTERRUPTS();
 802b0be:	f000 fd3d 	bl	802bb3c <ulPortSetInterruptMask>
			structure specific to the task that will run first. */
			_impure_ptr = &( pxCurrentTCB->xNewLib_reent );
		}
		#endif /* configUSE_NEWLIB_REENTRANT */

		xSchedulerRunning = pdTRUE;
 802b0c2:	4b09      	ldr	r3, [pc, #36]	; (802b0e8 <vTaskStartScheduler+0x54>)
 802b0c4:	601d      	str	r5, [r3, #0]
		xTickCount = ( TickType_t ) 0U;
 802b0c6:	4b09      	ldr	r3, [pc, #36]	; (802b0ec <vTaskStartScheduler+0x58>)
 802b0c8:	601c      	str	r4, [r3, #0]
		/* This line will only be reached if the kernel could not be started,
		because there was not enough FreeRTOS heap to create the idle task
		or the timer task. */
		configASSERT( xReturn );
	}
}
 802b0ca:	b005      	add	sp, #20
 802b0cc:	e8bd 4030 	ldmia.w	sp!, {r4, r5, lr}
		the run time counter time base. */
		portCONFIGURE_TIMER_FOR_RUN_TIME_STATS();

		/* Setting up the timer tick is hardware specific and thus in the
		portable interface. */
		if( xPortStartScheduler() != pdFALSE )
 802b0d0:	f000 bdc0 	b.w	802bc54 <xPortStartScheduler>
	else
	{
		/* This line will only be reached if the kernel could not be started,
		because there was not enough FreeRTOS heap to create the idle task
		or the timer task. */
		configASSERT( xReturn );
 802b0d4:	b915      	cbnz	r5, 802b0dc <vTaskStartScheduler+0x48>
 802b0d6:	f000 fd31 	bl	802bb3c <ulPortSetInterruptMask>
 802b0da:	e7fe      	b.n	802b0da <vTaskStartScheduler+0x46>
	}
}
 802b0dc:	b005      	add	sp, #20
 802b0de:	bd30      	pop	{r4, r5, pc}
 802b0e0:	0802b301 	.word	0x0802b301
 802b0e4:	08038dbc 	.word	0x08038dbc
 802b0e8:	20000bd8 	.word	0x20000bd8
 802b0ec:	20000ca0 	.word	0x20000ca0

0802b0f0 <vTaskSuspendAll>:
{
	/* A critical section is not required as the variable is of type
	BaseType_t.  Please read Richard Barry's reply in the following link to a
	post in the FreeRTOS support forum before reporting this as a bug! -
	http://goo.gl/wu4acr */
	++uxSchedulerSuspended;
 802b0f0:	4b02      	ldr	r3, [pc, #8]	; (802b0fc <vTaskSuspendAll+0xc>)
 802b0f2:	681a      	ldr	r2, [r3, #0]
 802b0f4:	3201      	adds	r2, #1
 802b0f6:	601a      	str	r2, [r3, #0]
 802b0f8:	4770      	bx	lr
 802b0fa:	bf00      	nop
 802b0fc:	20000c9c 	.word	0x20000c9c

0802b100 <xTaskGetTickCount>:
TickType_t xTicks;

	/* Critical section required if running on a 16 bit processor. */
	portTICK_TYPE_ENTER_CRITICAL();
	{
		xTicks = xTickCount;
 802b100:	4b01      	ldr	r3, [pc, #4]	; (802b108 <xTaskGetTickCount+0x8>)
 802b102:	6818      	ldr	r0, [r3, #0]
	}
	portTICK_TYPE_EXIT_CRITICAL();

	return xTicks;
}
 802b104:	4770      	bx	lr
 802b106:	bf00      	nop
 802b108:	20000ca0 	.word	0x20000ca0

0802b10c <xTaskIncrementTick>:

	/* Called by the portable layer each time a tick interrupt occurs.
	Increments the tick then checks to see if the new tick value will cause any
	tasks to be unblocked. */
	traceTASK_INCREMENT_TICK( xTickCount );
	if( uxSchedulerSuspended == ( UBaseType_t ) pdFALSE )
 802b10c:	4b3b      	ldr	r3, [pc, #236]	; (802b1fc <xTaskIncrementTick+0xf0>)
 802b10e:	681b      	ldr	r3, [r3, #0]

#endif /* configUSE_TICKLESS_IDLE */
/*----------------------------------------------------------*/

BaseType_t xTaskIncrementTick( void )
{
 802b110:	e92d 47f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, lr}

	/* Called by the portable layer each time a tick interrupt occurs.
	Increments the tick then checks to see if the new tick value will cause any
	tasks to be unblocked. */
	traceTASK_INCREMENT_TICK( xTickCount );
	if( uxSchedulerSuspended == ( UBaseType_t ) pdFALSE )
 802b114:	2b00      	cmp	r3, #0
 802b116:	d15b      	bne.n	802b1d0 <xTaskIncrementTick+0xc4>
	{
		/* Increment the RTOS tick, switching the delayed and overflowed
		delayed lists if it wraps to 0. */
		++xTickCount;
 802b118:	4b39      	ldr	r3, [pc, #228]	; (802b200 <xTaskIncrementTick+0xf4>)
 802b11a:	681a      	ldr	r2, [r3, #0]
 802b11c:	3201      	adds	r2, #1
 802b11e:	601a      	str	r2, [r3, #0]

		{
			/* Minor optimisation.  The tick count cannot change in this
			block. */
			const TickType_t xConstTickCount = xTickCount;
 802b120:	681e      	ldr	r6, [r3, #0]

			if( xConstTickCount == ( TickType_t ) 0U )
 802b122:	b98e      	cbnz	r6, 802b148 <xTaskIncrementTick+0x3c>
			{
				taskSWITCH_DELAYED_LISTS();
 802b124:	4b37      	ldr	r3, [pc, #220]	; (802b204 <xTaskIncrementTick+0xf8>)
 802b126:	681a      	ldr	r2, [r3, #0]
 802b128:	6812      	ldr	r2, [r2, #0]
 802b12a:	b112      	cbz	r2, 802b132 <xTaskIncrementTick+0x26>
 802b12c:	f000 fd06 	bl	802bb3c <ulPortSetInterruptMask>
 802b130:	e7fe      	b.n	802b130 <xTaskIncrementTick+0x24>
 802b132:	4a35      	ldr	r2, [pc, #212]	; (802b208 <xTaskIncrementTick+0xfc>)
 802b134:	6819      	ldr	r1, [r3, #0]
 802b136:	6810      	ldr	r0, [r2, #0]
 802b138:	6018      	str	r0, [r3, #0]
 802b13a:	4b34      	ldr	r3, [pc, #208]	; (802b20c <xTaskIncrementTick+0x100>)
 802b13c:	6011      	str	r1, [r2, #0]
 802b13e:	681a      	ldr	r2, [r3, #0]
 802b140:	3201      	adds	r2, #1
 802b142:	601a      	str	r2, [r3, #0]
 802b144:	f7ff fe3a 	bl	802adbc <prvResetNextTaskUnblockTime>

			/* See if this tick has made a timeout expire.  Tasks are stored in
			the	queue in the order of their wake time - meaning once one task
			has been found whose block time has not expired there is no need to
			look any further down the list. */
			if( xConstTickCount >= xNextTaskUnblockTime )
 802b148:	4b31      	ldr	r3, [pc, #196]	; (802b210 <xTaskIncrementTick+0x104>)
 802b14a:	681b      	ldr	r3, [r3, #0]
 802b14c:	2400      	movs	r4, #0
 802b14e:	429e      	cmp	r6, r3
 802b150:	d200      	bcs.n	802b154 <xTaskIncrementTick+0x48>
 802b152:	e032      	b.n	802b1ba <xTaskIncrementTick+0xae>
			{
				for( ;; )
				{
					if( listLIST_IS_EMPTY( pxDelayedTaskList ) != pdFALSE )
 802b154:	4f2b      	ldr	r7, [pc, #172]	; (802b204 <xTaskIncrementTick+0xf8>)
							mtCOVERAGE_TEST_MARKER();
						}

						/* Place the unblocked task into the appropriate ready
						list. */
						prvAddTaskToReadyList( pxTCB );
 802b156:	f8df 80cc 	ldr.w	r8, [pc, #204]	; 802b224 <xTaskIncrementTick+0x118>
 802b15a:	f8df a0bc 	ldr.w	sl, [pc, #188]	; 802b218 <xTaskIncrementTick+0x10c>
			look any further down the list. */
			if( xConstTickCount >= xNextTaskUnblockTime )
			{
				for( ;; )
				{
					if( listLIST_IS_EMPTY( pxDelayedTaskList ) != pdFALSE )
 802b15e:	683b      	ldr	r3, [r7, #0]
 802b160:	681b      	ldr	r3, [r3, #0]
 802b162:	2b00      	cmp	r3, #0
 802b164:	d13a      	bne.n	802b1dc <xTaskIncrementTick+0xd0>
						/* The delayed list is empty.  Set xNextTaskUnblockTime
						to the maximum possible value so it is extremely
						unlikely that the
						if( xTickCount >= xNextTaskUnblockTime ) test will pass
						next time through. */
						xNextTaskUnblockTime = portMAX_DELAY;
 802b166:	4b2a      	ldr	r3, [pc, #168]	; (802b210 <xTaskIncrementTick+0x104>)
 802b168:	f04f 32ff 	mov.w	r2, #4294967295
 802b16c:	601a      	str	r2, [r3, #0]
						break;
 802b16e:	e024      	b.n	802b1ba <xTaskIncrementTick+0xae>
							/* It is not time to unblock this item yet, but the
							item value is the time at which the task at the head
							of the blocked list must be removed from the Blocked
							state -	so record the item value in
							xNextTaskUnblockTime. */
							xNextTaskUnblockTime = xItemValue;
 802b170:	4a27      	ldr	r2, [pc, #156]	; (802b210 <xTaskIncrementTick+0x104>)
 802b172:	6013      	str	r3, [r2, #0]
							break;
 802b174:	e021      	b.n	802b1ba <xTaskIncrementTick+0xae>
						{
							mtCOVERAGE_TEST_MARKER();
						}

						/* It is time to remove the item from the Blocked state. */
						( void ) uxListRemove( &( pxTCB->xGenericListItem ) );
 802b176:	f105 0904 	add.w	r9, r5, #4
 802b17a:	4648      	mov	r0, r9
 802b17c:	f7ff fb13 	bl	802a7a6 <uxListRemove>

						/* Is the task waiting on an event also?  If so remove
						it from the event list. */
						if( listLIST_ITEM_CONTAINER( &( pxTCB->xEventListItem ) ) != NULL )
 802b180:	6aab      	ldr	r3, [r5, #40]	; 0x28
 802b182:	b11b      	cbz	r3, 802b18c <xTaskIncrementTick+0x80>
						{
							( void ) uxListRemove( &( pxTCB->xEventListItem ) );
 802b184:	f105 0018 	add.w	r0, r5, #24
 802b188:	f7ff fb0d 	bl	802a7a6 <uxListRemove>
							mtCOVERAGE_TEST_MARKER();
						}

						/* Place the unblocked task into the appropriate ready
						list. */
						prvAddTaskToReadyList( pxTCB );
 802b18c:	6aeb      	ldr	r3, [r5, #44]	; 0x2c
 802b18e:	f8d8 1000 	ldr.w	r1, [r8]
 802b192:	2201      	movs	r2, #1
 802b194:	fa02 f203 	lsl.w	r2, r2, r3
 802b198:	2014      	movs	r0, #20
 802b19a:	430a      	orrs	r2, r1
 802b19c:	fb00 a003 	mla	r0, r0, r3, sl
 802b1a0:	4649      	mov	r1, r9
 802b1a2:	f8c8 2000 	str.w	r2, [r8]
 802b1a6:	f7ff fada 	bl	802a75e <vListInsertEnd>
						{
							/* Preemption is on, but a context switch should
							only be performed if the unblocked task has a
							priority that is equal to or higher than the
							currently executing task. */
							if( pxTCB->uxPriority >= pxCurrentTCB->uxPriority )
 802b1aa:	4b1a      	ldr	r3, [pc, #104]	; (802b214 <xTaskIncrementTick+0x108>)
 802b1ac:	6aea      	ldr	r2, [r5, #44]	; 0x2c
 802b1ae:	681b      	ldr	r3, [r3, #0]
 802b1b0:	6adb      	ldr	r3, [r3, #44]	; 0x2c
							{
								xSwitchRequired = pdTRUE;
 802b1b2:	429a      	cmp	r2, r3
 802b1b4:	bf28      	it	cs
 802b1b6:	2401      	movcs	r4, #1
 802b1b8:	e7d1      	b.n	802b15e <xTaskIncrementTick+0x52>
		/* Tasks of equal priority to the currently running task will share
		processing time (time slice) if preemption is on, and the application
		writer has not explicitly turned time slicing off. */
		#if ( ( configUSE_PREEMPTION == 1 ) && ( configUSE_TIME_SLICING == 1 ) )
		{
			if( listCURRENT_LIST_LENGTH( &( pxReadyTasksLists[ pxCurrentTCB->uxPriority ] ) ) > ( UBaseType_t ) 1 )
 802b1ba:	4b16      	ldr	r3, [pc, #88]	; (802b214 <xTaskIncrementTick+0x108>)
 802b1bc:	681b      	ldr	r3, [r3, #0]
 802b1be:	6adb      	ldr	r3, [r3, #44]	; 0x2c
 802b1c0:	2214      	movs	r2, #20
 802b1c2:	4353      	muls	r3, r2
 802b1c4:	4a14      	ldr	r2, [pc, #80]	; (802b218 <xTaskIncrementTick+0x10c>)
 802b1c6:	58d3      	ldr	r3, [r2, r3]
			{
				xSwitchRequired = pdTRUE;
 802b1c8:	2b01      	cmp	r3, #1
 802b1ca:	bf88      	it	hi
 802b1cc:	2401      	movhi	r4, #1
 802b1ce:	e00c      	b.n	802b1ea <xTaskIncrementTick+0xde>
		}
		#endif /* configUSE_TICK_HOOK */
	}
	else
	{
		++uxPendedTicks;
 802b1d0:	4b12      	ldr	r3, [pc, #72]	; (802b21c <xTaskIncrementTick+0x110>)
 802b1d2:	681a      	ldr	r2, [r3, #0]
 802b1d4:	3201      	adds	r2, #1
 802b1d6:	601a      	str	r2, [r3, #0]

BaseType_t xTaskIncrementTick( void )
{
TCB_t * pxTCB;
TickType_t xItemValue;
BaseType_t xSwitchRequired = pdFALSE;
 802b1d8:	2400      	movs	r4, #0
 802b1da:	e006      	b.n	802b1ea <xTaskIncrementTick+0xde>
					{
						/* The delayed list is not empty, get the value of the
						item at the head of the delayed list.  This is the time
						at which the task at the head of the delayed list must
						be removed from the Blocked state. */
						pxTCB = ( TCB_t * ) listGET_OWNER_OF_HEAD_ENTRY( pxDelayedTaskList );
 802b1dc:	683b      	ldr	r3, [r7, #0]
 802b1de:	68db      	ldr	r3, [r3, #12]
 802b1e0:	68dd      	ldr	r5, [r3, #12]
						xItemValue = listGET_LIST_ITEM_VALUE( &( pxTCB->xGenericListItem ) );
 802b1e2:	686b      	ldr	r3, [r5, #4]

						if( xConstTickCount < xItemValue )
 802b1e4:	429e      	cmp	r6, r3
 802b1e6:	d2c6      	bcs.n	802b176 <xTaskIncrementTick+0x6a>
 802b1e8:	e7c2      	b.n	802b170 <xTaskIncrementTick+0x64>
		#endif
	}

	#if ( configUSE_PREEMPTION == 1 )
	{
		if( xYieldPending != pdFALSE )
 802b1ea:	4b0d      	ldr	r3, [pc, #52]	; (802b220 <xTaskIncrementTick+0x114>)
 802b1ec:	681b      	ldr	r3, [r3, #0]
		{
			xSwitchRequired = pdTRUE;
 802b1ee:	2b00      	cmp	r3, #0
 802b1f0:	bf18      	it	ne
 802b1f2:	2401      	movne	r4, #1
		}
	}
	#endif /* configUSE_PREEMPTION */

	return xSwitchRequired;
}
 802b1f4:	4620      	mov	r0, r4
 802b1f6:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}
 802b1fa:	bf00      	nop
 802b1fc:	20000c9c 	.word	0x20000c9c
 802b200:	20000ca0 	.word	0x20000ca0
 802b204:	20000bd4 	.word	0x20000bd4
 802b208:	20000ca4 	.word	0x20000ca4
 802b20c:	20000bd0 	.word	0x20000bd0
 802b210:	20000708 	.word	0x20000708
 802b214:	20000c84 	.word	0x20000c84
 802b218:	20000c0c 	.word	0x20000c0c
 802b21c:	20000c08 	.word	0x20000c08
 802b220:	20000cc8 	.word	0x20000cc8
 802b224:	20000cc4 	.word	0x20000cc4

0802b228 <xTaskResumeAll>:

#endif /* configUSE_TICKLESS_IDLE */
/*----------------------------------------------------------*/

BaseType_t xTaskResumeAll( void )
{
 802b228:	e92d 43f8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
TCB_t *pxTCB;
BaseType_t xAlreadyYielded = pdFALSE;

	/* If uxSchedulerSuspended is zero then this function does not match a
	previous call to vTaskSuspendAll(). */
	configASSERT( uxSchedulerSuspended );
 802b22c:	4c2c      	ldr	r4, [pc, #176]	; (802b2e0 <xTaskResumeAll+0xb8>)
 802b22e:	6823      	ldr	r3, [r4, #0]
 802b230:	b913      	cbnz	r3, 802b238 <xTaskResumeAll+0x10>
 802b232:	f000 fc83 	bl	802bb3c <ulPortSetInterruptMask>
 802b236:	e7fe      	b.n	802b236 <xTaskResumeAll+0xe>
	/* It is possible that an ISR caused a task to be removed from an event
	list while the scheduler was suspended.  If this was the case then the
	removed task will have been added to the xPendingReadyList.  Once the
	scheduler has been resumed it is safe to move all the pending ready
	tasks from this list into their appropriate ready list. */
	taskENTER_CRITICAL();
 802b238:	f000 fc88 	bl	802bb4c <vPortEnterCritical>
	{
		--uxSchedulerSuspended;
 802b23c:	6823      	ldr	r3, [r4, #0]
 802b23e:	3b01      	subs	r3, #1
 802b240:	6023      	str	r3, [r4, #0]

		if( uxSchedulerSuspended == ( UBaseType_t ) pdFALSE )
 802b242:	6823      	ldr	r3, [r4, #0]
 802b244:	b10b      	cbz	r3, 802b24a <xTaskResumeAll+0x22>
/*----------------------------------------------------------*/

BaseType_t xTaskResumeAll( void )
{
TCB_t *pxTCB;
BaseType_t xAlreadyYielded = pdFALSE;
 802b246:	2400      	movs	r4, #0
 802b248:	e044      	b.n	802b2d4 <xTaskResumeAll+0xac>
	{
		--uxSchedulerSuspended;

		if( uxSchedulerSuspended == ( UBaseType_t ) pdFALSE )
		{
			if( uxCurrentNumberOfTasks > ( UBaseType_t ) 0U )
 802b24a:	4b26      	ldr	r3, [pc, #152]	; (802b2e4 <xTaskResumeAll+0xbc>)
 802b24c:	681b      	ldr	r3, [r3, #0]
 802b24e:	bb0b      	cbnz	r3, 802b294 <xTaskResumeAll+0x6c>
 802b250:	e7f9      	b.n	802b246 <xTaskResumeAll+0x1e>
			{
				/* Move any readied tasks from the pending list into the
				appropriate ready list. */
				while( listLIST_IS_EMPTY( &xPendingReadyList ) == pdFALSE )
				{
					pxTCB = ( TCB_t * ) listGET_OWNER_OF_HEAD_ENTRY( ( &xPendingReadyList ) );
 802b252:	68f3      	ldr	r3, [r6, #12]
 802b254:	68dc      	ldr	r4, [r3, #12]
					( void ) uxListRemove( &( pxTCB->xEventListItem ) );
					( void ) uxListRemove( &( pxTCB->xGenericListItem ) );
 802b256:	f104 0804 	add.w	r8, r4, #4
				/* Move any readied tasks from the pending list into the
				appropriate ready list. */
				while( listLIST_IS_EMPTY( &xPendingReadyList ) == pdFALSE )
				{
					pxTCB = ( TCB_t * ) listGET_OWNER_OF_HEAD_ENTRY( ( &xPendingReadyList ) );
					( void ) uxListRemove( &( pxTCB->xEventListItem ) );
 802b25a:	f104 0018 	add.w	r0, r4, #24
 802b25e:	f7ff faa2 	bl	802a7a6 <uxListRemove>
					( void ) uxListRemove( &( pxTCB->xGenericListItem ) );
 802b262:	4640      	mov	r0, r8
 802b264:	f7ff fa9f 	bl	802a7a6 <uxListRemove>
					prvAddTaskToReadyList( pxTCB );
 802b268:	6ae3      	ldr	r3, [r4, #44]	; 0x2c
 802b26a:	682a      	ldr	r2, [r5, #0]
 802b26c:	2701      	movs	r7, #1
 802b26e:	fa07 f103 	lsl.w	r1, r7, r3
 802b272:	2014      	movs	r0, #20
 802b274:	430a      	orrs	r2, r1
 802b276:	fb00 9003 	mla	r0, r0, r3, r9
 802b27a:	4641      	mov	r1, r8
 802b27c:	602a      	str	r2, [r5, #0]
 802b27e:	f7ff fa6e 	bl	802a75e <vListInsertEnd>

					/* If the moved task has a priority higher than the current
					task then a yield must be performed. */
					if( pxTCB->uxPriority >= pxCurrentTCB->uxPriority )
 802b282:	4b19      	ldr	r3, [pc, #100]	; (802b2e8 <xTaskResumeAll+0xc0>)
 802b284:	6ae2      	ldr	r2, [r4, #44]	; 0x2c
 802b286:	681b      	ldr	r3, [r3, #0]
 802b288:	6adb      	ldr	r3, [r3, #44]	; 0x2c
 802b28a:	429a      	cmp	r2, r3
 802b28c:	d306      	bcc.n	802b29c <xTaskResumeAll+0x74>
					{
						xYieldPending = pdTRUE;
 802b28e:	4b17      	ldr	r3, [pc, #92]	; (802b2ec <xTaskResumeAll+0xc4>)
 802b290:	601f      	str	r7, [r3, #0]
 802b292:	e003      	b.n	802b29c <xTaskResumeAll+0x74>
		{
			if( uxCurrentNumberOfTasks > ( UBaseType_t ) 0U )
			{
				/* Move any readied tasks from the pending list into the
				appropriate ready list. */
				while( listLIST_IS_EMPTY( &xPendingReadyList ) == pdFALSE )
 802b294:	4e16      	ldr	r6, [pc, #88]	; (802b2f0 <xTaskResumeAll+0xc8>)
				{
					pxTCB = ( TCB_t * ) listGET_OWNER_OF_HEAD_ENTRY( ( &xPendingReadyList ) );
					( void ) uxListRemove( &( pxTCB->xEventListItem ) );
					( void ) uxListRemove( &( pxTCB->xGenericListItem ) );
					prvAddTaskToReadyList( pxTCB );
 802b296:	4d17      	ldr	r5, [pc, #92]	; (802b2f4 <xTaskResumeAll+0xcc>)
 802b298:	f8df 9060 	ldr.w	r9, [pc, #96]	; 802b2fc <xTaskResumeAll+0xd4>
		{
			if( uxCurrentNumberOfTasks > ( UBaseType_t ) 0U )
			{
				/* Move any readied tasks from the pending list into the
				appropriate ready list. */
				while( listLIST_IS_EMPTY( &xPendingReadyList ) == pdFALSE )
 802b29c:	6833      	ldr	r3, [r6, #0]
 802b29e:	2b00      	cmp	r3, #0
 802b2a0:	d1d7      	bne.n	802b252 <xTaskResumeAll+0x2a>

				/* If any ticks occurred while the scheduler was suspended then
				they should be processed now.  This ensures the tick count does
				not	slip, and that any delayed tasks are resumed at the correct
				time. */
				if( uxPendedTicks > ( UBaseType_t ) 0U )
 802b2a2:	4c15      	ldr	r4, [pc, #84]	; (802b2f8 <xTaskResumeAll+0xd0>)
 802b2a4:	6823      	ldr	r3, [r4, #0]
 802b2a6:	b96b      	cbnz	r3, 802b2c4 <xTaskResumeAll+0x9c>
				else
				{
					mtCOVERAGE_TEST_MARKER();
				}

				if( xYieldPending == pdTRUE )
 802b2a8:	4b10      	ldr	r3, [pc, #64]	; (802b2ec <xTaskResumeAll+0xc4>)
 802b2aa:	681c      	ldr	r4, [r3, #0]
 802b2ac:	2c01      	cmp	r4, #1
 802b2ae:	d1ca      	bne.n	802b246 <xTaskResumeAll+0x1e>
 802b2b0:	e00e      	b.n	802b2d0 <xTaskResumeAll+0xa8>
				time. */
				if( uxPendedTicks > ( UBaseType_t ) 0U )
				{
					while( uxPendedTicks > ( UBaseType_t ) 0U )
					{
						if( xTaskIncrementTick() != pdFALSE )
 802b2b2:	f7ff ff2b 	bl	802b10c <xTaskIncrementTick>
 802b2b6:	b108      	cbz	r0, 802b2bc <xTaskResumeAll+0x94>
						{
							xYieldPending = pdTRUE;
 802b2b8:	2301      	movs	r3, #1
 802b2ba:	6033      	str	r3, [r6, #0]
						}
						else
						{
							mtCOVERAGE_TEST_MARKER();
						}
						--uxPendedTicks;
 802b2bc:	682b      	ldr	r3, [r5, #0]
 802b2be:	3b01      	subs	r3, #1
 802b2c0:	602b      	str	r3, [r5, #0]
 802b2c2:	e001      	b.n	802b2c8 <xTaskResumeAll+0xa0>
				{
					while( uxPendedTicks > ( UBaseType_t ) 0U )
					{
						if( xTaskIncrementTick() != pdFALSE )
						{
							xYieldPending = pdTRUE;
 802b2c4:	4e09      	ldr	r6, [pc, #36]	; (802b2ec <xTaskResumeAll+0xc4>)
 802b2c6:	4625      	mov	r5, r4
				they should be processed now.  This ensures the tick count does
				not	slip, and that any delayed tasks are resumed at the correct
				time. */
				if( uxPendedTicks > ( UBaseType_t ) 0U )
				{
					while( uxPendedTicks > ( UBaseType_t ) 0U )
 802b2c8:	6823      	ldr	r3, [r4, #0]
 802b2ca:	2b00      	cmp	r3, #0
 802b2cc:	d1f1      	bne.n	802b2b2 <xTaskResumeAll+0x8a>
 802b2ce:	e7eb      	b.n	802b2a8 <xTaskResumeAll+0x80>
					#if( configUSE_PREEMPTION != 0 )
					{
						xAlreadyYielded = pdTRUE;
					}
					#endif
					taskYIELD_IF_USING_PREEMPTION();
 802b2d0:	f000 fc28 	bl	802bb24 <vPortYield>
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
	}
	taskEXIT_CRITICAL();
 802b2d4:	f000 fc66 	bl	802bba4 <vPortExitCritical>

	return xAlreadyYielded;
}
 802b2d8:	4620      	mov	r0, r4
 802b2da:	e8bd 83f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, pc}
 802b2de:	bf00      	nop
 802b2e0:	20000c9c 	.word	0x20000c9c
 802b2e4:	20000cac 	.word	0x20000cac
 802b2e8:	20000c84 	.word	0x20000c84
 802b2ec:	20000cc8 	.word	0x20000cc8
 802b2f0:	20000c88 	.word	0x20000c88
 802b2f4:	20000cc4 	.word	0x20000cc4
 802b2f8:	20000c08 	.word	0x20000c08
 802b2fc:	20000c0c 	.word	0x20000c0c

0802b300 <prvIdleTask>:
 *
 * void prvIdleTask( void *pvParameters );
 *
 */
static portTASK_FUNCTION( prvIdleTask, pvParameters )
{
 802b300:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
	{
		BaseType_t xListIsEmpty;

		/* ucTasksDeleted is used to prevent vTaskSuspendAll() being called
		too often in the idle task. */
		while( uxTasksDeleted > ( UBaseType_t ) 0U )
 802b302:	4c14      	ldr	r4, [pc, #80]	; (802b354 <prvIdleTask+0x54>)
		{
			vTaskSuspendAll();
			{
				xListIsEmpty = listLIST_IS_EMPTY( &xTasksWaitingTermination );
 802b304:	4e14      	ldr	r6, [pc, #80]	; (802b358 <prvIdleTask+0x58>)

				taskENTER_CRITICAL();
				{
					pxTCB = ( TCB_t * ) listGET_OWNER_OF_HEAD_ENTRY( ( &xTasksWaitingTermination ) );
					( void ) uxListRemove( &( pxTCB->xGenericListItem ) );
					--uxCurrentNumberOfTasks;
 802b306:	4f15      	ldr	r7, [pc, #84]	; (802b35c <prvIdleTask+0x5c>)
	{
		BaseType_t xListIsEmpty;

		/* ucTasksDeleted is used to prevent vTaskSuspendAll() being called
		too often in the idle task. */
		while( uxTasksDeleted > ( UBaseType_t ) 0U )
 802b308:	6823      	ldr	r3, [r4, #0]
 802b30a:	b1e3      	cbz	r3, 802b346 <prvIdleTask+0x46>
		{
			vTaskSuspendAll();
 802b30c:	f7ff fef0 	bl	802b0f0 <vTaskSuspendAll>
			{
				xListIsEmpty = listLIST_IS_EMPTY( &xTasksWaitingTermination );
 802b310:	6835      	ldr	r5, [r6, #0]
			}
			( void ) xTaskResumeAll();
 802b312:	f7ff ff89 	bl	802b228 <xTaskResumeAll>

			if( xListIsEmpty == pdFALSE )
 802b316:	2d00      	cmp	r5, #0
 802b318:	d0f6      	beq.n	802b308 <prvIdleTask+0x8>
			{
				TCB_t *pxTCB;

				taskENTER_CRITICAL();
 802b31a:	f000 fc17 	bl	802bb4c <vPortEnterCritical>
				{
					pxTCB = ( TCB_t * ) listGET_OWNER_OF_HEAD_ENTRY( ( &xTasksWaitingTermination ) );
 802b31e:	68f3      	ldr	r3, [r6, #12]
 802b320:	68dd      	ldr	r5, [r3, #12]
					( void ) uxListRemove( &( pxTCB->xGenericListItem ) );
 802b322:	1d28      	adds	r0, r5, #4
 802b324:	f7ff fa3f 	bl	802a7a6 <uxListRemove>
					--uxCurrentNumberOfTasks;
 802b328:	683b      	ldr	r3, [r7, #0]
 802b32a:	3b01      	subs	r3, #1
 802b32c:	603b      	str	r3, [r7, #0]
					--uxTasksDeleted;
 802b32e:	6823      	ldr	r3, [r4, #0]
 802b330:	3b01      	subs	r3, #1
 802b332:	6023      	str	r3, [r4, #0]
				}
				taskEXIT_CRITICAL();
 802b334:	f000 fc36 	bl	802bba4 <vPortExitCritical>
				vPortFreeAligned( pxTCB->pxStack );
			}
		}
		#else
		{
			vPortFreeAligned( pxTCB->pxStack );
 802b338:	6b28      	ldr	r0, [r5, #48]	; 0x30
 802b33a:	f000 fd9b 	bl	802be74 <vPortFree>
		}
		#endif

		vPortFree( pxTCB );
 802b33e:	4628      	mov	r0, r5
 802b340:	f000 fd98 	bl	802be74 <vPortFree>
 802b344:	e7e0      	b.n	802b308 <prvIdleTask+0x8>

			A critical region is not required here as we are just reading from
			the list, and an occasional incorrect value will not matter.  If
			the ready list at the idle priority contains more than one task
			then a task other than the idle task is ready to execute. */
			if( listCURRENT_LIST_LENGTH( &( pxReadyTasksLists[ tskIDLE_PRIORITY ] ) ) > ( UBaseType_t ) 1 )
 802b346:	4b06      	ldr	r3, [pc, #24]	; (802b360 <prvIdleTask+0x60>)
 802b348:	681b      	ldr	r3, [r3, #0]
 802b34a:	2b01      	cmp	r3, #1
 802b34c:	d9dc      	bls.n	802b308 <prvIdleTask+0x8>
			{
				taskYIELD();
 802b34e:	f000 fbe9 	bl	802bb24 <vPortYield>
 802b352:	e7d9      	b.n	802b308 <prvIdleTask+0x8>
 802b354:	20000bdc 	.word	0x20000bdc
 802b358:	20000c70 	.word	0x20000c70
 802b35c:	20000cac 	.word	0x20000cac
 802b360:	20000c0c 	.word	0x20000c0c

0802b364 <vTaskDelay>:
/*-----------------------------------------------------------*/

#if ( INCLUDE_vTaskDelay == 1 )

	void vTaskDelay( const TickType_t xTicksToDelay )
	{
 802b364:	b538      	push	{r3, r4, r5, lr}
	TickType_t xTimeToWake;
	BaseType_t xAlreadyYielded = pdFALSE;


		/* A delay time of zero just forces a reschedule. */
		if( xTicksToDelay > ( TickType_t ) 0U )
 802b366:	4604      	mov	r4, r0
 802b368:	b918      	cbnz	r0, 802b372 <vTaskDelay+0xe>
		}
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
	}
 802b36a:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}

		/* Force a reschedule if xTaskResumeAll has not already done so, we may
		have put ourselves to sleep. */
		if( xAlreadyYielded == pdFALSE )
		{
			portYIELD_WITHIN_API();
 802b36e:	f000 bbd9 	b.w	802bb24 <vPortYield>


		/* A delay time of zero just forces a reschedule. */
		if( xTicksToDelay > ( TickType_t ) 0U )
		{
			configASSERT( uxSchedulerSuspended == 0 );
 802b372:	4b11      	ldr	r3, [pc, #68]	; (802b3b8 <vTaskDelay+0x54>)
 802b374:	681b      	ldr	r3, [r3, #0]
 802b376:	b113      	cbz	r3, 802b37e <vTaskDelay+0x1a>
 802b378:	f000 fbe0 	bl	802bb3c <ulPortSetInterruptMask>
 802b37c:	e7fe      	b.n	802b37c <vTaskDelay+0x18>
			vTaskSuspendAll();
 802b37e:	f7ff feb7 	bl	802b0f0 <vTaskSuspendAll>
				This task cannot be in an event list as it is the currently
				executing task. */

				/* Calculate the time to wake - this may overflow but this is
				not a problem. */
				xTimeToWake = xTickCount + xTicksToDelay;
 802b382:	4b0e      	ldr	r3, [pc, #56]	; (802b3bc <vTaskDelay+0x58>)
 802b384:	681d      	ldr	r5, [r3, #0]
 802b386:	1965      	adds	r5, r4, r5

				/* We must remove ourselves from the ready list before adding
				ourselves to the blocked list as the same list item is used for
				both lists. */
				if( uxListRemove( &( pxCurrentTCB->xGenericListItem ) ) == ( UBaseType_t ) 0 )
 802b388:	4c0d      	ldr	r4, [pc, #52]	; (802b3c0 <vTaskDelay+0x5c>)
 802b38a:	6820      	ldr	r0, [r4, #0]
 802b38c:	3004      	adds	r0, #4
 802b38e:	f7ff fa0a 	bl	802a7a6 <uxListRemove>
 802b392:	b948      	cbnz	r0, 802b3a8 <vTaskDelay+0x44>
				{
					/* The current task must be in a ready list, so there is
					no need to check, and the port reset macro can be called
					directly. */
					portRESET_READY_PRIORITY( pxCurrentTCB->uxPriority, uxTopReadyPriority );
 802b394:	4b0b      	ldr	r3, [pc, #44]	; (802b3c4 <vTaskDelay+0x60>)
 802b396:	6819      	ldr	r1, [r3, #0]
 802b398:	6822      	ldr	r2, [r4, #0]
 802b39a:	6ad2      	ldr	r2, [r2, #44]	; 0x2c
 802b39c:	2001      	movs	r0, #1
 802b39e:	fa00 f202 	lsl.w	r2, r0, r2
 802b3a2:	ea21 0202 	bic.w	r2, r1, r2
 802b3a6:	601a      	str	r2, [r3, #0]
				}
				else
				{
					mtCOVERAGE_TEST_MARKER();
				}
				prvAddCurrentTaskToDelayedList( xTimeToWake );
 802b3a8:	4628      	mov	r0, r5
 802b3aa:	f7ff fd19 	bl	802ade0 <prvAddCurrentTaskToDelayedList>
			}
			xAlreadyYielded = xTaskResumeAll();
 802b3ae:	f7ff ff3b 	bl	802b228 <xTaskResumeAll>
			mtCOVERAGE_TEST_MARKER();
		}

		/* Force a reschedule if xTaskResumeAll has not already done so, we may
		have put ourselves to sleep. */
		if( xAlreadyYielded == pdFALSE )
 802b3b2:	2800      	cmp	r0, #0
 802b3b4:	d0d9      	beq.n	802b36a <vTaskDelay+0x6>
		}
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
	}
 802b3b6:	bd38      	pop	{r3, r4, r5, pc}
 802b3b8:	20000c9c 	.word	0x20000c9c
 802b3bc:	20000ca0 	.word	0x20000ca0
 802b3c0:	20000c84 	.word	0x20000c84
 802b3c4:	20000cc4 	.word	0x20000cc4

0802b3c8 <vTaskDelayUntil>:
/*-----------------------------------------------------------*/

#if ( INCLUDE_vTaskDelayUntil == 1 )

	void vTaskDelayUntil( TickType_t * const pxPreviousWakeTime, const TickType_t xTimeIncrement )
	{
 802b3c8:	b570      	push	{r4, r5, r6, lr}
 802b3ca:	460c      	mov	r4, r1
	TickType_t xTimeToWake;
	BaseType_t xAlreadyYielded, xShouldDelay = pdFALSE;

		configASSERT( pxPreviousWakeTime );
 802b3cc:	4605      	mov	r5, r0
 802b3ce:	b910      	cbnz	r0, 802b3d6 <vTaskDelayUntil+0xe>
 802b3d0:	f000 fbb4 	bl	802bb3c <ulPortSetInterruptMask>
 802b3d4:	e7fe      	b.n	802b3d4 <vTaskDelayUntil+0xc>
		configASSERT( ( xTimeIncrement > 0U ) );
 802b3d6:	b911      	cbnz	r1, 802b3de <vTaskDelayUntil+0x16>
 802b3d8:	f000 fbb0 	bl	802bb3c <ulPortSetInterruptMask>
 802b3dc:	e7fe      	b.n	802b3dc <vTaskDelayUntil+0x14>
		configASSERT( uxSchedulerSuspended == 0 );
 802b3de:	4b1c      	ldr	r3, [pc, #112]	; (802b450 <vTaskDelayUntil+0x88>)
 802b3e0:	681e      	ldr	r6, [r3, #0]
 802b3e2:	b116      	cbz	r6, 802b3ea <vTaskDelayUntil+0x22>
 802b3e4:	f000 fbaa 	bl	802bb3c <ulPortSetInterruptMask>
 802b3e8:	e7fe      	b.n	802b3e8 <vTaskDelayUntil+0x20>

		vTaskSuspendAll();
 802b3ea:	f7ff fe81 	bl	802b0f0 <vTaskSuspendAll>
		{
			/* Minor optimisation.  The tick count cannot change in this
			block. */
			const TickType_t xConstTickCount = xTickCount;
 802b3ee:	4b19      	ldr	r3, [pc, #100]	; (802b454 <vTaskDelayUntil+0x8c>)

			/* Generate the tick time at which the task wants to wake. */
			xTimeToWake = *pxPreviousWakeTime + xTimeIncrement;
 802b3f0:	682a      	ldr	r2, [r5, #0]

		vTaskSuspendAll();
		{
			/* Minor optimisation.  The tick count cannot change in this
			block. */
			const TickType_t xConstTickCount = xTickCount;
 802b3f2:	6818      	ldr	r0, [r3, #0]

			/* Generate the tick time at which the task wants to wake. */
			xTimeToWake = *pxPreviousWakeTime + xTimeIncrement;

			if( xConstTickCount < *pxPreviousWakeTime )
 802b3f4:	4290      	cmp	r0, r2
			/* Minor optimisation.  The tick count cannot change in this
			block. */
			const TickType_t xConstTickCount = xTickCount;

			/* Generate the tick time at which the task wants to wake. */
			xTimeToWake = *pxPreviousWakeTime + xTimeIncrement;
 802b3f6:	4414      	add	r4, r2

			if( xConstTickCount < *pxPreviousWakeTime )
 802b3f8:	d202      	bcs.n	802b400 <vTaskDelayUntil+0x38>
				/* The tick count has overflowed since this function was
				lasted called.  In this case the only time we should ever
				actually delay is if the wake time has also	overflowed,
				and the wake time is greater than the tick time.  When this
				is the case it is as if neither time had overflowed. */
				if( ( xTimeToWake < *pxPreviousWakeTime ) && ( xTimeToWake > xConstTickCount ) )
 802b3fa:	4294      	cmp	r4, r2
 802b3fc:	d207      	bcs.n	802b40e <vTaskDelayUntil+0x46>
 802b3fe:	e001      	b.n	802b404 <vTaskDelayUntil+0x3c>
			else
			{
				/* The tick time has not overflowed.  In this case we will
				delay if either the wake time has overflowed, and/or the
				tick time is less than the wake time. */
				if( ( xTimeToWake < *pxPreviousWakeTime ) || ( xTimeToWake > xConstTickCount ) )
 802b400:	4294      	cmp	r4, r2
 802b402:	d306      	bcc.n	802b412 <vTaskDelayUntil+0x4a>
 802b404:	4284      	cmp	r4, r0
 802b406:	bf94      	ite	ls
 802b408:	2300      	movls	r3, #0
 802b40a:	2301      	movhi	r3, #1
 802b40c:	e002      	b.n	802b414 <vTaskDelayUntil+0x4c>
#if ( INCLUDE_vTaskDelayUntil == 1 )

	void vTaskDelayUntil( TickType_t * const pxPreviousWakeTime, const TickType_t xTimeIncrement )
	{
	TickType_t xTimeToWake;
	BaseType_t xAlreadyYielded, xShouldDelay = pdFALSE;
 802b40e:	4633      	mov	r3, r6
 802b410:	e000      	b.n	802b414 <vTaskDelayUntil+0x4c>
				/* The tick time has not overflowed.  In this case we will
				delay if either the wake time has overflowed, and/or the
				tick time is less than the wake time. */
				if( ( xTimeToWake < *pxPreviousWakeTime ) || ( xTimeToWake > xConstTickCount ) )
				{
					xShouldDelay = pdTRUE;
 802b412:	2301      	movs	r3, #1
					mtCOVERAGE_TEST_MARKER();
				}
			}

			/* Update the wake time ready for the next call. */
			*pxPreviousWakeTime = xTimeToWake;
 802b414:	602c      	str	r4, [r5, #0]

			if( xShouldDelay != pdFALSE )
 802b416:	b193      	cbz	r3, 802b43e <vTaskDelayUntil+0x76>
			{
				traceTASK_DELAY_UNTIL();

				/* Remove the task from the ready list before adding it to the
				blocked list as the same list item is used for both lists. */
				if( uxListRemove( &( pxCurrentTCB->xGenericListItem ) ) == ( UBaseType_t ) 0 )
 802b418:	4d0f      	ldr	r5, [pc, #60]	; (802b458 <vTaskDelayUntil+0x90>)
 802b41a:	6828      	ldr	r0, [r5, #0]
 802b41c:	3004      	adds	r0, #4
 802b41e:	f7ff f9c2 	bl	802a7a6 <uxListRemove>
 802b422:	b948      	cbnz	r0, 802b438 <vTaskDelayUntil+0x70>
				{
					/* The current task must be in a ready list, so there is
					no need to check, and the port reset macro can be called
					directly. */
					portRESET_READY_PRIORITY( pxCurrentTCB->uxPriority, uxTopReadyPriority );
 802b424:	4b0d      	ldr	r3, [pc, #52]	; (802b45c <vTaskDelayUntil+0x94>)
 802b426:	6819      	ldr	r1, [r3, #0]
 802b428:	682a      	ldr	r2, [r5, #0]
 802b42a:	6ad2      	ldr	r2, [r2, #44]	; 0x2c
 802b42c:	2001      	movs	r0, #1
 802b42e:	fa00 f202 	lsl.w	r2, r0, r2
 802b432:	ea21 0202 	bic.w	r2, r1, r2
 802b436:	601a      	str	r2, [r3, #0]
				else
				{
					mtCOVERAGE_TEST_MARKER();
				}

				prvAddCurrentTaskToDelayedList( xTimeToWake );
 802b438:	4620      	mov	r0, r4
 802b43a:	f7ff fcd1 	bl	802ade0 <prvAddCurrentTaskToDelayedList>
			else
			{
				mtCOVERAGE_TEST_MARKER();
			}
		}
		xAlreadyYielded = xTaskResumeAll();
 802b43e:	f7ff fef3 	bl	802b228 <xTaskResumeAll>

		/* Force a reschedule if xTaskResumeAll has not already done so, we may
		have put ourselves to sleep. */
		if( xAlreadyYielded == pdFALSE )
 802b442:	b918      	cbnz	r0, 802b44c <vTaskDelayUntil+0x84>
		}
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
	}
 802b444:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}

		/* Force a reschedule if xTaskResumeAll has not already done so, we may
		have put ourselves to sleep. */
		if( xAlreadyYielded == pdFALSE )
		{
			portYIELD_WITHIN_API();
 802b448:	f000 bb6c 	b.w	802bb24 <vPortYield>
 802b44c:	bd70      	pop	{r4, r5, r6, pc}
 802b44e:	bf00      	nop
 802b450:	20000c9c 	.word	0x20000c9c
 802b454:	20000ca0 	.word	0x20000ca0
 802b458:	20000c84 	.word	0x20000c84
 802b45c:	20000cc4 	.word	0x20000cc4

0802b460 <vTaskSwitchContext>:

#endif /* configUSE_APPLICATION_TASK_TAG */
/*-----------------------------------------------------------*/

void vTaskSwitchContext( void )
{
 802b460:	b508      	push	{r3, lr}
	if( uxSchedulerSuspended != ( UBaseType_t ) pdFALSE )
 802b462:	4b12      	ldr	r3, [pc, #72]	; (802b4ac <vTaskSwitchContext+0x4c>)
 802b464:	681a      	ldr	r2, [r3, #0]
 802b466:	4b12      	ldr	r3, [pc, #72]	; (802b4b0 <vTaskSwitchContext+0x50>)
 802b468:	b10a      	cbz	r2, 802b46e <vTaskSwitchContext+0xe>
	{
		/* The scheduler is currently suspended - do not allow a context
		switch. */
		xYieldPending = pdTRUE;
 802b46a:	2201      	movs	r2, #1
 802b46c:	e01c      	b.n	802b4a8 <vTaskSwitchContext+0x48>
	}
	else
	{
		xYieldPending = pdFALSE;
 802b46e:	601a      	str	r2, [r3, #0]
		taskFIRST_CHECK_FOR_STACK_OVERFLOW();
		taskSECOND_CHECK_FOR_STACK_OVERFLOW();

		/* Select a new task to run using either the generic C or port
		optimised asm code. */
		taskSELECT_HIGHEST_PRIORITY_TASK();
 802b470:	4b10      	ldr	r3, [pc, #64]	; (802b4b4 <vTaskSwitchContext+0x54>)
 802b472:	681a      	ldr	r2, [r3, #0]
	/* Generic helper function. */
	__attribute__( ( always_inline ) ) static inline uint8_t ucPortCountLeadingZeros( uint32_t ulBitmap )
	{
	uint8_t ucReturn;

		__asm volatile ( "clz %0, %1" : "=r" ( ucReturn ) : "r" ( ulBitmap ) );
 802b474:	fab2 f282 	clz	r2, r2
 802b478:	b2d2      	uxtb	r2, r2
 802b47a:	2314      	movs	r3, #20
 802b47c:	f1c2 021f 	rsb	r2, r2, #31
 802b480:	490d      	ldr	r1, [pc, #52]	; (802b4b8 <vTaskSwitchContext+0x58>)
 802b482:	435a      	muls	r2, r3
 802b484:	188b      	adds	r3, r1, r2
 802b486:	588a      	ldr	r2, [r1, r2]
 802b488:	b912      	cbnz	r2, 802b490 <vTaskSwitchContext+0x30>
 802b48a:	f000 fb57 	bl	802bb3c <ulPortSetInterruptMask>
 802b48e:	e7fe      	b.n	802b48e <vTaskSwitchContext+0x2e>
 802b490:	685a      	ldr	r2, [r3, #4]
 802b492:	6852      	ldr	r2, [r2, #4]
 802b494:	f103 0108 	add.w	r1, r3, #8
 802b498:	428a      	cmp	r2, r1
 802b49a:	605a      	str	r2, [r3, #4]
 802b49c:	bf04      	itt	eq
 802b49e:	6852      	ldreq	r2, [r2, #4]
 802b4a0:	605a      	streq	r2, [r3, #4]
 802b4a2:	685b      	ldr	r3, [r3, #4]
 802b4a4:	68da      	ldr	r2, [r3, #12]
 802b4a6:	4b05      	ldr	r3, [pc, #20]	; (802b4bc <vTaskSwitchContext+0x5c>)
 802b4a8:	601a      	str	r2, [r3, #0]
 802b4aa:	bd08      	pop	{r3, pc}
 802b4ac:	20000c9c 	.word	0x20000c9c
 802b4b0:	20000cc8 	.word	0x20000cc8
 802b4b4:	20000cc4 	.word	0x20000cc4
 802b4b8:	20000c0c 	.word	0x20000c0c
 802b4bc:	20000c84 	.word	0x20000c84

0802b4c0 <vTaskPlaceOnEventList>:
	}
}
/*-----------------------------------------------------------*/

void vTaskPlaceOnEventList( List_t * const pxEventList, const TickType_t xTicksToWait )
{
 802b4c0:	b538      	push	{r3, r4, r5, lr}
 802b4c2:	460d      	mov	r5, r1
TickType_t xTimeToWake;

	configASSERT( pxEventList );
 802b4c4:	b910      	cbnz	r0, 802b4cc <vTaskPlaceOnEventList+0xc>
 802b4c6:	f000 fb39 	bl	802bb3c <ulPortSetInterruptMask>
 802b4ca:	e7fe      	b.n	802b4ca <vTaskPlaceOnEventList+0xa>

	/* Place the event list item of the TCB in the appropriate event list.
	This is placed in the list in priority order so the highest priority task
	is the first to be woken by the event.  The queue that contains the event
	list is locked, preventing simultaneous access from interrupts. */
	vListInsert( pxEventList, &( pxCurrentTCB->xEventListItem ) );
 802b4cc:	4c12      	ldr	r4, [pc, #72]	; (802b518 <vTaskPlaceOnEventList+0x58>)
 802b4ce:	6821      	ldr	r1, [r4, #0]
 802b4d0:	3118      	adds	r1, #24
 802b4d2:	f7ff f950 	bl	802a776 <vListInsert>

	/* The task must be removed from from the ready list before it is added to
	the blocked list as the same list item is used for both lists.  Exclusive
	access to the ready lists guaranteed because the scheduler is locked. */
	if( uxListRemove( &( pxCurrentTCB->xGenericListItem ) ) == ( UBaseType_t ) 0 )
 802b4d6:	6820      	ldr	r0, [r4, #0]
 802b4d8:	3004      	adds	r0, #4
 802b4da:	f7ff f964 	bl	802a7a6 <uxListRemove>
 802b4de:	b948      	cbnz	r0, 802b4f4 <vTaskPlaceOnEventList+0x34>
	{
		/* The current task must be in a ready list, so there is no need to
		check, and the port reset macro can be called directly. */
		portRESET_READY_PRIORITY( pxCurrentTCB->uxPriority, uxTopReadyPriority );
 802b4e0:	4b0e      	ldr	r3, [pc, #56]	; (802b51c <vTaskPlaceOnEventList+0x5c>)
 802b4e2:	6819      	ldr	r1, [r3, #0]
 802b4e4:	6822      	ldr	r2, [r4, #0]
 802b4e6:	6ad2      	ldr	r2, [r2, #44]	; 0x2c
 802b4e8:	2001      	movs	r0, #1
 802b4ea:	fa00 f202 	lsl.w	r2, r0, r2
 802b4ee:	ea21 0202 	bic.w	r2, r1, r2
 802b4f2:	601a      	str	r2, [r3, #0]
		mtCOVERAGE_TEST_MARKER();
	}

	#if ( INCLUDE_vTaskSuspend == 1 )
	{
		if( xTicksToWait == portMAX_DELAY )
 802b4f4:	1c69      	adds	r1, r5, #1
 802b4f6:	d107      	bne.n	802b508 <vTaskPlaceOnEventList+0x48>
		{
			/* Add the task to the suspended task list instead of a delayed task
			list to ensure the task is not woken by a timing event.  It will
			block indefinitely. */
			vListInsertEnd( &xSuspendedTaskList, &( pxCurrentTCB->xGenericListItem ) );
 802b4f8:	4b07      	ldr	r3, [pc, #28]	; (802b518 <vTaskPlaceOnEventList+0x58>)
 802b4fa:	4809      	ldr	r0, [pc, #36]	; (802b520 <vTaskPlaceOnEventList+0x60>)
 802b4fc:	6819      	ldr	r1, [r3, #0]
 802b4fe:	3104      	adds	r1, #4
			will handle it. */
			xTimeToWake = xTickCount + xTicksToWait;
			prvAddCurrentTaskToDelayedList( xTimeToWake );
	}
	#endif /* INCLUDE_vTaskSuspend */
}
 802b500:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
		if( xTicksToWait == portMAX_DELAY )
		{
			/* Add the task to the suspended task list instead of a delayed task
			list to ensure the task is not woken by a timing event.  It will
			block indefinitely. */
			vListInsertEnd( &xSuspendedTaskList, &( pxCurrentTCB->xGenericListItem ) );
 802b504:	f7ff b92b 	b.w	802a75e <vListInsertEnd>
		else
		{
			/* Calculate the time at which the task should be woken if the event
			does not occur.  This may overflow but this doesn't matter, the
			scheduler will handle it. */
			xTimeToWake = xTickCount + xTicksToWait;
 802b508:	4b06      	ldr	r3, [pc, #24]	; (802b524 <vTaskPlaceOnEventList+0x64>)
 802b50a:	6818      	ldr	r0, [r3, #0]
			prvAddCurrentTaskToDelayedList( xTimeToWake );
 802b50c:	1828      	adds	r0, r5, r0
			will handle it. */
			xTimeToWake = xTickCount + xTicksToWait;
			prvAddCurrentTaskToDelayedList( xTimeToWake );
	}
	#endif /* INCLUDE_vTaskSuspend */
}
 802b50e:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
		{
			/* Calculate the time at which the task should be woken if the event
			does not occur.  This may overflow but this doesn't matter, the
			scheduler will handle it. */
			xTimeToWake = xTickCount + xTicksToWait;
			prvAddCurrentTaskToDelayedList( xTimeToWake );
 802b512:	f7ff bc65 	b.w	802ade0 <prvAddCurrentTaskToDelayedList>
 802b516:	bf00      	nop
 802b518:	20000c84 	.word	0x20000c84
 802b51c:	20000cc4 	.word	0x20000cc4
 802b520:	20000cb0 	.word	0x20000cb0
 802b524:	20000ca0 	.word	0x20000ca0

0802b528 <vTaskPlaceOnEventListRestricted>:
/*-----------------------------------------------------------*/

#if configUSE_TIMERS == 1

	void vTaskPlaceOnEventListRestricted( List_t * const pxEventList, const TickType_t xTicksToWait )
	{
 802b528:	b538      	push	{r3, r4, r5, lr}
 802b52a:	460d      	mov	r5, r1
	TickType_t xTimeToWake;

		configASSERT( pxEventList );
 802b52c:	b910      	cbnz	r0, 802b534 <vTaskPlaceOnEventListRestricted+0xc>
 802b52e:	f000 fb05 	bl	802bb3c <ulPortSetInterruptMask>
 802b532:	e7fe      	b.n	802b532 <vTaskPlaceOnEventListRestricted+0xa>

		/* Place the event list item of the TCB in the appropriate event list.
		In this case it is assume that this is the only task that is going to
		be waiting on this event list, so the faster vListInsertEnd() function
		can be used in place of vListInsert. */
		vListInsertEnd( pxEventList, &( pxCurrentTCB->xEventListItem ) );
 802b534:	4c0d      	ldr	r4, [pc, #52]	; (802b56c <vTaskPlaceOnEventListRestricted+0x44>)
 802b536:	6821      	ldr	r1, [r4, #0]
 802b538:	3118      	adds	r1, #24
 802b53a:	f7ff f910 	bl	802a75e <vListInsertEnd>

		/* We must remove this task from the ready list before adding it to the
		blocked list as the same list item is used for both lists.  This
		function is called form a critical section. */
		if( uxListRemove( &( pxCurrentTCB->xGenericListItem ) ) == ( UBaseType_t ) 0 )
 802b53e:	6820      	ldr	r0, [r4, #0]
 802b540:	3004      	adds	r0, #4
 802b542:	f7ff f930 	bl	802a7a6 <uxListRemove>
 802b546:	b948      	cbnz	r0, 802b55c <vTaskPlaceOnEventListRestricted+0x34>
		{
			/* The current task must be in a ready list, so there is no need to
			check, and the port reset macro can be called directly. */
			portRESET_READY_PRIORITY( pxCurrentTCB->uxPriority, uxTopReadyPriority );
 802b548:	4b09      	ldr	r3, [pc, #36]	; (802b570 <vTaskPlaceOnEventListRestricted+0x48>)
 802b54a:	6819      	ldr	r1, [r3, #0]
 802b54c:	6822      	ldr	r2, [r4, #0]
 802b54e:	6ad2      	ldr	r2, [r2, #44]	; 0x2c
 802b550:	2001      	movs	r0, #1
 802b552:	fa00 f202 	lsl.w	r2, r0, r2
 802b556:	ea21 0202 	bic.w	r2, r1, r2
 802b55a:	601a      	str	r2, [r3, #0]
			mtCOVERAGE_TEST_MARKER();
		}

		/* Calculate the time at which the task should be woken if the event does
		not occur.  This may overflow but this doesn't matter. */
		xTimeToWake = xTickCount + xTicksToWait;
 802b55c:	4b05      	ldr	r3, [pc, #20]	; (802b574 <vTaskPlaceOnEventListRestricted+0x4c>)
 802b55e:	6818      	ldr	r0, [r3, #0]

		traceTASK_DELAY_UNTIL();
		prvAddCurrentTaskToDelayedList( xTimeToWake );
 802b560:	1828      	adds	r0, r5, r0
	}
 802b562:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
		/* Calculate the time at which the task should be woken if the event does
		not occur.  This may overflow but this doesn't matter. */
		xTimeToWake = xTickCount + xTicksToWait;

		traceTASK_DELAY_UNTIL();
		prvAddCurrentTaskToDelayedList( xTimeToWake );
 802b566:	f7ff bc3b 	b.w	802ade0 <prvAddCurrentTaskToDelayedList>
 802b56a:	bf00      	nop
 802b56c:	20000c84 	.word	0x20000c84
 802b570:	20000cc4 	.word	0x20000cc4
 802b574:	20000ca0 	.word	0x20000ca0

0802b578 <xTaskRemoveFromEventList>:

#endif /* configUSE_TIMERS */
/*-----------------------------------------------------------*/

BaseType_t xTaskRemoveFromEventList( const List_t * const pxEventList )
{
 802b578:	b538      	push	{r3, r4, r5, lr}
	get called - the lock count on the queue will get modified instead.  This
	means exclusive access to the event list is guaranteed here.

	This function assumes that a check has already been made to ensure that
	pxEventList is not empty. */
	pxUnblockedTCB = ( TCB_t * ) listGET_OWNER_OF_HEAD_ENTRY( pxEventList );
 802b57a:	68c3      	ldr	r3, [r0, #12]
 802b57c:	68dc      	ldr	r4, [r3, #12]
	configASSERT( pxUnblockedTCB );
 802b57e:	b914      	cbnz	r4, 802b586 <xTaskRemoveFromEventList+0xe>
 802b580:	f000 fadc 	bl	802bb3c <ulPortSetInterruptMask>
 802b584:	e7fe      	b.n	802b584 <xTaskRemoveFromEventList+0xc>
	( void ) uxListRemove( &( pxUnblockedTCB->xEventListItem ) );
 802b586:	f104 0518 	add.w	r5, r4, #24
 802b58a:	4628      	mov	r0, r5
 802b58c:	f7ff f90b 	bl	802a7a6 <uxListRemove>

	if( uxSchedulerSuspended == ( UBaseType_t ) pdFALSE )
 802b590:	4b11      	ldr	r3, [pc, #68]	; (802b5d8 <xTaskRemoveFromEventList+0x60>)
 802b592:	681b      	ldr	r3, [r3, #0]
 802b594:	b983      	cbnz	r3, 802b5b8 <xTaskRemoveFromEventList+0x40>
	{
		( void ) uxListRemove( &( pxUnblockedTCB->xGenericListItem ) );
 802b596:	1d25      	adds	r5, r4, #4
 802b598:	4628      	mov	r0, r5
 802b59a:	f7ff f904 	bl	802a7a6 <uxListRemove>
		prvAddTaskToReadyList( pxUnblockedTCB );
 802b59e:	4a0f      	ldr	r2, [pc, #60]	; (802b5dc <xTaskRemoveFromEventList+0x64>)
 802b5a0:	6ae3      	ldr	r3, [r4, #44]	; 0x2c
 802b5a2:	6810      	ldr	r0, [r2, #0]
 802b5a4:	2101      	movs	r1, #1
 802b5a6:	fa01 f103 	lsl.w	r1, r1, r3
 802b5aa:	4301      	orrs	r1, r0
 802b5ac:	6011      	str	r1, [r2, #0]
 802b5ae:	4a0c      	ldr	r2, [pc, #48]	; (802b5e0 <xTaskRemoveFromEventList+0x68>)
 802b5b0:	2014      	movs	r0, #20
 802b5b2:	fb00 2003 	mla	r0, r0, r3, r2
 802b5b6:	e000      	b.n	802b5ba <xTaskRemoveFromEventList+0x42>
	}
	else
	{
		/* The delayed and ready lists cannot be accessed, so hold this task
		pending until the scheduler is resumed. */
		vListInsertEnd( &( xPendingReadyList ), &( pxUnblockedTCB->xEventListItem ) );
 802b5b8:	480a      	ldr	r0, [pc, #40]	; (802b5e4 <xTaskRemoveFromEventList+0x6c>)
 802b5ba:	4629      	mov	r1, r5
 802b5bc:	f7ff f8cf 	bl	802a75e <vListInsertEnd>
	}

	if( pxUnblockedTCB->uxPriority > pxCurrentTCB->uxPriority )
 802b5c0:	4b09      	ldr	r3, [pc, #36]	; (802b5e8 <xTaskRemoveFromEventList+0x70>)
 802b5c2:	6ae2      	ldr	r2, [r4, #44]	; 0x2c
 802b5c4:	681b      	ldr	r3, [r3, #0]
 802b5c6:	6adb      	ldr	r3, [r3, #44]	; 0x2c
 802b5c8:	429a      	cmp	r2, r3
 802b5ca:	d903      	bls.n	802b5d4 <xTaskRemoveFromEventList+0x5c>
		it should force a context switch now. */
		xReturn = pdTRUE;

		/* Mark that a yield is pending in case the user is not using the
		"xHigherPriorityTaskWoken" parameter to an ISR safe FreeRTOS function. */
		xYieldPending = pdTRUE;
 802b5cc:	4b07      	ldr	r3, [pc, #28]	; (802b5ec <xTaskRemoveFromEventList+0x74>)
 802b5ce:	2001      	movs	r0, #1
 802b5d0:	6018      	str	r0, [r3, #0]
 802b5d2:	bd38      	pop	{r3, r4, r5, pc}
	}
	else
	{
		xReturn = pdFALSE;
 802b5d4:	2000      	movs	r0, #0
		prvResetNextTaskUnblockTime();
	}
	#endif

	return xReturn;
}
 802b5d6:	bd38      	pop	{r3, r4, r5, pc}
 802b5d8:	20000c9c 	.word	0x20000c9c
 802b5dc:	20000cc4 	.word	0x20000cc4
 802b5e0:	20000c0c 	.word	0x20000c0c
 802b5e4:	20000c88 	.word	0x20000c88
 802b5e8:	20000c84 	.word	0x20000c84
 802b5ec:	20000cc8 	.word	0x20000cc8

0802b5f0 <vTaskSetTimeOutState>:
	return xReturn;
}
/*-----------------------------------------------------------*/

void vTaskSetTimeOutState( TimeOut_t * const pxTimeOut )
{
 802b5f0:	b508      	push	{r3, lr}
	configASSERT( pxTimeOut );
 802b5f2:	b910      	cbnz	r0, 802b5fa <vTaskSetTimeOutState+0xa>
 802b5f4:	f000 faa2 	bl	802bb3c <ulPortSetInterruptMask>
 802b5f8:	e7fe      	b.n	802b5f8 <vTaskSetTimeOutState+0x8>
	pxTimeOut->xOverflowCount = xNumOfOverflows;
 802b5fa:	4b03      	ldr	r3, [pc, #12]	; (802b608 <vTaskSetTimeOutState+0x18>)
 802b5fc:	681b      	ldr	r3, [r3, #0]
 802b5fe:	6003      	str	r3, [r0, #0]
	pxTimeOut->xTimeOnEntering = xTickCount;
 802b600:	4b02      	ldr	r3, [pc, #8]	; (802b60c <vTaskSetTimeOutState+0x1c>)
 802b602:	681b      	ldr	r3, [r3, #0]
 802b604:	6043      	str	r3, [r0, #4]
 802b606:	bd08      	pop	{r3, pc}
 802b608:	20000bd0 	.word	0x20000bd0
 802b60c:	20000ca0 	.word	0x20000ca0

0802b610 <xTaskCheckForTimeOut>:
}
/*-----------------------------------------------------------*/

BaseType_t xTaskCheckForTimeOut( TimeOut_t * const pxTimeOut, TickType_t * const pxTicksToWait )
{
 802b610:	b538      	push	{r3, r4, r5, lr}
 802b612:	460d      	mov	r5, r1
BaseType_t xReturn;

	configASSERT( pxTimeOut );
 802b614:	4604      	mov	r4, r0
 802b616:	b910      	cbnz	r0, 802b61e <xTaskCheckForTimeOut+0xe>
 802b618:	f000 fa90 	bl	802bb3c <ulPortSetInterruptMask>
 802b61c:	e7fe      	b.n	802b61c <xTaskCheckForTimeOut+0xc>
	configASSERT( pxTicksToWait );
 802b61e:	b911      	cbnz	r1, 802b626 <xTaskCheckForTimeOut+0x16>
 802b620:	f000 fa8c 	bl	802bb3c <ulPortSetInterruptMask>
 802b624:	e7fe      	b.n	802b624 <xTaskCheckForTimeOut+0x14>

	taskENTER_CRITICAL();
 802b626:	f000 fa91 	bl	802bb4c <vPortEnterCritical>
	{
		/* Minor optimisation.  The tick count cannot change in this block. */
		const TickType_t xConstTickCount = xTickCount;
 802b62a:	4b0e      	ldr	r3, [pc, #56]	; (802b664 <xTaskCheckForTimeOut+0x54>)
 802b62c:	681a      	ldr	r2, [r3, #0]

		#if ( INCLUDE_vTaskSuspend == 1 )
			/* If INCLUDE_vTaskSuspend is set to 1 and the block time specified is
			the maximum block time then the task should block indefinitely, and
			therefore never time out. */
			if( *pxTicksToWait == portMAX_DELAY )
 802b62e:	682b      	ldr	r3, [r5, #0]
 802b630:	1c59      	adds	r1, r3, #1
 802b632:	d010      	beq.n	802b656 <xTaskCheckForTimeOut+0x46>
				xReturn = pdFALSE;
			}
			else /* We are not blocking indefinitely, perform the checks below. */
		#endif

		if( ( xNumOfOverflows != pxTimeOut->xOverflowCount ) && ( xConstTickCount >= pxTimeOut->xTimeOnEntering ) ) /*lint !e525 Indentation preferred as is to make code within pre-processor directives clearer. */
 802b634:	490c      	ldr	r1, [pc, #48]	; (802b668 <xTaskCheckForTimeOut+0x58>)
 802b636:	6808      	ldr	r0, [r1, #0]
 802b638:	6821      	ldr	r1, [r4, #0]
 802b63a:	4288      	cmp	r0, r1
 802b63c:	6861      	ldr	r1, [r4, #4]
 802b63e:	d001      	beq.n	802b644 <xTaskCheckForTimeOut+0x34>
 802b640:	428a      	cmp	r2, r1
 802b642:	d20a      	bcs.n	802b65a <xTaskCheckForTimeOut+0x4a>
			was called, but has also overflowed since vTaskSetTimeOut() was called.
			It must have wrapped all the way around and gone past us again. This
			passed since vTaskSetTimeout() was called. */
			xReturn = pdTRUE;
		}
		else if( ( xConstTickCount - pxTimeOut->xTimeOnEntering ) < *pxTicksToWait )
 802b644:	1a50      	subs	r0, r2, r1
 802b646:	4298      	cmp	r0, r3
 802b648:	d207      	bcs.n	802b65a <xTaskCheckForTimeOut+0x4a>
		{
			/* Not a genuine timeout. Adjust parameters for time remaining. */
			*pxTicksToWait -= ( xConstTickCount -  pxTimeOut->xTimeOnEntering );
 802b64a:	1a8a      	subs	r2, r1, r2
 802b64c:	18d3      	adds	r3, r2, r3
 802b64e:	602b      	str	r3, [r5, #0]
			vTaskSetTimeOutState( pxTimeOut );
 802b650:	4620      	mov	r0, r4
 802b652:	f7ff ffcd 	bl	802b5f0 <vTaskSetTimeOutState>
			/* If INCLUDE_vTaskSuspend is set to 1 and the block time specified is
			the maximum block time then the task should block indefinitely, and
			therefore never time out. */
			if( *pxTicksToWait == portMAX_DELAY )
			{
				xReturn = pdFALSE;
 802b656:	2400      	movs	r4, #0
 802b658:	e000      	b.n	802b65c <xTaskCheckForTimeOut+0x4c>
		{
			/* The tick count is greater than the time at which vTaskSetTimeout()
			was called, but has also overflowed since vTaskSetTimeOut() was called.
			It must have wrapped all the way around and gone past us again. This
			passed since vTaskSetTimeout() was called. */
			xReturn = pdTRUE;
 802b65a:	2401      	movs	r4, #1
		else
		{
			xReturn = pdTRUE;
		}
	}
	taskEXIT_CRITICAL();
 802b65c:	f000 faa2 	bl	802bba4 <vPortExitCritical>

	return xReturn;
}
 802b660:	4620      	mov	r0, r4
 802b662:	bd38      	pop	{r3, r4, r5, pc}
 802b664:	20000ca0 	.word	0x20000ca0
 802b668:	20000bd0 	.word	0x20000bd0

0802b66c <vTaskMissedYield>:
/*-----------------------------------------------------------*/

void vTaskMissedYield( void )
{
	xYieldPending = pdTRUE;
 802b66c:	4b01      	ldr	r3, [pc, #4]	; (802b674 <vTaskMissedYield+0x8>)
 802b66e:	2201      	movs	r2, #1
 802b670:	601a      	str	r2, [r3, #0]
 802b672:	4770      	bx	lr
 802b674:	20000cc8 	.word	0x20000cc8

0802b678 <xTaskGetSchedulerState>:

	BaseType_t xTaskGetSchedulerState( void )
	{
	BaseType_t xReturn;

		if( xSchedulerRunning == pdFALSE )
 802b678:	4b05      	ldr	r3, [pc, #20]	; (802b690 <xTaskGetSchedulerState+0x18>)
 802b67a:	681b      	ldr	r3, [r3, #0]
 802b67c:	b133      	cbz	r3, 802b68c <xTaskGetSchedulerState+0x14>
		{
			xReturn = taskSCHEDULER_NOT_STARTED;
		}
		else
		{
			if( uxSchedulerSuspended == ( UBaseType_t ) pdFALSE )
 802b67e:	4b05      	ldr	r3, [pc, #20]	; (802b694 <xTaskGetSchedulerState+0x1c>)
 802b680:	6818      	ldr	r0, [r3, #0]
			{
				xReturn = taskSCHEDULER_RUNNING;
 802b682:	2800      	cmp	r0, #0
 802b684:	bf0c      	ite	eq
 802b686:	2002      	moveq	r0, #2
 802b688:	2000      	movne	r0, #0
 802b68a:	4770      	bx	lr
	{
	BaseType_t xReturn;

		if( xSchedulerRunning == pdFALSE )
		{
			xReturn = taskSCHEDULER_NOT_STARTED;
 802b68c:	2001      	movs	r0, #1
				xReturn = taskSCHEDULER_SUSPENDED;
			}
		}

		return xReturn;
	}
 802b68e:	4770      	bx	lr
 802b690:	20000bd8 	.word	0x20000bd8
 802b694:	20000c9c 	.word	0x20000c9c

0802b698 <vTaskPriorityInherit>:
/*-----------------------------------------------------------*/

#if ( configUSE_MUTEXES == 1 )

	void vTaskPriorityInherit( TaskHandle_t const pxMutexHolder )
	{
 802b698:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
	TCB_t * const pxTCB = ( TCB_t * ) pxMutexHolder;

		/* If the mutex was given back by an interrupt while the queue was
		locked then the mutex holder might now be NULL. */
		if( pxMutexHolder != NULL )
 802b69a:	4604      	mov	r4, r0
 802b69c:	2800      	cmp	r0, #0
 802b69e:	d040      	beq.n	802b722 <vTaskPriorityInherit+0x8a>
		{
			if( pxTCB->uxPriority < pxCurrentTCB->uxPriority )
 802b6a0:	4a20      	ldr	r2, [pc, #128]	; (802b724 <vTaskPriorityInherit+0x8c>)
 802b6a2:	6ac3      	ldr	r3, [r0, #44]	; 0x2c
 802b6a4:	6811      	ldr	r1, [r2, #0]
 802b6a6:	6ac9      	ldr	r1, [r1, #44]	; 0x2c
 802b6a8:	428b      	cmp	r3, r1
 802b6aa:	d23a      	bcs.n	802b722 <vTaskPriorityInherit+0x8a>
			{
				/* Adjust the mutex holder state to account for its new
				priority.  Only reset the event list item value if the value is
				not	being used for anything else. */
				if( ( listGET_LIST_ITEM_VALUE( &( pxTCB->xEventListItem ) ) & taskEVENT_LIST_ITEM_VALUE_IN_USE ) == 0UL )
 802b6ac:	6981      	ldr	r1, [r0, #24]
 802b6ae:	2900      	cmp	r1, #0
 802b6b0:	db04      	blt.n	802b6bc <vTaskPriorityInherit+0x24>
				{
					listSET_LIST_ITEM_VALUE( &( pxTCB->xEventListItem ), ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) pxCurrentTCB->uxPriority ); /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
 802b6b2:	6812      	ldr	r2, [r2, #0]
 802b6b4:	6ad2      	ldr	r2, [r2, #44]	; 0x2c
 802b6b6:	f1c2 0205 	rsb	r2, r2, #5
 802b6ba:	6182      	str	r2, [r0, #24]
					mtCOVERAGE_TEST_MARKER();
				}

				/* If the task being modified is in the ready state it will need to
				be moved into a new list. */
				if( listIS_CONTAINED_WITHIN( &( pxReadyTasksLists[ pxTCB->uxPriority ] ), &( pxTCB->xGenericListItem ) ) != pdFALSE )
 802b6bc:	4e1a      	ldr	r6, [pc, #104]	; (802b728 <vTaskPriorityInherit+0x90>)
 802b6be:	6962      	ldr	r2, [r4, #20]
 802b6c0:	2714      	movs	r7, #20
 802b6c2:	fb07 6303 	mla	r3, r7, r3, r6
 802b6c6:	429a      	cmp	r2, r3
 802b6c8:	d127      	bne.n	802b71a <vTaskPriorityInherit+0x82>
 802b6ca:	e01f      	b.n	802b70c <vTaskPriorityInherit+0x74>
				{
					if( uxListRemove( &( pxTCB->xGenericListItem ) ) == ( UBaseType_t ) 0 )
					{
						taskRESET_READY_PRIORITY( pxTCB->uxPriority );
 802b6cc:	6ae2      	ldr	r2, [r4, #44]	; 0x2c
 802b6ce:	4357      	muls	r7, r2
 802b6d0:	59f3      	ldr	r3, [r6, r7]
 802b6d2:	b93b      	cbnz	r3, 802b6e4 <vTaskPriorityInherit+0x4c>
 802b6d4:	4b15      	ldr	r3, [pc, #84]	; (802b72c <vTaskPriorityInherit+0x94>)
 802b6d6:	2001      	movs	r0, #1
 802b6d8:	6819      	ldr	r1, [r3, #0]
 802b6da:	fa00 f202 	lsl.w	r2, r0, r2
 802b6de:	ea21 0202 	bic.w	r2, r1, r2
 802b6e2:	601a      	str	r2, [r3, #0]
					{
						mtCOVERAGE_TEST_MARKER();
					}

					/* Inherit the priority before being moved into the new list. */
					pxTCB->uxPriority = pxCurrentTCB->uxPriority;
 802b6e4:	4b0f      	ldr	r3, [pc, #60]	; (802b724 <vTaskPriorityInherit+0x8c>)
					prvAddTaskToReadyList( pxTCB );
 802b6e6:	4a11      	ldr	r2, [pc, #68]	; (802b72c <vTaskPriorityInherit+0x94>)
					{
						mtCOVERAGE_TEST_MARKER();
					}

					/* Inherit the priority before being moved into the new list. */
					pxTCB->uxPriority = pxCurrentTCB->uxPriority;
 802b6e8:	681b      	ldr	r3, [r3, #0]
					prvAddTaskToReadyList( pxTCB );
 802b6ea:	6810      	ldr	r0, [r2, #0]
					{
						mtCOVERAGE_TEST_MARKER();
					}

					/* Inherit the priority before being moved into the new list. */
					pxTCB->uxPriority = pxCurrentTCB->uxPriority;
 802b6ec:	6adb      	ldr	r3, [r3, #44]	; 0x2c
					prvAddTaskToReadyList( pxTCB );
 802b6ee:	2101      	movs	r1, #1
 802b6f0:	fa01 f103 	lsl.w	r1, r1, r3
 802b6f4:	4301      	orrs	r1, r0
 802b6f6:	6011      	str	r1, [r2, #0]
 802b6f8:	4a0b      	ldr	r2, [pc, #44]	; (802b728 <vTaskPriorityInherit+0x90>)
					{
						mtCOVERAGE_TEST_MARKER();
					}

					/* Inherit the priority before being moved into the new list. */
					pxTCB->uxPriority = pxCurrentTCB->uxPriority;
 802b6fa:	62e3      	str	r3, [r4, #44]	; 0x2c
					prvAddTaskToReadyList( pxTCB );
 802b6fc:	2014      	movs	r0, #20
 802b6fe:	fb00 2003 	mla	r0, r0, r3, r2
 802b702:	4629      	mov	r1, r5
		}
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
	}
 802b704:	e8bd 40f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, lr}
						mtCOVERAGE_TEST_MARKER();
					}

					/* Inherit the priority before being moved into the new list. */
					pxTCB->uxPriority = pxCurrentTCB->uxPriority;
					prvAddTaskToReadyList( pxTCB );
 802b708:	f7ff b829 	b.w	802a75e <vListInsertEnd>

				/* If the task being modified is in the ready state it will need to
				be moved into a new list. */
				if( listIS_CONTAINED_WITHIN( &( pxReadyTasksLists[ pxTCB->uxPriority ] ), &( pxTCB->xGenericListItem ) ) != pdFALSE )
				{
					if( uxListRemove( &( pxTCB->xGenericListItem ) ) == ( UBaseType_t ) 0 )
 802b70c:	1d25      	adds	r5, r4, #4
 802b70e:	4628      	mov	r0, r5
 802b710:	f7ff f849 	bl	802a7a6 <uxListRemove>
 802b714:	2800      	cmp	r0, #0
 802b716:	d0d9      	beq.n	802b6cc <vTaskPriorityInherit+0x34>
 802b718:	e7e4      	b.n	802b6e4 <vTaskPriorityInherit+0x4c>
					prvAddTaskToReadyList( pxTCB );
				}
				else
				{
					/* Just inherit the priority. */
					pxTCB->uxPriority = pxCurrentTCB->uxPriority;
 802b71a:	4b02      	ldr	r3, [pc, #8]	; (802b724 <vTaskPriorityInherit+0x8c>)
 802b71c:	681b      	ldr	r3, [r3, #0]
 802b71e:	6adb      	ldr	r3, [r3, #44]	; 0x2c
 802b720:	62e3      	str	r3, [r4, #44]	; 0x2c
 802b722:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 802b724:	20000c84 	.word	0x20000c84
 802b728:	20000c0c 	.word	0x20000c0c
 802b72c:	20000cc4 	.word	0x20000cc4

0802b730 <xTaskPriorityDisinherit>:
/*-----------------------------------------------------------*/

#if ( configUSE_MUTEXES == 1 )

	BaseType_t xTaskPriorityDisinherit( TaskHandle_t const pxMutexHolder )
	{
 802b730:	b538      	push	{r3, r4, r5, lr}
	TCB_t * const pxTCB = ( TCB_t * ) pxMutexHolder;
	BaseType_t xReturn = pdFALSE;

		if( pxMutexHolder != NULL )
 802b732:	4604      	mov	r4, r0
 802b734:	b908      	cbnz	r0, 802b73a <xTaskPriorityDisinherit+0xa>
#if ( configUSE_MUTEXES == 1 )

	BaseType_t xTaskPriorityDisinherit( TaskHandle_t const pxMutexHolder )
	{
	TCB_t * const pxTCB = ( TCB_t * ) pxMutexHolder;
	BaseType_t xReturn = pdFALSE;
 802b736:	2000      	movs	r0, #0
 802b738:	bd38      	pop	{r3, r4, r5, pc}

		if( pxMutexHolder != NULL )
		{
			configASSERT( pxTCB->uxMutexesHeld );
 802b73a:	6d03      	ldr	r3, [r0, #80]	; 0x50
 802b73c:	b913      	cbnz	r3, 802b744 <xTaskPriorityDisinherit+0x14>
 802b73e:	f000 f9fd 	bl	802bb3c <ulPortSetInterruptMask>
 802b742:	e7fe      	b.n	802b742 <xTaskPriorityDisinherit+0x12>
			( pxTCB->uxMutexesHeld )--;

			if( pxTCB->uxPriority != pxTCB->uxBasePriority )
 802b744:	6ac1      	ldr	r1, [r0, #44]	; 0x2c
 802b746:	6cc2      	ldr	r2, [r0, #76]	; 0x4c
	BaseType_t xReturn = pdFALSE;

		if( pxMutexHolder != NULL )
		{
			configASSERT( pxTCB->uxMutexesHeld );
			( pxTCB->uxMutexesHeld )--;
 802b748:	3b01      	subs	r3, #1

			if( pxTCB->uxPriority != pxTCB->uxBasePriority )
 802b74a:	4291      	cmp	r1, r2
	BaseType_t xReturn = pdFALSE;

		if( pxMutexHolder != NULL )
		{
			configASSERT( pxTCB->uxMutexesHeld );
			( pxTCB->uxMutexesHeld )--;
 802b74c:	6503      	str	r3, [r0, #80]	; 0x50

			if( pxTCB->uxPriority != pxTCB->uxBasePriority )
 802b74e:	d0f2      	beq.n	802b736 <xTaskPriorityDisinherit+0x6>
			{
				/* Only disinherit if no other mutexes are held. */
				if( pxTCB->uxMutexesHeld == ( UBaseType_t ) 0 )
 802b750:	2b00      	cmp	r3, #0
 802b752:	d1f0      	bne.n	802b736 <xTaskPriorityDisinherit+0x6>
					/* A task can only have an inhertied priority if it holds
					the mutex.  If the mutex is held by a task then it cannot be
					given from an interrupt, and if a mutex is given by the
					holding	task then it must be the running state task.  Remove
					the	holding task from the ready	list. */
					if( uxListRemove( &( pxTCB->xGenericListItem ) ) == ( UBaseType_t ) 0 )
 802b754:	1d05      	adds	r5, r0, #4
 802b756:	4628      	mov	r0, r5
 802b758:	f7ff f825 	bl	802a7a6 <uxListRemove>
 802b75c:	b968      	cbnz	r0, 802b77a <xTaskPriorityDisinherit+0x4a>
					{
						taskRESET_READY_PRIORITY( pxTCB->uxPriority );
 802b75e:	6ae2      	ldr	r2, [r4, #44]	; 0x2c
 802b760:	4910      	ldr	r1, [pc, #64]	; (802b7a4 <xTaskPriorityDisinherit+0x74>)
 802b762:	2314      	movs	r3, #20
 802b764:	4353      	muls	r3, r2
 802b766:	58cb      	ldr	r3, [r1, r3]
 802b768:	b93b      	cbnz	r3, 802b77a <xTaskPriorityDisinherit+0x4a>
 802b76a:	4b0f      	ldr	r3, [pc, #60]	; (802b7a8 <xTaskPriorityDisinherit+0x78>)
 802b76c:	2001      	movs	r0, #1
 802b76e:	6819      	ldr	r1, [r3, #0]
 802b770:	fa00 f202 	lsl.w	r2, r0, r2
 802b774:	ea21 0202 	bic.w	r2, r1, r2
 802b778:	601a      	str	r2, [r3, #0]
					}

					/* Disinherit the priority before adding the task into the
					new	ready list. */
					traceTASK_PRIORITY_DISINHERIT( pxTCB, pxTCB->uxBasePriority );
					pxTCB->uxPriority = pxTCB->uxBasePriority;
 802b77a:	6ce3      	ldr	r3, [r4, #76]	; 0x4c

					/* Reset the event list item value.  It cannot be in use for
					any other purpose if this task is running, and it must be
					running to give back the mutex. */
					listSET_LIST_ITEM_VALUE( &( pxTCB->xEventListItem ), ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) pxTCB->uxPriority ); /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
 802b77c:	f1c3 0205 	rsb	r2, r3, #5
 802b780:	61a2      	str	r2, [r4, #24]
					prvAddTaskToReadyList( pxTCB );
 802b782:	4a09      	ldr	r2, [pc, #36]	; (802b7a8 <xTaskPriorityDisinherit+0x78>)
					}

					/* Disinherit the priority before adding the task into the
					new	ready list. */
					traceTASK_PRIORITY_DISINHERIT( pxTCB, pxTCB->uxBasePriority );
					pxTCB->uxPriority = pxTCB->uxBasePriority;
 802b784:	62e3      	str	r3, [r4, #44]	; 0x2c

					/* Reset the event list item value.  It cannot be in use for
					any other purpose if this task is running, and it must be
					running to give back the mutex. */
					listSET_LIST_ITEM_VALUE( &( pxTCB->xEventListItem ), ( TickType_t ) configMAX_PRIORITIES - ( TickType_t ) pxTCB->uxPriority ); /*lint !e961 MISRA exception as the casts are only redundant for some ports. */
					prvAddTaskToReadyList( pxTCB );
 802b786:	6811      	ldr	r1, [r2, #0]
 802b788:	2401      	movs	r4, #1
 802b78a:	fa04 f003 	lsl.w	r0, r4, r3
 802b78e:	4301      	orrs	r1, r0
 802b790:	6011      	str	r1, [r2, #0]
 802b792:	4a04      	ldr	r2, [pc, #16]	; (802b7a4 <xTaskPriorityDisinherit+0x74>)
 802b794:	2014      	movs	r0, #20
 802b796:	fb00 2003 	mla	r0, r0, r3, r2
 802b79a:	4629      	mov	r1, r5
 802b79c:	f7fe ffdf 	bl	802a75e <vListInsertEnd>
					in an order different to that in which they were taken.
					If a context switch did not occur when the first mutex was
					returned, even if a task was waiting on it, then a context
					switch should occur when the last mutex is returned whether
					a task is waiting on it or not. */
					xReturn = pdTRUE;
 802b7a0:	4620      	mov	r0, r4
		{
			mtCOVERAGE_TEST_MARKER();
		}

		return xReturn;
	}
 802b7a2:	bd38      	pop	{r3, r4, r5, pc}
 802b7a4:	20000c0c 	.word	0x20000c0c
 802b7a8:	20000cc4 	.word	0x20000cc4

0802b7ac <pvTaskIncrementMutexHeldCount>:

	void *pvTaskIncrementMutexHeldCount( void )
	{
		/* If xSemaphoreCreateMutex() is called before any tasks have been created
		then pxCurrentTCB will be NULL. */
		if( pxCurrentTCB != NULL )
 802b7ac:	4b04      	ldr	r3, [pc, #16]	; (802b7c0 <pvTaskIncrementMutexHeldCount+0x14>)
 802b7ae:	681a      	ldr	r2, [r3, #0]
 802b7b0:	b11a      	cbz	r2, 802b7ba <pvTaskIncrementMutexHeldCount+0xe>
		{
			( pxCurrentTCB->uxMutexesHeld )++;
 802b7b2:	681a      	ldr	r2, [r3, #0]
 802b7b4:	6d11      	ldr	r1, [r2, #80]	; 0x50
 802b7b6:	3101      	adds	r1, #1
 802b7b8:	6511      	str	r1, [r2, #80]	; 0x50
		}

		return pxCurrentTCB;
 802b7ba:	6818      	ldr	r0, [r3, #0]
	}
 802b7bc:	4770      	bx	lr
 802b7be:	bf00      	nop
 802b7c0:	20000c84 	.word	0x20000c84

0802b7c4 <prvCheckForValidListAndQueue>:
	pxOverflowTimerList = pxTemp;
}
/*-----------------------------------------------------------*/

static void prvCheckForValidListAndQueue( void )
{
 802b7c4:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
	/* Check that the list from which active timers are referenced, and the
	queue used to communicate with the timer service, have been
	initialised. */
	taskENTER_CRITICAL();
	{
		if( xTimerQueue == NULL )
 802b7c6:	4c0f      	ldr	r4, [pc, #60]	; (802b804 <prvCheckForValidListAndQueue+0x40>)
static void prvCheckForValidListAndQueue( void )
{
	/* Check that the list from which active timers are referenced, and the
	queue used to communicate with the timer service, have been
	initialised. */
	taskENTER_CRITICAL();
 802b7c8:	f000 f9c0 	bl	802bb4c <vPortEnterCritical>
	{
		if( xTimerQueue == NULL )
 802b7cc:	6825      	ldr	r5, [r4, #0]
 802b7ce:	b9ad      	cbnz	r5, 802b7fc <prvCheckForValidListAndQueue+0x38>
		{
			vListInitialise( &xActiveTimerList1 );
 802b7d0:	4f0d      	ldr	r7, [pc, #52]	; (802b808 <prvCheckForValidListAndQueue+0x44>)
			vListInitialise( &xActiveTimerList2 );
 802b7d2:	4e0e      	ldr	r6, [pc, #56]	; (802b80c <prvCheckForValidListAndQueue+0x48>)
	initialised. */
	taskENTER_CRITICAL();
	{
		if( xTimerQueue == NULL )
		{
			vListInitialise( &xActiveTimerList1 );
 802b7d4:	4638      	mov	r0, r7
 802b7d6:	f7fe ffb4 	bl	802a742 <vListInitialise>
			vListInitialise( &xActiveTimerList2 );
 802b7da:	4630      	mov	r0, r6
 802b7dc:	f7fe ffb1 	bl	802a742 <vListInitialise>
			pxCurrentTimerList = &xActiveTimerList1;
 802b7e0:	4b0b      	ldr	r3, [pc, #44]	; (802b810 <prvCheckForValidListAndQueue+0x4c>)
 802b7e2:	601f      	str	r7, [r3, #0]
			pxOverflowTimerList = &xActiveTimerList2;
 802b7e4:	4b0b      	ldr	r3, [pc, #44]	; (802b814 <prvCheckForValidListAndQueue+0x50>)
			xTimerQueue = xQueueCreate( ( UBaseType_t ) configTIMER_QUEUE_LENGTH, sizeof( DaemonTaskMessage_t ) );
 802b7e6:	200a      	movs	r0, #10
 802b7e8:	210c      	movs	r1, #12
 802b7ea:	462a      	mov	r2, r5
		if( xTimerQueue == NULL )
		{
			vListInitialise( &xActiveTimerList1 );
			vListInitialise( &xActiveTimerList2 );
			pxCurrentTimerList = &xActiveTimerList1;
			pxOverflowTimerList = &xActiveTimerList2;
 802b7ec:	601e      	str	r6, [r3, #0]
			xTimerQueue = xQueueCreate( ( UBaseType_t ) configTIMER_QUEUE_LENGTH, sizeof( DaemonTaskMessage_t ) );
 802b7ee:	f7ff f899 	bl	802a924 <xQueueGenericCreate>
 802b7f2:	6020      	str	r0, [r4, #0]
			configASSERT( xTimerQueue );
 802b7f4:	b910      	cbnz	r0, 802b7fc <prvCheckForValidListAndQueue+0x38>
 802b7f6:	f000 f9a1 	bl	802bb3c <ulPortSetInterruptMask>
 802b7fa:	e7fe      	b.n	802b7fa <prvCheckForValidListAndQueue+0x36>
		{
			mtCOVERAGE_TEST_MARKER();
		}
	}
	taskEXIT_CRITICAL();
}
 802b7fc:	e8bd 40f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, lr}
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
	}
	taskEXIT_CRITICAL();
 802b800:	f000 b9d0 	b.w	802bba4 <vPortExitCritical>
 802b804:	20000cfc 	.word	0x20000cfc
 802b808:	20000cd0 	.word	0x20000cd0
 802b80c:	20000ce4 	.word	0x20000ce4
 802b810:	20000ccc 	.word	0x20000ccc
 802b814:	20000d00 	.word	0x20000d00

0802b818 <prvInsertTimerInActiveList>:
	return xTimeNow;
}
/*-----------------------------------------------------------*/

static BaseType_t prvInsertTimerInActiveList( Timer_t * const pxTimer, const TickType_t xNextExpiryTime, const TickType_t xTimeNow, const TickType_t xCommandTime )
{
 802b818:	b510      	push	{r4, lr}
 802b81a:	4604      	mov	r4, r0
BaseType_t xProcessTimerNow = pdFALSE;

	listSET_LIST_ITEM_VALUE( &( pxTimer->xTimerListItem ), xNextExpiryTime );
	listSET_LIST_ITEM_OWNER( &( pxTimer->xTimerListItem ), pxTimer );

	if( xNextExpiryTime <= xTimeNow )
 802b81c:	4291      	cmp	r1, r2

static BaseType_t prvInsertTimerInActiveList( Timer_t * const pxTimer, const TickType_t xNextExpiryTime, const TickType_t xTimeNow, const TickType_t xCommandTime )
{
BaseType_t xProcessTimerNow = pdFALSE;

	listSET_LIST_ITEM_VALUE( &( pxTimer->xTimerListItem ), xNextExpiryTime );
 802b81e:	6041      	str	r1, [r0, #4]
	listSET_LIST_ITEM_OWNER( &( pxTimer->xTimerListItem ), pxTimer );
 802b820:	6120      	str	r0, [r4, #16]

	if( xNextExpiryTime <= xTimeNow )
 802b822:	d805      	bhi.n	802b830 <prvInsertTimerInActiveList+0x18>
	{
		/* Has the expiry time elapsed between the command to start/reset a
		timer was issued, and the time the command was processed? */
		if( ( xTimeNow - xCommandTime ) >= pxTimer->xTimerPeriodInTicks )
 802b824:	6981      	ldr	r1, [r0, #24]
 802b826:	1ad2      	subs	r2, r2, r3
 802b828:	428a      	cmp	r2, r1
 802b82a:	d20c      	bcs.n	802b846 <prvInsertTimerInActiveList+0x2e>
			processed actually exceeds the timers period.  */
			xProcessTimerNow = pdTRUE;
		}
		else
		{
			vListInsert( pxOverflowTimerList, &( pxTimer->xTimerListItem ) );
 802b82c:	4b07      	ldr	r3, [pc, #28]	; (802b84c <prvInsertTimerInActiveList+0x34>)
 802b82e:	e004      	b.n	802b83a <prvInsertTimerInActiveList+0x22>
		}
	}
	else
	{
		if( ( xTimeNow < xCommandTime ) && ( xNextExpiryTime >= xCommandTime ) )
 802b830:	429a      	cmp	r2, r3
 802b832:	d201      	bcs.n	802b838 <prvInsertTimerInActiveList+0x20>
 802b834:	4299      	cmp	r1, r3
 802b836:	d206      	bcs.n	802b846 <prvInsertTimerInActiveList+0x2e>
			its expiry time and should be processed immediately. */
			xProcessTimerNow = pdTRUE;
		}
		else
		{
			vListInsert( pxCurrentTimerList, &( pxTimer->xTimerListItem ) );
 802b838:	4b05      	ldr	r3, [pc, #20]	; (802b850 <prvInsertTimerInActiveList+0x38>)
 802b83a:	6818      	ldr	r0, [r3, #0]
 802b83c:	1d21      	adds	r1, r4, #4
 802b83e:	f7fe ff9a 	bl	802a776 <vListInsert>
}
/*-----------------------------------------------------------*/

static BaseType_t prvInsertTimerInActiveList( Timer_t * const pxTimer, const TickType_t xNextExpiryTime, const TickType_t xTimeNow, const TickType_t xCommandTime )
{
BaseType_t xProcessTimerNow = pdFALSE;
 802b842:	2000      	movs	r0, #0
 802b844:	bd10      	pop	{r4, pc}
		timer was issued, and the time the command was processed? */
		if( ( xTimeNow - xCommandTime ) >= pxTimer->xTimerPeriodInTicks )
		{
			/* The time between a command being issued and the command being
			processed actually exceeds the timers period.  */
			xProcessTimerNow = pdTRUE;
 802b846:	2001      	movs	r0, #1
			vListInsert( pxCurrentTimerList, &( pxTimer->xTimerListItem ) );
		}
	}

	return xProcessTimerNow;
}
 802b848:	bd10      	pop	{r4, pc}
 802b84a:	bf00      	nop
 802b84c:	20000d00 	.word	0x20000d00
 802b850:	20000ccc 	.word	0x20000ccc

0802b854 <xTimerCreateTimerTask>:
static void prvProcessTimerOrBlockTask( const TickType_t xNextExpireTime, const BaseType_t xListWasEmpty ) PRIVILEGED_FUNCTION;

/*-----------------------------------------------------------*/

BaseType_t xTimerCreateTimerTask( void )
{
 802b854:	b51f      	push	{r0, r1, r2, r3, r4, lr}

	/* This function is called when the scheduler is started if
	configUSE_TIMERS is set to 1.  Check that the infrastructure used by the
	timer service task has been created/initialised.  If timers have already
	been created then the initialisation will already have been performed. */
	prvCheckForValidListAndQueue();
 802b856:	f7ff ffb5 	bl	802b7c4 <prvCheckForValidListAndQueue>

	if( xTimerQueue != NULL )
 802b85a:	4b0b      	ldr	r3, [pc, #44]	; (802b888 <xTimerCreateTimerTask+0x34>)
 802b85c:	681b      	ldr	r3, [r3, #0]
 802b85e:	b913      	cbnz	r3, 802b866 <xTimerCreateTimerTask+0x12>
	else
	{
		mtCOVERAGE_TEST_MARKER();
	}

	configASSERT( xReturn );
 802b860:	f000 f96c 	bl	802bb3c <ulPortSetInterruptMask>
 802b864:	e00d      	b.n	802b882 <xTimerCreateTimerTask+0x2e>
			xReturn = xTaskCreate( prvTimerTask, "Tmr Svc", ( uint16_t ) configTIMER_TASK_STACK_DEPTH, NULL, ( ( UBaseType_t ) configTIMER_TASK_PRIORITY ) | portPRIVILEGE_BIT, &xTimerTaskHandle );
		}
		#else
		{
			/* Create the timer task without storing its handle. */
			xReturn = xTaskCreate( prvTimerTask, "Tmr Svc", ( uint16_t ) configTIMER_TASK_STACK_DEPTH, NULL, ( ( UBaseType_t ) configTIMER_TASK_PRIORITY ) | portPRIVILEGE_BIT, NULL);
 802b866:	2302      	movs	r3, #2
 802b868:	9300      	str	r3, [sp, #0]
 802b86a:	2300      	movs	r3, #0
 802b86c:	9301      	str	r3, [sp, #4]
 802b86e:	9302      	str	r3, [sp, #8]
 802b870:	9303      	str	r3, [sp, #12]
 802b872:	4806      	ldr	r0, [pc, #24]	; (802b88c <xTimerCreateTimerTask+0x38>)
 802b874:	4906      	ldr	r1, [pc, #24]	; (802b890 <xTimerCreateTimerTask+0x3c>)
 802b876:	f44f 7280 	mov.w	r2, #256	; 0x100
 802b87a:	f7ff fad9 	bl	802ae30 <xTaskGenericCreate>
	else
	{
		mtCOVERAGE_TEST_MARKER();
	}

	configASSERT( xReturn );
 802b87e:	b908      	cbnz	r0, 802b884 <xTimerCreateTimerTask+0x30>
 802b880:	e7ee      	b.n	802b860 <xTimerCreateTimerTask+0xc>
 802b882:	e7fe      	b.n	802b882 <xTimerCreateTimerTask+0x2e>
	return xReturn;
}
 802b884:	b005      	add	sp, #20
 802b886:	bd00      	pop	{pc}
 802b888:	20000cfc 	.word	0x20000cfc
 802b88c:	0802b94d 	.word	0x0802b94d
 802b890:	08038dd0 	.word	0x08038dd0

0802b894 <xTimerGenericCommand>:
	return ( TimerHandle_t ) pxNewTimer;
}
/*-----------------------------------------------------------*/

BaseType_t xTimerGenericCommand( TimerHandle_t xTimer, const BaseType_t xCommandID, const TickType_t xOptionalValue, BaseType_t * const pxHigherPriorityTaskWoken, const TickType_t xTicksToWait )
{
 802b894:	b530      	push	{r4, r5, lr}
BaseType_t xReturn = pdFAIL;
DaemonTaskMessage_t xMessage;

	/* Send a message to the timer service task to perform a particular action
	on a particular timer definition. */
	if( xTimerQueue != NULL )
 802b896:	4c0f      	ldr	r4, [pc, #60]	; (802b8d4 <xTimerGenericCommand+0x40>)
	return ( TimerHandle_t ) pxNewTimer;
}
/*-----------------------------------------------------------*/

BaseType_t xTimerGenericCommand( TimerHandle_t xTimer, const BaseType_t xCommandID, const TickType_t xOptionalValue, BaseType_t * const pxHigherPriorityTaskWoken, const TickType_t xTicksToWait )
{
 802b898:	4605      	mov	r5, r0
BaseType_t xReturn = pdFAIL;
DaemonTaskMessage_t xMessage;

	/* Send a message to the timer service task to perform a particular action
	on a particular timer definition. */
	if( xTimerQueue != NULL )
 802b89a:	6820      	ldr	r0, [r4, #0]
	return ( TimerHandle_t ) pxNewTimer;
}
/*-----------------------------------------------------------*/

BaseType_t xTimerGenericCommand( TimerHandle_t xTimer, const BaseType_t xCommandID, const TickType_t xOptionalValue, BaseType_t * const pxHigherPriorityTaskWoken, const TickType_t xTicksToWait )
{
 802b89c:	b085      	sub	sp, #20
BaseType_t xReturn = pdFAIL;
DaemonTaskMessage_t xMessage;

	/* Send a message to the timer service task to perform a particular action
	on a particular timer definition. */
	if( xTimerQueue != NULL )
 802b89e:	b1b8      	cbz	r0, 802b8d0 <xTimerGenericCommand+0x3c>
		/* Send a command to the timer service task to start the xTimer timer. */
		xMessage.xMessageID = xCommandID;
		xMessage.u.xTimerParameters.xMessageValue = xOptionalValue;
		xMessage.u.xTimerParameters.pxTimer = ( Timer_t * ) xTimer;

		if( xCommandID < tmrFIRST_FROM_ISR_COMMAND )
 802b8a0:	2905      	cmp	r1, #5
	/* Send a message to the timer service task to perform a particular action
	on a particular timer definition. */
	if( xTimerQueue != NULL )
	{
		/* Send a command to the timer service task to start the xTimer timer. */
		xMessage.xMessageID = xCommandID;
 802b8a2:	9101      	str	r1, [sp, #4]
		xMessage.u.xTimerParameters.xMessageValue = xOptionalValue;
 802b8a4:	9202      	str	r2, [sp, #8]
		xMessage.u.xTimerParameters.pxTimer = ( Timer_t * ) xTimer;
 802b8a6:	9503      	str	r5, [sp, #12]

		if( xCommandID < tmrFIRST_FROM_ISR_COMMAND )
 802b8a8:	dc0d      	bgt.n	802b8c6 <xTimerGenericCommand+0x32>
		{
			if( xTaskGetSchedulerState() == taskSCHEDULER_RUNNING )
 802b8aa:	f7ff fee5 	bl	802b678 <xTaskGetSchedulerState>
 802b8ae:	2802      	cmp	r0, #2
			{
				xReturn = xQueueSendToBack( xTimerQueue, &xMessage, xTicksToWait );
 802b8b0:	a901      	add	r1, sp, #4
 802b8b2:	6820      	ldr	r0, [r4, #0]
		xMessage.u.xTimerParameters.xMessageValue = xOptionalValue;
		xMessage.u.xTimerParameters.pxTimer = ( Timer_t * ) xTimer;

		if( xCommandID < tmrFIRST_FROM_ISR_COMMAND )
		{
			if( xTaskGetSchedulerState() == taskSCHEDULER_RUNNING )
 802b8b4:	d102      	bne.n	802b8bc <xTimerGenericCommand+0x28>
			{
				xReturn = xQueueSendToBack( xTimerQueue, &xMessage, xTicksToWait );
 802b8b6:	9a08      	ldr	r2, [sp, #32]
 802b8b8:	2300      	movs	r3, #0
 802b8ba:	e001      	b.n	802b8c0 <xTimerGenericCommand+0x2c>
			}
			else
			{
				xReturn = xQueueSendToBack( xTimerQueue, &xMessage, tmrNO_DELAY );
 802b8bc:	2200      	movs	r2, #0
 802b8be:	4613      	mov	r3, r2
 802b8c0:	f7ff f86d 	bl	802a99e <xQueueGenericSend>
 802b8c4:	e004      	b.n	802b8d0 <xTimerGenericCommand+0x3c>
			}
		}
		else
		{
			xReturn = xQueueSendToBackFromISR( xTimerQueue, &xMessage, pxHigherPriorityTaskWoken );
 802b8c6:	461a      	mov	r2, r3
 802b8c8:	a901      	add	r1, sp, #4
 802b8ca:	2300      	movs	r3, #0
 802b8cc:	f7ff f92b 	bl	802ab26 <xQueueGenericSendFromISR>
	{
		mtCOVERAGE_TEST_MARKER();
	}

	return xReturn;
}
 802b8d0:	b005      	add	sp, #20
 802b8d2:	bd30      	pop	{r4, r5, pc}
 802b8d4:	20000cfc 	.word	0x20000cfc

0802b8d8 <prvSwitchTimerLists>:
	}
}
/*-----------------------------------------------------------*/

static void prvSwitchTimerLists( void )
{
 802b8d8:	e92d 41f3 	stmdb	sp!, {r0, r1, r4, r5, r6, r7, r8, lr}

	/* The tick count has overflowed.  The timer lists must be switched.
	If there are any timers still referenced from the current timer list
	then they must have expired and should be processed before the lists
	are switched. */
	while( listLIST_IS_EMPTY( pxCurrentTimerList ) == pdFALSE )
 802b8dc:	4e19      	ldr	r6, [pc, #100]	; (802b944 <prvSwitchTimerLists+0x6c>)
				listSET_LIST_ITEM_OWNER( &( pxTimer->xTimerListItem ), pxTimer );
				vListInsert( pxCurrentTimerList, &( pxTimer->xTimerListItem ) );
			}
			else
			{
				xResult = xTimerGenericCommand( pxTimer, tmrCOMMAND_START_DONT_TRACE, xNextExpireTime, NULL, tmrNO_DELAY );
 802b8de:	f04f 0800 	mov.w	r8, #0
 802b8e2:	e023      	b.n	802b92c <prvSwitchTimerLists+0x54>
	If there are any timers still referenced from the current timer list
	then they must have expired and should be processed before the lists
	are switched. */
	while( listLIST_IS_EMPTY( pxCurrentTimerList ) == pdFALSE )
	{
		xNextExpireTime = listGET_ITEM_VALUE_OF_HEAD_ENTRY( pxCurrentTimerList );
 802b8e4:	68db      	ldr	r3, [r3, #12]

		/* Remove the timer from the list. */
		pxTimer = ( Timer_t * ) listGET_OWNER_OF_HEAD_ENTRY( pxCurrentTimerList );
 802b8e6:	68dc      	ldr	r4, [r3, #12]
	If there are any timers still referenced from the current timer list
	then they must have expired and should be processed before the lists
	are switched. */
	while( listLIST_IS_EMPTY( pxCurrentTimerList ) == pdFALSE )
	{
		xNextExpireTime = listGET_ITEM_VALUE_OF_HEAD_ENTRY( pxCurrentTimerList );
 802b8e8:	681d      	ldr	r5, [r3, #0]

		/* Remove the timer from the list. */
		pxTimer = ( Timer_t * ) listGET_OWNER_OF_HEAD_ENTRY( pxCurrentTimerList );
		( void ) uxListRemove( &( pxTimer->xTimerListItem ) );
 802b8ea:	1d27      	adds	r7, r4, #4
 802b8ec:	4638      	mov	r0, r7
 802b8ee:	f7fe ff5a 	bl	802a7a6 <uxListRemove>
		traceTIMER_EXPIRED( pxTimer );

		/* Execute its callback, then send a command to restart the timer if
		it is an auto-reload timer.  It cannot be restarted here as the lists
		have not yet been switched. */
		pxTimer->pxCallbackFunction( ( TimerHandle_t ) pxTimer );
 802b8f2:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802b8f4:	4620      	mov	r0, r4
 802b8f6:	4798      	blx	r3

		if( pxTimer->uxAutoReload == ( UBaseType_t ) pdTRUE )
 802b8f8:	69e3      	ldr	r3, [r4, #28]
 802b8fa:	2b01      	cmp	r3, #1
 802b8fc:	d116      	bne.n	802b92c <prvSwitchTimerLists+0x54>
			the timer going into the same timer list then it has already expired
			and the timer should be re-inserted into the current list so it is
			processed again within this loop.  Otherwise a command should be sent
			to restart the timer to ensure it is only inserted into a list after
			the lists have been swapped. */
			xReloadTime = ( xNextExpireTime + pxTimer->xTimerPeriodInTicks );
 802b8fe:	69a3      	ldr	r3, [r4, #24]
 802b900:	18eb      	adds	r3, r5, r3
			if( xReloadTime > xNextExpireTime )
 802b902:	42ab      	cmp	r3, r5
 802b904:	d906      	bls.n	802b914 <prvSwitchTimerLists+0x3c>
			{
				listSET_LIST_ITEM_VALUE( &( pxTimer->xTimerListItem ), xReloadTime );
 802b906:	6063      	str	r3, [r4, #4]
				listSET_LIST_ITEM_OWNER( &( pxTimer->xTimerListItem ), pxTimer );
 802b908:	6124      	str	r4, [r4, #16]
				vListInsert( pxCurrentTimerList, &( pxTimer->xTimerListItem ) );
 802b90a:	6830      	ldr	r0, [r6, #0]
 802b90c:	4639      	mov	r1, r7
 802b90e:	f7fe ff32 	bl	802a776 <vListInsert>
 802b912:	e00b      	b.n	802b92c <prvSwitchTimerLists+0x54>
			}
			else
			{
				xResult = xTimerGenericCommand( pxTimer, tmrCOMMAND_START_DONT_TRACE, xNextExpireTime, NULL, tmrNO_DELAY );
 802b914:	2100      	movs	r1, #0
 802b916:	f8cd 8000 	str.w	r8, [sp]
 802b91a:	4620      	mov	r0, r4
 802b91c:	462a      	mov	r2, r5
 802b91e:	460b      	mov	r3, r1
 802b920:	f7ff ffb8 	bl	802b894 <xTimerGenericCommand>
				configASSERT( xResult );
 802b924:	b910      	cbnz	r0, 802b92c <prvSwitchTimerLists+0x54>
 802b926:	f000 f909 	bl	802bb3c <ulPortSetInterruptMask>
 802b92a:	e7fe      	b.n	802b92a <prvSwitchTimerLists+0x52>

	/* The tick count has overflowed.  The timer lists must be switched.
	If there are any timers still referenced from the current timer list
	then they must have expired and should be processed before the lists
	are switched. */
	while( listLIST_IS_EMPTY( pxCurrentTimerList ) == pdFALSE )
 802b92c:	6833      	ldr	r3, [r6, #0]
 802b92e:	681a      	ldr	r2, [r3, #0]
 802b930:	2a00      	cmp	r2, #0
 802b932:	d1d7      	bne.n	802b8e4 <prvSwitchTimerLists+0xc>
			mtCOVERAGE_TEST_MARKER();
		}
	}

	pxTemp = pxCurrentTimerList;
	pxCurrentTimerList = pxOverflowTimerList;
 802b934:	4a04      	ldr	r2, [pc, #16]	; (802b948 <prvSwitchTimerLists+0x70>)
 802b936:	4803      	ldr	r0, [pc, #12]	; (802b944 <prvSwitchTimerLists+0x6c>)
 802b938:	6811      	ldr	r1, [r2, #0]
	pxOverflowTimerList = pxTemp;
 802b93a:	6013      	str	r3, [r2, #0]
			mtCOVERAGE_TEST_MARKER();
		}
	}

	pxTemp = pxCurrentTimerList;
	pxCurrentTimerList = pxOverflowTimerList;
 802b93c:	6001      	str	r1, [r0, #0]
	pxOverflowTimerList = pxTemp;
}
 802b93e:	e8bd 81fc 	ldmia.w	sp!, {r2, r3, r4, r5, r6, r7, r8, pc}
 802b942:	bf00      	nop
 802b944:	20000ccc 	.word	0x20000ccc
 802b948:	20000d00 	.word	0x20000d00

0802b94c <prvTimerTask>:
	pxTimer->pxCallbackFunction( ( TimerHandle_t ) pxTimer );
}
/*-----------------------------------------------------------*/

static void prvTimerTask( void *pvParameters )
{
 802b94c:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
TickType_t xTimeNow;
PRIVILEGED_DATA static TickType_t xLastTime = ( TickType_t ) 0U; /*lint !e956 Variable is only accessible to one task. */

	xTimeNow = xTaskGetTickCount();

	if( xTimeNow < xLastTime )
 802b950:	f8df 816c 	ldr.w	r8, [pc, #364]	; 802bac0 <prvTimerTask+0x174>
	pxTimer->pxCallbackFunction( ( TimerHandle_t ) pxTimer );
}
/*-----------------------------------------------------------*/

static void prvTimerTask( void *pvParameters )
{
 802b954:	b087      	sub	sp, #28
 802b956:	46c1      	mov	r9, r8
	the timer with the nearest expiry time will expire.  If there are no
	active timers then just set the next expire time to 0.  That will cause
	this task to unblock when the tick count overflows, at which point the
	timer lists will be switched and the next expiry time can be
	re-assessed.  */
	*pxListWasEmpty = listLIST_IS_EMPTY( pxCurrentTimerList );
 802b958:	4b57      	ldr	r3, [pc, #348]	; (802bab8 <prvTimerTask+0x16c>)
 802b95a:	681b      	ldr	r3, [r3, #0]
 802b95c:	681f      	ldr	r7, [r3, #0]
 802b95e:	f1d7 0701 	rsbs	r7, r7, #1
 802b962:	bf38      	it	cc
 802b964:	2700      	movcc	r7, #0
	if( *pxListWasEmpty == pdFALSE )
 802b966:	b917      	cbnz	r7, 802b96e <prvTimerTask+0x22>
	{
		xNextExpireTime = listGET_ITEM_VALUE_OF_HEAD_ENTRY( pxCurrentTimerList );
 802b968:	68db      	ldr	r3, [r3, #12]
 802b96a:	681d      	ldr	r5, [r3, #0]
 802b96c:	e000      	b.n	802b970 <prvTimerTask+0x24>
	}
	else
	{
		/* Ensure the task unblocks when the tick count rolls over. */
		xNextExpireTime = ( TickType_t ) 0U;
 802b96e:	2500      	movs	r5, #0
static void prvProcessTimerOrBlockTask( const TickType_t xNextExpireTime, const BaseType_t xListWasEmpty )
{
TickType_t xTimeNow;
BaseType_t xTimerListsWereSwitched;

	vTaskSuspendAll();
 802b970:	f7ff fbbe 	bl	802b0f0 <vTaskSuspendAll>
static TickType_t prvSampleTimeNow( BaseType_t * const pxTimerListsWereSwitched )
{
TickType_t xTimeNow;
PRIVILEGED_DATA static TickType_t xLastTime = ( TickType_t ) 0U; /*lint !e956 Variable is only accessible to one task. */

	xTimeNow = xTaskGetTickCount();
 802b974:	f7ff fbc4 	bl	802b100 <xTaskGetTickCount>

	if( xTimeNow < xLastTime )
 802b978:	f8d8 3000 	ldr.w	r3, [r8]
 802b97c:	4298      	cmp	r0, r3
static TickType_t prvSampleTimeNow( BaseType_t * const pxTimerListsWereSwitched )
{
TickType_t xTimeNow;
PRIVILEGED_DATA static TickType_t xLastTime = ( TickType_t ) 0U; /*lint !e956 Variable is only accessible to one task. */

	xTimeNow = xTaskGetTickCount();
 802b97e:	4606      	mov	r6, r0

	if( xTimeNow < xLastTime )
 802b980:	d203      	bcs.n	802b98a <prvTimerTask+0x3e>
	{
		prvSwitchTimerLists();
 802b982:	f7ff ffa9 	bl	802b8d8 <prvSwitchTimerLists>
		*pxTimerListsWereSwitched = pdTRUE;
 802b986:	2301      	movs	r3, #1
 802b988:	e000      	b.n	802b98c <prvTimerTask+0x40>
	}
	else
	{
		*pxTimerListsWereSwitched = pdFALSE;
 802b98a:	2300      	movs	r3, #0
	}

	xLastTime = xTimeNow;
 802b98c:	f8c9 6000 	str.w	r6, [r9]
		has expired or not.  If obtaining the time causes the lists to switch
		then don't process this timer as any timers that remained in the list
		when the lists were switched will have been processed within the
		prvSampleTimeNow() function. */
		xTimeNow = prvSampleTimeNow( &xTimerListsWereSwitched );
		if( xTimerListsWereSwitched == pdFALSE )
 802b990:	2b00      	cmp	r3, #0
 802b992:	d132      	bne.n	802b9fa <prvTimerTask+0xae>
		{
			/* The tick count has not overflowed, has the timer expired? */
			if( ( xListWasEmpty == pdFALSE ) && ( xNextExpireTime <= xTimeNow ) )
 802b994:	bb2f      	cbnz	r7, 802b9e2 <prvTimerTask+0x96>
 802b996:	42b5      	cmp	r5, r6
 802b998:	d823      	bhi.n	802b9e2 <prvTimerTask+0x96>
			{
				( void ) xTaskResumeAll();
 802b99a:	f7ff fc45 	bl	802b228 <xTaskResumeAll>
/*-----------------------------------------------------------*/

static void prvProcessExpiredTimer( const TickType_t xNextExpireTime, const TickType_t xTimeNow )
{
BaseType_t xResult;
Timer_t * const pxTimer = ( Timer_t * ) listGET_OWNER_OF_HEAD_ENTRY( pxCurrentTimerList );
 802b99e:	4b46      	ldr	r3, [pc, #280]	; (802bab8 <prvTimerTask+0x16c>)
 802b9a0:	681b      	ldr	r3, [r3, #0]
 802b9a2:	68db      	ldr	r3, [r3, #12]
 802b9a4:	68dc      	ldr	r4, [r3, #12]

	/* Remove the timer from the list of active timers.  A check has already
	been performed to ensure the list is not empty. */
	( void ) uxListRemove( &( pxTimer->xTimerListItem ) );
 802b9a6:	1d20      	adds	r0, r4, #4
 802b9a8:	f7fe fefd 	bl	802a7a6 <uxListRemove>
	traceTIMER_EXPIRED( pxTimer );

	/* If the timer is an auto reload timer then calculate the next
	expiry time and re-insert the timer in the list of active timers. */
	if( pxTimer->uxAutoReload == ( UBaseType_t ) pdTRUE )
 802b9ac:	69e3      	ldr	r3, [r4, #28]
 802b9ae:	2b01      	cmp	r3, #1
 802b9b0:	d113      	bne.n	802b9da <prvTimerTask+0x8e>
	{
		/* The timer is inserted into a list using a time relative to anything
		other than the current time.  It will therefore be inserted into the
		correct list relative to the time this task thinks it is now. */
		if( prvInsertTimerInActiveList( pxTimer, ( xNextExpireTime + pxTimer->xTimerPeriodInTicks ), xTimeNow, xNextExpireTime ) == pdTRUE )
 802b9b2:	69a1      	ldr	r1, [r4, #24]
 802b9b4:	4620      	mov	r0, r4
 802b9b6:	1869      	adds	r1, r5, r1
 802b9b8:	4632      	mov	r2, r6
 802b9ba:	462b      	mov	r3, r5
 802b9bc:	f7ff ff2c 	bl	802b818 <prvInsertTimerInActiveList>
 802b9c0:	2801      	cmp	r0, #1
 802b9c2:	d10a      	bne.n	802b9da <prvTimerTask+0x8e>
		{
			/* The timer expired before it was added to the active timer
			list.  Reload it now.  */
			xResult = xTimerGenericCommand( pxTimer, tmrCOMMAND_START_DONT_TRACE, xNextExpireTime, NULL, tmrNO_DELAY );
 802b9c4:	9700      	str	r7, [sp, #0]
 802b9c6:	4620      	mov	r0, r4
 802b9c8:	4639      	mov	r1, r7
 802b9ca:	462a      	mov	r2, r5
 802b9cc:	463b      	mov	r3, r7
 802b9ce:	f7ff ff61 	bl	802b894 <xTimerGenericCommand>
			configASSERT( xResult );
 802b9d2:	b910      	cbnz	r0, 802b9da <prvTimerTask+0x8e>
 802b9d4:	f000 f8b2 	bl	802bb3c <ulPortSetInterruptMask>
 802b9d8:	e7fe      	b.n	802b9d8 <prvTimerTask+0x8c>
	{
		mtCOVERAGE_TEST_MARKER();
	}

	/* Call the timer callback. */
	pxTimer->pxCallbackFunction( ( TimerHandle_t ) pxTimer );
 802b9da:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802b9dc:	4620      	mov	r0, r4
 802b9de:	4798      	blx	r3
 802b9e0:	e05f      	b.n	802baa2 <prvTimerTask+0x156>
				time has not been reached yet.  This task should therefore
				block to wait for the next expire time or a command to be
				received - whichever comes first.  The following line cannot
				be reached unless xNextExpireTime > xTimeNow, except in the
				case when the current timer list is empty. */
				vQueueWaitForMessageRestricted( xTimerQueue, ( xNextExpireTime - xTimeNow ) );
 802b9e2:	4b36      	ldr	r3, [pc, #216]	; (802babc <prvTimerTask+0x170>)
 802b9e4:	1ba9      	subs	r1, r5, r6
 802b9e6:	6818      	ldr	r0, [r3, #0]
 802b9e8:	f7ff f9cb 	bl	802ad82 <vQueueWaitForMessageRestricted>

				if( xTaskResumeAll() == pdFALSE )
 802b9ec:	f7ff fc1c 	bl	802b228 <xTaskResumeAll>
 802b9f0:	2800      	cmp	r0, #0
 802b9f2:	d156      	bne.n	802baa2 <prvTimerTask+0x156>
				{
					/* Yield to wait for either a command to arrive, or the
					block time to expire.  If a command arrived between the
					critical section being exited and this yield then the yield
					will not cause the task to block. */
					portYIELD_WITHIN_API();
 802b9f4:	f000 f896 	bl	802bb24 <vPortYield>
 802b9f8:	e053      	b.n	802baa2 <prvTimerTask+0x156>
				}
			}
		}
		else
		{
			( void ) xTaskResumeAll();
 802b9fa:	f7ff fc15 	bl	802b228 <xTaskResumeAll>
 802b9fe:	e050      	b.n	802baa2 <prvTimerTask+0x156>
		}
		#endif /* INCLUDE_xTimerPendFunctionCall */

		/* Commands that are positive are timer commands rather than pended
		function calls. */
		if( xMessage.xMessageID >= ( BaseType_t ) 0 )
 802ba00:	9b03      	ldr	r3, [sp, #12]
 802ba02:	2b00      	cmp	r3, #0
 802ba04:	db4e      	blt.n	802baa4 <prvTimerTask+0x158>
		{
			/* The messages uses the xTimerParameters member to work on a
			software timer. */
			pxTimer = xMessage.u.xTimerParameters.pxTimer;
 802ba06:	9c05      	ldr	r4, [sp, #20]

			if( listIS_CONTAINED_WITHIN( NULL, &( pxTimer->xTimerListItem ) ) == pdFALSE )
 802ba08:	6963      	ldr	r3, [r4, #20]
 802ba0a:	b113      	cbz	r3, 802ba12 <prvTimerTask+0xc6>
			{
				/* The timer is in a list, remove it. */
				( void ) uxListRemove( &( pxTimer->xTimerListItem ) );
 802ba0c:	1d20      	adds	r0, r4, #4
 802ba0e:	f7fe feca 	bl	802a7a6 <uxListRemove>
static TickType_t prvSampleTimeNow( BaseType_t * const pxTimerListsWereSwitched )
{
TickType_t xTimeNow;
PRIVILEGED_DATA static TickType_t xLastTime = ( TickType_t ) 0U; /*lint !e956 Variable is only accessible to one task. */

	xTimeNow = xTaskGetTickCount();
 802ba12:	f7ff fb75 	bl	802b100 <xTaskGetTickCount>

	if( xTimeNow < xLastTime )
 802ba16:	f8d8 3000 	ldr.w	r3, [r8]
 802ba1a:	4298      	cmp	r0, r3
static TickType_t prvSampleTimeNow( BaseType_t * const pxTimerListsWereSwitched )
{
TickType_t xTimeNow;
PRIVILEGED_DATA static TickType_t xLastTime = ( TickType_t ) 0U; /*lint !e956 Variable is only accessible to one task. */

	xTimeNow = xTaskGetTickCount();
 802ba1c:	4605      	mov	r5, r0

	if( xTimeNow < xLastTime )
 802ba1e:	d201      	bcs.n	802ba24 <prvTimerTask+0xd8>
	{
		prvSwitchTimerLists();
 802ba20:	f7ff ff5a 	bl	802b8d8 <prvSwitchTimerLists>
			possibility of a higher priority task adding a message to the message
			queue with a time that is ahead of the timer daemon task (because it
			pre-empted the timer daemon task after the xTimeNow value was set). */
			xTimeNow = prvSampleTimeNow( &xTimerListsWereSwitched );

			switch( xMessage.xMessageID )
 802ba24:	9b03      	ldr	r3, [sp, #12]
	else
	{
		*pxTimerListsWereSwitched = pdFALSE;
	}

	xLastTime = xTimeNow;
 802ba26:	f8c9 5000 	str.w	r5, [r9]
			possibility of a higher priority task adding a message to the message
			queue with a time that is ahead of the timer daemon task (because it
			pre-empted the timer daemon task after the xTimeNow value was set). */
			xTimeNow = prvSampleTimeNow( &xTimerListsWereSwitched );

			switch( xMessage.xMessageID )
 802ba2a:	2b09      	cmp	r3, #9
 802ba2c:	d83a      	bhi.n	802baa4 <prvTimerTask+0x158>
 802ba2e:	f04f 6204 	mov.w	r2, #138412032	; 0x8400000
 802ba32:	409a      	lsls	r2, r3
 802ba34:	d424      	bmi.n	802ba80 <prvTimerTask+0x134>
 802ba36:	f04f 4263 	mov.w	r2, #3808428032	; 0xe3000000
 802ba3a:	409a      	lsls	r2, r3
 802ba3c:	d404      	bmi.n	802ba48 <prvTimerTask+0xfc>
 802ba3e:	f04f 6280 	mov.w	r2, #67108864	; 0x4000000
 802ba42:	409a      	lsls	r2, r3
 802ba44:	d429      	bmi.n	802ba9a <prvTimerTask+0x14e>
 802ba46:	e02d      	b.n	802baa4 <prvTimerTask+0x158>
			    case tmrCOMMAND_START_FROM_ISR :
			    case tmrCOMMAND_RESET :
			    case tmrCOMMAND_RESET_FROM_ISR :
				case tmrCOMMAND_START_DONT_TRACE :
					/* Start or restart a timer. */
					if( prvInsertTimerInActiveList( pxTimer,  xMessage.u.xTimerParameters.xMessageValue + pxTimer->xTimerPeriodInTicks, xTimeNow, xMessage.u.xTimerParameters.xMessageValue ) == pdTRUE )
 802ba48:	9b04      	ldr	r3, [sp, #16]
 802ba4a:	69a1      	ldr	r1, [r4, #24]
 802ba4c:	4620      	mov	r0, r4
 802ba4e:	1859      	adds	r1, r3, r1
 802ba50:	462a      	mov	r2, r5
 802ba52:	f7ff fee1 	bl	802b818 <prvInsertTimerInActiveList>
 802ba56:	2801      	cmp	r0, #1
 802ba58:	d124      	bne.n	802baa4 <prvTimerTask+0x158>
					{
						/* The timer expired before it was added to the active
						timer list.  Process it now. */
						pxTimer->pxCallbackFunction( ( TimerHandle_t ) pxTimer );
 802ba5a:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802ba5c:	4620      	mov	r0, r4
 802ba5e:	4798      	blx	r3
						traceTIMER_EXPIRED( pxTimer );

						if( pxTimer->uxAutoReload == ( UBaseType_t ) pdTRUE )
 802ba60:	69e3      	ldr	r3, [r4, #28]
 802ba62:	2b01      	cmp	r3, #1
 802ba64:	d11e      	bne.n	802baa4 <prvTimerTask+0x158>
						{
							xResult = xTimerGenericCommand( pxTimer, tmrCOMMAND_START_DONT_TRACE, xMessage.u.xTimerParameters.xMessageValue + pxTimer->xTimerPeriodInTicks, NULL, tmrNO_DELAY );
 802ba66:	69a2      	ldr	r2, [r4, #24]
 802ba68:	9b04      	ldr	r3, [sp, #16]
 802ba6a:	2100      	movs	r1, #0
 802ba6c:	18d2      	adds	r2, r2, r3
 802ba6e:	9100      	str	r1, [sp, #0]
 802ba70:	4620      	mov	r0, r4
 802ba72:	460b      	mov	r3, r1
 802ba74:	f7ff ff0e 	bl	802b894 <xTimerGenericCommand>
							configASSERT( xResult );
 802ba78:	b9a0      	cbnz	r0, 802baa4 <prvTimerTask+0x158>
 802ba7a:	f000 f85f 	bl	802bb3c <ulPortSetInterruptMask>
 802ba7e:	e7fe      	b.n	802ba7e <prvTimerTask+0x132>
					There is nothing to do here. */
					break;

				case tmrCOMMAND_CHANGE_PERIOD :
				case tmrCOMMAND_CHANGE_PERIOD_FROM_ISR :
					pxTimer->xTimerPeriodInTicks = xMessage.u.xTimerParameters.xMessageValue;
 802ba80:	9904      	ldr	r1, [sp, #16]
 802ba82:	61a1      	str	r1, [r4, #24]
					configASSERT( ( pxTimer->xTimerPeriodInTicks > 0 ) );
 802ba84:	b911      	cbnz	r1, 802ba8c <prvTimerTask+0x140>
 802ba86:	f000 f859 	bl	802bb3c <ulPortSetInterruptMask>
 802ba8a:	e7fe      	b.n	802ba8a <prvTimerTask+0x13e>
					longer or shorter than the old one.  The command time is
					therefore set to the current time, and as the period cannot be
					zero the next expiry time can only be in the future, meaning
					(unlike for the xTimerStart() case above) there is no fail case
					that needs to be handled here. */
					( void ) prvInsertTimerInActiveList( pxTimer, ( xTimeNow + pxTimer->xTimerPeriodInTicks ), xTimeNow, xTimeNow );
 802ba8c:	4620      	mov	r0, r4
 802ba8e:	1869      	adds	r1, r5, r1
 802ba90:	462a      	mov	r2, r5
 802ba92:	462b      	mov	r3, r5
 802ba94:	f7ff fec0 	bl	802b818 <prvInsertTimerInActiveList>
 802ba98:	e004      	b.n	802baa4 <prvTimerTask+0x158>
					break;

				case tmrCOMMAND_DELETE :
					/* The timer has already been removed from the active list,
					just free up the memory. */
					vPortFree( pxTimer );
 802ba9a:	4620      	mov	r0, r4
 802ba9c:	f000 f9ea 	bl	802be74 <vPortFree>
 802baa0:	e000      	b.n	802baa4 <prvTimerTask+0x158>
DaemonTaskMessage_t xMessage;
Timer_t *pxTimer;
BaseType_t xTimerListsWereSwitched, xResult;
TickType_t xTimeNow;

	while( xQueueReceive( xTimerQueue, &xMessage, tmrNO_DELAY ) != pdFAIL ) /*lint !e603 xMessage does not have to be initialised as it is passed out, not in, and it is not used unless xQueueReceive() returns pdTRUE. */
 802baa2:	4e06      	ldr	r6, [pc, #24]	; (802babc <prvTimerTask+0x170>)
 802baa4:	2200      	movs	r2, #0
 802baa6:	6830      	ldr	r0, [r6, #0]
 802baa8:	a903      	add	r1, sp, #12
 802baaa:	4613      	mov	r3, r2
 802baac:	f7ff f8b7 	bl	802ac1e <xQueueGenericReceive>
 802bab0:	2800      	cmp	r0, #0
 802bab2:	d1a5      	bne.n	802ba00 <prvTimerTask+0xb4>
 802bab4:	e750      	b.n	802b958 <prvTimerTask+0xc>
 802bab6:	bf00      	nop
 802bab8:	20000ccc 	.word	0x20000ccc
 802babc:	20000cfc 	.word	0x20000cfc
 802bac0:	20000cf8 	.word	0x20000cf8

0802bac4 <prvPortStartFirstTask>:
}
/*-----------------------------------------------------------*/

static void prvPortStartFirstTask( void )
{
	__asm volatile(
 802bac4:	4806      	ldr	r0, [pc, #24]	; (802bae0 <prvPortStartFirstTask+0x1c>)
 802bac6:	6800      	ldr	r0, [r0, #0]
 802bac8:	6800      	ldr	r0, [r0, #0]
 802baca:	f380 8808 	msr	MSP, r0
 802bace:	b662      	cpsie	i
 802bad0:	b661      	cpsie	f
 802bad2:	f3bf 8f4f 	dsb	sy
 802bad6:	f3bf 8f6f 	isb	sy
 802bada:	df00      	svc	0
 802badc:	bf00      	nop
 802bade:	0000      	.short	0x0000
 802bae0:	e000ed08 	.word	0xe000ed08

0802bae4 <pxPortInitialiseStack>:
StackType_t *pxPortInitialiseStack( StackType_t *pxTopOfStack, TaskFunction_t pxCode, void *pvParameters )
{
	/* Simulate the stack frame as it would be created by a context switch
	interrupt. */
	pxTopOfStack--; /* Offset added to account for the way the MCU uses the stack on entry/exit of interrupts. */
	*pxTopOfStack = portINITIAL_XPSR;	/* xPSR */
 802bae4:	f04f 7380 	mov.w	r3, #16777216	; 0x1000000
	pxTopOfStack--;
	*pxTopOfStack = ( StackType_t ) pxCode;	/* PC */
 802bae8:	e900 000a 	stmdb	r0, {r1, r3}
	pxTopOfStack--;
	*pxTopOfStack = ( StackType_t ) portTASK_RETURN_ADDRESS;	/* LR */
 802baec:	4b03      	ldr	r3, [pc, #12]	; (802bafc <pxPortInitialiseStack+0x18>)
	pxTopOfStack -= 5;	/* R12, R3, R2 and R1. */
	*pxTopOfStack = ( StackType_t ) pvParameters;	/* R0 */
 802baee:	f840 2c20 	str.w	r2, [r0, #-32]
	pxTopOfStack--; /* Offset added to account for the way the MCU uses the stack on entry/exit of interrupts. */
	*pxTopOfStack = portINITIAL_XPSR;	/* xPSR */
	pxTopOfStack--;
	*pxTopOfStack = ( StackType_t ) pxCode;	/* PC */
	pxTopOfStack--;
	*pxTopOfStack = ( StackType_t ) portTASK_RETURN_ADDRESS;	/* LR */
 802baf2:	f840 3c0c 	str.w	r3, [r0, #-12]
	pxTopOfStack -= 5;	/* R12, R3, R2 and R1. */
	*pxTopOfStack = ( StackType_t ) pvParameters;	/* R0 */
	pxTopOfStack -= 8;	/* R11, R10, R9, R8, R7, R6, R5 and R4. */

	return pxTopOfStack;
}
 802baf6:	3840      	subs	r0, #64	; 0x40
 802baf8:	4770      	bx	lr
 802bafa:	bf00      	nop
 802bafc:	0802bb81 	.word	0x0802bb81

0802bb00 <SVC_Handler>:
}
/*-----------------------------------------------------------*/

void vPortSVCHandler( void )
{
	__asm volatile (
 802bb00:	4b07      	ldr	r3, [pc, #28]	; (802bb20 <pxCurrentTCBConst2>)
 802bb02:	6819      	ldr	r1, [r3, #0]
 802bb04:	6808      	ldr	r0, [r1, #0]
 802bb06:	e8b0 0ff0 	ldmia.w	r0!, {r4, r5, r6, r7, r8, r9, sl, fp}
 802bb0a:	f380 8809 	msr	PSP, r0
 802bb0e:	f3bf 8f6f 	isb	sy
 802bb12:	f04f 0000 	mov.w	r0, #0
 802bb16:	f380 8811 	msr	BASEPRI, r0
 802bb1a:	f04e 0e0d 	orr.w	lr, lr, #13
 802bb1e:	4770      	bx	lr

0802bb20 <pxCurrentTCBConst2>:
 802bb20:	20000c84 	.word	0x20000c84

0802bb24 <vPortYield>:
/*-----------------------------------------------------------*/

void vPortYield( void )
{
	/* Set a PendSV to request a context switch. */
	portNVIC_INT_CTRL_REG = portNVIC_PENDSVSET_BIT;
 802bb24:	4b04      	ldr	r3, [pc, #16]	; (802bb38 <vPortYield+0x14>)
 802bb26:	f04f 5280 	mov.w	r2, #268435456	; 0x10000000
 802bb2a:	601a      	str	r2, [r3, #0]

	/* Barriers are normally not required but do ensure the code is completely
	within the specified behaviour for the architecture. */
	__asm volatile( "dsb" );
 802bb2c:	f3bf 8f4f 	dsb	sy
	__asm volatile( "isb" );
 802bb30:	f3bf 8f6f 	isb	sy
 802bb34:	4770      	bx	lr
 802bb36:	bf00      	nop
 802bb38:	e000ed04 	.word	0xe000ed04

0802bb3c <ulPortSetInterruptMask>:
}
/*-----------------------------------------------------------*/

__attribute__(( naked )) uint32_t ulPortSetInterruptMask( void )
{
	__asm volatile														\
 802bb3c:	f3ef 8011 	mrs	r0, BASEPRI
 802bb40:	f04f 0150 	mov.w	r1, #80	; 0x50
 802bb44:	f381 8811 	msr	BASEPRI, r1
 802bb48:	4770      	bx	lr
	);

	/* This return will not be reached but is necessary to prevent compiler
	warnings. */
	return 0;
}
 802bb4a:	2000      	movs	r0, #0

0802bb4c <vPortEnterCritical>:
	__asm volatile( "isb" );
}
/*-----------------------------------------------------------*/

void vPortEnterCritical( void )
{
 802bb4c:	b508      	push	{r3, lr}
	portDISABLE_INTERRUPTS();
 802bb4e:	f7ff fff5 	bl	802bb3c <ulPortSetInterruptMask>
	uxCriticalNesting++;
 802bb52:	4a09      	ldr	r2, [pc, #36]	; (802bb78 <vPortEnterCritical+0x2c>)
 802bb54:	6813      	ldr	r3, [r2, #0]
 802bb56:	3301      	adds	r3, #1
 802bb58:	6013      	str	r3, [r2, #0]
	__asm volatile( "dsb" );
 802bb5a:	f3bf 8f4f 	dsb	sy
	__asm volatile( "isb" );
 802bb5e:	f3bf 8f6f 	isb	sy
	/* This is not the interrupt safe version of the enter critical function so
	assert() if it is being called from an interrupt context.  Only API 
	functions that end in "FromISR" can be used in an interrupt.  Only assert if
	the critical nesting count is 1 to protect against recursive calls if the
	assert function also uses a critical section. */
	if( uxCriticalNesting == 1 )
 802bb62:	2b01      	cmp	r3, #1
 802bb64:	d107      	bne.n	802bb76 <vPortEnterCritical+0x2a>
	{
		configASSERT( ( portNVIC_INT_CTRL_REG & portVECTACTIVE_MASK ) == 0 );
 802bb66:	4b05      	ldr	r3, [pc, #20]	; (802bb7c <vPortEnterCritical+0x30>)
 802bb68:	681b      	ldr	r3, [r3, #0]
 802bb6a:	f013 0fff 	tst.w	r3, #255	; 0xff
 802bb6e:	d002      	beq.n	802bb76 <vPortEnterCritical+0x2a>
 802bb70:	f7ff ffe4 	bl	802bb3c <ulPortSetInterruptMask>
 802bb74:	e7fe      	b.n	802bb74 <vPortEnterCritical+0x28>
 802bb76:	bd08      	pop	{r3, pc}
 802bb78:	2000070c 	.word	0x2000070c
 802bb7c:	e000ed04 	.word	0xe000ed04

0802bb80 <prvTaskExitError>:
	return pxTopOfStack;
}
/*-----------------------------------------------------------*/

static void prvTaskExitError( void )
{
 802bb80:	b508      	push	{r3, lr}
	its caller as there is nothing to return to.  If a task wants to exit it
	should instead call vTaskDelete( NULL ).

	Artificially force an assert() to be triggered if configASSERT() is
	defined, then stop here so application writers can catch the error. */
	configASSERT( uxCriticalNesting == ~0UL );
 802bb82:	4b05      	ldr	r3, [pc, #20]	; (802bb98 <prvTaskExitError+0x18>)
 802bb84:	681b      	ldr	r3, [r3, #0]
 802bb86:	3301      	adds	r3, #1
 802bb88:	d002      	beq.n	802bb90 <prvTaskExitError+0x10>
 802bb8a:	f7ff ffd7 	bl	802bb3c <ulPortSetInterruptMask>
 802bb8e:	e7fe      	b.n	802bb8e <prvTaskExitError+0xe>
	portDISABLE_INTERRUPTS();
 802bb90:	f7ff ffd4 	bl	802bb3c <ulPortSetInterruptMask>
 802bb94:	e7fe      	b.n	802bb94 <prvTaskExitError+0x14>
 802bb96:	bf00      	nop
 802bb98:	2000070c 	.word	0x2000070c

0802bb9c <vPortClearInterruptMask>:
}
/*-----------------------------------------------------------*/

__attribute__(( naked )) void vPortClearInterruptMask( uint32_t ulNewMaskValue )
{
	__asm volatile													\
 802bb9c:	f380 8811 	msr	BASEPRI, r0
 802bba0:	4770      	bx	lr
 802bba2:	0000      	movs	r0, r0

0802bba4 <vPortExitCritical>:
	}
}
/*-----------------------------------------------------------*/

void vPortExitCritical( void )
{
 802bba4:	b508      	push	{r3, lr}
	configASSERT( uxCriticalNesting );
 802bba6:	4b07      	ldr	r3, [pc, #28]	; (802bbc4 <vPortExitCritical+0x20>)
 802bba8:	6818      	ldr	r0, [r3, #0]
 802bbaa:	b910      	cbnz	r0, 802bbb2 <vPortExitCritical+0xe>
 802bbac:	f7ff ffc6 	bl	802bb3c <ulPortSetInterruptMask>
 802bbb0:	e7fe      	b.n	802bbb0 <vPortExitCritical+0xc>
	uxCriticalNesting--;
 802bbb2:	3801      	subs	r0, #1
 802bbb4:	6018      	str	r0, [r3, #0]
	if( uxCriticalNesting == 0 )
 802bbb6:	b918      	cbnz	r0, 802bbc0 <vPortExitCritical+0x1c>
	{
		portENABLE_INTERRUPTS();
	}
}
 802bbb8:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
{
	configASSERT( uxCriticalNesting );
	uxCriticalNesting--;
	if( uxCriticalNesting == 0 )
	{
		portENABLE_INTERRUPTS();
 802bbbc:	f7ff bfee 	b.w	802bb9c <vPortClearInterruptMask>
 802bbc0:	bd08      	pop	{r3, pc}
 802bbc2:	bf00      	nop
 802bbc4:	2000070c 	.word	0x2000070c

0802bbc8 <PendSV_Handler>:

void xPortPendSVHandler( void )
{
	/* This is a naked function. */

	__asm volatile
 802bbc8:	f3ef 8009 	mrs	r0, PSP
 802bbcc:	f3bf 8f6f 	isb	sy
 802bbd0:	4b0d      	ldr	r3, [pc, #52]	; (802bc08 <pxCurrentTCBConst>)
 802bbd2:	681a      	ldr	r2, [r3, #0]
 802bbd4:	e920 0ff0 	stmdb	r0!, {r4, r5, r6, r7, r8, r9, sl, fp}
 802bbd8:	6010      	str	r0, [r2, #0]
 802bbda:	e92d 4008 	stmdb	sp!, {r3, lr}
 802bbde:	f04f 0050 	mov.w	r0, #80	; 0x50
 802bbe2:	f380 8811 	msr	BASEPRI, r0
 802bbe6:	f7ff fc3b 	bl	802b460 <vTaskSwitchContext>
 802bbea:	f04f 0000 	mov.w	r0, #0
 802bbee:	f380 8811 	msr	BASEPRI, r0
 802bbf2:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
 802bbf6:	6819      	ldr	r1, [r3, #0]
 802bbf8:	6808      	ldr	r0, [r1, #0]
 802bbfa:	e8b0 0ff0 	ldmia.w	r0!, {r4, r5, r6, r7, r8, r9, sl, fp}
 802bbfe:	f380 8809 	msr	PSP, r0
 802bc02:	f3bf 8f6f 	isb	sy
 802bc06:	4770      	bx	lr

0802bc08 <pxCurrentTCBConst>:
 802bc08:	20000c84 	.word	0x20000c84

0802bc0c <SysTick_Handler>:
	);
}
/*-----------------------------------------------------------*/

void xPortSysTickHandler( void )
{
 802bc0c:	b508      	push	{r3, lr}
	/* The SysTick runs at the lowest interrupt priority, so when this interrupt
	executes all interrupts must be unmasked.  There is therefore no need to
	save and then restore the interrupt mask value as its value is already
	known. */
	( void ) portSET_INTERRUPT_MASK_FROM_ISR();
 802bc0e:	f7ff ff95 	bl	802bb3c <ulPortSetInterruptMask>
	{
		/* Increment the RTOS tick. */
		if( xTaskIncrementTick() != pdFALSE )
 802bc12:	f7ff fa7b 	bl	802b10c <xTaskIncrementTick>
 802bc16:	b118      	cbz	r0, 802bc20 <SysTick_Handler+0x14>
		{
			/* A context switch is required.  Context switching is performed in
			the PendSV interrupt.  Pend the PendSV interrupt. */
			portNVIC_INT_CTRL_REG = portNVIC_PENDSVSET_BIT;
 802bc18:	4b04      	ldr	r3, [pc, #16]	; (802bc2c <SysTick_Handler+0x20>)
 802bc1a:	f04f 5280 	mov.w	r2, #268435456	; 0x10000000
 802bc1e:	601a      	str	r2, [r3, #0]
		}
	}
	portCLEAR_INTERRUPT_MASK_FROM_ISR( 0 );
 802bc20:	2000      	movs	r0, #0
}
 802bc22:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
			/* A context switch is required.  Context switching is performed in
			the PendSV interrupt.  Pend the PendSV interrupt. */
			portNVIC_INT_CTRL_REG = portNVIC_PENDSVSET_BIT;
		}
	}
	portCLEAR_INTERRUPT_MASK_FROM_ISR( 0 );
 802bc26:	f7ff bfb9 	b.w	802bb9c <vPortClearInterruptMask>
 802bc2a:	bf00      	nop
 802bc2c:	e000ed04 	.word	0xe000ed04

0802bc30 <vPortSetupTimerInterrupt>:
		ulStoppedTimerCompensation = portMISSED_COUNTS_FACTOR / ( configCPU_CLOCK_HZ / configSYSTICK_CLOCK_HZ );
	}
	#endif /* configUSE_TICKLESS_IDLE */

	/* Configure SysTick to interrupt at the requested rate. */
	portNVIC_SYSTICK_LOAD_REG = ( configSYSTICK_CLOCK_HZ / configTICK_RATE_HZ ) - 1UL;
 802bc30:	4b06      	ldr	r3, [pc, #24]	; (802bc4c <vPortSetupTimerInterrupt+0x1c>)
 802bc32:	681a      	ldr	r2, [r3, #0]
 802bc34:	f44f 737a 	mov.w	r3, #1000	; 0x3e8
 802bc38:	fbb2 f2f3 	udiv	r2, r2, r3
 802bc3c:	4b04      	ldr	r3, [pc, #16]	; (802bc50 <vPortSetupTimerInterrupt+0x20>)
 802bc3e:	3a01      	subs	r2, #1
 802bc40:	601a      	str	r2, [r3, #0]
	portNVIC_SYSTICK_CTRL_REG = ( portNVIC_SYSTICK_CLK_BIT | portNVIC_SYSTICK_INT_BIT | portNVIC_SYSTICK_ENABLE_BIT );
 802bc42:	2207      	movs	r2, #7
 802bc44:	f843 2c04 	str.w	r2, [r3, #-4]
 802bc48:	4770      	bx	lr
 802bc4a:	bf00      	nop
 802bc4c:	200005bc 	.word	0x200005bc
 802bc50:	e000e014 	.word	0xe000e014

0802bc54 <xPortStartScheduler>:

/*
 * See header file for description.
 */
BaseType_t xPortStartScheduler( void )
{
 802bc54:	b507      	push	{r0, r1, r2, lr}
		functions can be called.  ISR safe functions are those that end in
		"FromISR".  FreeRTOS maintains separate thread and ISR API functions to
		ensure interrupt entry is as fast and simple as possible.

		Save the interrupt priority value that is about to be clobbered. */
		ulOriginalPriority = *pucFirstUserPriorityRegister;
 802bc56:	4b1d      	ldr	r3, [pc, #116]	; (802bccc <xPortStartScheduler+0x78>)
 802bc58:	781a      	ldrb	r2, [r3, #0]
 802bc5a:	9201      	str	r2, [sp, #4]

		/* Determine the number of priority bits available.  First write to all
		possible bits. */
		*pucFirstUserPriorityRegister = portMAX_8_BIT_VALUE;
 802bc5c:	22ff      	movs	r2, #255	; 0xff
 802bc5e:	701a      	strb	r2, [r3, #0]

		/* Read the value back to see how many bits stuck. */
		ucMaxPriorityValue = *pucFirstUserPriorityRegister;
 802bc60:	781b      	ldrb	r3, [r3, #0]
 802bc62:	f88d 3003 	strb.w	r3, [sp, #3]

		/* Use the same mask on the maximum system call priority. */
		ucMaxSysCallPriority = configMAX_SYSCALL_INTERRUPT_PRIORITY & ucMaxPriorityValue;
 802bc66:	f89d 2003 	ldrb.w	r2, [sp, #3]
 802bc6a:	4b19      	ldr	r3, [pc, #100]	; (802bcd0 <xPortStartScheduler+0x7c>)
 802bc6c:	f002 0250 	and.w	r2, r2, #80	; 0x50
 802bc70:	701a      	strb	r2, [r3, #0]

		/* Calculate the maximum acceptable priority group value for the number
		of bits read back. */
		ulMaxPRIGROUPValue = portMAX_PRIGROUP_BITS;
 802bc72:	4a18      	ldr	r2, [pc, #96]	; (802bcd4 <xPortStartScheduler+0x80>)
 802bc74:	2307      	movs	r3, #7
 802bc76:	6013      	str	r3, [r2, #0]
		while( ( ucMaxPriorityValue & portTOP_BIT_OF_BYTE ) == portTOP_BIT_OF_BYTE )
 802bc78:	e005      	b.n	802bc86 <xPortStartScheduler+0x32>
		{
			ulMaxPRIGROUPValue--;
			ucMaxPriorityValue <<= ( uint8_t ) 0x01;
 802bc7a:	f89d 3003 	ldrb.w	r3, [sp, #3]
 802bc7e:	005b      	lsls	r3, r3, #1
 802bc80:	f88d 3003 	strb.w	r3, [sp, #3]
 802bc84:	460b      	mov	r3, r1
		ucMaxSysCallPriority = configMAX_SYSCALL_INTERRUPT_PRIORITY & ucMaxPriorityValue;

		/* Calculate the maximum acceptable priority group value for the number
		of bits read back. */
		ulMaxPRIGROUPValue = portMAX_PRIGROUP_BITS;
		while( ( ucMaxPriorityValue & portTOP_BIT_OF_BYTE ) == portTOP_BIT_OF_BYTE )
 802bc86:	f89d 2003 	ldrb.w	r2, [sp, #3]
 802bc8a:	1e59      	subs	r1, r3, #1
 802bc8c:	0612      	lsls	r2, r2, #24
 802bc8e:	d4f4      	bmi.n	802bc7a <xPortStartScheduler+0x26>
		}

		/* Shift the priority group value back to its position within the AIRCR
		register. */
		ulMaxPRIGROUPValue <<= portPRIGROUP_SHIFT;
		ulMaxPRIGROUPValue &= portPRIORITY_GROUP_MASK;
 802bc90:	4a10      	ldr	r2, [pc, #64]	; (802bcd4 <xPortStartScheduler+0x80>)
			ucMaxPriorityValue <<= ( uint8_t ) 0x01;
		}

		/* Shift the priority group value back to its position within the AIRCR
		register. */
		ulMaxPRIGROUPValue <<= portPRIGROUP_SHIFT;
 802bc92:	021b      	lsls	r3, r3, #8
		ulMaxPRIGROUPValue &= portPRIORITY_GROUP_MASK;
 802bc94:	f403 63e0 	and.w	r3, r3, #1792	; 0x700
 802bc98:	6013      	str	r3, [r2, #0]

		/* Restore the clobbered interrupt priority register to its original
		value. */
		*pucFirstUserPriorityRegister = ulOriginalPriority;
 802bc9a:	4b0c      	ldr	r3, [pc, #48]	; (802bccc <xPortStartScheduler+0x78>)
 802bc9c:	9a01      	ldr	r2, [sp, #4]
 802bc9e:	701a      	strb	r2, [r3, #0]
	}
	#endif /* conifgASSERT_DEFINED */

	/* Make PendSV and SysTick the lowest priority interrupts. */
	portNVIC_SYSPRI2_REG |= portNVIC_PENDSV_PRI;
 802bca0:	f8d3 2920 	ldr.w	r2, [r3, #2336]	; 0x920
 802bca4:	f442 0270 	orr.w	r2, r2, #15728640	; 0xf00000
 802bca8:	f8c3 2920 	str.w	r2, [r3, #2336]	; 0x920
	portNVIC_SYSPRI2_REG |= portNVIC_SYSTICK_PRI;
 802bcac:	f8d3 2920 	ldr.w	r2, [r3, #2336]	; 0x920
 802bcb0:	f042 4270 	orr.w	r2, r2, #4026531840	; 0xf0000000
 802bcb4:	f8c3 2920 	str.w	r2, [r3, #2336]	; 0x920

	/* Start the timer that generates the tick ISR.  Interrupts are disabled
	here already. */
	vPortSetupTimerInterrupt();
 802bcb8:	f7ff ffba 	bl	802bc30 <vPortSetupTimerInterrupt>

	/* Initialise the critical nesting count ready for the first task. */
	uxCriticalNesting = 0;
 802bcbc:	4b06      	ldr	r3, [pc, #24]	; (802bcd8 <xPortStartScheduler+0x84>)
 802bcbe:	2200      	movs	r2, #0
 802bcc0:	601a      	str	r2, [r3, #0]

	/* Start the first task. */
	prvPortStartFirstTask();
 802bcc2:	f7ff feff 	bl	802bac4 <prvPortStartFirstTask>

	/* Should never get here as the tasks will now be executing!  Call the task
	exit error function to prevent compiler warnings about a static function
	not being called in the case that the application writer overrides this
	functionality by defining configTASK_RETURN_ADDRESS. */
	prvTaskExitError();
 802bcc6:	f7ff ff5b 	bl	802bb80 <prvTaskExitError>
 802bcca:	bf00      	nop
 802bccc:	e000e400 	.word	0xe000e400
 802bcd0:	20000d04 	.word	0x20000d04
 802bcd4:	20000d08 	.word	0x20000d08
 802bcd8:	2000070c 	.word	0x2000070c

0802bcdc <vPortValidateInterruptPriority>:
/*-----------------------------------------------------------*/

#if( configASSERT_DEFINED == 1 )

	void vPortValidateInterruptPriority( void )
	{
 802bcdc:	b508      	push	{r3, lr}
	uint32_t ulCurrentInterrupt;
	uint8_t ucCurrentPriority;

		/* Obtain the number of the currently executing interrupt. */
		__asm volatile( "mrs %0, ipsr" : "=r"( ulCurrentInterrupt ) );
 802bcde:	f3ef 8305 	mrs	r3, IPSR

		/* Is the interrupt number a user defined interrupt? */
		if( ulCurrentInterrupt >= portFIRST_USER_INTERRUPT_NUMBER )
 802bce2:	2b0f      	cmp	r3, #15
 802bce4:	d908      	bls.n	802bcf8 <vPortValidateInterruptPriority+0x1c>
		{
			/* Look up the interrupt's priority. */
			ucCurrentPriority = pcInterruptPriorityRegisters[ ulCurrentInterrupt ];
 802bce6:	4a0a      	ldr	r2, [pc, #40]	; (802bd10 <vPortValidateInterruptPriority+0x34>)
 802bce8:	5c9b      	ldrb	r3, [r3, r2]
			interrupt entry is as fast and simple as possible.

			The following links provide detailed information:
			http://www.freertos.org/RTOS-Cortex-M3-M4.html
			http://www.freertos.org/FAQHelp.html */
			configASSERT( ucCurrentPriority >= ucMaxSysCallPriority );
 802bcea:	4a0a      	ldr	r2, [pc, #40]	; (802bd14 <vPortValidateInterruptPriority+0x38>)
 802bcec:	7812      	ldrb	r2, [r2, #0]
 802bcee:	429a      	cmp	r2, r3
 802bcf0:	d902      	bls.n	802bcf8 <vPortValidateInterruptPriority+0x1c>
 802bcf2:	f7ff ff23 	bl	802bb3c <ulPortSetInterruptMask>
 802bcf6:	e7fe      	b.n	802bcf6 <vPortValidateInterruptPriority+0x1a>
		configuration then the correct setting can be achieved on all Cortex-M
		devices by calling NVIC_SetPriorityGrouping( 0 ); before starting the
		scheduler.  Note however that some vendor specific peripheral libraries
		assume a non-zero priority group setting, in which cases using a value
		of zero will result in unpredicable behaviour. */
		configASSERT( ( portAIRCR_REG & portPRIORITY_GROUP_MASK ) <= ulMaxPRIGROUPValue );
 802bcf8:	4b07      	ldr	r3, [pc, #28]	; (802bd18 <vPortValidateInterruptPriority+0x3c>)
 802bcfa:	681a      	ldr	r2, [r3, #0]
 802bcfc:	4b07      	ldr	r3, [pc, #28]	; (802bd1c <vPortValidateInterruptPriority+0x40>)
 802bcfe:	681b      	ldr	r3, [r3, #0]
 802bd00:	f402 62e0 	and.w	r2, r2, #1792	; 0x700
 802bd04:	429a      	cmp	r2, r3
 802bd06:	d902      	bls.n	802bd0e <vPortValidateInterruptPriority+0x32>
 802bd08:	f7ff ff18 	bl	802bb3c <ulPortSetInterruptMask>
 802bd0c:	e7fe      	b.n	802bd0c <vPortValidateInterruptPriority+0x30>
 802bd0e:	bd08      	pop	{r3, pc}
 802bd10:	e000e3f0 	.word	0xe000e3f0
 802bd14:	20000d04 	.word	0x20000d04
 802bd18:	e000ed0c 	.word	0xe000ed0c
 802bd1c:	20000d08 	.word	0x20000d08

0802bd20 <prvInsertBlockIntoFreeList>:
	xBlockAllocatedBit = ( ( size_t ) 1 ) << ( ( sizeof( size_t ) * heapBITS_PER_BYTE ) - 1 );
}
/*-----------------------------------------------------------*/

static void prvInsertBlockIntoFreeList( BlockLink_t *pxBlockToInsert )
{
 802bd20:	b510      	push	{r4, lr}
BlockLink_t *pxIterator;
uint8_t *puc;

	/* Iterate through the list until a block is found that has a higher address
	than the block being inserted. */
	for( pxIterator = &xStart; pxIterator->pxNextFreeBlock < pxBlockToInsert; pxIterator = pxIterator->pxNextFreeBlock )
 802bd22:	4b0f      	ldr	r3, [pc, #60]	; (802bd60 <prvInsertBlockIntoFreeList+0x40>)
 802bd24:	e000      	b.n	802bd28 <prvInsertBlockIntoFreeList+0x8>
 802bd26:	4613      	mov	r3, r2
 802bd28:	681a      	ldr	r2, [r3, #0]
 802bd2a:	4282      	cmp	r2, r0
 802bd2c:	d3fb      	bcc.n	802bd26 <prvInsertBlockIntoFreeList+0x6>
	}

	/* Do the block being inserted, and the block it is being inserted after
	make a contiguous block of memory? */
	puc = ( uint8_t * ) pxIterator;
	if( ( puc + pxIterator->xBlockSize ) == ( uint8_t * ) pxBlockToInsert )
 802bd2e:	6859      	ldr	r1, [r3, #4]
 802bd30:	185c      	adds	r4, r3, r1
 802bd32:	4284      	cmp	r4, r0
 802bd34:	d103      	bne.n	802bd3e <prvInsertBlockIntoFreeList+0x1e>
	{
		pxIterator->xBlockSize += pxBlockToInsert->xBlockSize;
 802bd36:	6840      	ldr	r0, [r0, #4]
 802bd38:	1841      	adds	r1, r0, r1
 802bd3a:	6059      	str	r1, [r3, #4]
 802bd3c:	4618      	mov	r0, r3
	}

	/* Do the block being inserted, and the block it is being inserted before
	make a contiguous block of memory? */
	puc = ( uint8_t * ) pxBlockToInsert;
	if( ( puc + pxBlockToInsert->xBlockSize ) == ( uint8_t * ) pxIterator->pxNextFreeBlock )
 802bd3e:	6841      	ldr	r1, [r0, #4]
 802bd40:	1844      	adds	r4, r0, r1
 802bd42:	4294      	cmp	r4, r2
 802bd44:	d106      	bne.n	802bd54 <prvInsertBlockIntoFreeList+0x34>
	{
		if( pxIterator->pxNextFreeBlock != pxEnd )
 802bd46:	4c07      	ldr	r4, [pc, #28]	; (802bd64 <prvInsertBlockIntoFreeList+0x44>)
 802bd48:	6824      	ldr	r4, [r4, #0]
 802bd4a:	42a2      	cmp	r2, r4
 802bd4c:	d002      	beq.n	802bd54 <prvInsertBlockIntoFreeList+0x34>
		{
			/* Form one big block from the two blocks. */
			pxBlockToInsert->xBlockSize += pxIterator->pxNextFreeBlock->xBlockSize;
			pxBlockToInsert->pxNextFreeBlock = pxIterator->pxNextFreeBlock->pxNextFreeBlock;
 802bd4e:	ca14      	ldmia	r2, {r2, r4}
	if( ( puc + pxBlockToInsert->xBlockSize ) == ( uint8_t * ) pxIterator->pxNextFreeBlock )
	{
		if( pxIterator->pxNextFreeBlock != pxEnd )
		{
			/* Form one big block from the two blocks. */
			pxBlockToInsert->xBlockSize += pxIterator->pxNextFreeBlock->xBlockSize;
 802bd50:	1861      	adds	r1, r4, r1
 802bd52:	6041      	str	r1, [r0, #4]

	/* If the block being inserted plugged a gab, so was merged with the block
	before and the block after, then it's pxNextFreeBlock pointer will have
	already been set, and should not be set here as that would make it point
	to itself. */
	if( pxIterator != pxBlockToInsert )
 802bd54:	4283      	cmp	r3, r0
			pxBlockToInsert->pxNextFreeBlock = pxEnd;
		}
	}
	else
	{
		pxBlockToInsert->pxNextFreeBlock = pxIterator->pxNextFreeBlock;
 802bd56:	6002      	str	r2, [r0, #0]
	before and the block after, then it's pxNextFreeBlock pointer will have
	already been set, and should not be set here as that would make it point
	to itself. */
	if( pxIterator != pxBlockToInsert )
	{
		pxIterator->pxNextFreeBlock = pxBlockToInsert;
 802bd58:	bf18      	it	ne
 802bd5a:	6018      	strne	r0, [r3, #0]
 802bd5c:	bd10      	pop	{r4, pc}
 802bd5e:	bf00      	nop
 802bd60:	20000d14 	.word	0x20000d14
 802bd64:	20000d10 	.word	0x20000d10

0802bd68 <pvPortMalloc>:
static size_t xBlockAllocatedBit = 0;

/*-----------------------------------------------------------*/

void *pvPortMalloc( size_t xWantedSize )
{
 802bd68:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 802bd6a:	4605      	mov	r5, r0
BlockLink_t *pxBlock, *pxPreviousBlock, *pxNewBlockLink;
void *pvReturn = NULL;

	vTaskSuspendAll();
 802bd6c:	f7ff f9c0 	bl	802b0f0 <vTaskSuspendAll>
	{
		/* If this is the first call to malloc then the heap will require
		initialisation to setup the list of free blocks. */
		if( pxEnd == NULL )
 802bd70:	4b3a      	ldr	r3, [pc, #232]	; (802be5c <pvPortMalloc+0xf4>)
 802bd72:	681b      	ldr	r3, [r3, #0]
 802bd74:	bb1b      	cbnz	r3, 802bdbe <pvPortMalloc+0x56>
uint8_t *pucAlignedHeap;
uint32_t ulAddress;
size_t xTotalHeapSize = configTOTAL_HEAP_SIZE;

	/* Ensure the heap starts on a correctly aligned boundary. */
	ulAddress = ( uint32_t ) ucHeap;
 802bd76:	4a3a      	ldr	r2, [pc, #232]	; (802be60 <pvPortMalloc+0xf8>)

	if( ( ulAddress & portBYTE_ALIGNMENT_MASK ) != 0 )
 802bd78:	0756      	lsls	r6, r2, #29
 802bd7a:	d007      	beq.n	802bd8c <pvPortMalloc+0x24>
	{
		ulAddress += ( portBYTE_ALIGNMENT - 1 );
 802bd7c:	1dd3      	adds	r3, r2, #7
		ulAddress &= ~portBYTE_ALIGNMENT_MASK;
 802bd7e:	f023 0307 	bic.w	r3, r3, #7
		xTotalHeapSize -= ulAddress - ( uint32_t ) ucHeap;
 802bd82:	f502 4270 	add.w	r2, r2, #61440	; 0xf000
 802bd86:	1ad1      	subs	r1, r2, r3
	ulAddress = ( uint32_t ) ucHeap;

	if( ( ulAddress & portBYTE_ALIGNMENT_MASK ) != 0 )
	{
		ulAddress += ( portBYTE_ALIGNMENT - 1 );
		ulAddress &= ~portBYTE_ALIGNMENT_MASK;
 802bd88:	461a      	mov	r2, r3
 802bd8a:	e001      	b.n	802bd90 <pvPortMalloc+0x28>
static void prvHeapInit( void )
{
BlockLink_t *pxFirstFreeBlock;
uint8_t *pucAlignedHeap;
uint32_t ulAddress;
size_t xTotalHeapSize = configTOTAL_HEAP_SIZE;
 802bd8c:	f44f 4170 	mov.w	r1, #61440	; 0xf000
	xStart.pxNextFreeBlock = ( void * ) pucAlignedHeap;
	xStart.xBlockSize = ( size_t ) 0;

	/* pxEnd is used to mark the end of the list of free blocks and is inserted
	at the end of the heap space. */
	ulAddress = ( ( uint32_t ) pucAlignedHeap ) + xTotalHeapSize;
 802bd90:	1851      	adds	r1, r2, r1
	ulAddress -= xHeapStructSize;
 802bd92:	3908      	subs	r1, #8
	ulAddress &= ~portBYTE_ALIGNMENT_MASK;
 802bd94:	f021 0107 	bic.w	r1, r1, #7

	pucAlignedHeap = ( uint8_t * ) ulAddress;

	/* xStart is used to hold a pointer to the first item in the list of free
	blocks.  The void cast is used to prevent compiler warnings. */
	xStart.pxNextFreeBlock = ( void * ) pucAlignedHeap;
 802bd98:	4832      	ldr	r0, [pc, #200]	; (802be64 <pvPortMalloc+0xfc>)
	xStart.xBlockSize = ( size_t ) 0;
 802bd9a:	2300      	movs	r3, #0
 802bd9c:	e880 000c 	stmia.w	r0, {r2, r3}
	ulAddress = ( ( uint32_t ) pucAlignedHeap ) + xTotalHeapSize;
	ulAddress -= xHeapStructSize;
	ulAddress &= ~portBYTE_ALIGNMENT_MASK;
	pxEnd = ( void * ) ulAddress;
	pxEnd->xBlockSize = 0;
	pxEnd->pxNextFreeBlock = NULL;
 802bda0:	600b      	str	r3, [r1, #0]
	at the end of the heap space. */
	ulAddress = ( ( uint32_t ) pucAlignedHeap ) + xTotalHeapSize;
	ulAddress -= xHeapStructSize;
	ulAddress &= ~portBYTE_ALIGNMENT_MASK;
	pxEnd = ( void * ) ulAddress;
	pxEnd->xBlockSize = 0;
 802bda2:	604b      	str	r3, [r1, #4]
	pxEnd->pxNextFreeBlock = NULL;

	/* To start with there is a single free block that is sized to take up the
	entire heap space, minus the space taken by pxEnd. */
	pxFirstFreeBlock = ( void * ) pucAlignedHeap;
	pxFirstFreeBlock->xBlockSize = ulAddress - ( uint32_t ) pxFirstFreeBlock;
 802bda4:	1a8b      	subs	r3, r1, r2
	pxFirstFreeBlock->pxNextFreeBlock = pxEnd;
 802bda6:	e882 000a 	stmia.w	r2, {r1, r3}

	/* Only one block exists - and it covers the entire usable heap space. */
	xMinimumEverFreeBytesRemaining = pxFirstFreeBlock->xBlockSize;
 802bdaa:	4a2f      	ldr	r2, [pc, #188]	; (802be68 <pvPortMalloc+0x100>)
	/* pxEnd is used to mark the end of the list of free blocks and is inserted
	at the end of the heap space. */
	ulAddress = ( ( uint32_t ) pucAlignedHeap ) + xTotalHeapSize;
	ulAddress -= xHeapStructSize;
	ulAddress &= ~portBYTE_ALIGNMENT_MASK;
	pxEnd = ( void * ) ulAddress;
 802bdac:	482b      	ldr	r0, [pc, #172]	; (802be5c <pvPortMalloc+0xf4>)
	pxFirstFreeBlock = ( void * ) pucAlignedHeap;
	pxFirstFreeBlock->xBlockSize = ulAddress - ( uint32_t ) pxFirstFreeBlock;
	pxFirstFreeBlock->pxNextFreeBlock = pxEnd;

	/* Only one block exists - and it covers the entire usable heap space. */
	xMinimumEverFreeBytesRemaining = pxFirstFreeBlock->xBlockSize;
 802bdae:	6013      	str	r3, [r2, #0]
	xFreeBytesRemaining = pxFirstFreeBlock->xBlockSize;
 802bdb0:	4a2e      	ldr	r2, [pc, #184]	; (802be6c <pvPortMalloc+0x104>)
	/* pxEnd is used to mark the end of the list of free blocks and is inserted
	at the end of the heap space. */
	ulAddress = ( ( uint32_t ) pucAlignedHeap ) + xTotalHeapSize;
	ulAddress -= xHeapStructSize;
	ulAddress &= ~portBYTE_ALIGNMENT_MASK;
	pxEnd = ( void * ) ulAddress;
 802bdb2:	6001      	str	r1, [r0, #0]
	pxFirstFreeBlock->xBlockSize = ulAddress - ( uint32_t ) pxFirstFreeBlock;
	pxFirstFreeBlock->pxNextFreeBlock = pxEnd;

	/* Only one block exists - and it covers the entire usable heap space. */
	xMinimumEverFreeBytesRemaining = pxFirstFreeBlock->xBlockSize;
	xFreeBytesRemaining = pxFirstFreeBlock->xBlockSize;
 802bdb4:	6013      	str	r3, [r2, #0]

	/* Work out the position of the top bit in a size_t variable. */
	xBlockAllocatedBit = ( ( size_t ) 1 ) << ( ( sizeof( size_t ) * heapBITS_PER_BYTE ) - 1 );
 802bdb6:	4b2e      	ldr	r3, [pc, #184]	; (802be70 <pvPortMalloc+0x108>)
 802bdb8:	f04f 4200 	mov.w	r2, #2147483648	; 0x80000000
 802bdbc:	601a      	str	r2, [r3, #0]

		/* Check the requested block size is not so large that the top bit is
		set.  The top bit of the block size member of the BlockLink_t structure
		is used to determine who owns the block - the application or the
		kernel, so it must be free. */
		if( ( xWantedSize & xBlockAllocatedBit ) == 0 )
 802bdbe:	4b2c      	ldr	r3, [pc, #176]	; (802be70 <pvPortMalloc+0x108>)
 802bdc0:	681e      	ldr	r6, [r3, #0]
 802bdc2:	4235      	tst	r5, r6
 802bdc4:	d140      	bne.n	802be48 <pvPortMalloc+0xe0>
		{
			/* The wanted size is increased so it can contain a BlockLink_t
			structure in addition to the requested amount of bytes. */
			if( xWantedSize > 0 )
 802bdc6:	2d00      	cmp	r5, #0
 802bdc8:	d03f      	beq.n	802be4a <pvPortMalloc+0xe2>
			{
				xWantedSize += xHeapStructSize;
 802bdca:	f105 0308 	add.w	r3, r5, #8

				/* Ensure that blocks are always aligned to the required number
				of bytes. */
				if( ( xWantedSize & portBYTE_ALIGNMENT_MASK ) != 0x00 )
 802bdce:	0758      	lsls	r0, r3, #29
				{
					/* Byte alignment required. */
					xWantedSize += ( portBYTE_ALIGNMENT - ( xWantedSize & portBYTE_ALIGNMENT_MASK ) );
 802bdd0:	bf1c      	itt	ne
 802bdd2:	f023 0307 	bicne.w	r3, r3, #7
 802bdd6:	3308      	addne	r3, #8
			else
			{
				mtCOVERAGE_TEST_MARKER();
			}

			if( ( xWantedSize > 0 ) && ( xWantedSize <= xFreeBytesRemaining ) )
 802bdd8:	2b00      	cmp	r3, #0
 802bdda:	d033      	beq.n	802be44 <pvPortMalloc+0xdc>
 802bddc:	4a23      	ldr	r2, [pc, #140]	; (802be6c <pvPortMalloc+0x104>)
 802bdde:	6817      	ldr	r7, [r2, #0]
 802bde0:	42bb      	cmp	r3, r7
 802bde2:	d831      	bhi.n	802be48 <pvPortMalloc+0xe0>
			{
				/* Traverse the list from the start	(lowest address) block until
				one	of adequate size is found. */
				pxPreviousBlock = &xStart;
				pxBlock = xStart.pxNextFreeBlock;
 802bde4:	4a1f      	ldr	r2, [pc, #124]	; (802be64 <pvPortMalloc+0xfc>)
 802bde6:	6814      	ldr	r4, [r2, #0]
				while( ( pxBlock->xBlockSize < xWantedSize ) && ( pxBlock->pxNextFreeBlock != NULL ) )
 802bde8:	e001      	b.n	802bdee <pvPortMalloc+0x86>
 802bdea:	4622      	mov	r2, r4
				{
					pxPreviousBlock = pxBlock;
					pxBlock = pxBlock->pxNextFreeBlock;
 802bdec:	4604      	mov	r4, r0
			{
				/* Traverse the list from the start	(lowest address) block until
				one	of adequate size is found. */
				pxPreviousBlock = &xStart;
				pxBlock = xStart.pxNextFreeBlock;
				while( ( pxBlock->xBlockSize < xWantedSize ) && ( pxBlock->pxNextFreeBlock != NULL ) )
 802bdee:	6861      	ldr	r1, [r4, #4]
 802bdf0:	4299      	cmp	r1, r3
 802bdf2:	d304      	bcc.n	802bdfe <pvPortMalloc+0x96>
					pxBlock = pxBlock->pxNextFreeBlock;
				}

				/* If the end marker was reached then a block of adequate size
				was	not found. */
				if( pxBlock != pxEnd )
 802bdf4:	4819      	ldr	r0, [pc, #100]	; (802be5c <pvPortMalloc+0xf4>)
 802bdf6:	6800      	ldr	r0, [r0, #0]
 802bdf8:	4284      	cmp	r4, r0
 802bdfa:	d104      	bne.n	802be06 <pvPortMalloc+0x9e>
 802bdfc:	e024      	b.n	802be48 <pvPortMalloc+0xe0>
			{
				/* Traverse the list from the start	(lowest address) block until
				one	of adequate size is found. */
				pxPreviousBlock = &xStart;
				pxBlock = xStart.pxNextFreeBlock;
				while( ( pxBlock->xBlockSize < xWantedSize ) && ( pxBlock->pxNextFreeBlock != NULL ) )
 802bdfe:	6820      	ldr	r0, [r4, #0]
 802be00:	2800      	cmp	r0, #0
 802be02:	d1f2      	bne.n	802bdea <pvPortMalloc+0x82>
 802be04:	e7f6      	b.n	802bdf4 <pvPortMalloc+0x8c>
					BlockLink_t structure at its start. */
					pvReturn = ( void * ) ( ( ( uint8_t * ) pxPreviousBlock->pxNextFreeBlock ) + xHeapStructSize );

					/* This block is being returned for use so must be taken out
					of the list of free blocks. */
					pxPreviousBlock->pxNextFreeBlock = pxBlock->pxNextFreeBlock;
 802be06:	6820      	ldr	r0, [r4, #0]
				was	not found. */
				if( pxBlock != pxEnd )
				{
					/* Return the memory space pointed to - jumping over the
					BlockLink_t structure at its start. */
					pvReturn = ( void * ) ( ( ( uint8_t * ) pxPreviousBlock->pxNextFreeBlock ) + xHeapStructSize );
 802be08:	6815      	ldr	r5, [r2, #0]

					/* This block is being returned for use so must be taken out
					of the list of free blocks. */
					pxPreviousBlock->pxNextFreeBlock = pxBlock->pxNextFreeBlock;
 802be0a:	6010      	str	r0, [r2, #0]

					/* If the block is larger than required it can be split into
					two. */
					if( ( pxBlock->xBlockSize - xWantedSize ) > heapMINIMUM_BLOCK_SIZE )
 802be0c:	1aca      	subs	r2, r1, r3
				was	not found. */
				if( pxBlock != pxEnd )
				{
					/* Return the memory space pointed to - jumping over the
					BlockLink_t structure at its start. */
					pvReturn = ( void * ) ( ( ( uint8_t * ) pxPreviousBlock->pxNextFreeBlock ) + xHeapStructSize );
 802be0e:	3508      	adds	r5, #8
					of the list of free blocks. */
					pxPreviousBlock->pxNextFreeBlock = pxBlock->pxNextFreeBlock;

					/* If the block is larger than required it can be split into
					two. */
					if( ( pxBlock->xBlockSize - xWantedSize ) > heapMINIMUM_BLOCK_SIZE )
 802be10:	2a10      	cmp	r2, #16
 802be12:	d909      	bls.n	802be28 <pvPortMalloc+0xc0>
					{
						/* This block is to be split into two.  Create a new
						block following the number of bytes requested. The void
						cast is used to prevent byte alignment warnings from the
						compiler. */
						pxNewBlockLink = ( void * ) ( ( ( uint8_t * ) pxBlock ) + xWantedSize );
 802be14:	18e0      	adds	r0, r4, r3
						configASSERT( ( ( ( uint32_t ) pxNewBlockLink ) & portBYTE_ALIGNMENT_MASK ) == 0 );
 802be16:	0741      	lsls	r1, r0, #29
 802be18:	d002      	beq.n	802be20 <pvPortMalloc+0xb8>
 802be1a:	f7ff fe8f 	bl	802bb3c <ulPortSetInterruptMask>
 802be1e:	e7fe      	b.n	802be1e <pvPortMalloc+0xb6>

						/* Calculate the sizes of two blocks split from the
						single block. */
						pxNewBlockLink->xBlockSize = pxBlock->xBlockSize - xWantedSize;
 802be20:	6042      	str	r2, [r0, #4]
						pxBlock->xBlockSize = xWantedSize;
 802be22:	6063      	str	r3, [r4, #4]

						/* Insert the new block into the list of free blocks. */
						prvInsertBlockIntoFreeList( ( pxNewBlockLink ) );
 802be24:	f7ff ff7c 	bl	802bd20 <prvInsertBlockIntoFreeList>
					else
					{
						mtCOVERAGE_TEST_MARKER();
					}

					xFreeBytesRemaining -= pxBlock->xBlockSize;
 802be28:	6862      	ldr	r2, [r4, #4]
 802be2a:	4910      	ldr	r1, [pc, #64]	; (802be6c <pvPortMalloc+0x104>)
 802be2c:	1abb      	subs	r3, r7, r2
 802be2e:	600b      	str	r3, [r1, #0]

					if( xFreeBytesRemaining < xMinimumEverFreeBytesRemaining )
 802be30:	490d      	ldr	r1, [pc, #52]	; (802be68 <pvPortMalloc+0x100>)
 802be32:	6808      	ldr	r0, [r1, #0]
 802be34:	4283      	cmp	r3, r0
					{
						xMinimumEverFreeBytesRemaining = xFreeBytesRemaining;
 802be36:	bf38      	it	cc
 802be38:	600b      	strcc	r3, [r1, #0]
						mtCOVERAGE_TEST_MARKER();
					}

					/* The block is being returned - it is allocated and owned
					by the application and has no "next" block. */
					pxBlock->xBlockSize |= xBlockAllocatedBit;
 802be3a:	4316      	orrs	r6, r2
					pxBlock->pxNextFreeBlock = NULL;
 802be3c:	2300      	movs	r3, #0
 802be3e:	e884 0048 	stmia.w	r4, {r3, r6}
 802be42:	e002      	b.n	802be4a <pvPortMalloc+0xe2>
/*-----------------------------------------------------------*/

void *pvPortMalloc( size_t xWantedSize )
{
BlockLink_t *pxBlock, *pxPreviousBlock, *pxNewBlockLink;
void *pvReturn = NULL;
 802be44:	461d      	mov	r5, r3
 802be46:	e000      	b.n	802be4a <pvPortMalloc+0xe2>
 802be48:	2500      	movs	r5, #0
			mtCOVERAGE_TEST_MARKER();
		}

		traceMALLOC( pvReturn, xWantedSize );
	}
	( void ) xTaskResumeAll();
 802be4a:	f7ff f9ed 	bl	802b228 <xTaskResumeAll>
			mtCOVERAGE_TEST_MARKER();
		}
	}
	#endif

	configASSERT( ( ( ( uint32_t ) pvReturn ) & portBYTE_ALIGNMENT_MASK ) == 0 );
 802be4e:	076b      	lsls	r3, r5, #29
 802be50:	d002      	beq.n	802be58 <pvPortMalloc+0xf0>
 802be52:	f7ff fe73 	bl	802bb3c <ulPortSetInterruptMask>
 802be56:	e7fe      	b.n	802be56 <pvPortMalloc+0xee>
	return pvReturn;
}
 802be58:	4628      	mov	r0, r5
 802be5a:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 802be5c:	20000d10 	.word	0x20000d10
 802be60:	10000000 	.word	0x10000000
 802be64:	20000d14 	.word	0x20000d14
 802be68:	20000d1c 	.word	0x20000d1c
 802be6c:	20000d0c 	.word	0x20000d0c
 802be70:	20000d20 	.word	0x20000d20

0802be74 <vPortFree>:
/*-----------------------------------------------------------*/

void vPortFree( void *pv )
{
 802be74:	b510      	push	{r4, lr}
uint8_t *puc = ( uint8_t * ) pv;
BlockLink_t *pxLink;

	if( pv != NULL )
 802be76:	4604      	mov	r4, r0
 802be78:	b310      	cbz	r0, 802bec0 <vPortFree+0x4c>

		/* This casting is to keep the compiler from issuing warnings. */
		pxLink = ( void * ) puc;

		/* Check the block is actually allocated. */
		configASSERT( ( pxLink->xBlockSize & xBlockAllocatedBit ) != 0 );
 802be7a:	4a12      	ldr	r2, [pc, #72]	; (802bec4 <vPortFree+0x50>)
 802be7c:	f850 3c04 	ldr.w	r3, [r0, #-4]
 802be80:	6812      	ldr	r2, [r2, #0]
 802be82:	421a      	tst	r2, r3
 802be84:	d102      	bne.n	802be8c <vPortFree+0x18>
 802be86:	f7ff fe59 	bl	802bb3c <ulPortSetInterruptMask>
 802be8a:	e7fe      	b.n	802be8a <vPortFree+0x16>
		configASSERT( pxLink->pxNextFreeBlock == NULL );
 802be8c:	f850 1c08 	ldr.w	r1, [r0, #-8]
 802be90:	b111      	cbz	r1, 802be98 <vPortFree+0x24>
 802be92:	f7ff fe53 	bl	802bb3c <ulPortSetInterruptMask>
 802be96:	e7fe      	b.n	802be96 <vPortFree+0x22>
		{
			if( pxLink->pxNextFreeBlock == NULL )
			{
				/* The block is being returned to the heap - it is no longer
				allocated. */
				pxLink->xBlockSize &= ~xBlockAllocatedBit;
 802be98:	ea23 0302 	bic.w	r3, r3, r2
 802be9c:	f840 3c04 	str.w	r3, [r0, #-4]

				vTaskSuspendAll();
 802bea0:	f7ff f926 	bl	802b0f0 <vTaskSuspendAll>
				{
					/* Add this block to the list of free blocks. */
					xFreeBytesRemaining += pxLink->xBlockSize;
 802bea4:	4b08      	ldr	r3, [pc, #32]	; (802bec8 <vPortFree+0x54>)
 802bea6:	f854 1c04 	ldr.w	r1, [r4, #-4]
 802beaa:	681a      	ldr	r2, [r3, #0]
					traceFREE( pv, pxLink->xBlockSize );
					prvInsertBlockIntoFreeList( ( ( BlockLink_t * ) pxLink ) );
 802beac:	f1a4 0008 	sub.w	r0, r4, #8
				pxLink->xBlockSize &= ~xBlockAllocatedBit;

				vTaskSuspendAll();
				{
					/* Add this block to the list of free blocks. */
					xFreeBytesRemaining += pxLink->xBlockSize;
 802beb0:	188a      	adds	r2, r1, r2
 802beb2:	601a      	str	r2, [r3, #0]
					traceFREE( pv, pxLink->xBlockSize );
					prvInsertBlockIntoFreeList( ( ( BlockLink_t * ) pxLink ) );
 802beb4:	f7ff ff34 	bl	802bd20 <prvInsertBlockIntoFreeList>
		else
		{
			mtCOVERAGE_TEST_MARKER();
		}
	}
}
 802beb8:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
					/* Add this block to the list of free blocks. */
					xFreeBytesRemaining += pxLink->xBlockSize;
					traceFREE( pv, pxLink->xBlockSize );
					prvInsertBlockIntoFreeList( ( ( BlockLink_t * ) pxLink ) );
				}
				( void ) xTaskResumeAll();
 802bebc:	f7ff b9b4 	b.w	802b228 <xTaskResumeAll>
 802bec0:	bd10      	pop	{r4, pc}
 802bec2:	bf00      	nop
 802bec4:	20000d20 	.word	0x20000d20
 802bec8:	20000d0c 	.word	0x20000d0c

0802becc <http_sent_log_err>:
static void http_sent_log_err(void * arg, err_t err)
{
    (void)err;
    (void)arg;
    /* Clear file transfer in progress flag */
    fLogTransInprog = false;
 802becc:	4b01      	ldr	r3, [pc, #4]	; (802bed4 <http_sent_log_err+0x8>)
 802bece:	2200      	movs	r2, #0
 802bed0:	701a      	strb	r2, [r3, #0]
 802bed2:	4770      	bx	lr
 802bed4:	20000d30 	.word	0x20000d30

0802bed8 <fs_open>:
  * @param  name : pointer to a file name
  * @param  file : pointer to a fs_file structure  
  * @retval  1 if success, 0 if fail
  */
static int fs_open(char *name, struct fs_file *file)
{
 802bed8:	b570      	push	{r4, r5, r6, lr}
  struct fsdata_file_noconst *f;

  for (f = (struct fsdata_file_noconst *)FS_ROOT; f != NULL; f = (struct fsdata_file_noconst *)f->next)
 802beda:	4c09      	ldr	r4, [pc, #36]	; (802bf00 <fs_open+0x28>)
  * @param  name : pointer to a file name
  * @param  file : pointer to a fs_file structure  
  * @retval  1 if success, 0 if fail
  */
static int fs_open(char *name, struct fs_file *file)
{
 802bedc:	4606      	mov	r6, r0
 802bede:	460d      	mov	r5, r1
  struct fsdata_file_noconst *f;

  for (f = (struct fsdata_file_noconst *)FS_ROOT; f != NULL; f = (struct fsdata_file_noconst *)f->next)
  {
    if (!strcmp(name, f->name))
 802bee0:	4630      	mov	r0, r6
 802bee2:	6861      	ldr	r1, [r4, #4]
 802bee4:	f7f5 ffe8 	bl	8021eb8 <strcmp>
 802bee8:	b928      	cbnz	r0, 802bef6 <fs_open+0x1e>
    {
      file->data = f->data;
 802beea:	68a3      	ldr	r3, [r4, #8]
 802beec:	602b      	str	r3, [r5, #0]
      file->len = f->len;
 802beee:	68e3      	ldr	r3, [r4, #12]
      return 1;
 802bef0:	2001      	movs	r0, #1
  for (f = (struct fsdata_file_noconst *)FS_ROOT; f != NULL; f = (struct fsdata_file_noconst *)f->next)
  {
    if (!strcmp(name, f->name))
    {
      file->data = f->data;
      file->len = f->len;
 802bef2:	606b      	str	r3, [r5, #4]
      return 1;
 802bef4:	bd70      	pop	{r4, r5, r6, pc}
  */
static int fs_open(char *name, struct fs_file *file)
{
  struct fsdata_file_noconst *f;

  for (f = (struct fsdata_file_noconst *)FS_ROOT; f != NULL; f = (struct fsdata_file_noconst *)f->next)
 802bef6:	6824      	ldr	r4, [r4, #0]
 802bef8:	2c00      	cmp	r4, #0
 802befa:	d1f1      	bne.n	802bee0 <fs_open+0x8>
      file->data = f->data;
      file->len = f->len;
      return 1;
    }
  }
  return 0;
 802befc:	4620      	mov	r0, r4
}
 802befe:	bd70      	pop	{r4, r5, r6, pc}
 802bf00:	08042c1c 	.word	0x08042c1c

0802bf04 <http_accept>:
  * @param  pcb: pointer to a tcp_pcb structure
  * &param  err: Lwip stack error code
  * @retval err
  */
static err_t http_accept(void *arg, struct tcp_pcb *pcb, err_t err)
{
 802bf04:	b538      	push	{r3, r4, r5, lr}
  struct http_state *hs;

  /* Allocate memory for the structure that holds the state of the connection */
  hs = mem_malloc(sizeof(struct http_state));
 802bf06:	2008      	movs	r0, #8
  * @param  pcb: pointer to a tcp_pcb structure
  * &param  err: Lwip stack error code
  * @retval err
  */
static err_t http_accept(void *arg, struct tcp_pcb *pcb, err_t err)
{
 802bf08:	460c      	mov	r4, r1
  struct http_state *hs;

  /* Allocate memory for the structure that holds the state of the connection */
  hs = mem_malloc(sizeof(struct http_state));
 802bf0a:	f003 f94b 	bl	802f1a4 <mem_malloc>

  if (hs == NULL)
 802bf0e:	4601      	mov	r1, r0
 802bf10:	b1a0      	cbz	r0, 802bf3c <http_accept+0x38>
  {
    return ERR_MEM;
  }

  /* Initialize the structure. */
  hs->file = NULL;
 802bf12:	2500      	movs	r5, #0
 802bf14:	6005      	str	r5, [r0, #0]
  hs->left = 0;
 802bf16:	6045      	str	r5, [r0, #4]

  /* Tell TCP that this is the structure we wish to be passed for our
     callbacks. */
  tcp_arg(pcb, hs);
 802bf18:	4620      	mov	r0, r4
 802bf1a:	f003 fdb1 	bl	802fa80 <tcp_arg>

  /* Tell TCP that we wish to be informed of incoming data by a call
     to the http_recv() function. */
  tcp_recv(pcb, http_recv);
 802bf1e:	4620      	mov	r0, r4
 802bf20:	4908      	ldr	r1, [pc, #32]	; (802bf44 <http_accept+0x40>)
 802bf22:	f003 fdaf 	bl	802fa84 <tcp_recv>

  tcp_err(pcb, conn_err);
 802bf26:	4620      	mov	r0, r4
 802bf28:	4907      	ldr	r1, [pc, #28]	; (802bf48 <http_accept+0x44>)
 802bf2a:	f003 fdaf 	bl	802fa8c <tcp_err>

  tcp_poll(pcb, http_poll, 10);
 802bf2e:	4620      	mov	r0, r4
 802bf30:	4906      	ldr	r1, [pc, #24]	; (802bf4c <http_accept+0x48>)
 802bf32:	220a      	movs	r2, #10
 802bf34:	f003 fdaf 	bl	802fa96 <tcp_poll>
  return ERR_OK;
 802bf38:	4628      	mov	r0, r5
 802bf3a:	e000      	b.n	802bf3e <http_accept+0x3a>
  /* Allocate memory for the structure that holds the state of the connection */
  hs = mem_malloc(sizeof(struct http_state));

  if (hs == NULL)
  {
    return ERR_MEM;
 802bf3c:	20ff      	movs	r0, #255	; 0xff

  tcp_err(pcb, conn_err);

  tcp_poll(pcb, http_poll, 10);
  return ERR_OK;
}
 802bf3e:	b240      	sxtb	r0, r0
 802bf40:	bd38      	pop	{r3, r4, r5, pc}
 802bf42:	bf00      	nop
 802bf44:	0802cf85 	.word	0x0802cf85
 802bf48:	0802bf93 	.word	0x0802bf93
 802bf4c:	0802bf7b 	.word	0x0802bf7b

0802bf50 <send_data>:
  * @param pcb: pointer to a tcp_pcb struct
  * @param hs: pointer to a http_state struct
  * @retval none
  */
static void send_data(struct tcp_pcb *pcb, struct http_state *hs)
{
 802bf50:	b538      	push	{r3, r4, r5, lr}
  err_t err;
  u16_t len;

  /* We cannot send more data than space available in the send
     buffer */
  if (tcp_sndbuf(pcb) < hs->left)
 802bf52:	684b      	ldr	r3, [r1, #4]
 802bf54:	f8b0 5066 	ldrh.w	r5, [r0, #102]	; 0x66
 802bf58:	429d      	cmp	r5, r3
  {
    len = tcp_sndbuf(pcb);
  }
  else
  {
    len = hs->left;
 802bf5a:	bf28      	it	cs
 802bf5c:	b29d      	uxthcs	r5, r3
  * @param pcb: pointer to a tcp_pcb struct
  * @param hs: pointer to a http_state struct
  * @retval none
  */
static void send_data(struct tcp_pcb *pcb, struct http_state *hs)
{
 802bf5e:	460c      	mov	r4, r1
  }
  else
  {
    len = hs->left;
  }
  err = tcp_write(pcb, hs->file, len, 0);
 802bf60:	462a      	mov	r2, r5
 802bf62:	6809      	ldr	r1, [r1, #0]
 802bf64:	2300      	movs	r3, #0
 802bf66:	f005 f8f0 	bl	803114a <tcp_write>
  if (err == ERR_OK)
 802bf6a:	b928      	cbnz	r0, 802bf78 <send_data+0x28>
  {
    hs->file += len;
 802bf6c:	6823      	ldr	r3, [r4, #0]
 802bf6e:	195b      	adds	r3, r3, r5
 802bf70:	6023      	str	r3, [r4, #0]
    hs->left -= len;
 802bf72:	6863      	ldr	r3, [r4, #4]
 802bf74:	1b5d      	subs	r5, r3, r5
 802bf76:	6065      	str	r5, [r4, #4]
 802bf78:	bd38      	pop	{r3, r4, r5, pc}

0802bf7a <http_poll>:
  * @param arg: pointer to an argument to be passed to callback function
  * @param pcb: pointer on tcp_pcb structure
  * @retval err_t
  */
static err_t http_poll(void *arg, struct tcp_pcb *pcb)
{
 802bf7a:	b508      	push	{r3, lr}
  if (arg == NULL)
 802bf7c:	4603      	mov	r3, r0
  {
    tcp_close(pcb);
 802bf7e:	4608      	mov	r0, r1
  * @param pcb: pointer on tcp_pcb structure
  * @retval err_t
  */
static err_t http_poll(void *arg, struct tcp_pcb *pcb)
{
  if (arg == NULL)
 802bf80:	b913      	cbnz	r3, 802bf88 <http_poll+0xe>
  {
    tcp_close(pcb);
 802bf82:	f004 f81b 	bl	802ffbc <tcp_close>
 802bf86:	e002      	b.n	802bf8e <http_poll+0x14>
  }
  else
  {
    send_data(pcb, (struct http_state *)arg);
 802bf88:	4619      	mov	r1, r3
 802bf8a:	f7ff ffe1 	bl	802bf50 <send_data>
  }
  return ERR_OK;
}
 802bf8e:	2000      	movs	r0, #0
 802bf90:	bd08      	pop	{r3, pc}

0802bf92 <conn_err>:
static void conn_err(void *arg, err_t err)
{
  struct http_state *hs;

  hs = arg;
  mem_free(hs);
 802bf92:	f003 b83f 	b.w	802f014 <mem_free>

0802bf96 <close_conn>:
  * @param  pcb: pointer to a tcp_pcb struct
  * @param  hs: pointer to a http_state struct
  * @retval
  */
static void close_conn(struct tcp_pcb *pcb, struct http_state *hs)
{
 802bf96:	b538      	push	{r3, r4, r5, lr}
 802bf98:	4604      	mov	r4, r0
 802bf9a:	460d      	mov	r5, r1
  tcp_arg(pcb, NULL);
 802bf9c:	2100      	movs	r1, #0
 802bf9e:	f003 fd6f 	bl	802fa80 <tcp_arg>
  tcp_sent(pcb, NULL);
 802bfa2:	4620      	mov	r0, r4
 802bfa4:	2100      	movs	r1, #0
 802bfa6:	f003 fd6f 	bl	802fa88 <tcp_sent>
  tcp_recv(pcb, NULL);
 802bfaa:	4620      	mov	r0, r4
 802bfac:	2100      	movs	r1, #0
 802bfae:	f003 fd69 	bl	802fa84 <tcp_recv>
  mem_free(hs);
 802bfb2:	4628      	mov	r0, r5
 802bfb4:	f003 f82e 	bl	802f014 <mem_free>
  tcp_close(pcb);
 802bfb8:	4620      	mov	r0, r4
}
 802bfba:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
{
  tcp_arg(pcb, NULL);
  tcp_sent(pcb, NULL);
  tcp_recv(pcb, NULL);
  mem_free(hs);
  tcp_close(pcb);
 802bfbe:	f003 bffd 	b.w	802ffbc <tcp_close>

0802bfc2 <http_sent>:
  * @param pcb: pointer on tcp_pcb structure
  * @param len
  * @retval err : LwIP error code
  */
static err_t http_sent(void *arg, struct tcp_pcb *pcb, u16_t len)
{
 802bfc2:	b508      	push	{r3, lr}
 802bfc4:	4603      	mov	r3, r0
 802bfc6:	4608      	mov	r0, r1
  struct http_state *hs;

  hs = arg;

  if (hs->left > 0)
 802bfc8:	685a      	ldr	r2, [r3, #4]
  {
    send_data(pcb, hs);
 802bfca:	4619      	mov	r1, r3
{
  struct http_state *hs;

  hs = arg;

  if (hs->left > 0)
 802bfcc:	b112      	cbz	r2, 802bfd4 <http_sent+0x12>
  {
    send_data(pcb, hs);
 802bfce:	f7ff ffbf 	bl	802bf50 <send_data>
 802bfd2:	e001      	b.n	802bfd8 <http_sent+0x16>
  }
  else
  {
    close_conn(pcb, hs);      
 802bfd4:	f7ff ffdf 	bl	802bf96 <close_conn>
  }
  return ERR_OK;
}
 802bfd8:	2000      	movs	r0, #0
 802bfda:	bd08      	pop	{r3, pc}

0802bfdc <http_sent_log>:

/**
  * @brief Sent callback for log file transfer (messages as is, not ordered)
  */
static err_t http_sent_log(void *arg, struct tcp_pcb *pcb, u16_t len)
{
 802bfdc:	b570      	push	{r4, r5, r6, lr}
  static bool start = true;
  (void)len;

  hs = arg;

  if (hs->left > 0)
 802bfde:	6845      	ldr	r5, [r0, #4]

/**
  * @brief Sent callback for log file transfer (messages as is, not ordered)
  */
static err_t http_sent_log(void *arg, struct tcp_pcb *pcb, u16_t len)
{
 802bfe0:	4604      	mov	r4, r0
 802bfe2:	460e      	mov	r6, r1
  static bool start = true;
  (void)len;

  hs = arg;

  if (hs->left > 0)
 802bfe4:	b125      	cbz	r5, 802bff0 <http_sent_log+0x14>
  {
    send_data(pcb, hs);
 802bfe6:	4608      	mov	r0, r1
 802bfe8:	4621      	mov	r1, r4
 802bfea:	f7ff ffb1 	bl	802bf50 <send_data>
 802bfee:	e036      	b.n	802c05e <http_sent_log+0x82>
  }
  else
  {
	  memset(logFileBuf, 0, FILE_BUF_MAX_LEN);
 802bff0:	f44f 727a 	mov.w	r2, #1000	; 0x3e8
 802bff4:	481b      	ldr	r0, [pc, #108]	; (802c064 <http_sent_log+0x88>)
 802bff6:	4629      	mov	r1, r5
 802bff8:	f7f5 fed2 	bl	8021da0 <memset>
      if (log_ptr + FILE_BUF_MAX_LEN_LOG <= log_size) {
 802bffc:	4b1a      	ldr	r3, [pc, #104]	; (802c068 <http_sent_log+0x8c>)
 802bffe:	6818      	ldr	r0, [r3, #0]
 802c000:	4b1a      	ldr	r3, [pc, #104]	; (802c06c <http_sent_log+0x90>)
 802c002:	681a      	ldr	r2, [r3, #0]
 802c004:	f500 7320 	add.w	r3, r0, #640	; 0x280
 802c008:	4293      	cmp	r3, r2
 802c00a:	4b19      	ldr	r3, [pc, #100]	; (802c070 <http_sent_log+0x94>)
 802c00c:	d803      	bhi.n	802c016 <http_sent_log+0x3a>
          nbytes = LOG_GetData(log_ptr, logFileBuf, FILE_BUF_MAX_LEN_LOG, start);
 802c00e:	4915      	ldr	r1, [pc, #84]	; (802c064 <http_sent_log+0x88>)
 802c010:	f44f 7220 	mov.w	r2, #640	; 0x280
 802c014:	e003      	b.n	802c01e <http_sent_log+0x42>
      }
      else if (log_ptr < log_size) {
 802c016:	4290      	cmp	r0, r2
 802c018:	d205      	bcs.n	802c026 <http_sent_log+0x4a>
          nbytes = LOG_GetData(log_ptr, logFileBuf, (log_size - log_ptr), start);
 802c01a:	4912      	ldr	r1, [pc, #72]	; (802c064 <http_sent_log+0x88>)
 802c01c:	1a12      	subs	r2, r2, r0
 802c01e:	781b      	ldrb	r3, [r3, #0]
 802c020:	f7fd ffe8 	bl	8029ff4 <LOG_GetData>
 802c024:	4605      	mov	r5, r0
      }
      else {
          nbytes = 0;
      }
      log_ptr += nbytes;
 802c026:	4b10      	ldr	r3, [pc, #64]	; (802c068 <http_sent_log+0x8c>)
 802c028:	681a      	ldr	r2, [r3, #0]
 802c02a:	18aa      	adds	r2, r5, r2
 802c02c:	601a      	str	r2, [r3, #0]

      start = false;
 802c02e:	4b10      	ldr	r3, [pc, #64]	; (802c070 <http_sent_log+0x94>)
 802c030:	2200      	movs	r2, #0
 802c032:	701a      	strb	r2, [r3, #0]
      if (nbytes == 0) {
 802c034:	b945      	cbnz	r5, 802c048 <http_sent_log+0x6c>
          /* File transfer finished. */
          start = true;
 802c036:	2201      	movs	r2, #1
          close_conn(pcb, hs);
 802c038:	4630      	mov	r0, r6
 802c03a:	4621      	mov	r1, r4
      log_ptr += nbytes;

      start = false;
      if (nbytes == 0) {
          /* File transfer finished. */
          start = true;
 802c03c:	701a      	strb	r2, [r3, #0]
          close_conn(pcb, hs);
 802c03e:	f7ff ffaa 	bl	802bf96 <close_conn>

          /* Clear file transfer in progress flag */
          fLogTransInprog = false;
 802c042:	4b0c      	ldr	r3, [pc, #48]	; (802c074 <http_sent_log+0x98>)
 802c044:	701d      	strb	r5, [r3, #0]
 802c046:	e00a      	b.n	802c05e <http_sent_log+0x82>

          return ERR_OK;
      }

      hs->file = logFileBuf;
 802c048:	4b06      	ldr	r3, [pc, #24]	; (802c064 <http_sent_log+0x88>)
      hs->left = nbytes;
      send_data(pcb, hs);
 802c04a:	4630      	mov	r0, r6
 802c04c:	4621      	mov	r1, r4

          return ERR_OK;
      }

      hs->file = logFileBuf;
      hs->left = nbytes;
 802c04e:	e884 0028 	stmia.w	r4, {r3, r5}
      send_data(pcb, hs);
 802c052:	f7ff ff7d 	bl	802bf50 <send_data>
      tcp_sent(pcb, http_sent_log);
 802c056:	4630      	mov	r0, r6
 802c058:	4907      	ldr	r1, [pc, #28]	; (802c078 <http_sent_log+0x9c>)
 802c05a:	f003 fd15 	bl	802fa88 <tcp_sent>

  }
  return ERR_OK;
}
 802c05e:	2000      	movs	r0, #0
 802c060:	bd70      	pop	{r4, r5, r6, pc}
 802c062:	bf00      	nop
 802c064:	2000cf94 	.word	0x2000cf94
 802c068:	20000d28 	.word	0x20000d28
 802c06c:	20000d34 	.word	0x20000d34
 802c070:	20000711 	.word	0x20000711
 802c074:	20000d30 	.word	0x20000d30
 802c078:	0802bfdd 	.word	0x0802bfdd

0802c07c <http_sent_history>:

/**
  * @brief Sent callback for log file transfer (messages as is, not ordered)
  */
static err_t http_sent_history(void *arg, struct tcp_pcb *pcb, u16_t len)
{
 802c07c:	b570      	push	{r4, r5, r6, lr}
  static bool start = true;
  (void)len;

  hs = arg;

  if (hs->left > 0)
 802c07e:	6845      	ldr	r5, [r0, #4]

/**
  * @brief Sent callback for log file transfer (messages as is, not ordered)
  */
static err_t http_sent_history(void *arg, struct tcp_pcb *pcb, u16_t len)
{
 802c080:	4604      	mov	r4, r0
 802c082:	460e      	mov	r6, r1
  static bool start = true;
  (void)len;

  hs = arg;

  if (hs->left > 0)
 802c084:	b125      	cbz	r5, 802c090 <http_sent_history+0x14>
  {
    send_data(pcb, hs);
 802c086:	4608      	mov	r0, r1
 802c088:	4621      	mov	r1, r4
 802c08a:	f7ff ff61 	bl	802bf50 <send_data>
 802c08e:	e036      	b.n	802c0fe <http_sent_history+0x82>
  }
  else
  {
	  memset(logFileBuf, 0, FILE_BUF_MAX_LEN);
 802c090:	f44f 727a 	mov.w	r2, #1000	; 0x3e8
 802c094:	481b      	ldr	r0, [pc, #108]	; (802c104 <http_sent_history+0x88>)
 802c096:	4629      	mov	r1, r5
 802c098:	f7f5 fe82 	bl	8021da0 <memset>
      if (log_ptr + FILE_BUF_MAX_LEN <= log_size) {
 802c09c:	4b1a      	ldr	r3, [pc, #104]	; (802c108 <http_sent_history+0x8c>)
 802c09e:	6818      	ldr	r0, [r3, #0]
 802c0a0:	4b1a      	ldr	r3, [pc, #104]	; (802c10c <http_sent_history+0x90>)
 802c0a2:	681a      	ldr	r2, [r3, #0]
 802c0a4:	f500 737a 	add.w	r3, r0, #1000	; 0x3e8
 802c0a8:	4293      	cmp	r3, r2
 802c0aa:	4b19      	ldr	r3, [pc, #100]	; (802c110 <http_sent_history+0x94>)
 802c0ac:	d803      	bhi.n	802c0b6 <http_sent_history+0x3a>
          nbytes = History_GetData(log_ptr, logFileBuf, FILE_BUF_MAX_LEN, start);
 802c0ae:	4915      	ldr	r1, [pc, #84]	; (802c104 <http_sent_history+0x88>)
 802c0b0:	f44f 727a 	mov.w	r2, #1000	; 0x3e8
 802c0b4:	e003      	b.n	802c0be <http_sent_history+0x42>
      }
      else if (log_ptr < log_size) {
 802c0b6:	4290      	cmp	r0, r2
 802c0b8:	d205      	bcs.n	802c0c6 <http_sent_history+0x4a>
          nbytes = History_GetData(log_ptr, logFileBuf, (log_size - log_ptr), start);
 802c0ba:	4912      	ldr	r1, [pc, #72]	; (802c104 <http_sent_history+0x88>)
 802c0bc:	1a12      	subs	r2, r2, r0
 802c0be:	781b      	ldrb	r3, [r3, #0]
 802c0c0:	f7fe f8a8 	bl	802a214 <History_GetData>
 802c0c4:	4605      	mov	r5, r0
      }
      else {
          nbytes = 0;
      }
      log_ptr += nbytes;
 802c0c6:	4b10      	ldr	r3, [pc, #64]	; (802c108 <http_sent_history+0x8c>)
 802c0c8:	681a      	ldr	r2, [r3, #0]
 802c0ca:	18aa      	adds	r2, r5, r2
 802c0cc:	601a      	str	r2, [r3, #0]

      start = false;
 802c0ce:	4b10      	ldr	r3, [pc, #64]	; (802c110 <http_sent_history+0x94>)
 802c0d0:	2200      	movs	r2, #0
 802c0d2:	701a      	strb	r2, [r3, #0]
      if (nbytes == 0) {
 802c0d4:	b945      	cbnz	r5, 802c0e8 <http_sent_history+0x6c>
          /* File transfer finished. */
          start = true;
 802c0d6:	2201      	movs	r2, #1
          close_conn(pcb, hs);
 802c0d8:	4630      	mov	r0, r6
 802c0da:	4621      	mov	r1, r4
      log_ptr += nbytes;

      start = false;
      if (nbytes == 0) {
          /* File transfer finished. */
          start = true;
 802c0dc:	701a      	strb	r2, [r3, #0]
          close_conn(pcb, hs);
 802c0de:	f7ff ff5a 	bl	802bf96 <close_conn>

          /* Clear file transfer in progress flag */
          fLogTransInprog = false;
 802c0e2:	4b0c      	ldr	r3, [pc, #48]	; (802c114 <http_sent_history+0x98>)
 802c0e4:	701d      	strb	r5, [r3, #0]
 802c0e6:	e00a      	b.n	802c0fe <http_sent_history+0x82>

          return ERR_OK;
      }

      hs->file = logFileBuf;
 802c0e8:	4b06      	ldr	r3, [pc, #24]	; (802c104 <http_sent_history+0x88>)
      hs->left = nbytes;
      send_data(pcb, hs);
 802c0ea:	4630      	mov	r0, r6
 802c0ec:	4621      	mov	r1, r4

          return ERR_OK;
      }

      hs->file = logFileBuf;
      hs->left = nbytes;
 802c0ee:	e884 0028 	stmia.w	r4, {r3, r5}
      send_data(pcb, hs);
 802c0f2:	f7ff ff2d 	bl	802bf50 <send_data>
      tcp_sent(pcb, http_sent_history);
 802c0f6:	4630      	mov	r0, r6
 802c0f8:	4907      	ldr	r1, [pc, #28]	; (802c118 <http_sent_history+0x9c>)
 802c0fa:	f003 fcc5 	bl	802fa88 <tcp_sent>

  }
  return ERR_OK;
}
 802c0fe:	2000      	movs	r0, #0
 802c100:	bd70      	pop	{r4, r5, r6, pc}
 802c102:	bf00      	nop
 802c104:	2000cf94 	.word	0x2000cf94
 802c108:	20000d28 	.word	0x20000d28
 802c10c:	20000d34 	.word	0x20000d34
 802c110:	20000712 	.word	0x20000712
 802c114:	20000d30 	.word	0x20000d30
 802c118:	0802c07d 	.word	0x0802c07d

0802c11c <HTTP_Init>:
  * @brief  Initialize the HTTP server (start its thread) 
  * @param  none
  * @retval None
  */
void HTTP_Init()
{
 802c11c:	b530      	push	{r4, r5, lr}
 802c11e:	b085      	sub	sp, #20
	char buf[MAX_WEB_COOKIE_LEN];
	  uint8_t user_id;
  //sys_thread_new("HTTP", http_server_netconn_thread, NULL, 3000, 2);
  struct tcp_pcb *pcb;
  /*create new pcb*/
  pcb = tcp_new();
 802c120:	f004 f87a 	bl	8030218 <tcp_new>
  /* bind HTTP traffic to pcb */
  tcp_bind(pcb, IP_ADDR_ANY, 80);
 802c124:	2250      	movs	r2, #80	; 0x50
	char buf[MAX_WEB_COOKIE_LEN];
	  uint8_t user_id;
  //sys_thread_new("HTTP", http_server_netconn_thread, NULL, 3000, 2);
  struct tcp_pcb *pcb;
  /*create new pcb*/
  pcb = tcp_new();
 802c126:	4604      	mov	r4, r0
  /* bind HTTP traffic to pcb */
  tcp_bind(pcb, IP_ADDR_ANY, 80);
 802c128:	4912      	ldr	r1, [pc, #72]	; (802c174 <HTTP_Init+0x58>)
  pcb = tcp_listen(pcb);
  /* define callback function for TCP connection setup */
  tcp_accept(pcb, http_accept);
  for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {
     /* Flush user cookie by random value */
     sprintf(buf, "%X", (unsigned int)GetRandomNumber());
 802c12a:	4d13      	ldr	r5, [pc, #76]	; (802c178 <HTTP_Init+0x5c>)
  //sys_thread_new("HTTP", http_server_netconn_thread, NULL, 3000, 2);
  struct tcp_pcb *pcb;
  /*create new pcb*/
  pcb = tcp_new();
  /* bind HTTP traffic to pcb */
  tcp_bind(pcb, IP_ADDR_ANY, 80);
 802c12c:	f003 fbd6 	bl	802f8dc <tcp_bind>
  /* start listening on port 80 */
  pcb = tcp_listen(pcb);
 802c130:	21ff      	movs	r1, #255	; 0xff
 802c132:	4620      	mov	r0, r4
 802c134:	f003 fc0a 	bl	802f94c <tcp_listen_with_backlog>
  /* define callback function for TCP connection setup */
  tcp_accept(pcb, http_accept);
 802c138:	4910      	ldr	r1, [pc, #64]	; (802c17c <HTTP_Init+0x60>)
/**
  * @brief У�тановка Cookie пользовател�
  */
static void HTTP_SetUserCookie(char *str, uint8_t user_id)
{
    strcpy(users[user_id].cookie, str);
 802c13a:	4c11      	ldr	r4, [pc, #68]	; (802c180 <HTTP_Init+0x64>)
  /* bind HTTP traffic to pcb */
  tcp_bind(pcb, IP_ADDR_ANY, 80);
  /* start listening on port 80 */
  pcb = tcp_listen(pcb);
  /* define callback function for TCP connection setup */
  tcp_accept(pcb, http_accept);
 802c13c:	f003 fca9 	bl	802fa92 <tcp_accept>
  for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {
     /* Flush user cookie by random value */
     sprintf(buf, "%X", (unsigned int)GetRandomNumber());
 802c140:	f7fa f966 	bl	8026410 <GetRandomNumber>
 802c144:	4629      	mov	r1, r5
 802c146:	4602      	mov	r2, r0
 802c148:	4668      	mov	r0, sp
 802c14a:	f7fb fce9 	bl	8027b20 <tfp_sprintf>
/**
  * @brief У�тановка Cookie пользовател�
  */
static void HTTP_SetUserCookie(char *str, uint8_t user_id)
{
    strcpy(users[user_id].cookie, str);
 802c14e:	4669      	mov	r1, sp
 802c150:	4620      	mov	r0, r4
 802c152:	f7f5 ff9f 	bl	8022094 <strcpy>
  pcb = tcp_listen(pcb);
  /* define callback function for TCP connection setup */
  tcp_accept(pcb, http_accept);
  for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {
     /* Flush user cookie by random value */
     sprintf(buf, "%X", (unsigned int)GetRandomNumber());
 802c156:	f7fa f95b 	bl	8026410 <GetRandomNumber>
 802c15a:	4629      	mov	r1, r5
 802c15c:	4602      	mov	r2, r0
 802c15e:	4668      	mov	r0, sp
 802c160:	f7fb fcde 	bl	8027b20 <tfp_sprintf>
/**
  * @brief У�тановка Cookie пользовател�
  */
static void HTTP_SetUserCookie(char *str, uint8_t user_id)
{
    strcpy(users[user_id].cookie, str);
 802c164:	f104 0014 	add.w	r0, r4, #20
 802c168:	4669      	mov	r1, sp
 802c16a:	f7f5 ff93 	bl	8022094 <strcpy>

     /* Create user logout timers */
     //users[user_id].LogoutTimer =
     //        xTimerCreate("LogoutTmr", WEB_LOGOUT_TIME, pdFALSE, ( void * ) user_id, LogoutTimerCallback);
   }
}
 802c16e:	b005      	add	sp, #20
 802c170:	bd30      	pop	{r4, r5, pc}
 802c172:	bf00      	nop
 802c174:	08043fe4 	.word	0x08043fe4
 802c178:	0804241d 	.word	0x0804241d
 802c17c:	0802bf05 	.word	0x0802bf05
 802c180:	2000e22c 	.word	0x2000e22c

0802c184 <HTTP_SettingsPage>:
/**
  * @brief  
  * @retval None
  */
int HTTP_SettingsPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c184:	b570      	push	{r4, r5, r6, lr}
 802c186:	4602      	mov	r2, r0
 802c188:	b088      	sub	sp, #32
 802c18a:	460c      	mov	r4, r1
  char tempStr[30];
  strncpy(tempStr, bufIn, 30);
 802c18c:	4668      	mov	r0, sp
 802c18e:	4611      	mov	r1, r2
 802c190:	221e      	movs	r2, #30
/**
  * @brief  
  * @retval None
  */
int HTTP_SettingsPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c192:	461e      	mov	r6, r3
  char tempStr[30];
  strncpy(tempStr, bufIn, 30);
 802c194:	f7f6 f894 	bl	80222c0 <strncpy>
  
  /* В запро�е нет параметров, нужно формировать JSON ответ */
  if (strpbrk(tempStr,"?") == 0)
 802c198:	4668      	mov	r0, sp
 802c19a:	490b      	ldr	r1, [pc, #44]	; (802c1c8 <HTTP_SettingsPage+0x44>)
 802c19c:	f7f6 f8c2 	bl	8022324 <strpbrk>
 802c1a0:	4605      	mov	r5, r0
  /* В запро�е е�ть параметры, нужно пар�ить и �охран�ть на�тройки */
  else
  {
	//HTTP_SetSettings(bufIn, lenBufIn);
	
    return SEND_REQUIRED_NO;
 802c1a2:	2001      	movs	r0, #1
{
  char tempStr[30];
  strncpy(tempStr, bufIn, 30);
  
  /* В запро�е нет параметров, нужно формировать JSON ответ */
  if (strpbrk(tempStr,"?") == 0)
 802c1a4:	b975      	cbnz	r5, 802c1c4 <HTTP_SettingsPage+0x40>
  {
	memset(bufOut, 0, SEND_BUF_MAX_LEN);
 802c1a6:	4629      	mov	r1, r5
 802c1a8:	f44f 62fa 	mov.w	r2, #2000	; 0x7d0
 802c1ac:	4620      	mov	r0, r4
 802c1ae:	f7f5 fdf7 	bl	8021da0 <memset>
	
	HTTP_GetSettings(bufOut);
 802c1b2:	4620      	mov	r0, r4
 802c1b4:	f001 fbe8 	bl	802d988 <HTTP_GetSettings>
	
    //printf(bufOut);
    
    *lenBufOut = strlen(bufOut);
 802c1b8:	4620      	mov	r0, r4
 802c1ba:	f7f5 ffc9 	bl	8022150 <strlen>
 802c1be:	8030      	strh	r0, [r6, #0]
	
	return SEND_REQUIRED_YES;
 802c1c0:	4628      	mov	r0, r5
 802c1c2:	e7ff      	b.n	802c1c4 <HTTP_SettingsPage+0x40>
  {
	//HTTP_SetSettings(bufIn, lenBufIn);
	
    return SEND_REQUIRED_NO;
  }
}
 802c1c4:	b008      	add	sp, #32
 802c1c6:	bd70      	pop	{r4, r5, r6, pc}
 802c1c8:	08042420 	.word	0x08042420

0802c1cc <HTTP_InfoPage>:
/**
  * @brief  
  * @retval None
  */
int HTTP_InfoPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c1cc:	b570      	push	{r4, r5, r6, lr}
 802c1ce:	4602      	mov	r2, r0
 802c1d0:	b088      	sub	sp, #32
 802c1d2:	460c      	mov	r4, r1
  char tempStr[30];
  strncpy(tempStr, bufIn, 30);
 802c1d4:	4668      	mov	r0, sp
 802c1d6:	4611      	mov	r1, r2
 802c1d8:	221e      	movs	r2, #30
/**
  * @brief  
  * @retval None
  */
int HTTP_InfoPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c1da:	461e      	mov	r6, r3
  char tempStr[30];
  strncpy(tempStr, bufIn, 30);
 802c1dc:	f7f6 f870 	bl	80222c0 <strncpy>
  
  /* В запро�е нет параметров, нужно формировать JSON ответ */
  if (strpbrk(tempStr,"?") == 0)
 802c1e0:	4668      	mov	r0, sp
 802c1e2:	490b      	ldr	r1, [pc, #44]	; (802c210 <HTTP_InfoPage+0x44>)
 802c1e4:	f7f6 f89e 	bl	8022324 <strpbrk>
 802c1e8:	4605      	mov	r5, r0
  }
  /* В запро�е е�ть параметры, нужно пар�ить и �охран�ть на�тройки */
  else
  {
	//HTTP_SetInfo(bufIn, lenBufIn);
	return SEND_REQUIRED_NO;
 802c1ea:	2001      	movs	r0, #1
{
  char tempStr[30];
  strncpy(tempStr, bufIn, 30);
  
  /* В запро�е нет параметров, нужно формировать JSON ответ */
  if (strpbrk(tempStr,"?") == 0)
 802c1ec:	b975      	cbnz	r5, 802c20c <HTTP_InfoPage+0x40>
  {
	memset(bufOut, 0, SEND_BUF_MAX_LEN);
 802c1ee:	4629      	mov	r1, r5
 802c1f0:	f44f 62fa 	mov.w	r2, #2000	; 0x7d0
 802c1f4:	4620      	mov	r0, r4
 802c1f6:	f7f5 fdd3 	bl	8021da0 <memset>
	
	HTTP_GetInfo(bufOut);
 802c1fa:	4620      	mov	r0, r4
 802c1fc:	f001 fdb6 	bl	802dd6c <HTTP_GetInfo>
		
    *lenBufOut = strlen(bufOut);
 802c200:	4620      	mov	r0, r4
 802c202:	f7f5 ffa5 	bl	8022150 <strlen>
 802c206:	8030      	strh	r0, [r6, #0]
	
	return SEND_REQUIRED_YES;
 802c208:	4628      	mov	r0, r5
 802c20a:	e7ff      	b.n	802c20c <HTTP_InfoPage+0x40>
/*	
	HTTP_SetSettings(bufIn, lenBufIn);
    return SEND_REQUIRED_NO;
*/	
  }
}  
 802c20c:	b008      	add	sp, #32
 802c20e:	bd70      	pop	{r4, r5, r6, pc}
 802c210:	08042420 	.word	0x08042420

0802c214 <HTTP_UPSTest>:

/**
  * @brief  Запу�к/о�танов те�та UPS
  */
void HTTP_UPSTest(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c214:	b570      	push	{r4, r5, r6, lr}
 802c216:	b08a      	sub	sp, #40	; 0x28
 802c218:	4606      	mov	r6, r0
 802c21a:	460c      	mov	r4, r1
	  char *valueLen = 0;
	  char tempValue[20];
	  char tempValue2[20];
	  int8_t res = 0;

	  memset(tempValue, 0, 20);
 802c21c:	2214      	movs	r2, #20
 802c21e:	2100      	movs	r1, #0
 802c220:	4668      	mov	r0, sp

/**
  * @brief  Запу�к/о�танов те�та UPS
  */
void HTTP_UPSTest(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c222:	461d      	mov	r5, r3
	  char *valueLen = 0;
	  char tempValue[20];
	  char tempValue2[20];
	  int8_t res = 0;

	  memset(tempValue, 0, 20);
 802c224:	f7f5 fdbc 	bl	8021da0 <memset>
	  memset(tempValue2, 0, 20);
 802c228:	2214      	movs	r2, #20
 802c22a:	2100      	movs	r1, #0
 802c22c:	a805      	add	r0, sp, #20
 802c22e:	f7f5 fdb7 	bl	8021da0 <memset>

	  strcpy(bufOut, HTTP_200_OK);
 802c232:	4932      	ldr	r1, [pc, #200]	; (802c2fc <HTTP_UPSTest+0xe8>)
 802c234:	4620      	mov	r0, r4
 802c236:	f7f5 ff2d 	bl	8022094 <strcpy>

	  value = strstr(bufIn, "func");
 802c23a:	4630      	mov	r0, r6
 802c23c:	4930      	ldr	r1, [pc, #192]	; (802c300 <HTTP_UPSTest+0xec>)
 802c23e:	f7f6 fa07 	bl	8022650 <strstr>
	  valueLen = strpbrk(value, ":");
 802c242:	4930      	ldr	r1, [pc, #192]	; (802c304 <HTTP_UPSTest+0xf0>)
 802c244:	f7f6 f86e 	bl	8022324 <strpbrk>
 802c248:	4606      	mov	r6, r0
	  strncpy(tempValue, (valueLen+1), (strlen(valueLen)-2));
 802c24a:	f7f5 ff81 	bl	8022150 <strlen>
 802c24e:	1c71      	adds	r1, r6, #1
 802c250:	1e82      	subs	r2, r0, #2
 802c252:	4668      	mov	r0, sp
 802c254:	f7f6 f834 	bl	80222c0 <strncpy>
	  if (strcmp(tempValue, "\"stop\"") == 0){
 802c258:	4668      	mov	r0, sp
 802c25a:	492b      	ldr	r1, [pc, #172]	; (802c308 <HTTP_UPSTest+0xf4>)
 802c25c:	f7f5 fe2c 	bl	8021eb8 <strcmp>
 802c260:	b998      	cbnz	r0, 802c28a <HTTP_UPSTest+0x76>
		  res = ups_metac_service_pdu(ups_cancel_test);
 802c262:	2008      	movs	r0, #8
 802c264:	f7fd f8ca 	bl	80293fc <ups_metac_service_pdu>
 802c268:	b2c6      	uxtb	r6, r0
		  if(res == 1 || res == 0){
 802c26a:	2e01      	cmp	r6, #1
 802c26c:	d807      	bhi.n	802c27e <HTTP_UPSTest+0x6a>
			  strcat(bufOut, "Те�т о�тановлен!");
 802c26e:	4927      	ldr	r1, [pc, #156]	; (802c30c <HTTP_UPSTest+0xf8>)
 802c270:	4620      	mov	r0, r4
 802c272:	f7f5 fdfb 	bl	8021e6c <strcat>
			  log_event_data(LOG_TEST_UPS, "�дмини�тратор(О�танов)");
 802c276:	2006      	movs	r0, #6
 802c278:	4925      	ldr	r1, [pc, #148]	; (802c310 <HTTP_UPSTest+0xfc>)
 802c27a:	f7fd fdfd 	bl	8029e78 <log_event_data>
		  }
		  if(res == -1)
 802c27e:	b276      	sxtb	r6, r6
 802c280:	1c72      	adds	r2, r6, #1
 802c282:	d135      	bne.n	802c2f0 <HTTP_UPSTest+0xdc>
			  strcat(bufOut, "Те�т не удало�ь о�тановить!");
 802c284:	4620      	mov	r0, r4
 802c286:	4923      	ldr	r1, [pc, #140]	; (802c314 <HTTP_UPSTest+0x100>)
 802c288:	e030      	b.n	802c2ec <HTTP_UPSTest+0xd8>
		  *lenBufOut = strlen(bufOut);
	  }
	  else if (strcmp(tempValue, "\"discharge\"") == 0){
 802c28a:	4668      	mov	r0, sp
 802c28c:	4922      	ldr	r1, [pc, #136]	; (802c318 <HTTP_UPSTest+0x104>)
 802c28e:	f7f5 fe13 	bl	8021eb8 <strcmp>
 802c292:	b908      	cbnz	r0, 802c298 <HTTP_UPSTest+0x84>
		  res = ups_metac_service_pdu(ups_test_low_bat);
 802c294:	2002      	movs	r0, #2
 802c296:	e017      	b.n	802c2c8 <HTTP_UPSTest+0xb4>
		  }
		  if(res == -1)
			  strcat(bufOut, "Те�т не удало�ь запу�тить!");
		  *lenBufOut = strlen(bufOut);
	  }
	  else if (strncmp(tempValue, "\"time\"", 6) == 0){
 802c298:	4668      	mov	r0, sp
 802c29a:	4920      	ldr	r1, [pc, #128]	; (802c31c <HTTP_UPSTest+0x108>)
 802c29c:	2206      	movs	r2, #6
 802c29e:	f7f5 ffb9 	bl	8022214 <strncmp>
 802c2a2:	bb48      	cbnz	r0, 802c2f8 <HTTP_UPSTest+0xe4>
		  valueLen = strpbrk(tempValue, ":");
 802c2a4:	4917      	ldr	r1, [pc, #92]	; (802c304 <HTTP_UPSTest+0xf0>)
 802c2a6:	4668      	mov	r0, sp
 802c2a8:	f7f6 f83c 	bl	8022324 <strpbrk>
 802c2ac:	4606      	mov	r6, r0
		  strncpy(tempValue2, (valueLen+2), (strlen(valueLen)-2));
 802c2ae:	f7f5 ff4f 	bl	8022150 <strlen>
 802c2b2:	1cb1      	adds	r1, r6, #2
 802c2b4:	1e82      	subs	r2, r0, #2
 802c2b6:	a805      	add	r0, sp, #20
 802c2b8:	f7f6 f802 	bl	80222c0 <strncpy>
		  TimeParam = atoi(tempValue2);
 802c2bc:	a805      	add	r0, sp, #20
 802c2be:	f7f5 fc4f 	bl	8021b60 <atoi>
 802c2c2:	4b17      	ldr	r3, [pc, #92]	; (802c320 <HTTP_UPSTest+0x10c>)
 802c2c4:	8018      	strh	r0, [r3, #0]
		  res = ups_metac_service_pdu(ups_test_time);
 802c2c6:	2003      	movs	r0, #3
 802c2c8:	f7fd f898 	bl	80293fc <ups_metac_service_pdu>
 802c2cc:	b2c6      	uxtb	r6, r0
		  if(res == 1 || res == 0){
 802c2ce:	2e01      	cmp	r6, #1
 802c2d0:	d807      	bhi.n	802c2e2 <HTTP_UPSTest+0xce>
			  strcat(bufOut, "Те�т запущен!");
 802c2d2:	4914      	ldr	r1, [pc, #80]	; (802c324 <HTTP_UPSTest+0x110>)
 802c2d4:	4620      	mov	r0, r4
 802c2d6:	f7f5 fdc9 	bl	8021e6c <strcat>
			  log_event_data(LOG_TEST_UPS, "�дмини�тратор (Запущен)");
 802c2da:	2006      	movs	r0, #6
 802c2dc:	4912      	ldr	r1, [pc, #72]	; (802c328 <HTTP_UPSTest+0x114>)
 802c2de:	f7fd fdcb 	bl	8029e78 <log_event_data>
		  }
		  if(res == -1)
 802c2e2:	b276      	sxtb	r6, r6
 802c2e4:	1c73      	adds	r3, r6, #1
 802c2e6:	d103      	bne.n	802c2f0 <HTTP_UPSTest+0xdc>
			  strcat(bufOut, "Те�т не удало�ь запу�тить!");
 802c2e8:	4910      	ldr	r1, [pc, #64]	; (802c32c <HTTP_UPSTest+0x118>)
 802c2ea:	4620      	mov	r0, r4
 802c2ec:	f7f5 fdbe 	bl	8021e6c <strcat>
		  *lenBufOut = strlen(bufOut);
 802c2f0:	4620      	mov	r0, r4
 802c2f2:	f7f5 ff2d 	bl	8022150 <strlen>
 802c2f6:	8028      	strh	r0, [r5, #0]
	  }
}
 802c2f8:	b00a      	add	sp, #40	; 0x28
 802c2fa:	bd70      	pop	{r4, r5, r6, pc}
 802c2fc:	08043633 	.word	0x08043633
 802c300:	08042422 	.word	0x08042422
 802c304:	08043e25 	.word	0x08043e25
 802c308:	08042427 	.word	0x08042427
 802c30c:	0804242e 	.word	0x0804242e
 802c310:	0804244d 	.word	0x0804244d
 802c314:	08042478 	.word	0x08042478
 802c318:	080424ab 	.word	0x080424ab
 802c31c:	0804252d 	.word	0x0804252d
 802c320:	20000b54 	.word	0x20000b54
 802c324:	080424b7 	.word	0x080424b7
 802c328:	080424d0 	.word	0x080424d0
 802c32c:	080424fc 	.word	0x080424fc

0802c330 <HTTP_UPSshutdown>:

/**
  * @brief  Выклюение UPS
  */
void HTTP_UPSshutdown(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c330:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 802c334:	b09a      	sub	sp, #104	; 0x68
	  char *valueLenEnd = 0;
	  char tempValue[50];
	  char tempValue2[50];
	  int8_t res = 0;

	  memset(tempValue, 0, 50);
 802c336:	2232      	movs	r2, #50	; 0x32

/**
  * @brief  Выклюение UPS
  */
void HTTP_UPSshutdown(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c338:	4605      	mov	r5, r0
 802c33a:	460c      	mov	r4, r1
	  char *valueLenEnd = 0;
	  char tempValue[50];
	  char tempValue2[50];
	  int8_t res = 0;

	  memset(tempValue, 0, 50);
 802c33c:	4668      	mov	r0, sp
 802c33e:	2100      	movs	r1, #0

/**
  * @brief  Выклюение UPS
  */
void HTTP_UPSshutdown(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c340:	461e      	mov	r6, r3
	  char *valueLenEnd = 0;
	  char tempValue[50];
	  char tempValue2[50];
	  int8_t res = 0;

	  memset(tempValue, 0, 50);
 802c342:	f7f5 fd2d 	bl	8021da0 <memset>

	  strcpy(bufOut, HTTP_200_OK);
 802c346:	4941      	ldr	r1, [pc, #260]	; (802c44c <HTTP_UPSshutdown+0x11c>)
 802c348:	4620      	mov	r0, r4
 802c34a:	f7f5 fea3 	bl	8022094 <strcpy>

	  value = strstr(bufIn, "func");
 802c34e:	4628      	mov	r0, r5
 802c350:	493f      	ldr	r1, [pc, #252]	; (802c450 <HTTP_UPSshutdown+0x120>)
 802c352:	f7f6 f97d 	bl	8022650 <strstr>
	  valueLen = strpbrk(value, ":");
 802c356:	493f      	ldr	r1, [pc, #252]	; (802c454 <HTTP_UPSshutdown+0x124>)
 802c358:	f7f5 ffe4 	bl	8022324 <strpbrk>
 802c35c:	4605      	mov	r5, r0
	  strncpy(tempValue, (valueLen+1), (strlen(valueLen)-2));
 802c35e:	f7f5 fef7 	bl	8022150 <strlen>
 802c362:	1c69      	adds	r1, r5, #1
 802c364:	1e82      	subs	r2, r0, #2
 802c366:	4668      	mov	r0, sp
 802c368:	f7f5 ffaa 	bl	80222c0 <strncpy>
	  if (strcmp(tempValue, "\"cancel\"") == 0){
 802c36c:	4668      	mov	r0, sp
 802c36e:	493a      	ldr	r1, [pc, #232]	; (802c458 <HTTP_UPSshutdown+0x128>)
 802c370:	f7f5 fda2 	bl	8021eb8 <strcmp>
 802c374:	b978      	cbnz	r0, 802c396 <HTTP_UPSshutdown+0x66>
		  res = ups_metac_service_pdu(ups_cancel_shut_down);
 802c376:	2007      	movs	r0, #7
 802c378:	f7fd f840 	bl	80293fc <ups_metac_service_pdu>
		  if(res == 1){
 802c37c:	b240      	sxtb	r0, r0
 802c37e:	2801      	cmp	r0, #1
 802c380:	d106      	bne.n	802c390 <HTTP_UPSshutdown+0x60>
			  log_event_data(LOG_SHUTDOWN_UPS, "�дмини�тратор(О�танов)");
 802c382:	2007      	movs	r0, #7
 802c384:	4935      	ldr	r1, [pc, #212]	; (802c45c <HTTP_UPSshutdown+0x12c>)
 802c386:	f7fd fd77 	bl	8029e78 <log_event_data>
			  strcat(bufOut, "Выключение ИБП отменено!");
 802c38a:	4620      	mov	r0, r4
 802c38c:	4934      	ldr	r1, [pc, #208]	; (802c460 <HTTP_UPSshutdown+0x130>)
 802c38e:	e053      	b.n	802c438 <HTTP_UPSshutdown+0x108>
		  }
		  else
			  strcat(bufOut, "Выключение ИБП не удало�ь отменить!");
 802c390:	4620      	mov	r0, r4
 802c392:	4934      	ldr	r1, [pc, #208]	; (802c464 <HTTP_UPSshutdown+0x134>)
 802c394:	e050      	b.n	802c438 <HTTP_UPSshutdown+0x108>
		  *lenBufOut = strlen(bufOut);
	  }
	  else if (strncmp(tempValue, "\"off\"", 5) == 0){
 802c396:	4668      	mov	r0, sp
 802c398:	4933      	ldr	r1, [pc, #204]	; (802c468 <HTTP_UPSshutdown+0x138>)
 802c39a:	2205      	movs	r2, #5
 802c39c:	f7f5 ff3a 	bl	8022214 <strncmp>
 802c3a0:	4605      	mov	r5, r0
 802c3a2:	2800      	cmp	r0, #0
 802c3a4:	d14e      	bne.n	802c444 <HTTP_UPSshutdown+0x114>
		  value = strstr(tempValue, "after");
 802c3a6:	4931      	ldr	r1, [pc, #196]	; (802c46c <HTTP_UPSshutdown+0x13c>)
 802c3a8:	4668      	mov	r0, sp
 802c3aa:	f7f6 f951 	bl	8022650 <strstr>
		  valueLen = strpbrk(value, ":");
 802c3ae:	4929      	ldr	r1, [pc, #164]	; (802c454 <HTTP_UPSshutdown+0x124>)
		  else
			  strcat(bufOut, "Выключение ИБП не удало�ь отменить!");
		  *lenBufOut = strlen(bufOut);
	  }
	  else if (strncmp(tempValue, "\"off\"", 5) == 0){
		  value = strstr(tempValue, "after");
 802c3b0:	4680      	mov	r8, r0
		  valueLen = strpbrk(value, ":");
 802c3b2:	f7f5 ffb7 	bl	8022324 <strpbrk>
		  valueLenEnd = strpbrk(value, ",");
 802c3b6:	492e      	ldr	r1, [pc, #184]	; (802c470 <HTTP_UPSshutdown+0x140>)
			  strcat(bufOut, "Выключение ИБП не удало�ь отменить!");
		  *lenBufOut = strlen(bufOut);
	  }
	  else if (strncmp(tempValue, "\"off\"", 5) == 0){
		  value = strstr(tempValue, "after");
		  valueLen = strpbrk(value, ":");
 802c3b8:	4607      	mov	r7, r0
		  valueLenEnd = strpbrk(value, ",");
 802c3ba:	4640      	mov	r0, r8
 802c3bc:	f7f5 ffb2 	bl	8022324 <strpbrk>
		  memset(tempValue2, 0, 50);
 802c3c0:	2232      	movs	r2, #50	; 0x32
		  *lenBufOut = strlen(bufOut);
	  }
	  else if (strncmp(tempValue, "\"off\"", 5) == 0){
		  value = strstr(tempValue, "after");
		  valueLen = strpbrk(value, ":");
		  valueLenEnd = strpbrk(value, ",");
 802c3c2:	4680      	mov	r8, r0
		  memset(tempValue2, 0, 50);
 802c3c4:	4629      	mov	r1, r5
 802c3c6:	a80d      	add	r0, sp, #52	; 0x34
 802c3c8:	f7f5 fcea 	bl	8021da0 <memset>
		  strncpy(tempValue2, (valueLen+2), (valueLenEnd - valueLen - 2));
 802c3cc:	ebc7 0208 	rsb	r2, r7, r8
 802c3d0:	3a02      	subs	r2, #2
 802c3d2:	1cb9      	adds	r1, r7, #2
 802c3d4:	a80d      	add	r0, sp, #52	; 0x34
 802c3d6:	f7f5 ff73 	bl	80222c0 <strncpy>
		  TimeParam = atoi(tempValue2);
 802c3da:	a80d      	add	r0, sp, #52	; 0x34
 802c3dc:	f7f5 fbc0 	bl	8021b60 <atoi>
 802c3e0:	4b24      	ldr	r3, [pc, #144]	; (802c474 <HTTP_UPSshutdown+0x144>)
		  value = strstr(tempValue, "to");
 802c3e2:	4925      	ldr	r1, [pc, #148]	; (802c478 <HTTP_UPSshutdown+0x148>)
		  value = strstr(tempValue, "after");
		  valueLen = strpbrk(value, ":");
		  valueLenEnd = strpbrk(value, ",");
		  memset(tempValue2, 0, 50);
		  strncpy(tempValue2, (valueLen+2), (valueLenEnd - valueLen - 2));
		  TimeParam = atoi(tempValue2);
 802c3e4:	8018      	strh	r0, [r3, #0]
		  value = strstr(tempValue, "to");
 802c3e6:	4668      	mov	r0, sp
 802c3e8:	f7f6 f932 	bl	8022650 <strstr>
		  valueLen = strpbrk(value, ":");
 802c3ec:	4919      	ldr	r1, [pc, #100]	; (802c454 <HTTP_UPSshutdown+0x124>)
 802c3ee:	f7f5 ff99 	bl	8022324 <strpbrk>
		  memset(tempValue2, 0, 50);
 802c3f2:	2232      	movs	r2, #50	; 0x32
		  valueLenEnd = strpbrk(value, ",");
		  memset(tempValue2, 0, 50);
		  strncpy(tempValue2, (valueLen+2), (valueLenEnd - valueLen - 2));
		  TimeParam = atoi(tempValue2);
		  value = strstr(tempValue, "to");
		  valueLen = strpbrk(value, ":");
 802c3f4:	4607      	mov	r7, r0
		  memset(tempValue2, 0, 50);
 802c3f6:	4629      	mov	r1, r5
 802c3f8:	a80d      	add	r0, sp, #52	; 0x34
 802c3fa:	f7f5 fcd1 	bl	8021da0 <memset>
		  strncpy(tempValue2, (valueLen+2), (strlen(valueLen) - 2));
 802c3fe:	4638      	mov	r0, r7
 802c400:	f7f5 fea6 	bl	8022150 <strlen>
 802c404:	1cb9      	adds	r1, r7, #2
 802c406:	1e82      	subs	r2, r0, #2
 802c408:	a80d      	add	r0, sp, #52	; 0x34
 802c40a:	f7f5 ff59 	bl	80222c0 <strncpy>
		  TimeParam2 = atoi(tempValue2);
 802c40e:	a80d      	add	r0, sp, #52	; 0x34
 802c410:	f7f5 fba6 	bl	8021b60 <atoi>
 802c414:	4b19      	ldr	r3, [pc, #100]	; (802c47c <HTTP_UPSshutdown+0x14c>)
 802c416:	8018      	strh	r0, [r3, #0]
		  res = ups_metac_service_pdu(ups_shutdown_restore);
 802c418:	2006      	movs	r0, #6
 802c41a:	f7fc ffef 	bl	80293fc <ups_metac_service_pdu>
		  if(res == 1){
 802c41e:	b240      	sxtb	r0, r0
 802c420:	2801      	cmp	r0, #1
			  strcat(bufOut, "Перезагрузка ИБП!");
 802c422:	4620      	mov	r0, r4
		  valueLen = strpbrk(value, ":");
		  memset(tempValue2, 0, 50);
		  strncpy(tempValue2, (valueLen+2), (strlen(valueLen) - 2));
		  TimeParam2 = atoi(tempValue2);
		  res = ups_metac_service_pdu(ups_shutdown_restore);
		  if(res == 1){
 802c424:	d107      	bne.n	802c436 <HTTP_UPSshutdown+0x106>
			  strcat(bufOut, "Перезагрузка ИБП!");
 802c426:	4916      	ldr	r1, [pc, #88]	; (802c480 <HTTP_UPSshutdown+0x150>)
 802c428:	f7f5 fd20 	bl	8021e6c <strcat>
			  log_event_data(LOG_SHUTDOWN_UPS, "�дмини�тратор");
 802c42c:	2007      	movs	r0, #7
 802c42e:	4915      	ldr	r1, [pc, #84]	; (802c484 <HTTP_UPSshutdown+0x154>)
 802c430:	f7fd fd22 	bl	8029e78 <log_event_data>
 802c434:	e002      	b.n	802c43c <HTTP_UPSshutdown+0x10c>
		  }else
			  strcat(bufOut, "Отмена перезагрузки ИБП!");
 802c436:	4914      	ldr	r1, [pc, #80]	; (802c488 <HTTP_UPSshutdown+0x158>)
 802c438:	f7f5 fd18 	bl	8021e6c <strcat>
		  *lenBufOut = strlen(bufOut);
 802c43c:	4620      	mov	r0, r4
 802c43e:	f7f5 fe87 	bl	8022150 <strlen>
 802c442:	8030      	strh	r0, [r6, #0]
	  }
}
 802c444:	b01a      	add	sp, #104	; 0x68
 802c446:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 802c44a:	bf00      	nop
 802c44c:	08043633 	.word	0x08043633
 802c450:	08042422 	.word	0x08042422
 802c454:	08043e25 	.word	0x08043e25
 802c458:	08042534 	.word	0x08042534
 802c45c:	0804244d 	.word	0x0804244d
 802c460:	0804253d 	.word	0x0804253d
 802c464:	0804256b 	.word	0x0804256b
 802c468:	080425ad 	.word	0x080425ad
 802c46c:	080425b3 	.word	0x080425b3
 802c470:	08038b67 	.word	0x08038b67
 802c474:	20000b54 	.word	0x20000b54
 802c478:	080425b9 	.word	0x080425b9
 802c47c:	20000b1a 	.word	0x20000b1a
 802c480:	080425bc 	.word	0x080425bc
 802c484:	08038a86 	.word	0x08038a86
 802c488:	080425dd 	.word	0x080425dd

0802c48c <HTTP_ConfirmBootPwd>:
/**
  * @brief  Проверка парол� дл� перехода в режим bootloader
  * @retval None
  */
void HTTP_ConfirmBootPwd(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c48c:	b500      	push	{lr}
 802c48e:	b093      	sub	sp, #76	; 0x4c
 802c490:	4601      	mov	r1, r0
  char tempStr[50];
  strncpy(tempStr, bufIn, 50);
 802c492:	2232      	movs	r2, #50	; 0x32
 802c494:	a805      	add	r0, sp, #20
 802c496:	f7f5 ff13 	bl	80222c0 <strncpy>
  char value[20];
  uint8_t valueLen;
  
  memset(value, 0, 20);
 802c49a:	4668      	mov	r0, sp
 802c49c:	2100      	movs	r1, #0
 802c49e:	2214      	movs	r2, #20
 802c4a0:	f7f5 fc7e 	bl	8021da0 <memset>
	//if (strcmp(BOOTLOADER_PASWORD, value) == 0)
	{  
	 // *bufOut = '1';
	  /* Запу�каем задачу отложенной перезагрузки. Контроллер должен у�петь
       отправить ответ �ерверу о �тату�е парол� */
	  HTTP_StartResetTask(true); 
 802c4a4:	2001      	movs	r0, #1
 802c4a6:	f001 fe4d 	bl	802e144 <HTTP_StartResetTask>
/*	else
	  *bufOut = '0';*/
	
	//*lenBufOut = 1;
  }
}
 802c4aa:	b013      	add	sp, #76	; 0x4c
 802c4ac:	bd00      	pop	{pc}
 802c4ae:	0000      	movs	r0, r0

0802c4b0 <HTTP_LOGIN>:
    /* Wrong login or pass, return */
    return SEND_REQUIRED_NO;
}

void HTTP_LOGIN(char *bufOut, uint16_t *lenBufOut)
{
 802c4b0:	b530      	push	{r4, r5, lr}
 802c4b2:	b093      	sub	sp, #76	; 0x4c
 802c4b4:	4604      	mov	r4, r0
 802c4b6:	460d      	mov	r5, r1
	char tempStr[50];
	uint8_t valueLen;
	char WebLogin[MAX_WEB_LOGIN_LEN];

	GetUserLogin(ADMIN, WebLogin, &valueLen);
 802c4b8:	2000      	movs	r0, #0
 802c4ba:	a902      	add	r1, sp, #8
 802c4bc:	f10d 0207 	add.w	r2, sp, #7
 802c4c0:	f7fb fe18 	bl	80280f4 <GetUserLogin>

	memset(tempStr, 0, 50);
 802c4c4:	2100      	movs	r1, #0
 802c4c6:	2232      	movs	r2, #50	; 0x32
 802c4c8:	a805      	add	r0, sp, #20
 802c4ca:	f7f5 fc69 	bl	8021da0 <memset>

	/* TODO replace global flag with user-pass-cookie */
	Authenticated = true;
 802c4ce:	4b1a      	ldr	r3, [pc, #104]	; (802c538 <HTTP_LOGIN+0x88>)
 802c4d0:	2201      	movs	r2, #1
 802c4d2:	701a      	strb	r2, [r3, #0]

	/* Generate cookie */
	sprintf(tempStr, "%X", (unsigned int)GetRandomNumber());
 802c4d4:	f7f9 ff9c 	bl	8026410 <GetRandomNumber>
 802c4d8:	4918      	ldr	r1, [pc, #96]	; (802c53c <HTTP_LOGIN+0x8c>)
 802c4da:	4602      	mov	r2, r0
 802c4dc:	a805      	add	r0, sp, #20
 802c4de:	f7fb fb1f 	bl	8027b20 <tfp_sprintf>
/**
  * @brief У�тановка Cookie пользовател�
  */
static void HTTP_SetUserCookie(char *str, uint8_t user_id)
{
    strcpy(users[user_id].cookie, str);
 802c4e2:	a905      	add	r1, sp, #20
 802c4e4:	4816      	ldr	r0, [pc, #88]	; (802c540 <HTTP_LOGIN+0x90>)
 802c4e6:	f7f5 fdd5 	bl	8022094 <strcpy>
	HTTP_SetUserCookie(tempStr, ADMIN);

	HTTP_UpdateUserLoginTime(ADMIN);

	/* Send login and cookie back */
	strcpy(bufOut, "HTTP/1.0 200 OK\r\nContent-Type:text/html\r\nSet-Cookie: uname=");
 802c4ea:	4916      	ldr	r1, [pc, #88]	; (802c544 <HTTP_LOGIN+0x94>)
 802c4ec:	4620      	mov	r0, r4
 802c4ee:	f7f5 fdd1 	bl	8022094 <strcpy>
	strcat(bufOut, WebLogin);
 802c4f2:	a902      	add	r1, sp, #8
 802c4f4:	4620      	mov	r0, r4
 802c4f6:	f7f5 fcb9 	bl	8021e6c <strcat>
	strcat(bufOut, "\r\nSet-Cookie: id=");
 802c4fa:	4913      	ldr	r1, [pc, #76]	; (802c548 <HTTP_LOGIN+0x98>)
 802c4fc:	4620      	mov	r0, r4
 802c4fe:	f7f5 fcb5 	bl	8021e6c <strcat>
	strcat(bufOut, tempStr);
 802c502:	a905      	add	r1, sp, #20
 802c504:	4620      	mov	r0, r4
 802c506:	f7f5 fcb1 	bl	8021e6c <strcat>
	strcat(bufOut, "\r\nSet-Cookie: role=0");
 802c50a:	4910      	ldr	r1, [pc, #64]	; (802c54c <HTTP_LOGIN+0x9c>)
 802c50c:	4620      	mov	r0, r4
 802c50e:	f7f5 fcad 	bl	8021e6c <strcat>
	strcat(bufOut, "\r\nSet-Cookie: auth=0");
 802c512:	490f      	ldr	r1, [pc, #60]	; (802c550 <HTTP_LOGIN+0xa0>)
 802c514:	4620      	mov	r0, r4
 802c516:	f7f5 fca9 	bl	8021e6c <strcat>
	strcat(bufOut, "\r\n\r\n");
 802c51a:	490e      	ldr	r1, [pc, #56]	; (802c554 <HTTP_LOGIN+0xa4>)
 802c51c:	4620      	mov	r0, r4
 802c51e:	f7f5 fca5 	bl	8021e6c <strcat>
	strcat(bufOut,"<!DOCTYPE html><html lang=""><head><meta http-equiv=\"refresh\" content=\"0;url=/index.html\"/></head></html>\r\n\r\n");
 802c522:	490d      	ldr	r1, [pc, #52]	; (802c558 <HTTP_LOGIN+0xa8>)
 802c524:	4620      	mov	r0, r4
 802c526:	f7f5 fca1 	bl	8021e6c <strcat>

	*lenBufOut = strlen(bufOut);
 802c52a:	4620      	mov	r0, r4
 802c52c:	f7f5 fe10 	bl	8022150 <strlen>
 802c530:	8028      	strh	r0, [r5, #0]
}
 802c532:	b013      	add	sp, #76	; 0x4c
 802c534:	bd30      	pop	{r4, r5, pc}
 802c536:	bf00      	nop
 802c538:	20000d27 	.word	0x20000d27
 802c53c:	0804241d 	.word	0x0804241d
 802c540:	2000e22c 	.word	0x2000e22c
 802c544:	0804260b 	.word	0x0804260b
 802c548:	08042647 	.word	0x08042647
 802c54c:	08042659 	.word	0x08042659
 802c550:	0804266e 	.word	0x0804266e
 802c554:	08042b48 	.word	0x08042b48
 802c558:	08042683 	.word	0x08042683

0802c55c <GetParamValue>:
/**
  * @brief  
  * @retval None
  */
uint8_t GetParamValue(char *inStr, char *paramName, char *paramValue, uint8_t *paramLen)
{
 802c55c:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 802c560:	4690      	mov	r8, r2
 802c562:	461f      	mov	r7, r3
  char *beginValue = 0;
  char *endValue = 0;
  int  len = 0;
  char *strPtr = 0;
  
  strPtr = strstr(inStr, paramName);
 802c564:	f7f6 f874 	bl	8022650 <strstr>
  
  if (strPtr != 0)
 802c568:	4605      	mov	r5, r0
 802c56a:	b1e0      	cbz	r0, 802c5a6 <GetParamValue+0x4a>
  {
    beginValue = strpbrk(strPtr,"=");
 802c56c:	490f      	ldr	r1, [pc, #60]	; (802c5ac <GetParamValue+0x50>)
 802c56e:	f7f5 fed9 	bl	8022324 <strpbrk>
    endValue = strpbrk(strPtr,"&");
 802c572:	490f      	ldr	r1, [pc, #60]	; (802c5b0 <GetParamValue+0x54>)
  
  strPtr = strstr(inStr, paramName);
  
  if (strPtr != 0)
  {
    beginValue = strpbrk(strPtr,"=");
 802c574:	4606      	mov	r6, r0
    endValue = strpbrk(strPtr,"&");
 802c576:	4628      	mov	r0, r5
 802c578:	f7f5 fed4 	bl	8022324 <strpbrk>
    if (endValue == 0)
 802c57c:	4604      	mov	r4, r0
 802c57e:	b920      	cbnz	r0, 802c58a <GetParamValue+0x2e>
      endValue = strpbrk(strPtr," ");
 802c580:	4628      	mov	r0, r5
 802c582:	490c      	ldr	r1, [pc, #48]	; (802c5b4 <GetParamValue+0x58>)
 802c584:	f7f5 fece 	bl	8022324 <strpbrk>
 802c588:	4604      	mov	r4, r0
    len = endValue - beginValue - 1;
 802c58a:	1ba5      	subs	r5, r4, r6
 802c58c:	3d01      	subs	r5, #1
    strncpy(paramValue, beginValue + 1, len);
 802c58e:	4640      	mov	r0, r8
 802c590:	1c71      	adds	r1, r6, #1
 802c592:	462a      	mov	r2, r5
 802c594:	f7f5 fe94 	bl	80222c0 <strncpy>
    *endValue = '0';
 802c598:	2330      	movs	r3, #48	; 0x30
 802c59a:	7023      	strb	r3, [r4, #0]
    *beginValue = '0';
	*paramLen = len;
	return 1;
 802c59c:	2001      	movs	r0, #1
    if (endValue == 0)
      endValue = strpbrk(strPtr," ");
    len = endValue - beginValue - 1;
    strncpy(paramValue, beginValue + 1, len);
    *endValue = '0';
    *beginValue = '0';
 802c59e:	7033      	strb	r3, [r6, #0]
	*paramLen = len;
 802c5a0:	703d      	strb	r5, [r7, #0]
	return 1;
 802c5a2:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
  }
  else
  {	
	*paramLen = 0;
 802c5a6:	7038      	strb	r0, [r7, #0]
	return 0;
  }
}
 802c5a8:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 802c5ac:	080427f9 	.word	0x080427f9
 802c5b0:	080426ef 	.word	0x080426ef
 802c5b4:	08038ac0 	.word	0x08038ac0

0802c5b8 <HTTP_ConfirmWebPwd>:
/**
  * @brief  Проверка парол� дл� входа в Web
  * @retval None
  */
int HTTP_ConfirmWebPwd(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c5b8:	b5f0      	push	{r4, r5, r6, r7, lr}
 802c5ba:	b0a9      	sub	sp, #164	; 0xa4
 802c5bc:	4605      	mov	r5, r0
	  char *strPtr = 0;
	  char WebPassword[MAX_WEB_PASSWD_LEN];
	  char WebLogin[MAX_WEB_LOGIN_LEN];
	  char buf[40];

	  memset(login, 0, 20);
 802c5be:	2214      	movs	r2, #20
/**
  * @brief  Проверка парол� дл� входа в Web
  * @retval None
  */
int HTTP_ConfirmWebPwd(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c5c0:	460c      	mov	r4, r1
	  char *strPtr = 0;
	  char WebPassword[MAX_WEB_PASSWD_LEN];
	  char WebLogin[MAX_WEB_LOGIN_LEN];
	  char buf[40];

	  memset(login, 0, 20);
 802c5c2:	a807      	add	r0, sp, #28
 802c5c4:	2100      	movs	r1, #0
/**
  * @brief  Проверка парол� дл� входа в Web
  * @retval None
  */
int HTTP_ConfirmWebPwd(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802c5c6:	461f      	mov	r7, r3
	  char *strPtr = 0;
	  char WebPassword[MAX_WEB_PASSWD_LEN];
	  char WebLogin[MAX_WEB_LOGIN_LEN];
	  char buf[40];

	  memset(login, 0, 20);
 802c5c8:	f7f5 fbea 	bl	8021da0 <memset>
	  memset(password, 0, 20);
 802c5cc:	2100      	movs	r1, #0
 802c5ce:	2214      	movs	r2, #20
 802c5d0:	a80c      	add	r0, sp, #48	; 0x30
 802c5d2:	f7f5 fbe5 	bl	8021da0 <memset>
	  memset(tempStr, 0, 50);
 802c5d6:	2100      	movs	r1, #0
 802c5d8:	2232      	movs	r2, #50	; 0x32
 802c5da:	a81b      	add	r0, sp, #108	; 0x6c
 802c5dc:	f7f5 fbe0 	bl	8021da0 <memset>

	  /* Get first 50 bytes of string */
	  strncpy(tempStr, bufIn, 49);
 802c5e0:	2231      	movs	r2, #49	; 0x31
 802c5e2:	4629      	mov	r1, r5
 802c5e4:	a81b      	add	r0, sp, #108	; 0x6c
 802c5e6:	f7f5 fe6b 	bl	80222c0 <strncpy>

	  /* Add " " to the string in order GetParamValue() can be able to parse the param */
	  strcat(tempStr, " ");

	  if (GetParamValue(tempStr, "login=", login, &valueLen) &&
 802c5ea:	f10d 0603 	add.w	r6, sp, #3

	  /* Get first 50 bytes of string */
	  strncpy(tempStr, bufIn, 49);

	  /* Add " " to the string in order GetParamValue() can be able to parse the param */
	  strcat(tempStr, " ");
 802c5ee:	4940      	ldr	r1, [pc, #256]	; (802c6f0 <HTTP_ConfirmWebPwd+0x138>)
 802c5f0:	a81b      	add	r0, sp, #108	; 0x6c
 802c5f2:	f7f5 fc3b 	bl	8021e6c <strcat>

	  if (GetParamValue(tempStr, "login=", login, &valueLen) &&
 802c5f6:	a81b      	add	r0, sp, #108	; 0x6c
 802c5f8:	493e      	ldr	r1, [pc, #248]	; (802c6f4 <HTTP_ConfirmWebPwd+0x13c>)
 802c5fa:	aa07      	add	r2, sp, #28
 802c5fc:	4633      	mov	r3, r6
 802c5fe:	f7ff ffad 	bl	802c55c <GetParamValue>
 802c602:	b920      	cbnz	r0, 802c60e <HTTP_ConfirmWebPwd+0x56>
      }
    }
    /* No valid login and pass found */

    /* TODO replace global flag with user-pass-cookie*/
    Authenticated = false;
 802c604:	4b3c      	ldr	r3, [pc, #240]	; (802c6f8 <HTTP_ConfirmWebPwd+0x140>)
 802c606:	2200      	movs	r2, #0
 802c608:	701a      	strb	r2, [r3, #0]
    /* Wrong login or pass, return */
    return SEND_REQUIRED_NO;
 802c60a:	2001      	movs	r0, #1
 802c60c:	e06d      	b.n	802c6ea <HTTP_ConfirmWebPwd+0x132>

	  /* Add " " to the string in order GetParamValue() can be able to parse the param */
	  strcat(tempStr, " ");

	  if (GetParamValue(tempStr, "login=", login, &valueLen) &&
	      GetParamValue(tempStr, "password=", password, &valueLen))
 802c60e:	a81b      	add	r0, sp, #108	; 0x6c
 802c610:	493a      	ldr	r1, [pc, #232]	; (802c6fc <HTTP_ConfirmWebPwd+0x144>)
 802c612:	aa0c      	add	r2, sp, #48	; 0x30
 802c614:	4633      	mov	r3, r6
 802c616:	f7ff ffa1 	bl	802c55c <GetParamValue>
	  strncpy(tempStr, bufIn, 49);

	  /* Add " " to the string in order GetParamValue() can be able to parse the param */
	  strcat(tempStr, " ");

	  if (GetParamValue(tempStr, "login=", login, &valueLen) &&
 802c61a:	2800      	cmp	r0, #0
 802c61c:	d0f2      	beq.n	802c604 <HTTP_ConfirmWebPwd+0x4c>
 802c61e:	2500      	movs	r5, #0
	      GetParamValue(tempStr, "password=", password, &valueLen))
	  {
	      for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {

	        GetUserLogin(user_id, WebLogin, &valueLen);
 802c620:	4628      	mov	r0, r5
 802c622:	a904      	add	r1, sp, #16
 802c624:	4632      	mov	r2, r6
 802c626:	f7fb fd65 	bl	80280f4 <GetUserLogin>
	        GetUserPassword(user_id, WebPassword, &valueLen);
 802c62a:	4628      	mov	r0, r5
 802c62c:	a901      	add	r1, sp, #4
 802c62e:	4632      	mov	r2, r6
 802c630:	f7fb fd76 	bl	8028120 <GetUserPassword>

	        /* Check login and password */
	        if ((strncmp(WebLogin, login, MAX_WEB_LOGIN_LEN) == 0) &&
 802c634:	a804      	add	r0, sp, #16
 802c636:	a907      	add	r1, sp, #28
 802c638:	220b      	movs	r2, #11
 802c63a:	f7f5 fdeb 	bl	8022214 <strncmp>
 802c63e:	2800      	cmp	r0, #0
 802c640:	d14e      	bne.n	802c6e0 <HTTP_ConfirmWebPwd+0x128>
	            (strncmp(WebPassword, password, MAX_WEB_PASSWD_LEN) == 0)) {
 802c642:	a801      	add	r0, sp, #4
 802c644:	a90c      	add	r1, sp, #48	; 0x30
 802c646:	220b      	movs	r2, #11
 802c648:	f7f5 fde4 	bl	8022214 <strncmp>

	        GetUserLogin(user_id, WebLogin, &valueLen);
	        GetUserPassword(user_id, WebPassword, &valueLen);

	        /* Check login and password */
	        if ((strncmp(WebLogin, login, MAX_WEB_LOGIN_LEN) == 0) &&
 802c64c:	2800      	cmp	r0, #0
 802c64e:	d147      	bne.n	802c6e0 <HTTP_ConfirmWebPwd+0x128>
	            if (user_id >= 1) {

	            }

            /* TODO replace global flag with user-pass-cookie */
            Authenticated = true;
 802c650:	4b29      	ldr	r3, [pc, #164]	; (802c6f8 <HTTP_ConfirmWebPwd+0x140>)
 802c652:	2201      	movs	r2, #1
 802c654:	701a      	strb	r2, [r3, #0]

            /* Generate cookie */
            sprintf(tempStr, "%X", (unsigned int)GetRandomNumber());
 802c656:	f7f9 fedb 	bl	8026410 <GetRandomNumber>
 802c65a:	4929      	ldr	r1, [pc, #164]	; (802c700 <HTTP_ConfirmWebPwd+0x148>)
 802c65c:	4602      	mov	r2, r0
 802c65e:	a81b      	add	r0, sp, #108	; 0x6c
 802c660:	f7fb fa5e 	bl	8027b20 <tfp_sprintf>
/**
  * @brief У�тановка Cookie пользовател�
  */
static void HTTP_SetUserCookie(char *str, uint8_t user_id)
{
    strcpy(users[user_id].cookie, str);
 802c664:	4b27      	ldr	r3, [pc, #156]	; (802c704 <HTTP_ConfirmWebPwd+0x14c>)
 802c666:	2014      	movs	r0, #20
 802c668:	fb00 3005 	mla	r0, r0, r5, r3
 802c66c:	a91b      	add	r1, sp, #108	; 0x6c
 802c66e:	f7f5 fd11 	bl	8022094 <strcpy>
            HTTP_SetUserCookie(tempStr, user_id);

            HTTP_UpdateUserLoginTime(user_id);

            /* Send login and cookie back */
            strcpy(bufOut, "HTTP/1.0 200 OK\r\nContent-Type:text/html\r\nSet-Cookie: uname=");
 802c672:	4925      	ldr	r1, [pc, #148]	; (802c708 <HTTP_ConfirmWebPwd+0x150>)
 802c674:	4620      	mov	r0, r4
 802c676:	f7f5 fd0d 	bl	8022094 <strcpy>
            strcat(bufOut, WebLogin);
 802c67a:	a904      	add	r1, sp, #16
 802c67c:	4620      	mov	r0, r4
 802c67e:	f7f5 fbf5 	bl	8021e6c <strcat>
            strcat(bufOut, "\r\nSet-Cookie: id=");
 802c682:	4922      	ldr	r1, [pc, #136]	; (802c70c <HTTP_ConfirmWebPwd+0x154>)
 802c684:	4620      	mov	r0, r4
 802c686:	f7f5 fbf1 	bl	8021e6c <strcat>
            strcat(bufOut, tempStr);
 802c68a:	a91b      	add	r1, sp, #108	; 0x6c
 802c68c:	4620      	mov	r0, r4
 802c68e:	f7f5 fbed 	bl	8021e6c <strcat>
            sprintf(tempStr, "%d", user_id);
 802c692:	462a      	mov	r2, r5
 802c694:	491e      	ldr	r1, [pc, #120]	; (802c710 <HTTP_ConfirmWebPwd+0x158>)
 802c696:	a81b      	add	r0, sp, #108	; 0x6c
 802c698:	f7fb fa42 	bl	8027b20 <tfp_sprintf>
            strcat(bufOut, "\r\nSet-Cookie: role=");
 802c69c:	491d      	ldr	r1, [pc, #116]	; (802c714 <HTTP_ConfirmWebPwd+0x15c>)
 802c69e:	4620      	mov	r0, r4
 802c6a0:	f7f5 fbe4 	bl	8021e6c <strcat>
            strcat(bufOut, tempStr);
 802c6a4:	a91b      	add	r1, sp, #108	; 0x6c
 802c6a6:	4620      	mov	r0, r4
 802c6a8:	f7f5 fbe0 	bl	8021e6c <strcat>
            strcat(bufOut, "\r\n\r\n");
 802c6ac:	491a      	ldr	r1, [pc, #104]	; (802c718 <HTTP_ConfirmWebPwd+0x160>)
 802c6ae:	4620      	mov	r0, r4
 802c6b0:	f7f5 fbdc 	bl	8021e6c <strcat>
            strcat(bufOut,"<!DOCTYPE html><html lang=""><head><meta http-equiv=\"refresh\" content=\"0;url=/index.html\"/></head></html>\r\n\r\n");
 802c6b4:	4919      	ldr	r1, [pc, #100]	; (802c71c <HTTP_ConfirmWebPwd+0x164>)
 802c6b6:	4620      	mov	r0, r4
 802c6b8:	f7f5 fbd8 	bl	8021e6c <strcat>

            *lenBufOut = strlen(bufOut);
 802c6bc:	4620      	mov	r0, r4
 802c6be:	f7f5 fd47 	bl	8022150 <strlen>
            switch (user_id) {
                case 0:
                    snprintf(buf, sizeof(buf), "�дмини�тратор");
                    break;
                case 1:
                    snprintf(buf, sizeof(buf), "Пользователь");
 802c6c2:	2128      	movs	r1, #40	; 0x28
            strcat(bufOut, "\r\n\r\n");
            strcat(bufOut,"<!DOCTYPE html><html lang=""><head><meta http-equiv=\"refresh\" content=\"0;url=/index.html\"/></head></html>\r\n\r\n");

            *lenBufOut = strlen(bufOut);

            switch (user_id) {
 802c6c4:	2d01      	cmp	r5, #1
                case 0:
                    snprintf(buf, sizeof(buf), "�дмини�тратор");
 802c6c6:	bf14      	ite	ne
 802c6c8:	4a15      	ldrne	r2, [pc, #84]	; (802c720 <HTTP_ConfirmWebPwd+0x168>)
                    break;
                case 1:
                    snprintf(buf, sizeof(buf), "Пользователь");
 802c6ca:	4a16      	ldreq	r2, [pc, #88]	; (802c724 <HTTP_ConfirmWebPwd+0x16c>)
            strcat(bufOut, "\r\nSet-Cookie: role=");
            strcat(bufOut, tempStr);
            strcat(bufOut, "\r\n\r\n");
            strcat(bufOut,"<!DOCTYPE html><html lang=""><head><meta http-equiv=\"refresh\" content=\"0;url=/index.html\"/></head></html>\r\n\r\n");

            *lenBufOut = strlen(bufOut);
 802c6cc:	8038      	strh	r0, [r7, #0]
            switch (user_id) {
                case 0:
                    snprintf(buf, sizeof(buf), "�дмини�тратор");
                    break;
                case 1:
                    snprintf(buf, sizeof(buf), "Пользователь");
 802c6ce:	a811      	add	r0, sp, #68	; 0x44
 802c6d0:	f7fb fa08 	bl	8027ae4 <tfp_snprintf>
                default:
                    snprintf(buf, sizeof(buf), "", login);
                    break;
            }

            log_event_data(LOG_LOGIN, buf);
 802c6d4:	2005      	movs	r0, #5
 802c6d6:	a911      	add	r1, sp, #68	; 0x44
 802c6d8:	f7fd fbce 	bl	8029e78 <log_event_data>
            /* Запу�каем задачу-таймер логаута. */
            /* TODO отправить ответ �ерверу о �тату�е парол� */
            return SEND_REQUIRED_YES;
 802c6dc:	2000      	movs	r0, #0
 802c6de:	e004      	b.n	802c6ea <HTTP_ConfirmWebPwd+0x132>
	  strcat(tempStr, " ");

	  if (GetParamValue(tempStr, "login=", login, &valueLen) &&
	      GetParamValue(tempStr, "password=", password, &valueLen))
	  {
	      for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {
 802c6e0:	3501      	adds	r5, #1
 802c6e2:	b2ed      	uxtb	r5, r5
 802c6e4:	2d02      	cmp	r5, #2
 802c6e6:	d08d      	beq.n	802c604 <HTTP_ConfirmWebPwd+0x4c>
 802c6e8:	e79a      	b.n	802c620 <HTTP_ConfirmWebPwd+0x68>

    /* TODO replace global flag with user-pass-cookie*/
    Authenticated = false;
    /* Wrong login or pass, return */
    return SEND_REQUIRED_NO;
}
 802c6ea:	b029      	add	sp, #164	; 0xa4
 802c6ec:	bdf0      	pop	{r4, r5, r6, r7, pc}
 802c6ee:	bf00      	nop
 802c6f0:	08038ac0 	.word	0x08038ac0
 802c6f4:	080426f1 	.word	0x080426f1
 802c6f8:	20000d27 	.word	0x20000d27
 802c6fc:	080426f8 	.word	0x080426f8
 802c700:	0804241d 	.word	0x0804241d
 802c704:	2000e22c 	.word	0x2000e22c
 802c708:	0804260b 	.word	0x0804260b
 802c70c:	08042647 	.word	0x08042647
 802c710:	08038967 	.word	0x08038967
 802c714:	08042702 	.word	0x08042702
 802c718:	08042b48 	.word	0x08042b48
 802c71c:	08042683 	.word	0x08042683
 802c720:	08038a86 	.word	0x08038a86
 802c724:	08042716 	.word	0x08042716

0802c728 <HTTP_SetInfo>:
/**
  * @brief  
  * @retval None
  */
void HTTP_SetInfo(char *buf, uint16_t lenBuf)
{
 802c728:	b530      	push	{r4, r5, lr}
  uint8_t valueLen = 0;
 802c72a:	2400      	movs	r4, #0
/**
  * @brief  
  * @retval None
  */
void HTTP_SetInfo(char *buf, uint16_t lenBuf)
{
 802c72c:	b0bb      	sub	sp, #236	; 0xec
 802c72e:	4605      	mov	r5, r0
  char value[110];
  char str[110];

 // ClearParamString(buf);
  
  memset(value, 0, len);
 802c730:	4621      	mov	r1, r4
 802c732:	226e      	movs	r2, #110	; 0x6e
 802c734:	a802      	add	r0, sp, #8
  * @brief  
  * @retval None
  */
void HTTP_SetInfo(char *buf, uint16_t lenBuf)
{
  uint8_t valueLen = 0;
 802c736:	f88d 4007 	strb.w	r4, [sp, #7]
  char value[110];
  char str[110];

 // ClearParamString(buf);
  
  memset(value, 0, len);
 802c73a:	f7f5 fb31 	bl	8021da0 <memset>
  
  /* Владелец */
  GetParamValue(buf, "owner=", value, &valueLen);
 802c73e:	f10d 0307 	add.w	r3, sp, #7
 802c742:	aa02      	add	r2, sp, #8
 802c744:	4628      	mov	r0, r5
 802c746:	491e      	ldr	r1, [pc, #120]	; (802c7c0 <HTTP_SetInfo+0x98>)
 802c748:	f7ff ff08 	bl	802c55c <GetParamValue>
  url_decode(str, sizeof(str), value);
 802c74c:	216e      	movs	r1, #110	; 0x6e
 802c74e:	aa02      	add	r2, sp, #8
 802c750:	a81e      	add	r0, sp, #120	; 0x78
 802c752:	f7fc ff11 	bl	8029578 <url_decode>
  SetOwner(str);
 802c756:	a81e      	add	r0, sp, #120	; 0x78
 802c758:	f7fb fed0 	bl	80284fc <SetOwner>
  memset(value, 0, len);
 802c75c:	4621      	mov	r1, r4
 802c75e:	226e      	movs	r2, #110	; 0x6e
 802c760:	a802      	add	r0, sp, #8
 802c762:	f7f5 fb1d 	bl	8021da0 <memset>
  
  /* Владелец */
  GetParamValue(buf, "sysLocation=", value, &valueLen);
 802c766:	f10d 0307 	add.w	r3, sp, #7
 802c76a:	aa02      	add	r2, sp, #8
 802c76c:	4628      	mov	r0, r5
 802c76e:	4915      	ldr	r1, [pc, #84]	; (802c7c4 <HTTP_SetInfo+0x9c>)
 802c770:	f7ff fef4 	bl	802c55c <GetParamValue>
  url_decode(str, sizeof(str), value);
 802c774:	216e      	movs	r1, #110	; 0x6e
 802c776:	aa02      	add	r2, sp, #8
 802c778:	a81e      	add	r0, sp, #120	; 0x78
 802c77a:	f7fc fefd 	bl	8029578 <url_decode>
  SetLocation(str);
 802c77e:	a81e      	add	r0, sp, #120	; 0x78
 802c780:	f7fb fecc 	bl	802851c <SetLocation>
  memset(value, 0, len);
 802c784:	4621      	mov	r1, r4
 802c786:	226e      	movs	r2, #110	; 0x6e
 802c788:	a802      	add	r0, sp, #8
 802c78a:	f7f5 fb09 	bl	8021da0 <memset>
  
  /* Комментарий */
  GetParamValue(buf, "comment=", value, &valueLen);
 802c78e:	f10d 0307 	add.w	r3, sp, #7
 802c792:	aa02      	add	r2, sp, #8
 802c794:	4628      	mov	r0, r5
 802c796:	490c      	ldr	r1, [pc, #48]	; (802c7c8 <HTTP_SetInfo+0xa0>)
 802c798:	f7ff fee0 	bl	802c55c <GetParamValue>
  url_decode(str, sizeof(str), value);
 802c79c:	216e      	movs	r1, #110	; 0x6e
 802c79e:	aa02      	add	r2, sp, #8
 802c7a0:	a81e      	add	r0, sp, #120	; 0x78
 802c7a2:	f7fc fee9 	bl	8029578 <url_decode>
  SetComment(str);
 802c7a6:	a81e      	add	r0, sp, #120	; 0x78
 802c7a8:	f7fb fec6 	bl	8028538 <SetComment>
  memset(value, 0, len);
 802c7ac:	4621      	mov	r1, r4
 802c7ae:	226e      	movs	r2, #110	; 0x6e
 802c7b0:	a802      	add	r0, sp, #8
 802c7b2:	f7f5 faf5 	bl	8021da0 <memset>
 
  HTTP_SaveSettings();
 802c7b6:	f001 fc8f 	bl	802e0d8 <HTTP_SaveSettings>
}
 802c7ba:	b03b      	add	sp, #236	; 0xec
 802c7bc:	bd30      	pop	{r4, r5, pc}
 802c7be:	bf00      	nop
 802c7c0:	0804272f 	.word	0x0804272f
 802c7c4:	08042736 	.word	0x08042736
 802c7c8:	08042743 	.word	0x08042743

0802c7cc <HTTP_SetSettings>:
/**
  * @brief  
  * @retval None
  */
void HTTP_SetSettings(char *buf, uint16_t lenBuf)
{
 802c7cc:	b530      	push	{r4, r5, lr}
  uint8_t valueLen = 0;
 802c7ce:	2500      	movs	r5, #0
/**
  * @brief  
  * @retval None
  */
void HTTP_SetSettings(char *buf, uint16_t lenBuf)
{
 802c7d0:	b0a3      	sub	sp, #140	; 0x8c
 802c7d2:	4604      	mov	r4, r0

  //printf(buf);
  
  //ClearParamString(buf);
  
  memset(value, 0, len);
 802c7d4:	2240      	movs	r2, #64	; 0x40
 802c7d6:	4629      	mov	r1, r5
 802c7d8:	a802      	add	r0, sp, #8
  * @brief  
  * @retval None
  */
void HTTP_SetSettings(char *buf, uint16_t lenBuf)
{
  uint8_t valueLen = 0;
 802c7da:	f88d 5007 	strb.w	r5, [sp, #7]

  //printf(buf);
  
  //ClearParamString(buf);
  
  memset(value, 0, len);
 802c7de:	f7f5 fadf 	bl	8021da0 <memset>
  memset(str, 0, MAX_WEB_PARAM_LEN);
 802c7e2:	2240      	movs	r2, #64	; 0x40
 802c7e4:	4629      	mov	r1, r5
 802c7e6:	a812      	add	r0, sp, #72	; 0x48
 802c7e8:	f7f5 fada 	bl	8021da0 <memset>
  
  /* SNMP */
  GetParamValue(buf, "read_community=", value, &valueLen);
 802c7ec:	f10d 0307 	add.w	r3, sp, #7
 802c7f0:	49b6      	ldr	r1, [pc, #728]	; (802cacc <HTTP_SetSettings+0x300>)
 802c7f2:	aa02      	add	r2, sp, #8
 802c7f4:	4620      	mov	r0, r4
 802c7f6:	f7ff feb1 	bl	802c55c <GetParamValue>
  SetReadCommunity(value);
 802c7fa:	a802      	add	r0, sp, #8
 802c7fc:	f7fb fe2c 	bl	8028458 <SetReadCommunity>
  memset(value, 0, len);
 802c800:	2240      	movs	r2, #64	; 0x40
 802c802:	4629      	mov	r1, r5
 802c804:	a802      	add	r0, sp, #8
 802c806:	f7f5 facb 	bl	8021da0 <memset>
  
  GetParamValue(buf, "write_community=", value, &valueLen);
 802c80a:	f10d 0307 	add.w	r3, sp, #7
 802c80e:	49b0      	ldr	r1, [pc, #704]	; (802cad0 <HTTP_SetSettings+0x304>)
 802c810:	aa02      	add	r2, sp, #8
 802c812:	4620      	mov	r0, r4
 802c814:	f7ff fea2 	bl	802c55c <GetParamValue>
  SetWriteCommunity(value);
 802c818:	a802      	add	r0, sp, #8
 802c81a:	f7fb fe23 	bl	8028464 <SetWriteCommunity>
  memset(value, 0, len);
 802c81e:	2240      	movs	r2, #64	; 0x40
 802c820:	4629      	mov	r1, r5
 802c822:	a802      	add	r0, sp, #8
 802c824:	f7f5 fabc 	bl	8021da0 <memset>
      
  GetParamValue(buf, "managerIP=", value, &valueLen);
 802c828:	f10d 0307 	add.w	r3, sp, #7
 802c82c:	49a9      	ldr	r1, [pc, #676]	; (802cad4 <HTTP_SetSettings+0x308>)
 802c82e:	aa02      	add	r2, sp, #8
 802c830:	4620      	mov	r0, r4
 802c832:	f7ff fe93 	bl	802c55c <GetParamValue>
  SetManagerIp(value);
 802c836:	a802      	add	r0, sp, #8
 802c838:	f7fb fe1a 	bl	8028470 <SetManagerIp>
  memset(value, 0, len);
 802c83c:	2240      	movs	r2, #64	; 0x40
 802c83e:	4629      	mov	r1, r5
 802c840:	a802      	add	r0, sp, #8
 802c842:	f7f5 faad 	bl	8021da0 <memset>

  GetParamValue(buf, "managerIP2=", value, &valueLen);
 802c846:	f10d 0307 	add.w	r3, sp, #7
 802c84a:	49a3      	ldr	r1, [pc, #652]	; (802cad8 <HTTP_SetSettings+0x30c>)
 802c84c:	aa02      	add	r2, sp, #8
 802c84e:	4620      	mov	r0, r4
 802c850:	f7ff fe84 	bl	802c55c <GetParamValue>
  SetManagerIp2(value);
 802c854:	a802      	add	r0, sp, #8
 802c856:	f7fb fe19 	bl	802848c <SetManagerIp2>
  memset(value, 0, len);
 802c85a:	2240      	movs	r2, #64	; 0x40
 802c85c:	4629      	mov	r1, r5
 802c85e:	a802      	add	r0, sp, #8
 802c860:	f7f5 fa9e 	bl	8021da0 <memset>

  GetParamValue(buf, "managerIP3=", value, &valueLen);
 802c864:	f10d 0307 	add.w	r3, sp, #7
 802c868:	499c      	ldr	r1, [pc, #624]	; (802cadc <HTTP_SetSettings+0x310>)
 802c86a:	aa02      	add	r2, sp, #8
 802c86c:	4620      	mov	r0, r4
 802c86e:	f7ff fe75 	bl	802c55c <GetParamValue>
  SetManagerIp3(value);
 802c872:	a802      	add	r0, sp, #8
 802c874:	f7fb fe18 	bl	80284a8 <SetManagerIp3>
  memset(value, 0, len);
 802c878:	2240      	movs	r2, #64	; 0x40
 802c87a:	4629      	mov	r1, r5
 802c87c:	a802      	add	r0, sp, #8
 802c87e:	f7f5 fa8f 	bl	8021da0 <memset>
  
  GetParamValue(buf, "managerIP4=", value, &valueLen);
 802c882:	f10d 0307 	add.w	r3, sp, #7
 802c886:	4996      	ldr	r1, [pc, #600]	; (802cae0 <HTTP_SetSettings+0x314>)
 802c888:	aa02      	add	r2, sp, #8
 802c88a:	4620      	mov	r0, r4
 802c88c:	f7ff fe66 	bl	802c55c <GetParamValue>
  SetManagerIp4(value);
 802c890:	a802      	add	r0, sp, #8
 802c892:	f7fb fe17 	bl	80284c4 <SetManagerIp4>
  memset(value, 0, len);
 802c896:	2240      	movs	r2, #64	; 0x40
 802c898:	4629      	mov	r1, r5
 802c89a:	a802      	add	r0, sp, #8
 802c89c:	f7f5 fa80 	bl	8021da0 <memset>

  GetParamValue(buf, "managerIP5=", value, &valueLen);
 802c8a0:	f10d 0307 	add.w	r3, sp, #7
 802c8a4:	498f      	ldr	r1, [pc, #572]	; (802cae4 <HTTP_SetSettings+0x318>)
 802c8a6:	aa02      	add	r2, sp, #8
 802c8a8:	4620      	mov	r0, r4
 802c8aa:	f7ff fe57 	bl	802c55c <GetParamValue>
  SetManagerIp5(value);
 802c8ae:	a802      	add	r0, sp, #8
 802c8b0:	f7fb fe16 	bl	80284e0 <SetManagerIp5>
  memset(value, 0, len);
 802c8b4:	2240      	movs	r2, #64	; 0x40
 802c8b6:	4629      	mov	r1, r5
 802c8b8:	a802      	add	r0, sp, #8
 802c8ba:	f7f5 fa71 	bl	8021da0 <memset>

  /* Сетевые параметры */
  GetParamValue(buf, "dhcp=", value, &valueLen);
 802c8be:	498a      	ldr	r1, [pc, #552]	; (802cae8 <HTTP_SetSettings+0x31c>)
 802c8c0:	aa02      	add	r2, sp, #8
 802c8c2:	f10d 0307 	add.w	r3, sp, #7
 802c8c6:	4620      	mov	r0, r4
 802c8c8:	f7ff fe48 	bl	802c55c <GetParamValue>
  SetDhcpStateStr(value);
 802c8cc:	a802      	add	r0, sp, #8
 802c8ce:	f7fb fdb1 	bl	8028434 <SetDhcpStateStr>
  
  if (strncmp(value, "on", 2) != 0)  // Е�ли dhcp off у�танавливаем параметры
 802c8d2:	a802      	add	r0, sp, #8
 802c8d4:	4985      	ldr	r1, [pc, #532]	; (802caec <HTTP_SetSettings+0x320>)
 802c8d6:	2202      	movs	r2, #2
 802c8d8:	f7f5 fc9c 	bl	8022214 <strncmp>
 802c8dc:	2800      	cmp	r0, #0
 802c8de:	d031      	beq.n	802c944 <HTTP_SetSettings+0x178>
    {
    memset(value, 0, len);
 802c8e0:	4629      	mov	r1, r5
 802c8e2:	2240      	movs	r2, #64	; 0x40
 802c8e4:	a802      	add	r0, sp, #8
 802c8e6:	f7f5 fa5b 	bl	8021da0 <memset>

    GetParamValue(buf, "ipaddr=", value, &valueLen);
 802c8ea:	f10d 0307 	add.w	r3, sp, #7
 802c8ee:	4980      	ldr	r1, [pc, #512]	; (802caf0 <HTTP_SetSettings+0x324>)
 802c8f0:	aa02      	add	r2, sp, #8
 802c8f2:	4620      	mov	r0, r4
 802c8f4:	f7ff fe32 	bl	802c55c <GetParamValue>
    SetIPStr(value);
 802c8f8:	a802      	add	r0, sp, #8
 802c8fa:	f7fb fd89 	bl	8028410 <SetIPStr>
    memset(value, 0, len);
 802c8fe:	4629      	mov	r1, r5
 802c900:	2240      	movs	r2, #64	; 0x40
 802c902:	a802      	add	r0, sp, #8
 802c904:	f7f5 fa4c 	bl	8021da0 <memset>
  
    GetParamValue(buf, "gw=", value, &valueLen);
 802c908:	f10d 0307 	add.w	r3, sp, #7
 802c90c:	4979      	ldr	r1, [pc, #484]	; (802caf4 <HTTP_SetSettings+0x328>)
 802c90e:	aa02      	add	r2, sp, #8
 802c910:	4620      	mov	r0, r4
 802c912:	f7ff fe23 	bl	802c55c <GetParamValue>
    SetGatewayStr(value);
 802c916:	a802      	add	r0, sp, #8
 802c918:	f7fb fd80 	bl	802841c <SetGatewayStr>
    memset(value, 0, len);
 802c91c:	4629      	mov	r1, r5
 802c91e:	2240      	movs	r2, #64	; 0x40
 802c920:	a802      	add	r0, sp, #8
 802c922:	f7f5 fa3d 	bl	8021da0 <memset>
  
    GetParamValue(buf, "mask=", value, &valueLen);
 802c926:	4974      	ldr	r1, [pc, #464]	; (802caf8 <HTTP_SetSettings+0x32c>)
 802c928:	aa02      	add	r2, sp, #8
 802c92a:	f10d 0307 	add.w	r3, sp, #7
 802c92e:	4620      	mov	r0, r4
 802c930:	f7ff fe14 	bl	802c55c <GetParamValue>
    SetMaskStr(value);
 802c934:	a802      	add	r0, sp, #8
 802c936:	f7fb fd77 	bl	8028428 <SetMaskStr>
    memset(value, 0, len);
 802c93a:	a802      	add	r0, sp, #8
 802c93c:	4629      	mov	r1, r5
 802c93e:	2240      	movs	r2, #64	; 0x40
 802c940:	f7f5 fa2e 	bl	8021da0 <memset>
  }
  memset(value, 0, len);
 802c944:	2100      	movs	r1, #0
 802c946:	2240      	movs	r2, #64	; 0x40
 802c948:	a802      	add	r0, sp, #8
 802c94a:	f7f5 fa29 	bl	8021da0 <memset>

  GetParamValue(&buf[555], "auth=", value, &valueLen);
 802c94e:	496b      	ldr	r1, [pc, #428]	; (802cafc <HTTP_SetSettings+0x330>)
 802c950:	aa02      	add	r2, sp, #8
 802c952:	f10d 0307 	add.w	r3, sp, #7
 802c956:	f204 202b 	addw	r0, r4, #555	; 0x22b
 802c95a:	f7ff fdff 	bl	802c55c <GetParamValue>
  SetAuthEnableStateStr(value);
 802c95e:	a802      	add	r0, sp, #8
 802c960:	f7fb fe22 	bl	80285a8 <SetAuthEnableStateStr>

  if (strncmp(value, "on", 2) == 0){
 802c964:	4961      	ldr	r1, [pc, #388]	; (802caec <HTTP_SetSettings+0x320>)
 802c966:	a802      	add	r0, sp, #8
 802c968:	2202      	movs	r2, #2
 802c96a:	f7f5 fc53 	bl	8022214 <strncmp>
 802c96e:	4601      	mov	r1, r0
 802c970:	2800      	cmp	r0, #0
 802c972:	d156      	bne.n	802ca22 <HTTP_SetSettings+0x256>
		/* параметры RADIUS*/
	  memset(value, 0, len);
 802c974:	2240      	movs	r2, #64	; 0x40
 802c976:	a802      	add	r0, sp, #8
 802c978:	f7f5 fa12 	bl	8021da0 <memset>
		GetParamValue(buf, "rs_enabled=", value, &valueLen);
 802c97c:	4960      	ldr	r1, [pc, #384]	; (802cb00 <HTTP_SetSettings+0x334>)
 802c97e:	aa02      	add	r2, sp, #8
 802c980:	f10d 0307 	add.w	r3, sp, #7
 802c984:	4620      	mov	r0, r4
 802c986:	f7ff fde9 	bl	802c55c <GetParamValue>
		SetRDSEnableStateStr(value);
 802c98a:	a802      	add	r0, sp, #8
 802c98c:	f7fb fdfa 	bl	8028584 <SetRDSEnableStateStr>

		if (strncmp(value, "on", 2) == 0)  // Е�ли raddius off у�танавливаем параметры
 802c990:	a802      	add	r0, sp, #8
 802c992:	4956      	ldr	r1, [pc, #344]	; (802caec <HTTP_SetSettings+0x320>)
 802c994:	2202      	movs	r2, #2
 802c996:	f7f5 fc3d 	bl	8022214 <strncmp>
 802c99a:	4605      	mov	r5, r0
 802c99c:	2800      	cmp	r0, #0
 802c99e:	d140      	bne.n	802ca22 <HTTP_SetSettings+0x256>
		{
			memset(value, 0, len);
 802c9a0:	4629      	mov	r1, r5
 802c9a2:	2240      	movs	r2, #64	; 0x40
 802c9a4:	a802      	add	r0, sp, #8
 802c9a6:	f7f5 f9fb 	bl	8021da0 <memset>
			GetParamValue(buf, "rs_server=", value, &valueLen);
 802c9aa:	f10d 0307 	add.w	r3, sp, #7
 802c9ae:	4955      	ldr	r1, [pc, #340]	; (802cb04 <HTTP_SetSettings+0x338>)
 802c9b0:	aa02      	add	r2, sp, #8
 802c9b2:	4620      	mov	r0, r4
 802c9b4:	f7ff fdd2 	bl	802c55c <GetParamValue>
			SetRDSIpStr(value);
 802c9b8:	a802      	add	r0, sp, #8
 802c9ba:	f7fb fdc3 	bl	8028544 <SetRDSIpStr>
			memset(value, 0, len);
 802c9be:	4629      	mov	r1, r5
 802c9c0:	2240      	movs	r2, #64	; 0x40
 802c9c2:	a802      	add	r0, sp, #8
 802c9c4:	f7f5 f9ec 	bl	8021da0 <memset>

			GetParamValue(buf, "rs_port=", value, &valueLen);
 802c9c8:	f10d 0307 	add.w	r3, sp, #7
 802c9cc:	494e      	ldr	r1, [pc, #312]	; (802cb08 <HTTP_SetSettings+0x33c>)
 802c9ce:	aa02      	add	r2, sp, #8
 802c9d0:	4620      	mov	r0, r4
 802c9d2:	f7ff fdc3 	bl	802c55c <GetParamValue>
			SetRDSPortStr(value);
 802c9d6:	a802      	add	r0, sp, #8
 802c9d8:	f7fb fdba 	bl	8028550 <SetRDSPortStr>
			memset(value, 0, len);
 802c9dc:	4629      	mov	r1, r5
 802c9de:	2240      	movs	r2, #64	; 0x40
 802c9e0:	a802      	add	r0, sp, #8
 802c9e2:	f7f5 f9dd 	bl	8021da0 <memset>

			GetParamValue(buf, "rs_pwd=", value, &valueLen);
 802c9e6:	f10d 0307 	add.w	r3, sp, #7
 802c9ea:	4948      	ldr	r1, [pc, #288]	; (802cb0c <HTTP_SetSettings+0x340>)
 802c9ec:	aa02      	add	r2, sp, #8
 802c9ee:	4620      	mov	r0, r4
 802c9f0:	f7ff fdb4 	bl	802c55c <GetParamValue>
			SetRDSPasswordkStr(value);
 802c9f4:	a802      	add	r0, sp, #8
 802c9f6:	f7fb fdbf 	bl	8028578 <SetRDSPasswordkStr>
			memset(value, 0, len);
 802c9fa:	4629      	mov	r1, r5
 802c9fc:	2240      	movs	r2, #64	; 0x40
 802c9fe:	a802      	add	r0, sp, #8
 802ca00:	f7f5 f9ce 	bl	8021da0 <memset>

			GetParamValue(buf, "rs_key=", value, &valueLen);
 802ca04:	4942      	ldr	r1, [pc, #264]	; (802cb10 <HTTP_SetSettings+0x344>)
 802ca06:	aa02      	add	r2, sp, #8
 802ca08:	f10d 0307 	add.w	r3, sp, #7
 802ca0c:	4620      	mov	r0, r4
 802ca0e:	f7ff fda5 	bl	802c55c <GetParamValue>
			SetRDSKeyAccesstStr(value);
 802ca12:	a802      	add	r0, sp, #8
 802ca14:	f7fb fda6 	bl	8028564 <SetRDSKeyAccesstStr>
			memset(value, 0, len);
 802ca18:	a802      	add	r0, sp, #8
 802ca1a:	4629      	mov	r1, r5
 802ca1c:	2240      	movs	r2, #64	; 0x40
 802ca1e:	f7f5 f9bf 	bl	8021da0 <memset>
		}
  }
  memset(value, 0, len);
 802ca22:	2100      	movs	r1, #0
 802ca24:	2240      	movs	r2, #64	; 0x40
 802ca26:	a802      	add	r0, sp, #8
 802ca28:	f7f5 f9ba 	bl	8021da0 <memset>

  // Параметры реле и �ухих контактов
  GetParamValue(buf, "di1=", value, &valueLen);
 802ca2c:	f10d 0307 	add.w	r3, sp, #7
 802ca30:	aa02      	add	r2, sp, #8
 802ca32:	4938      	ldr	r1, [pc, #224]	; (802cb14 <HTTP_SetSettings+0x348>)
 802ca34:	4620      	mov	r0, r4
 802ca36:	f7ff fd91 	bl	802c55c <GetParamValue>
  SetDINTypeActStr(value, 0);
 802ca3a:	a802      	add	r0, sp, #8
 802ca3c:	2100      	movs	r1, #0
 802ca3e:	f7fb fea9 	bl	8028794 <SetDINTypeActStr>
  memset(value, 0, len);
 802ca42:	2100      	movs	r1, #0
 802ca44:	2240      	movs	r2, #64	; 0x40
 802ca46:	a802      	add	r0, sp, #8
 802ca48:	f7f5 f9aa 	bl	8021da0 <memset>

  GetParamValue(buf, "ro1=", value, &valueLen);
 802ca4c:	f10d 0307 	add.w	r3, sp, #7
 802ca50:	aa02      	add	r2, sp, #8
 802ca52:	4931      	ldr	r1, [pc, #196]	; (802cb18 <HTTP_SetSettings+0x34c>)
 802ca54:	4620      	mov	r0, r4
 802ca56:	f7ff fd81 	bl	802c55c <GetParamValue>
  SetROTypeActStr(value, 0);
 802ca5a:	a802      	add	r0, sp, #8
 802ca5c:	2100      	movs	r1, #0
 802ca5e:	f7fb feb7 	bl	80287d0 <SetROTypeActStr>
  memset(value, 0, len);
 802ca62:	2100      	movs	r1, #0
 802ca64:	2240      	movs	r2, #64	; 0x40
 802ca66:	a802      	add	r0, sp, #8
 802ca68:	f7f5 f99a 	bl	8021da0 <memset>

  GetParamValue(buf, "ro2=", value, &valueLen);
 802ca6c:	f10d 0307 	add.w	r3, sp, #7
 802ca70:	aa02      	add	r2, sp, #8
 802ca72:	492a      	ldr	r1, [pc, #168]	; (802cb1c <HTTP_SetSettings+0x350>)
 802ca74:	4620      	mov	r0, r4
 802ca76:	f7ff fd71 	bl	802c55c <GetParamValue>
  SetROTypeActStr(value, 1);
 802ca7a:	a802      	add	r0, sp, #8
 802ca7c:	2101      	movs	r1, #1
 802ca7e:	f7fb fea7 	bl	80287d0 <SetROTypeActStr>
  memset(value, 0, len);
 802ca82:	2100      	movs	r1, #0
 802ca84:	2240      	movs	r2, #64	; 0x40
 802ca86:	a802      	add	r0, sp, #8
 802ca88:	f7f5 f98a 	bl	8021da0 <memset>


  // Параметры даты и времени
  GetParamValue(buf, "ntp=", value, &valueLen);
 802ca8c:	4924      	ldr	r1, [pc, #144]	; (802cb20 <HTTP_SetSettings+0x354>)
 802ca8e:	aa02      	add	r2, sp, #8
 802ca90:	f10d 0307 	add.w	r3, sp, #7
 802ca94:	4620      	mov	r0, r4
 802ca96:	f7ff fd61 	bl	802c55c <GetParamValue>
  SetSntpStateStr(value);
 802ca9a:	a802      	add	r0, sp, #8
 802ca9c:	f7fb fdfe 	bl	802869c <SetSntpStateStr>

  if (strncmp(value, "1", 1) == 0)  // Е�ли ntp on у�танавливаем параметры
 802caa0:	a802      	add	r0, sp, #8
 802caa2:	4920      	ldr	r1, [pc, #128]	; (802cb24 <HTTP_SetSettings+0x358>)
 802caa4:	2201      	movs	r2, #1
 802caa6:	f7f5 fbb5 	bl	8022214 <strncmp>
 802caaa:	4605      	mov	r5, r0
  {
    memset(value, 0, len);
 802caac:	a802      	add	r0, sp, #8

  // Параметры даты и времени
  GetParamValue(buf, "ntp=", value, &valueLen);
  SetSntpStateStr(value);

  if (strncmp(value, "1", 1) == 0)  // Е�ли ntp on у�танавливаем параметры
 802caae:	2d00      	cmp	r5, #0
 802cab0:	d140      	bne.n	802cb34 <HTTP_SetSettings+0x368>
  {
    memset(value, 0, len);
 802cab2:	4629      	mov	r1, r5
 802cab4:	2240      	movs	r2, #64	; 0x40
 802cab6:	f7f5 f973 	bl	8021da0 <memset>

    GetParamValue(buf, "ntpservip=", value, &valueLen);
 802caba:	4620      	mov	r0, r4
 802cabc:	491a      	ldr	r1, [pc, #104]	; (802cb28 <HTTP_SetSettings+0x35c>)
 802cabe:	aa02      	add	r2, sp, #8
 802cac0:	f10d 0307 	add.w	r3, sp, #7
 802cac4:	f7ff fd4a 	bl	802c55c <GetParamValue>
 802cac8:	e030      	b.n	802cb2c <HTTP_SetSettings+0x360>
 802caca:	bf00      	nop
 802cacc:	0804274c 	.word	0x0804274c
 802cad0:	0804275c 	.word	0x0804275c
 802cad4:	0804276d 	.word	0x0804276d
 802cad8:	08042778 	.word	0x08042778
 802cadc:	08042784 	.word	0x08042784
 802cae0:	08042790 	.word	0x08042790
 802cae4:	0804279c 	.word	0x0804279c
 802cae8:	080427a8 	.word	0x080427a8
 802caec:	080389a9 	.word	0x080389a9
 802caf0:	080427ae 	.word	0x080427ae
 802caf4:	080427b6 	.word	0x080427b6
 802caf8:	080427ba 	.word	0x080427ba
 802cafc:	080427c0 	.word	0x080427c0
 802cb00:	080427c6 	.word	0x080427c6
 802cb04:	080427d2 	.word	0x080427d2
 802cb08:	080427dd 	.word	0x080427dd
 802cb0c:	080427e6 	.word	0x080427e6
 802cb10:	080427ee 	.word	0x080427ee
 802cb14:	080427f6 	.word	0x080427f6
 802cb18:	080427fb 	.word	0x080427fb
 802cb1c:	08042800 	.word	0x08042800
 802cb20:	08042805 	.word	0x08042805
 802cb24:	08038c9e 	.word	0x08038c9e
 802cb28:	0804280a 	.word	0x0804280a
    SetSntpServerIpStr(value);
 802cb2c:	a802      	add	r0, sp, #8
 802cb2e:	f7fb fdd5 	bl	80286dc <SetSntpServerIpStr>
 802cb32:	e023      	b.n	802cb7c <HTTP_SetSettings+0x3b0>
    memset(value, 0, len);
  }
  else if (strncmp(value, "0", 1) == 0){
 802cb34:	4924      	ldr	r1, [pc, #144]	; (802cbc8 <HTTP_SetSettings+0x3fc>)
 802cb36:	2201      	movs	r2, #1
 802cb38:	f7f5 fb6c 	bl	8022214 <strncmp>
 802cb3c:	4605      	mov	r5, r0
 802cb3e:	bb10      	cbnz	r0, 802cb86 <HTTP_SetSettings+0x3ba>
      GetParamValue(buf, "date=", value, &valueLen);
 802cb40:	f10d 0307 	add.w	r3, sp, #7
 802cb44:	4921      	ldr	r1, [pc, #132]	; (802cbcc <HTTP_SetSettings+0x400>)
 802cb46:	aa02      	add	r2, sp, #8
 802cb48:	4620      	mov	r0, r4
 802cb4a:	f7ff fd07 	bl	802c55c <GetParamValue>
      SetDateStr(value);
 802cb4e:	a802      	add	r0, sp, #8
 802cb50:	f7fb fd3c 	bl	80285cc <SetDateStr>
      memset(value, 0, len);
 802cb54:	4629      	mov	r1, r5
 802cb56:	2240      	movs	r2, #64	; 0x40
 802cb58:	a802      	add	r0, sp, #8
 802cb5a:	f7f5 f921 	bl	8021da0 <memset>
      GetParamValue(buf, "time=", value, &valueLen);
 802cb5e:	491c      	ldr	r1, [pc, #112]	; (802cbd0 <HTTP_SetSettings+0x404>)
 802cb60:	aa02      	add	r2, sp, #8
 802cb62:	f10d 0307 	add.w	r3, sp, #7
 802cb66:	4620      	mov	r0, r4
 802cb68:	f7ff fcf8 	bl	802c55c <GetParamValue>
      url_decode(str, sizeof(str), value);
 802cb6c:	a812      	add	r0, sp, #72	; 0x48
 802cb6e:	2140      	movs	r1, #64	; 0x40
 802cb70:	aa02      	add	r2, sp, #8
 802cb72:	f7fc fd01 	bl	8029578 <url_decode>
      SetTimeStr(str);
 802cb76:	a812      	add	r0, sp, #72	; 0x48
 802cb78:	f7fb fd60 	bl	802863c <SetTimeStr>
      memset(value, 0, len);
 802cb7c:	a802      	add	r0, sp, #8
 802cb7e:	4629      	mov	r1, r5
 802cb80:	2240      	movs	r2, #64	; 0x40
 802cb82:	f7f5 f90d 	bl	8021da0 <memset>
  }

  GetParamValue(buf, "utc=", value, &valueLen);
 802cb86:	4913      	ldr	r1, [pc, #76]	; (802cbd4 <HTTP_SetSettings+0x408>)
 802cb88:	aa02      	add	r2, sp, #8
 802cb8a:	f10d 0307 	add.w	r3, sp, #7
 802cb8e:	4620      	mov	r0, r4
 802cb90:	f7ff fce4 	bl	802c55c <GetParamValue>
  SetSntpTimeZoneStr(value);
 802cb94:	a802      	add	r0, sp, #8
 802cb96:	f7fb fda7 	bl	80286e8 <SetSntpTimeZoneStr>
  memset(value, 0, len);
 802cb9a:	2100      	movs	r1, #0
 802cb9c:	2240      	movs	r2, #64	; 0x40
 802cb9e:	a802      	add	r0, sp, #8
 802cba0:	f7f5 f8fe 	bl	8021da0 <memset>
  
  /* Е�ли параметры WEB изменили�ь вы�тавл�ем флаг, �охран�ем на�тройки и перезагружаем�� */
  if (GetStateWebReinit() == true)
 802cba4:	f00a fb06 	bl	80371b4 <GetStateWebReinit>
 802cba8:	b150      	cbz	r0, 802cbc0 <HTTP_SetSettings+0x3f4>
  {	
	SetWebReinitFlag(true);
 802cbaa:	2001      	movs	r0, #1
 802cbac:	f7fb fc24 	bl	80283f8 <SetWebReinitFlag>
	HTTP_SaveSettings();
 802cbb0:	f001 fa92 	bl	802e0d8 <HTTP_SaveSettings>
    /* Блокируем управление ключем на тау �екунд*/
    //IO_KeyBlockOn();
    vTaskDelay(1010);
 802cbb4:	f240 30f2 	movw	r0, #1010	; 0x3f2
 802cbb8:	f7fe fbd4 	bl	802b364 <vTaskDelay>
    Reboot();
 802cbbc:	f7fc fc6c 	bl	8029498 <Reboot>
  }	
  
  HTTP_SaveSettings();
 802cbc0:	f001 fa8a 	bl	802e0d8 <HTTP_SaveSettings>
}
 802cbc4:	b023      	add	sp, #140	; 0x8c
 802cbc6:	bd30      	pop	{r4, r5, pc}
 802cbc8:	08038a13 	.word	0x08038a13
 802cbcc:	08042828 	.word	0x08042828
 802cbd0:	08042815 	.word	0x08042815
 802cbd4:	0804281b 	.word	0x0804281b

0802cbd8 <GetCookieValue>:
/**
  * @brief  
  * @retval None
  */
uint8_t GetCookieValue(char *inStr, char *paramName, char *paramValue, uint8_t *paramLen)
{
 802cbd8:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 802cbdc:	4690      	mov	r8, r2
 802cbde:	461f      	mov	r7, r3
  char *beginValue = 0;
  char *endValue = 0;
  int  len = 0;
  char *strPtr = 0;

  strPtr = strstr(inStr, paramName);
 802cbe0:	f7f5 fd36 	bl	8022650 <strstr>

  if (strPtr != 0)
 802cbe4:	4605      	mov	r5, r0
 802cbe6:	b1e0      	cbz	r0, 802cc22 <GetCookieValue+0x4a>
  {
    beginValue = strpbrk(strPtr,"=");
 802cbe8:	490f      	ldr	r1, [pc, #60]	; (802cc28 <GetCookieValue+0x50>)
 802cbea:	f7f5 fb9b 	bl	8022324 <strpbrk>
    endValue = strpbrk(strPtr,";");
 802cbee:	490f      	ldr	r1, [pc, #60]	; (802cc2c <GetCookieValue+0x54>)

  strPtr = strstr(inStr, paramName);

  if (strPtr != 0)
  {
    beginValue = strpbrk(strPtr,"=");
 802cbf0:	4606      	mov	r6, r0
    endValue = strpbrk(strPtr,";");
 802cbf2:	4628      	mov	r0, r5
 802cbf4:	f7f5 fb96 	bl	8022324 <strpbrk>
    if (endValue == 0)
 802cbf8:	4604      	mov	r4, r0
 802cbfa:	b920      	cbnz	r0, 802cc06 <GetCookieValue+0x2e>
      endValue = strpbrk(strPtr,"\n");
 802cbfc:	4628      	mov	r0, r5
 802cbfe:	490c      	ldr	r1, [pc, #48]	; (802cc30 <GetCookieValue+0x58>)
 802cc00:	f7f5 fb90 	bl	8022324 <strpbrk>
 802cc04:	4604      	mov	r4, r0
    len = endValue - beginValue - 1;
 802cc06:	1ba5      	subs	r5, r4, r6
 802cc08:	3d01      	subs	r5, #1
    strncpy(paramValue, beginValue + 1, len);
 802cc0a:	4640      	mov	r0, r8
 802cc0c:	1c71      	adds	r1, r6, #1
 802cc0e:	462a      	mov	r2, r5
 802cc10:	f7f5 fb56 	bl	80222c0 <strncpy>
    *endValue = '0';
 802cc14:	2330      	movs	r3, #48	; 0x30
 802cc16:	7023      	strb	r3, [r4, #0]
    *beginValue = '0';
    *paramLen = len;
    return 1;
 802cc18:	2001      	movs	r0, #1
    if (endValue == 0)
      endValue = strpbrk(strPtr,"\n");
    len = endValue - beginValue - 1;
    strncpy(paramValue, beginValue + 1, len);
    *endValue = '0';
    *beginValue = '0';
 802cc1a:	7033      	strb	r3, [r6, #0]
    *paramLen = len;
 802cc1c:	703d      	strb	r5, [r7, #0]
    return 1;
 802cc1e:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
  }
  else
  {
    *paramLen = 0;
 802cc22:	7038      	strb	r0, [r7, #0]
    return 0;
  }
}
 802cc24:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 802cc28:	080427f9 	.word	0x080427f9
 802cc2c:	08038b69 	.word	0x08038b69
 802cc30:	08042b4b 	.word	0x08042b4b

0802cc34 <ClearParamString>:
  }
}
*/

void ClearParamString(char *inBuf)
{
 802cc34:	b510      	push	{r4, lr}
  uint16_t len;
  char *str;
  
  str = strstr(inBuf, "HTTP");
 802cc36:	4908      	ldr	r1, [pc, #32]	; (802cc58 <ClearParamString+0x24>)
  }
}
*/

void ClearParamString(char *inBuf)
{
 802cc38:	4604      	mov	r4, r0
  uint16_t len;
  char *str;
  
  str = strstr(inBuf, "HTTP");
 802cc3a:	f7f5 fd09 	bl	8022650 <strstr>
  
  if (str != 0)
 802cc3e:	b148      	cbz	r0, 802cc54 <ClearParamString+0x20>
  {
    len = str - inBuf;
 802cc40:	1b02      	subs	r2, r0, r4
	memset(str, 0, RECIVE_BUF_MAX_LEN - len - 1);
 802cc42:	b292      	uxth	r2, r2
 802cc44:	f5c2 62bb 	rsb	r2, r2, #1496	; 0x5d8
 802cc48:	2100      	movs	r1, #0
 802cc4a:	3203      	adds	r2, #3
  }
}
 802cc4c:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  str = strstr(inBuf, "HTTP");
  
  if (str != 0)
  {
    len = str - inBuf;
	memset(str, 0, RECIVE_BUF_MAX_LEN - len - 1);
 802cc50:	f7f5 b8a6 	b.w	8021da0 <memset>
 802cc54:	bd10      	pop	{r4, pc}
 802cc56:	bf00      	nop
 802cc58:	08042820 	.word	0x08042820

0802cc5c <HTTP_Prodate>:
/**
  * @brief  У�тановка даты производ�тва
  */
// TODO Убрать заглушку!
void HTTP_Prodate(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802cc5c:	b5f0      	push	{r4, r5, r6, r7, lr}
  uint8_t valueLen = 0;
 802cc5e:	2500      	movs	r5, #0
/**
  * @brief  У�тановка даты производ�тва
  */
// TODO Убрать заглушку!
void HTTP_Prodate(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802cc60:	b087      	sub	sp, #28
 802cc62:	4606      	mov	r6, r0
 802cc64:	460c      	mov	r4, r1
  uint8_t valueLen = 0;
  char value[20];
  
  memset(bufOut, 0, SEND_BUF_MAX_LEN);
 802cc66:	f44f 62fa 	mov.w	r2, #2000	; 0x7d0
 802cc6a:	4608      	mov	r0, r1
 802cc6c:	4629      	mov	r1, r5
/**
  * @brief  У�тановка даты производ�тва
  */
// TODO Убрать заглушку!
void HTTP_Prodate(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802cc6e:	461f      	mov	r7, r3
  uint8_t valueLen = 0;
 802cc70:	f88d 5003 	strb.w	r5, [sp, #3]
  char value[20];
  
  memset(bufOut, 0, SEND_BUF_MAX_LEN);
 802cc74:	f7f5 f894 	bl	8021da0 <memset>
  
  ClearParamString(bufIn);
 802cc78:	4630      	mov	r0, r6
 802cc7a:	f7ff ffdb 	bl	802cc34 <ClearParamString>
  
  memset(value, 0, 20);
 802cc7e:	4629      	mov	r1, r5
 802cc80:	2214      	movs	r2, #20
 802cc82:	a801      	add	r0, sp, #4
 802cc84:	f7f5 f88c 	bl	8021da0 <memset>
  GetParamValue(bufIn, "prodate=", value, &valueLen);
 802cc88:	aa01      	add	r2, sp, #4
 802cc8a:	f10d 0303 	add.w	r3, sp, #3
 802cc8e:	490b      	ldr	r1, [pc, #44]	; (802ccbc <HTTP_Prodate+0x60>)
 802cc90:	4630      	mov	r0, r6
 802cc92:	f7ff fc63 	bl	802c55c <GetParamValue>
  printf(value);
  printf("\r\n");
  */
  
  /* У�танавливаем дату производ�тва */
  SETTINGS_SetProDate(value, valueLen);
 802cc96:	f89d 1003 	ldrb.w	r1, [sp, #3]
 802cc9a:	a801      	add	r0, sp, #4
 802cc9c:	f7fb fffe 	bl	8028c9c <SETTINGS_SetProDate>
  
  /* У�танавливаем дату �ледующей профилактики +1 год */
  RTC_SetProfTime(value);
 802cca0:	a801      	add	r0, sp, #4
 802cca2:	f7f9 fef1 	bl	8026a88 <RTC_SetProfTime>
  
  /* Пока отправл�ем true */
  strcpy(bufOut, "HTTP/1.0 200 OK\r\nContent-Type:text/html\r\n\r\nTrue");
 802cca6:	4906      	ldr	r1, [pc, #24]	; (802ccc0 <HTTP_Prodate+0x64>)
 802cca8:	4620      	mov	r0, r4
 802ccaa:	f7f5 f9f3 	bl	8022094 <strcpy>
  *lenBufOut = strlen(bufOut);
 802ccae:	4620      	mov	r0, r4
 802ccb0:	f7f5 fa4e 	bl	8022150 <strlen>
 802ccb4:	8038      	strh	r0, [r7, #0]
  
 // TEST_SetServerFlag();
}
 802ccb6:	b007      	add	sp, #28
 802ccb8:	bdf0      	pop	{r4, r5, r6, r7, pc}
 802ccba:	bf00      	nop
 802ccbc:	08042825 	.word	0x08042825
 802ccc0:	0804282e 	.word	0x0804282e

0802ccc4 <HTTP_UpsHistoryPage>:
	  }
  }
}

int HTTP_UpsHistoryPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802ccc4:	b5f0      	push	{r4, r5, r6, r7, lr}
  uint8_t i, valueLen = 0;
 802ccc6:	2500      	movs	r5, #0
	  }
  }
}

int HTTP_UpsHistoryPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802ccc8:	b087      	sub	sp, #28
 802ccca:	4607      	mov	r7, r0
  char value[20];
  uint32_t nbytes = 0;

  (void)lenBufIn;

  memset(bufOut, 0, FILE_BUF_MAX_LEN);
 802cccc:	f44f 727a 	mov.w	r2, #1000	; 0x3e8
 802ccd0:	4608      	mov	r0, r1
	  }
  }
}

int HTTP_UpsHistoryPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802ccd2:	460c      	mov	r4, r1
  char value[20];
  uint32_t nbytes = 0;

  (void)lenBufIn;

  memset(bufOut, 0, FILE_BUF_MAX_LEN);
 802ccd4:	4629      	mov	r1, r5
	  }
  }
}

int HTTP_UpsHistoryPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802ccd6:	461e      	mov	r6, r3
  uint8_t i, valueLen = 0;
 802ccd8:	f88d 5003 	strb.w	r5, [sp, #3]
  char value[20];
  uint32_t nbytes = 0;

  (void)lenBufIn;

  memset(bufOut, 0, FILE_BUF_MAX_LEN);
 802ccdc:	f7f5 f860 	bl	8021da0 <memset>

  ClearParamString(bufIn);
 802cce0:	4638      	mov	r0, r7
 802cce2:	f7ff ffa7 	bl	802cc34 <ClearParamString>

  memset(value, 0, 20);
 802cce6:	4629      	mov	r1, r5
 802cce8:	2214      	movs	r2, #20
 802ccea:	a801      	add	r0, sp, #4
 802ccec:	f7f5 f858 	bl	8021da0 <memset>
  GetParamValue(bufIn, "page=", value, &valueLen);
 802ccf0:	491d      	ldr	r1, [pc, #116]	; (802cd68 <HTTP_UpsHistoryPage+0xa4>)
 802ccf2:	4638      	mov	r0, r7
 802ccf4:	aa01      	add	r2, sp, #4
 802ccf6:	f10d 0303 	add.w	r3, sp, #3
 802ccfa:	f7ff fc2f 	bl	802c55c <GetParamValue>

  if (strcmp(value, "all") == 0)
 802ccfe:	a801      	add	r0, sp, #4
 802cd00:	491a      	ldr	r1, [pc, #104]	; (802cd6c <HTTP_UpsHistoryPage+0xa8>)
 802cd02:	f7f5 f8d9 	bl	8021eb8 <strcmp>
 802cd06:	b9e8      	cbnz	r0, 802cd44 <HTTP_UpsHistoryPage+0x80>
  {
	  if (!LOG_IsInit()) {
 802cd08:	f7fd f8f0 	bl	8029eec <LOG_IsInit>
 802cd0c:	b908      	cbnz	r0, 802cd12 <HTTP_UpsHistoryPage+0x4e>
		  return SEND_REQUIRED_NO;
 802cd0e:	2001      	movs	r0, #1
 802cd10:	e028      	b.n	802cd64 <HTTP_UpsHistoryPage+0xa0>
	  }

      if (fLogTransInprog == false) {
 802cd12:	4d17      	ldr	r5, [pc, #92]	; (802cd70 <HTTP_UpsHistoryPage+0xac>)
 802cd14:	782b      	ldrb	r3, [r5, #0]
 802cd16:	2b00      	cmp	r3, #0
 802cd18:	d1f9      	bne.n	802cd0e <HTTP_UpsHistoryPage+0x4a>

        // Send log as raw data
        log_ptr = 0;
 802cd1a:	4a16      	ldr	r2, [pc, #88]	; (802cd74 <HTTP_UpsHistoryPage+0xb0>)
 802cd1c:	6013      	str	r3, [r2, #0]

        log_size = LOG_GetTotalSTRCount() * STRING_SIZE + sizeof(UTF8_BOM)-1;
 802cd1e:	f7fd f8f7 	bl	8029f10 <LOG_GetTotalSTRCount>
 802cd22:	4b15      	ldr	r3, [pc, #84]	; (802cd78 <HTTP_UpsHistoryPage+0xb4>)
        sprintf(bufOut, "HTTP/1.1 200 OK\r\nContent-Length:%lu\r\n\r\n%s", log_size, UTF8_BOM);
 802cd24:	4915      	ldr	r1, [pc, #84]	; (802cd7c <HTTP_UpsHistoryPage+0xb8>)
      if (fLogTransInprog == false) {

        // Send log as raw data
        log_ptr = 0;

        log_size = LOG_GetTotalSTRCount() * STRING_SIZE + sizeof(UTF8_BOM)-1;
 802cd26:	0180      	lsls	r0, r0, #6
 802cd28:	1cc2      	adds	r2, r0, #3
 802cd2a:	601a      	str	r2, [r3, #0]
        sprintf(bufOut, "HTTP/1.1 200 OK\r\nContent-Length:%lu\r\n\r\n%s", log_size, UTF8_BOM);
 802cd2c:	4620      	mov	r0, r4
 802cd2e:	4b14      	ldr	r3, [pc, #80]	; (802cd80 <HTTP_UpsHistoryPage+0xbc>)
 802cd30:	f7fa fef6 	bl	8027b20 <tfp_sprintf>

        *lenBufOut = strlen(bufOut);
 802cd34:	4620      	mov	r0, r4
 802cd36:	f7f5 fa0b 	bl	8022150 <strlen>

        // Set file transfer in progress flag
        fLogTransInprog = true;
 802cd3a:	2301      	movs	r3, #1
        log_ptr = 0;

        log_size = LOG_GetTotalSTRCount() * STRING_SIZE + sizeof(UTF8_BOM)-1;
        sprintf(bufOut, "HTTP/1.1 200 OK\r\nContent-Length:%lu\r\n\r\n%s", log_size, UTF8_BOM);

        *lenBufOut = strlen(bufOut);
 802cd3c:	8030      	strh	r0, [r6, #0]

        // Set file transfer in progress flag
        fLogTransInprog = true;
 802cd3e:	702b      	strb	r3, [r5, #0]

        return SEND_REQUIRED_FILE;
 802cd40:	2002      	movs	r0, #2
 802cd42:	e00f      	b.n	802cd64 <HTTP_UpsHistoryPage+0xa0>
          // We send nothing if file transfer already in progress
          return SEND_REQUIRED_NO;
     }
  }
  else {
	  if (!LOG_IsInit()) {
 802cd44:	f7fd f8d2 	bl	8029eec <LOG_IsInit>
 802cd48:	2800      	cmp	r0, #0
 802cd4a:	d0e0      	beq.n	802cd0e <HTTP_UpsHistoryPage+0x4a>
		  return SEND_REQUIRED_NO;
	  }
	  else {
		  HTTP_GetUpsHistoryPage(bufOut, atoi(value));
 802cd4c:	a801      	add	r0, sp, #4
 802cd4e:	f7f4 ff07 	bl	8021b60 <atoi>
 802cd52:	4601      	mov	r1, r0
 802cd54:	4620      	mov	r0, r4
 802cd56:	f001 f949 	bl	802dfec <HTTP_GetUpsHistoryPage>
		  *lenBufOut = strlen(bufOut);
 802cd5a:	4620      	mov	r0, r4
 802cd5c:	f7f5 f9f8 	bl	8022150 <strlen>
 802cd60:	8030      	strh	r0, [r6, #0]

		  return SEND_REQUIRED_YES;
 802cd62:	4628      	mov	r0, r5
	  }
  }
}
 802cd64:	b007      	add	sp, #28
 802cd66:	bdf0      	pop	{r4, r5, r6, r7, pc}
 802cd68:	0804285e 	.word	0x0804285e
 802cd6c:	08042864 	.word	0x08042864
 802cd70:	20000d30 	.word	0x20000d30
 802cd74:	20000d28 	.word	0x20000d28
 802cd78:	20000d34 	.word	0x20000d34
 802cd7c:	08042868 	.word	0x08042868
 802cd80:	0803c56c 	.word	0x0803c56c

0802cd84 <HTTP_HistoryPage>:
*/	
  }
}  

int HTTP_HistoryPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802cd84:	b5f0      	push	{r4, r5, r6, r7, lr}
  uint8_t i, valueLen = 0;
 802cd86:	2500      	movs	r5, #0
*/	
  }
}  

int HTTP_HistoryPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802cd88:	b087      	sub	sp, #28
 802cd8a:	4607      	mov	r7, r0
  char value[20];
  uint32_t nbytes = 0;

  (void)lenBufIn;

  memset(bufOut, 0, FILE_BUF_MAX_LEN);
 802cd8c:	f44f 727a 	mov.w	r2, #1000	; 0x3e8
 802cd90:	4608      	mov	r0, r1
*/	
  }
}  

int HTTP_HistoryPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802cd92:	460c      	mov	r4, r1
  char value[20];
  uint32_t nbytes = 0;

  (void)lenBufIn;

  memset(bufOut, 0, FILE_BUF_MAX_LEN);
 802cd94:	4629      	mov	r1, r5
*/	
  }
}  

int HTTP_HistoryPage(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802cd96:	461e      	mov	r6, r3
  uint8_t i, valueLen = 0;
 802cd98:	f88d 5003 	strb.w	r5, [sp, #3]
  char value[20];
  uint32_t nbytes = 0;

  (void)lenBufIn;

  memset(bufOut, 0, FILE_BUF_MAX_LEN);
 802cd9c:	f7f5 f800 	bl	8021da0 <memset>

  ClearParamString(bufIn);
 802cda0:	4638      	mov	r0, r7
 802cda2:	f7ff ff47 	bl	802cc34 <ClearParamString>

  memset(value, 0, 20);
 802cda6:	4629      	mov	r1, r5
 802cda8:	2214      	movs	r2, #20
 802cdaa:	a801      	add	r0, sp, #4
 802cdac:	f7f4 fff8 	bl	8021da0 <memset>
  GetParamValue(bufIn, "page=", value, &valueLen);
 802cdb0:	491e      	ldr	r1, [pc, #120]	; (802ce2c <HTTP_HistoryPage+0xa8>)
 802cdb2:	4638      	mov	r0, r7
 802cdb4:	aa01      	add	r2, sp, #4
 802cdb6:	f10d 0303 	add.w	r3, sp, #3
 802cdba:	f7ff fbcf 	bl	802c55c <GetParamValue>

  if (strcmp(value, "all") == 0)
 802cdbe:	a801      	add	r0, sp, #4
 802cdc0:	491b      	ldr	r1, [pc, #108]	; (802ce30 <HTTP_HistoryPage+0xac>)
 802cdc2:	f7f5 f879 	bl	8021eb8 <strcmp>
 802cdc6:	b9f0      	cbnz	r0, 802ce06 <HTTP_HistoryPage+0x82>
  {
	  if (!LOG_IsInit()) {
 802cdc8:	f7fd f890 	bl	8029eec <LOG_IsInit>
 802cdcc:	b908      	cbnz	r0, 802cdd2 <HTTP_HistoryPage+0x4e>
		  return SEND_REQUIRED_NO;
 802cdce:	2001      	movs	r0, #1
 802cdd0:	e029      	b.n	802ce26 <HTTP_HistoryPage+0xa2>
	  }

      if (fLogTransInprog == false) {
 802cdd2:	4d18      	ldr	r5, [pc, #96]	; (802ce34 <HTTP_HistoryPage+0xb0>)
 802cdd4:	782b      	ldrb	r3, [r5, #0]
 802cdd6:	2b00      	cmp	r3, #0
 802cdd8:	d1f9      	bne.n	802cdce <HTTP_HistoryPage+0x4a>

        // Send log as raw data
        log_ptr = 0;
 802cdda:	4a17      	ldr	r2, [pc, #92]	; (802ce38 <HTTP_HistoryPage+0xb4>)
 802cddc:	6013      	str	r3, [r2, #0]

        log_size = History_GetTotalSTRCount() * STRING_SIZE_HISTORY + sizeof(UTF8_BOM)-1;
 802cdde:	f7fd f983 	bl	802a0e8 <History_GetTotalSTRCount>
 802cde2:	2264      	movs	r2, #100	; 0x64
 802cde4:	4350      	muls	r0, r2
 802cde6:	4b15      	ldr	r3, [pc, #84]	; (802ce3c <HTTP_HistoryPage+0xb8>)
        sprintf(bufOut, "HTTP/1.1 200 OK\r\nContent-Length:%lu\r\n\r\n%s", log_size, UTF8_BOM);
 802cde8:	4915      	ldr	r1, [pc, #84]	; (802ce40 <HTTP_HistoryPage+0xbc>)
      if (fLogTransInprog == false) {

        // Send log as raw data
        log_ptr = 0;

        log_size = History_GetTotalSTRCount() * STRING_SIZE_HISTORY + sizeof(UTF8_BOM)-1;
 802cdea:	1cc2      	adds	r2, r0, #3
 802cdec:	601a      	str	r2, [r3, #0]
        sprintf(bufOut, "HTTP/1.1 200 OK\r\nContent-Length:%lu\r\n\r\n%s", log_size, UTF8_BOM);
 802cdee:	4620      	mov	r0, r4
 802cdf0:	4b14      	ldr	r3, [pc, #80]	; (802ce44 <HTTP_HistoryPage+0xc0>)
 802cdf2:	f7fa fe95 	bl	8027b20 <tfp_sprintf>

        *lenBufOut = strlen(bufOut);
 802cdf6:	4620      	mov	r0, r4
 802cdf8:	f7f5 f9aa 	bl	8022150 <strlen>

        // Set file transfer in progress flag
        fLogTransInprog = true;
 802cdfc:	2301      	movs	r3, #1
        log_ptr = 0;

        log_size = History_GetTotalSTRCount() * STRING_SIZE_HISTORY + sizeof(UTF8_BOM)-1;
        sprintf(bufOut, "HTTP/1.1 200 OK\r\nContent-Length:%lu\r\n\r\n%s", log_size, UTF8_BOM);

        *lenBufOut = strlen(bufOut);
 802cdfe:	8030      	strh	r0, [r6, #0]

        // Set file transfer in progress flag
        fLogTransInprog = true;
 802ce00:	702b      	strb	r3, [r5, #0]

        return SEND_REQUIRED_FILE;
 802ce02:	2002      	movs	r0, #2
 802ce04:	e00f      	b.n	802ce26 <HTTP_HistoryPage+0xa2>
          // We send nothing if file transfer already in progress
          return SEND_REQUIRED_NO;
     }
  }
  else {
	  if (!LOG_IsInit()) {
 802ce06:	f7fd f871 	bl	8029eec <LOG_IsInit>
 802ce0a:	2800      	cmp	r0, #0
 802ce0c:	d0df      	beq.n	802cdce <HTTP_HistoryPage+0x4a>
		  return SEND_REQUIRED_NO;
	  }
	  else {
		  HTTP_GetHistoryPage(bufOut, atoi(value));
 802ce0e:	a801      	add	r0, sp, #4
 802ce10:	f7f4 fea6 	bl	8021b60 <atoi>
 802ce14:	4601      	mov	r1, r0
 802ce16:	4620      	mov	r0, r4
 802ce18:	f001 f886 	bl	802df28 <HTTP_GetHistoryPage>
		  *lenBufOut = strlen(bufOut);
 802ce1c:	4620      	mov	r0, r4
 802ce1e:	f7f5 f997 	bl	8022150 <strlen>
 802ce22:	8030      	strh	r0, [r6, #0]

		  return SEND_REQUIRED_YES;
 802ce24:	4628      	mov	r0, r5
	  }
  }
}
 802ce26:	b007      	add	sp, #28
 802ce28:	bdf0      	pop	{r4, r5, r6, r7, pc}
 802ce2a:	bf00      	nop
 802ce2c:	0804285e 	.word	0x0804285e
 802ce30:	08042864 	.word	0x08042864
 802ce34:	20000d30 	.word	0x20000d30
 802ce38:	20000d28 	.word	0x20000d28
 802ce3c:	20000d34 	.word	0x20000d34
 802ce40:	08042868 	.word	0x08042868
 802ce44:	0803c56c 	.word	0x0803c56c

0802ce48 <HTTP_ChangeUserPwd>:
/**
  * @brief  Смена парол� пользовател�
  * @retval None
  */
int HTTP_ChangeUserPwd(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802ce48:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 802ce4c:	b0b0      	sub	sp, #192	; 0xc0
 802ce4e:	4605      	mov	r5, r0
 802ce50:	460c      	mov	r4, r1
    uint8_t valueLen, valueLen2, user_id;
    char WebLogin[MAX_WEB_LOGIN_LEN];

    (void)lenBufIn;

    memset(login, 0, 20);
 802ce52:	2214      	movs	r2, #20
 802ce54:	2100      	movs	r1, #0
 802ce56:	a80a      	add	r0, sp, #40	; 0x28
/**
  * @brief  Смена парол� пользовател�
  * @retval None
  */
int HTTP_ChangeUserPwd(char *bufIn, char *bufOut, uint16_t lenBufIn, uint16_t *lenBufOut)
{
 802ce58:	461e      	mov	r6, r3
    uint8_t valueLen, valueLen2, user_id;
    char WebLogin[MAX_WEB_LOGIN_LEN];

    (void)lenBufIn;

    memset(login, 0, 20);
 802ce5a:	f7f4 ffa1 	bl	8021da0 <memset>
    memset(password, 0, 20);
 802ce5e:	2100      	movs	r1, #0
 802ce60:	2214      	movs	r2, #20
 802ce62:	a80f      	add	r0, sp, #60	; 0x3c
 802ce64:	f7f4 ff9c 	bl	8021da0 <memset>
    memset(tempStr, 0, 50);
    memset(value, 0, 20);
 802ce68:	af05      	add	r7, sp, #20

    (void)lenBufIn;

    memset(login, 0, 20);
    memset(password, 0, 20);
    memset(tempStr, 0, 50);
 802ce6a:	2100      	movs	r1, #0
 802ce6c:	2232      	movs	r2, #50	; 0x32
 802ce6e:	a814      	add	r0, sp, #80	; 0x50
 802ce70:	f7f4 ff96 	bl	8021da0 <memset>
    memset(value, 0, 20);
 802ce74:	2100      	movs	r1, #0
 802ce76:	2214      	movs	r2, #20
 802ce78:	4638      	mov	r0, r7
 802ce7a:	f7f4 ff91 	bl	8021da0 <memset>

    ClearParamString(bufIn);
 802ce7e:	4628      	mov	r0, r5
 802ce80:	f7ff fed8 	bl	802cc34 <ClearParamString>

    strncpy(tempStr, bufIn, 110);
 802ce84:	226e      	movs	r2, #110	; 0x6e
 802ce86:	4629      	mov	r1, r5
 802ce88:	a814      	add	r0, sp, #80	; 0x50
 802ce8a:	f7f5 fa19 	bl	80222c0 <strncpy>

    strcpy(bufOut, HTTP_200_OK);

    if (GetParamValue(tempStr, "username=", login, &valueLen) &&
 802ce8e:	f10d 0806 	add.w	r8, sp, #6

    ClearParamString(bufIn);

    strncpy(tempStr, bufIn, 110);

    strcpy(bufOut, HTTP_200_OK);
 802ce92:	4933      	ldr	r1, [pc, #204]	; (802cf60 <HTTP_ChangeUserPwd+0x118>)
 802ce94:	4620      	mov	r0, r4
 802ce96:	f7f5 f8fd 	bl	8022094 <strcpy>

    if (GetParamValue(tempStr, "username=", login, &valueLen) &&
 802ce9a:	a814      	add	r0, sp, #80	; 0x50
 802ce9c:	4931      	ldr	r1, [pc, #196]	; (802cf64 <HTTP_ChangeUserPwd+0x11c>)
 802ce9e:	aa0a      	add	r2, sp, #40	; 0x28
 802cea0:	4643      	mov	r3, r8
 802cea2:	f7ff fb5b 	bl	802c55c <GetParamValue>
 802cea6:	2800      	cmp	r0, #0
 802cea8:	d04e      	beq.n	802cf48 <HTTP_ChangeUserPwd+0x100>
        GetParamValue(tempStr, "oldpass=", password, &valueLen))
 802ceaa:	a814      	add	r0, sp, #80	; 0x50
 802ceac:	492e      	ldr	r1, [pc, #184]	; (802cf68 <HTTP_ChangeUserPwd+0x120>)
 802ceae:	aa0f      	add	r2, sp, #60	; 0x3c
 802ceb0:	4643      	mov	r3, r8
 802ceb2:	f7ff fb53 	bl	802c55c <GetParamValue>

    strncpy(tempStr, bufIn, 110);

    strcpy(bufOut, HTTP_200_OK);

    if (GetParamValue(tempStr, "username=", login, &valueLen) &&
 802ceb6:	2800      	cmp	r0, #0
 802ceb8:	d046      	beq.n	802cf48 <HTTP_ChangeUserPwd+0x100>
 802ceba:	2500      	movs	r5, #0
        GetParamValue(tempStr, "oldpass=", password, &valueLen))
    {
          for (user_id = 0; user_id < MAX_WEB_USERS; user_id++)
          {
        	  memset(value, 0, 20);
 802cebc:	2100      	movs	r1, #0
 802cebe:	2214      	movs	r2, #20
 802cec0:	4638      	mov	r0, r7
 802cec2:	f7f4 ff6d 	bl	8021da0 <memset>
			  memset(WebLogin, 0, MAX_WEB_LOGIN_LEN);
 802cec6:	2100      	movs	r1, #0
 802cec8:	220b      	movs	r2, #11
 802ceca:	a802      	add	r0, sp, #8
 802cecc:	f7f4 ff68 	bl	8021da0 <memset>
			 GetUserLogin(user_id, WebLogin, &valueLen);
 802ced0:	4628      	mov	r0, r5
 802ced2:	a902      	add	r1, sp, #8
 802ced4:	4642      	mov	r2, r8
 802ced6:	f7fb f90d 	bl	80280f4 <GetUserLogin>
			 GetUserPassword(user_id, value, &valueLen2);
 802ceda:	4628      	mov	r0, r5
 802cedc:	4639      	mov	r1, r7
 802cede:	f10d 0207 	add.w	r2, sp, #7
 802cee2:	f7fb f91d 	bl	8028120 <GetUserPassword>
			 /* Check login and password */
			 if ((strncmp(WebLogin, login, MAX_WEB_LOGIN_LEN) == 0) &&
 802cee6:	a802      	add	r0, sp, #8
 802cee8:	a90a      	add	r1, sp, #40	; 0x28
 802ceea:	220b      	movs	r2, #11
 802ceec:	f7f5 f992 	bl	8022214 <strncmp>
 802cef0:	bb18      	cbnz	r0, 802cf3a <HTTP_ChangeUserPwd+0xf2>
				 (memcmp(password, value, 11) == 0))
 802cef2:	4639      	mov	r1, r7
 802cef4:	a80f      	add	r0, sp, #60	; 0x3c
 802cef6:	220b      	movs	r2, #11
 802cef8:	f7f4 fe66 	bl	8021bc8 <memcmp>
        	  memset(value, 0, 20);
			  memset(WebLogin, 0, MAX_WEB_LOGIN_LEN);
			 GetUserLogin(user_id, WebLogin, &valueLen);
			 GetUserPassword(user_id, value, &valueLen2);
			 /* Check login and password */
			 if ((strncmp(WebLogin, login, MAX_WEB_LOGIN_LEN) == 0) &&
 802cefc:	4601      	mov	r1, r0
 802cefe:	b9e0      	cbnz	r0, 802cf3a <HTTP_ChangeUserPwd+0xf2>
				 (memcmp(password, value, 11) == 0))
			 {
				 memset(password, 0, 20);
 802cf00:	2214      	movs	r2, #20
 802cf02:	a80f      	add	r0, sp, #60	; 0x3c
 802cf04:	f7f4 ff4c 	bl	8021da0 <memset>
				 if (GetParamValue(tempStr, "newpass=", password, &valueLen))
 802cf08:	a814      	add	r0, sp, #80	; 0x50
 802cf0a:	4918      	ldr	r1, [pc, #96]	; (802cf6c <HTTP_ChangeUserPwd+0x124>)
 802cf0c:	aa0f      	add	r2, sp, #60	; 0x3c
 802cf0e:	4643      	mov	r3, r8
 802cf10:	f7ff fb24 	bl	802c55c <GetParamValue>
 802cf14:	b1c0      	cbz	r0, 802cf48 <HTTP_ChangeUserPwd+0x100>
				 {

					 memcpy(sSettings.sAuth[user_id].password, password, 11);
 802cf16:	4b16      	ldr	r3, [pc, #88]	; (802cf70 <HTTP_ChangeUserPwd+0x128>)
 802cf18:	2217      	movs	r2, #23
 802cf1a:	fb02 3005 	mla	r0, r2, r5, r3
 802cf1e:	a90f      	add	r1, sp, #60	; 0x3c
 802cf20:	220b      	movs	r2, #11
 802cf22:	3005      	adds	r0, #5
 802cf24:	f7f4 fe82 	bl	8021c2c <memcpy>

					 HTTP_SaveSettings();
 802cf28:	f001 f8d6 	bl	802e0d8 <HTTP_SaveSettings>
					 log_event_data(LOG_PSW_CHANGE, "�дмини�тратор");
 802cf2c:	2003      	movs	r0, #3
 802cf2e:	4911      	ldr	r1, [pc, #68]	; (802cf74 <HTTP_ChangeUserPwd+0x12c>)
 802cf30:	f7fc ffa2 	bl	8029e78 <log_event_data>
					 strcat(bufOut, "Пароль у�пешно изменён");
 802cf34:	4620      	mov	r0, r4
 802cf36:	4910      	ldr	r1, [pc, #64]	; (802cf78 <HTTP_ChangeUserPwd+0x130>)
 802cf38:	e008      	b.n	802cf4c <HTTP_ChangeUserPwd+0x104>
    strcpy(bufOut, HTTP_200_OK);

    if (GetParamValue(tempStr, "username=", login, &valueLen) &&
        GetParamValue(tempStr, "oldpass=", password, &valueLen))
    {
          for (user_id = 0; user_id < MAX_WEB_USERS; user_id++)
 802cf3a:	3501      	adds	r5, #1
 802cf3c:	b2ed      	uxtb	r5, r5
 802cf3e:	2d02      	cmp	r5, #2
 802cf40:	d1bc      	bne.n	802cebc <HTTP_ChangeUserPwd+0x74>
					  *lenBufOut = strlen(bufOut);
					  return SEND_REQUIRED_YES;
				 }
			 }
          }
          strcat(bufOut, "Введён неверный пароль!");
 802cf42:	4620      	mov	r0, r4
 802cf44:	490d      	ldr	r1, [pc, #52]	; (802cf7c <HTTP_ChangeUserPwd+0x134>)
 802cf46:	e001      	b.n	802cf4c <HTTP_ChangeUserPwd+0x104>
          *lenBufOut = strlen(bufOut);
          return SEND_REQUIRED_YES;
  }
  else {
      strcat(bufOut, "Введены некорректные данные!");
 802cf48:	490d      	ldr	r1, [pc, #52]	; (802cf80 <HTTP_ChangeUserPwd+0x138>)
 802cf4a:	4620      	mov	r0, r4
 802cf4c:	f7f4 ff8e 	bl	8021e6c <strcat>
      *lenBufOut = strlen(bufOut);
 802cf50:	4620      	mov	r0, r4
 802cf52:	f7f5 f8fd 	bl	8022150 <strlen>
 802cf56:	8030      	strh	r0, [r6, #0]
      return SEND_REQUIRED_YES;
  }
}
 802cf58:	2000      	movs	r0, #0
 802cf5a:	b030      	add	sp, #192	; 0xc0
 802cf5c:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 802cf60:	08043633 	.word	0x08043633
 802cf64:	08042892 	.word	0x08042892
 802cf68:	0804289c 	.word	0x0804289c
 802cf6c:	080428a5 	.word	0x080428a5
 802cf70:	2000ceb8 	.word	0x2000ceb8
 802cf74:	08038a86 	.word	0x08038a86
 802cf78:	080428ae 	.word	0x080428ae
 802cf7c:	0804290f 	.word	0x0804290f
 802cf80:	080428d9 	.word	0x080428d9

0802cf84 <http_recv>:
  * @param p: pointer to a packet buffer
  * @param err: LwIP error code
  * @retval err
  */
static err_t http_recv(void *arg, struct tcp_pcb *pcb,  struct pbuf *p, err_t err)
{
 802cf84:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 802cf88:	b09d      	sub	sp, #116	; 0x74
 802cf8a:	4617      	mov	r7, r2
  struct http_state *hs;
  char CookieBuf[50];
  char *CookiePtr = NULL;
  char name[MAX_WEB_COOKIE_LEN];
  char id[MAX_WEB_COOKIE_LEN];
  uint8_t nameLen = 0, idLen = 0;
 802cf8c:	2200      	movs	r2, #0
  * @param p: pointer to a packet buffer
  * @param err: LwIP error code
  * @retval err
  */
static err_t http_recv(void *arg, struct tcp_pcb *pcb,  struct pbuf *p, err_t err)
{
 802cf8e:	4604      	mov	r4, r0
 802cf90:	460d      	mov	r5, r1
  struct http_state *hs;
  char CookieBuf[50];
  char *CookiePtr = NULL;
  char name[MAX_WEB_COOKIE_LEN];
  char id[MAX_WEB_COOKIE_LEN];
  uint8_t nameLen = 0, idLen = 0;
 802cf92:	f88d 200a 	strb.w	r2, [sp, #10]
 802cf96:	f88d 200b 	strb.w	r2, [sp, #11]
  struct fs_file file = {0, 0};
 802cf9a:	9205      	str	r2, [sp, #20]
 802cf9c:	9206      	str	r2, [sp, #24]
  
  hs = arg;

  if (err == ERR_OK && p != NULL)
 802cf9e:	2b00      	cmp	r3, #0
 802cfa0:	f040 83c2 	bne.w	802d728 <http_recv+0x7a4>
 802cfa4:	2f00      	cmp	r7, #0
 802cfa6:	f000 83bf 	beq.w	802d728 <http_recv+0x7a4>
  {
    tcp_recved(pcb, p->tot_len);
 802cfaa:	4608      	mov	r0, r1
 802cfac:	8939      	ldrh	r1, [r7, #8]
 802cfae:	f002 fd35 	bl	802fa1c <tcp_recved>
  
	if (hs->file == NULL)
 802cfb2:	f8d4 9000 	ldr.w	r9, [r4]
 802cfb6:	f1b9 0f00 	cmp.w	r9, #0
 802cfba:	f040 83b2 	bne.w	802d722 <http_recv+0x79e>
	  printLen = p->tot_len;
	  memcpy(printBuf, p->payload , printLen);
	  printf(printBuf);
*/	  
	  receivedBufLen = p->tot_len;
	  memcpy(receiveBuf, p->payload , receivedBufLen);
 802cfbe:	f8df a308 	ldr.w	sl, [pc, #776]	; 802d2c8 <http_recv+0x344>
  {
    tcp_recved(pcb, p->tot_len);
  
	if (hs->file == NULL)
    {
      data = p->payload;
 802cfc2:	687e      	ldr	r6, [r7, #4]
/*	  
	  printLen = p->tot_len;
	  memcpy(printBuf, p->payload , printLen);
	  printf(printBuf);
*/	  
	  receivedBufLen = p->tot_len;
 802cfc4:	893a      	ldrh	r2, [r7, #8]
 802cfc6:	f8df 82fc 	ldr.w	r8, [pc, #764]	; 802d2c4 <http_recv+0x340>
	  memcpy(receiveBuf, p->payload , receivedBufLen);
 802cfca:	4650      	mov	r0, sl
 802cfcc:	4631      	mov	r1, r6
/*	  
	  printLen = p->tot_len;
	  memcpy(printBuf, p->payload , printLen);
	  printf(printBuf);
*/	  
	  receivedBufLen = p->tot_len;
 802cfce:	f8a8 2000 	strh.w	r2, [r8]
	  memcpy(receiveBuf, p->payload , receivedBufLen);
 802cfd2:	f7f4 fe2b 	bl	8021c2c <memcpy>

	  receiveBuf[receivedBufLen] = '\0';
 802cfd6:	f8b8 3000 	ldrh.w	r3, [r8]
	 // printf("receive %s \r\n", receiveBuf);
	  /* Get cookie "uname" value */
	  CookiePtr = strstr(receiveBuf, "uname=");
 802cfda:	49a8      	ldr	r1, [pc, #672]	; (802d27c <http_recv+0x2f8>)
	  printf(printBuf);
*/	  
	  receivedBufLen = p->tot_len;
	  memcpy(receiveBuf, p->payload , receivedBufLen);

	  receiveBuf[receivedBufLen] = '\0';
 802cfdc:	f80a 9003 	strb.w	r9, [sl, r3]
	 // printf("receive %s \r\n", receiveBuf);
	  /* Get cookie "uname" value */
	  CookiePtr = strstr(receiveBuf, "uname=");
 802cfe0:	4650      	mov	r0, sl
 802cfe2:	f7f5 fb35 	bl	8022650 <strstr>
	  strncpy(CookieBuf, CookiePtr, 50);
 802cfe6:	f10d 083c 	add.w	r8, sp, #60	; 0x3c
	  memcpy(receiveBuf, p->payload , receivedBufLen);

	  receiveBuf[receivedBufLen] = '\0';
	 // printf("receive %s \r\n", receiveBuf);
	  /* Get cookie "uname" value */
	  CookiePtr = strstr(receiveBuf, "uname=");
 802cfea:	4601      	mov	r1, r0
	  strncpy(CookieBuf, CookiePtr, 50);
 802cfec:	2232      	movs	r2, #50	; 0x32
 802cfee:	4640      	mov	r0, r8
 802cff0:	f7f5 f966 	bl	80222c0 <strncpy>
	  //printf("********CookieBuf1= %s\r\n", CookieBuf);
	  memset(name, 0, MAX_WEB_COOKIE_LEN);
 802cff4:	4649      	mov	r1, r9
 802cff6:	2210      	movs	r2, #16
 802cff8:	a807      	add	r0, sp, #28
 802cffa:	f7f4 fed1 	bl	8021da0 <memset>
	  GetCookieValue(CookieBuf, "uname=", name, &nameLen);
 802cffe:	f10d 030a 	add.w	r3, sp, #10
 802d002:	aa07      	add	r2, sp, #28
 802d004:	499d      	ldr	r1, [pc, #628]	; (802d27c <http_recv+0x2f8>)
 802d006:	4640      	mov	r0, r8
 802d008:	f7ff fde6 	bl	802cbd8 <GetCookieValue>
	  //printf("********CookieBuf2= %s\r\n", CookieBuf);
	  //printf("********uname= %s\r\n", name);

	   /* Get cookie "id" value */
	   CookiePtr = strstr(receiveBuf, "id=");
 802d00c:	4650      	mov	r0, sl
 802d00e:	499c      	ldr	r1, [pc, #624]	; (802d280 <http_recv+0x2fc>)
 802d010:	f7f5 fb1e 	bl	8022650 <strstr>
	   strncpy(CookieBuf, CookiePtr, 50);
	   //printf("********CookieBuf1= %s\r\n", CookieBuf);
	   memset(id, 0, MAX_WEB_COOKIE_LEN);
 802d014:	f10d 0a2c 	add.w	sl, sp, #44	; 0x2c
	  GetCookieValue(CookieBuf, "uname=", name, &nameLen);
	  //printf("********CookieBuf2= %s\r\n", CookieBuf);
	  //printf("********uname= %s\r\n", name);

	   /* Get cookie "id" value */
	   CookiePtr = strstr(receiveBuf, "id=");
 802d018:	4601      	mov	r1, r0
	   strncpy(CookieBuf, CookiePtr, 50);
 802d01a:	2232      	movs	r2, #50	; 0x32
 802d01c:	4640      	mov	r0, r8
 802d01e:	f7f5 f94f 	bl	80222c0 <strncpy>
	   //printf("********CookieBuf1= %s\r\n", CookieBuf);
	   memset(id, 0, MAX_WEB_COOKIE_LEN);
 802d022:	4649      	mov	r1, r9
 802d024:	2210      	movs	r2, #16
 802d026:	4650      	mov	r0, sl
 802d028:	f7f4 feba 	bl	8021da0 <memset>
	   GetCookieValue(CookieBuf, "id=", id, &idLen);
 802d02c:	4652      	mov	r2, sl
 802d02e:	f10d 030b 	add.w	r3, sp, #11
 802d032:	4640      	mov	r0, r8
 802d034:	4992      	ldr	r1, [pc, #584]	; (802d280 <http_recv+0x2fc>)
 802d036:	f7ff fdcf 	bl	802cbd8 <GetCookieValue>

	   /* Id of currently logged-in user */
	   uint8_t user_id;

	   /* Level of currently logged-in user */
	   seclevel = 0xFF;
 802d03a:	4b92      	ldr	r3, [pc, #584]	; (802d284 <http_recv+0x300>)
 802d03c:	22ff      	movs	r2, #255	; 0xff
 802d03e:	701a      	strb	r2, [r3, #0]
/**
  * @brief Чтение Cookie пользовател�
  */
static void HTTP_GetUserCookie(uint8_t user_id, char *str, uint8_t *len)
{
    sprintf(str, "%s", users[user_id].cookie);
 802d040:	4b91      	ldr	r3, [pc, #580]	; (802d288 <http_recv+0x304>)
 802d042:	4992      	ldr	r1, [pc, #584]	; (802d28c <http_recv+0x308>)
 802d044:	2214      	movs	r2, #20
 802d046:	fb02 3209 	mla	r2, r2, r9, r3
 802d04a:	4640      	mov	r0, r8
 802d04c:	f7fa fd68 	bl	8027b20 <tfp_sprintf>
    *len = strlen(str);
 802d050:	4640      	mov	r0, r8
 802d052:	f7f5 f87d 	bl	8022150 <strlen>
 802d056:	4602      	mov	r2, r0
 802d058:	f88d 000b 	strb.w	r0, [sp, #11]

	   /* Level of currently logged-in user */
	   seclevel = 0xFF;
	   for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {
		   HTTP_GetUserCookie(user_id, CookieBuf, &idLen);
		   if (strncmp(id, CookieBuf, idLen) == 0 ) {
 802d05c:	4641      	mov	r1, r8
 802d05e:	4650      	mov	r0, sl
 802d060:	b2d2      	uxtb	r2, r2
 802d062:	f7f5 f8d7 	bl	8022214 <strncmp>
 802d066:	fa5f fb89 	uxtb.w	fp, r9
 802d06a:	4b89      	ldr	r3, [pc, #548]	; (802d290 <http_recv+0x30c>)
 802d06c:	b940      	cbnz	r0, 802d080 <http_recv+0xfc>
			   GetUserLevelInt(user_id, &seclevel);
 802d06e:	4658      	mov	r0, fp
 802d070:	4984      	ldr	r1, [pc, #528]	; (802d284 <http_recv+0x300>)
 802d072:	9301      	str	r3, [sp, #4]
 802d074:	f7fb f86a 	bl	802814c <GetUserLevelInt>
			   Authenticated = true;
 802d078:	9b01      	ldr	r3, [sp, #4]
 802d07a:	2201      	movs	r2, #1
 802d07c:	701a      	strb	r2, [r3, #0]
			   break;
 802d07e:	e009      	b.n	802d094 <http_recv+0x110>
		   }
		   Authenticated = false;
 802d080:	2200      	movs	r2, #0
 802d082:	701a      	strb	r2, [r3, #0]
 802d084:	f109 0901 	add.w	r9, r9, #1
		   seclevel = 0xFF;
 802d088:	4b7e      	ldr	r3, [pc, #504]	; (802d284 <http_recv+0x300>)
 802d08a:	22ff      	movs	r2, #255	; 0xff
	   /* Id of currently logged-in user */
	   uint8_t user_id;

	   /* Level of currently logged-in user */
	   seclevel = 0xFF;
	   for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {
 802d08c:	f1b9 0f02 	cmp.w	r9, #2
			   GetUserLevelInt(user_id, &seclevel);
			   Authenticated = true;
			   break;
		   }
		   Authenticated = false;
		   seclevel = 0xFF;
 802d090:	701a      	strb	r2, [r3, #0]
	   /* Id of currently logged-in user */
	   uint8_t user_id;

	   /* Level of currently logged-in user */
	   seclevel = 0xFF;
	   for (user_id = 0; user_id < MAX_WEB_USERS; user_id++) {
 802d092:	d1d5      	bne.n	802d040 <http_recv+0xbc>
		   }
		   Authenticated = false;
		   seclevel = 0xFF;
	   }

	   if ( Authenticated == false && sSettings.sRADIUS.Auth_enable == false)
 802d094:	4b7e      	ldr	r3, [pc, #504]	; (802d290 <http_recv+0x30c>)
 802d096:	781b      	ldrb	r3, [r3, #0]
 802d098:	2b00      	cmp	r3, #0
 802d09a:	f040 8150 	bne.w	802d33e <http_recv+0x3ba>
 802d09e:	4b7d      	ldr	r3, [pc, #500]	; (802d294 <http_recv+0x310>)
 802d0a0:	f893 3378 	ldrb.w	r3, [r3, #888]	; 0x378
 802d0a4:	b93b      	cbnz	r3, 802d0b6 <http_recv+0x132>
	   {
		  HTTP_LOGIN(sendBuf, &sendBufLoadLen);
 802d0a6:	f8df 8234 	ldr.w	r8, [pc, #564]	; 802d2dc <http_recv+0x358>
 802d0aa:	4e7b      	ldr	r6, [pc, #492]	; (802d298 <http_recv+0x314>)
 802d0ac:	4640      	mov	r0, r8
 802d0ae:	4631      	mov	r1, r6
 802d0b0:	f7ff f9fe 	bl	802c4b0 <HTTP_LOGIN>
 802d0b4:	e321      	b.n	802d6fa <http_recv+0x776>
		  tcp_sent(pcb, http_sent);
	   }

	   else if ( Authenticated == false )//&& sSettings.sRADIUS.Auth_enable == true
	  {
		  if (strncmp(data, "GET /main.css", 13) == 0) // +
 802d0b6:	4630      	mov	r0, r6
 802d0b8:	4978      	ldr	r1, [pc, #480]	; (802d29c <http_recv+0x318>)
 802d0ba:	220d      	movs	r2, #13
 802d0bc:	f7f5 f8aa 	bl	8022214 <strncmp>
 802d0c0:	b900      	cbnz	r0, 802d0c4 <http_recv+0x140>
 802d0c2:	e142      	b.n	802d34a <http_recv+0x3c6>
			 hs->file = file.data;
			 hs->left = file.len;
			 send_data(pcb, hs);
			 tcp_sent(pcb, http_sent);
		  }
		  else if (strncmp(data, "GET /rotek.png", 14) == 0) // +
 802d0c4:	4630      	mov	r0, r6
 802d0c6:	4976      	ldr	r1, [pc, #472]	; (802d2a0 <http_recv+0x31c>)
 802d0c8:	220e      	movs	r2, #14
 802d0ca:	f7f5 f8a3 	bl	8022214 <strncmp>
 802d0ce:	b900      	cbnz	r0, 802d0d2 <http_recv+0x14e>
 802d0d0:	e143      	b.n	802d35a <http_recv+0x3d6>
			 hs->file = file.data;
			 hs->left = file.len;
			 send_data(pcb, hs);
			 tcp_sent(pcb, http_sent);
		  }
		else if (strncmp(data, "GET /favicon.ico", 16) == 0) // ?
 802d0d2:	4630      	mov	r0, r6
 802d0d4:	4973      	ldr	r1, [pc, #460]	; (802d2a4 <http_recv+0x320>)
 802d0d6:	2210      	movs	r2, #16
 802d0d8:	f7f5 f89c 	bl	8022214 <strncmp>
 802d0dc:	b900      	cbnz	r0, 802d0e0 <http_recv+0x15c>
 802d0de:	e144      	b.n	802d36a <http_recv+0x3e6>
			 hs->file = file.data;
			 hs->left = file.len;
			 send_data(pcb, hs);
			 tcp_sent(pcb, http_sent);
		}
		else if (strncmp(data, "GET /role.js", 12) == 0)
 802d0e0:	4630      	mov	r0, r6
 802d0e2:	4971      	ldr	r1, [pc, #452]	; (802d2a8 <http_recv+0x324>)
 802d0e4:	220c      	movs	r2, #12
 802d0e6:	f7f5 f895 	bl	8022214 <strncmp>
 802d0ea:	b900      	cbnz	r0, 802d0ee <http_recv+0x16a>
 802d0ec:	e14d      	b.n	802d38a <http_recv+0x406>
		  hs->left = file.len;
		  send_data(pcb, hs);
		  tcp_sent(pcb, http_sent);

		}
		  else if ((strncmp(data, "POST /login.cgi", 15) == 0) || (log_post_reqn > 0))
 802d0ee:	4630      	mov	r0, r6
 802d0f0:	496e      	ldr	r1, [pc, #440]	; (802d2ac <http_recv+0x328>)
 802d0f2:	220f      	movs	r2, #15
 802d0f4:	f7f5 f88e 	bl	8022214 <strncmp>
 802d0f8:	b120      	cbz	r0, 802d104 <http_recv+0x180>
 802d0fa:	4b6d      	ldr	r3, [pc, #436]	; (802d2b0 <http_recv+0x32c>)
 802d0fc:	681b      	ldr	r3, [r3, #0]
 802d0fe:	2b00      	cmp	r3, #0
 802d100:	f000 80ee 	beq.w	802d2e0 <http_recv+0x35c>
{
  uint32_t i=0,size=0, S=1;
  int32_t j=0;
  char sizestring[6], *ptr;

  ContentLengthOffset =0;
 802d104:	4a6b      	ldr	r2, [pc, #428]	; (802d2b4 <http_recv+0x330>)
			  uint32_t i, offset = 0, req_data_received = 0;

			  //printf("request 1: %d\r\n", receivedBufLen);

			  /* parse packet for Content-length field */
			  post_data_count = Parse_Content_Length(data, p->tot_len);
 802d106:	f8b7 9008 	ldrh.w	r9, [r7, #8]
{
  uint32_t i=0,size=0, S=1;
  int32_t j=0;
  char sizestring[6], *ptr;

  ContentLengthOffset =0;
 802d10a:	2300      	movs	r3, #0
 802d10c:	6013      	str	r3, [r2, #0]

  /* find Content-Length data in packet buffer */
  for (i=0;i<len;i++)
 802d10e:	4698      	mov	r8, r3
 802d110:	e00d      	b.n	802d12e <http_recv+0x1aa>
  {
    if (strncmp ((char*)(data+i), Content_Length, 16)==0)
 802d112:	eb06 0008 	add.w	r0, r6, r8
 802d116:	4968      	ldr	r1, [pc, #416]	; (802d2b8 <http_recv+0x334>)
 802d118:	2210      	movs	r2, #16
 802d11a:	f7f5 f87b 	bl	8022214 <strncmp>
 802d11e:	b920      	cbnz	r0, 802d12a <http_recv+0x1a6>
    {
      ContentLengthOffset = i+16;
 802d120:	4b64      	ldr	r3, [pc, #400]	; (802d2b4 <http_recv+0x330>)
 802d122:	f108 0210 	add.w	r2, r8, #16
 802d126:	601a      	str	r2, [r3, #0]
 802d128:	e003      	b.n	802d132 <http_recv+0x1ae>
  char sizestring[6], *ptr;

  ContentLengthOffset =0;

  /* find Content-Length data in packet buffer */
  for (i=0;i<len;i++)
 802d12a:	f108 0801 	add.w	r8, r8, #1
 802d12e:	45c8      	cmp	r8, r9
 802d130:	d3ef      	bcc.n	802d112 <http_recv+0x18e>
      ContentLengthOffset = i+16;
      break;
    }
  }
  /* read Content-Length value */
  if (ContentLengthOffset)
 802d132:	4b60      	ldr	r3, [pc, #384]	; (802d2b4 <http_recv+0x330>)
 802d134:	681a      	ldr	r2, [r3, #0]
 802d136:	4618      	mov	r0, r3
 802d138:	b90a      	cbnz	r2, 802d13e <http_recv+0x1ba>
  * @param  len  : buffer length
  * @retval size : Content_length in numeric format
  */
static uint32_t Parse_Content_Length(char *data, uint32_t len)
{
  uint32_t i=0,size=0, S=1;
 802d13a:	2200      	movs	r2, #0
 802d13c:	e023      	b.n	802d186 <http_recv+0x202>
  }
  /* read Content-Length value */
  if (ContentLengthOffset)
  {
    i=0;
    ptr = (char*)(data + ContentLengthOffset);
 802d13e:	eb06 0c02 	add.w	ip, r6, r2
    }
  }
  /* read Content-Length value */
  if (ContentLengthOffset)
  {
    i=0;
 802d142:	2300      	movs	r3, #0
 802d144:	e004      	b.n	802d150 <http_recv+0x1cc>
    ptr = (char*)(data + ContentLengthOffset);
    while(*(ptr+i)!=0x0d)
    {
      sizestring[i] = *(ptr+i);
 802d146:	f10d 0e0c 	add.w	lr, sp, #12
 802d14a:	f803 100e 	strb.w	r1, [r3, lr]
      i++;
 802d14e:	3301      	adds	r3, #1
  /* read Content-Length value */
  if (ContentLengthOffset)
  {
    i=0;
    ptr = (char*)(data + ContentLengthOffset);
    while(*(ptr+i)!=0x0d)
 802d150:	f81c 1003 	ldrb.w	r1, [ip, r3]
 802d154:	290d      	cmp	r1, #13
 802d156:	eb03 0e02 	add.w	lr, r3, r2
 802d15a:	d1f4      	bne.n	802d146 <http_recv+0x1c2>
 802d15c:	f8c0 e000 	str.w	lr, [r0]
    {
      sizestring[i] = *(ptr+i);
      i++;
      ContentLengthOffset++;
    }
    if (i>0)
 802d160:	2b00      	cmp	r3, #0
 802d162:	d0ea      	beq.n	802d13a <http_recv+0x1b6>
    {
      /* transform string data into numeric format */
      for(j=i-1;j>=0;j--)
 802d164:	3b01      	subs	r3, #1
  * @param  len  : buffer length
  * @retval size : Content_length in numeric format
  */
static uint32_t Parse_Content_Length(char *data, uint32_t len)
{
  uint32_t i=0,size=0, S=1;
 802d166:	2101      	movs	r1, #1
 802d168:	2200      	movs	r2, #0
    {
      /* transform string data into numeric format */
      for(j=i-1;j>=0;j--)
      {
        size += (sizestring[j]-0x30)*S;
        S=S*10;
 802d16a:	200a      	movs	r0, #10
 802d16c:	e009      	b.n	802d182 <http_recv+0x1fe>
    if (i>0)
    {
      /* transform string data into numeric format */
      for(j=i-1;j>=0;j--)
      {
        size += (sizestring[j]-0x30)*S;
 802d16e:	f10d 0e0c 	add.w	lr, sp, #12
 802d172:	f813 e00e 	ldrb.w	lr, [r3, lr]
 802d176:	f1ae 0e30 	sub.w	lr, lr, #48	; 0x30
 802d17a:	fb01 220e 	mla	r2, r1, lr, r2
      ContentLengthOffset++;
    }
    if (i>0)
    {
      /* transform string data into numeric format */
      for(j=i-1;j>=0;j--)
 802d17e:	3b01      	subs	r3, #1
      {
        size += (sizestring[j]-0x30)*S;
        S=S*10;
 802d180:	4341      	muls	r1, r0
      ContentLengthOffset++;
    }
    if (i>0)
    {
      /* transform string data into numeric format */
      for(j=i-1;j>=0;j--)
 802d182:	2b00      	cmp	r3, #0
 802d184:	daf3      	bge.n	802d16e <http_recv+0x1ea>
			  uint32_t i, offset = 0, req_data_received = 0;

			  //printf("request 1: %d\r\n", receivedBufLen);

			  /* parse packet for Content-length field */
			  post_data_count = Parse_Content_Length(data, p->tot_len);
 802d186:	f8df 814c 	ldr.w	r8, [pc, #332]	; 802d2d4 <http_recv+0x350>
			  //printf("Content-length: %d\r\n", (int)post_data_count);

			  if (post_data_count < MAX_POST_REQ_LEN) {
 802d18a:	2aff      	cmp	r2, #255	; 0xff
			  uint32_t i, offset = 0, req_data_received = 0;

			  //printf("request 1: %d\r\n", receivedBufLen);

			  /* parse packet for Content-length field */
			  post_data_count = Parse_Content_Length(data, p->tot_len);
 802d18c:	f8c8 2000 	str.w	r2, [r8]
			  //printf("Content-length: %d\r\n", (int)post_data_count);

			  if (post_data_count < MAX_POST_REQ_LEN) {
 802d190:	d86a      	bhi.n	802d268 <http_recv+0x2e4>

				  memset(post_req_data, 0, MAX_POST_REQ_LEN);
 802d192:	484a      	ldr	r0, [pc, #296]	; (802d2bc <http_recv+0x338>)

					/* parse packet for "\r\n\r\n" */
					for (i = 0; i < receivedBufLen; i++)
 802d194:	f8df 912c 	ldr.w	r9, [pc, #300]	; 802d2c4 <http_recv+0x340>
			  post_data_count = Parse_Content_Length(data, p->tot_len);
			  //printf("Content-length: %d\r\n", (int)post_data_count);

			  if (post_data_count < MAX_POST_REQ_LEN) {

				  memset(post_req_data, 0, MAX_POST_REQ_LEN);
 802d198:	2100      	movs	r1, #0
 802d19a:	f44f 7280 	mov.w	r2, #256	; 0x100
 802d19e:	f7f4 fdff 	bl	8021da0 <memset>

					/* parse packet for "\r\n\r\n" */
					for (i = 0; i < receivedBufLen; i++)
 802d1a2:	f04f 0800 	mov.w	r8, #0
 802d1a6:	e00b      	b.n	802d1c0 <http_recv+0x23c>
					{
						if (strncmp ((char*)(data+i), "\r\n\r\n", 4) == 0)
 802d1a8:	eb06 0008 	add.w	r0, r6, r8
 802d1ac:	4944      	ldr	r1, [pc, #272]	; (802d2c0 <http_recv+0x33c>)
 802d1ae:	2204      	movs	r2, #4
 802d1b0:	f7f5 f830 	bl	8022214 <strncmp>
 802d1b4:	b910      	cbnz	r0, 802d1bc <http_recv+0x238>
						{
							offset = i+4;
 802d1b6:	f108 0804 	add.w	r8, r8, #4
							//printf("offset: %d\r\n", (int)offset);
							break;
 802d1ba:	e007      	b.n	802d1cc <http_recv+0x248>
			  if (post_data_count < MAX_POST_REQ_LEN) {

				  memset(post_req_data, 0, MAX_POST_REQ_LEN);

					/* parse packet for "\r\n\r\n" */
					for (i = 0; i < receivedBufLen; i++)
 802d1bc:	f108 0801 	add.w	r8, r8, #1
 802d1c0:	f8b9 3000 	ldrh.w	r3, [r9]
 802d1c4:	4598      	cmp	r8, r3
 802d1c6:	d3ef      	bcc.n	802d1a8 <http_recv+0x224>
		  tcp_sent(pcb, http_sent);

		}
		  else if ((strncmp(data, "POST /login.cgi", 15) == 0) || (log_post_reqn > 0))
			{
			  uint32_t i, offset = 0, req_data_received = 0;
 802d1c8:	f04f 0800 	mov.w	r8, #0
							//printf("offset: %d\r\n", (int)offset);
							break;
						}
					}

					req_data_received = receivedBufLen - offset;
 802d1cc:	4b3d      	ldr	r3, [pc, #244]	; (802d2c4 <http_recv+0x340>)
 802d1ce:	f8b3 a000 	ldrh.w	sl, [r3]
					//printf("req data received: %d\r\n", (int)req_data_received);

					/* Check if "\r\n\r\n" was found */
					if (offset != 0) {
 802d1d2:	f1b8 0f00 	cmp.w	r8, #0
 802d1d6:	d02a      	beq.n	802d22e <http_recv+0x2aa>

						/* if data was splited in two packets */
						if (req_data_received < post_data_count) {
 802d1d8:	f8df 90f8 	ldr.w	r9, [pc, #248]	; 802d2d4 <http_recv+0x350>
							/* Copy request data to buffer */
							snprintf(post_req_data, req_data_received, "%s", receiveBuf);
 802d1dc:	4837      	ldr	r0, [pc, #220]	; (802d2bc <http_recv+0x338>)

					/* Check if "\r\n\r\n" was found */
					if (offset != 0) {

						/* if data was splited in two packets */
						if (req_data_received < post_data_count) {
 802d1de:	f8d9 2000 	ldr.w	r2, [r9]
							//printf("offset: %d\r\n", (int)offset);
							break;
						}
					}

					req_data_received = receivedBufLen - offset;
 802d1e2:	ebc8 0a0a 	rsb	sl, r8, sl

					/* Check if "\r\n\r\n" was found */
					if (offset != 0) {

						/* if data was splited in two packets */
						if (req_data_received < post_data_count) {
 802d1e6:	4592      	cmp	sl, r2
 802d1e8:	d20b      	bcs.n	802d202 <http_recv+0x27e>
							/* Copy request data to buffer */
							snprintf(post_req_data, req_data_received, "%s", receiveBuf);
 802d1ea:	4b37      	ldr	r3, [pc, #220]	; (802d2c8 <http_recv+0x344>)
 802d1ec:	4a27      	ldr	r2, [pc, #156]	; (802d28c <http_recv+0x308>)
 802d1ee:	4651      	mov	r1, sl
 802d1f0:	f7fa fc78 	bl	8027ae4 <tfp_snprintf>
							//printf("copied: %d\r\n", (int)req_data_received);

							post_data_count -= req_data_received;
 802d1f4:	f8d9 3000 	ldr.w	r3, [r9]
 802d1f8:	ebca 0303 	rsb	r3, sl, r3
 802d1fc:	f8c9 3000 	str.w	r3, [r9]
 802d200:	e28f      	b.n	802d722 <http_recv+0x79e>
						}
						/* if data received completely */
						else {

							strncat(post_req_data, (char *)(data + offset), post_data_count);
 802d202:	eb06 0108 	add.w	r1, r6, r8
 802d206:	f7f4 ffd3 	bl	80221b0 <strncat>
							//printf("post_req_data: %s\r\n", post_req_data);

							if (HTTP_ConfirmWebPwd(post_req_data, sendBuf, strlen(post_req_data), &sendBufLoadLen) == SEND_REQUIRED_YES) {
 802d20a:	482c      	ldr	r0, [pc, #176]	; (802d2bc <http_recv+0x338>)
 802d20c:	f8df 80cc 	ldr.w	r8, [pc, #204]	; 802d2dc <http_recv+0x358>
 802d210:	4e21      	ldr	r6, [pc, #132]	; (802d298 <http_recv+0x314>)
 802d212:	f7f4 ff9d 	bl	8022150 <strlen>
 802d216:	4641      	mov	r1, r8
 802d218:	b282      	uxth	r2, r0
 802d21a:	4633      	mov	r3, r6
 802d21c:	4827      	ldr	r0, [pc, #156]	; (802d2bc <http_recv+0x338>)
 802d21e:	f7ff f9cb 	bl	802c5b8 <HTTP_ConfirmWebPwd>
 802d222:	2800      	cmp	r0, #0
 802d224:	d173      	bne.n	802d30e <http_recv+0x38a>

								  hs->file = sendBuf;
 802d226:	f8c4 8000 	str.w	r8, [r4]
								  hs->left = sendBufLoadLen;
 802d22a:	8833      	ldrh	r3, [r6, #0]
 802d22c:	e076      	b.n	802d31c <http_recv+0x398>
					/* request was fragmented before "\r\n\r\n" */
					else {
						//printf("no data found!\r\n");

						/* wait next packet */
						log_post_reqn++;
 802d22e:	4e20      	ldr	r6, [pc, #128]	; (802d2b0 <http_recv+0x32c>)
 802d230:	6833      	ldr	r3, [r6, #0]
 802d232:	3301      	adds	r3, #1

						/* wait max 2 requests */
						if (log_post_reqn > 1) {
 802d234:	2b01      	cmp	r3, #1
					/* request was fragmented before "\r\n\r\n" */
					else {
						//printf("no data found!\r\n");

						/* wait next packet */
						log_post_reqn++;
 802d236:	6033      	str	r3, [r6, #0]

						/* wait max 2 requests */
						if (log_post_reqn > 1) {
 802d238:	f240 8273 	bls.w	802d722 <http_recv+0x79e>
							/* Redirect to login page */
							fs_open("/login.html", &file);
 802d23c:	a905      	add	r1, sp, #20
 802d23e:	4823      	ldr	r0, [pc, #140]	; (802d2cc <http_recv+0x348>)
 802d240:	f7fe fe4a 	bl	802bed8 <fs_open>
							hs->file = file.data;
 802d244:	9b05      	ldr	r3, [sp, #20]
 802d246:	6023      	str	r3, [r4, #0]
							hs->left = file.len;
 802d248:	9b06      	ldr	r3, [sp, #24]
							send_data(pcb, hs);
 802d24a:	4628      	mov	r0, r5
						/* wait max 2 requests */
						if (log_post_reqn > 1) {
							/* Redirect to login page */
							fs_open("/login.html", &file);
							hs->file = file.data;
							hs->left = file.len;
 802d24c:	6063      	str	r3, [r4, #4]
							send_data(pcb, hs);
 802d24e:	4621      	mov	r1, r4
 802d250:	f7fe fe7e 	bl	802bf50 <send_data>
							tcp_sent(pcb, http_sent);
 802d254:	4628      	mov	r0, r5
 802d256:	491e      	ldr	r1, [pc, #120]	; (802d2d0 <http_recv+0x34c>)
 802d258:	f002 fc16 	bl	802fa88 <tcp_sent>
	
							/* End reqest */
							post_data_count = 0;
 802d25c:	4b1d      	ldr	r3, [pc, #116]	; (802d2d4 <http_recv+0x350>)
							log_post_reqn = 0;
 802d25e:	f8c6 8000 	str.w	r8, [r6]
							hs->left = file.len;
							send_data(pcb, hs);
							tcp_sent(pcb, http_sent);
	
							/* End reqest */
							post_data_count = 0;
 802d262:	f8c3 8000 	str.w	r8, [r3]
 802d266:	e25c      	b.n	802d722 <http_recv+0x79e>
							log_post_reqn = 0;
						}
					}
			  }
			  else {
				  printf("Too long POST request!\r\n");
 802d268:	481b      	ldr	r0, [pc, #108]	; (802d2d8 <http_recv+0x354>)
 802d26a:	f7fa fc0d 	bl	8027a88 <tfp_printf>
				  /* Ignore request */
				  post_data_count = 0;
				  log_post_reqn = 0;
 802d26e:	4a10      	ldr	r2, [pc, #64]	; (802d2b0 <http_recv+0x32c>)
					}
			  }
			  else {
				  printf("Too long POST request!\r\n");
				  /* Ignore request */
				  post_data_count = 0;
 802d270:	2300      	movs	r3, #0
 802d272:	f8c8 3000 	str.w	r3, [r8]
				  log_post_reqn = 0;
 802d276:	6013      	str	r3, [r2, #0]
 802d278:	e05f      	b.n	802d33a <http_recv+0x3b6>
 802d27a:	bf00      	nop
 802d27c:	08042640 	.word	0x08042640
 802d280:	08042655 	.word	0x08042655
 802d284:	20000710 	.word	0x20000710
 802d288:	2000e22c 	.word	0x2000e22c
 802d28c:	0804288f 	.word	0x0804288f
 802d290:	20000d27 	.word	0x20000d27
 802d294:	2000cba0 	.word	0x2000cba0
 802d298:	20000d24 	.word	0x20000d24
 802d29c:	0804293b 	.word	0x0804293b
 802d2a0:	08042949 	.word	0x08042949
 802d2a4:	08042958 	.word	0x08042958
 802d2a8:	08042969 	.word	0x08042969
 802d2ac:	08042976 	.word	0x08042976
 802d2b0:	2000e228 	.word	0x2000e228
 802d2b4:	20000d2c 	.word	0x20000d2c
 802d2b8:	0803c546 	.word	0x0803c546
 802d2bc:	2000e128 	.word	0x2000e128
 802d2c0:	08042b48 	.word	0x08042b48
 802d2c4:	20000d38 	.word	0x20000d38
 802d2c8:	2000db4c 	.word	0x2000db4c
 802d2cc:	08042986 	.word	0x08042986
 802d2d0:	0802bfc3 	.word	0x0802bfc3
 802d2d4:	2000e254 	.word	0x2000e254
 802d2d8:	08042992 	.word	0x08042992
 802d2dc:	2000d37c 	.word	0x2000d37c
					hs->left = file.len;
					send_data(pcb, hs);
					tcp_sent(pcb, http_sent);
			  }
			}
			  else if (post_data_count > 0)
 802d2e0:	4b90      	ldr	r3, [pc, #576]	; (802d524 <http_recv+0x5a0>)
 802d2e2:	681a      	ldr	r2, [r3, #0]
 802d2e4:	2a00      	cmp	r2, #0
 802d2e6:	d028      	beq.n	802d33a <http_recv+0x3b6>
				{
				  strncat(post_req_data, data, post_data_count);
 802d2e8:	4631      	mov	r1, r6
 802d2ea:	488f      	ldr	r0, [pc, #572]	; (802d528 <http_recv+0x5a4>)
 802d2ec:	f7f4 ff60 	bl	80221b0 <strncat>
				  //printf("copied: %d\r\n", (int)post_data_count);
				  //printf("post_req_data: %s\r\n", post_req_data);

				  if (HTTP_ConfirmWebPwd(post_req_data, sendBuf, strlen(post_req_data), &sendBufLoadLen) == SEND_REQUIRED_YES) {
 802d2f0:	488d      	ldr	r0, [pc, #564]	; (802d528 <http_recv+0x5a4>)
 802d2f2:	f7f4 ff2d 	bl	8022150 <strlen>
 802d2f6:	498d      	ldr	r1, [pc, #564]	; (802d52c <http_recv+0x5a8>)
 802d2f8:	4b8d      	ldr	r3, [pc, #564]	; (802d530 <http_recv+0x5ac>)
 802d2fa:	b282      	uxth	r2, r0
 802d2fc:	488a      	ldr	r0, [pc, #552]	; (802d528 <http_recv+0x5a4>)
 802d2fe:	f7ff f95b 	bl	802c5b8 <HTTP_ConfirmWebPwd>
 802d302:	b920      	cbnz	r0, 802d30e <http_recv+0x38a>

						hs->file = sendBuf;
 802d304:	4b89      	ldr	r3, [pc, #548]	; (802d52c <http_recv+0x5a8>)
 802d306:	6023      	str	r3, [r4, #0]
						hs->left = sendBufLoadLen;
 802d308:	4b89      	ldr	r3, [pc, #548]	; (802d530 <http_recv+0x5ac>)
 802d30a:	881b      	ldrh	r3, [r3, #0]
 802d30c:	e006      	b.n	802d31c <http_recv+0x398>
						tcp_sent(pcb, http_sent);

				  }
				  else {
					  /* Redirect to login page */
					  fs_open("/login.html", &file);
 802d30e:	4889      	ldr	r0, [pc, #548]	; (802d534 <http_recv+0x5b0>)
 802d310:	a905      	add	r1, sp, #20
 802d312:	f7fe fde1 	bl	802bed8 <fs_open>
					  hs->file = file.data;
 802d316:	9b05      	ldr	r3, [sp, #20]
 802d318:	6023      	str	r3, [r4, #0]
					  hs->left = file.len;
 802d31a:	9b06      	ldr	r3, [sp, #24]
 802d31c:	6063      	str	r3, [r4, #4]
					  send_data(pcb, hs);
 802d31e:	4628      	mov	r0, r5
 802d320:	4621      	mov	r1, r4
 802d322:	f7fe fe15 	bl	802bf50 <send_data>
					  tcp_sent(pcb, http_sent);
 802d326:	4628      	mov	r0, r5
 802d328:	4983      	ldr	r1, [pc, #524]	; (802d538 <http_recv+0x5b4>)
 802d32a:	f002 fbad 	bl	802fa88 <tcp_sent>
				  }

				  /* End reqest */
				  post_data_count = 0;
 802d32e:	4a7d      	ldr	r2, [pc, #500]	; (802d524 <http_recv+0x5a0>)
 802d330:	2300      	movs	r3, #0
 802d332:	6013      	str	r3, [r2, #0]
				  log_post_reqn = 0;
 802d334:	4a81      	ldr	r2, [pc, #516]	; (802d53c <http_recv+0x5b8>)
 802d336:	6013      	str	r3, [r2, #0]
 802d338:	e1f3      	b.n	802d722 <http_recv+0x79e>
				}
		  else
		  {
			  fs_open("/login.html", &file);
 802d33a:	487e      	ldr	r0, [pc, #504]	; (802d534 <http_recv+0x5b0>)
 802d33c:	e1e2      	b.n	802d704 <http_recv+0x780>

	  }

	  else if ( Authenticated == true ) {

	  if (strncmp(data, "GET /main.css", 13) == 0) // +
 802d33e:	4630      	mov	r0, r6
 802d340:	497f      	ldr	r1, [pc, #508]	; (802d540 <http_recv+0x5bc>)
 802d342:	220d      	movs	r2, #13
 802d344:	f7f4 ff66 	bl	8022214 <strncmp>
 802d348:	b908      	cbnz	r0, 802d34e <http_recv+0x3ca>
	  {
	    fs_open("/main.css", &file);
 802d34a:	487e      	ldr	r0, [pc, #504]	; (802d544 <http_recv+0x5c0>)
 802d34c:	e1da      	b.n	802d704 <http_recv+0x780>
        hs->file = file.data;
        hs->left = file.len;
        send_data(pcb, hs);
        tcp_sent(pcb, http_sent);
	  }
	  else if (strncmp(data, "GET /rotek.png", 14) == 0) // +
 802d34e:	4630      	mov	r0, r6
 802d350:	497d      	ldr	r1, [pc, #500]	; (802d548 <http_recv+0x5c4>)
 802d352:	220e      	movs	r2, #14
 802d354:	f7f4 ff5e 	bl	8022214 <strncmp>
 802d358:	b908      	cbnz	r0, 802d35e <http_recv+0x3da>
	  {
	    fs_open("/rotek.png", &file);
 802d35a:	487c      	ldr	r0, [pc, #496]	; (802d54c <http_recv+0x5c8>)
 802d35c:	e1d2      	b.n	802d704 <http_recv+0x780>
        hs->file = file.data;
        hs->left = file.len;
        send_data(pcb, hs);
        tcp_sent(pcb, http_sent);
	  }
      else if (strncmp(data, "GET /favicon.ico", 16) == 0) // ?                 
 802d35e:	4630      	mov	r0, r6
 802d360:	497b      	ldr	r1, [pc, #492]	; (802d550 <http_recv+0x5cc>)
 802d362:	2210      	movs	r2, #16
 802d364:	f7f4 ff56 	bl	8022214 <strncmp>
 802d368:	b908      	cbnz	r0, 802d36e <http_recv+0x3ea>
      {                                                                     
        fs_open("/favicon.ico", &file);                                     
 802d36a:	487a      	ldr	r0, [pc, #488]	; (802d554 <http_recv+0x5d0>)
 802d36c:	e1ca      	b.n	802d704 <http_recv+0x780>
        hs->file = file.data;                                               
        hs->left = file.len;                                                
        send_data(pcb, hs);                                                 
        tcp_sent(pcb, http_sent);                                           
      }
	  else if (strncmp(data, "GET /main.js", 12) == 0) // +
 802d36e:	4630      	mov	r0, r6
 802d370:	4979      	ldr	r1, [pc, #484]	; (802d558 <http_recv+0x5d4>)
 802d372:	220c      	movs	r2, #12
 802d374:	f7f4 ff4e 	bl	8022214 <strncmp>
 802d378:	b908      	cbnz	r0, 802d37e <http_recv+0x3fa>
	  {
	    fs_open("/main.js", &file);
 802d37a:	4878      	ldr	r0, [pc, #480]	; (802d55c <http_recv+0x5d8>)
 802d37c:	e1c2      	b.n	802d704 <http_recv+0x780>
        hs->left = file.len;
        send_data(pcb, hs);
        tcp_sent(pcb, http_sent);
		
	  }
	  else if (strncmp(data, "GET /role.js", 12) == 0)
 802d37e:	4630      	mov	r0, r6
 802d380:	4977      	ldr	r1, [pc, #476]	; (802d560 <http_recv+0x5dc>)
 802d382:	220c      	movs	r2, #12
 802d384:	f7f4 ff46 	bl	8022214 <strncmp>
 802d388:	b908      	cbnz	r0, 802d38e <http_recv+0x40a>
	  {
		fs_open("/role.js", &file);
 802d38a:	4876      	ldr	r0, [pc, #472]	; (802d564 <http_recv+0x5e0>)
 802d38c:	e1ba      	b.n	802d704 <http_recv+0x780>
		hs->left = file.len;
		send_data(pcb, hs);
		tcp_sent(pcb, http_sent);

	  }
	  else if (strncmp(data, "GET /settings.html", 18) == 0) // +
 802d38e:	4630      	mov	r0, r6
 802d390:	4975      	ldr	r1, [pc, #468]	; (802d568 <http_recv+0x5e4>)
 802d392:	2212      	movs	r2, #18
 802d394:	f7f4 ff3e 	bl	8022214 <strncmp>
 802d398:	b928      	cbnz	r0, 802d3a6 <http_recv+0x422>
	  {
		HTTP_UpdateUserLoginTime(user_id);
		if (seclevel == 0){
 802d39a:	4b74      	ldr	r3, [pc, #464]	; (802d56c <http_recv+0x5e8>)
 802d39c:	781b      	ldrb	r3, [r3, #0]
 802d39e:	2b00      	cmp	r3, #0
 802d3a0:	f040 81af 	bne.w	802d702 <http_recv+0x77e>
 802d3a4:	e161      	b.n	802d66a <http_recv+0x6e6>
			hs->left = file.len;
			send_data(pcb, hs);
			tcp_sent(pcb, http_sent);
		}
	  }
	  else if (strncmp(data, "GET /info.html", 14) == 0) // +
 802d3a6:	4630      	mov	r0, r6
 802d3a8:	4971      	ldr	r1, [pc, #452]	; (802d570 <http_recv+0x5ec>)
 802d3aa:	220e      	movs	r2, #14
 802d3ac:	f7f4 ff32 	bl	8022214 <strncmp>
 802d3b0:	b908      	cbnz	r0, 802d3b6 <http_recv+0x432>
	  {
		HTTP_UpdateUserLoginTime(user_id);
	    fs_open("/info.html", &file);
 802d3b2:	4870      	ldr	r0, [pc, #448]	; (802d574 <http_recv+0x5f0>)
 802d3b4:	e1a6      	b.n	802d704 <http_recv+0x780>
        hs->file = file.data;
        hs->left = file.len;
        send_data(pcb, hs);
        tcp_sent(pcb, http_sent);
	  }
	  else if (strncmp(data, "GET /history.html", 17) == 0)
 802d3b6:	4630      	mov	r0, r6
 802d3b8:	496f      	ldr	r1, [pc, #444]	; (802d578 <http_recv+0x5f4>)
 802d3ba:	2211      	movs	r2, #17
 802d3bc:	f7f4 ff2a 	bl	8022214 <strncmp>
 802d3c0:	b908      	cbnz	r0, 802d3c6 <http_recv+0x442>
	  {
		HTTP_UpdateUserLoginTime(user_id);
		fs_open("/history.html", &file);
 802d3c2:	486e      	ldr	r0, [pc, #440]	; (802d57c <http_recv+0x5f8>)
 802d3c4:	e19e      	b.n	802d704 <http_recv+0x780>
		hs->file = file.data;
		hs->left = file.len;
		send_data(pcb, hs);
		tcp_sent(pcb, http_sent);
	  }
	  else if (strncmp(data, "GET /ups_history.html", 21) == 0)
 802d3c6:	4630      	mov	r0, r6
 802d3c8:	496d      	ldr	r1, [pc, #436]	; (802d580 <http_recv+0x5fc>)
 802d3ca:	2215      	movs	r2, #21
 802d3cc:	f7f4 ff22 	bl	8022214 <strncmp>
 802d3d0:	b908      	cbnz	r0, 802d3d6 <http_recv+0x452>
	  {
		HTTP_UpdateUserLoginTime(user_id);
		fs_open("/ups_history.html", &file);
 802d3d2:	486c      	ldr	r0, [pc, #432]	; (802d584 <http_recv+0x600>)
 802d3d4:	e196      	b.n	802d704 <http_recv+0x780>
		hs->file = file.data;
		hs->left = file.len;
		send_data(pcb, hs);
		tcp_sent(pcb, http_sent);
	  }
	  else if (strncmp(data, "GET /getJson.cgi", 16) == 0) // +
 802d3d6:	4630      	mov	r0, r6
 802d3d8:	496b      	ldr	r1, [pc, #428]	; (802d588 <http_recv+0x604>)
 802d3da:	2210      	movs	r2, #16
 802d3dc:	f7f4 ff1a 	bl	8022214 <strncmp>
 802d3e0:	b940      	cbnz	r0, 802d3f4 <http_recv+0x470>
	  {
		HTTP_GetParamsPage1(sendBuf);
 802d3e2:	4e52      	ldr	r6, [pc, #328]	; (802d52c <http_recv+0x5a8>)
 802d3e4:	4630      	mov	r0, r6
 802d3e6:	f000 f9c7 	bl	802d778 <HTTP_GetParamsPage1>
		hs->file = sendBuf;
 802d3ea:	6026      	str	r6, [r4, #0]
        hs->left = strlen(sendBuf);
 802d3ec:	4630      	mov	r0, r6
 802d3ee:	f7f4 feaf 	bl	8022150 <strlen>
 802d3f2:	e043      	b.n	802d47c <http_recv+0x4f8>
		send_data(pcb, hs);
		tcp_sent(pcb, http_sent);
	  }	  
	  else if (strncmp(data, "GET /settings.cgi", 17) == 0) // +
 802d3f4:	4630      	mov	r0, r6
 802d3f6:	4965      	ldr	r1, [pc, #404]	; (802d58c <http_recv+0x608>)
 802d3f8:	2211      	movs	r2, #17
 802d3fa:	f7f4 ff0b 	bl	8022214 <strncmp>
 802d3fe:	b990      	cbnz	r0, 802d426 <http_recv+0x4a2>
	  {
		SET_PAGE = SET_PAGE_PAGE2;
 802d400:	4b63      	ldr	r3, [pc, #396]	; (802d590 <http_recv+0x60c>)
 802d402:	2202      	movs	r2, #2
 802d404:	701a      	strb	r2, [r3, #0]
		
		if (seclevel == 0) {
 802d406:	4b59      	ldr	r3, [pc, #356]	; (802d56c <http_recv+0x5e8>)
 802d408:	781b      	ldrb	r3, [r3, #0]
 802d40a:	2b00      	cmp	r3, #0
 802d40c:	f040 8189 	bne.w	802d722 <http_recv+0x79e>
			if (HTTP_SettingsPage(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen) == SEND_REQUIRED_YES)
 802d410:	f8df 8118 	ldr.w	r8, [pc, #280]	; 802d52c <http_recv+0x5a8>
 802d414:	4e46      	ldr	r6, [pc, #280]	; (802d530 <http_recv+0x5ac>)
 802d416:	4b5f      	ldr	r3, [pc, #380]	; (802d594 <http_recv+0x610>)
 802d418:	485f      	ldr	r0, [pc, #380]	; (802d598 <http_recv+0x614>)
 802d41a:	881a      	ldrh	r2, [r3, #0]
 802d41c:	4641      	mov	r1, r8
 802d41e:	4633      	mov	r3, r6
 802d420:	f7fe feb0 	bl	802c184 <HTTP_SettingsPage>
 802d424:	e0f1      	b.n	802d60a <http_recv+0x686>
			  send_data(pcb, hs);
			  tcp_sent(pcb, http_sent);
			}*/
		}
	  }
	  else if (strncmp(data, "POST /settings.cgi", 18) == 0)
 802d426:	4630      	mov	r0, r6
 802d428:	495c      	ldr	r1, [pc, #368]	; (802d59c <http_recv+0x618>)
 802d42a:	2212      	movs	r2, #18
 802d42c:	f7f4 fef2 	bl	8022214 <strncmp>
 802d430:	4680      	mov	r8, r0
 802d432:	bb28      	cbnz	r0, 802d480 <http_recv+0x4fc>
	  {
		  //strncat(&receiveBuf,  " ", 1);
          strncat(receiveBuf,  " ", 1);
 802d434:	2201      	movs	r2, #1
 802d436:	495a      	ldr	r1, [pc, #360]	; (802d5a0 <http_recv+0x61c>)
 802d438:	4857      	ldr	r0, [pc, #348]	; (802d598 <http_recv+0x614>)
		  HTTP_SetSettings(receiveBuf, receivedBufLen);
		  memset(sendBuf, 0, SEND_BUF_MAX_LEN);
 802d43a:	4e3c      	ldr	r6, [pc, #240]	; (802d52c <http_recv+0x5a8>)
		}
	  }
	  else if (strncmp(data, "POST /settings.cgi", 18) == 0)
	  {
		  //strncat(&receiveBuf,  " ", 1);
          strncat(receiveBuf,  " ", 1);
 802d43c:	f7f4 feb8 	bl	80221b0 <strncat>
		  HTTP_SetSettings(receiveBuf, receivedBufLen);
 802d440:	4b54      	ldr	r3, [pc, #336]	; (802d594 <http_recv+0x610>)
 802d442:	4855      	ldr	r0, [pc, #340]	; (802d598 <http_recv+0x614>)
 802d444:	8819      	ldrh	r1, [r3, #0]
 802d446:	f7ff f9c1 	bl	802c7cc <HTTP_SetSettings>
		  memset(sendBuf, 0, SEND_BUF_MAX_LEN);
 802d44a:	f44f 62fa 	mov.w	r2, #2000	; 0x7d0
 802d44e:	4641      	mov	r1, r8
 802d450:	4630      	mov	r0, r6
 802d452:	f7f4 fca5 	bl	8021da0 <memset>

		  strcpy(sendBuf, "HTTP/1.1 200 OK\r\n");
 802d456:	4953      	ldr	r1, [pc, #332]	; (802d5a4 <http_recv+0x620>)
 802d458:	4630      	mov	r0, r6
 802d45a:	f7f4 fe1b 	bl	8022094 <strcpy>
		  strcat(sendBuf, "\r\n\r\n");
 802d45e:	4952      	ldr	r1, [pc, #328]	; (802d5a8 <http_recv+0x624>)
 802d460:	4630      	mov	r0, r6
 802d462:	f7f4 fd03 	bl	8021e6c <strcat>
		  strcat(sendBuf,"<!DOCTYPE html><html lang=""><head><meta http-equiv=\"refresh\" content=\"0;url=/settings.html\"/></head></html>\r\n\r\n");
 802d466:	4951      	ldr	r1, [pc, #324]	; (802d5ac <http_recv+0x628>)
 802d468:	4630      	mov	r0, r6
 802d46a:	f7f4 fcff 	bl	8021e6c <strcat>

		  sendBufLoadLen = strlen(sendBuf);
 802d46e:	4630      	mov	r0, r6
 802d470:	f7f4 fe6e 	bl	8022150 <strlen>
 802d474:	4b2e      	ldr	r3, [pc, #184]	; (802d530 <http_recv+0x5ac>)
 802d476:	8018      	strh	r0, [r3, #0]
		  hs->file = sendBuf;
 802d478:	6026      	str	r6, [r4, #0]
		  hs->left = sendBufLoadLen;
 802d47a:	b280      	uxth	r0, r0
 802d47c:	6060      	str	r0, [r4, #4]
 802d47e:	e148      	b.n	802d712 <http_recv+0x78e>
		  send_data(pcb, hs);
		  tcp_sent(pcb, http_sent);
	  }
	  else if (strncmp(data, "GET /info.cgi", 13) == 0) // +
 802d480:	4630      	mov	r0, r6
 802d482:	494b      	ldr	r1, [pc, #300]	; (802d5b0 <http_recv+0x62c>)
 802d484:	220d      	movs	r2, #13
 802d486:	f7f4 fec5 	bl	8022214 <strncmp>
 802d48a:	b950      	cbnz	r0, 802d4a2 <http_recv+0x51e>
	  {
			if (HTTP_InfoPage(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen) == SEND_REQUIRED_YES)
 802d48c:	f8df 809c 	ldr.w	r8, [pc, #156]	; 802d52c <http_recv+0x5a8>
 802d490:	4e27      	ldr	r6, [pc, #156]	; (802d530 <http_recv+0x5ac>)
 802d492:	4b40      	ldr	r3, [pc, #256]	; (802d594 <http_recv+0x610>)
 802d494:	4840      	ldr	r0, [pc, #256]	; (802d598 <http_recv+0x614>)
 802d496:	881a      	ldrh	r2, [r3, #0]
 802d498:	4641      	mov	r1, r8
 802d49a:	4633      	mov	r3, r6
 802d49c:	f7fe fe96 	bl	802c1cc <HTTP_InfoPage>
 802d4a0:	e0b3      	b.n	802d60a <http_recv+0x686>
			  hs->left = file.len;
			  send_data(pcb, hs);
			  tcp_sent(pcb, http_sent);
			}*/
	  }
	  else if (strncmp(data, "POST /info.cgi", 14) == 0)
 802d4a2:	4630      	mov	r0, r6
 802d4a4:	4943      	ldr	r1, [pc, #268]	; (802d5b4 <http_recv+0x630>)
 802d4a6:	220e      	movs	r2, #14
 802d4a8:	f7f4 feb4 	bl	8022214 <strncmp>
 802d4ac:	4680      	mov	r8, r0
 802d4ae:	b9d8      	cbnz	r0, 802d4e8 <http_recv+0x564>
	  {
		  //strncat(&receiveBuf,  " ", 1);
          strncat(receiveBuf,  " ", 1);
 802d4b0:	2201      	movs	r2, #1
 802d4b2:	493b      	ldr	r1, [pc, #236]	; (802d5a0 <http_recv+0x61c>)
 802d4b4:	4838      	ldr	r0, [pc, #224]	; (802d598 <http_recv+0x614>)
		  HTTP_SetInfo(receiveBuf, receivedBufLen);
		  memset(sendBuf, 0, SEND_BUF_MAX_LEN);
 802d4b6:	4e1d      	ldr	r6, [pc, #116]	; (802d52c <http_recv+0x5a8>)
			}*/
	  }
	  else if (strncmp(data, "POST /info.cgi", 14) == 0)
	  {
		  //strncat(&receiveBuf,  " ", 1);
          strncat(receiveBuf,  " ", 1);
 802d4b8:	f7f4 fe7a 	bl	80221b0 <strncat>
		  HTTP_SetInfo(receiveBuf, receivedBufLen);
 802d4bc:	4b35      	ldr	r3, [pc, #212]	; (802d594 <http_recv+0x610>)
 802d4be:	4836      	ldr	r0, [pc, #216]	; (802d598 <http_recv+0x614>)
 802d4c0:	8819      	ldrh	r1, [r3, #0]
 802d4c2:	f7ff f931 	bl	802c728 <HTTP_SetInfo>
		  memset(sendBuf, 0, SEND_BUF_MAX_LEN);
 802d4c6:	f44f 62fa 	mov.w	r2, #2000	; 0x7d0
 802d4ca:	4641      	mov	r1, r8
 802d4cc:	4630      	mov	r0, r6
 802d4ce:	f7f4 fc67 	bl	8021da0 <memset>

		  strcpy(sendBuf, "HTTP/1.1 200 OK\r\n");
 802d4d2:	4934      	ldr	r1, [pc, #208]	; (802d5a4 <http_recv+0x620>)
 802d4d4:	4630      	mov	r0, r6
 802d4d6:	f7f4 fddd 	bl	8022094 <strcpy>
		  strcat(sendBuf, "\r\n\r\n");
 802d4da:	4933      	ldr	r1, [pc, #204]	; (802d5a8 <http_recv+0x624>)
 802d4dc:	4630      	mov	r0, r6
 802d4de:	f7f4 fcc5 	bl	8021e6c <strcat>
		  strcat(sendBuf,"<!DOCTYPE html><html lang=""><head><meta http-equiv=\"refresh\" content=\"0;url=/info.html\"/></head></html>\r\n\r\n");
 802d4e2:	4630      	mov	r0, r6
 802d4e4:	4934      	ldr	r1, [pc, #208]	; (802d5b8 <http_recv+0x634>)
 802d4e6:	e7c0      	b.n	802d46a <http_recv+0x4e6>
		  hs->file = sendBuf;
		  hs->left = sendBufLoadLen;
		  send_data(pcb, hs);
		  tcp_sent(pcb, http_sent);
	  }
	  else if (strncmp(data, "GET /history.cgi", 16) == 0)
 802d4e8:	4630      	mov	r0, r6
 802d4ea:	4934      	ldr	r1, [pc, #208]	; (802d5bc <http_recv+0x638>)
 802d4ec:	2210      	movs	r2, #16
 802d4ee:	f7f4 fe91 	bl	8022214 <strncmp>
 802d4f2:	2800      	cmp	r0, #0
 802d4f4:	d166      	bne.n	802d5c4 <http_recv+0x640>
		{
		  int res;

		  res = HTTP_HistoryPage(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);
 802d4f6:	4b27      	ldr	r3, [pc, #156]	; (802d594 <http_recv+0x610>)
 802d4f8:	f8df 8030 	ldr.w	r8, [pc, #48]	; 802d52c <http_recv+0x5a8>
 802d4fc:	4e0c      	ldr	r6, [pc, #48]	; (802d530 <http_recv+0x5ac>)
 802d4fe:	881a      	ldrh	r2, [r3, #0]
 802d500:	4825      	ldr	r0, [pc, #148]	; (802d598 <http_recv+0x614>)
 802d502:	4641      	mov	r1, r8
 802d504:	4633      	mov	r3, r6
 802d506:	f7ff fc3d 	bl	802cd84 <HTTP_HistoryPage>

		  if (res == SEND_REQUIRED_FILE)
 802d50a:	2802      	cmp	r0, #2
 802d50c:	d17d      	bne.n	802d60a <http_recv+0x686>
		  {
			  hs->file = sendBuf;
			  hs->left = sendBufLoadLen;
 802d50e:	8833      	ldrh	r3, [r6, #0]

		  res = HTTP_HistoryPage(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);

		  if (res == SEND_REQUIRED_FILE)
		  {
			  hs->file = sendBuf;
 802d510:	f8c4 8000 	str.w	r8, [r4]
			  hs->left = sendBufLoadLen;
			  send_data(pcb, hs);
 802d514:	4628      	mov	r0, r5
 802d516:	4621      	mov	r1, r4
		  res = HTTP_HistoryPage(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);

		  if (res == SEND_REQUIRED_FILE)
		  {
			  hs->file = sendBuf;
			  hs->left = sendBufLoadLen;
 802d518:	6063      	str	r3, [r4, #4]
			  send_data(pcb, hs);
 802d51a:	f7fe fd19 	bl	802bf50 <send_data>
			  tcp_sent(pcb, http_sent_history);
 802d51e:	4628      	mov	r0, r5
 802d520:	4927      	ldr	r1, [pc, #156]	; (802d5c0 <http_recv+0x63c>)
 802d522:	e06b      	b.n	802d5fc <http_recv+0x678>
 802d524:	2000e254 	.word	0x2000e254
 802d528:	2000e128 	.word	0x2000e128
 802d52c:	2000d37c 	.word	0x2000d37c
 802d530:	20000d24 	.word	0x20000d24
 802d534:	08042986 	.word	0x08042986
 802d538:	0802bfc3 	.word	0x0802bfc3
 802d53c:	2000e228 	.word	0x2000e228
 802d540:	0804293b 	.word	0x0804293b
 802d544:	0804293f 	.word	0x0804293f
 802d548:	08042949 	.word	0x08042949
 802d54c:	0804294d 	.word	0x0804294d
 802d550:	08042958 	.word	0x08042958
 802d554:	0804295c 	.word	0x0804295c
 802d558:	080429ab 	.word	0x080429ab
 802d55c:	080429af 	.word	0x080429af
 802d560:	08042969 	.word	0x08042969
 802d564:	0804296d 	.word	0x0804296d
 802d568:	080429b8 	.word	0x080429b8
 802d56c:	20000710 	.word	0x20000710
 802d570:	080429d7 	.word	0x080429d7
 802d574:	080429db 	.word	0x080429db
 802d578:	080429e6 	.word	0x080429e6
 802d57c:	080429ea 	.word	0x080429ea
 802d580:	080429f8 	.word	0x080429f8
 802d584:	080429fc 	.word	0x080429fc
 802d588:	08042a0e 	.word	0x08042a0e
 802d58c:	08042a1f 	.word	0x08042a1f
 802d590:	20000d26 	.word	0x20000d26
 802d594:	20000d38 	.word	0x20000d38
 802d598:	2000db4c 	.word	0x2000db4c
 802d59c:	08042a31 	.word	0x08042a31
 802d5a0:	08038ac0 	.word	0x08038ac0
 802d5a4:	08042a44 	.word	0x08042a44
 802d5a8:	08042b48 	.word	0x08042b48
 802d5ac:	08042a56 	.word	0x08042a56
 802d5b0:	08042ac5 	.word	0x08042ac5
 802d5b4:	08042ad3 	.word	0x08042ad3
 802d5b8:	08042ae2 	.word	0x08042ae2
 802d5bc:	08042b4d 	.word	0x08042b4d
 802d5c0:	0802c07d 	.word	0x0802c07d
			  hs->left = sendBufLoadLen;
			  send_data(pcb, hs);
			  tcp_sent(pcb, http_sent);
		  }
		}
	else if (strncmp(data, "GET /ups_history.cgi", 19) == 0)
 802d5c4:	4630      	mov	r0, r6
 802d5c6:	495a      	ldr	r1, [pc, #360]	; (802d730 <http_recv+0x7ac>)
 802d5c8:	2213      	movs	r2, #19
 802d5ca:	f7f4 fe23 	bl	8022214 <strncmp>
 802d5ce:	bb00      	cbnz	r0, 802d612 <http_recv+0x68e>
	{
	  int res;

	  res = HTTP_UpsHistoryPage(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);
 802d5d0:	4b58      	ldr	r3, [pc, #352]	; (802d734 <http_recv+0x7b0>)
 802d5d2:	f8df 81a0 	ldr.w	r8, [pc, #416]	; 802d774 <http_recv+0x7f0>
 802d5d6:	4e58      	ldr	r6, [pc, #352]	; (802d738 <http_recv+0x7b4>)
 802d5d8:	881a      	ldrh	r2, [r3, #0]
 802d5da:	4858      	ldr	r0, [pc, #352]	; (802d73c <http_recv+0x7b8>)
 802d5dc:	4641      	mov	r1, r8
 802d5de:	4633      	mov	r3, r6
 802d5e0:	f7ff fb70 	bl	802ccc4 <HTTP_UpsHistoryPage>

	  if (res == SEND_REQUIRED_FILE)
 802d5e4:	2802      	cmp	r0, #2
 802d5e6:	d110      	bne.n	802d60a <http_recv+0x686>
	  {
		  hs->file = sendBuf;
		  hs->left = sendBufLoadLen;
 802d5e8:	8833      	ldrh	r3, [r6, #0]

	  res = HTTP_UpsHistoryPage(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);

	  if (res == SEND_REQUIRED_FILE)
	  {
		  hs->file = sendBuf;
 802d5ea:	f8c4 8000 	str.w	r8, [r4]
		  hs->left = sendBufLoadLen;
		  send_data(pcb, hs);
 802d5ee:	4628      	mov	r0, r5
 802d5f0:	4621      	mov	r1, r4
	  res = HTTP_UpsHistoryPage(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);

	  if (res == SEND_REQUIRED_FILE)
	  {
		  hs->file = sendBuf;
		  hs->left = sendBufLoadLen;
 802d5f2:	6063      	str	r3, [r4, #4]
		  send_data(pcb, hs);
 802d5f4:	f7fe fcac 	bl	802bf50 <send_data>
		  tcp_sent(pcb, http_sent_log);
 802d5f8:	4951      	ldr	r1, [pc, #324]	; (802d740 <http_recv+0x7bc>)
 802d5fa:	4628      	mov	r0, r5
 802d5fc:	f002 fa44 	bl	802fa88 <tcp_sent>
		  tcp_err(pcb, http_sent_log_err);
 802d600:	4628      	mov	r0, r5
 802d602:	4950      	ldr	r1, [pc, #320]	; (802d744 <http_recv+0x7c0>)
 802d604:	f002 fa42 	bl	802fa8c <tcp_err>
 802d608:	e08b      	b.n	802d722 <http_recv+0x79e>
	  }
	  else if (res == SEND_REQUIRED_YES) {
 802d60a:	2800      	cmp	r0, #0
 802d60c:	f040 8089 	bne.w	802d722 <http_recv+0x79e>
 802d610:	e073      	b.n	802d6fa <http_recv+0x776>
		  send_data(pcb, hs);
		  tcp_sent(pcb, http_sent);
	  }
	}
	  /* Те�т  �КБ ИБП */
	  else if (strncmp(data, "POST /bat_test.cgi", 18) == 0)
 802d612:	4630      	mov	r0, r6
 802d614:	494c      	ldr	r1, [pc, #304]	; (802d748 <http_recv+0x7c4>)
 802d616:	2212      	movs	r2, #18
 802d618:	f7f4 fdfc 	bl	8022214 <strncmp>
 802d61c:	b950      	cbnz	r0, 802d634 <http_recv+0x6b0>
	  {
		HTTP_UPSTest(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);
 802d61e:	f8df 8154 	ldr.w	r8, [pc, #340]	; 802d774 <http_recv+0x7f0>
 802d622:	4e45      	ldr	r6, [pc, #276]	; (802d738 <http_recv+0x7b4>)
 802d624:	4b43      	ldr	r3, [pc, #268]	; (802d734 <http_recv+0x7b0>)
 802d626:	4845      	ldr	r0, [pc, #276]	; (802d73c <http_recv+0x7b8>)
 802d628:	881a      	ldrh	r2, [r3, #0]
 802d62a:	4641      	mov	r1, r8
 802d62c:	4633      	mov	r3, r6
 802d62e:	f7fe fdf1 	bl	802c214 <HTTP_UPSTest>
 802d632:	e062      	b.n	802d6fa <http_recv+0x776>
		hs->left = sendBufLoadLen;
		send_data(pcb, hs);
		tcp_sent(pcb, http_sent);
	  }
	  /* Выключение ИБП */
	  else if (strncmp(data, "POST /ups_power.cgi", 19) == 0)
 802d634:	4630      	mov	r0, r6
 802d636:	4945      	ldr	r1, [pc, #276]	; (802d74c <http_recv+0x7c8>)
 802d638:	2213      	movs	r2, #19
 802d63a:	f7f4 fdeb 	bl	8022214 <strncmp>
 802d63e:	b950      	cbnz	r0, 802d656 <http_recv+0x6d2>
	  {
		HTTP_UPSshutdown(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);
 802d640:	f8df 8130 	ldr.w	r8, [pc, #304]	; 802d774 <http_recv+0x7f0>
 802d644:	4e3c      	ldr	r6, [pc, #240]	; (802d738 <http_recv+0x7b4>)
 802d646:	4b3b      	ldr	r3, [pc, #236]	; (802d734 <http_recv+0x7b0>)
 802d648:	483c      	ldr	r0, [pc, #240]	; (802d73c <http_recv+0x7b8>)
 802d64a:	881a      	ldrh	r2, [r3, #0]
 802d64c:	4641      	mov	r1, r8
 802d64e:	4633      	mov	r3, r6
 802d650:	f7fe fe6e 	bl	802c330 <HTTP_UPSshutdown>
 802d654:	e051      	b.n	802d6fa <http_recv+0x776>
		hs->left = sendBufLoadLen;
		send_data(pcb, hs);
		tcp_sent(pcb, http_sent);
	  }
	  /* Сбро� на�троек и �охранине */
	  else if (strncmp(data, "GET /reset.cgi", 14) == 0)
 802d656:	4630      	mov	r0, r6
 802d658:	493d      	ldr	r1, [pc, #244]	; (802d750 <http_recv+0x7cc>)
 802d65a:	220e      	movs	r2, #14
 802d65c:	f7f4 fdda 	bl	8022214 <strncmp>
 802d660:	b928      	cbnz	r0, 802d66e <http_recv+0x6ea>
	  {
		HTTP_ResetSettings();
 802d662:	f000 fd25 	bl	802e0b0 <HTTP_ResetSettings>
		HTTP_SaveSettings();
 802d666:	f000 fd37 	bl	802e0d8 <HTTP_SaveSettings>

		fs_open("/settings.html", &file);
 802d66a:	483a      	ldr	r0, [pc, #232]	; (802d754 <http_recv+0x7d0>)
 802d66c:	e04a      	b.n	802d704 <http_recv+0x780>
		hs->left = file.len;
		send_data(pcb, hs);
		tcp_sent(pcb, http_sent);
	  }
	  /* Перезагрузка контроллера */
	  else if (strncmp(data, "GET /reboot.cgi", 15) == 0)
 802d66e:	4630      	mov	r0, r6
 802d670:	4939      	ldr	r1, [pc, #228]	; (802d758 <http_recv+0x7d4>)
 802d672:	220f      	movs	r2, #15
 802d674:	f7f4 fdce 	bl	8022214 <strncmp>
 802d678:	b910      	cbnz	r0, 802d680 <http_recv+0x6fc>
	  {
		HTTP_Reboot();
 802d67a:	f000 fd59 	bl	802e130 <HTTP_Reboot>
 802d67e:	e050      	b.n	802d722 <http_recv+0x79e>
	  }
	  /* Подтверждение новых �етевых на�троек */
	  else if (strncmp(data, "GET /confirm.cgi", 16) == 0)
 802d680:	4630      	mov	r0, r6
 802d682:	4936      	ldr	r1, [pc, #216]	; (802d75c <http_recv+0x7d8>)
 802d684:	2210      	movs	r2, #16
 802d686:	f7f4 fdc5 	bl	8022214 <strncmp>
 802d68a:	b920      	cbnz	r0, 802d696 <http_recv+0x712>
	  {
		SetWebReinitFlag(false);
 802d68c:	f7fa feb4 	bl	80283f8 <SetWebReinitFlag>
		SetConfirmWebParamsFlag();
 802d690:	f7fa feb8 	bl	8028404 <SetConfirmWebParamsFlag>
 802d694:	e035      	b.n	802d702 <http_recv+0x77e>
		hs->left = file.len;
		send_data(pcb, hs);
		tcp_sent(pcb, http_sent);
	  }
	  /* Проверка парол�, переход в bootloader */
	  else if (strncmp(data, "GET /fw_update.cgi", 18) == 0)
 802d696:	4630      	mov	r0, r6
 802d698:	4931      	ldr	r1, [pc, #196]	; (802d760 <http_recv+0x7dc>)
 802d69a:	2212      	movs	r2, #18
 802d69c:	f7f4 fdba 	bl	8022214 <strncmp>
 802d6a0:	b950      	cbnz	r0, 802d6b8 <http_recv+0x734>
	  {
		HTTP_ConfirmBootPwd(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);
 802d6a2:	f8df 80d0 	ldr.w	r8, [pc, #208]	; 802d774 <http_recv+0x7f0>
 802d6a6:	4e24      	ldr	r6, [pc, #144]	; (802d738 <http_recv+0x7b4>)
 802d6a8:	4b22      	ldr	r3, [pc, #136]	; (802d734 <http_recv+0x7b0>)
 802d6aa:	4824      	ldr	r0, [pc, #144]	; (802d73c <http_recv+0x7b8>)
 802d6ac:	881a      	ldrh	r2, [r3, #0]
 802d6ae:	4641      	mov	r1, r8
 802d6b0:	4633      	mov	r3, r6
 802d6b2:	f7fe feeb 	bl	802c48c <HTTP_ConfirmBootPwd>
 802d6b6:	e020      	b.n	802d6fa <http_recv+0x776>
		hs->left = sendBufLoadLen;
		send_data(pcb, hs);
		tcp_sent(pcb, http_sent);
	  }
	  /* Смена парол� пользовател� */
	  else if (strncmp(data, "POST /changepwd.cgi", 19) == 0)
 802d6b8:	4630      	mov	r0, r6
 802d6ba:	492a      	ldr	r1, [pc, #168]	; (802d764 <http_recv+0x7e0>)
 802d6bc:	2213      	movs	r2, #19
 802d6be:	f7f4 fda9 	bl	8022214 <strncmp>
 802d6c2:	b950      	cbnz	r0, 802d6da <http_recv+0x756>
	  {
		  HTTP_ChangeUserPwd(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);
 802d6c4:	f8df 80ac 	ldr.w	r8, [pc, #172]	; 802d774 <http_recv+0x7f0>
 802d6c8:	4e1b      	ldr	r6, [pc, #108]	; (802d738 <http_recv+0x7b4>)
 802d6ca:	4b1a      	ldr	r3, [pc, #104]	; (802d734 <http_recv+0x7b0>)
 802d6cc:	481b      	ldr	r0, [pc, #108]	; (802d73c <http_recv+0x7b8>)
 802d6ce:	881a      	ldrh	r2, [r3, #0]
 802d6d0:	4641      	mov	r1, r8
 802d6d2:	4633      	mov	r3, r6
 802d6d4:	f7ff fbb8 	bl	802ce48 <HTTP_ChangeUserPwd>
 802d6d8:	e00f      	b.n	802d6fa <http_recv+0x776>
		  hs->left = sendBufLoadLen;
		  send_data(pcb, hs);
		  tcp_sent(pcb, http_sent);
	  }
	  // �а производ�тве
	  else if (strncmp(data, "GET /setProdate.cgi", 19) == 0)
 802d6da:	4630      	mov	r0, r6
 802d6dc:	4922      	ldr	r1, [pc, #136]	; (802d768 <http_recv+0x7e4>)
 802d6de:	2213      	movs	r2, #19
 802d6e0:	f7f4 fd98 	bl	8022214 <strncmp>
 802d6e4:	b968      	cbnz	r0, 802d702 <http_recv+0x77e>
	  {
		HTTP_Prodate(receiveBuf, sendBuf, receivedBufLen, &sendBufLoadLen);
 802d6e6:	4b13      	ldr	r3, [pc, #76]	; (802d734 <http_recv+0x7b0>)
 802d6e8:	f8df 8088 	ldr.w	r8, [pc, #136]	; 802d774 <http_recv+0x7f0>
 802d6ec:	4e12      	ldr	r6, [pc, #72]	; (802d738 <http_recv+0x7b4>)
 802d6ee:	881a      	ldrh	r2, [r3, #0]
 802d6f0:	4812      	ldr	r0, [pc, #72]	; (802d73c <http_recv+0x7b8>)
 802d6f2:	4641      	mov	r1, r8
 802d6f4:	4633      	mov	r3, r6
 802d6f6:	f7ff fab1 	bl	802cc5c <HTTP_Prodate>

		hs->file = sendBuf;
 802d6fa:	f8c4 8000 	str.w	r8, [r4]
		hs->left = sendBufLoadLen;
 802d6fe:	8833      	ldrh	r3, [r6, #0]
 802d700:	e006      	b.n	802d710 <http_recv+0x78c>
		tcp_sent(pcb, http_sent);
	  }
	  else
	  {
		HTTP_UpdateUserLoginTime(user_id);
		fs_open("/index.html", &file); // +
 802d702:	481a      	ldr	r0, [pc, #104]	; (802d76c <http_recv+0x7e8>)
 802d704:	a905      	add	r1, sp, #20
 802d706:	f7fe fbe7 	bl	802bed8 <fs_open>
		hs->file = file.data;
 802d70a:	9b05      	ldr	r3, [sp, #20]
 802d70c:	6023      	str	r3, [r4, #0]
		hs->left = file.len;
 802d70e:	9b06      	ldr	r3, [sp, #24]
 802d710:	6063      	str	r3, [r4, #4]
		send_data(pcb, hs);
 802d712:	4628      	mov	r0, r5
 802d714:	4621      	mov	r1, r4
 802d716:	f7fe fc1b 	bl	802bf50 <send_data>
		tcp_sent(pcb, http_sent);
 802d71a:	4628      	mov	r0, r5
 802d71c:	4914      	ldr	r1, [pc, #80]	; (802d770 <http_recv+0x7ec>)
 802d71e:	f002 f9b3 	bl	802fa88 <tcp_sent>
	  }
	}
    }
    pbuf_free(p);
 802d722:	4638      	mov	r0, r7
 802d724:	f001 fee8 	bl	802f4f8 <pbuf_free>
/*  if (err == ERR_OK && p == NULL)
  {
    close_conn(pcb, hs);
  }*/
  return ERR_OK;
} 
 802d728:	2000      	movs	r0, #0
 802d72a:	b01d      	add	sp, #116	; 0x74
 802d72c:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 802d730:	08042b5e 	.word	0x08042b5e
 802d734:	20000d38 	.word	0x20000d38
 802d738:	20000d24 	.word	0x20000d24
 802d73c:	2000db4c 	.word	0x2000db4c
 802d740:	0802bfdd 	.word	0x0802bfdd
 802d744:	0802becd 	.word	0x0802becd
 802d748:	08042b73 	.word	0x08042b73
 802d74c:	08042b86 	.word	0x08042b86
 802d750:	08042b9a 	.word	0x08042b9a
 802d754:	080429bc 	.word	0x080429bc
 802d758:	08042ba9 	.word	0x08042ba9
 802d75c:	08042bb9 	.word	0x08042bb9
 802d760:	08042bca 	.word	0x08042bca
 802d764:	08042bdd 	.word	0x08042bdd
 802d768:	08042bf1 	.word	0x08042bf1
 802d76c:	080429cb 	.word	0x080429cb
 802d770:	0802bfc3 	.word	0x0802bfc3
 802d774:	2000d37c 	.word	0x2000d37c

0802d778 <HTTP_GetParamsPage1>:
/**
  * @brief  Возвращ�ет �троку � на�тройками на первой �транице
  * @retval None
  */
void HTTP_GetParamsPage1(char *buf)
{
 802d778:	b510      	push	{r4, lr}
  char str[40];
  uint8_t len;
  memset(buf, 0, 1000);
 802d77a:	f44f 727a 	mov.w	r2, #1000	; 0x3e8
/**
  * @brief  Возвращ�ет �троку � на�тройками на первой �транице
  * @retval None
  */
void HTTP_GetParamsPage1(char *buf)
{
 802d77e:	b08c      	sub	sp, #48	; 0x30
 802d780:	4604      	mov	r4, r0
  char str[40];
  uint8_t len;
  memset(buf, 0, 1000);
 802d782:	2100      	movs	r1, #0
 802d784:	f7f4 fb0c 	bl	8021da0 <memset>
  
  // Headers дл� поддержки saffari 
  strcpy(buf, "HTTP/1.0 200 OK\r\nContent-Type:text/html\r\n\r\n");
 802d788:	4620      	mov	r0, r4
 802d78a:	496f      	ldr	r1, [pc, #444]	; (802d948 <HTTP_GetParamsPage1+0x1d0>)
 802d78c:	f7f4 fc82 	bl	8022094 <strcpy>
  
  // Параметры UPS
  
  GetInputVoltageStr(str, &len);
 802d790:	a802      	add	r0, sp, #8
 802d792:	f10d 0107 	add.w	r1, sp, #7
 802d796:	f7fa f9fb 	bl	8027b90 <GetInputVoltageStr>
  strcat(buf, "{\"AC\":\"");
 802d79a:	4620      	mov	r0, r4
 802d79c:	496b      	ldr	r1, [pc, #428]	; (802d94c <HTTP_GetParamsPage1+0x1d4>)
 802d79e:	f7f4 fb65 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d7a2:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d7a6:	a902      	add	r1, sp, #8
 802d7a8:	4620      	mov	r0, r4
 802d7aa:	f7f4 fd01 	bl	80221b0 <strncat>
  
  GetOutputVoltageStr(str, &len);
 802d7ae:	a802      	add	r0, sp, #8
 802d7b0:	f10d 0107 	add.w	r1, sp, #7
 802d7b4:	f7fa fa02 	bl	8027bbc <GetOutputVoltageStr>
  strcat(buf, "\",\"DC\":\"");
 802d7b8:	4620      	mov	r0, r4
 802d7ba:	4965      	ldr	r1, [pc, #404]	; (802d950 <HTTP_GetParamsPage1+0x1d8>)
 802d7bc:	f7f4 fb56 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d7c0:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d7c4:	a902      	add	r1, sp, #8
 802d7c6:	4620      	mov	r0, r4
 802d7c8:	f7f4 fcf2 	bl	80221b0 <strncat>
  
  GetInputFreqStr(str, &len);
 802d7cc:	a802      	add	r0, sp, #8
 802d7ce:	f10d 0107 	add.w	r1, sp, #7
 802d7d2:	f7fa f9b1 	bl	8027b38 <GetInputFreqStr>
  strcat(buf, "\",\"in_freq\":\"");
 802d7d6:	4620      	mov	r0, r4
 802d7d8:	495e      	ldr	r1, [pc, #376]	; (802d954 <HTTP_GetParamsPage1+0x1dc>)
 802d7da:	f7f4 fb47 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d7de:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d7e2:	a902      	add	r1, sp, #8
 802d7e4:	4620      	mov	r0, r4
 802d7e6:	f7f4 fce3 	bl	80221b0 <strncat>
  
  GetOutputFreqStr(str, &len);
 802d7ea:	a802      	add	r0, sp, #8
 802d7ec:	f10d 0107 	add.w	r1, sp, #7
 802d7f0:	f7fa f9b8 	bl	8027b64 <GetOutputFreqStr>
  strcat(buf, "\",\"out_freq\":\"");
 802d7f4:	4620      	mov	r0, r4
 802d7f6:	4958      	ldr	r1, [pc, #352]	; (802d958 <HTTP_GetParamsPage1+0x1e0>)
 802d7f8:	f7f4 fb38 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d7fc:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d800:	a902      	add	r1, sp, #8
 802d802:	4620      	mov	r0, r4
 802d804:	f7f4 fcd4 	bl	80221b0 <strncat>
  
  GetPowerStr(str, &len);
 802d808:	a802      	add	r0, sp, #8
 802d80a:	f10d 0107 	add.w	r1, sp, #7
 802d80e:	f7fa f9eb 	bl	8027be8 <GetPowerStr>
  strcat(buf, "\",\"pwr\":\"");
 802d812:	4620      	mov	r0, r4
 802d814:	4951      	ldr	r1, [pc, #324]	; (802d95c <HTTP_GetParamsPage1+0x1e4>)
 802d816:	f7f4 fb29 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d81a:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d81e:	a902      	add	r1, sp, #8
 802d820:	4620      	mov	r0, r4
 802d822:	f7f4 fcc5 	bl	80221b0 <strncat>
  
  GetBatCapacityStr(str, &len);
 802d826:	a802      	add	r0, sp, #8
 802d828:	f10d 0107 	add.w	r1, sp, #7
 802d82c:	f7fa f9ee 	bl	8027c0c <GetBatCapacityStr>
  strcat(buf, "\",\"bat_cap\":\"");
 802d830:	4620      	mov	r0, r4
 802d832:	494b      	ldr	r1, [pc, #300]	; (802d960 <HTTP_GetParamsPage1+0x1e8>)
 802d834:	f7f4 fb1a 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d838:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d83c:	a902      	add	r1, sp, #8
 802d83e:	4620      	mov	r0, r4
 802d840:	f7f4 fcb6 	bl	80221b0 <strncat>
  
  GetInternalTempStr(str, &len);
 802d844:	a802      	add	r0, sp, #8
 802d846:	f10d 0107 	add.w	r1, sp, #7
 802d84a:	f7fa fa03 	bl	8027c54 <GetInternalTempStr>
  strcat(buf, "\",\"inner_temp\":\"");
 802d84e:	4620      	mov	r0, r4
 802d850:	4944      	ldr	r1, [pc, #272]	; (802d964 <HTTP_GetParamsPage1+0x1ec>)
 802d852:	f7f4 fb0b 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d856:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d85a:	a902      	add	r1, sp, #8
 802d85c:	4620      	mov	r0, r4
 802d85e:	f7f4 fca7 	bl	80221b0 <strncat>
  
  GetRuntimeStr(str, &len);
 802d862:	a802      	add	r0, sp, #8
 802d864:	f10d 0107 	add.w	r1, sp, #7
 802d868:	f7fa f9e2 	bl	8027c30 <GetRuntimeStr>
  strcat(buf, "\",\"bat_time_left\":\"");
 802d86c:	4620      	mov	r0, r4
 802d86e:	493e      	ldr	r1, [pc, #248]	; (802d968 <HTTP_GetParamsPage1+0x1f0>)
 802d870:	f7f4 fafc 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d874:	a902      	add	r1, sp, #8
 802d876:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d87a:	4620      	mov	r0, r4
 802d87c:	f7f4 fc98 	bl	80221b0 <strncat>
  
  GetDINStatusStr(str, &len, 0);
 802d880:	2200      	movs	r2, #0
 802d882:	a802      	add	r0, sp, #8
 802d884:	f10d 0107 	add.w	r1, sp, #7
 802d888:	f7fa fae8 	bl	8027e5c <GetDINStatusStr>
  strcat(buf, "\",\"di1\":\"");
 802d88c:	4620      	mov	r0, r4
 802d88e:	4937      	ldr	r1, [pc, #220]	; (802d96c <HTTP_GetParamsPage1+0x1f4>)
 802d890:	f7f4 faec 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d894:	a902      	add	r1, sp, #8
 802d896:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d89a:	4620      	mov	r0, r4
 802d89c:	f7f4 fc88 	bl	80221b0 <strncat>
  
  GetDOUTStatusStr(str, &len, 0);
 802d8a0:	a802      	add	r0, sp, #8
 802d8a2:	f10d 0107 	add.w	r1, sp, #7
 802d8a6:	2200      	movs	r2, #0
 802d8a8:	f7fa fb12 	bl	8027ed0 <GetDOUTStatusStr>
  strcat(buf, "\",\"ro1\":\"");
 802d8ac:	4620      	mov	r0, r4
 802d8ae:	4930      	ldr	r1, [pc, #192]	; (802d970 <HTTP_GetParamsPage1+0x1f8>)
 802d8b0:	f7f4 fadc 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d8b4:	a902      	add	r1, sp, #8
 802d8b6:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d8ba:	4620      	mov	r0, r4
 802d8bc:	f7f4 fc78 	bl	80221b0 <strncat>
  
  GetDOUTStatusStr(str, &len, 1);
 802d8c0:	2201      	movs	r2, #1
 802d8c2:	a802      	add	r0, sp, #8
 802d8c4:	f10d 0107 	add.w	r1, sp, #7
 802d8c8:	f7fa fb02 	bl	8027ed0 <GetDOUTStatusStr>
  strcat(buf, "\",\"ro2\":\"");
 802d8cc:	4620      	mov	r0, r4
 802d8ce:	4929      	ldr	r1, [pc, #164]	; (802d974 <HTTP_GetParamsPage1+0x1fc>)
 802d8d0:	f7f4 facc 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d8d4:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d8d8:	a902      	add	r1, sp, #8
 802d8da:	4620      	mov	r0, r4
 802d8dc:	f7f4 fc68 	bl	80221b0 <strncat>
    // Мониторинг
    // load_monitor (нагрузка, 0 - норма, 1 - fail)
    // temp_monitor (внутренн�� температура, 0 - норма, 1 - fail)
    // connect_monitor (�в�зь � UPSом, 0 - норма, 1 - fail)
  
  GetAlarmMonitorStr(str, &len);
 802d8e0:	a802      	add	r0, sp, #8
 802d8e2:	f10d 0107 	add.w	r1, sp, #7
 802d8e6:	f7fa f9cb 	bl	8027c80 <GetAlarmMonitorStr>
  strcat(buf, "\",\"m_alarm\":\"");
 802d8ea:	4620      	mov	r0, r4
 802d8ec:	4922      	ldr	r1, [pc, #136]	; (802d978 <HTTP_GetParamsPage1+0x200>)
 802d8ee:	f7f4 fabd 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d8f2:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d8f6:	a902      	add	r1, sp, #8
 802d8f8:	4620      	mov	r0, r4
 802d8fa:	f7f4 fc59 	bl	80221b0 <strncat>

  GetAlarmStr(str, &len);
 802d8fe:	a802      	add	r0, sp, #8
 802d900:	f10d 0107 	add.w	r1, sp, #7
 802d904:	f7fa f9e6 	bl	8027cd4 <GetAlarmStr>
  strcat(buf, "\",\"u_alarm\":\"");
 802d908:	4620      	mov	r0, r4
 802d90a:	491c      	ldr	r1, [pc, #112]	; (802d97c <HTTP_GetParamsPage1+0x204>)
 802d90c:	f7f4 faae 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d910:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d914:	a902      	add	r1, sp, #8
 802d916:	4620      	mov	r0, r4
 802d918:	f7f4 fc4a 	bl	80221b0 <strncat>

  // Признак изменени� �етевых на�троек 
  GetWebReinitFlag(str, &len);
 802d91c:	a802      	add	r0, sp, #8
 802d91e:	f10d 0107 	add.w	r1, sp, #7
 802d922:	f7fa fd43 	bl	80283ac <GetWebReinitFlag>
  strcat(buf, "\",\"netsettings_changed\":\"");
 802d926:	4620      	mov	r0, r4
 802d928:	4915      	ldr	r1, [pc, #84]	; (802d980 <HTTP_GetParamsPage1+0x208>)
 802d92a:	f7f4 fa9f 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d92e:	a902      	add	r1, sp, #8
 802d930:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d934:	4620      	mov	r0, r4
 802d936:	f7f4 fc3b 	bl	80221b0 <strncat>

  strncat(buf, "\"}", 2);
 802d93a:	4620      	mov	r0, r4
 802d93c:	4911      	ldr	r1, [pc, #68]	; (802d984 <HTTP_GetParamsPage1+0x20c>)
 802d93e:	2202      	movs	r2, #2
 802d940:	f7f4 fc36 	bl	80221b0 <strncat>
  
  //printf(buf);
}
 802d944:	b00c      	add	sp, #48	; 0x30
 802d946:	bd10      	pop	{r4, pc}
 802d948:	08043c40 	.word	0x08043c40
 802d94c:	08043c6c 	.word	0x08043c6c
 802d950:	08043c74 	.word	0x08043c74
 802d954:	08043c7d 	.word	0x08043c7d
 802d958:	08043c8b 	.word	0x08043c8b
 802d95c:	08043c9a 	.word	0x08043c9a
 802d960:	08043ca4 	.word	0x08043ca4
 802d964:	08043cb2 	.word	0x08043cb2
 802d968:	08043cc3 	.word	0x08043cc3
 802d96c:	08043cd7 	.word	0x08043cd7
 802d970:	08043ce1 	.word	0x08043ce1
 802d974:	08043ceb 	.word	0x08043ceb
 802d978:	08043cf5 	.word	0x08043cf5
 802d97c:	08043d03 	.word	0x08043d03
 802d980:	08043d11 	.word	0x08043d11
 802d984:	08043d2b 	.word	0x08043d2b

0802d988 <HTTP_GetSettings>:
/**
  * @brief  Возвращ�ет �троку � на�тройками на второй �транице
  * @retval None
  */
void HTTP_GetSettings(char *buf)
{
 802d988:	b510      	push	{r4, lr}
  char str[30];
  uint8_t len;
   
  /* Headers дл� поддержки saffari */
  strcpy(buf, "HTTP/1.0 200 OK\r\nContent-Type:text/html\r\n\r\n");
 802d98a:	49bf      	ldr	r1, [pc, #764]	; (802dc88 <HTTP_GetSettings+0x300>)
/**
  * @brief  Возвращ�ет �троку � на�тройками на второй �транице
  * @retval None
  */
void HTTP_GetSettings(char *buf)
{
 802d98c:	b08a      	sub	sp, #40	; 0x28
 802d98e:	4604      	mov	r4, r0
  char str[30];
  uint8_t len;
   
  /* Headers дл� поддержки saffari */
  strcpy(buf, "HTTP/1.0 200 OK\r\nContent-Type:text/html\r\n\r\n");
 802d990:	f7f4 fb80 	bl	8022094 <strcpy>
  
  /* SNMP */
  GetReadCommunity(str, &len);  
 802d994:	a802      	add	r0, sp, #8
 802d996:	f10d 0107 	add.w	r1, sp, #7
 802d99a:	f7fa fc37 	bl	802820c <GetReadCommunity>
  strcat(buf, "{\"read_community\":\"");
 802d99e:	4620      	mov	r0, r4
 802d9a0:	49ba      	ldr	r1, [pc, #744]	; (802dc8c <HTTP_GetSettings+0x304>)
 802d9a2:	f7f4 fa63 	bl	8021e6c <strcat>
  strncat(buf, str, len);	
 802d9a6:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d9aa:	a902      	add	r1, sp, #8
 802d9ac:	4620      	mov	r0, r4
 802d9ae:	f7f4 fbff 	bl	80221b0 <strncat>
  
  GetWriteCommunity(str, &len);  
 802d9b2:	a802      	add	r0, sp, #8
 802d9b4:	f10d 0107 	add.w	r1, sp, #7
 802d9b8:	f7fa fc38 	bl	802822c <GetWriteCommunity>
  strcat(buf, "\",\"write_community\":\"");
 802d9bc:	4620      	mov	r0, r4
 802d9be:	49b4      	ldr	r1, [pc, #720]	; (802dc90 <HTTP_GetSettings+0x308>)
 802d9c0:	f7f4 fa54 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d9c4:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d9c8:	a902      	add	r1, sp, #8
 802d9ca:	4620      	mov	r0, r4
 802d9cc:	f7f4 fbf0 	bl	80221b0 <strncat>
  
  GetManagerIp(str, &len);  
 802d9d0:	a802      	add	r0, sp, #8
 802d9d2:	f10d 0107 	add.w	r1, sp, #7
 802d9d6:	f7fa fc39 	bl	802824c <GetManagerIp>
  strcat(buf, "\",\"managerIP\":\"");
 802d9da:	4620      	mov	r0, r4
 802d9dc:	49ad      	ldr	r1, [pc, #692]	; (802dc94 <HTTP_GetSettings+0x30c>)
 802d9de:	f7f4 fa45 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802d9e2:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802d9e6:	a902      	add	r1, sp, #8
 802d9e8:	4620      	mov	r0, r4
 802d9ea:	f7f4 fbe1 	bl	80221b0 <strncat>
  
  GetManagerIp2(str, &len);  
 802d9ee:	a802      	add	r0, sp, #8
 802d9f0:	f10d 0107 	add.w	r1, sp, #7
 802d9f4:	f7fa fc3a 	bl	802826c <GetManagerIp2>
  strcat(buf, "\",\"managerIP2\":\"");
 802d9f8:	4620      	mov	r0, r4
 802d9fa:	49a7      	ldr	r1, [pc, #668]	; (802dc98 <HTTP_GetSettings+0x310>)
 802d9fc:	f7f4 fa36 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802da00:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802da04:	a902      	add	r1, sp, #8
 802da06:	4620      	mov	r0, r4
 802da08:	f7f4 fbd2 	bl	80221b0 <strncat>
  
  GetManagerIp3(str, &len);  
 802da0c:	a802      	add	r0, sp, #8
 802da0e:	f10d 0107 	add.w	r1, sp, #7
 802da12:	f7fa fc3b 	bl	802828c <GetManagerIp3>
  strcat(buf, "\",\"managerIP3\":\"");
 802da16:	4620      	mov	r0, r4
 802da18:	49a0      	ldr	r1, [pc, #640]	; (802dc9c <HTTP_GetSettings+0x314>)
 802da1a:	f7f4 fa27 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802da1e:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802da22:	a902      	add	r1, sp, #8
 802da24:	4620      	mov	r0, r4
 802da26:	f7f4 fbc3 	bl	80221b0 <strncat>

  GetManagerIp4(str, &len);
 802da2a:	a802      	add	r0, sp, #8
 802da2c:	f10d 0107 	add.w	r1, sp, #7
 802da30:	f7fa fc3c 	bl	80282ac <GetManagerIp4>
  strcat(buf, "\",\"managerIP4\":\"");
 802da34:	4620      	mov	r0, r4
 802da36:	499a      	ldr	r1, [pc, #616]	; (802dca0 <HTTP_GetSettings+0x318>)
 802da38:	f7f4 fa18 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802da3c:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802da40:	a902      	add	r1, sp, #8
 802da42:	4620      	mov	r0, r4
 802da44:	f7f4 fbb4 	bl	80221b0 <strncat>

  GetManagerIp5(str, &len);
 802da48:	a802      	add	r0, sp, #8
 802da4a:	f10d 0107 	add.w	r1, sp, #7
 802da4e:	f7fa fc3d 	bl	80282cc <GetManagerIp5>
  strcat(buf, "\",\"managerIP5\":\"");
 802da52:	4620      	mov	r0, r4
 802da54:	4993      	ldr	r1, [pc, #588]	; (802dca4 <HTTP_GetSettings+0x31c>)
 802da56:	f7f4 fa09 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802da5a:	a902      	add	r1, sp, #8
 802da5c:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802da60:	4620      	mov	r0, r4
 802da62:	f7f4 fba5 	bl	80221b0 <strncat>

  /*Параметры реле и �ухих контактов*/
  GetDINTypeActStr(str, &len, 0);
 802da66:	2200      	movs	r2, #0
 802da68:	a802      	add	r0, sp, #8
 802da6a:	f10d 0107 	add.w	r1, sp, #7
 802da6e:	f7fa f9e1 	bl	8027e34 <GetDINTypeActStr>
  strcat(buf, "\",\"di1\":\"");
 802da72:	4620      	mov	r0, r4
 802da74:	498c      	ldr	r1, [pc, #560]	; (802dca8 <HTTP_GetSettings+0x320>)
 802da76:	f7f4 f9f9 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802da7a:	a902      	add	r1, sp, #8
 802da7c:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802da80:	4620      	mov	r0, r4
 802da82:	f7f4 fb95 	bl	80221b0 <strncat>

  GetROTypeActStr(str, &len, 0);
 802da86:	2200      	movs	r2, #0
 802da88:	a802      	add	r0, sp, #8
 802da8a:	f10d 0107 	add.w	r1, sp, #7
 802da8e:	f7fa fa0b 	bl	8027ea8 <GetROTypeActStr>
  strcat(buf, "\",\"ro1\":\"");
 802da92:	4620      	mov	r0, r4
 802da94:	4985      	ldr	r1, [pc, #532]	; (802dcac <HTTP_GetSettings+0x324>)
 802da96:	f7f4 f9e9 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802da9a:	a902      	add	r1, sp, #8
 802da9c:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802daa0:	4620      	mov	r0, r4
 802daa2:	f7f4 fb85 	bl	80221b0 <strncat>

  GetROTypeActStr(str, &len, 1);
 802daa6:	2201      	movs	r2, #1
 802daa8:	a802      	add	r0, sp, #8
 802daaa:	f10d 0107 	add.w	r1, sp, #7
 802daae:	f7fa f9fb 	bl	8027ea8 <GetROTypeActStr>
  strcat(buf, "\",\"ro2\":\"");
 802dab2:	4620      	mov	r0, r4
 802dab4:	497e      	ldr	r1, [pc, #504]	; (802dcb0 <HTTP_GetSettings+0x328>)
 802dab6:	f7f4 f9d9 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802daba:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dabe:	a902      	add	r1, sp, #8
 802dac0:	4620      	mov	r0, r4
 802dac2:	f7f4 fb75 	bl	80221b0 <strncat>
	
  /* WEB */
  GetIpStr(str, &len);  
 802dac6:	a802      	add	r0, sp, #8
 802dac8:	f10d 0107 	add.w	r1, sp, #7
 802dacc:	f7fa fb48 	bl	8028160 <GetIpStr>
  strcat(buf, "\",\"ipaddr\":\"");
 802dad0:	4620      	mov	r0, r4
 802dad2:	4978      	ldr	r1, [pc, #480]	; (802dcb4 <HTTP_GetSettings+0x32c>)
 802dad4:	f7f4 f9ca 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dad8:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dadc:	a902      	add	r1, sp, #8
 802dade:	4620      	mov	r0, r4
 802dae0:	f7f4 fb66 	bl	80221b0 <strncat>
  
  GetGatewayStr(str, &len);  
 802dae4:	a802      	add	r0, sp, #8
 802dae6:	f10d 0107 	add.w	r1, sp, #7
 802daea:	f7fa fb4f 	bl	802818c <GetGatewayStr>
  strcat(buf, "\",\"gw\":\"");
 802daee:	4620      	mov	r0, r4
 802daf0:	4971      	ldr	r1, [pc, #452]	; (802dcb8 <HTTP_GetSettings+0x330>)
 802daf2:	f7f4 f9bb 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802daf6:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dafa:	a902      	add	r1, sp, #8
 802dafc:	4620      	mov	r0, r4
 802dafe:	f7f4 fb57 	bl	80221b0 <strncat>
  
  GetMaskStr(str, &len);  
 802db02:	a802      	add	r0, sp, #8
 802db04:	f10d 0107 	add.w	r1, sp, #7
 802db08:	f7fa fb56 	bl	80281b8 <GetMaskStr>
  strcat(buf, "\",\"mask\":\"");
 802db0c:	4620      	mov	r0, r4
 802db0e:	496b      	ldr	r1, [pc, #428]	; (802dcbc <HTTP_GetSettings+0x334>)
 802db10:	f7f4 f9ac 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802db14:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802db18:	a902      	add	r1, sp, #8
 802db1a:	4620      	mov	r0, r4
 802db1c:	f7f4 fb48 	bl	80221b0 <strncat>
  
  GetDhcpStateStr(str, &len);  
 802db20:	a802      	add	r0, sp, #8
 802db22:	f10d 0107 	add.w	r1, sp, #7
 802db26:	f7fa fb5d 	bl	80281e4 <GetDhcpStateStr>
  strcat(buf, "\",\"dhcp\":");
 802db2a:	4620      	mov	r0, r4
 802db2c:	4964      	ldr	r1, [pc, #400]	; (802dcc0 <HTTP_GetSettings+0x338>)
 802db2e:	f7f4 f99d 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802db32:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802db36:	a902      	add	r1, sp, #8
 802db38:	4620      	mov	r0, r4
 802db3a:	f7f4 fb39 	bl	80221b0 <strncat>

  GetAuthEnableStateStr(str, &len);
 802db3e:	a802      	add	r0, sp, #8
 802db40:	f10d 0107 	add.w	r1, sp, #7
 802db44:	f7fa fc24 	bl	8028390 <GetAuthEnableStateStr>
  strcat(buf, ",\"auth\":");
 802db48:	4620      	mov	r0, r4
 802db4a:	495e      	ldr	r1, [pc, #376]	; (802dcc4 <HTTP_GetSettings+0x33c>)
 802db4c:	f7f4 f98e 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802db50:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802db54:	a902      	add	r1, sp, #8
 802db56:	4620      	mov	r0, r4
 802db58:	f7f4 fb2a 	bl	80221b0 <strncat>

  /* RADIUS */
  GetRDSIpStr(str, &len);
 802db5c:	a802      	add	r0, sp, #8
 802db5e:	f10d 0107 	add.w	r1, sp, #7
 802db62:	f7fa fbc3 	bl	80282ec <GetRDSIpStr>
  strcat(buf, ",\"rs_server\":\"");
 802db66:	4620      	mov	r0, r4
 802db68:	4957      	ldr	r1, [pc, #348]	; (802dcc8 <HTTP_GetSettings+0x340>)
 802db6a:	f7f4 f97f 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802db6e:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802db72:	a902      	add	r1, sp, #8
 802db74:	4620      	mov	r0, r4
 802db76:	f7f4 fb1b 	bl	80221b0 <strncat>

  GetRDSPortStr(str, &len);
 802db7a:	a802      	add	r0, sp, #8
 802db7c:	f10d 0107 	add.w	r1, sp, #7
 802db80:	f7fa fbc4 	bl	802830c <GetRDSPortStr>
  strcat(buf, "\",\"rs_port\":\"");
 802db84:	4620      	mov	r0, r4
 802db86:	4951      	ldr	r1, [pc, #324]	; (802dccc <HTTP_GetSettings+0x344>)
 802db88:	f7f4 f970 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802db8c:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802db90:	a902      	add	r1, sp, #8
 802db92:	4620      	mov	r0, r4
 802db94:	f7f4 fb0c 	bl	80221b0 <strncat>

  GetRDSPasswordkStr(str, &len);
 802db98:	a802      	add	r0, sp, #8
 802db9a:	f10d 0107 	add.w	r1, sp, #7
 802db9e:	f7fa fbd9 	bl	8028354 <GetRDSPasswordkStr>
  strcat(buf, "\",\"rs_pwd\":\"");
 802dba2:	4620      	mov	r0, r4
 802dba4:	494a      	ldr	r1, [pc, #296]	; (802dcd0 <HTTP_GetSettings+0x348>)
 802dba6:	f7f4 f961 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dbaa:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dbae:	a902      	add	r1, sp, #8
 802dbb0:	4620      	mov	r0, r4
 802dbb2:	f7f4 fafd 	bl	80221b0 <strncat>

  GetRDSKeyAccesstStr(str, &len);
 802dbb6:	a802      	add	r0, sp, #8
 802dbb8:	f10d 0107 	add.w	r1, sp, #7
 802dbbc:	f7fa fbb8 	bl	8028330 <GetRDSKeyAccesstStr>
  strcat(buf, "\",\"rs_key\":\"");
 802dbc0:	4620      	mov	r0, r4
 802dbc2:	4944      	ldr	r1, [pc, #272]	; (802dcd4 <HTTP_GetSettings+0x34c>)
 802dbc4:	f7f4 f952 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dbc8:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dbcc:	a902      	add	r1, sp, #8
 802dbce:	4620      	mov	r0, r4
 802dbd0:	f7f4 faee 	bl	80221b0 <strncat>

  GetRDSEnableStateStr(str, &len);
 802dbd4:	a802      	add	r0, sp, #8
 802dbd6:	f10d 0107 	add.w	r1, sp, #7
 802dbda:	f7fa fbcb 	bl	8028374 <GetRDSEnableStateStr>
  strcat(buf, "\",\"rs_enabled\":");
 802dbde:	4620      	mov	r0, r4
 802dbe0:	493d      	ldr	r1, [pc, #244]	; (802dcd8 <HTTP_GetSettings+0x350>)
 802dbe2:	f7f4 f943 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dbe6:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dbea:	a902      	add	r1, sp, #8
 802dbec:	4620      	mov	r0, r4
 802dbee:	f7f4 fadf 	bl	80221b0 <strncat>

  /* Параметры даты и времени */
  GetDateStr(str, &len);
 802dbf2:	a802      	add	r0, sp, #8
 802dbf4:	f10d 0107 	add.w	r1, sp, #7
 802dbf8:	f7fa f87e 	bl	8027cf8 <GetDateStr>
  strcat(buf, ",\"date\":\"");
 802dbfc:	4620      	mov	r0, r4
 802dbfe:	4937      	ldr	r1, [pc, #220]	; (802dcdc <HTTP_GetSettings+0x354>)
 802dc00:	f7f4 f934 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dc04:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dc08:	a902      	add	r1, sp, #8
 802dc0a:	4620      	mov	r0, r4
 802dc0c:	f7f4 fad0 	bl	80221b0 <strncat>

  GetTimeStr(str, &len);
 802dc10:	a802      	add	r0, sp, #8
 802dc12:	f10d 0107 	add.w	r1, sp, #7
 802dc16:	f7fa f88d 	bl	8027d34 <GetTimeStr>
  strcat(buf, "\",\"time\":\"");
 802dc1a:	4620      	mov	r0, r4
 802dc1c:	4930      	ldr	r1, [pc, #192]	; (802dce0 <HTTP_GetSettings+0x358>)
 802dc1e:	f7f4 f925 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dc22:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dc26:	a902      	add	r1, sp, #8
 802dc28:	4620      	mov	r0, r4
 802dc2a:	f7f4 fac1 	bl	80221b0 <strncat>

  /* Параметры SNTP */
  GetSntpStateStr(str, &len);
 802dc2e:	a802      	add	r0, sp, #8
 802dc30:	f10d 0107 	add.w	r1, sp, #7
 802dc34:	f7fa f8ac 	bl	8027d90 <GetSntpStateStr>
  strcat(buf, "\",\"ntp\":\"");
 802dc38:	4620      	mov	r0, r4
 802dc3a:	492a      	ldr	r1, [pc, #168]	; (802dce4 <HTTP_GetSettings+0x35c>)
 802dc3c:	f7f4 f916 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dc40:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dc44:	a902      	add	r1, sp, #8
 802dc46:	4620      	mov	r0, r4
 802dc48:	f7f4 fab2 	bl	80221b0 <strncat>

  GetSntpServerIpStr(str, &len);
 802dc4c:	a802      	add	r0, sp, #8
 802dc4e:	f10d 0107 	add.w	r1, sp, #7
 802dc52:	f7fa f8b7 	bl	8027dc4 <GetSntpServerIpStr>
  strcat(buf, "\",\"ntpservip\":\"");
 802dc56:	4620      	mov	r0, r4
 802dc58:	4923      	ldr	r1, [pc, #140]	; (802dce8 <HTTP_GetSettings+0x360>)
 802dc5a:	f7f4 f907 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dc5e:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dc62:	a902      	add	r1, sp, #8
 802dc64:	4620      	mov	r0, r4
 802dc66:	f7f4 faa3 	bl	80221b0 <strncat>

  GetSntpTimeZoneStr(str, &len);
 802dc6a:	a802      	add	r0, sp, #8
 802dc6c:	f10d 0107 	add.w	r1, sp, #7
 802dc70:	f7fa f8b8 	bl	8027de4 <GetSntpTimeZoneStr>
  strcat(buf, "\",\"utc\":\"");
 802dc74:	4620      	mov	r0, r4
 802dc76:	491d      	ldr	r1, [pc, #116]	; (802dcec <HTTP_GetSettings+0x364>)
 802dc78:	f7f4 f8f8 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dc7c:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dc80:	a902      	add	r1, sp, #8
 802dc82:	4620      	mov	r0, r4
 802dc84:	e034      	b.n	802dcf0 <HTTP_GetSettings+0x368>
 802dc86:	bf00      	nop
 802dc88:	08043c40 	.word	0x08043c40
 802dc8c:	08043d2e 	.word	0x08043d2e
 802dc90:	08043d42 	.word	0x08043d42
 802dc94:	08043d58 	.word	0x08043d58
 802dc98:	08043d68 	.word	0x08043d68
 802dc9c:	08043d79 	.word	0x08043d79
 802dca0:	08043d8a 	.word	0x08043d8a
 802dca4:	08043d9b 	.word	0x08043d9b
 802dca8:	08043cd7 	.word	0x08043cd7
 802dcac:	08043ce1 	.word	0x08043ce1
 802dcb0:	08043ceb 	.word	0x08043ceb
 802dcb4:	08043dac 	.word	0x08043dac
 802dcb8:	08043db9 	.word	0x08043db9
 802dcbc:	08043dc2 	.word	0x08043dc2
 802dcc0:	08043dcd 	.word	0x08043dcd
 802dcc4:	08043dd7 	.word	0x08043dd7
 802dcc8:	08043de0 	.word	0x08043de0
 802dccc:	08043def 	.word	0x08043def
 802dcd0:	08043dfd 	.word	0x08043dfd
 802dcd4:	08043e0a 	.word	0x08043e0a
 802dcd8:	08043e17 	.word	0x08043e17
 802dcdc:	08043e27 	.word	0x08043e27
 802dce0:	08043e31 	.word	0x08043e31
 802dce4:	08043e3c 	.word	0x08043e3c
 802dce8:	08043e46 	.word	0x08043e46
 802dcec:	08043e56 	.word	0x08043e56
 802dcf0:	f7f4 fa5e 	bl	80221b0 <strncat>

  GetUnixTimeStr(str, &len);
 802dcf4:	a802      	add	r0, sp, #8
 802dcf6:	f10d 0107 	add.w	r1, sp, #7
 802dcfa:	f7fa f833 	bl	8027d64 <GetUnixTimeStr>
   strcat(buf, "\",\"utm\":\"");
 802dcfe:	4620      	mov	r0, r4
 802dd00:	4916      	ldr	r1, [pc, #88]	; (802dd5c <HTTP_GetSettings+0x3d4>)
 802dd02:	f7f4 f8b3 	bl	8021e6c <strcat>
   strncat(buf, str, len);
 802dd06:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dd0a:	a902      	add	r1, sp, #8
 802dd0c:	4620      	mov	r0, r4
 802dd0e:	f7f4 fa4f 	bl	80221b0 <strncat>

  GetSntpLastDataStr(str, &len);
 802dd12:	a802      	add	r0, sp, #8
 802dd14:	f10d 0107 	add.w	r1, sp, #7
 802dd18:	f7fa f87c 	bl	8027e14 <GetSntpLastDataStr>
  strcat(buf, "\",\"lastsynctime\":\"");
 802dd1c:	4620      	mov	r0, r4
 802dd1e:	4910      	ldr	r1, [pc, #64]	; (802dd60 <HTTP_GetSettings+0x3d8>)
 802dd20:	f7f4 f8a4 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dd24:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dd28:	a902      	add	r1, sp, #8
 802dd2a:	4620      	mov	r0, r4
 802dd2c:	f7f4 fa40 	bl	80221b0 <strncat>
 
  /* Признак изменени� �етевых на�троек */ 
  GetWebReinitFlag(str, &len);
 802dd30:	a802      	add	r0, sp, #8
 802dd32:	f10d 0107 	add.w	r1, sp, #7
 802dd36:	f7fa fb39 	bl	80283ac <GetWebReinitFlag>
  strcat(buf, "\",\"netsettings_changed\":\"");
 802dd3a:	4620      	mov	r0, r4
 802dd3c:	4909      	ldr	r1, [pc, #36]	; (802dd64 <HTTP_GetSettings+0x3dc>)
 802dd3e:	f7f4 f895 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dd42:	a902      	add	r1, sp, #8
 802dd44:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dd48:	4620      	mov	r0, r4
 802dd4a:	f7f4 fa31 	bl	80221b0 <strncat>
  
  strncat(buf, "\"}", 2);
 802dd4e:	4620      	mov	r0, r4
 802dd50:	4905      	ldr	r1, [pc, #20]	; (802dd68 <HTTP_GetSettings+0x3e0>)
 802dd52:	2202      	movs	r2, #2
 802dd54:	f7f4 fa2c 	bl	80221b0 <strncat>
  
  //printf(buf);
}
 802dd58:	b00a      	add	sp, #40	; 0x28
 802dd5a:	bd10      	pop	{r4, pc}
 802dd5c:	08043e60 	.word	0x08043e60
 802dd60:	08043e6a 	.word	0x08043e6a
 802dd64:	08043d11 	.word	0x08043d11
 802dd68:	08043d2b 	.word	0x08043d2b

0802dd6c <HTTP_GetInfo>:
  * @brief  Возвращ�ет �троку � информацией об у�трой�тве
  * @retval None
  */
// TODO Согла�овать мак�имальную длину �трок
void HTTP_GetInfo(char *buf)
{
 802dd6c:	b510      	push	{r4, lr}
  char str[40];
  uint8_t len;
  
  /* Headers дл� поддержки saffari */
  strcpy(buf, "HTTP/1.0 200 OK\r\nContent-Type:text/html\r\n\r\n");
 802dd6e:	4960      	ldr	r1, [pc, #384]	; (802def0 <HTTP_GetInfo+0x184>)
  * @brief  Возвращ�ет �троку � информацией об у�трой�тве
  * @retval None
  */
// TODO Согла�овать мак�имальную длину �трок
void HTTP_GetInfo(char *buf)
{
 802dd70:	b08c      	sub	sp, #48	; 0x30
 802dd72:	4604      	mov	r4, r0
  char str[40];
  uint8_t len;
  
  /* Headers дл� поддержки saffari */
  strcpy(buf, "HTTP/1.0 200 OK\r\nContent-Type:text/html\r\n\r\n");
 802dd74:	f7f4 f98e 	bl	8022094 <strcpy>
  
  GetWorkTimeStr(str, &len);  
 802dd78:	a802      	add	r0, sp, #8
 802dd7a:	f10d 0107 	add.w	r1, sp, #7
 802dd7e:	f7fa f8df 	bl	8027f40 <GetWorkTimeStr>
  strcat(buf, "{\"uptime\":\"");
 802dd82:	4620      	mov	r0, r4
 802dd84:	495b      	ldr	r1, [pc, #364]	; (802def4 <HTTP_GetInfo+0x188>)
 802dd86:	f7f4 f871 	bl	8021e6c <strcat>
  strncat(buf, str, len);	
 802dd8a:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dd8e:	a902      	add	r1, sp, #8
 802dd90:	4620      	mov	r0, r4
 802dd92:	f7f4 fa0d 	bl	80221b0 <strncat>
  
  GetModelStr(str, &len);  
 802dd96:	a802      	add	r0, sp, #8
 802dd98:	f10d 0107 	add.w	r1, sp, #7
 802dd9c:	f7fa f8f6 	bl	8027f8c <GetModelStr>
  strcat(buf, "\",\"model\":\"");
 802dda0:	4620      	mov	r0, r4
 802dda2:	4955      	ldr	r1, [pc, #340]	; (802def8 <HTTP_GetInfo+0x18c>)
 802dda4:	f7f4 f862 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dda8:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802ddac:	a902      	add	r1, sp, #8
 802ddae:	4620      	mov	r0, r4
 802ddb0:	f7f4 f9fe 	bl	80221b0 <strncat>
  
  GetProductionDataStr(str, &len);  
 802ddb4:	a802      	add	r0, sp, #8
 802ddb6:	f10d 0107 	add.w	r1, sp, #7
 802ddba:	f7fa f8f9 	bl	8027fb0 <GetProductionDataStr>
  strcat(buf, "\",\"prodate\":\"");
 802ddbe:	4620      	mov	r0, r4
 802ddc0:	494e      	ldr	r1, [pc, #312]	; (802defc <HTTP_GetInfo+0x190>)
 802ddc2:	f7f4 f853 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802ddc6:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802ddca:	a902      	add	r1, sp, #8
 802ddcc:	4620      	mov	r0, r4
 802ddce:	f7f4 f9ef 	bl	80221b0 <strncat>
  
  GetVersionStr(str, &len);  
 802ddd2:	a802      	add	r0, sp, #8
 802ddd4:	f10d 0107 	add.w	r1, sp, #7
 802ddd8:	f7fa f8fc 	bl	8027fd4 <GetVersionStr>
  strcat(buf, "\",\"fwversion\":\"");
 802dddc:	4620      	mov	r0, r4
 802ddde:	4948      	ldr	r1, [pc, #288]	; (802df00 <HTTP_GetInfo+0x194>)
 802dde0:	f7f4 f844 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dde4:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802dde8:	a902      	add	r1, sp, #8
 802ddea:	4620      	mov	r0, r4
 802ddec:	f7f4 f9e0 	bl	80221b0 <strncat>
  
  GetMacStr(str, &len);  
 802ddf0:	a802      	add	r0, sp, #8
 802ddf2:	f10d 0107 	add.w	r1, sp, #7
 802ddf6:	f7fa f8ff 	bl	8027ff8 <GetMacStr>
  strcat(buf, "\",\"macaddr\":\"");
 802ddfa:	4620      	mov	r0, r4
 802ddfc:	4941      	ldr	r1, [pc, #260]	; (802df04 <HTTP_GetInfo+0x198>)
 802ddfe:	f7f4 f835 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802de02:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802de06:	a902      	add	r1, sp, #8
 802de08:	4620      	mov	r0, r4
 802de0a:	f7f4 f9d1 	bl	80221b0 <strncat>
  
  GetSerialNumberStr(str, &len);  
 802de0e:	a802      	add	r0, sp, #8
 802de10:	f10d 0107 	add.w	r1, sp, #7
 802de14:	f7fa f902 	bl	802801c <GetSerialNumberStr>
  strcat(buf, "\",\"serno\":\"");
 802de18:	4620      	mov	r0, r4
 802de1a:	493b      	ldr	r1, [pc, #236]	; (802df08 <HTTP_GetInfo+0x19c>)
 802de1c:	f7f4 f826 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802de20:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802de24:	a902      	add	r1, sp, #8
 802de26:	4620      	mov	r0, r4
 802de28:	f7f4 f9c2 	bl	80221b0 <strncat>
  
  GetOwnerStr(str, &len);  
 802de2c:	a802      	add	r0, sp, #8
 802de2e:	f10d 0107 	add.w	r1, sp, #7
 802de32:	f7fa f905 	bl	8028040 <GetOwnerStr>
  strcat(buf, "\",\"owner\":\"");
 802de36:	4620      	mov	r0, r4
 802de38:	4934      	ldr	r1, [pc, #208]	; (802df0c <HTTP_GetInfo+0x1a0>)
 802de3a:	f7f4 f817 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802de3e:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802de42:	a902      	add	r1, sp, #8
 802de44:	4620      	mov	r0, r4
 802de46:	f7f4 f9b3 	bl	80221b0 <strncat>
  
  GetLocationStr(str, &len);  
 802de4a:	a802      	add	r0, sp, #8
 802de4c:	f10d 0107 	add.w	r1, sp, #7
 802de50:	f7fa f908 	bl	8028064 <GetLocationStr>
  strcat(buf, "\",\"sysLocation\":\"");
 802de54:	4620      	mov	r0, r4
 802de56:	492e      	ldr	r1, [pc, #184]	; (802df10 <HTTP_GetInfo+0x1a4>)
 802de58:	f7f4 f808 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802de5c:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802de60:	a902      	add	r1, sp, #8
 802de62:	4620      	mov	r0, r4
 802de64:	f7f4 f9a4 	bl	80221b0 <strncat>
  
  GetCommentsStr(str, &len);  
 802de68:	a802      	add	r0, sp, #8
 802de6a:	f10d 0107 	add.w	r1, sp, #7
 802de6e:	f7fa f90b 	bl	8028088 <GetCommentsStr>
  strcat(buf, "\",\"comment\":\"");
 802de72:	4620      	mov	r0, r4
 802de74:	4927      	ldr	r1, [pc, #156]	; (802df14 <HTTP_GetInfo+0x1a8>)
 802de76:	f7f3 fff9 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802de7a:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802de7e:	a902      	add	r1, sp, #8
 802de80:	4620      	mov	r0, r4
 802de82:	f7f4 f995 	bl	80221b0 <strncat>

  GetUPSModelStr(str, &len);
 802de86:	a802      	add	r0, sp, #8
 802de88:	f10d 0107 	add.w	r1, sp, #7
 802de8c:	f7fa f90e 	bl	80280ac <GetUPSModelStr>
  strcat(buf, "\",\"ups_model\":\"");
 802de90:	4620      	mov	r0, r4
 802de92:	4921      	ldr	r1, [pc, #132]	; (802df18 <HTTP_GetInfo+0x1ac>)
 802de94:	f7f3 ffea 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802de98:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802de9c:	a902      	add	r1, sp, #8
 802de9e:	4620      	mov	r0, r4
 802dea0:	f7f4 f986 	bl	80221b0 <strncat>

  GetUPSVersionStr(str, &len);
 802dea4:	a802      	add	r0, sp, #8
 802dea6:	f10d 0107 	add.w	r1, sp, #7
 802deaa:	f7fa f911 	bl	80280d0 <GetUPSVersionStr>
  strcat(buf, "\",\"ups_fwversion\":\"");
 802deae:	4620      	mov	r0, r4
 802deb0:	491a      	ldr	r1, [pc, #104]	; (802df1c <HTTP_GetInfo+0x1b0>)
 802deb2:	f7f3 ffdb 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802deb6:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802deba:	a902      	add	r1, sp, #8
 802debc:	4620      	mov	r0, r4
 802debe:	f7f4 f977 	bl	80221b0 <strncat>
 
  /* Признак изменени� �етевых на�троек */ 
  GetWebReinitFlag(str, &len);
 802dec2:	a802      	add	r0, sp, #8
 802dec4:	f10d 0107 	add.w	r1, sp, #7
 802dec8:	f7fa fa70 	bl	80283ac <GetWebReinitFlag>
  strcat(buf, "\",\"netsettings_changed\":\"");
 802decc:	4620      	mov	r0, r4
 802dece:	4914      	ldr	r1, [pc, #80]	; (802df20 <HTTP_GetInfo+0x1b4>)
 802ded0:	f7f3 ffcc 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802ded4:	a902      	add	r1, sp, #8
 802ded6:	f89d 2007 	ldrb.w	r2, [sp, #7]
 802deda:	4620      	mov	r0, r4
 802dedc:	f7f4 f968 	bl	80221b0 <strncat>
  
  strncat(buf, "\"}", 2);
 802dee0:	4620      	mov	r0, r4
 802dee2:	4910      	ldr	r1, [pc, #64]	; (802df24 <HTTP_GetInfo+0x1b8>)
 802dee4:	2202      	movs	r2, #2
 802dee6:	f7f4 f963 	bl	80221b0 <strncat>
  
}
 802deea:	b00c      	add	sp, #48	; 0x30
 802deec:	bd10      	pop	{r4, pc}
 802deee:	bf00      	nop
 802def0:	08043c40 	.word	0x08043c40
 802def4:	08043e7d 	.word	0x08043e7d
 802def8:	08043e89 	.word	0x08043e89
 802defc:	08043e95 	.word	0x08043e95
 802df00:	08043ea3 	.word	0x08043ea3
 802df04:	08043eb3 	.word	0x08043eb3
 802df08:	08043ec1 	.word	0x08043ec1
 802df0c:	08043ecd 	.word	0x08043ecd
 802df10:	08043ed9 	.word	0x08043ed9
 802df14:	08043eeb 	.word	0x08043eeb
 802df18:	08043ef9 	.word	0x08043ef9
 802df1c:	08043f09 	.word	0x08043f09
 802df20:	08043d11 	.word	0x08043d11
 802df24:	08043d2b 	.word	0x08043d2b

0802df28 <HTTP_GetHistoryPage>:

void HTTP_GetHistoryPage(char* buf, uint32_t pageNumber)
{
 802df28:	b530      	push	{r4, r5, lr}
 802df2a:	4605      	mov	r5, r0
 802df2c:	b087      	sub	sp, #28
 802df2e:	460c      	mov	r4, r1
  char str[16];
  uint16_t len;

  strcpy(buf, "HTTP/1.1 200 OK\r\nContent-Type:text/html\r\n\r\n");
 802df30:	4927      	ldr	r1, [pc, #156]	; (802dfd0 <HTTP_GetHistoryPage+0xa8>)
 802df32:	f7f4 f8af 	bl	8022094 <strcpy>

  strcat(buf, "{\"page\": [");
 802df36:	4628      	mov	r0, r5
 802df38:	4926      	ldr	r1, [pc, #152]	; (802dfd4 <HTTP_GetHistoryPage+0xac>)
 802df3a:	f7f3 ff97 	bl	8021e6c <strcat>
  History_GetPage(buf, pageNumber);
 802df3e:	4621      	mov	r1, r4
 802df40:	4628      	mov	r0, r5
 802df42:	f7fc f8d7 	bl	802a0f4 <History_GetPage>
  len = strlen(buf);
 802df46:	4628      	mov	r0, r5
 802df48:	f7f4 f902 	bl	8022150 <strlen>
 802df4c:	f8ad 0006 	strh.w	r0, [sp, #6]
  buf +=len-1;
 802df50:	b280      	uxth	r0, r0
 802df52:	1e43      	subs	r3, r0, #1
 802df54:	18ec      	adds	r4, r5, r3
  *buf = 0;
 802df56:	2100      	movs	r1, #0
  buf -=len-1;
 802df58:	f1c0 0001 	rsb	r0, r0, #1

  strcat(buf, "{\"page\": [");
  History_GetPage(buf, pageNumber);
  len = strlen(buf);
  buf +=len-1;
  *buf = 0;
 802df5c:	54e9      	strb	r1, [r5, r3]
  buf -=len-1;
 802df5e:	1824      	adds	r4, r4, r0

  /* Количе�тво �траниц */
  memset(str, 0, 16);
 802df60:	2210      	movs	r2, #16
 802df62:	a802      	add	r0, sp, #8
 802df64:	f7f3 ff1c 	bl	8021da0 <memset>
  sprintf(str, "%i", History_GetPageCount());
 802df68:	f7fc f8b2 	bl	802a0d0 <History_GetPageCount>
 802df6c:	491a      	ldr	r1, [pc, #104]	; (802dfd8 <HTTP_GetHistoryPage+0xb0>)
 802df6e:	4602      	mov	r2, r0
 802df70:	a802      	add	r0, sp, #8
 802df72:	f7f9 fdd5 	bl	8027b20 <tfp_sprintf>
  strcat(buf, "],\"pages\":\"");
 802df76:	4620      	mov	r0, r4
 802df78:	4918      	ldr	r1, [pc, #96]	; (802dfdc <HTTP_GetHistoryPage+0xb4>)
 802df7a:	f7f3 ff77 	bl	8021e6c <strcat>
  strcat(buf, str);
 802df7e:	a902      	add	r1, sp, #8
 802df80:	4620      	mov	r0, r4
 802df82:	f7f3 ff73 	bl	8021e6c <strcat>

  /* Ча�овой по�� */
  GetSntpTimeZoneStr(str, (uint8_t*)&len);
 802df86:	a802      	add	r0, sp, #8
 802df88:	f10d 0106 	add.w	r1, sp, #6
 802df8c:	f7f9 ff2a 	bl	8027de4 <GetSntpTimeZoneStr>
  strcat(buf, "\",\"utc\":\"");
 802df90:	4620      	mov	r0, r4
 802df92:	4913      	ldr	r1, [pc, #76]	; (802dfe0 <HTTP_GetHistoryPage+0xb8>)
 802df94:	f7f3 ff6a 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802df98:	f8bd 2006 	ldrh.w	r2, [sp, #6]
 802df9c:	a902      	add	r1, sp, #8
 802df9e:	4620      	mov	r0, r4
 802dfa0:	f7f4 f906 	bl	80221b0 <strncat>

  GetUnixTimeStr(str, (uint8_t*)&len);
 802dfa4:	a802      	add	r0, sp, #8
 802dfa6:	f10d 0106 	add.w	r1, sp, #6
 802dfaa:	f7f9 fedb 	bl	8027d64 <GetUnixTimeStr>
  strcat(buf, "\",\"utm\":\"");
 802dfae:	4620      	mov	r0, r4
 802dfb0:	490c      	ldr	r1, [pc, #48]	; (802dfe4 <HTTP_GetHistoryPage+0xbc>)
 802dfb2:	f7f3 ff5b 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802dfb6:	a902      	add	r1, sp, #8
 802dfb8:	4620      	mov	r0, r4
 802dfba:	f8bd 2006 	ldrh.w	r2, [sp, #6]
 802dfbe:	f7f4 f8f7 	bl	80221b0 <strncat>

  strcat(buf, "\"}");
 802dfc2:	4620      	mov	r0, r4
 802dfc4:	4908      	ldr	r1, [pc, #32]	; (802dfe8 <HTTP_GetHistoryPage+0xc0>)
 802dfc6:	f7f3 ff51 	bl	8021e6c <strcat>

  //printf(buf);
}
 802dfca:	b007      	add	sp, #28
 802dfcc:	bd30      	pop	{r4, r5, pc}
 802dfce:	bf00      	nop
 802dfd0:	08043f1d 	.word	0x08043f1d
 802dfd4:	08043f49 	.word	0x08043f49
 802dfd8:	08043f54 	.word	0x08043f54
 802dfdc:	08043f57 	.word	0x08043f57
 802dfe0:	08043e56 	.word	0x08043e56
 802dfe4:	08043e60 	.word	0x08043e60
 802dfe8:	08043d2b 	.word	0x08043d2b

0802dfec <HTTP_GetUpsHistoryPage>:

void HTTP_GetUpsHistoryPage(char* buf, uint32_t pageNumber)
{
 802dfec:	b530      	push	{r4, r5, lr}
 802dfee:	4605      	mov	r5, r0
 802dff0:	b087      	sub	sp, #28
 802dff2:	460c      	mov	r4, r1
  char str[16];
  uint16_t len;

  strcpy(buf, "HTTP/1.1 200 OK\r\nContent-Type:text/html\r\n\r\n");
 802dff4:	4927      	ldr	r1, [pc, #156]	; (802e094 <HTTP_GetUpsHistoryPage+0xa8>)
 802dff6:	f7f4 f84d 	bl	8022094 <strcpy>

  strcat(buf, "{\"page\": [");
 802dffa:	4628      	mov	r0, r5
 802dffc:	4926      	ldr	r1, [pc, #152]	; (802e098 <HTTP_GetUpsHistoryPage+0xac>)
 802dffe:	f7f3 ff35 	bl	8021e6c <strcat>
  LOG_GetPage(buf, pageNumber);
 802e002:	4621      	mov	r1, r4
 802e004:	4628      	mov	r0, r5
 802e006:	f7fb ff89 	bl	8029f1c <LOG_GetPage>
  len = strlen(buf);
 802e00a:	4628      	mov	r0, r5
 802e00c:	f7f4 f8a0 	bl	8022150 <strlen>
 802e010:	f8ad 0006 	strh.w	r0, [sp, #6]
  buf +=len-1;
 802e014:	b280      	uxth	r0, r0
 802e016:	1e43      	subs	r3, r0, #1
 802e018:	18ec      	adds	r4, r5, r3
  *buf = 0;
 802e01a:	2100      	movs	r1, #0
  buf -=len-1;
 802e01c:	f1c0 0001 	rsb	r0, r0, #1

  strcat(buf, "{\"page\": [");
  LOG_GetPage(buf, pageNumber);
  len = strlen(buf);
  buf +=len-1;
  *buf = 0;
 802e020:	54e9      	strb	r1, [r5, r3]
  buf -=len-1;
 802e022:	1824      	adds	r4, r4, r0

  /* Количе�тво �траниц */
  memset(str, 0, 16);
 802e024:	2210      	movs	r2, #16
 802e026:	a802      	add	r0, sp, #8
 802e028:	f7f3 feba 	bl	8021da0 <memset>
  sprintf(str, "%i", LOG_GetPageCount());
 802e02c:	f7fb ff64 	bl	8029ef8 <LOG_GetPageCount>
 802e030:	491a      	ldr	r1, [pc, #104]	; (802e09c <HTTP_GetUpsHistoryPage+0xb0>)
 802e032:	4602      	mov	r2, r0
 802e034:	a802      	add	r0, sp, #8
 802e036:	f7f9 fd73 	bl	8027b20 <tfp_sprintf>
  strcat(buf, "],\"pages\":\"");
 802e03a:	4620      	mov	r0, r4
 802e03c:	4918      	ldr	r1, [pc, #96]	; (802e0a0 <HTTP_GetUpsHistoryPage+0xb4>)
 802e03e:	f7f3 ff15 	bl	8021e6c <strcat>
  strcat(buf, str);
 802e042:	a902      	add	r1, sp, #8
 802e044:	4620      	mov	r0, r4
 802e046:	f7f3 ff11 	bl	8021e6c <strcat>

  /* Ча�овой по�� */
  GetSntpTimeZoneStr(str, (uint8_t*)&len);
 802e04a:	a802      	add	r0, sp, #8
 802e04c:	f10d 0106 	add.w	r1, sp, #6
 802e050:	f7f9 fec8 	bl	8027de4 <GetSntpTimeZoneStr>
  strcat(buf, "\",\"utc\":\"");
 802e054:	4620      	mov	r0, r4
 802e056:	4913      	ldr	r1, [pc, #76]	; (802e0a4 <HTTP_GetUpsHistoryPage+0xb8>)
 802e058:	f7f3 ff08 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802e05c:	f8bd 2006 	ldrh.w	r2, [sp, #6]
 802e060:	a902      	add	r1, sp, #8
 802e062:	4620      	mov	r0, r4
 802e064:	f7f4 f8a4 	bl	80221b0 <strncat>

  GetUnixTimeStr(str, (uint8_t*)&len);
 802e068:	a802      	add	r0, sp, #8
 802e06a:	f10d 0106 	add.w	r1, sp, #6
 802e06e:	f7f9 fe79 	bl	8027d64 <GetUnixTimeStr>
  strcat(buf, "\",\"utm\":\"");
 802e072:	4620      	mov	r0, r4
 802e074:	490c      	ldr	r1, [pc, #48]	; (802e0a8 <HTTP_GetUpsHistoryPage+0xbc>)
 802e076:	f7f3 fef9 	bl	8021e6c <strcat>
  strncat(buf, str, len);
 802e07a:	a902      	add	r1, sp, #8
 802e07c:	4620      	mov	r0, r4
 802e07e:	f8bd 2006 	ldrh.w	r2, [sp, #6]
 802e082:	f7f4 f895 	bl	80221b0 <strncat>

  strcat(buf, "\"}");
 802e086:	4620      	mov	r0, r4
 802e088:	4908      	ldr	r1, [pc, #32]	; (802e0ac <HTTP_GetUpsHistoryPage+0xc0>)
 802e08a:	f7f3 feef 	bl	8021e6c <strcat>

  //printf(buf);
}
 802e08e:	b007      	add	sp, #28
 802e090:	bd30      	pop	{r4, r5, pc}
 802e092:	bf00      	nop
 802e094:	08043f1d 	.word	0x08043f1d
 802e098:	08043f49 	.word	0x08043f49
 802e09c:	08043f54 	.word	0x08043f54
 802e0a0:	08043f57 	.word	0x08043f57
 802e0a4:	08043e56 	.word	0x08043e56
 802e0a8:	08043e60 	.word	0x08043e60
 802e0ac:	08043d2b 	.word	0x08043d2b

0802e0b0 <HTTP_ResetSettings>:

/**
  * @brief  Сбро� на�троек (в�ё кроме �етевых параметров)
  */
void HTTP_ResetSettings(void)
{
 802e0b0:	b508      	push	{r3, lr}
  //taskENTER_CRITICAL();

  SNMP_SendUserTrap(DEVICE_RESTORED);
 802e0b2:	2003      	movs	r0, #3
 802e0b4:	f009 fa4c 	bl	8037550 <SNMP_SendUserTrap>
  log_event_data(LOG_SYSTEM_DEFCONFIG, "�дмини�тратор");
 802e0b8:	4906      	ldr	r1, [pc, #24]	; (802e0d4 <HTTP_ResetSettings+0x24>)
 802e0ba:	2001      	movs	r0, #1
 802e0bc:	f7fb fedc 	bl	8029e78 <log_event_data>
  vTaskDelay(500);
 802e0c0:	f44f 70fa 	mov.w	r0, #500	; 0x1f4
 802e0c4:	f7fd f94e 	bl	802b364 <vTaskDelay>
  SETTINGS_SetPartDefault();
 802e0c8:	f7fa fd94 	bl	8028bf4 <SETTINGS_SetPartDefault>
  SETTINGS_Save();
	  
  //taskEXIT_CRITICAL();
}
 802e0cc:	e8bd 4008 	ldmia.w	sp!, {r3, lr}

  SNMP_SendUserTrap(DEVICE_RESTORED);
  log_event_data(LOG_SYSTEM_DEFCONFIG, "�дмини�тратор");
  vTaskDelay(500);
  SETTINGS_SetPartDefault();
  SETTINGS_Save();
 802e0d0:	f7fa bd24 	b.w	8028b1c <SETTINGS_Save>
 802e0d4:	08038a86 	.word	0x08038a86

0802e0d8 <HTTP_SaveSettings>:

/**
  * @brief  Сохранение на�троек
  */
void HTTP_SaveSettings(void)
{
 802e0d8:	b508      	push	{r3, lr}
//  taskENTER_CRITICAL();
  
  SETTINGS_Save();
 802e0da:	f7fa fd1f 	bl	8028b1c <SETTINGS_Save>
  
  log_event_data(LOG_SETTING_SAVE, "�дмини�тратор");
 802e0de:	4903      	ldr	r1, [pc, #12]	; (802e0ec <HTTP_SaveSettings+0x14>)
 802e0e0:	2004      	movs	r0, #4

//  taskEXIT_CRITICAL();

}
 802e0e2:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
{
//  taskENTER_CRITICAL();
  
  SETTINGS_Save();
  
  log_event_data(LOG_SETTING_SAVE, "�дмини�тратор");
 802e0e6:	f7fb bec7 	b.w	8029e78 <log_event_data>
 802e0ea:	bf00      	nop
 802e0ec:	08038a86 	.word	0x08038a86

0802e0f0 <vTaskReboot>:

/**
  * @brief  
  */
void vTaskReboot(void * pvParameters)
{
 802e0f0:	b510      	push	{r4, lr}
 802e0f2:	4604      	mov	r4, r0
  
  for (;;)
  {
	mode = *(bool*)pvParameters;
	
	if (mode)
 802e0f4:	7823      	ldrb	r3, [r4, #0]
 802e0f6:	b16b      	cbz	r3, 802e114 <vTaskReboot+0x24>
	{
	  SNMP_SendUserTrap(FW_VERSION_UPDATE);
 802e0f8:	2001      	movs	r0, #1
 802e0fa:	f009 fa29 	bl	8037550 <SNMP_SendUserTrap>
	  log_event_data(LOG_UPDATE_SOFT, "�дмини�тратор");
 802e0fe:	2002      	movs	r0, #2
 802e100:	490a      	ldr	r1, [pc, #40]	; (802e12c <vTaskReboot+0x3c>)
 802e102:	f7fb feb9 	bl	8029e78 <log_event_data>
	  SetLoadMode();
 802e106:	f7fa f96b 	bl	80283e0 <SetLoadMode>
	  HTTP_SaveSettings();
 802e10a:	f7ff ffe5 	bl	802e0d8 <HTTP_SaveSettings>
      vTaskDelay(2000);
 802e10e:	f44f 60fa 	mov.w	r0, #2000	; 0x7d0
 802e112:	e001      	b.n	802e118 <vTaskReboot+0x28>
      vTaskDelay(1010);
      Reboot();
	}  
	else
	{
	  vTaskDelay(1000);
 802e114:	f44f 707a 	mov.w	r0, #1000	; 0x3e8
 802e118:	f7fd f924 	bl	802b364 <vTaskDelay>
      /* Блокируем управление ключем на тау �екунд*/
      //IO_KeyBlockOn();
      vTaskDelay(1010);
 802e11c:	f240 30f2 	movw	r0, #1010	; 0x3f2
 802e120:	f7fd f920 	bl	802b364 <vTaskDelay>
      Reboot();
 802e124:	f7fb f9b8 	bl	8029498 <Reboot>
 802e128:	e7e4      	b.n	802e0f4 <vTaskReboot+0x4>
 802e12a:	bf00      	nop
 802e12c:	08038a86 	.word	0x08038a86

0802e130 <HTTP_Reboot>:

/**
  * @brief  Перезагрузка контроллера
  */
void HTTP_Reboot(void)
{
 802e130:	b508      	push	{r3, lr}
  vTaskDelay(1010);
 802e132:	f240 30f2 	movw	r0, #1010	; 0x3f2
 802e136:	f7fd f915 	bl	802b364 <vTaskDelay>
  Reboot();
}
 802e13a:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  * @brief  Перезагрузка контроллера
  */
void HTTP_Reboot(void)
{
  vTaskDelay(1010);
  Reboot();
 802e13e:	f7fb b9ab 	b.w	8029498 <Reboot>
 802e142:	0000      	movs	r0, r0

0802e144 <HTTP_StartResetTask>:
  *        bootloader и перезапи�аны на�тройки
  *
  *        false - обычна� перезагрузка 
  */
void HTTP_StartResetTask(bool fBootMode)
{
 802e144:	b51f      	push	{r0, r1, r2, r3, r4, lr}
  static bool temp;
 
  temp = fBootMode;
 802e146:	4b07      	ldr	r3, [pc, #28]	; (802e164 <HTTP_StartResetTask+0x20>)
  xTaskCreate(vTaskReboot, "RebootTask", configMINIMAL_STACK_SIZE, 
 802e148:	4907      	ldr	r1, [pc, #28]	; (802e168 <HTTP_StartResetTask+0x24>)
  */
void HTTP_StartResetTask(bool fBootMode)
{
  static bool temp;
 
  temp = fBootMode;
 802e14a:	7018      	strb	r0, [r3, #0]
  xTaskCreate(vTaskReboot, "RebootTask", configMINIMAL_STACK_SIZE, 
 802e14c:	2200      	movs	r2, #0
 802e14e:	9200      	str	r2, [sp, #0]
 802e150:	9201      	str	r2, [sp, #4]
 802e152:	9202      	str	r2, [sp, #8]
 802e154:	9203      	str	r2, [sp, #12]
 802e156:	4805      	ldr	r0, [pc, #20]	; (802e16c <HTTP_StartResetTask+0x28>)
 802e158:	2280      	movs	r2, #128	; 0x80
 802e15a:	f7fc fe69 	bl	802ae30 <xTaskGenericCreate>
			  (void*)&temp, tskIDLE_PRIORITY, NULL);
}
 802e15e:	b005      	add	sp, #20
 802e160:	bd00      	pop	{pc}
 802e162:	bf00      	nop
 802e164:	20000d3a 	.word	0x20000d3a
 802e168:	08043f63 	.word	0x08043f63
 802e16c:	0802e0f1 	.word	0x0802e0f1

0802e170 <tcpip_thread>:
tcpip_thread(void *arg)
{
  struct tcpip_msg *msg;
  LWIP_UNUSED_ARG(arg);

  if (tcpip_init_done != NULL) {
 802e170:	4b1e      	ldr	r3, [pc, #120]	; (802e1ec <tcpip_thread+0x7c>)
 802e172:	681b      	ldr	r3, [r3, #0]
 *
 * @param arg unused argument
 */
static void
tcpip_thread(void *arg)
{
 802e174:	b507      	push	{r0, r1, r2, lr}
  struct tcpip_msg *msg;
  LWIP_UNUSED_ARG(arg);

  if (tcpip_init_done != NULL) {
 802e176:	b113      	cbz	r3, 802e17e <tcpip_thread+0xe>
    tcpip_init_done(tcpip_init_done_arg);
 802e178:	4a1d      	ldr	r2, [pc, #116]	; (802e1f0 <tcpip_thread+0x80>)
 802e17a:	6810      	ldr	r0, [r2, #0]
 802e17c:	4798      	blx	r3
  LOCK_TCPIP_CORE();
  while (1) {                          /* MAIN Loop */
    UNLOCK_TCPIP_CORE();
    LWIP_TCPIP_THREAD_ALIVE();
    /* wait for a message, timeouts are processed while waiting */
    sys_timeouts_mbox_fetch(&mbox, (void **)&msg);
 802e17e:	481d      	ldr	r0, [pc, #116]	; (802e1f4 <tcpip_thread+0x84>)
 802e180:	a901      	add	r1, sp, #4
 802e182:	f003 fd0d 	bl	8031ba0 <sys_timeouts_mbox_fetch>
    LOCK_TCPIP_CORE();
    switch (msg->type) {
 802e186:	9b01      	ldr	r3, [sp, #4]
 802e188:	781a      	ldrb	r2, [r3, #0]
 802e18a:	2a05      	cmp	r2, #5
 802e18c:	d8f7      	bhi.n	802e17e <tcpip_thread+0xe>
 802e18e:	e8df f002 	tbb	[pc, r2]
 802e192:	0703      	.short	0x0703
 802e194:	28201b15 	.word	0x28201b15
#if LWIP_NETCONN
    case TCPIP_MSG_API:
      LWIP_DEBUGF(TCPIP_DEBUG, ("tcpip_thread: API message %p\n", (void *)msg));
      msg->msg.apimsg->function(&(msg->msg.apimsg->msg));
 802e198:	6898      	ldr	r0, [r3, #8]
 802e19a:	6803      	ldr	r3, [r0, #0]
 802e19c:	3004      	adds	r0, #4
 802e19e:	e7ed      	b.n	802e17c <tcpip_thread+0xc>

#if !LWIP_TCPIP_CORE_LOCKING_INPUT
    case TCPIP_MSG_INPKT:
      LWIP_DEBUGF(TCPIP_DEBUG, ("tcpip_thread: PACKET %p\n", (void *)msg));
#if LWIP_ETHERNET
      if (msg->msg.inp.netif->flags & (NETIF_FLAG_ETHARP | NETIF_FLAG_ETHERNET)) {
 802e1a0:	68d9      	ldr	r1, [r3, #12]
        ethernet_input(msg->msg.inp.p, msg->msg.inp.netif);
 802e1a2:	6898      	ldr	r0, [r3, #8]

#if !LWIP_TCPIP_CORE_LOCKING_INPUT
    case TCPIP_MSG_INPKT:
      LWIP_DEBUGF(TCPIP_DEBUG, ("tcpip_thread: PACKET %p\n", (void *)msg));
#if LWIP_ETHERNET
      if (msg->msg.inp.netif->flags & (NETIF_FLAG_ETHARP | NETIF_FLAG_ETHERNET)) {
 802e1a4:	f891 202d 	ldrb.w	r2, [r1, #45]	; 0x2d
 802e1a8:	f012 0f60 	tst.w	r2, #96	; 0x60
 802e1ac:	d002      	beq.n	802e1b4 <tcpip_thread+0x44>
        ethernet_input(msg->msg.inp.p, msg->msg.inp.netif);
 802e1ae:	f008 fb71 	bl	8036894 <ethernet_input>
 802e1b2:	e001      	b.n	802e1b8 <tcpip_thread+0x48>
      } else
#endif /* LWIP_ETHERNET */
      {
        ip_input(msg->msg.inp.p, msg->msg.inp.netif);
 802e1b4:	f004 f94e 	bl	8032454 <ip_input>
      }
      memp_free(MEMP_TCPIP_MSG_INPKT, msg);
 802e1b8:	2008      	movs	r0, #8
 802e1ba:	e00e      	b.n	802e1da <tcpip_thread+0x6a>
#endif /* LWIP_NETIF_API */

#if LWIP_TCPIP_TIMEOUT
    case TCPIP_MSG_TIMEOUT:
      LWIP_DEBUGF(TCPIP_DEBUG, ("tcpip_thread: TIMEOUT %p\n", (void *)msg));
      sys_timeout(msg->msg.tmo.msecs, msg->msg.tmo.h, msg->msg.tmo.arg);
 802e1bc:	f103 0008 	add.w	r0, r3, #8
 802e1c0:	c807      	ldmia	r0, {r0, r1, r2}
 802e1c2:	f003 fc1f 	bl	8031a04 <sys_timeout>
 802e1c6:	e007      	b.n	802e1d8 <tcpip_thread+0x68>
      memp_free(MEMP_TCPIP_MSG_API, msg);
      break;
    case TCPIP_MSG_UNTIMEOUT:
      LWIP_DEBUGF(TCPIP_DEBUG, ("tcpip_thread: UNTIMEOUT %p\n", (void *)msg));
      sys_untimeout(msg->msg.tmo.h, msg->msg.tmo.arg);
 802e1c8:	68d8      	ldr	r0, [r3, #12]
 802e1ca:	6919      	ldr	r1, [r3, #16]
 802e1cc:	f003 fcc4 	bl	8031b58 <sys_untimeout>
 802e1d0:	e002      	b.n	802e1d8 <tcpip_thread+0x68>
      break;
#endif /* LWIP_TCPIP_TIMEOUT */

    case TCPIP_MSG_CALLBACK:
      LWIP_DEBUGF(TCPIP_DEBUG, ("tcpip_thread: CALLBACK %p\n", (void *)msg));
      msg->msg.cb.function(msg->msg.cb.ctx);
 802e1d2:	689a      	ldr	r2, [r3, #8]
 802e1d4:	68d8      	ldr	r0, [r3, #12]
 802e1d6:	4790      	blx	r2
      memp_free(MEMP_TCPIP_MSG_API, msg);
 802e1d8:	2007      	movs	r0, #7
 802e1da:	9901      	ldr	r1, [sp, #4]
 802e1dc:	f001 f882 	bl	802f2e4 <memp_free>
      break;
 802e1e0:	e7cd      	b.n	802e17e <tcpip_thread+0xe>

    case TCPIP_MSG_CALLBACK_STATIC:
      LWIP_DEBUGF(TCPIP_DEBUG, ("tcpip_thread: CALLBACK_STATIC %p\n", (void *)msg));
      msg->msg.cb.function(msg->msg.cb.ctx);
 802e1e2:	689a      	ldr	r2, [r3, #8]
 802e1e4:	68d8      	ldr	r0, [r3, #12]
 802e1e6:	4790      	blx	r2
      break;
 802e1e8:	e7c9      	b.n	802e17e <tcpip_thread+0xe>
 802e1ea:	bf00      	nop
 802e1ec:	20000d44 	.word	0x20000d44
 802e1f0:	20000d40 	.word	0x20000d40
 802e1f4:	20000d3c 	.word	0x20000d3c

0802e1f8 <tcpip_input>:
 *          NETIF_FLAG_ETHERNET flags)
 * @param inp the network interface on which the packet was received
 */
err_t
tcpip_input(struct pbuf *p, struct netif *inp)
{
 802e1f8:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  UNLOCK_TCPIP_CORE();
  return ret;
#else /* LWIP_TCPIP_CORE_LOCKING_INPUT */
  struct tcpip_msg *msg;

  if (!sys_mbox_valid(&mbox)) {
 802e1fa:	4d0e      	ldr	r5, [pc, #56]	; (802e234 <tcpip_input+0x3c>)
 802e1fc:	682b      	ldr	r3, [r5, #0]
 *          NETIF_FLAG_ETHERNET flags)
 * @param inp the network interface on which the packet was received
 */
err_t
tcpip_input(struct pbuf *p, struct netif *inp)
{
 802e1fe:	4606      	mov	r6, r0
 802e200:	460f      	mov	r7, r1
  UNLOCK_TCPIP_CORE();
  return ret;
#else /* LWIP_TCPIP_CORE_LOCKING_INPUT */
  struct tcpip_msg *msg;

  if (!sys_mbox_valid(&mbox)) {
 802e202:	b193      	cbz	r3, 802e22a <tcpip_input+0x32>
    return ERR_VAL;
  }
  msg = (struct tcpip_msg *)memp_malloc(MEMP_TCPIP_MSG_INPKT);
 802e204:	2008      	movs	r0, #8
 802e206:	f001 f857 	bl	802f2b8 <memp_malloc>
  if (msg == NULL) {
 802e20a:	4604      	mov	r4, r0
 802e20c:	b178      	cbz	r0, 802e22e <tcpip_input+0x36>
    return ERR_MEM;
  }

  msg->type = TCPIP_MSG_INPKT;
 802e20e:	2301      	movs	r3, #1
 802e210:	7003      	strb	r3, [r0, #0]
  msg->msg.inp.p = p;
 802e212:	6086      	str	r6, [r0, #8]
  msg->msg.inp.netif = inp;
 802e214:	60c7      	str	r7, [r0, #12]
  if (sys_mbox_trypost(&mbox, msg) != ERR_OK) {
 802e216:	4621      	mov	r1, r4
 802e218:	4628      	mov	r0, r5
 802e21a:	f008 fd89 	bl	8036d30 <sys_mbox_trypost>
 802e21e:	b138      	cbz	r0, 802e230 <tcpip_input+0x38>
    memp_free(MEMP_TCPIP_MSG_INPKT, msg);
 802e220:	2008      	movs	r0, #8
 802e222:	4621      	mov	r1, r4
 802e224:	f001 f85e 	bl	802f2e4 <memp_free>
 802e228:	e001      	b.n	802e22e <tcpip_input+0x36>
  return ret;
#else /* LWIP_TCPIP_CORE_LOCKING_INPUT */
  struct tcpip_msg *msg;

  if (!sys_mbox_valid(&mbox)) {
    return ERR_VAL;
 802e22a:	20fa      	movs	r0, #250	; 0xfa
 802e22c:	e000      	b.n	802e230 <tcpip_input+0x38>
  }
  msg = (struct tcpip_msg *)memp_malloc(MEMP_TCPIP_MSG_INPKT);
  if (msg == NULL) {
    return ERR_MEM;
 802e22e:	20ff      	movs	r0, #255	; 0xff
    memp_free(MEMP_TCPIP_MSG_INPKT, msg);
    return ERR_MEM;
  }
  return ERR_OK;
#endif /* LWIP_TCPIP_CORE_LOCKING_INPUT */
}
 802e230:	b240      	sxtb	r0, r0
 802e232:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 802e234:	20000d3c 	.word	0x20000d3c

0802e238 <tcpip_init>:
 * @param initfunc a function to call when tcpip_thread is running and finished initializing
 * @param arg argument to pass to initfunc
 */
void
tcpip_init(tcpip_init_done_fn initfunc, void *arg)
{
 802e238:	b537      	push	{r0, r1, r2, r4, r5, lr}
 802e23a:	4604      	mov	r4, r0
 802e23c:	460d      	mov	r5, r1
  lwip_init();
 802e23e:	f000 feb3 	bl	802efa8 <lwip_init>

  tcpip_init_done = initfunc;
 802e242:	4b09      	ldr	r3, [pc, #36]	; (802e268 <tcpip_init+0x30>)
  tcpip_init_done_arg = arg;
  if(sys_mbox_new(&mbox, TCPIP_MBOX_SIZE) != ERR_OK) {
 802e244:	4809      	ldr	r0, [pc, #36]	; (802e26c <tcpip_init+0x34>)
void
tcpip_init(tcpip_init_done_fn initfunc, void *arg)
{
  lwip_init();

  tcpip_init_done = initfunc;
 802e246:	601c      	str	r4, [r3, #0]
  tcpip_init_done_arg = arg;
 802e248:	4b09      	ldr	r3, [pc, #36]	; (802e270 <tcpip_init+0x38>)
  if(sys_mbox_new(&mbox, TCPIP_MBOX_SIZE) != ERR_OK) {
 802e24a:	2132      	movs	r1, #50	; 0x32
tcpip_init(tcpip_init_done_fn initfunc, void *arg)
{
  lwip_init();

  tcpip_init_done = initfunc;
  tcpip_init_done_arg = arg;
 802e24c:	601d      	str	r5, [r3, #0]
  if(sys_mbox_new(&mbox, TCPIP_MBOX_SIZE) != ERR_OK) {
 802e24e:	f008 fd61 	bl	8036d14 <sys_mbox_new>
  if(sys_mutex_new(&lock_tcpip_core) != ERR_OK) {
    LWIP_ASSERT("failed to create lock_tcpip_core", 0);
  }
#endif /* LWIP_TCPIP_CORE_LOCKING */

  sys_thread_new(TCPIP_THREAD_NAME, tcpip_thread, NULL, TCPIP_THREAD_STACKSIZE, TCPIP_THREAD_PRIO);
 802e252:	2303      	movs	r3, #3
 802e254:	9300      	str	r3, [sp, #0]
 802e256:	4907      	ldr	r1, [pc, #28]	; (802e274 <tcpip_init+0x3c>)
 802e258:	4807      	ldr	r0, [pc, #28]	; (802e278 <tcpip_init+0x40>)
 802e25a:	2200      	movs	r2, #0
 802e25c:	f44f 73c8 	mov.w	r3, #400	; 0x190
 802e260:	f008 fdd7 	bl	8036e12 <sys_thread_new>
}
 802e264:	bd3e      	pop	{r1, r2, r3, r4, r5, pc}
 802e266:	bf00      	nop
 802e268:	20000d44 	.word	0x20000d44
 802e26c:	20000d3c 	.word	0x20000d3c
 802e270:	20000d40 	.word	0x20000d40
 802e274:	0802e171 	.word	0x0802e171
 802e278:	08043f6e 	.word	0x08043f6e

0802e27c <lwip_htons>:
 * @return n in network byte order
 */
u16_t
lwip_htons(u16_t n)
{
  return ((n & 0xff) << 8) | ((n & 0xff00) >> 8);
 802e27c:	0a03      	lsrs	r3, r0, #8
 802e27e:	ea43 2000 	orr.w	r0, r3, r0, lsl #8
}
 802e282:	b280      	uxth	r0, r0
 802e284:	4770      	bx	lr

0802e286 <lwip_ntohs>:
 * @return n in network byte order
 */
u16_t
lwip_htons(u16_t n)
{
  return ((n & 0xff) << 8) | ((n & 0xff00) >> 8);
 802e286:	0a03      	lsrs	r3, r0, #8
 802e288:	ea43 2000 	orr.w	r0, r3, r0, lsl #8
 */
u16_t
lwip_ntohs(u16_t n)
{
  return lwip_htons(n);
}
 802e28c:	b280      	uxth	r0, r0
 802e28e:	4770      	bx	lr

0802e290 <lwip_htonl>:
{
  return ((n & 0xff) << 24) |
    ((n & 0xff00) << 8) |
    ((n & 0xff0000UL) >> 8) |
    ((n & 0xff000000UL) >> 24);
}
 802e290:	ba00      	rev	r0, r0
 802e292:	4770      	bx	lr

0802e294 <lwip_ntohl>:
 * @return n in host byte order
 */
u32_t
lwip_ntohl(u32_t n)
{
  return lwip_htonl(n);
 802e294:	f7ff bffc 	b.w	802e290 <lwip_htonl>

0802e298 <dhcp_set_state>:
 * If the state changed, reset the number of tries.
 */
static void
dhcp_set_state(struct dhcp *dhcp, u8_t new_state)
{
  if (new_state != dhcp->state) {
 802e298:	7b03      	ldrb	r3, [r0, #12]
 802e29a:	428b      	cmp	r3, r1
 802e29c:	d003      	beq.n	802e2a6 <dhcp_set_state+0xe>
    dhcp->state = new_state;
    dhcp->tries = 0;
 802e29e:	2300      	movs	r3, #0
 */
static void
dhcp_set_state(struct dhcp *dhcp, u8_t new_state)
{
  if (new_state != dhcp->state) {
    dhcp->state = new_state;
 802e2a0:	7301      	strb	r1, [r0, #12]
    dhcp->tries = 0;
 802e2a2:	7343      	strb	r3, [r0, #13]
    dhcp->request_timeout = 0;
 802e2a4:	8343      	strh	r3, [r0, #26]
 802e2a6:	4770      	bx	lr

0802e2a8 <dhcp_option>:
 */
static void
dhcp_option(struct dhcp *dhcp, u8_t option_type, u8_t option_len)
{
  LWIP_ASSERT("dhcp_option: dhcp->options_out_len + 2 + option_len <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 2U + option_len <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = option_type;
 802e2a8:	8b03      	ldrh	r3, [r0, #24]
 * DHCP message.
 *
 */
static void
dhcp_option(struct dhcp *dhcp, u8_t option_type, u8_t option_len)
{
 802e2aa:	b510      	push	{r4, lr}
  LWIP_ASSERT("dhcp_option: dhcp->options_out_len + 2 + option_len <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 2U + option_len <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = option_type;
 802e2ac:	6944      	ldr	r4, [r0, #20]
 802e2ae:	18e4      	adds	r4, r4, r3
 802e2b0:	f884 10f0 	strb.w	r1, [r4, #240]	; 0xf0
  dhcp->msg_out->options[dhcp->options_out_len++] = option_len;
 802e2b4:	6941      	ldr	r1, [r0, #20]
 */
static void
dhcp_option(struct dhcp *dhcp, u8_t option_type, u8_t option_len)
{
  LWIP_ASSERT("dhcp_option: dhcp->options_out_len + 2 + option_len <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 2U + option_len <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = option_type;
 802e2b6:	1c5c      	adds	r4, r3, #1
  dhcp->msg_out->options[dhcp->options_out_len++] = option_len;
 802e2b8:	fa11 f184 	uxtah	r1, r1, r4
 802e2bc:	3302      	adds	r3, #2
 802e2be:	f881 20f0 	strb.w	r2, [r1, #240]	; 0xf0
 802e2c2:	8303      	strh	r3, [r0, #24]
 802e2c4:	bd10      	pop	{r4, pc}

0802e2c6 <dhcp_option_byte>:
 */
static void
dhcp_option_byte(struct dhcp *dhcp, u8_t value)
{
  LWIP_ASSERT("dhcp_option_byte: dhcp->options_out_len < DHCP_OPTIONS_LEN", dhcp->options_out_len < DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = value;
 802e2c6:	8b03      	ldrh	r3, [r0, #24]
 802e2c8:	6942      	ldr	r2, [r0, #20]
 802e2ca:	18d2      	adds	r2, r2, r3
 802e2cc:	3301      	adds	r3, #1
 802e2ce:	f882 10f0 	strb.w	r1, [r2, #240]	; 0xf0
 802e2d2:	8303      	strh	r3, [r0, #24]
 802e2d4:	4770      	bx	lr

0802e2d6 <dhcp_option_short>:

static void
dhcp_option_short(struct dhcp *dhcp, u16_t value)
{
  LWIP_ASSERT("dhcp_option_short: dhcp->options_out_len + 2 <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 2U <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0xff00U) >> 8);
 802e2d6:	8b03      	ldrh	r3, [r0, #24]
 802e2d8:	6942      	ldr	r2, [r0, #20]
 802e2da:	18d2      	adds	r2, r2, r3
  dhcp->msg_out->options[dhcp->options_out_len++] = value;
}

static void
dhcp_option_short(struct dhcp *dhcp, u16_t value)
{
 802e2dc:	b510      	push	{r4, lr}
  LWIP_ASSERT("dhcp_option_short: dhcp->options_out_len + 2 <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 2U <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0xff00U) >> 8);
 802e2de:	0a0c      	lsrs	r4, r1, #8
 802e2e0:	f882 40f0 	strb.w	r4, [r2, #240]	; 0xf0
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t) (value & 0x00ffU);
 802e2e4:	6942      	ldr	r2, [r0, #20]

static void
dhcp_option_short(struct dhcp *dhcp, u16_t value)
{
  LWIP_ASSERT("dhcp_option_short: dhcp->options_out_len + 2 <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 2U <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0xff00U) >> 8);
 802e2e6:	1c5c      	adds	r4, r3, #1
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t) (value & 0x00ffU);
 802e2e8:	fa12 f284 	uxtah	r2, r2, r4
 802e2ec:	3302      	adds	r3, #2
 802e2ee:	f882 10f0 	strb.w	r1, [r2, #240]	; 0xf0
 802e2f2:	8303      	strh	r3, [r0, #24]
 802e2f4:	bd10      	pop	{r4, pc}

0802e2f6 <dhcp_option_long>:

static void
dhcp_option_long(struct dhcp *dhcp, u32_t value)
{
  LWIP_ASSERT("dhcp_option_long: dhcp->options_out_len + 4 <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 4U <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0xff000000UL) >> 24);
 802e2f6:	8b03      	ldrh	r3, [r0, #24]
 802e2f8:	6942      	ldr	r2, [r0, #20]
 802e2fa:	18d2      	adds	r2, r2, r3
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t) (value & 0x00ffU);
}

static void
dhcp_option_long(struct dhcp *dhcp, u32_t value)
{
 802e2fc:	b510      	push	{r4, lr}
  LWIP_ASSERT("dhcp_option_long: dhcp->options_out_len + 4 <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 4U <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0xff000000UL) >> 24);
 802e2fe:	0e0c      	lsrs	r4, r1, #24
 802e300:	f882 40f0 	strb.w	r4, [r2, #240]	; 0xf0
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x00ff0000UL) >> 16);
 802e304:	6942      	ldr	r2, [r0, #20]

static void
dhcp_option_long(struct dhcp *dhcp, u32_t value)
{
  LWIP_ASSERT("dhcp_option_long: dhcp->options_out_len + 4 <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 4U <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0xff000000UL) >> 24);
 802e306:	1c5c      	adds	r4, r3, #1
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x00ff0000UL) >> 16);
 802e308:	fa12 f284 	uxtah	r2, r2, r4
 802e30c:	f3c1 4407 	ubfx	r4, r1, #16, #8
 802e310:	f882 40f0 	strb.w	r4, [r2, #240]	; 0xf0
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x0000ff00UL) >> 8);
 802e314:	6942      	ldr	r2, [r0, #20]
static void
dhcp_option_long(struct dhcp *dhcp, u32_t value)
{
  LWIP_ASSERT("dhcp_option_long: dhcp->options_out_len + 4 <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 4U <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0xff000000UL) >> 24);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x00ff0000UL) >> 16);
 802e316:	1c9c      	adds	r4, r3, #2
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x0000ff00UL) >> 8);
 802e318:	fa12 f284 	uxtah	r2, r2, r4
 802e31c:	f3c1 2407 	ubfx	r4, r1, #8, #8
 802e320:	f882 40f0 	strb.w	r4, [r2, #240]	; 0xf0
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x000000ffUL));
 802e324:	6942      	ldr	r2, [r0, #20]
dhcp_option_long(struct dhcp *dhcp, u32_t value)
{
  LWIP_ASSERT("dhcp_option_long: dhcp->options_out_len + 4 <= DHCP_OPTIONS_LEN", dhcp->options_out_len + 4U <= DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0xff000000UL) >> 24);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x00ff0000UL) >> 16);
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x0000ff00UL) >> 8);
 802e326:	1cdc      	adds	r4, r3, #3
  dhcp->msg_out->options[dhcp->options_out_len++] = (u8_t)((value & 0x000000ffUL));
 802e328:	fa12 f284 	uxtah	r2, r2, r4
 802e32c:	3304      	adds	r3, #4
 802e32e:	f882 10f0 	strb.w	r1, [r2, #240]	; 0xf0
 802e332:	8303      	strh	r3, [r0, #24]
 802e334:	bd10      	pop	{r4, pc}

0802e336 <dhcp_option_trailer>:
 * @param dhcp DHCP state structure
 */
static void
dhcp_option_trailer(struct dhcp *dhcp)
{
  LWIP_ERROR("dhcp_option_trailer: dhcp != NULL", (dhcp != NULL), return;);
 802e336:	b190      	cbz	r0, 802e35e <dhcp_option_trailer+0x28>
  LWIP_ASSERT("dhcp_option_trailer: dhcp->msg_out != NULL\n", dhcp->msg_out != NULL);
  LWIP_ASSERT("dhcp_option_trailer: dhcp->options_out_len < DHCP_OPTIONS_LEN\n", dhcp->options_out_len < DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = DHCP_OPTION_END;
 802e338:	8b03      	ldrh	r3, [r0, #24]
 802e33a:	6942      	ldr	r2, [r0, #20]
 802e33c:	18d2      	adds	r2, r2, r3
 802e33e:	21ff      	movs	r1, #255	; 0xff
 802e340:	3301      	adds	r3, #1
 802e342:	f882 10f0 	strb.w	r1, [r2, #240]	; 0xf0
 802e346:	8303      	strh	r3, [r0, #24]
  /* packet is too small, or not 4 byte aligned? */
  while (((dhcp->options_out_len < DHCP_MIN_OPTIONS_LEN) || (dhcp->options_out_len & 3)) &&
         (dhcp->options_out_len < DHCP_OPTIONS_LEN)) {
    /* add a fill/padding byte */
    dhcp->msg_out->options[dhcp->options_out_len++] = 0;
 802e348:	2100      	movs	r1, #0
  LWIP_ERROR("dhcp_option_trailer: dhcp != NULL", (dhcp != NULL), return;);
  LWIP_ASSERT("dhcp_option_trailer: dhcp->msg_out != NULL\n", dhcp->msg_out != NULL);
  LWIP_ASSERT("dhcp_option_trailer: dhcp->options_out_len < DHCP_OPTIONS_LEN\n", dhcp->options_out_len < DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = DHCP_OPTION_END;
  /* packet is too small, or not 4 byte aligned? */
  while (((dhcp->options_out_len < DHCP_MIN_OPTIONS_LEN) || (dhcp->options_out_len & 3)) &&
 802e34a:	e005      	b.n	802e358 <dhcp_option_trailer+0x22>
         (dhcp->options_out_len < DHCP_OPTIONS_LEN)) {
    /* add a fill/padding byte */
    dhcp->msg_out->options[dhcp->options_out_len++] = 0;
 802e34c:	6942      	ldr	r2, [r0, #20]
 802e34e:	18d2      	adds	r2, r2, r3
 802e350:	3301      	adds	r3, #1
 802e352:	f882 10f0 	strb.w	r1, [r2, #240]	; 0xf0
 802e356:	8303      	strh	r3, [r0, #24]
  LWIP_ERROR("dhcp_option_trailer: dhcp != NULL", (dhcp != NULL), return;);
  LWIP_ASSERT("dhcp_option_trailer: dhcp->msg_out != NULL\n", dhcp->msg_out != NULL);
  LWIP_ASSERT("dhcp_option_trailer: dhcp->options_out_len < DHCP_OPTIONS_LEN\n", dhcp->options_out_len < DHCP_OPTIONS_LEN);
  dhcp->msg_out->options[dhcp->options_out_len++] = DHCP_OPTION_END;
  /* packet is too small, or not 4 byte aligned? */
  while (((dhcp->options_out_len < DHCP_MIN_OPTIONS_LEN) || (dhcp->options_out_len & 3)) &&
 802e358:	8b03      	ldrh	r3, [r0, #24]
 802e35a:	2b43      	cmp	r3, #67	; 0x43
 802e35c:	d9f6      	bls.n	802e34c <dhcp_option_trailer+0x16>
 802e35e:	4770      	bx	lr

0802e360 <dhcp_create_msg>:
 * @param dhcp dhcp control struct
 * @param message_type message type of the request
 */
static err_t
dhcp_create_msg(struct netif *netif, struct dhcp *dhcp, u8_t message_type)
{
 802e360:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 802e364:	460c      	mov	r4, r1
 802e366:	4617      	mov	r7, r2
  if (!xid_initialised) {
    xid = DHCP_GLOBAL_XID;
    xid_initialised = !xid_initialised;
  }
#endif
  LWIP_ERROR("dhcp_create_msg: netif != NULL", (netif != NULL), return ERR_ARG;);
 802e368:	4606      	mov	r6, r0
 802e36a:	2800      	cmp	r0, #0
 802e36c:	f000 808e 	beq.w	802e48c <dhcp_create_msg+0x12c>
  LWIP_ERROR("dhcp_create_msg: dhcp != NULL", (dhcp != NULL), return ERR_VAL;);
 802e370:	2900      	cmp	r1, #0
 802e372:	f000 808d 	beq.w	802e490 <dhcp_create_msg+0x130>
  LWIP_ASSERT("dhcp_create_msg: dhcp->p_out == NULL", dhcp->p_out == NULL);
  LWIP_ASSERT("dhcp_create_msg: dhcp->msg_out == NULL", dhcp->msg_out == NULL);
  dhcp->p_out = pbuf_alloc(PBUF_TRANSPORT, sizeof(struct dhcp_msg), PBUF_RAM);
 802e376:	2000      	movs	r0, #0
 802e378:	f44f 719a 	mov.w	r1, #308	; 0x134
 802e37c:	4602      	mov	r2, r0
 802e37e:	f001 f908 	bl	802f592 <pbuf_alloc>
 802e382:	6120      	str	r0, [r4, #16]
  if (dhcp->p_out == NULL) {
 802e384:	2800      	cmp	r0, #0
 802e386:	f000 8085 	beq.w	802e494 <dhcp_create_msg+0x134>
  }
  LWIP_ASSERT("dhcp_create_msg: check that first pbuf can hold struct dhcp_msg",
           (dhcp->p_out->len >= sizeof(struct dhcp_msg)));

  /* reuse transaction identifier in retransmissions */
  if (dhcp->tries == 0) {
 802e38a:	7b62      	ldrb	r2, [r4, #13]
 802e38c:	4b43      	ldr	r3, [pc, #268]	; (802e49c <dhcp_create_msg+0x13c>)
 802e38e:	b912      	cbnz	r2, 802e396 <dhcp_create_msg+0x36>
#if DHCP_CREATE_RAND_XID && defined(LWIP_RAND)
    xid = LWIP_RAND();
#else /* DHCP_CREATE_RAND_XID && defined(LWIP_RAND) */
    xid++;
 802e390:	681a      	ldr	r2, [r3, #0]
 802e392:	3201      	adds	r2, #1
 802e394:	601a      	str	r2, [r3, #0]
#endif /* DHCP_CREATE_RAND_XID && defined(LWIP_RAND) */
  }
  dhcp->xid = xid;
 802e396:	681b      	ldr	r3, [r3, #0]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE,
              ("transaction id xid(%"X32_F")\n", xid));

  dhcp->msg_out = (struct dhcp_msg *)dhcp->p_out->payload;
 802e398:	6842      	ldr	r2, [r0, #4]
    xid = LWIP_RAND();
#else /* DHCP_CREATE_RAND_XID && defined(LWIP_RAND) */
    xid++;
#endif /* DHCP_CREATE_RAND_XID && defined(LWIP_RAND) */
  }
  dhcp->xid = xid;
 802e39a:	6023      	str	r3, [r4, #0]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE,
              ("transaction id xid(%"X32_F")\n", xid));

  dhcp->msg_out = (struct dhcp_msg *)dhcp->p_out->payload;

  dhcp->msg_out->op = DHCP_BOOTREQUEST;
 802e39c:	2301      	movs	r3, #1
  }
  dhcp->xid = xid;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE,
              ("transaction id xid(%"X32_F")\n", xid));

  dhcp->msg_out = (struct dhcp_msg *)dhcp->p_out->payload;
 802e39e:	6162      	str	r2, [r4, #20]

  dhcp->msg_out->op = DHCP_BOOTREQUEST;
 802e3a0:	7013      	strb	r3, [r2, #0]
  /* TODO: make link layer independent */
  dhcp->msg_out->htype = DHCP_HTYPE_ETH;
 802e3a2:	6962      	ldr	r2, [r4, #20]
 802e3a4:	7053      	strb	r3, [r2, #1]
  dhcp->msg_out->hlen = netif->hwaddr_len;
 802e3a6:	6963      	ldr	r3, [r4, #20]
 802e3a8:	f896 2026 	ldrb.w	r2, [r6, #38]	; 0x26
 802e3ac:	709a      	strb	r2, [r3, #2]
  dhcp->msg_out->hops = 0;
 802e3ae:	6963      	ldr	r3, [r4, #20]
 802e3b0:	2500      	movs	r5, #0
 802e3b2:	70dd      	strb	r5, [r3, #3]
  dhcp->msg_out->xid = htonl(dhcp->xid);
 802e3b4:	6820      	ldr	r0, [r4, #0]
 802e3b6:	f8d4 8014 	ldr.w	r8, [r4, #20]
 802e3ba:	f7ff ff69 	bl	802e290 <lwip_htonl>
 802e3be:	f8c8 0004 	str.w	r0, [r8, #4]
  dhcp->msg_out->secs = 0;
 802e3c2:	6963      	ldr	r3, [r4, #20]
  /* we don't need the broadcast flag since we can receive unicast traffic
     before being fully configured! */
  dhcp->msg_out->flags = 0;
  ip_addr_set_zero(&dhcp->msg_out->ciaddr);
  /* set ciaddr to netif->ip_addr based on message_type and state */
  if ((message_type == DHCP_INFORM) || (message_type == DHCP_DECLINE) ||
 802e3c4:	2f08      	cmp	r7, #8
  /* TODO: make link layer independent */
  dhcp->msg_out->htype = DHCP_HTYPE_ETH;
  dhcp->msg_out->hlen = netif->hwaddr_len;
  dhcp->msg_out->hops = 0;
  dhcp->msg_out->xid = htonl(dhcp->xid);
  dhcp->msg_out->secs = 0;
 802e3c6:	721d      	strb	r5, [r3, #8]
 802e3c8:	725d      	strb	r5, [r3, #9]
  /* we don't need the broadcast flag since we can receive unicast traffic
     before being fully configured! */
  dhcp->msg_out->flags = 0;
 802e3ca:	729d      	strb	r5, [r3, #10]
 802e3cc:	72dd      	strb	r5, [r3, #11]
  ip_addr_set_zero(&dhcp->msg_out->ciaddr);
 802e3ce:	731d      	strb	r5, [r3, #12]
 802e3d0:	735d      	strb	r5, [r3, #13]
 802e3d2:	739d      	strb	r5, [r3, #14]
 802e3d4:	73dd      	strb	r5, [r3, #15]
  /* set ciaddr to netif->ip_addr based on message_type and state */
  if ((message_type == DHCP_INFORM) || (message_type == DHCP_DECLINE) ||
 802e3d6:	d007      	beq.n	802e3e8 <dhcp_create_msg+0x88>
 802e3d8:	2f04      	cmp	r7, #4
 802e3da:	d005      	beq.n	802e3e8 <dhcp_create_msg+0x88>
 802e3dc:	2f03      	cmp	r7, #3
 802e3de:	d105      	bne.n	802e3ec <dhcp_create_msg+0x8c>
      ((message_type == DHCP_REQUEST) && /* DHCP_BOUND not used for sending! */
       ((dhcp->state==DHCP_RENEWING) || dhcp->state==DHCP_REBINDING))) {
 802e3e0:	7b22      	ldrb	r2, [r4, #12]
     before being fully configured! */
  dhcp->msg_out->flags = 0;
  ip_addr_set_zero(&dhcp->msg_out->ciaddr);
  /* set ciaddr to netif->ip_addr based on message_type and state */
  if ((message_type == DHCP_INFORM) || (message_type == DHCP_DECLINE) ||
      ((message_type == DHCP_REQUEST) && /* DHCP_BOUND not used for sending! */
 802e3e2:	3a04      	subs	r2, #4
 802e3e4:	2a01      	cmp	r2, #1
 802e3e6:	d801      	bhi.n	802e3ec <dhcp_create_msg+0x8c>
       ((dhcp->state==DHCP_RENEWING) || dhcp->state==DHCP_REBINDING))) {
    ip_addr_copy(dhcp->msg_out->ciaddr, netif->ip_addr);
 802e3e8:	6872      	ldr	r2, [r6, #4]
 802e3ea:	60da      	str	r2, [r3, #12]
  }
  ip_addr_set_zero(&dhcp->msg_out->yiaddr);
 802e3ec:	2500      	movs	r5, #0
 802e3ee:	741d      	strb	r5, [r3, #16]
 802e3f0:	745d      	strb	r5, [r3, #17]
 802e3f2:	749d      	strb	r5, [r3, #18]
 802e3f4:	74dd      	strb	r5, [r3, #19]
  ip_addr_set_zero(&dhcp->msg_out->siaddr);
 802e3f6:	751d      	strb	r5, [r3, #20]
 802e3f8:	755d      	strb	r5, [r3, #21]
 802e3fa:	759d      	strb	r5, [r3, #22]
 802e3fc:	75dd      	strb	r5, [r3, #23]
  ip_addr_set_zero(&dhcp->msg_out->giaddr);
 802e3fe:	761d      	strb	r5, [r3, #24]
 802e400:	765d      	strb	r5, [r3, #25]
 802e402:	769d      	strb	r5, [r3, #26]
 802e404:	76dd      	strb	r5, [r3, #27]
  for (i = 0; i < DHCP_CHADDR_LEN; i++) {
    /* copy netif hardware address, pad with zeroes */
    dhcp->msg_out->chaddr[i] = (i < netif->hwaddr_len) ? netif->hwaddr[i] : 0/* pad byte*/;
 802e406:	f896 1026 	ldrb.w	r1, [r6, #38]	; 0x26
 802e40a:	6962      	ldr	r2, [r4, #20]
 802e40c:	b2ab      	uxth	r3, r5
 802e40e:	4299      	cmp	r1, r3
 * @param netif the netif under DHCP control
 * @param dhcp dhcp control struct
 * @param message_type message type of the request
 */
static err_t
dhcp_create_msg(struct netif *netif, struct dhcp *dhcp, u8_t message_type)
 802e410:	bf88      	it	hi
 802e412:	1973      	addhi	r3, r6, r5
  ip_addr_set_zero(&dhcp->msg_out->yiaddr);
  ip_addr_set_zero(&dhcp->msg_out->siaddr);
  ip_addr_set_zero(&dhcp->msg_out->giaddr);
  for (i = 0; i < DHCP_CHADDR_LEN; i++) {
    /* copy netif hardware address, pad with zeroes */
    dhcp->msg_out->chaddr[i] = (i < netif->hwaddr_len) ? netif->hwaddr[i] : 0/* pad byte*/;
 802e414:	442a      	add	r2, r5
 802e416:	bf8c      	ite	hi
 802e418:	f893 3027 	ldrbhi.w	r3, [r3, #39]	; 0x27
 802e41c:	2300      	movls	r3, #0
 802e41e:	3501      	adds	r5, #1
    ip_addr_copy(dhcp->msg_out->ciaddr, netif->ip_addr);
  }
  ip_addr_set_zero(&dhcp->msg_out->yiaddr);
  ip_addr_set_zero(&dhcp->msg_out->siaddr);
  ip_addr_set_zero(&dhcp->msg_out->giaddr);
  for (i = 0; i < DHCP_CHADDR_LEN; i++) {
 802e420:	2d10      	cmp	r5, #16
    /* copy netif hardware address, pad with zeroes */
    dhcp->msg_out->chaddr[i] = (i < netif->hwaddr_len) ? netif->hwaddr[i] : 0/* pad byte*/;
 802e422:	7713      	strb	r3, [r2, #28]
    ip_addr_copy(dhcp->msg_out->ciaddr, netif->ip_addr);
  }
  ip_addr_set_zero(&dhcp->msg_out->yiaddr);
  ip_addr_set_zero(&dhcp->msg_out->siaddr);
  ip_addr_set_zero(&dhcp->msg_out->giaddr);
  for (i = 0; i < DHCP_CHADDR_LEN; i++) {
 802e424:	d1ef      	bne.n	802e406 <dhcp_create_msg+0xa6>
 802e426:	2300      	movs	r3, #0
    /* copy netif hardware address, pad with zeroes */
    dhcp->msg_out->chaddr[i] = (i < netif->hwaddr_len) ? netif->hwaddr[i] : 0/* pad byte*/;
  }
  for (i = 0; i < DHCP_SNAME_LEN; i++) {
    dhcp->msg_out->sname[i] = 0;
 802e428:	4619      	mov	r1, r3
 802e42a:	6962      	ldr	r2, [r4, #20]
 802e42c:	18d2      	adds	r2, r2, r3
 802e42e:	3301      	adds	r3, #1
  ip_addr_set_zero(&dhcp->msg_out->giaddr);
  for (i = 0; i < DHCP_CHADDR_LEN; i++) {
    /* copy netif hardware address, pad with zeroes */
    dhcp->msg_out->chaddr[i] = (i < netif->hwaddr_len) ? netif->hwaddr[i] : 0/* pad byte*/;
  }
  for (i = 0; i < DHCP_SNAME_LEN; i++) {
 802e430:	2b40      	cmp	r3, #64	; 0x40
    dhcp->msg_out->sname[i] = 0;
 802e432:	f882 102c 	strb.w	r1, [r2, #44]	; 0x2c
  ip_addr_set_zero(&dhcp->msg_out->giaddr);
  for (i = 0; i < DHCP_CHADDR_LEN; i++) {
    /* copy netif hardware address, pad with zeroes */
    dhcp->msg_out->chaddr[i] = (i < netif->hwaddr_len) ? netif->hwaddr[i] : 0/* pad byte*/;
  }
  for (i = 0; i < DHCP_SNAME_LEN; i++) {
 802e436:	d1f8      	bne.n	802e42a <dhcp_create_msg+0xca>
 802e438:	2200      	movs	r2, #0
    dhcp->msg_out->sname[i] = 0;
  }
  for (i = 0; i < DHCP_FILE_LEN; i++) {
    dhcp->msg_out->file[i] = 0;
 802e43a:	4610      	mov	r0, r2
 802e43c:	6963      	ldr	r3, [r4, #20]
 802e43e:	1899      	adds	r1, r3, r2
 802e440:	3201      	adds	r2, #1
 802e442:	2300      	movs	r3, #0
    dhcp->msg_out->chaddr[i] = (i < netif->hwaddr_len) ? netif->hwaddr[i] : 0/* pad byte*/;
  }
  for (i = 0; i < DHCP_SNAME_LEN; i++) {
    dhcp->msg_out->sname[i] = 0;
  }
  for (i = 0; i < DHCP_FILE_LEN; i++) {
 802e444:	2a80      	cmp	r2, #128	; 0x80
    dhcp->msg_out->file[i] = 0;
 802e446:	f881 006c 	strb.w	r0, [r1, #108]	; 0x6c
    dhcp->msg_out->chaddr[i] = (i < netif->hwaddr_len) ? netif->hwaddr[i] : 0/* pad byte*/;
  }
  for (i = 0; i < DHCP_SNAME_LEN; i++) {
    dhcp->msg_out->sname[i] = 0;
  }
  for (i = 0; i < DHCP_FILE_LEN; i++) {
 802e44a:	d1f7      	bne.n	802e43c <dhcp_create_msg+0xdc>
    dhcp->msg_out->file[i] = 0;
  }
  dhcp->msg_out->cookie = PP_HTONL(DHCP_MAGIC_COOKIE);
 802e44c:	6962      	ldr	r2, [r4, #20]
 802e44e:	f06f 007d 	mvn.w	r0, #125	; 0x7d
 802e452:	2163      	movs	r1, #99	; 0x63
 802e454:	f882 00ed 	strb.w	r0, [r2, #237]	; 0xed
 802e458:	2053      	movs	r0, #83	; 0x53
 802e45a:	f882 10ec 	strb.w	r1, [r2, #236]	; 0xec
 802e45e:	f882 00ee 	strb.w	r0, [r2, #238]	; 0xee
 802e462:	f882 10ef 	strb.w	r1, [r2, #239]	; 0xef
  dhcp->options_out_len = 0;
 802e466:	8323      	strh	r3, [r4, #24]
  /* fill options field with an incrementing array (for debugging purposes) */
  for (i = 0; i < DHCP_OPTIONS_LEN; i++) {
    dhcp->msg_out->options[i] = (u8_t)i; /* for debugging only, no matter if truncated */
 802e468:	6962      	ldr	r2, [r4, #20]
 802e46a:	18d2      	adds	r2, r2, r3
 802e46c:	f882 30f0 	strb.w	r3, [r2, #240]	; 0xf0
 802e470:	3301      	adds	r3, #1
    dhcp->msg_out->file[i] = 0;
  }
  dhcp->msg_out->cookie = PP_HTONL(DHCP_MAGIC_COOKIE);
  dhcp->options_out_len = 0;
  /* fill options field with an incrementing array (for debugging purposes) */
  for (i = 0; i < DHCP_OPTIONS_LEN; i++) {
 802e472:	2b44      	cmp	r3, #68	; 0x44
 802e474:	d1f8      	bne.n	802e468 <dhcp_create_msg+0x108>
    dhcp->msg_out->options[i] = (u8_t)i; /* for debugging only, no matter if truncated */
  }
  /* Add option MESSAGE_TYPE */
  dhcp_option(dhcp, DHCP_OPTION_MESSAGE_TYPE, DHCP_OPTION_MESSAGE_TYPE_LEN);
 802e476:	4620      	mov	r0, r4
 802e478:	2135      	movs	r1, #53	; 0x35
 802e47a:	2201      	movs	r2, #1
 802e47c:	f7ff ff14 	bl	802e2a8 <dhcp_option>
  dhcp_option_byte(dhcp, message_type);
 802e480:	4620      	mov	r0, r4
 802e482:	4639      	mov	r1, r7
 802e484:	f7ff ff1f 	bl	802e2c6 <dhcp_option_byte>
  return ERR_OK;
 802e488:	2000      	movs	r0, #0
 802e48a:	e004      	b.n	802e496 <dhcp_create_msg+0x136>
  if (!xid_initialised) {
    xid = DHCP_GLOBAL_XID;
    xid_initialised = !xid_initialised;
  }
#endif
  LWIP_ERROR("dhcp_create_msg: netif != NULL", (netif != NULL), return ERR_ARG;);
 802e48c:	20f2      	movs	r0, #242	; 0xf2
 802e48e:	e002      	b.n	802e496 <dhcp_create_msg+0x136>
  LWIP_ERROR("dhcp_create_msg: dhcp != NULL", (dhcp != NULL), return ERR_VAL;);
 802e490:	20fa      	movs	r0, #250	; 0xfa
 802e492:	e000      	b.n	802e496 <dhcp_create_msg+0x136>
  LWIP_ASSERT("dhcp_create_msg: dhcp->msg_out == NULL", dhcp->msg_out == NULL);
  dhcp->p_out = pbuf_alloc(PBUF_TRANSPORT, sizeof(struct dhcp_msg), PBUF_RAM);
  if (dhcp->p_out == NULL) {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS,
      ("dhcp_create_msg(): could not allocate pbuf\n"));
    return ERR_MEM;
 802e494:	20ff      	movs	r0, #255	; 0xff
  }
  /* Add option MESSAGE_TYPE */
  dhcp_option(dhcp, DHCP_OPTION_MESSAGE_TYPE, DHCP_OPTION_MESSAGE_TYPE_LEN);
  dhcp_option_byte(dhcp, message_type);
  return ERR_OK;
}
 802e496:	b240      	sxtb	r0, r0
 802e498:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 802e49c:	20000714 	.word	0x20000714

0802e4a0 <dhcp_delete_msg>:
 *
 * @param dhcp the dhcp struct to free the request from
 */
static void
dhcp_delete_msg(struct dhcp *dhcp)
{
 802e4a0:	b510      	push	{r4, lr}
  LWIP_ERROR("dhcp_delete_msg: dhcp != NULL", (dhcp != NULL), return;);
 802e4a2:	4604      	mov	r4, r0
 802e4a4:	b130      	cbz	r0, 802e4b4 <dhcp_delete_msg+0x14>
  LWIP_ASSERT("dhcp_delete_msg: dhcp->p_out != NULL", dhcp->p_out != NULL);
  LWIP_ASSERT("dhcp_delete_msg: dhcp->msg_out != NULL", dhcp->msg_out != NULL);
  if (dhcp->p_out != NULL) {
 802e4a6:	6900      	ldr	r0, [r0, #16]
 802e4a8:	b108      	cbz	r0, 802e4ae <dhcp_delete_msg+0xe>
    pbuf_free(dhcp->p_out);
 802e4aa:	f001 f825 	bl	802f4f8 <pbuf_free>
  }
  dhcp->p_out = NULL;
 802e4ae:	2300      	movs	r3, #0
 802e4b0:	6123      	str	r3, [r4, #16]
  dhcp->msg_out = NULL;
 802e4b2:	6163      	str	r3, [r4, #20]
 802e4b4:	bd10      	pop	{r4, pc}
 802e4b6:	0000      	movs	r0, r0

0802e4b8 <dhcp_discover>:
 *
 * @param netif the netif under DHCP control
 */
static err_t
dhcp_discover(struct netif *netif)
{
 802e4b8:	b573      	push	{r0, r1, r4, r5, r6, lr}
  struct dhcp *dhcp = netif->dhcp;
 802e4ba:	6a04      	ldr	r4, [r0, #32]
  err_t result = ERR_OK;
  u16_t msecs;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_discover()\n"));
  ip_addr_set_any(&dhcp->offered_ip_addr);
 802e4bc:	2300      	movs	r3, #0
 *
 * @param netif the netif under DHCP control
 */
static err_t
dhcp_discover(struct netif *netif)
{
 802e4be:	4605      	mov	r5, r0
  struct dhcp *dhcp = netif->dhcp;
  err_t result = ERR_OK;
  u16_t msecs;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_discover()\n"));
  ip_addr_set_any(&dhcp->offered_ip_addr);
 802e4c0:	6263      	str	r3, [r4, #36]	; 0x24
  dhcp_set_state(dhcp, DHCP_SELECTING);
 802e4c2:	4620      	mov	r0, r4
 802e4c4:	2106      	movs	r1, #6
 802e4c6:	f7ff fee7 	bl	802e298 <dhcp_set_state>
  /* create and initialize the DHCP message header */
  result = dhcp_create_msg(netif, dhcp, DHCP_DISCOVER);
 802e4ca:	4628      	mov	r0, r5
 802e4cc:	4621      	mov	r1, r4
 802e4ce:	2201      	movs	r2, #1
 802e4d0:	f7ff ff46 	bl	802e360 <dhcp_create_msg>
  if (result == ERR_OK) {
 802e4d4:	4606      	mov	r6, r0
 802e4d6:	2800      	cmp	r0, #0
 802e4d8:	d130      	bne.n	802e53c <dhcp_discover+0x84>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_discover: making request\n"));

    dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN);
 802e4da:	2202      	movs	r2, #2
 802e4dc:	4620      	mov	r0, r4
 802e4de:	2139      	movs	r1, #57	; 0x39
 802e4e0:	f7ff fee2 	bl	802e2a8 <dhcp_option>
    dhcp_option_short(dhcp, DHCP_MAX_MSG_LEN(netif));
 802e4e4:	4620      	mov	r0, r4
 802e4e6:	8ca9      	ldrh	r1, [r5, #36]	; 0x24
 802e4e8:	f7ff fef5 	bl	802e2d6 <dhcp_option_short>

    dhcp_option(dhcp, DHCP_OPTION_PARAMETER_REQUEST_LIST, 4/*num options*/);
 802e4ec:	2204      	movs	r2, #4
 802e4ee:	4620      	mov	r0, r4
 802e4f0:	2137      	movs	r1, #55	; 0x37
 802e4f2:	f7ff fed9 	bl	802e2a8 <dhcp_option>
    dhcp_option_byte(dhcp, DHCP_OPTION_SUBNET_MASK);
 802e4f6:	4620      	mov	r0, r4
 802e4f8:	2101      	movs	r1, #1
 802e4fa:	f7ff fee4 	bl	802e2c6 <dhcp_option_byte>
    dhcp_option_byte(dhcp, DHCP_OPTION_ROUTER);
 802e4fe:	4620      	mov	r0, r4
 802e500:	2103      	movs	r1, #3
 802e502:	f7ff fee0 	bl	802e2c6 <dhcp_option_byte>
    dhcp_option_byte(dhcp, DHCP_OPTION_BROADCAST);
 802e506:	4620      	mov	r0, r4
 802e508:	211c      	movs	r1, #28
 802e50a:	f7ff fedc 	bl	802e2c6 <dhcp_option_byte>
    dhcp_option_byte(dhcp, DHCP_OPTION_DNS_SERVER);
 802e50e:	2106      	movs	r1, #6
 802e510:	4620      	mov	r0, r4
 802e512:	f7ff fed8 	bl	802e2c6 <dhcp_option_byte>

    dhcp_option_trailer(dhcp);
 802e516:	4620      	mov	r0, r4
 802e518:	f7ff ff0d 	bl	802e336 <dhcp_option_trailer>

    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_discover: realloc()ing\n"));
    pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len);
 802e51c:	8b21      	ldrh	r1, [r4, #24]
 802e51e:	6920      	ldr	r0, [r4, #16]
 802e520:	31f0      	adds	r1, #240	; 0xf0
 802e522:	b289      	uxth	r1, r1
 802e524:	f001 f80f 	bl	802f546 <pbuf_realloc>

    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_discover: sendto(DISCOVER, IP_ADDR_BROADCAST, DHCP_SERVER_PORT)\n"));
    udp_sendto_if(dhcp->pcb, dhcp->p_out, IP_ADDR_BROADCAST, DHCP_SERVER_PORT, netif);
 802e528:	9500      	str	r5, [sp, #0]
 802e52a:	6860      	ldr	r0, [r4, #4]
 802e52c:	6921      	ldr	r1, [r4, #16]
 802e52e:	4a0f      	ldr	r2, [pc, #60]	; (802e56c <dhcp_discover+0xb4>)
 802e530:	2343      	movs	r3, #67	; 0x43
 802e532:	f003 fc81 	bl	8031e38 <udp_sendto_if>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_discover: deleting()ing\n"));
    dhcp_delete_msg(dhcp);
 802e536:	4620      	mov	r0, r4
 802e538:	f7ff ffb2 	bl	802e4a0 <dhcp_delete_msg>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_discover: SELECTING\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp_discover: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802e53c:	7b63      	ldrb	r3, [r4, #13]
 802e53e:	3301      	adds	r3, #1
 802e540:	b2db      	uxtb	r3, r3
  if(dhcp->tries >= LWIP_DHCP_AUTOIP_COOP_TRIES && dhcp->autoip_coop_state == DHCP_AUTOIP_COOP_STATE_OFF) {
    dhcp->autoip_coop_state = DHCP_AUTOIP_COOP_STATE_ON;
    autoip_start(netif);
  }
#endif /* LWIP_DHCP_AUTOIP_COOP */
  msecs = (dhcp->tries < 6 ? 1 << dhcp->tries : 60) * 1000;
 802e542:	2b05      	cmp	r3, #5
 802e544:	bf98      	it	ls
 802e546:	f44f 727a 	movls.w	r2, #1000	; 0x3e8
    dhcp_delete_msg(dhcp);
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_discover: SELECTING\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp_discover: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802e54a:	7363      	strb	r3, [r4, #13]
  if(dhcp->tries >= LWIP_DHCP_AUTOIP_COOP_TRIES && dhcp->autoip_coop_state == DHCP_AUTOIP_COOP_STATE_OFF) {
    dhcp->autoip_coop_state = DHCP_AUTOIP_COOP_STATE_ON;
    autoip_start(netif);
  }
#endif /* LWIP_DHCP_AUTOIP_COOP */
  msecs = (dhcp->tries < 6 ? 1 << dhcp->tries : 60) * 1000;
 802e54c:	bf9a      	itte	ls
 802e54e:	fa02 f303 	lslls.w	r3, r2, r3
 802e552:	b29b      	uxthls	r3, r3
 802e554:	f64e 2360 	movwhi	r3, #60000	; 0xea60
  dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS;
 802e558:	f44f 72fa 	mov.w	r2, #500	; 0x1f4
 802e55c:	f203 13f3 	addw	r3, r3, #499	; 0x1f3
 802e560:	fb93 f3f2 	sdiv	r3, r3, r2
 802e564:	8363      	strh	r3, [r4, #26]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_discover(): set request timeout %"U16_F" msecs\n", msecs));
  return result;
}
 802e566:	4630      	mov	r0, r6
 802e568:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}
 802e56a:	bf00      	nop
 802e56c:	08043fe0 	.word	0x08043fe0

0802e570 <dhcp_rebind>:
 *
 * @param netif network interface which must rebind with a DHCP server
 */
static err_t
dhcp_rebind(struct netif *netif)
{
 802e570:	b573      	push	{r0, r1, r4, r5, r6, lr}
  struct dhcp *dhcp = netif->dhcp;
 802e572:	6a04      	ldr	r4, [r0, #32]
 *
 * @param netif network interface which must rebind with a DHCP server
 */
static err_t
dhcp_rebind(struct netif *netif)
{
 802e574:	4605      	mov	r5, r0
  struct dhcp *dhcp = netif->dhcp;
  err_t result;
  u16_t msecs;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_rebind()\n"));
  dhcp_set_state(dhcp, DHCP_REBINDING);
 802e576:	2104      	movs	r1, #4
 802e578:	4620      	mov	r0, r4
 802e57a:	f7ff fe8d 	bl	802e298 <dhcp_set_state>

  /* create and initialize the DHCP message header */
  result = dhcp_create_msg(netif, dhcp, DHCP_REQUEST);
 802e57e:	4628      	mov	r0, r5
 802e580:	4621      	mov	r1, r4
 802e582:	2203      	movs	r2, #3
 802e584:	f7ff feec 	bl	802e360 <dhcp_create_msg>
  if (result == ERR_OK) {
 802e588:	4606      	mov	r6, r0
 802e58a:	b9d8      	cbnz	r0, 802e5c4 <dhcp_rebind+0x54>
    dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN);
 802e58c:	2202      	movs	r2, #2
 802e58e:	4620      	mov	r0, r4
 802e590:	2139      	movs	r1, #57	; 0x39
 802e592:	f7ff fe89 	bl	802e2a8 <dhcp_option>
    dhcp_option_short(dhcp, DHCP_MAX_MSG_LEN(netif));
 802e596:	8ca9      	ldrh	r1, [r5, #36]	; 0x24
 802e598:	4620      	mov	r0, r4
 802e59a:	f7ff fe9c 	bl	802e2d6 <dhcp_option_short>

    dhcp_option(dhcp, DHCP_OPTION_SERVER_ID, 4);
    dhcp_option_long(dhcp, ntohl(dhcp->server_ip_addr.addr));
#endif

    dhcp_option_trailer(dhcp);
 802e59e:	4620      	mov	r0, r4
 802e5a0:	f7ff fec9 	bl	802e336 <dhcp_option_trailer>

    pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len);
 802e5a4:	8b21      	ldrh	r1, [r4, #24]
 802e5a6:	6920      	ldr	r0, [r4, #16]
 802e5a8:	31f0      	adds	r1, #240	; 0xf0
 802e5aa:	b289      	uxth	r1, r1
 802e5ac:	f000 ffcb 	bl	802f546 <pbuf_realloc>

    /* broadcast to server */
    udp_sendto_if(dhcp->pcb, dhcp->p_out, IP_ADDR_BROADCAST, DHCP_SERVER_PORT, netif);
 802e5b0:	9500      	str	r5, [sp, #0]
 802e5b2:	6860      	ldr	r0, [r4, #4]
 802e5b4:	6921      	ldr	r1, [r4, #16]
 802e5b6:	4a0e      	ldr	r2, [pc, #56]	; (802e5f0 <dhcp_rebind+0x80>)
 802e5b8:	2343      	movs	r3, #67	; 0x43
 802e5ba:	f003 fc3d 	bl	8031e38 <udp_sendto_if>
    dhcp_delete_msg(dhcp);
 802e5be:	4620      	mov	r0, r4
 802e5c0:	f7ff ff6e 	bl	802e4a0 <dhcp_delete_msg>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_rebind: REBINDING\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp_rebind: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802e5c4:	7b63      	ldrb	r3, [r4, #13]
 802e5c6:	3301      	adds	r3, #1
 802e5c8:	b2db      	uxtb	r3, r3
  msecs = dhcp->tries < 10 ? dhcp->tries * 1000 : 10 * 1000;
 802e5ca:	2b09      	cmp	r3, #9
    dhcp_delete_msg(dhcp);
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_rebind: REBINDING\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp_rebind: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802e5cc:	7363      	strb	r3, [r4, #13]
  msecs = dhcp->tries < 10 ? dhcp->tries * 1000 : 10 * 1000;
 802e5ce:	d804      	bhi.n	802e5da <dhcp_rebind+0x6a>
 802e5d0:	f44f 727a 	mov.w	r2, #1000	; 0x3e8
 802e5d4:	4353      	muls	r3, r2
 802e5d6:	b29b      	uxth	r3, r3
 802e5d8:	e001      	b.n	802e5de <dhcp_rebind+0x6e>
 802e5da:	f242 7310 	movw	r3, #10000	; 0x2710
  dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS;
 802e5de:	f44f 72fa 	mov.w	r2, #500	; 0x1f4
 802e5e2:	f203 13f3 	addw	r3, r3, #499	; 0x1f3
 802e5e6:	fb93 f3f2 	sdiv	r3, r3, r2
 802e5ea:	8363      	strh	r3, [r4, #26]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_rebind(): set request timeout %"U16_F" msecs\n", msecs));
  return result;
}
 802e5ec:	4630      	mov	r0, r6
 802e5ee:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}
 802e5f0:	08043fe0 	.word	0x08043fe0

0802e5f4 <dhcp_reboot>:
 *
 * @param netif network interface which must reboot
 */
static err_t
dhcp_reboot(struct netif *netif)
{
 802e5f4:	b573      	push	{r0, r1, r4, r5, r6, lr}
  struct dhcp *dhcp = netif->dhcp;
 802e5f6:	6a04      	ldr	r4, [r0, #32]
 *
 * @param netif network interface which must reboot
 */
static err_t
dhcp_reboot(struct netif *netif)
{
 802e5f8:	4605      	mov	r5, r0
  struct dhcp *dhcp = netif->dhcp;
  err_t result;
  u16_t msecs;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_reboot()\n"));
  dhcp_set_state(dhcp, DHCP_REBOOTING);
 802e5fa:	2103      	movs	r1, #3
 802e5fc:	4620      	mov	r0, r4
 802e5fe:	f7ff fe4b 	bl	802e298 <dhcp_set_state>

  /* create and initialize the DHCP message header */
  result = dhcp_create_msg(netif, dhcp, DHCP_REQUEST);
 802e602:	4628      	mov	r0, r5
 802e604:	4621      	mov	r1, r4
 802e606:	2203      	movs	r2, #3
 802e608:	f7ff feaa 	bl	802e360 <dhcp_create_msg>
  if (result == ERR_OK) {
 802e60c:	4606      	mov	r6, r0
 802e60e:	bb40      	cbnz	r0, 802e662 <dhcp_reboot+0x6e>
    dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN);
 802e610:	2202      	movs	r2, #2
 802e612:	4620      	mov	r0, r4
 802e614:	2139      	movs	r1, #57	; 0x39
 802e616:	f7ff fe47 	bl	802e2a8 <dhcp_option>
    dhcp_option_short(dhcp, 576);
 802e61a:	4620      	mov	r0, r4
 802e61c:	f44f 7110 	mov.w	r1, #576	; 0x240
 802e620:	f7ff fe59 	bl	802e2d6 <dhcp_option_short>

    dhcp_option(dhcp, DHCP_OPTION_REQUESTED_IP, 4);
 802e624:	2204      	movs	r2, #4
 802e626:	2132      	movs	r1, #50	; 0x32
 802e628:	4620      	mov	r0, r4
 802e62a:	f7ff fe3d 	bl	802e2a8 <dhcp_option>
    dhcp_option_long(dhcp, ntohl(ip4_addr_get_u32(&dhcp->offered_ip_addr)));
 802e62e:	6a60      	ldr	r0, [r4, #36]	; 0x24
 802e630:	f7ff fe30 	bl	802e294 <lwip_ntohl>
 802e634:	4601      	mov	r1, r0
 802e636:	4620      	mov	r0, r4
 802e638:	f7ff fe5d 	bl	802e2f6 <dhcp_option_long>

    dhcp_option_trailer(dhcp);
 802e63c:	4620      	mov	r0, r4
 802e63e:	f7ff fe7a 	bl	802e336 <dhcp_option_trailer>

    pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len);
 802e642:	8b21      	ldrh	r1, [r4, #24]
 802e644:	6920      	ldr	r0, [r4, #16]
 802e646:	31f0      	adds	r1, #240	; 0xf0
 802e648:	b289      	uxth	r1, r1
 802e64a:	f000 ff7c 	bl	802f546 <pbuf_realloc>

    /* broadcast to server */
    udp_sendto_if(dhcp->pcb, dhcp->p_out, IP_ADDR_BROADCAST, DHCP_SERVER_PORT, netif);
 802e64e:	9500      	str	r5, [sp, #0]
 802e650:	6860      	ldr	r0, [r4, #4]
 802e652:	6921      	ldr	r1, [r4, #16]
 802e654:	4a0e      	ldr	r2, [pc, #56]	; (802e690 <dhcp_reboot+0x9c>)
 802e656:	2343      	movs	r3, #67	; 0x43
 802e658:	f003 fbee 	bl	8031e38 <udp_sendto_if>
    dhcp_delete_msg(dhcp);
 802e65c:	4620      	mov	r0, r4
 802e65e:	f7ff ff1f 	bl	802e4a0 <dhcp_delete_msg>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_reboot: REBOOTING\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp_reboot: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802e662:	7b63      	ldrb	r3, [r4, #13]
 802e664:	3301      	adds	r3, #1
 802e666:	b2db      	uxtb	r3, r3
  msecs = dhcp->tries < 10 ? dhcp->tries * 1000 : 10 * 1000;
 802e668:	2b09      	cmp	r3, #9
    dhcp_delete_msg(dhcp);
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_reboot: REBOOTING\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp_reboot: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802e66a:	7363      	strb	r3, [r4, #13]
  msecs = dhcp->tries < 10 ? dhcp->tries * 1000 : 10 * 1000;
 802e66c:	d804      	bhi.n	802e678 <dhcp_reboot+0x84>
 802e66e:	f44f 727a 	mov.w	r2, #1000	; 0x3e8
 802e672:	4353      	muls	r3, r2
 802e674:	b29b      	uxth	r3, r3
 802e676:	e001      	b.n	802e67c <dhcp_reboot+0x88>
 802e678:	f242 7310 	movw	r3, #10000	; 0x2710
  dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS;
 802e67c:	f44f 72fa 	mov.w	r2, #500	; 0x1f4
 802e680:	f203 13f3 	addw	r3, r3, #499	; 0x1f3
 802e684:	fb93 f3f2 	sdiv	r3, r3, r2
 802e688:	8363      	strh	r3, [r4, #26]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_reboot(): set request timeout %"U16_F" msecs\n", msecs));
  return result;
}
 802e68a:	4630      	mov	r0, r6
 802e68c:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}
 802e68e:	bf00      	nop
 802e690:	08043fe0 	.word	0x08043fe0

0802e694 <dhcp_select>:
 * @param netif the netif under DHCP control
 * @return lwIP specific error (see error.h)
 */
static err_t
dhcp_select(struct netif *netif)
{
 802e694:	b573      	push	{r0, r1, r4, r5, r6, lr}
  struct dhcp *dhcp = netif->dhcp;
 802e696:	6a04      	ldr	r4, [r0, #32]
 * @param netif the netif under DHCP control
 * @return lwIP specific error (see error.h)
 */
static err_t
dhcp_select(struct netif *netif)
{
 802e698:	4605      	mov	r5, r0
  struct dhcp *dhcp = netif->dhcp;
  err_t result;
  u16_t msecs;

  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_select(netif=%p) %c%c%"U16_F"\n", (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num));
  dhcp_set_state(dhcp, DHCP_REQUESTING);
 802e69a:	2101      	movs	r1, #1
 802e69c:	4620      	mov	r0, r4
 802e69e:	f7ff fdfb 	bl	802e298 <dhcp_set_state>

  /* create and initialize the DHCP message header */
  result = dhcp_create_msg(netif, dhcp, DHCP_REQUEST);
 802e6a2:	4628      	mov	r0, r5
 802e6a4:	4621      	mov	r1, r4
 802e6a6:	2203      	movs	r2, #3
 802e6a8:	f7ff fe5a 	bl	802e360 <dhcp_create_msg>
  if (result == ERR_OK) {
 802e6ac:	4606      	mov	r6, r0
 802e6ae:	2800      	cmp	r0, #0
 802e6b0:	d148      	bne.n	802e744 <dhcp_select+0xb0>
    dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN);
 802e6b2:	2202      	movs	r2, #2
 802e6b4:	4620      	mov	r0, r4
 802e6b6:	2139      	movs	r1, #57	; 0x39
 802e6b8:	f7ff fdf6 	bl	802e2a8 <dhcp_option>
    dhcp_option_short(dhcp, DHCP_MAX_MSG_LEN(netif));
 802e6bc:	4620      	mov	r0, r4
 802e6be:	8ca9      	ldrh	r1, [r5, #36]	; 0x24
 802e6c0:	f7ff fe09 	bl	802e2d6 <dhcp_option_short>

    /* MUST request the offered IP address */
    dhcp_option(dhcp, DHCP_OPTION_REQUESTED_IP, 4);
 802e6c4:	2204      	movs	r2, #4
 802e6c6:	2132      	movs	r1, #50	; 0x32
 802e6c8:	4620      	mov	r0, r4
 802e6ca:	f7ff fded 	bl	802e2a8 <dhcp_option>
    dhcp_option_long(dhcp, ntohl(ip4_addr_get_u32(&dhcp->offered_ip_addr)));
 802e6ce:	6a60      	ldr	r0, [r4, #36]	; 0x24
 802e6d0:	f7ff fde0 	bl	802e294 <lwip_ntohl>
 802e6d4:	4601      	mov	r1, r0
 802e6d6:	4620      	mov	r0, r4
 802e6d8:	f7ff fe0d 	bl	802e2f6 <dhcp_option_long>

    dhcp_option(dhcp, DHCP_OPTION_SERVER_ID, 4);
 802e6dc:	2204      	movs	r2, #4
 802e6de:	2136      	movs	r1, #54	; 0x36
 802e6e0:	4620      	mov	r0, r4
 802e6e2:	f7ff fde1 	bl	802e2a8 <dhcp_option>
    dhcp_option_long(dhcp, ntohl(ip4_addr_get_u32(&dhcp->server_ip_addr)));
 802e6e6:	6a20      	ldr	r0, [r4, #32]
 802e6e8:	f7ff fdd4 	bl	802e294 <lwip_ntohl>
 802e6ec:	4601      	mov	r1, r0
 802e6ee:	4620      	mov	r0, r4
 802e6f0:	f7ff fe01 	bl	802e2f6 <dhcp_option_long>

    dhcp_option(dhcp, DHCP_OPTION_PARAMETER_REQUEST_LIST, 4/*num options*/);
 802e6f4:	2204      	movs	r2, #4
 802e6f6:	4620      	mov	r0, r4
 802e6f8:	2137      	movs	r1, #55	; 0x37
 802e6fa:	f7ff fdd5 	bl	802e2a8 <dhcp_option>
    dhcp_option_byte(dhcp, DHCP_OPTION_SUBNET_MASK);
 802e6fe:	4620      	mov	r0, r4
 802e700:	2101      	movs	r1, #1
 802e702:	f7ff fde0 	bl	802e2c6 <dhcp_option_byte>
    dhcp_option_byte(dhcp, DHCP_OPTION_ROUTER);
 802e706:	4620      	mov	r0, r4
 802e708:	2103      	movs	r1, #3
 802e70a:	f7ff fddc 	bl	802e2c6 <dhcp_option_byte>
    dhcp_option_byte(dhcp, DHCP_OPTION_BROADCAST);
 802e70e:	4620      	mov	r0, r4
 802e710:	211c      	movs	r1, #28
 802e712:	f7ff fdd8 	bl	802e2c6 <dhcp_option_byte>
    dhcp_option_byte(dhcp, DHCP_OPTION_DNS_SERVER);
 802e716:	2106      	movs	r1, #6
 802e718:	4620      	mov	r0, r4
 802e71a:	f7ff fdd4 	bl	802e2c6 <dhcp_option_byte>

#if LWIP_NETIF_HOSTNAME
    dhcp_option_hostname(dhcp, netif);
#endif /* LWIP_NETIF_HOSTNAME */

    dhcp_option_trailer(dhcp);
 802e71e:	4620      	mov	r0, r4
 802e720:	f7ff fe09 	bl	802e336 <dhcp_option_trailer>
    /* shrink the pbuf to the actual content length */
    pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len);
 802e724:	8b21      	ldrh	r1, [r4, #24]
 802e726:	6920      	ldr	r0, [r4, #16]
 802e728:	31f0      	adds	r1, #240	; 0xf0
 802e72a:	b289      	uxth	r1, r1
 802e72c:	f000 ff0b 	bl	802f546 <pbuf_realloc>

    /* send broadcast to any DHCP server */
    udp_sendto_if(dhcp->pcb, dhcp->p_out, IP_ADDR_BROADCAST, DHCP_SERVER_PORT, netif);
 802e730:	9500      	str	r5, [sp, #0]
 802e732:	6860      	ldr	r0, [r4, #4]
 802e734:	6921      	ldr	r1, [r4, #16]
 802e736:	4a0f      	ldr	r2, [pc, #60]	; (802e774 <dhcp_select+0xe0>)
 802e738:	2343      	movs	r3, #67	; 0x43
 802e73a:	f003 fb7d 	bl	8031e38 <udp_sendto_if>
    dhcp_delete_msg(dhcp);
 802e73e:	4620      	mov	r0, r4
 802e740:	f7ff feae 	bl	802e4a0 <dhcp_delete_msg>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_select: REQUESTING\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("dhcp_select: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802e744:	7b63      	ldrb	r3, [r4, #13]
 802e746:	3301      	adds	r3, #1
 802e748:	b2db      	uxtb	r3, r3
  msecs = (dhcp->tries < 6 ? 1 << dhcp->tries : 60) * 1000;
 802e74a:	2b05      	cmp	r3, #5
 802e74c:	bf98      	it	ls
 802e74e:	f44f 727a 	movls.w	r2, #1000	; 0x3e8
    dhcp_delete_msg(dhcp);
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_select: REQUESTING\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("dhcp_select: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802e752:	7363      	strb	r3, [r4, #13]
  msecs = (dhcp->tries < 6 ? 1 << dhcp->tries : 60) * 1000;
 802e754:	bf9a      	itte	ls
 802e756:	fa02 f303 	lslls.w	r3, r2, r3
 802e75a:	b29b      	uxthls	r3, r3
 802e75c:	f64e 2360 	movwhi	r3, #60000	; 0xea60
  dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS;
 802e760:	f44f 72fa 	mov.w	r2, #500	; 0x1f4
 802e764:	f203 13f3 	addw	r3, r3, #499	; 0x1f3
 802e768:	fb93 f3f2 	sdiv	r3, r3, r2
 802e76c:	8363      	strh	r3, [r4, #26]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_select(): set request timeout %"U16_F" msecs\n", msecs));
  return result;
}
 802e76e:	4630      	mov	r0, r6
 802e770:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}
 802e772:	bf00      	nop
 802e774:	08043fe0 	.word	0x08043fe0

0802e778 <dhcp_check>:
 *
 * @param netif the netif under DHCP control
 */
static void
dhcp_check(struct netif *netif)
{
 802e778:	b538      	push	{r3, r4, r5, lr}
  struct dhcp *dhcp = netif->dhcp;
 802e77a:	6a04      	ldr	r4, [r0, #32]
 *
 * @param netif the netif under DHCP control
 */
static void
dhcp_check(struct netif *netif)
{
 802e77c:	4605      	mov	r5, r0
  struct dhcp *dhcp = netif->dhcp;
  err_t result;
  u16_t msecs;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_check(netif=%p) %c%c\n", (void *)netif, (s16_t)netif->name[0],
    (s16_t)netif->name[1]));
  dhcp_set_state(dhcp, DHCP_CHECKING);
 802e77e:	2108      	movs	r1, #8
 802e780:	4620      	mov	r0, r4
 802e782:	f7ff fd89 	bl	802e298 <dhcp_set_state>
  /* create an ARP query for the offered IP address, expecting that no host
     responds, as the IP address should not be in use. */
  result = etharp_query(netif, &dhcp->offered_ip_addr, NULL);
 802e786:	4628      	mov	r0, r5
 802e788:	f104 0124 	add.w	r1, r4, #36	; 0x24
 802e78c:	2200      	movs	r2, #0
 802e78e:	f007 ff61 	bl	8036654 <etharp_query>
  if (result != ERR_OK) {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("dhcp_check: could not perform ARP query\n"));
  }
  dhcp->tries++;
 802e792:	7b63      	ldrb	r3, [r4, #13]
 802e794:	3301      	adds	r3, #1
 802e796:	7363      	strb	r3, [r4, #13]
  msecs = 500;
  dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS;
 802e798:	2301      	movs	r3, #1
 802e79a:	8363      	strh	r3, [r4, #26]
 802e79c:	bd38      	pop	{r3, r4, r5, pc}

0802e79e <dhcp_bind>:
 *
 * @param netif network interface to bind to the offered address
 */
static void
dhcp_bind(struct netif *netif)
{
 802e79e:	b537      	push	{r0, r1, r2, r4, r5, lr}
  u32_t timeout;
  struct dhcp *dhcp;
  ip_addr_t sn_mask, gw_addr;
  LWIP_ERROR("dhcp_bind: netif != NULL", (netif != NULL), return;);
 802e7a0:	4605      	mov	r5, r0
 802e7a2:	2800      	cmp	r0, #0
 802e7a4:	d059      	beq.n	802e85a <dhcp_bind+0xbc>
  dhcp = netif->dhcp;
 802e7a6:	6a04      	ldr	r4, [r0, #32]
  LWIP_ERROR("dhcp_bind: dhcp != NULL", (dhcp != NULL), return;);
 802e7a8:	2c00      	cmp	r4, #0
 802e7aa:	d056      	beq.n	802e85a <dhcp_bind+0xbc>
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_bind(netif=%p) %c%c%"U16_F"\n", (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num));

  /* temporary DHCP lease? */
  if (dhcp->offered_t1_renew != 0xffffffffUL) {
 802e7ac:	6b63      	ldr	r3, [r4, #52]	; 0x34
 802e7ae:	1c58      	adds	r0, r3, #1
 802e7b0:	d00d      	beq.n	802e7ce <dhcp_bind+0x30>
    /* set renewal period timer */
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_bind(): t1 renewal timer %"U32_F" secs\n", dhcp->offered_t1_renew));
    timeout = (dhcp->offered_t1_renew + DHCP_COARSE_TIMER_SECS / 2) / DHCP_COARSE_TIMER_SECS;
 802e7b2:	223c      	movs	r2, #60	; 0x3c
 802e7b4:	331e      	adds	r3, #30
 802e7b6:	fbb3 f3f2 	udiv	r3, r3, r2
    if(timeout > 0xffff) {
      timeout = 0xffff;
    }
    dhcp->t1_timeout = (u16_t)timeout;
 802e7ba:	f64f 72ff 	movw	r2, #65535	; 0xffff
 802e7be:	4293      	cmp	r3, r2
 802e7c0:	bf28      	it	cs
 802e7c2:	4613      	movcs	r3, r2
 802e7c4:	b29b      	uxth	r3, r3
 802e7c6:	83a3      	strh	r3, [r4, #28]
    if (dhcp->t1_timeout == 0) {
 802e7c8:	b90b      	cbnz	r3, 802e7ce <dhcp_bind+0x30>
      dhcp->t1_timeout = 1;
 802e7ca:	2301      	movs	r3, #1
 802e7cc:	83a3      	strh	r3, [r4, #28]
    }
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_bind(): set request timeout %"U32_F" msecs\n", dhcp->offered_t1_renew*1000));
  }
  /* set renewal period timer */
  if (dhcp->offered_t2_rebind != 0xffffffffUL) {
 802e7ce:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 802e7d0:	1c59      	adds	r1, r3, #1
 802e7d2:	d00d      	beq.n	802e7f0 <dhcp_bind+0x52>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_bind(): t2 rebind timer %"U32_F" secs\n", dhcp->offered_t2_rebind));
    timeout = (dhcp->offered_t2_rebind + DHCP_COARSE_TIMER_SECS / 2) / DHCP_COARSE_TIMER_SECS;
 802e7d4:	223c      	movs	r2, #60	; 0x3c
 802e7d6:	331e      	adds	r3, #30
 802e7d8:	fbb3 f3f2 	udiv	r3, r3, r2
    if(timeout > 0xffff) {
      timeout = 0xffff;
    }
    dhcp->t2_timeout = (u16_t)timeout;
 802e7dc:	f64f 72ff 	movw	r2, #65535	; 0xffff
 802e7e0:	4293      	cmp	r3, r2
 802e7e2:	bf28      	it	cs
 802e7e4:	4613      	movcs	r3, r2
 802e7e6:	b29b      	uxth	r3, r3
 802e7e8:	83e3      	strh	r3, [r4, #30]
    if (dhcp->t2_timeout == 0) {
 802e7ea:	b90b      	cbnz	r3, 802e7f0 <dhcp_bind+0x52>
      dhcp->t2_timeout = 1;
 802e7ec:	2301      	movs	r3, #1
 802e7ee:	83e3      	strh	r3, [r4, #30]
    }
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_bind(): set request timeout %"U32_F" msecs\n", dhcp->offered_t2_rebind*1000));
  }

  /* If we have sub 1 minute lease, t2 and t1 will kick in at the same time. */
  if ((dhcp->t1_timeout >= dhcp->t2_timeout) && (dhcp->t2_timeout > 0)) {
 802e7f0:	8be3      	ldrh	r3, [r4, #30]
 802e7f2:	8ba2      	ldrh	r2, [r4, #28]
 802e7f4:	429a      	cmp	r2, r3
 802e7f6:	d302      	bcc.n	802e7fe <dhcp_bind+0x60>
 802e7f8:	b10b      	cbz	r3, 802e7fe <dhcp_bind+0x60>
    dhcp->t1_timeout = 0;
 802e7fa:	2300      	movs	r3, #0
 802e7fc:	83a3      	strh	r3, [r4, #28]
  }

  if (dhcp->subnet_mask_given) {
 802e7fe:	7ba3      	ldrb	r3, [r4, #14]
 802e800:	b10b      	cbz	r3, 802e806 <dhcp_bind+0x68>
    /* copy offered network mask */
    ip_addr_copy(sn_mask, dhcp->offered_sn_mask);
 802e802:	6aa3      	ldr	r3, [r4, #40]	; 0x28
 802e804:	e00b      	b.n	802e81e <dhcp_bind+0x80>
  } else {
    /* subnet mask not given, choose a safe subnet mask given the network class */
    u8_t first_octet = ip4_addr1(&dhcp->offered_ip_addr);
 802e806:	f894 3024 	ldrb.w	r3, [r4, #36]	; 0x24
    if (first_octet <= 127) {
 802e80a:	061a      	lsls	r2, r3, #24
 802e80c:	d401      	bmi.n	802e812 <dhcp_bind+0x74>
      ip4_addr_set_u32(&sn_mask, PP_HTONL(0xff000000UL));
 802e80e:	23ff      	movs	r3, #255	; 0xff
 802e810:	e005      	b.n	802e81e <dhcp_bind+0x80>
    } else if (first_octet >= 192) {
 802e812:	2bbf      	cmp	r3, #191	; 0xbf
      ip4_addr_set_u32(&sn_mask, PP_HTONL(0xffffff00UL));
 802e814:	bf8c      	ite	hi
 802e816:	f06f 437f 	mvnhi.w	r3, #4278190080	; 0xff000000
    } else {
      ip4_addr_set_u32(&sn_mask, PP_HTONL(0xffff0000UL));
 802e81a:	f64f 73ff 	movwls	r3, #65535	; 0xffff
 802e81e:	9300      	str	r3, [sp, #0]
    }
  }

  ip_addr_copy(gw_addr, dhcp->offered_gw_addr);
 802e820:	6ae3      	ldr	r3, [r4, #44]	; 0x2c
 802e822:	9301      	str	r3, [sp, #4]
  /* gateway address not given? */
  if (ip_addr_isany(&gw_addr)) {
 802e824:	b92b      	cbnz	r3, 802e832 <dhcp_bind+0x94>
    /* copy network address */
    ip_addr_get_network(&gw_addr, &dhcp->offered_ip_addr, &sn_mask);
 802e826:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802e828:	9a00      	ldr	r2, [sp, #0]
 802e82a:	4013      	ands	r3, r2
    /* use first host address on network as gateway */
    ip4_addr_set_u32(&gw_addr, ip4_addr_get_u32(&gw_addr) | PP_HTONL(0x00000001UL));
 802e82c:	f043 7380 	orr.w	r3, r3, #16777216	; 0x1000000
 802e830:	9301      	str	r3, [sp, #4]
  }
#endif /* LWIP_DHCP_AUTOIP_COOP */

  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_bind(): IP: 0x%08"X32_F"\n",
    ip4_addr_get_u32(&dhcp->offered_ip_addr)));
  netif_set_ipaddr(netif, &dhcp->offered_ip_addr);
 802e832:	4628      	mov	r0, r5
 802e834:	f104 0124 	add.w	r1, r4, #36	; 0x24
 802e838:	f000 fd6a 	bl	802f310 <netif_set_ipaddr>
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_bind(): SN: 0x%08"X32_F"\n",
    ip4_addr_get_u32(&sn_mask)));
  netif_set_netmask(netif, &sn_mask);
 802e83c:	4628      	mov	r0, r5
 802e83e:	4669      	mov	r1, sp
 802e840:	f000 fda6 	bl	802f390 <netif_set_netmask>
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_bind(): GW: 0x%08"X32_F"\n",
    ip4_addr_get_u32(&gw_addr)));
  netif_set_gw(netif, &gw_addr);
 802e844:	a901      	add	r1, sp, #4
 802e846:	4628      	mov	r0, r5
 802e848:	f000 fd9e 	bl	802f388 <netif_set_gw>
  /* bring the interface up */
  netif_set_up(netif);
 802e84c:	4628      	mov	r0, r5
 802e84e:	f000 fdf5 	bl	802f43c <netif_set_up>
  /* netif is now bound to DHCP leased address */
  dhcp_set_state(dhcp, DHCP_BOUND);
 802e852:	4620      	mov	r0, r4
 802e854:	210a      	movs	r1, #10
 802e856:	f7ff fd1f 	bl	802e298 <dhcp_set_state>
}
 802e85a:	bd3e      	pop	{r1, r2, r3, r4, r5, pc}

0802e85c <dhcp_recv>:
/**
 * If an incoming DHCP message is in response to us, then trigger the state machine
 */
static void
dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
{
 802e85c:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 802e860:	4692      	mov	sl, r2
 802e862:	b08b      	sub	sp, #44	; 0x2c
  LWIP_UNUSED_ARG(addr);
  LWIP_UNUSED_ARG(port);

  LWIP_ASSERT("reply wasn't freed", dhcp->msg_in == NULL);

  if (p->len < DHCP_MIN_REPLY_LEN) {
 802e864:	f8ba 300a 	ldrh.w	r3, [sl, #10]
 */
static void
dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
{
  struct netif *netif = (struct netif *)arg;
  struct dhcp *dhcp = netif->dhcp;
 802e868:	f8d0 8020 	ldr.w	r8, [r0, #32]
  struct dhcp_msg *reply_msg = (struct dhcp_msg *)p->payload;
 802e86c:	6852      	ldr	r2, [r2, #4]
  LWIP_UNUSED_ARG(addr);
  LWIP_UNUSED_ARG(port);

  LWIP_ASSERT("reply wasn't freed", dhcp->msg_in == NULL);

  if (p->len < DHCP_MIN_REPLY_LEN) {
 802e86e:	2b2b      	cmp	r3, #43	; 0x2b
/**
 * If an incoming DHCP message is in response to us, then trigger the state machine
 */
static void
dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
{
 802e870:	4605      	mov	r5, r0
  LWIP_UNUSED_ARG(addr);
  LWIP_UNUSED_ARG(port);

  LWIP_ASSERT("reply wasn't freed", dhcp->msg_in == NULL);

  if (p->len < DHCP_MIN_REPLY_LEN) {
 802e872:	f240 81b8 	bls.w	802ebe6 <dhcp_recv+0x38a>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("DHCP reply message or pbuf too short\n"));
    goto free_pbuf_and_return;
  }

  if (reply_msg->op != DHCP_BOOTREPLY) {
 802e876:	7813      	ldrb	r3, [r2, #0]
 802e878:	2b02      	cmp	r3, #2
 802e87a:	f040 81b4 	bne.w	802ebe6 <dhcp_recv+0x38a>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("not a DHCP reply message, but type %"U16_F"\n", (u16_t)reply_msg->op));
    goto free_pbuf_and_return;
  }
  /* iterate through hardware address and match against DHCP message */
  for (i = 0; i < netif->hwaddr_len; i++) {
 802e87e:	f890 1026 	ldrb.w	r1, [r0, #38]	; 0x26
 802e882:	2300      	movs	r3, #0
 802e884:	e008      	b.n	802e898 <dhcp_recv+0x3c>

/**
 * If an incoming DHCP message is in response to us, then trigger the state machine
 */
static void
dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
 802e886:	18e8      	adds	r0, r5, r3
 802e888:	3301      	adds	r3, #1
 802e88a:	18d4      	adds	r4, r2, r3
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("not a DHCP reply message, but type %"U16_F"\n", (u16_t)reply_msg->op));
    goto free_pbuf_and_return;
  }
  /* iterate through hardware address and match against DHCP message */
  for (i = 0; i < netif->hwaddr_len; i++) {
    if (netif->hwaddr[i] != reply_msg->chaddr[i]) {
 802e88c:	f890 0027 	ldrb.w	r0, [r0, #39]	; 0x27
 802e890:	7ee4      	ldrb	r4, [r4, #27]
 802e892:	4284      	cmp	r4, r0
 802e894:	f040 81a7 	bne.w	802ebe6 <dhcp_recv+0x38a>
  if (reply_msg->op != DHCP_BOOTREPLY) {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("not a DHCP reply message, but type %"U16_F"\n", (u16_t)reply_msg->op));
    goto free_pbuf_and_return;
  }
  /* iterate through hardware address and match against DHCP message */
  for (i = 0; i < netif->hwaddr_len; i++) {
 802e898:	b2d8      	uxtb	r0, r3
 802e89a:	4288      	cmp	r0, r1
 802e89c:	d3f3      	bcc.n	802e886 <dhcp_recv+0x2a>
        (u16_t)i, (u16_t)netif->hwaddr[i], (u16_t)i, (u16_t)reply_msg->chaddr[i]));
      goto free_pbuf_and_return;
    }
  }
  /* match transaction ID against what we expected */
  if (ntohl(reply_msg->xid) != dhcp->xid) {
 802e89e:	6850      	ldr	r0, [r2, #4]
 802e8a0:	f7ff fcf8 	bl	802e294 <lwip_ntohl>
 802e8a4:	f8d8 3000 	ldr.w	r3, [r8]
 802e8a8:	4298      	cmp	r0, r3
 802e8aa:	f040 819c 	bne.w	802ebe6 <dhcp_recv+0x38a>
  struct pbuf *q;
  int parse_file_as_options = 0;
  int parse_sname_as_options = 0;

  /* clear received options */
  dhcp_clear_all_options(dhcp);
 802e8ae:	2100      	movs	r1, #0
 802e8b0:	220a      	movs	r2, #10
 802e8b2:	489d      	ldr	r0, [pc, #628]	; (802eb28 <dhcp_recv+0x2cc>)
 802e8b4:	f7f3 fa74 	bl	8021da0 <memset>
  /* check that beginning of dhcp_msg (up to and including chaddr) is in first pbuf */
  if (p->len < DHCP_SNAME_OFS) {
 802e8b8:	f8ba 300a 	ldrh.w	r3, [sl, #10]
 802e8bc:	2b2b      	cmp	r3, #43	; 0x2b
 802e8be:	f240 8192 	bls.w	802ebe6 <dhcp_recv+0x38a>
    return ERR_BUF;
  }
  dhcp->msg_in = (struct dhcp_msg *)p->payload;
 802e8c2:	f8da 3004 	ldr.w	r3, [sl, #4]
  /* parse options */

  /* start with options field */
  options_idx = DHCP_OPTIONS_OFS;
  /* parse options to the end of the received packet */
  options_idx_max = p->tot_len;
 802e8c6:	f8ba 9008 	ldrh.w	r9, [sl, #8]
  dhcp_clear_all_options(dhcp);
  /* check that beginning of dhcp_msg (up to and including chaddr) is in first pbuf */
  if (p->len < DHCP_SNAME_OFS) {
    return ERR_BUF;
  }
  dhcp->msg_in = (struct dhcp_msg *)p->payload;
 802e8ca:	f8c8 3008 	str.w	r3, [r8, #8]
  u16_t offset_max;
  u16_t options_idx;
  u16_t options_idx_max;
  struct pbuf *q;
  int parse_file_as_options = 0;
  int parse_sname_as_options = 0;
 802e8ce:	f04f 0b00 	mov.w	fp, #0
#endif /* LWIP_DHCP_BOOTP_FILE */

  /* parse options */

  /* start with options field */
  options_idx = DHCP_OPTIONS_OFS;
 802e8d2:	22f0      	movs	r2, #240	; 0xf0
 802e8d4:	e004      	b.n	802e8e0 <dhcp_recv+0x84>
    parse_file_as_options = 0;
    options_idx = DHCP_FILE_OFS;
    options_idx_max = DHCP_FILE_OFS + DHCP_FILE_LEN;
    goto again;
  } else if (parse_sname_as_options) {
    parse_sname_as_options = 0;
 802e8d6:	f04f 0b00 	mov.w	fp, #0
    options_idx = DHCP_SNAME_OFS;
    options_idx_max = DHCP_SNAME_OFS + DHCP_SNAME_LEN;
 802e8da:	f04f 096c 	mov.w	r9, #108	; 0x6c
    options_idx = DHCP_FILE_OFS;
    options_idx_max = DHCP_FILE_OFS + DHCP_FILE_LEN;
    goto again;
  } else if (parse_sname_as_options) {
    parse_sname_as_options = 0;
    options_idx = DHCP_SNAME_OFS;
 802e8de:	222c      	movs	r2, #44	; 0x2c
#endif /* LWIP_DHCP_BOOTP_FILE */

  /* parse options */

  /* start with options field */
  options_idx = DHCP_OPTIONS_OFS;
 802e8e0:	4657      	mov	r7, sl
 802e8e2:	e009      	b.n	802e8f8 <dhcp_recv+0x9c>
again:
  q = p;
  while((q != NULL) && (options_idx >= q->len)) {
    options_idx -= q->len;
    options_idx_max -= q->len;
    q = q->next;
 802e8e4:	683f      	ldr	r7, [r7, #0]
  /* parse options to the end of the received packet */
  options_idx_max = p->tot_len;
again:
  q = p;
  while((q != NULL) && (options_idx >= q->len)) {
    options_idx -= q->len;
 802e8e6:	1ad2      	subs	r2, r2, r3
    options_idx_max -= q->len;
 802e8e8:	ebc3 0909 	rsb	r9, r3, r9
  /* parse options to the end of the received packet */
  options_idx_max = p->tot_len;
again:
  q = p;
  while((q != NULL) && (options_idx >= q->len)) {
    options_idx -= q->len;
 802e8ec:	b292      	uxth	r2, r2
    options_idx_max -= q->len;
 802e8ee:	fa1f f989 	uxth.w	r9, r9
  options_idx = DHCP_OPTIONS_OFS;
  /* parse options to the end of the received packet */
  options_idx_max = p->tot_len;
again:
  q = p;
  while((q != NULL) && (options_idx >= q->len)) {
 802e8f2:	2f00      	cmp	r7, #0
 802e8f4:	f000 8177 	beq.w	802ebe6 <dhcp_recv+0x38a>
 802e8f8:	897b      	ldrh	r3, [r7, #10]
 802e8fa:	429a      	cmp	r2, r3
 802e8fc:	d2f2      	bcs.n	802e8e4 <dhcp_recv+0x88>
  if (q == NULL) {
    return ERR_BUF;
  }
  offset = options_idx;
  offset_max = options_idx_max;
  options = (u8_t*)q->payload;
 802e8fe:	6878      	ldr	r0, [r7, #4]
 802e900:	9003      	str	r0, [sp, #12]
 802e902:	e0db      	b.n	802eabc <dhcp_recv+0x260>
    u8_t len;
    u8_t decode_len = 0;
    int decode_idx = -1;
    u16_t val_offset = offset + 2;
    /* len byte might be in the next pbuf */
    if (offset + 1 < q->len) {
 802e904:	897b      	ldrh	r3, [r7, #10]
 802e906:	1c50      	adds	r0, r2, #1
 802e908:	4298      	cmp	r0, r3
 802e90a:	da03      	bge.n	802e914 <dhcp_recv+0xb8>
      len = options[offset + 1];
 802e90c:	9803      	ldr	r0, [sp, #12]
 802e90e:	1883      	adds	r3, r0, r2
 802e910:	785b      	ldrb	r3, [r3, #1]
 802e912:	e003      	b.n	802e91c <dhcp_recv+0xc0>
    } else {
      len = (q->next != NULL ? ((u8_t*)q->next->payload)[0] : 0);
 802e914:	683b      	ldr	r3, [r7, #0]
 802e916:	b10b      	cbz	r3, 802e91c <dhcp_recv+0xc0>
 802e918:	685b      	ldr	r3, [r3, #4]
 802e91a:	781b      	ldrb	r3, [r3, #0]
    }
    /* LWIP_DEBUGF(DHCP_DEBUG, ("msg_offset=%"U16_F", q->len=%"U16_F, msg_offset, q->len)); */
    decode_len = len;
    switch(op) {
 802e91c:	2933      	cmp	r1, #51	; 0x33
 802e91e:	d038      	beq.n	802e992 <dhcp_recv+0x136>
 802e920:	d807      	bhi.n	802e932 <dhcp_recv+0xd6>
 802e922:	2901      	cmp	r1, #1
 802e924:	d019      	beq.n	802e95a <dhcp_recv+0xfe>
 802e926:	d311      	bcc.n	802e94c <dhcp_recv+0xf0>
 802e928:	2903      	cmp	r1, #3
 802e92a:	d01d      	beq.n	802e968 <dhcp_recv+0x10c>
 802e92c:	2906      	cmp	r1, #6
 802e92e:	d155      	bne.n	802e9dc <dhcp_recv+0x180>
 802e930:	e021      	b.n	802e976 <dhcp_recv+0x11a>
 802e932:	2936      	cmp	r1, #54	; 0x36
 802e934:	d03d      	beq.n	802e9b2 <dhcp_recv+0x156>
 802e936:	d804      	bhi.n	802e942 <dhcp_recv+0xe6>
 802e938:	2934      	cmp	r1, #52	; 0x34
 802e93a:	d031      	beq.n	802e9a0 <dhcp_recv+0x144>
 802e93c:	2935      	cmp	r1, #53	; 0x35
 802e93e:	d14d      	bne.n	802e9dc <dhcp_recv+0x180>
 802e940:	e035      	b.n	802e9ae <dhcp_recv+0x152>
 802e942:	293a      	cmp	r1, #58	; 0x3a
 802e944:	d03c      	beq.n	802e9c0 <dhcp_recv+0x164>
 802e946:	293b      	cmp	r1, #59	; 0x3b
 802e948:	d148      	bne.n	802e9dc <dhcp_recv+0x180>
 802e94a:	e040      	b.n	802e9ce <dhcp_recv+0x172>
      /* case(DHCP_OPTION_END): handled above */
      case(DHCP_OPTION_PAD):
        /* special option: no len encoded */
        decode_len = len = 0;
        /* will be increased below */
        offset--;
 802e94c:	1e51      	subs	r1, r2, #1
    decode_len = len;
    switch(op) {
      /* case(DHCP_OPTION_END): handled above */
      case(DHCP_OPTION_PAD):
        /* special option: no len encoded */
        decode_len = len = 0;
 802e94e:	2300      	movs	r3, #0
        /* will be increased below */
        offset--;
 802e950:	b289      	uxth	r1, r1
  /* at least 1 byte to read and no end marker, then at least 3 bytes to read? */
  while((q != NULL) && (options[offset] != DHCP_OPTION_END) && (offset < offset_max)) {
    u8_t op = options[offset];
    u8_t len;
    u8_t decode_len = 0;
    int decode_idx = -1;
 802e952:	f04f 34ff 	mov.w	r4, #4294967295
    decode_len = len;
    switch(op) {
      /* case(DHCP_OPTION_END): handled above */
      case(DHCP_OPTION_PAD):
        /* special option: no len encoded */
        decode_len = len = 0;
 802e956:	461e      	mov	r6, r3
 802e958:	e044      	b.n	802e9e4 <dhcp_recv+0x188>
        /* will be increased below */
        offset--;
        break;
      case(DHCP_OPTION_SUBNET_MASK):
        LWIP_ERROR("len == 4", len == 4, return ERR_VAL;);
 802e95a:	2b04      	cmp	r3, #4
 802e95c:	f040 8143 	bne.w	802ebe6 <dhcp_recv+0x38a>
 802e960:	461e      	mov	r6, r3
 802e962:	4611      	mov	r1, r2
        decode_idx = DHCP_OPTION_IDX_SUBNET_MASK;
 802e964:	2406      	movs	r4, #6
 802e966:	e03d      	b.n	802e9e4 <dhcp_recv+0x188>
        break;
      case(DHCP_OPTION_ROUTER):
        decode_len = 4; /* only copy the first given router */
        LWIP_ERROR("len >= decode_len", len >= decode_len, return ERR_VAL;);
 802e968:	2b03      	cmp	r3, #3
 802e96a:	f240 813c 	bls.w	802ebe6 <dhcp_recv+0x38a>
 802e96e:	4611      	mov	r1, r2
        decode_idx = DHCP_OPTION_IDX_ROUTER;
 802e970:	2407      	movs	r4, #7
      case(DHCP_OPTION_SUBNET_MASK):
        LWIP_ERROR("len == 4", len == 4, return ERR_VAL;);
        decode_idx = DHCP_OPTION_IDX_SUBNET_MASK;
        break;
      case(DHCP_OPTION_ROUTER):
        decode_len = 4; /* only copy the first given router */
 802e972:	2604      	movs	r6, #4
 802e974:	e036      	b.n	802e9e4 <dhcp_recv+0x188>
        LWIP_ERROR("len >= decode_len", len >= decode_len, return ERR_VAL;);
        decode_idx = DHCP_OPTION_IDX_ROUTER;
        break;
      case(DHCP_OPTION_DNS_SERVER):
        /* special case: there might be more than one server */
        LWIP_ERROR("len % 4 == 0", len % 4 == 0, return ERR_VAL;);
 802e976:	0799      	lsls	r1, r3, #30
 802e978:	f040 8135 	bne.w	802ebe6 <dhcp_recv+0x38a>
        /* limit number of DNS servers */
        decode_len = LWIP_MIN(len, 4 * DNS_MAX_SERVERS);
 802e97c:	2b08      	cmp	r3, #8
 802e97e:	bf34      	ite	cc
 802e980:	461e      	movcc	r6, r3
 802e982:	2608      	movcs	r6, #8
 802e984:	b2f6      	uxtb	r6, r6
        LWIP_ERROR("len >= decode_len", len >= decode_len, return ERR_VAL;);
 802e986:	42b3      	cmp	r3, r6
 802e988:	f0c0 812d 	bcc.w	802ebe6 <dhcp_recv+0x38a>
 802e98c:	4611      	mov	r1, r2
        decode_idx = DHCP_OPTION_IDX_DNS_SERVER;
 802e98e:	2408      	movs	r4, #8
 802e990:	e028      	b.n	802e9e4 <dhcp_recv+0x188>
        break;
      case(DHCP_OPTION_LEASE_TIME):
        LWIP_ERROR("len == 4", len == 4, return ERR_VAL;);
 802e992:	2b04      	cmp	r3, #4
 802e994:	f040 8127 	bne.w	802ebe6 <dhcp_recv+0x38a>
 802e998:	461e      	mov	r6, r3
 802e99a:	4611      	mov	r1, r2
        decode_idx = DHCP_OPTION_IDX_LEASE_TIME;
 802e99c:	2403      	movs	r4, #3
 802e99e:	e021      	b.n	802e9e4 <dhcp_recv+0x188>
        break;
      case(DHCP_OPTION_OVERLOAD):
        LWIP_ERROR("len == 1", len == 1, return ERR_VAL;);
 802e9a0:	2b01      	cmp	r3, #1
 802e9a2:	f040 8120 	bne.w	802ebe6 <dhcp_recv+0x38a>
 802e9a6:	461e      	mov	r6, r3
 802e9a8:	4611      	mov	r1, r2
        decode_idx = DHCP_OPTION_IDX_OVERLOAD;
 802e9aa:	2400      	movs	r4, #0
 802e9ac:	e01a      	b.n	802e9e4 <dhcp_recv+0x188>
        break;
      case(DHCP_OPTION_MESSAGE_TYPE):
        LWIP_ERROR("len == 1", len == 1, return ERR_VAL;);
 802e9ae:	2b01      	cmp	r3, #1
 802e9b0:	e007      	b.n	802e9c2 <dhcp_recv+0x166>
        decode_idx = DHCP_OPTION_IDX_MSG_TYPE;
        break;
      case(DHCP_OPTION_SERVER_ID):
        LWIP_ERROR("len == 4", len == 4, return ERR_VAL;);
 802e9b2:	2b04      	cmp	r3, #4
 802e9b4:	f040 8117 	bne.w	802ebe6 <dhcp_recv+0x38a>
 802e9b8:	461e      	mov	r6, r3
 802e9ba:	4611      	mov	r1, r2
        decode_idx = DHCP_OPTION_IDX_SERVER_ID;
 802e9bc:	2402      	movs	r4, #2
 802e9be:	e011      	b.n	802e9e4 <dhcp_recv+0x188>
        break;
      case(DHCP_OPTION_T1):
        LWIP_ERROR("len == 4", len == 4, return ERR_VAL;);
 802e9c0:	2b04      	cmp	r3, #4
 802e9c2:	f040 8110 	bne.w	802ebe6 <dhcp_recv+0x38a>
 802e9c6:	461e      	mov	r6, r3
 802e9c8:	4611      	mov	r1, r2
        decode_idx = DHCP_OPTION_IDX_T1;
 802e9ca:	461c      	mov	r4, r3
 802e9cc:	e00a      	b.n	802e9e4 <dhcp_recv+0x188>
        break;
      case(DHCP_OPTION_T2):
        LWIP_ERROR("len == 4", len == 4, return ERR_VAL;);
 802e9ce:	2b04      	cmp	r3, #4
 802e9d0:	f040 8109 	bne.w	802ebe6 <dhcp_recv+0x38a>
 802e9d4:	461e      	mov	r6, r3
 802e9d6:	4611      	mov	r1, r2
        decode_idx = DHCP_OPTION_IDX_T2;
 802e9d8:	2405      	movs	r4, #5
 802e9da:	e003      	b.n	802e9e4 <dhcp_recv+0x188>
    } else {
      len = (q->next != NULL ? ((u8_t*)q->next->payload)[0] : 0);
    }
    /* LWIP_DEBUGF(DHCP_DEBUG, ("msg_offset=%"U16_F", q->len=%"U16_F, msg_offset, q->len)); */
    decode_len = len;
    switch(op) {
 802e9dc:	4611      	mov	r1, r2
  /* at least 1 byte to read and no end marker, then at least 3 bytes to read? */
  while((q != NULL) && (options[offset] != DHCP_OPTION_END) && (offset < offset_max)) {
    u8_t op = options[offset];
    u8_t len;
    u8_t decode_len = 0;
    int decode_idx = -1;
 802e9de:	f04f 34ff 	mov.w	r4, #4294967295
      case(DHCP_OPTION_T2):
        LWIP_ERROR("len == 4", len == 4, return ERR_VAL;);
        decode_idx = DHCP_OPTION_IDX_T2;
        break;
      default:
        decode_len = 0;
 802e9e2:	2600      	movs	r6, #0
        LWIP_DEBUGF(DHCP_DEBUG, ("skipping option %"U16_F" in options\n", op));
        break;
    }
    offset += len + 2;
 802e9e4:	3102      	adds	r1, #2
 802e9e6:	fa13 f381 	uxtah	r3, r3, r1
 802e9ea:	b29b      	uxth	r3, r3
 802e9ec:	9301      	str	r3, [sp, #4]
    if (decode_len > 0) {
 802e9ee:	2e00      	cmp	r6, #0
 802e9f0:	d04f      	beq.n	802ea92 <dhcp_recv+0x236>
  while((q != NULL) && (options[offset] != DHCP_OPTION_END) && (offset < offset_max)) {
    u8_t op = options[offset];
    u8_t len;
    u8_t decode_len = 0;
    int decode_idx = -1;
    u16_t val_offset = offset + 2;
 802e9f2:	3202      	adds	r2, #2
 802e9f4:	b292      	uxth	r2, r2
        LWIP_DEBUGF(DHCP_DEBUG, ("skipping option %"U16_F" in options\n", op));
        break;
    }
    offset += len + 2;
    if (decode_len > 0) {
      u32_t value = 0;
 802e9f6:	a90a      	add	r1, sp, #40	; 0x28
  while((q != NULL) && (options[offset] != DHCP_OPTION_END) && (offset < offset_max)) {
    u8_t op = options[offset];
    u8_t len;
    u8_t decode_len = 0;
    int decode_idx = -1;
    u16_t val_offset = offset + 2;
 802e9f8:	9205      	str	r2, [sp, #20]
        LWIP_DEBUGF(DHCP_DEBUG, ("skipping option %"U16_F" in options\n", op));
        break;
    }
    offset += len + 2;
    if (decode_len > 0) {
      u32_t value = 0;
 802e9fa:	2300      	movs	r3, #0

/**
 * If an incoming DHCP message is in response to us, then trigger the state machine
 */
static void
dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
 802e9fc:	4a4b      	ldr	r2, [pc, #300]	; (802eb2c <dhcp_recv+0x2d0>)
        LWIP_DEBUGF(DHCP_DEBUG, ("skipping option %"U16_F" in options\n", op));
        break;
    }
    offset += len + 2;
    if (decode_len > 0) {
      u32_t value = 0;
 802e9fe:	f841 3d04 	str.w	r3, [r1, #-4]!

/**
 * If an incoming DHCP message is in response to us, then trigger the state machine
 */
static void
dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
 802ea02:	eb02 0284 	add.w	r2, r2, r4, lsl #2
        LWIP_DEBUGF(DHCP_DEBUG, ("skipping option %"U16_F" in options\n", op));
        break;
    }
    offset += len + 2;
    if (decode_len > 0) {
      u32_t value = 0;
 802ea06:	9104      	str	r1, [sp, #16]

/**
 * If an incoming DHCP message is in response to us, then trigger the state machine
 */
static void
dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
 802ea08:	9206      	str	r2, [sp, #24]
 802ea0a:	9302      	str	r3, [sp, #8]
 802ea0c:	9805      	ldr	r0, [sp, #20]
 802ea0e:	9902      	ldr	r1, [sp, #8]
    if (decode_len > 0) {
      u32_t value = 0;
      u16_t copy_len;
decode_next:
      LWIP_ASSERT("check decode_idx", decode_idx >= 0 && decode_idx < DHCP_OPTION_IDX_MAX);
      if (!dhcp_option_given(dhcp, decode_idx)) {
 802ea10:	4a45      	ldr	r2, [pc, #276]	; (802eb28 <dhcp_recv+0x2cc>)

/**
 * If an incoming DHCP message is in response to us, then trigger the state machine
 */
static void
dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
 802ea12:	1843      	adds	r3, r0, r1
    if (decode_len > 0) {
      u32_t value = 0;
      u16_t copy_len;
decode_next:
      LWIP_ASSERT("check decode_idx", decode_idx >= 0 && decode_idx < DHCP_OPTION_IDX_MAX);
      if (!dhcp_option_given(dhcp, decode_idx)) {
 802ea14:	4844      	ldr	r0, [pc, #272]	; (802eb28 <dhcp_recv+0x2cc>)
 802ea16:	18a2      	adds	r2, r4, r2
 802ea18:	9207      	str	r2, [sp, #28]
 802ea1a:	5c22      	ldrb	r2, [r4, r0]

/**
 * If an incoming DHCP message is in response to us, then trigger the state machine
 */
static void
dhcp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
 802ea1c:	ebc1 0c06 	rsb	ip, r1, r6
 802ea20:	b29b      	uxth	r3, r3
 802ea22:	fa5f fc8c 	uxtb.w	ip, ip
    if (decode_len > 0) {
      u32_t value = 0;
      u16_t copy_len;
decode_next:
      LWIP_ASSERT("check decode_idx", decode_idx >= 0 && decode_idx < DHCP_OPTION_IDX_MAX);
      if (!dhcp_option_given(dhcp, decode_idx)) {
 802ea26:	2a00      	cmp	r2, #0
 802ea28:	d133      	bne.n	802ea92 <dhcp_recv+0x236>
        copy_len = LWIP_MIN(decode_len, 4);
        pbuf_copy_partial(q, &value, copy_len, val_offset);
 802ea2a:	f1bc 0f03 	cmp.w	ip, #3
 802ea2e:	bf94      	ite	ls
 802ea30:	4662      	movls	r2, ip
 802ea32:	2204      	movhi	r2, #4
 802ea34:	4638      	mov	r0, r7
 802ea36:	9904      	ldr	r1, [sp, #16]
 802ea38:	f8cd c000 	str.w	ip, [sp]
 802ea3c:	f000 feaa 	bl	802f794 <pbuf_copy_partial>
        if (decode_len > 4) {
 802ea40:	f8dd c000 	ldr.w	ip, [sp]
 802ea44:	f1bc 0f04 	cmp.w	ip, #4
 802ea48:	d90f      	bls.n	802ea6a <dhcp_recv+0x20e>
          /* decode more than one u32_t */
          LWIP_ERROR("decode_len % 4 == 0", decode_len % 4 == 0, return ERR_VAL;);
 802ea4a:	f01c 0f03 	tst.w	ip, #3
 802ea4e:	f040 80ca 	bne.w	802ebe6 <dhcp_recv+0x38a>
          dhcp_got_option(dhcp, decode_idx);
 802ea52:	9907      	ldr	r1, [sp, #28]
          dhcp_set_option_value(dhcp, decode_idx, htonl(value));
 802ea54:	9809      	ldr	r0, [sp, #36]	; 0x24
        copy_len = LWIP_MIN(decode_len, 4);
        pbuf_copy_partial(q, &value, copy_len, val_offset);
        if (decode_len > 4) {
          /* decode more than one u32_t */
          LWIP_ERROR("decode_len % 4 == 0", decode_len % 4 == 0, return ERR_VAL;);
          dhcp_got_option(dhcp, decode_idx);
 802ea56:	2201      	movs	r2, #1
 802ea58:	700a      	strb	r2, [r1, #0]
          dhcp_set_option_value(dhcp, decode_idx, htonl(value));
 802ea5a:	f7ff fc19 	bl	802e290 <lwip_htonl>
 802ea5e:	9b02      	ldr	r3, [sp, #8]
 802ea60:	9906      	ldr	r1, [sp, #24]
          decode_len -= 4;
          val_offset += 4;
          decode_idx++;
 802ea62:	3401      	adds	r4, #1
        pbuf_copy_partial(q, &value, copy_len, val_offset);
        if (decode_len > 4) {
          /* decode more than one u32_t */
          LWIP_ERROR("decode_len % 4 == 0", decode_len % 4 == 0, return ERR_VAL;);
          dhcp_got_option(dhcp, decode_idx);
          dhcp_set_option_value(dhcp, decode_idx, htonl(value));
 802ea64:	50c8      	str	r0, [r1, r3]
 802ea66:	3304      	adds	r3, #4
 802ea68:	e7cf      	b.n	802ea0a <dhcp_recv+0x1ae>
          decode_len -= 4;
          val_offset += 4;
          decode_idx++;
          goto decode_next;
        } else if (decode_len == 4) {
 802ea6a:	d104      	bne.n	802ea76 <dhcp_recv+0x21a>
          value = ntohl(value);
 802ea6c:	9809      	ldr	r0, [sp, #36]	; 0x24
 802ea6e:	f7ff fc11 	bl	802e294 <lwip_ntohl>
 802ea72:	9009      	str	r0, [sp, #36]	; 0x24
 802ea74:	e006      	b.n	802ea84 <dhcp_recv+0x228>
        } else {
          LWIP_ERROR("invalid decode_len", decode_len == 1, return ERR_VAL;);
 802ea76:	f1bc 0f01 	cmp.w	ip, #1
 802ea7a:	f040 80b4 	bne.w	802ebe6 <dhcp_recv+0x38a>
          value = ((u8_t*)&value)[0];
 802ea7e:	f89d 3024 	ldrb.w	r3, [sp, #36]	; 0x24
 802ea82:	9309      	str	r3, [sp, #36]	; 0x24
        }
        dhcp_got_option(dhcp, decode_idx);
 802ea84:	4a28      	ldr	r2, [pc, #160]	; (802eb28 <dhcp_recv+0x2cc>)
        dhcp_set_option_value(dhcp, decode_idx, value);
 802ea86:	4829      	ldr	r0, [pc, #164]	; (802eb2c <dhcp_recv+0x2d0>)
          value = ntohl(value);
        } else {
          LWIP_ERROR("invalid decode_len", decode_len == 1, return ERR_VAL;);
          value = ((u8_t*)&value)[0];
        }
        dhcp_got_option(dhcp, decode_idx);
 802ea88:	2301      	movs	r3, #1
 802ea8a:	5513      	strb	r3, [r2, r4]
        dhcp_set_option_value(dhcp, decode_idx, value);
 802ea8c:	9b09      	ldr	r3, [sp, #36]	; 0x24
 802ea8e:	f840 3024 	str.w	r3, [r0, r4, lsl #2]
      }
    }
    if (offset >= q->len) {
 802ea92:	897b      	ldrh	r3, [r7, #10]
 802ea94:	9901      	ldr	r1, [sp, #4]
 802ea96:	4299      	cmp	r1, r3
 802ea98:	d30f      	bcc.n	802eaba <dhcp_recv+0x25e>
      offset -= q->len;
 802ea9a:	1aca      	subs	r2, r1, r3
      offset_max -= q->len;
 802ea9c:	ebc3 0909 	rsb	r9, r3, r9
        dhcp_got_option(dhcp, decode_idx);
        dhcp_set_option_value(dhcp, decode_idx, value);
      }
    }
    if (offset >= q->len) {
      offset -= q->len;
 802eaa0:	b292      	uxth	r2, r2
      offset_max -= q->len;
 802eaa2:	fa1f f989 	uxth.w	r9, r9
      if ((offset < offset_max) && offset_max) {
 802eaa6:	454a      	cmp	r2, r9
        dhcp_got_option(dhcp, decode_idx);
        dhcp_set_option_value(dhcp, decode_idx, value);
      }
    }
    if (offset >= q->len) {
      offset -= q->len;
 802eaa8:	9201      	str	r2, [sp, #4]
      offset_max -= q->len;
      if ((offset < offset_max) && offset_max) {
 802eaaa:	d303      	bcc.n	802eab4 <dhcp_recv+0x258>
        break;
      }
    }
  }
  /* is this an overloaded message? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_OVERLOAD)) {
 802eaac:	4a1e      	ldr	r2, [pc, #120]	; (802eb28 <dhcp_recv+0x2cc>)
 802eaae:	7813      	ldrb	r3, [r2, #0]
 802eab0:	b963      	cbnz	r3, 802eacc <dhcp_recv+0x270>
 802eab2:	e09f      	b.n	802ebf4 <dhcp_recv+0x398>
    }
    if (offset >= q->len) {
      offset -= q->len;
      offset_max -= q->len;
      if ((offset < offset_max) && offset_max) {
        q = q->next;
 802eab4:	683f      	ldr	r7, [r7, #0]
        LWIP_ASSERT("next pbuf was null", q);
        options = (u8_t*)q->payload;
 802eab6:	687b      	ldr	r3, [r7, #4]
 802eab8:	9303      	str	r3, [sp, #12]
      u32_t value = 0;
      u16_t copy_len;
decode_next:
      LWIP_ASSERT("check decode_idx", decode_idx >= 0 && decode_idx < DHCP_OPTION_IDX_MAX);
      if (!dhcp_option_given(dhcp, decode_idx)) {
        copy_len = LWIP_MIN(decode_len, 4);
 802eaba:	9a01      	ldr	r2, [sp, #4]
  }
  offset = options_idx;
  offset_max = options_idx_max;
  options = (u8_t*)q->payload;
  /* at least 1 byte to read and no end marker, then at least 3 bytes to read? */
  while((q != NULL) && (options[offset] != DHCP_OPTION_END) && (offset < offset_max)) {
 802eabc:	9803      	ldr	r0, [sp, #12]
 802eabe:	5c81      	ldrb	r1, [r0, r2]
 802eac0:	29ff      	cmp	r1, #255	; 0xff
 802eac2:	d0f3      	beq.n	802eaac <dhcp_recv+0x250>
 802eac4:	454a      	cmp	r2, r9
 802eac6:	f4ff af1d 	bcc.w	802e904 <dhcp_recv+0xa8>
 802eaca:	e7ef      	b.n	802eaac <dhcp_recv+0x250>
      }
    }
  }
  /* is this an overloaded message? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_OVERLOAD)) {
    u32_t overload = dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_OVERLOAD);
 802eacc:	4b17      	ldr	r3, [pc, #92]	; (802eb2c <dhcp_recv+0x2d0>)
    dhcp_clear_option(dhcp, DHCP_OPTION_IDX_OVERLOAD);
 802eace:	4916      	ldr	r1, [pc, #88]	; (802eb28 <dhcp_recv+0x2cc>)
      }
    }
  }
  /* is this an overloaded message? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_OVERLOAD)) {
    u32_t overload = dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_OVERLOAD);
 802ead0:	681b      	ldr	r3, [r3, #0]
    dhcp_clear_option(dhcp, DHCP_OPTION_IDX_OVERLOAD);
 802ead2:	2200      	movs	r2, #0
    if (overload == DHCP_OVERLOAD_FILE) {
 802ead4:	2b01      	cmp	r3, #1
    }
  }
  /* is this an overloaded message? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_OVERLOAD)) {
    u32_t overload = dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_OVERLOAD);
    dhcp_clear_option(dhcp, DHCP_OPTION_IDX_OVERLOAD);
 802ead6:	700a      	strb	r2, [r1, #0]
    if (overload == DHCP_OVERLOAD_FILE) {
 802ead8:	f000 8093 	beq.w	802ec02 <dhcp_recv+0x3a6>
      parse_file_as_options = 1;
      LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("overloaded file field\n"));
    } else if (overload == DHCP_OVERLOAD_SNAME) {
 802eadc:	2b02      	cmp	r3, #2
 802eade:	f43f aefa 	beq.w	802e8d6 <dhcp_recv+0x7a>
      parse_sname_as_options = 1;
      LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("overloaded sname field\n"));
    } else if (overload == DHCP_OVERLOAD_SNAME_FILE) {
 802eae2:	2b03      	cmp	r3, #3
 802eae4:	f040 8086 	bne.w	802ebf4 <dhcp_recv+0x398>
 802eae8:	e089      	b.n	802ebfe <dhcp_recv+0x3a2>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("DHCP_OPTION_MESSAGE_TYPE option not found\n"));
    goto free_pbuf_and_return;
  }

  /* read DHCP message type */
  msg_type = (u8_t)dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_MSG_TYPE);
 802eaea:	4a10      	ldr	r2, [pc, #64]	; (802eb2c <dhcp_recv+0x2d0>)
 802eaec:	7911      	ldrb	r1, [r2, #4]
  /* message type is DHCP ACK? */
  if (msg_type == DHCP_ACK) {
 802eaee:	2905      	cmp	r1, #5
 802eaf0:	d140      	bne.n	802eb74 <dhcp_recv+0x318>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("DHCP_ACK received\n"));
    /* in requesting state? */
    if (dhcp->state == DHCP_REQUESTING) {
 802eaf2:	f898 100c 	ldrb.w	r1, [r8, #12]
 802eaf6:	2901      	cmp	r1, #1
 802eaf8:	d135      	bne.n	802eb66 <dhcp_recv+0x30a>
 * @param netif the netif under DHCP control
 */
static void
dhcp_handle_ack(struct netif *netif)
{
  struct dhcp *dhcp = netif->dhcp;
 802eafa:	6a2c      	ldr	r4, [r5, #32]
#if LWIP_DHCP_BOOTP_FILE
  ip_addr_set_zero(&dhcp->offered_si_addr);
#endif /* LWIP_DHCP_BOOTP_FILE */

  /* lease time given? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_LEASE_TIME)) {
 802eafc:	78db      	ldrb	r3, [r3, #3]
#if LWIP_DNS
  u8_t n;
#endif /* LWIP_DNS */

  /* clear options we might not get from the ACK */
  ip_addr_set_zero(&dhcp->offered_sn_mask);
 802eafe:	f8c4 b028 	str.w	fp, [r4, #40]	; 0x28
  ip_addr_set_zero(&dhcp->offered_gw_addr);
 802eb02:	f8c4 b02c 	str.w	fp, [r4, #44]	; 0x2c
#if LWIP_DHCP_BOOTP_FILE
  ip_addr_set_zero(&dhcp->offered_si_addr);
#endif /* LWIP_DHCP_BOOTP_FILE */

  /* lease time given? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_LEASE_TIME)) {
 802eb06:	b10b      	cbz	r3, 802eb0c <dhcp_recv+0x2b0>
    /* remember offered lease time */
    dhcp->offered_t0_lease = dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_LEASE_TIME);
 802eb08:	68d3      	ldr	r3, [r2, #12]
 802eb0a:	6323      	str	r3, [r4, #48]	; 0x30
  }
  /* renewal period given? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_T1)) {
 802eb0c:	4b06      	ldr	r3, [pc, #24]	; (802eb28 <dhcp_recv+0x2cc>)
 802eb0e:	791a      	ldrb	r2, [r3, #4]
 802eb10:	b112      	cbz	r2, 802eb18 <dhcp_recv+0x2bc>
    /* remember given renewal period */
    dhcp->offered_t1_renew = dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_T1);
 802eb12:	4a06      	ldr	r2, [pc, #24]	; (802eb2c <dhcp_recv+0x2d0>)
 802eb14:	6912      	ldr	r2, [r2, #16]
 802eb16:	e001      	b.n	802eb1c <dhcp_recv+0x2c0>
  } else {
    /* calculate safe periods for renewal */
    dhcp->offered_t1_renew = dhcp->offered_t0_lease / 2;
 802eb18:	6b22      	ldr	r2, [r4, #48]	; 0x30
 802eb1a:	0852      	lsrs	r2, r2, #1
  }

  /* renewal period given? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_T2)) {
 802eb1c:	795b      	ldrb	r3, [r3, #5]
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_T1)) {
    /* remember given renewal period */
    dhcp->offered_t1_renew = dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_T1);
  } else {
    /* calculate safe periods for renewal */
    dhcp->offered_t1_renew = dhcp->offered_t0_lease / 2;
 802eb1e:	6362      	str	r2, [r4, #52]	; 0x34
  }

  /* renewal period given? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_T2)) {
 802eb20:	b133      	cbz	r3, 802eb30 <dhcp_recv+0x2d4>
    /* remember given rebind period */
    dhcp->offered_t2_rebind = dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_T2);
 802eb22:	4b02      	ldr	r3, [pc, #8]	; (802eb2c <dhcp_recv+0x2d0>)
 802eb24:	695b      	ldr	r3, [r3, #20]
 802eb26:	e004      	b.n	802eb32 <dhcp_recv+0x2d6>
 802eb28:	2000e258 	.word	0x2000e258
 802eb2c:	2000e264 	.word	0x2000e264
  } else {
    /* calculate safe periods for rebinding */
    dhcp->offered_t2_rebind = dhcp->offered_t0_lease;
 802eb30:	6b23      	ldr	r3, [r4, #48]	; 0x30
 802eb32:	63a3      	str	r3, [r4, #56]	; 0x38
  }

  /* (y)our internet address */
  ip_addr_copy(dhcp->offered_ip_addr, dhcp->msg_in->yiaddr);
 802eb34:	68a3      	ldr	r3, [r4, #8]
     boot file name copied in dhcp_parse_reply if not overloaded */
  ip_addr_copy(dhcp->offered_si_addr, dhcp->msg_in->siaddr);
#endif /* LWIP_DHCP_BOOTP_FILE */

  /* subnet mask given? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_SUBNET_MASK)) {
 802eb36:	4a39      	ldr	r2, [pc, #228]	; (802ec1c <dhcp_recv+0x3c0>)
    /* calculate safe periods for rebinding */
    dhcp->offered_t2_rebind = dhcp->offered_t0_lease;
  }

  /* (y)our internet address */
  ip_addr_copy(dhcp->offered_ip_addr, dhcp->msg_in->yiaddr);
 802eb38:	691b      	ldr	r3, [r3, #16]
 802eb3a:	6263      	str	r3, [r4, #36]	; 0x24
     boot file name copied in dhcp_parse_reply if not overloaded */
  ip_addr_copy(dhcp->offered_si_addr, dhcp->msg_in->siaddr);
#endif /* LWIP_DHCP_BOOTP_FILE */

  /* subnet mask given? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_SUBNET_MASK)) {
 802eb3c:	7993      	ldrb	r3, [r2, #6]
 802eb3e:	4616      	mov	r6, r2
 802eb40:	b12b      	cbz	r3, 802eb4e <dhcp_recv+0x2f2>
    /* remember given subnet mask */
    ip4_addr_set_u32(&dhcp->offered_sn_mask, htonl(dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_SUBNET_MASK)));
 802eb42:	4b37      	ldr	r3, [pc, #220]	; (802ec20 <dhcp_recv+0x3c4>)
 802eb44:	6998      	ldr	r0, [r3, #24]
 802eb46:	f7ff fba3 	bl	802e290 <lwip_htonl>
    dhcp->subnet_mask_given = 1;
 802eb4a:	2301      	movs	r3, #1
#endif /* LWIP_DHCP_BOOTP_FILE */

  /* subnet mask given? */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_SUBNET_MASK)) {
    /* remember given subnet mask */
    ip4_addr_set_u32(&dhcp->offered_sn_mask, htonl(dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_SUBNET_MASK)));
 802eb4c:	62a0      	str	r0, [r4, #40]	; 0x28
    dhcp->subnet_mask_given = 1;
  } else {
    dhcp->subnet_mask_given = 0;
 802eb4e:	73a3      	strb	r3, [r4, #14]
  }

  /* gateway router */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_ROUTER)) {
 802eb50:	79f3      	ldrb	r3, [r6, #7]
 802eb52:	b123      	cbz	r3, 802eb5e <dhcp_recv+0x302>
    ip4_addr_set_u32(&dhcp->offered_gw_addr, htonl(dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_ROUTER)));
 802eb54:	4b32      	ldr	r3, [pc, #200]	; (802ec20 <dhcp_recv+0x3c4>)
 802eb56:	69d8      	ldr	r0, [r3, #28]
 802eb58:	f7ff fb9a 	bl	802e290 <lwip_htonl>
 802eb5c:	62e0      	str	r0, [r4, #44]	; 0x2c
    /* in requesting state? */
    if (dhcp->state == DHCP_REQUESTING) {
      dhcp_handle_ack(netif);
#if DHCP_DOES_ARP_CHECK
      /* check if the acknowledged lease address is already in use */
      dhcp_check(netif);
 802eb5e:	4628      	mov	r0, r5
 802eb60:	f7ff fe0a 	bl	802e778 <dhcp_check>
 802eb64:	e03f      	b.n	802ebe6 <dhcp_recv+0x38a>
      /* bind interface to the acknowledged lease address */
      dhcp_bind(netif);
#endif
    }
    /* already bound to the given lease address? */
    else if ((dhcp->state == DHCP_REBOOTING) || (dhcp->state == DHCP_REBINDING) || (dhcp->state == DHCP_RENEWING)) {
 802eb66:	3903      	subs	r1, #3
 802eb68:	2902      	cmp	r1, #2
 802eb6a:	d83c      	bhi.n	802ebe6 <dhcp_recv+0x38a>
      dhcp_bind(netif);
 802eb6c:	4628      	mov	r0, r5
 802eb6e:	f7ff fe16 	bl	802e79e <dhcp_bind>
 802eb72:	e038      	b.n	802ebe6 <dhcp_recv+0x38a>
    }
  }
  /* received a DHCP_NAK in appropriate state? */
  else if ((msg_type == DHCP_NAK) &&
 802eb74:	2906      	cmp	r1, #6
 802eb76:	d121      	bne.n	802ebbc <dhcp_recv+0x360>
 802eb78:	f898 300c 	ldrb.w	r3, [r8, #12]
 802eb7c:	2b05      	cmp	r3, #5
 802eb7e:	d832      	bhi.n	802ebe6 <dhcp_recv+0x38a>
 802eb80:	f998 300c 	ldrsb.w	r3, [r8, #12]
 802eb84:	f04f 42b8 	mov.w	r2, #1543503872	; 0x5c000000
 802eb88:	409a      	lsls	r2, r3
 802eb8a:	d52c      	bpl.n	802ebe6 <dhcp_recv+0x38a>
{
  struct dhcp *dhcp = netif->dhcp;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_handle_nak(netif=%p) %c%c%"U16_F"\n", 
    (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num));
  /* Set the interface down since the address must no longer be used, as per RFC2131 */
  netif_set_down(netif);
 802eb8c:	4628      	mov	r0, r5
 * @param netif the netif under DHCP control
 */
static void
dhcp_handle_nak(struct netif *netif)
{
  struct dhcp *dhcp = netif->dhcp;
 802eb8e:	6a2c      	ldr	r4, [r5, #32]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_handle_nak(netif=%p) %c%c%"U16_F"\n", 
    (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num));
  /* Set the interface down since the address must no longer be used, as per RFC2131 */
  netif_set_down(netif);
 802eb90:	f000 fc6e 	bl	802f470 <netif_set_down>
  /* remove IP address from interface */
  netif_set_ipaddr(netif, IP_ADDR_ANY);
 802eb94:	4628      	mov	r0, r5
 802eb96:	4923      	ldr	r1, [pc, #140]	; (802ec24 <dhcp_recv+0x3c8>)
 802eb98:	f000 fbba 	bl	802f310 <netif_set_ipaddr>
  netif_set_gw(netif, IP_ADDR_ANY);
 802eb9c:	4628      	mov	r0, r5
 802eb9e:	4921      	ldr	r1, [pc, #132]	; (802ec24 <dhcp_recv+0x3c8>)
 802eba0:	f000 fbf2 	bl	802f388 <netif_set_gw>
  netif_set_netmask(netif, IP_ADDR_ANY); 
 802eba4:	4628      	mov	r0, r5
 802eba6:	491f      	ldr	r1, [pc, #124]	; (802ec24 <dhcp_recv+0x3c8>)
 802eba8:	f000 fbf2 	bl	802f390 <netif_set_netmask>
  /* Change to a defined state */
  dhcp_set_state(dhcp, DHCP_BACKING_OFF);
 802ebac:	4620      	mov	r0, r4
 802ebae:	210c      	movs	r1, #12
 802ebb0:	f7ff fb72 	bl	802e298 <dhcp_set_state>
  /* We can immediately restart discovery */
  dhcp_discover(netif);
 802ebb4:	4628      	mov	r0, r5
 802ebb6:	f7ff fc7f 	bl	802e4b8 <dhcp_discover>
 802ebba:	e014      	b.n	802ebe6 <dhcp_recv+0x38a>
     (dhcp->state == DHCP_REBINDING) || (dhcp->state == DHCP_RENEWING  ))) {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("DHCP_NAK received\n"));
    dhcp_handle_nak(netif);
  }
  /* received a DHCP_OFFER in DHCP_SELECTING state? */
  else if ((msg_type == DHCP_OFFER) && (dhcp->state == DHCP_SELECTING)) {
 802ebbc:	2902      	cmp	r1, #2
 802ebbe:	d112      	bne.n	802ebe6 <dhcp_recv+0x38a>
 802ebc0:	f898 100c 	ldrb.w	r1, [r8, #12]
 802ebc4:	2906      	cmp	r1, #6
 802ebc6:	d10e      	bne.n	802ebe6 <dhcp_recv+0x38a>
{
  struct dhcp *dhcp = netif->dhcp;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_handle_offer(netif=%p) %c%c%"U16_F"\n",
    (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num));
  /* obtain the server address */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_SERVER_ID)) {
 802ebc8:	789b      	ldrb	r3, [r3, #2]
    dhcp_handle_nak(netif);
  }
  /* received a DHCP_OFFER in DHCP_SELECTING state? */
  else if ((msg_type == DHCP_OFFER) && (dhcp->state == DHCP_SELECTING)) {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("DHCP_OFFER received in DHCP_SELECTING state\n"));
    dhcp->request_timeout = 0;
 802ebca:	f8a8 b01a 	strh.w	fp, [r8, #26]
 * @param netif the netif under DHCP control
 */
static void
dhcp_handle_offer(struct netif *netif)
{
  struct dhcp *dhcp = netif->dhcp;
 802ebce:	6a2c      	ldr	r4, [r5, #32]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_handle_offer(netif=%p) %c%c%"U16_F"\n",
    (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num));
  /* obtain the server address */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_SERVER_ID)) {
 802ebd0:	b14b      	cbz	r3, 802ebe6 <dhcp_recv+0x38a>
    ip4_addr_set_u32(&dhcp->server_ip_addr, htonl(dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_SERVER_ID)));
 802ebd2:	6890      	ldr	r0, [r2, #8]
 802ebd4:	f7ff fb5c 	bl	802e290 <lwip_htonl>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_handle_offer(): server 0x%08"X32_F"\n",
      ip4_addr_get_u32(&dhcp->server_ip_addr)));
    /* remember offered address */
    ip_addr_copy(dhcp->offered_ip_addr, dhcp->msg_in->yiaddr);
 802ebd8:	68a3      	ldr	r3, [r4, #8]
  struct dhcp *dhcp = netif->dhcp;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_handle_offer(netif=%p) %c%c%"U16_F"\n",
    (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num));
  /* obtain the server address */
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_SERVER_ID)) {
    ip4_addr_set_u32(&dhcp->server_ip_addr, htonl(dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_SERVER_ID)));
 802ebda:	6220      	str	r0, [r4, #32]
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_handle_offer(): server 0x%08"X32_F"\n",
      ip4_addr_get_u32(&dhcp->server_ip_addr)));
    /* remember offered address */
    ip_addr_copy(dhcp->offered_ip_addr, dhcp->msg_in->yiaddr);
 802ebdc:	691b      	ldr	r3, [r3, #16]
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_handle_offer(): offer for 0x%08"X32_F"\n",
      ip4_addr_get_u32(&dhcp->offered_ip_addr)));

    dhcp_select(netif);
 802ebde:	4628      	mov	r0, r5
  if (dhcp_option_given(dhcp, DHCP_OPTION_IDX_SERVER_ID)) {
    ip4_addr_set_u32(&dhcp->server_ip_addr, htonl(dhcp_get_option_value(dhcp, DHCP_OPTION_IDX_SERVER_ID)));
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_handle_offer(): server 0x%08"X32_F"\n",
      ip4_addr_get_u32(&dhcp->server_ip_addr)));
    /* remember offered address */
    ip_addr_copy(dhcp->offered_ip_addr, dhcp->msg_in->yiaddr);
 802ebe0:	6263      	str	r3, [r4, #36]	; 0x24
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_STATE, ("dhcp_handle_offer(): offer for 0x%08"X32_F"\n",
      ip4_addr_get_u32(&dhcp->offered_ip_addr)));

    dhcp_select(netif);
 802ebe2:	f7ff fd57 	bl	802e694 <dhcp_select>
    dhcp->request_timeout = 0;
    /* remember offered lease */
    dhcp_handle_offer(netif);
  }
free_pbuf_and_return:
  dhcp->msg_in = NULL;
 802ebe6:	2300      	movs	r3, #0
 802ebe8:	f8c8 3008 	str.w	r3, [r8, #8]
  pbuf_free(p);
 802ebec:	4650      	mov	r0, sl
 802ebee:	f000 fc83 	bl	802f4f8 <pbuf_free>
 802ebf2:	e010      	b.n	802ec16 <dhcp_recv+0x3ba>
    /* if both are overloaded, parse file first and then sname (RFC 2131 ch. 4.1) */
    parse_file_as_options = 0;
    options_idx = DHCP_FILE_OFS;
    options_idx_max = DHCP_FILE_OFS + DHCP_FILE_LEN;
    goto again;
  } else if (parse_sname_as_options) {
 802ebf4:	f1bb 0f00 	cmp.w	fp, #0
 802ebf8:	f47f ae6d 	bne.w	802e8d6 <dhcp_recv+0x7a>
 802ebfc:	e005      	b.n	802ec0a <dhcp_recv+0x3ae>
      LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("overloaded file field\n"));
    } else if (overload == DHCP_OVERLOAD_SNAME) {
      parse_sname_as_options = 1;
      LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("overloaded sname field\n"));
    } else if (overload == DHCP_OVERLOAD_SNAME_FILE) {
      parse_sname_as_options = 1;
 802ebfe:	f04f 0b01 	mov.w	fp, #1
  }
  if (parse_file_as_options) {
    /* if both are overloaded, parse file first and then sname (RFC 2131 ch. 4.1) */
    parse_file_as_options = 0;
    options_idx = DHCP_FILE_OFS;
    options_idx_max = DHCP_FILE_OFS + DHCP_FILE_LEN;
 802ec02:	f04f 09ec 	mov.w	r9, #236	; 0xec
#endif /* LWIP_DHCP_BOOTP_FILE */
  }
  if (parse_file_as_options) {
    /* if both are overloaded, parse file first and then sname (RFC 2131 ch. 4.1) */
    parse_file_as_options = 0;
    options_idx = DHCP_FILE_OFS;
 802ec06:	226c      	movs	r2, #108	; 0x6c
 802ec08:	e66a      	b.n	802e8e0 <dhcp_recv+0x84>
    goto free_pbuf_and_return;
  }

  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("searching DHCP_OPTION_MESSAGE_TYPE\n"));
  /* obtain pointer to DHCP message type */
  if (!dhcp_option_given(dhcp, DHCP_OPTION_IDX_MSG_TYPE)) {
 802ec0a:	4b04      	ldr	r3, [pc, #16]	; (802ec1c <dhcp_recv+0x3c0>)
 802ec0c:	785a      	ldrb	r2, [r3, #1]
 802ec0e:	2a00      	cmp	r2, #0
 802ec10:	f47f af6b 	bne.w	802eaea <dhcp_recv+0x28e>
 802ec14:	e7e7      	b.n	802ebe6 <dhcp_recv+0x38a>
    dhcp_handle_offer(netif);
  }
free_pbuf_and_return:
  dhcp->msg_in = NULL;
  pbuf_free(p);
}
 802ec16:	b00b      	add	sp, #44	; 0x2c
 802ec18:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 802ec1c:	2000e258 	.word	0x2000e258
 802ec20:	2000e264 	.word	0x2000e264
 802ec24:	08043fe4 	.word	0x08043fe4

0802ec28 <dhcp_arp_reply>:
 *
 * @param netif the network interface on which the reply was received
 * @param addr The IP address we received a reply from
 */
void dhcp_arp_reply(struct netif *netif, ip_addr_t *addr)
{
 802ec28:	b537      	push	{r0, r1, r2, r4, r5, lr}
  LWIP_ERROR("netif != NULL", (netif != NULL), return;);
 802ec2a:	4605      	mov	r5, r0
 802ec2c:	2800      	cmp	r0, #0
 802ec2e:	d037      	beq.n	802eca0 <dhcp_arp_reply+0x78>
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_arp_reply()\n"));
  /* is a DHCP client doing an ARP check? */
  if ((netif->dhcp != NULL) && (netif->dhcp->state == DHCP_CHECKING)) {
 802ec30:	6a04      	ldr	r4, [r0, #32]
 802ec32:	2c00      	cmp	r4, #0
 802ec34:	d034      	beq.n	802eca0 <dhcp_arp_reply+0x78>
 802ec36:	7b23      	ldrb	r3, [r4, #12]
 802ec38:	2b08      	cmp	r3, #8
 802ec3a:	d131      	bne.n	802eca0 <dhcp_arp_reply+0x78>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_arp_reply(): CHECKING, arp reply for 0x%08"X32_F"\n",
      ip4_addr_get_u32(addr)));
    /* did a host respond with the address we
       were offered by the DHCP server? */
    if (ip_addr_cmp(addr, &netif->dhcp->offered_ip_addr)) {
 802ec3c:	680a      	ldr	r2, [r1, #0]
 802ec3e:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802ec40:	429a      	cmp	r2, r3
 802ec42:	d12d      	bne.n	802eca0 <dhcp_arp_reply+0x78>
{
  struct dhcp *dhcp = netif->dhcp;
  err_t result = ERR_OK;
  u16_t msecs;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_decline()\n"));
  dhcp_set_state(dhcp, DHCP_BACKING_OFF);
 802ec44:	4620      	mov	r0, r4
 802ec46:	210c      	movs	r1, #12
 802ec48:	f7ff fb26 	bl	802e298 <dhcp_set_state>
  /* create and initialize the DHCP message header */
  result = dhcp_create_msg(netif, dhcp, DHCP_DECLINE);
 802ec4c:	4628      	mov	r0, r5
 802ec4e:	4621      	mov	r1, r4
 802ec50:	2204      	movs	r2, #4
 802ec52:	f7ff fb85 	bl	802e360 <dhcp_create_msg>
  if (result == ERR_OK) {
 802ec56:	b9f0      	cbnz	r0, 802ec96 <dhcp_arp_reply+0x6e>
    dhcp_option(dhcp, DHCP_OPTION_REQUESTED_IP, 4);
 802ec58:	2204      	movs	r2, #4
 802ec5a:	2132      	movs	r1, #50	; 0x32
 802ec5c:	4620      	mov	r0, r4
 802ec5e:	f7ff fb23 	bl	802e2a8 <dhcp_option>
    dhcp_option_long(dhcp, ntohl(ip4_addr_get_u32(&dhcp->offered_ip_addr)));
 802ec62:	6a60      	ldr	r0, [r4, #36]	; 0x24
 802ec64:	f7ff fb16 	bl	802e294 <lwip_ntohl>
 802ec68:	4601      	mov	r1, r0
 802ec6a:	4620      	mov	r0, r4
 802ec6c:	f7ff fb43 	bl	802e2f6 <dhcp_option_long>

    dhcp_option_trailer(dhcp);
 802ec70:	4620      	mov	r0, r4
 802ec72:	f7ff fb60 	bl	802e336 <dhcp_option_trailer>
    /* resize pbuf to reflect true size of options */
    pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len);
 802ec76:	8b21      	ldrh	r1, [r4, #24]
 802ec78:	6920      	ldr	r0, [r4, #16]
 802ec7a:	31f0      	adds	r1, #240	; 0xf0
 802ec7c:	b289      	uxth	r1, r1
 802ec7e:	f000 fc62 	bl	802f546 <pbuf_realloc>

    /* per section 4.4.4, broadcast DECLINE messages */
    udp_sendto_if(dhcp->pcb, dhcp->p_out, IP_ADDR_BROADCAST, DHCP_SERVER_PORT, netif);
 802ec82:	9500      	str	r5, [sp, #0]
 802ec84:	6860      	ldr	r0, [r4, #4]
 802ec86:	6921      	ldr	r1, [r4, #16]
 802ec88:	4a06      	ldr	r2, [pc, #24]	; (802eca4 <dhcp_arp_reply+0x7c>)
 802ec8a:	2343      	movs	r3, #67	; 0x43
 802ec8c:	f003 f8d4 	bl	8031e38 <udp_sendto_if>
    dhcp_delete_msg(dhcp);
 802ec90:	4620      	mov	r0, r4
 802ec92:	f7ff fc05 	bl	802e4a0 <dhcp_delete_msg>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_decline: BACKING OFF\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS,
      ("dhcp_decline: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802ec96:	7b63      	ldrb	r3, [r4, #13]
 802ec98:	3301      	adds	r3, #1
 802ec9a:	7363      	strb	r3, [r4, #13]
  msecs = 10*1000;
  dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS;
 802ec9c:	2314      	movs	r3, #20
 802ec9e:	8363      	strh	r3, [r4, #26]
      LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE | LWIP_DBG_LEVEL_WARNING,
        ("dhcp_arp_reply(): arp reply matched with offered address, declining\n"));
      dhcp_decline(netif);
    }
  }
}
 802eca0:	bd3e      	pop	{r1, r2, r3, r4, r5, pc}
 802eca2:	bf00      	nop
 802eca4:	08043fe0 	.word	0x08043fe0

0802eca8 <dhcp_renew>:
 *
 * @param netif network interface which must renew its lease
 */
err_t
dhcp_renew(struct netif *netif)
{
 802eca8:	b573      	push	{r0, r1, r4, r5, r6, lr}
  struct dhcp *dhcp = netif->dhcp;
 802ecaa:	6a04      	ldr	r4, [r0, #32]
 *
 * @param netif network interface which must renew its lease
 */
err_t
dhcp_renew(struct netif *netif)
{
 802ecac:	4605      	mov	r5, r0
  struct dhcp *dhcp = netif->dhcp;
  err_t result;
  u16_t msecs;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_renew()\n"));
  dhcp_set_state(dhcp, DHCP_RENEWING);
 802ecae:	2105      	movs	r1, #5
 802ecb0:	4620      	mov	r0, r4
 802ecb2:	f7ff faf1 	bl	802e298 <dhcp_set_state>

  /* create and initialize the DHCP message header */
  result = dhcp_create_msg(netif, dhcp, DHCP_REQUEST);
 802ecb6:	4628      	mov	r0, r5
 802ecb8:	4621      	mov	r1, r4
 802ecba:	2203      	movs	r2, #3
 802ecbc:	f7ff fb50 	bl	802e360 <dhcp_create_msg>
  if (result == ERR_OK) {
 802ecc0:	4606      	mov	r6, r0
 802ecc2:	b9e0      	cbnz	r0, 802ecfe <dhcp_renew+0x56>
    dhcp_option(dhcp, DHCP_OPTION_MAX_MSG_SIZE, DHCP_OPTION_MAX_MSG_SIZE_LEN);
 802ecc4:	2202      	movs	r2, #2
 802ecc6:	4620      	mov	r0, r4
 802ecc8:	2139      	movs	r1, #57	; 0x39
 802ecca:	f7ff faed 	bl	802e2a8 <dhcp_option>
    dhcp_option_short(dhcp, DHCP_MAX_MSG_LEN(netif));
 802ecce:	8ca9      	ldrh	r1, [r5, #36]	; 0x24
 802ecd0:	4620      	mov	r0, r4
 802ecd2:	f7ff fb00 	bl	802e2d6 <dhcp_option_short>
#if LWIP_NETIF_HOSTNAME
    dhcp_option_hostname(dhcp, netif);
#endif /* LWIP_NETIF_HOSTNAME */

    /* append DHCP message trailer */
    dhcp_option_trailer(dhcp);
 802ecd6:	4620      	mov	r0, r4
 802ecd8:	f7ff fb2d 	bl	802e336 <dhcp_option_trailer>

    pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len);
 802ecdc:	8b21      	ldrh	r1, [r4, #24]
 802ecde:	6920      	ldr	r0, [r4, #16]
 802ece0:	31f0      	adds	r1, #240	; 0xf0
 802ece2:	b289      	uxth	r1, r1
 802ece4:	f000 fc2f 	bl	802f546 <pbuf_realloc>

    udp_sendto_if(dhcp->pcb, dhcp->p_out, &dhcp->server_ip_addr, DHCP_SERVER_PORT, netif);
 802ece8:	9500      	str	r5, [sp, #0]
 802ecea:	6860      	ldr	r0, [r4, #4]
 802ecec:	6921      	ldr	r1, [r4, #16]
 802ecee:	f104 0220 	add.w	r2, r4, #32
 802ecf2:	2343      	movs	r3, #67	; 0x43
 802ecf4:	f003 f8a0 	bl	8031e38 <udp_sendto_if>
    dhcp_delete_msg(dhcp);
 802ecf8:	4620      	mov	r0, r4
 802ecfa:	f7ff fbd1 	bl	802e4a0 <dhcp_delete_msg>

    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_renew: RENEWING\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp_renew: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802ecfe:	7b63      	ldrb	r3, [r4, #13]
 802ed00:	3301      	adds	r3, #1
 802ed02:	b2db      	uxtb	r3, r3
  /* back-off on retries, but to a maximum of 20 seconds */
  msecs = dhcp->tries < 10 ? dhcp->tries * 2000 : 20 * 1000;
 802ed04:	2b09      	cmp	r3, #9

    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_renew: RENEWING\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp_renew: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802ed06:	7363      	strb	r3, [r4, #13]
  /* back-off on retries, but to a maximum of 20 seconds */
  msecs = dhcp->tries < 10 ? dhcp->tries * 2000 : 20 * 1000;
 802ed08:	d804      	bhi.n	802ed14 <dhcp_renew+0x6c>
 802ed0a:	f44f 62fa 	mov.w	r2, #2000	; 0x7d0
 802ed0e:	4353      	muls	r3, r2
 802ed10:	b29b      	uxth	r3, r3
 802ed12:	e001      	b.n	802ed18 <dhcp_renew+0x70>
 802ed14:	f644 6320 	movw	r3, #20000	; 0x4e20
  dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS;
 802ed18:	f44f 72fa 	mov.w	r2, #500	; 0x1f4
 802ed1c:	f203 13f3 	addw	r3, r3, #499	; 0x1f3
 802ed20:	fb93 f3f2 	sdiv	r3, r3, r2
 802ed24:	8363      	strh	r3, [r4, #26]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_renew(): set request timeout %"U16_F" msecs\n", msecs));
  return result;
}
 802ed26:	4630      	mov	r0, r6
 802ed28:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}
 802ed2a:	0000      	movs	r0, r0

0802ed2c <dhcp_coarse_tmr>:
/**
 * The DHCP timer that checks for lease renewal/rebind timeouts.
 */
void
dhcp_coarse_tmr()
{
 802ed2c:	b538      	push	{r3, r4, r5, lr}
  struct netif *netif = netif_list;
 802ed2e:	4b15      	ldr	r3, [pc, #84]	; (802ed84 <dhcp_coarse_tmr+0x58>)
 802ed30:	4d15      	ldr	r5, [pc, #84]	; (802ed88 <dhcp_coarse_tmr+0x5c>)
 802ed32:	681c      	ldr	r4, [r3, #0]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_coarse_tmr()\n"));
  /* iterate through all network interfaces */
  while (netif != NULL) {
 802ed34:	e023      	b.n	802ed7e <dhcp_coarse_tmr+0x52>
    /* only act on DHCP configured interfaces */
    if (netif->dhcp != NULL) {
 802ed36:	6a23      	ldr	r3, [r4, #32]
 802ed38:	b303      	cbz	r3, 802ed7c <dhcp_coarse_tmr+0x50>
      /* timer is active (non zero), and triggers (zeroes) now? */
      if (netif->dhcp->t2_timeout-- == 1) {
 802ed3a:	8bda      	ldrh	r2, [r3, #30]
 802ed3c:	1e51      	subs	r1, r2, #1
 802ed3e:	2a01      	cmp	r2, #1
 802ed40:	83d9      	strh	r1, [r3, #30]
 802ed42:	d10b      	bne.n	802ed5c <dhcp_coarse_tmr+0x30>
 802ed44:	7b1a      	ldrb	r2, [r3, #12]
 802ed46:	2a0a      	cmp	r2, #10
 802ed48:	d818      	bhi.n	802ed7c <dhcp_coarse_tmr+0x50>
 802ed4a:	f993 300c 	ldrsb.w	r3, [r3, #12]
 802ed4e:	fa15 f303 	lsls.w	r3, r5, r3
 802ed52:	d513      	bpl.n	802ed7c <dhcp_coarse_tmr+0x50>
    /* just retry to rebind */
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE,
                ("dhcp_t2_timeout(): must rebind\n"));
    /* This slightly different to RFC2131: DHCPREQUEST will be sent from state
       DHCP_REBINDING, not DHCP_BOUND */
    dhcp_rebind(netif);
 802ed54:	4620      	mov	r0, r4
 802ed56:	f7ff fc0b 	bl	802e570 <dhcp_rebind>
 802ed5a:	e00f      	b.n	802ed7c <dhcp_coarse_tmr+0x50>
      if (netif->dhcp->t2_timeout-- == 1) {
        LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_coarse_tmr(): t2 timeout\n"));
        /* this clients' rebind timeout triggered */
        dhcp_t2_timeout(netif);
      /* timer is active (non zero), and triggers (zeroes) now */
      } else if (netif->dhcp->t1_timeout-- == 1) {
 802ed5c:	8b9a      	ldrh	r2, [r3, #28]
 802ed5e:	1e51      	subs	r1, r2, #1
 802ed60:	2a01      	cmp	r2, #1
 802ed62:	8399      	strh	r1, [r3, #28]
 802ed64:	d10a      	bne.n	802ed7c <dhcp_coarse_tmr+0x50>
 802ed66:	7b1a      	ldrb	r2, [r3, #12]
 802ed68:	2a0a      	cmp	r2, #10
 802ed6a:	d807      	bhi.n	802ed7c <dhcp_coarse_tmr+0x50>
 802ed6c:	f993 300c 	ldrsb.w	r3, [r3, #12]
 802ed70:	fa15 f303 	lsls.w	r3, r5, r3
 802ed74:	d502      	bpl.n	802ed7c <dhcp_coarse_tmr+0x50>
     * eventually time-out if renew tries fail. */
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE,
                ("dhcp_t1_timeout(): must renew\n"));
    /* This slightly different to RFC2131: DHCPREQUEST will be sent from state
       DHCP_RENEWING, not DHCP_BOUND */
    dhcp_renew(netif);
 802ed76:	4620      	mov	r0, r4
 802ed78:	f7ff ff96 	bl	802eca8 <dhcp_renew>
        /* this clients' renewal timeout triggered */
        dhcp_t1_timeout(netif);
      }
    }
    /* proceed to next netif */
    netif = netif->next;
 802ed7c:	6824      	ldr	r4, [r4, #0]
dhcp_coarse_tmr()
{
  struct netif *netif = netif_list;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_coarse_tmr()\n"));
  /* iterate through all network interfaces */
  while (netif != NULL) {
 802ed7e:	2c00      	cmp	r4, #0
 802ed80:	d1d9      	bne.n	802ed36 <dhcp_coarse_tmr+0xa>
      }
    }
    /* proceed to next netif */
    netif = netif->next;
  }
}
 802ed82:	bd38      	pop	{r3, r4, r5, pc}
 802ed84:	2000f6a0 	.word	0x2000f6a0
 802ed88:	44200000 	.word	0x44200000

0802ed8c <dhcp_release>:
 *
 * @param netif network interface which must release its lease
 */
err_t
dhcp_release(struct netif *netif)
{
 802ed8c:	b573      	push	{r0, r1, r4, r5, r6, lr}
  struct dhcp *dhcp = netif->dhcp;
 802ed8e:	6a04      	ldr	r4, [r0, #32]
 *
 * @param netif network interface which must release its lease
 */
err_t
dhcp_release(struct netif *netif)
{
 802ed90:	4605      	mov	r5, r0
  err_t result;
  u16_t msecs;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_release()\n"));

  /* idle DHCP client */
  dhcp_set_state(dhcp, DHCP_OFF);
 802ed92:	2100      	movs	r1, #0
 802ed94:	4620      	mov	r0, r4
 802ed96:	f7ff fa7f 	bl	802e298 <dhcp_set_state>
  /* clean old DHCP offer */
  ip_addr_set_zero(&dhcp->server_ip_addr);
 802ed9a:	2300      	movs	r3, #0
 802ed9c:	6223      	str	r3, [r4, #32]
  ip_addr_set_zero(&dhcp->offered_ip_addr);
 802ed9e:	6263      	str	r3, [r4, #36]	; 0x24
  ip_addr_set_zero(&dhcp->offered_sn_mask);
 802eda0:	62a3      	str	r3, [r4, #40]	; 0x28
  ip_addr_set_zero(&dhcp->offered_gw_addr);
 802eda2:	62e3      	str	r3, [r4, #44]	; 0x2c
#if LWIP_DHCP_BOOTP_FILE
  ip_addr_set_zero(&dhcp->offered_si_addr);
#endif /* LWIP_DHCP_BOOTP_FILE */
  dhcp->offered_t0_lease = dhcp->offered_t1_renew = dhcp->offered_t2_rebind = 0;
 802eda4:	63a3      	str	r3, [r4, #56]	; 0x38
 802eda6:	6363      	str	r3, [r4, #52]	; 0x34
 802eda8:	6323      	str	r3, [r4, #48]	; 0x30
  
  /* create and initialize the DHCP message header */
  result = dhcp_create_msg(netif, dhcp, DHCP_RELEASE);
 802edaa:	4628      	mov	r0, r5
 802edac:	4621      	mov	r1, r4
 802edae:	2207      	movs	r2, #7
 802edb0:	f7ff fad6 	bl	802e360 <dhcp_create_msg>
  if (result == ERR_OK) {
 802edb4:	4606      	mov	r6, r0
 802edb6:	b998      	cbnz	r0, 802ede0 <dhcp_release+0x54>
    dhcp_option_trailer(dhcp);
 802edb8:	4620      	mov	r0, r4
 802edba:	f7ff fabc 	bl	802e336 <dhcp_option_trailer>

    pbuf_realloc(dhcp->p_out, sizeof(struct dhcp_msg) - DHCP_OPTIONS_LEN + dhcp->options_out_len);
 802edbe:	8b21      	ldrh	r1, [r4, #24]
 802edc0:	6920      	ldr	r0, [r4, #16]
 802edc2:	31f0      	adds	r1, #240	; 0xf0
 802edc4:	b289      	uxth	r1, r1
 802edc6:	f000 fbbe 	bl	802f546 <pbuf_realloc>

    udp_sendto_if(dhcp->pcb, dhcp->p_out, &dhcp->server_ip_addr, DHCP_SERVER_PORT, netif);
 802edca:	9500      	str	r5, [sp, #0]
 802edcc:	6860      	ldr	r0, [r4, #4]
 802edce:	6921      	ldr	r1, [r4, #16]
 802edd0:	f104 0220 	add.w	r2, r4, #32
 802edd4:	2343      	movs	r3, #67	; 0x43
 802edd6:	f003 f82f 	bl	8031e38 <udp_sendto_if>
    dhcp_delete_msg(dhcp);
 802edda:	4620      	mov	r0, r4
 802eddc:	f7ff fb60 	bl	802e4a0 <dhcp_delete_msg>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_release: RELEASED, DHCP_OFF\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp_release: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802ede0:	7b63      	ldrb	r3, [r4, #13]
 802ede2:	3301      	adds	r3, #1
 802ede4:	b2db      	uxtb	r3, r3
  msecs = dhcp->tries < 10 ? dhcp->tries * 1000 : 10 * 1000;
 802ede6:	2b09      	cmp	r3, #9
    dhcp_delete_msg(dhcp);
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_release: RELEASED, DHCP_OFF\n"));
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("dhcp_release: could not allocate DHCP request\n"));
  }
  dhcp->tries++;
 802ede8:	7363      	strb	r3, [r4, #13]
  msecs = dhcp->tries < 10 ? dhcp->tries * 1000 : 10 * 1000;
 802edea:	d804      	bhi.n	802edf6 <dhcp_release+0x6a>
 802edec:	f44f 727a 	mov.w	r2, #1000	; 0x3e8
 802edf0:	4353      	muls	r3, r2
 802edf2:	b29b      	uxth	r3, r3
 802edf4:	e001      	b.n	802edfa <dhcp_release+0x6e>
 802edf6:	f242 7310 	movw	r3, #10000	; 0x2710
  dhcp->request_timeout = (msecs + DHCP_FINE_TIMER_MSECS - 1) / DHCP_FINE_TIMER_MSECS;
 802edfa:	f44f 72fa 	mov.w	r2, #500	; 0x1f4
 802edfe:	f203 13f3 	addw	r3, r3, #499	; 0x1f3
 802ee02:	fb93 f3f2 	sdiv	r3, r3, r2
 802ee06:	8363      	strh	r3, [r4, #26]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_release(): set request timeout %"U16_F" msecs\n", msecs));
  /* bring the interface down */
  netif_set_down(netif);
 802ee08:	4628      	mov	r0, r5
 802ee0a:	f000 fb31 	bl	802f470 <netif_set_down>
  /* remove IP address from interface */
  netif_set_ipaddr(netif, IP_ADDR_ANY);
 802ee0e:	4628      	mov	r0, r5
 802ee10:	4906      	ldr	r1, [pc, #24]	; (802ee2c <dhcp_release+0xa0>)
 802ee12:	f000 fa7d 	bl	802f310 <netif_set_ipaddr>
  netif_set_gw(netif, IP_ADDR_ANY);
 802ee16:	4628      	mov	r0, r5
 802ee18:	4904      	ldr	r1, [pc, #16]	; (802ee2c <dhcp_release+0xa0>)
 802ee1a:	f000 fab5 	bl	802f388 <netif_set_gw>
  netif_set_netmask(netif, IP_ADDR_ANY);
 802ee1e:	4628      	mov	r0, r5
 802ee20:	4902      	ldr	r1, [pc, #8]	; (802ee2c <dhcp_release+0xa0>)
 802ee22:	f000 fab5 	bl	802f390 <netif_set_netmask>
  
  return result;
}
 802ee26:	4630      	mov	r0, r6
 802ee28:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}
 802ee2a:	bf00      	nop
 802ee2c:	08043fe4 	.word	0x08043fe4

0802ee30 <dhcp_fine_tmr>:
 * A DHCP server is expected to respond within a short period of time.
 * This timer checks whether an outstanding DHCP request is timed out.
 */
void
dhcp_fine_tmr()
{
 802ee30:	b538      	push	{r3, r4, r5, lr}
  struct netif *netif = netif_list;
 802ee32:	4b26      	ldr	r3, [pc, #152]	; (802eecc <dhcp_fine_tmr+0x9c>)
      /* timer is active (non zero), and is about to trigger now */      
      if (netif->dhcp->request_timeout > 1) {
        netif->dhcp->request_timeout--;
      }
      else if (netif->dhcp->request_timeout == 1) {
        netif->dhcp->request_timeout--;
 802ee34:	2500      	movs	r5, #0
 * This timer checks whether an outstanding DHCP request is timed out.
 */
void
dhcp_fine_tmr()
{
  struct netif *netif = netif_list;
 802ee36:	681c      	ldr	r4, [r3, #0]
  /* loop through netif's */
  while (netif != NULL) {
 802ee38:	e044      	b.n	802eec4 <dhcp_fine_tmr+0x94>
    /* only act on DHCP configured interfaces */
    if (netif->dhcp != NULL) {
 802ee3a:	6a23      	ldr	r3, [r4, #32]
 802ee3c:	2b00      	cmp	r3, #0
 802ee3e:	d040      	beq.n	802eec2 <dhcp_fine_tmr+0x92>
      /* timer is active (non zero), and is about to trigger now */      
      if (netif->dhcp->request_timeout > 1) {
 802ee40:	8b5a      	ldrh	r2, [r3, #26]
 802ee42:	2a01      	cmp	r2, #1
 802ee44:	d902      	bls.n	802ee4c <dhcp_fine_tmr+0x1c>
        netif->dhcp->request_timeout--;
 802ee46:	3a01      	subs	r2, #1
 802ee48:	835a      	strh	r2, [r3, #26]
 802ee4a:	e03a      	b.n	802eec2 <dhcp_fine_tmr+0x92>
      }
      else if (netif->dhcp->request_timeout == 1) {
 802ee4c:	d139      	bne.n	802eec2 <dhcp_fine_tmr+0x92>
dhcp_timeout(struct netif *netif)
{
  struct dhcp *dhcp = netif->dhcp;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_timeout()\n"));
  /* back-off period has passed, or server selection timed out */
  if ((dhcp->state == DHCP_BACKING_OFF) || (dhcp->state == DHCP_SELECTING)) {
 802ee4e:	7b1a      	ldrb	r2, [r3, #12]
      /* timer is active (non zero), and is about to trigger now */      
      if (netif->dhcp->request_timeout > 1) {
        netif->dhcp->request_timeout--;
      }
      else if (netif->dhcp->request_timeout == 1) {
        netif->dhcp->request_timeout--;
 802ee50:	835d      	strh	r5, [r3, #26]
dhcp_timeout(struct netif *netif)
{
  struct dhcp *dhcp = netif->dhcp;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_timeout()\n"));
  /* back-off period has passed, or server selection timed out */
  if ((dhcp->state == DHCP_BACKING_OFF) || (dhcp->state == DHCP_SELECTING)) {
 802ee52:	2a0c      	cmp	r2, #12
 802ee54:	d028      	beq.n	802eea8 <dhcp_fine_tmr+0x78>
 802ee56:	2a06      	cmp	r2, #6
 802ee58:	d100      	bne.n	802ee5c <dhcp_fine_tmr+0x2c>
 802ee5a:	e025      	b.n	802eea8 <dhcp_fine_tmr+0x78>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_timeout(): restarting discovery\n"));
    dhcp_discover(netif);
  /* receiving the requested lease timed out */
  } else if (dhcp->state == DHCP_REQUESTING) {
 802ee5c:	2a01      	cmp	r2, #1
 802ee5e:	d106      	bne.n	802ee6e <dhcp_fine_tmr+0x3e>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): REQUESTING, DHCP request timed out\n"));
    if (dhcp->tries <= 5) {
 802ee60:	7b5b      	ldrb	r3, [r3, #13]
 802ee62:	2b05      	cmp	r3, #5
      dhcp_select(netif);
 802ee64:	4620      	mov	r0, r4
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_timeout(): restarting discovery\n"));
    dhcp_discover(netif);
  /* receiving the requested lease timed out */
  } else if (dhcp->state == DHCP_REQUESTING) {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): REQUESTING, DHCP request timed out\n"));
    if (dhcp->tries <= 5) {
 802ee66:	d81d      	bhi.n	802eea4 <dhcp_fine_tmr+0x74>
      dhcp_select(netif);
 802ee68:	f7ff fc14 	bl	802e694 <dhcp_select>
 802ee6c:	e029      	b.n	802eec2 <dhcp_fine_tmr+0x92>
      dhcp_release(netif);
      dhcp_discover(netif);
    }
#if DHCP_DOES_ARP_CHECK
  /* received no ARP reply for the offered address (which is good) */
  } else if (dhcp->state == DHCP_CHECKING) {
 802ee6e:	2a08      	cmp	r2, #8
 802ee70:	d109      	bne.n	802ee86 <dhcp_fine_tmr+0x56>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): CHECKING, ARP request timed out\n"));
    if (dhcp->tries <= 1) {
 802ee72:	7b5b      	ldrb	r3, [r3, #13]
 802ee74:	2b01      	cmp	r3, #1
      dhcp_check(netif);
 802ee76:	4620      	mov	r0, r4
    }
#if DHCP_DOES_ARP_CHECK
  /* received no ARP reply for the offered address (which is good) */
  } else if (dhcp->state == DHCP_CHECKING) {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): CHECKING, ARP request timed out\n"));
    if (dhcp->tries <= 1) {
 802ee78:	d802      	bhi.n	802ee80 <dhcp_fine_tmr+0x50>
      dhcp_check(netif);
 802ee7a:	f7ff fc7d 	bl	802e778 <dhcp_check>
 802ee7e:	e020      	b.n	802eec2 <dhcp_fine_tmr+0x92>
    /* no ARP replies on the offered address,
       looks like the IP address is indeed free */
    } else {
      /* bind the interface to the offered address */
      dhcp_bind(netif);
 802ee80:	f7ff fc8d 	bl	802e79e <dhcp_bind>
 802ee84:	e01d      	b.n	802eec2 <dhcp_fine_tmr+0x92>
    }
#endif /* DHCP_DOES_ARP_CHECK */
  }
  /* did not get response to renew request? */
  else if (dhcp->state == DHCP_RENEWING) {
 802ee86:	2a05      	cmp	r2, #5
 802ee88:	d103      	bne.n	802ee92 <dhcp_fine_tmr+0x62>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): RENEWING, DHCP request timed out\n"));
    /* just retry renewal */
    /* note that the rebind timer will eventually time-out if renew does not work */
    dhcp_renew(netif);
 802ee8a:	4620      	mov	r0, r4
 802ee8c:	f7ff ff0c 	bl	802eca8 <dhcp_renew>
 802ee90:	e017      	b.n	802eec2 <dhcp_fine_tmr+0x92>
  /* did not get response to rebind request? */
  } else if (dhcp->state == DHCP_REBINDING) {
 802ee92:	2a04      	cmp	r2, #4
 802ee94:	d10a      	bne.n	802eeac <dhcp_fine_tmr+0x7c>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): REBINDING, DHCP request timed out\n"));
    if (dhcp->tries <= 8) {
 802ee96:	7b5b      	ldrb	r3, [r3, #13]
 802ee98:	2b08      	cmp	r3, #8
      dhcp_rebind(netif);
 802ee9a:	4620      	mov	r0, r4
    /* note that the rebind timer will eventually time-out if renew does not work */
    dhcp_renew(netif);
  /* did not get response to rebind request? */
  } else if (dhcp->state == DHCP_REBINDING) {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): REBINDING, DHCP request timed out\n"));
    if (dhcp->tries <= 8) {
 802ee9c:	d802      	bhi.n	802eea4 <dhcp_fine_tmr+0x74>
      dhcp_rebind(netif);
 802ee9e:	f7ff fb67 	bl	802e570 <dhcp_rebind>
 802eea2:	e00e      	b.n	802eec2 <dhcp_fine_tmr+0x92>
    } else {
      LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): RELEASING, DISCOVERING\n"));
      dhcp_release(netif);
 802eea4:	f7ff ff72 	bl	802ed8c <dhcp_release>
      dhcp_discover(netif);
 802eea8:	4620      	mov	r0, r4
 802eeaa:	e008      	b.n	802eebe <dhcp_fine_tmr+0x8e>
    }
  } else if (dhcp->state == DHCP_REBOOTING) {
 802eeac:	2a03      	cmp	r2, #3
 802eeae:	d108      	bne.n	802eec2 <dhcp_fine_tmr+0x92>
    if (dhcp->tries < REBOOT_TRIES) {
 802eeb0:	7b5b      	ldrb	r3, [r3, #13]
 802eeb2:	2b01      	cmp	r3, #1
      dhcp_reboot(netif);
 802eeb4:	4620      	mov	r0, r4
      LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_timeout(): RELEASING, DISCOVERING\n"));
      dhcp_release(netif);
      dhcp_discover(netif);
    }
  } else if (dhcp->state == DHCP_REBOOTING) {
    if (dhcp->tries < REBOOT_TRIES) {
 802eeb6:	d802      	bhi.n	802eebe <dhcp_fine_tmr+0x8e>
      dhcp_reboot(netif);
 802eeb8:	f7ff fb9c 	bl	802e5f4 <dhcp_reboot>
 802eebc:	e001      	b.n	802eec2 <dhcp_fine_tmr+0x92>
    } else {
      dhcp_discover(netif);
 802eebe:	f7ff fafb 	bl	802e4b8 <dhcp_discover>
        /* this client's request timeout triggered */
        dhcp_timeout(netif);
      }
    }
    /* proceed to next network interface */
    netif = netif->next;
 802eec2:	6824      	ldr	r4, [r4, #0]
void
dhcp_fine_tmr()
{
  struct netif *netif = netif_list;
  /* loop through netif's */
  while (netif != NULL) {
 802eec4:	2c00      	cmp	r4, #0
 802eec6:	d1b8      	bne.n	802ee3a <dhcp_fine_tmr+0xa>
      }
    }
    /* proceed to next network interface */
    netif = netif->next;
  }
}
 802eec8:	bd38      	pop	{r3, r4, r5, pc}
 802eeca:	bf00      	nop
 802eecc:	2000f6a0 	.word	0x2000f6a0

0802eed0 <dhcp_stop>:
 *
 * @param netif The network interface to stop DHCP on
 */
void
dhcp_stop(struct netif *netif)
{
 802eed0:	b510      	push	{r4, lr}
  struct dhcp *dhcp;
  LWIP_ERROR("dhcp_stop: netif != NULL", (netif != NULL), return;);
 802eed2:	b198      	cbz	r0, 802eefc <dhcp_stop+0x2c>
  dhcp = netif->dhcp;
  /* Remove the flag that says this netif is handled by DHCP. */
  netif->flags &= ~NETIF_FLAG_DHCP;
 802eed4:	f890 302d 	ldrb.w	r3, [r0, #45]	; 0x2d
void
dhcp_stop(struct netif *netif)
{
  struct dhcp *dhcp;
  LWIP_ERROR("dhcp_stop: netif != NULL", (netif != NULL), return;);
  dhcp = netif->dhcp;
 802eed8:	6a04      	ldr	r4, [r0, #32]
  /* Remove the flag that says this netif is handled by DHCP. */
  netif->flags &= ~NETIF_FLAG_DHCP;
 802eeda:	f023 0308 	bic.w	r3, r3, #8
 802eede:	f880 302d 	strb.w	r3, [r0, #45]	; 0x2d

  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_stop()\n"));
  /* netif is DHCP configured? */
  if (dhcp != NULL) {
 802eee2:	b15c      	cbz	r4, 802eefc <dhcp_stop+0x2c>
      autoip_stop(netif);
      dhcp->autoip_coop_state = DHCP_AUTOIP_COOP_STATE_OFF;
    }
#endif /* LWIP_DHCP_AUTOIP_COOP */

    if (dhcp->pcb != NULL) {
 802eee4:	6860      	ldr	r0, [r4, #4]
 802eee6:	b118      	cbz	r0, 802eef0 <dhcp_stop+0x20>
      udp_remove(dhcp->pcb);
 802eee8:	f003 f852 	bl	8031f90 <udp_remove>
      dhcp->pcb = NULL;
 802eeec:	2300      	movs	r3, #0
 802eeee:	6063      	str	r3, [r4, #4]
    }
    LWIP_ASSERT("reply wasn't freed", dhcp->msg_in == NULL);
    dhcp_set_state(dhcp, DHCP_OFF);
 802eef0:	4620      	mov	r0, r4
 802eef2:	2100      	movs	r1, #0
  }
}
 802eef4:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
    if (dhcp->pcb != NULL) {
      udp_remove(dhcp->pcb);
      dhcp->pcb = NULL;
    }
    LWIP_ASSERT("reply wasn't freed", dhcp->msg_in == NULL);
    dhcp_set_state(dhcp, DHCP_OFF);
 802eef8:	f7ff b9ce 	b.w	802e298 <dhcp_set_state>
 802eefc:	bd10      	pop	{r4, pc}
 802eefe:	0000      	movs	r0, r0

0802ef00 <dhcp_start>:
 * - ERR_OK - No error
 * - ERR_MEM - Out of memory
 */
err_t
dhcp_start(struct netif *netif)
{
 802ef00:	b538      	push	{r3, r4, r5, lr}
  struct dhcp *dhcp;
  err_t result = ERR_OK;

  LWIP_ERROR("netif != NULL", (netif != NULL), return ERR_ARG;);
 802ef02:	4604      	mov	r4, r0
 802ef04:	b908      	cbnz	r0, 802ef0a <dhcp_start+0xa>
 802ef06:	20f2      	movs	r0, #242	; 0xf2
 802ef08:	e047      	b.n	802ef9a <dhcp_start+0x9a>
  dhcp = netif->dhcp;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_start(netif=%p) %c%c%"U16_F"\n", (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num));
  /* Remove the flag that says this netif is handled by DHCP,
     it is set when we succeeded starting. */
  netif->flags &= ~NETIF_FLAG_DHCP;
 802ef0a:	f890 302d 	ldrb.w	r3, [r0, #45]	; 0x2d
{
  struct dhcp *dhcp;
  err_t result = ERR_OK;

  LWIP_ERROR("netif != NULL", (netif != NULL), return ERR_ARG;);
  dhcp = netif->dhcp;
 802ef0e:	6a05      	ldr	r5, [r0, #32]
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_start(netif=%p) %c%c%"U16_F"\n", (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num));
  /* Remove the flag that says this netif is handled by DHCP,
     it is set when we succeeded starting. */
  netif->flags &= ~NETIF_FLAG_DHCP;
 802ef10:	f023 0208 	bic.w	r2, r3, #8

  /* check hwtype of the netif */
  if ((netif->flags & NETIF_FLAG_ETHARP) == 0) {
 802ef14:	f003 0320 	and.w	r3, r3, #32
 802ef18:	b2db      	uxtb	r3, r3
  LWIP_ERROR("netif != NULL", (netif != NULL), return ERR_ARG;);
  dhcp = netif->dhcp;
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_start(netif=%p) %c%c%"U16_F"\n", (void*)netif, netif->name[0], netif->name[1], (u16_t)netif->num));
  /* Remove the flag that says this netif is handled by DHCP,
     it is set when we succeeded starting. */
  netif->flags &= ~NETIF_FLAG_DHCP;
 802ef1a:	f880 202d 	strb.w	r2, [r0, #45]	; 0x2d

  /* check hwtype of the netif */
  if ((netif->flags & NETIF_FLAG_ETHARP) == 0) {
 802ef1e:	2b00      	cmp	r3, #0
 802ef20:	d0f1      	beq.n	802ef06 <dhcp_start+0x6>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): No ETHARP netif\n"));
    return ERR_ARG;
  }

  /* check MTU of the netif */
  if (netif->mtu < DHCP_MAX_MSG_LEN_MIN_REQUIRED) {
 802ef22:	8c83      	ldrh	r3, [r0, #36]	; 0x24
 802ef24:	f5b3 7f10 	cmp.w	r3, #576	; 0x240
 802ef28:	d200      	bcs.n	802ef2c <dhcp_start+0x2c>
 802ef2a:	e02e      	b.n	802ef8a <dhcp_start+0x8a>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): Cannot use this netif with DHCP: MTU is too small\n"));
    return ERR_MEM;
  }

  /* no DHCP client attached yet? */
  if (dhcp == NULL) {
 802ef2c:	b935      	cbnz	r5, 802ef3c <dhcp_start+0x3c>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): starting new DHCP client\n"));
    dhcp = (struct dhcp *)mem_malloc(sizeof(struct dhcp));
 802ef2e:	203c      	movs	r0, #60	; 0x3c
 802ef30:	f000 f938 	bl	802f1a4 <mem_malloc>
    if (dhcp == NULL) {
 802ef34:	4605      	mov	r5, r0
 802ef36:	b340      	cbz	r0, 802ef8a <dhcp_start+0x8a>
      LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): could not allocate dhcp\n"));
      return ERR_MEM;
    }
    /* store this dhcp client in the netif */
    netif->dhcp = dhcp;
 802ef38:	6220      	str	r0, [r4, #32]
 802ef3a:	e003      	b.n	802ef44 <dhcp_start+0x44>
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): allocated dhcp"));
  /* already has DHCP client attached */
  } else {
    LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE, ("dhcp_start(): restarting DHCP configuration\n"));
    if (dhcp->pcb != NULL) {
 802ef3c:	6868      	ldr	r0, [r5, #4]
 802ef3e:	b108      	cbz	r0, 802ef44 <dhcp_start+0x44>
      udp_remove(dhcp->pcb);
 802ef40:	f003 f826 	bl	8031f90 <udp_remove>
    LWIP_ASSERT("pbuf p_out wasn't freed", dhcp->p_out == NULL);
    LWIP_ASSERT("reply wasn't freed", dhcp->msg_in == NULL );
  }
    
  /* clear data structure */
  memset(dhcp, 0, sizeof(struct dhcp));
 802ef44:	2100      	movs	r1, #0
 802ef46:	223c      	movs	r2, #60	; 0x3c
 802ef48:	4628      	mov	r0, r5
 802ef4a:	f7f2 ff29 	bl	8021da0 <memset>
  /* dhcp_set_state(&dhcp, DHCP_OFF); */
  /* allocate UDP PCB */
  dhcp->pcb = udp_new();
 802ef4e:	f003 f83b 	bl	8031fc8 <udp_new>
 802ef52:	6068      	str	r0, [r5, #4]
  if (dhcp->pcb == NULL) {
 802ef54:	b1c8      	cbz	r0, 802ef8a <dhcp_start+0x8a>
    LWIP_DEBUGF(DHCP_DEBUG  | LWIP_DBG_TRACE, ("dhcp_start(): could not obtain pcb\n"));
    return ERR_MEM;
  }
  ip_set_option(dhcp->pcb, SOF_BROADCAST);
 802ef56:	7a03      	ldrb	r3, [r0, #8]
  /* set up local and remote port for the pcb */
  udp_bind(dhcp->pcb, IP_ADDR_ANY, DHCP_CLIENT_PORT);
 802ef58:	4911      	ldr	r1, [pc, #68]	; (802efa0 <dhcp_start+0xa0>)
  dhcp->pcb = udp_new();
  if (dhcp->pcb == NULL) {
    LWIP_DEBUGF(DHCP_DEBUG  | LWIP_DBG_TRACE, ("dhcp_start(): could not obtain pcb\n"));
    return ERR_MEM;
  }
  ip_set_option(dhcp->pcb, SOF_BROADCAST);
 802ef5a:	f043 0320 	orr.w	r3, r3, #32
 802ef5e:	7203      	strb	r3, [r0, #8]
  /* set up local and remote port for the pcb */
  udp_bind(dhcp->pcb, IP_ADDR_ANY, DHCP_CLIENT_PORT);
 802ef60:	2244      	movs	r2, #68	; 0x44
 802ef62:	6868      	ldr	r0, [r5, #4]
 802ef64:	f002 ff18 	bl	8031d98 <udp_bind>
  udp_connect(dhcp->pcb, IP_ADDR_ANY, DHCP_SERVER_PORT);
 802ef68:	490d      	ldr	r1, [pc, #52]	; (802efa0 <dhcp_start+0xa0>)
 802ef6a:	6868      	ldr	r0, [r5, #4]
 802ef6c:	2243      	movs	r2, #67	; 0x43
 802ef6e:	f002 ffdd 	bl	8031f2c <udp_connect>
  /* set up the recv callback and argument */
  udp_recv(dhcp->pcb, dhcp_recv, netif);
 802ef72:	6868      	ldr	r0, [r5, #4]
 802ef74:	490b      	ldr	r1, [pc, #44]	; (802efa4 <dhcp_start+0xa4>)
 802ef76:	4622      	mov	r2, r4
 802ef78:	f003 f806 	bl	8031f88 <udp_recv>
  LWIP_DEBUGF(DHCP_DEBUG | LWIP_DBG_TRACE, ("dhcp_start(): starting DHCP configuration\n"));
  /* (re)start the DHCP negotiation */
  result = dhcp_discover(netif);
 802ef7c:	4620      	mov	r0, r4
 802ef7e:	f7ff fa9b 	bl	802e4b8 <dhcp_discover>
  if (result != ERR_OK) {
 802ef82:	b120      	cbz	r0, 802ef8e <dhcp_start+0x8e>
    /* free resources allocated above */
    dhcp_stop(netif);
 802ef84:	4620      	mov	r0, r4
 802ef86:	f7ff ffa3 	bl	802eed0 <dhcp_stop>
    return ERR_MEM;
 802ef8a:	20ff      	movs	r0, #255	; 0xff
 802ef8c:	e005      	b.n	802ef9a <dhcp_start+0x9a>
  }
  /* Set the flag that says this netif is handled by DHCP. */
  netif->flags |= NETIF_FLAG_DHCP;
 802ef8e:	f894 302d 	ldrb.w	r3, [r4, #45]	; 0x2d
 802ef92:	f043 0308 	orr.w	r3, r3, #8
 802ef96:	f884 302d 	strb.w	r3, [r4, #45]	; 0x2d
  return result;
}
 802ef9a:	b240      	sxtb	r0, r0
 802ef9c:	bd38      	pop	{r3, r4, r5, pc}
 802ef9e:	bf00      	nop
 802efa0:	08043fe4 	.word	0x08043fe4
 802efa4:	0802e85d 	.word	0x0802e85d

0802efa8 <lwip_init>:
/**
 * Perform Sanity check of user-configurable values, and initialize all modules.
 */
void
lwip_init(void)
{
 802efa8:	b508      	push	{r3, lr}
  /* Modules initialization */
  stats_init();
#if !NO_SYS
  sys_init();
 802efaa:	f007 ff2f 	bl	8036e0c <sys_init>
#endif /* !NO_SYS */
  mem_init();
 802efae:	f000 f80f 	bl	802efd0 <mem_init>
  memp_init();
 802efb2:	f000 f95b 	bl	802f26c <memp_init>
  pbuf_init();
  netif_init();
 802efb6:	f000 f9a9 	bl	802f30c <netif_init>
#endif /* LWIP_ARP */
#if LWIP_RAW
  raw_init();
#endif /* LWIP_RAW */
#if LWIP_UDP
  udp_init();
 802efba:	f002 fe27 	bl	8031c0c <udp_init>
#endif /* LWIP_UDP */
#if LWIP_TCP
  tcp_init();
 802efbe:	f000 fc8b 	bl	802f8d8 <tcp_init>
#endif /* LWIP_TCP */
#if LWIP_SNMP
  snmp_init();
 802efc2:	f005 fde1 	bl	8034b88 <snmp_init>
#endif /* LWIP_DNS */

#if LWIP_TIMERS
  sys_timeouts_init();
#endif /* LWIP_TIMERS */
}
 802efc6:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
#if LWIP_DNS
  dns_init();
#endif /* LWIP_DNS */

#if LWIP_TIMERS
  sys_timeouts_init();
 802efca:	f002 bd49 	b.w	8031a60 <sys_timeouts_init>
 802efce:	0000      	movs	r0, r0

0802efd0 <mem_init>:

  LWIP_ASSERT("Sanity check alignment",
    (SIZEOF_STRUCT_MEM & (MEM_ALIGNMENT-1)) == 0);

  /* align the heap */
  ram = (u8_t *)LWIP_MEM_ALIGN(LWIP_RAM_HEAP_POINTER);
 802efd0:	4b0b      	ldr	r3, [pc, #44]	; (802f000 <mem_init+0x30>)
 802efd2:	4a0c      	ldr	r2, [pc, #48]	; (802f004 <mem_init+0x34>)
  mem = (struct mem *)(void *)ram;
  mem->next = MEM_SIZE_ALIGNED;
  mem->prev = 0;
  mem->used = 0;
  /* initialize the end of the heap */
  ram_end = (struct mem *)(void *)&ram[MEM_SIZE_ALIGNED];
 802efd4:	480c      	ldr	r0, [pc, #48]	; (802f008 <mem_init+0x38>)

  LWIP_ASSERT("Sanity check alignment",
    (SIZEOF_STRUCT_MEM & (MEM_ALIGNMENT-1)) == 0);

  /* align the heap */
  ram = (u8_t *)LWIP_MEM_ALIGN(LWIP_RAM_HEAP_POINTER);
 802efd6:	f023 0303 	bic.w	r3, r3, #3
 802efda:	6013      	str	r3, [r2, #0]
  /* initialize the start of the heap */
  mem = (struct mem *)(void *)ram;
  mem->next = MEM_SIZE_ALIGNED;
 802efdc:	f44f 51a0 	mov.w	r1, #5120	; 0x1400
  mem->prev = 0;
 802efe0:	2200      	movs	r2, #0
 802efe2:	805a      	strh	r2, [r3, #2]
  mem->used = 0;
 802efe4:	711a      	strb	r2, [r3, #4]
  /* initialize the end of the heap */
  ram_end = (struct mem *)(void *)&ram[MEM_SIZE_ALIGNED];
 802efe6:	185a      	adds	r2, r3, r1
 802efe8:	6002      	str	r2, [r0, #0]
  ram_end->used = 1;
 802efea:	2001      	movs	r0, #1
 802efec:	7110      	strb	r0, [r2, #4]
  ram_end->next = MEM_SIZE_ALIGNED;
  ram_end->prev = MEM_SIZE_ALIGNED;
 802efee:	8051      	strh	r1, [r2, #2]

  /* align the heap */
  ram = (u8_t *)LWIP_MEM_ALIGN(LWIP_RAM_HEAP_POINTER);
  /* initialize the start of the heap */
  mem = (struct mem *)(void *)ram;
  mem->next = MEM_SIZE_ALIGNED;
 802eff0:	8019      	strh	r1, [r3, #0]
  /* initialize the lowest-free pointer to the start of the heap */
  lfree = (struct mem *)(void *)ram;

  MEM_STATS_AVAIL(avail, MEM_SIZE_ALIGNED);

  if(sys_mutex_new(&mem_mutex) != ERR_OK) {
 802eff2:	4806      	ldr	r0, [pc, #24]	; (802f00c <mem_init+0x3c>)
  mem->prev = 0;
  mem->used = 0;
  /* initialize the end of the heap */
  ram_end = (struct mem *)(void *)&ram[MEM_SIZE_ALIGNED];
  ram_end->used = 1;
  ram_end->next = MEM_SIZE_ALIGNED;
 802eff4:	8011      	strh	r1, [r2, #0]
  ram_end->prev = MEM_SIZE_ALIGNED;

  /* initialize the lowest-free pointer to the start of the heap */
  lfree = (struct mem *)(void *)ram;
 802eff6:	4a06      	ldr	r2, [pc, #24]	; (802f010 <mem_init+0x40>)
 802eff8:	6013      	str	r3, [r2, #0]

  MEM_STATS_AVAIL(avail, MEM_SIZE_ALIGNED);

  if(sys_mutex_new(&mem_mutex) != ERR_OK) {
 802effa:	f007 bee9 	b.w	8036dd0 <sys_mutex_new>
 802effe:	bf00      	nop
 802f000:	2000e28f 	.word	0x2000e28f
 802f004:	20000d54 	.word	0x20000d54
 802f008:	20000d4c 	.word	0x20000d4c
 802f00c:	20000d50 	.word	0x20000d50
 802f010:	20000d48 	.word	0x20000d48

0802f014 <mem_free>:
 * @param rmem is the data portion of a struct mem as returned by a previous
 *             call to mem_malloc()
 */
void
mem_free(void *rmem)
{
 802f014:	b570      	push	{r4, r5, r6, lr}
  struct mem *mem;
  LWIP_MEM_FREE_DECL_PROTECT();

  if (rmem == NULL) {
 802f016:	4604      	mov	r4, r0
 802f018:	2800      	cmp	r0, #0
 802f01a:	d04c      	beq.n	802f0b6 <mem_free+0xa2>
  LWIP_ASSERT("mem_free: sanity check alignment", (((mem_ptr_t)rmem) & (MEM_ALIGNMENT-1)) == 0);

  LWIP_ASSERT("mem_free: legal memory", (u8_t *)rmem >= (u8_t *)ram &&
    (u8_t *)rmem < (u8_t *)ram_end);

  if ((u8_t *)rmem < (u8_t *)ram || (u8_t *)rmem >= (u8_t *)ram_end) {
 802f01c:	4b26      	ldr	r3, [pc, #152]	; (802f0b8 <mem_free+0xa4>)
 802f01e:	681b      	ldr	r3, [r3, #0]
 802f020:	4298      	cmp	r0, r3
 802f022:	d303      	bcc.n	802f02c <mem_free+0x18>
 802f024:	4b25      	ldr	r3, [pc, #148]	; (802f0bc <mem_free+0xa8>)
 802f026:	681b      	ldr	r3, [r3, #0]
 802f028:	4298      	cmp	r0, r3
 802f02a:	d305      	bcc.n	802f038 <mem_free+0x24>
    SYS_ARCH_DECL_PROTECT(lev);
    LWIP_DEBUGF(MEM_DEBUG | LWIP_DBG_LEVEL_SEVERE, ("mem_free: illegal memory\n"));
    /* protect mem stats from concurrent access */
    SYS_ARCH_PROTECT(lev);
 802f02c:	f007 ff08 	bl	8036e40 <sys_arch_protect>
  plug_holes(mem);
#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
  mem_free_count = 1;
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
  LWIP_MEM_FREE_UNPROTECT();
}
 802f030:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
    SYS_ARCH_DECL_PROTECT(lev);
    LWIP_DEBUGF(MEM_DEBUG | LWIP_DBG_LEVEL_SEVERE, ("mem_free: illegal memory\n"));
    /* protect mem stats from concurrent access */
    SYS_ARCH_PROTECT(lev);
    MEM_STATS_INC(illegal);
    SYS_ARCH_UNPROTECT(lev);
 802f034:	f007 bf0e 	b.w	8036e54 <sys_arch_unprotect>
    return;
  }
  /* protect the heap from concurrent access */
  LWIP_MEM_FREE_PROTECT();
 802f038:	4821      	ldr	r0, [pc, #132]	; (802f0c0 <mem_free+0xac>)
 802f03a:	f007 fed5 	bl	8036de8 <sys_mutex_lock>
  /* Get the corresponding struct mem ... */
  mem = (struct mem *)(void *)((u8_t *)rmem - SIZEOF_STRUCT_MEM);
  /* ... which has to be in a used state ... */
  LWIP_ASSERT("mem_free: mem->used", mem->used);
  /* ... and is now unused. */
  mem->used = 0;
 802f03e:	2300      	movs	r3, #0
 802f040:	f804 3c04 	strb.w	r3, [r4, #-4]

  if (mem < lfree) {
 802f044:	4b1f      	ldr	r3, [pc, #124]	; (802f0c4 <mem_free+0xb0>)
  LWIP_ASSERT("plug_holes: mem->used == 0", mem->used == 0);

  /* plug hole forward */
  LWIP_ASSERT("plug_holes: mem->next <= MEM_SIZE_ALIGNED", mem->next <= MEM_SIZE_ALIGNED);

  nmem = (struct mem *)(void *)&ram[mem->next];
 802f046:	f834 0c08 	ldrh.w	r0, [r4, #-8]
  /* ... which has to be in a used state ... */
  LWIP_ASSERT("mem_free: mem->used", mem->used);
  /* ... and is now unused. */
  mem->used = 0;

  if (mem < lfree) {
 802f04a:	6819      	ldr	r1, [r3, #0]
    return;
  }
  /* protect the heap from concurrent access */
  LWIP_MEM_FREE_PROTECT();
  /* Get the corresponding struct mem ... */
  mem = (struct mem *)(void *)((u8_t *)rmem - SIZEOF_STRUCT_MEM);
 802f04c:	f1a4 0208 	sub.w	r2, r4, #8
  /* ... which has to be in a used state ... */
  LWIP_ASSERT("mem_free: mem->used", mem->used);
  /* ... and is now unused. */
  mem->used = 0;

  if (mem < lfree) {
 802f050:	428a      	cmp	r2, r1
    /* the newly freed struct is now the lowest */
    lfree = mem;
 802f052:	bf38      	it	cc
 802f054:	601a      	strcc	r2, [r3, #0]
  LWIP_ASSERT("plug_holes: mem->used == 0", mem->used == 0);

  /* plug hole forward */
  LWIP_ASSERT("plug_holes: mem->next <= MEM_SIZE_ALIGNED", mem->next <= MEM_SIZE_ALIGNED);

  nmem = (struct mem *)(void *)&ram[mem->next];
 802f056:	4b18      	ldr	r3, [pc, #96]	; (802f0b8 <mem_free+0xa4>)
 802f058:	681b      	ldr	r3, [r3, #0]
 802f05a:	1819      	adds	r1, r3, r0
  if (mem != nmem && nmem->used == 0 && (u8_t *)nmem != (u8_t *)ram_end) {
 802f05c:	428a      	cmp	r2, r1
 802f05e:	d011      	beq.n	802f084 <mem_free+0x70>
 802f060:	790d      	ldrb	r5, [r1, #4]
 802f062:	b97d      	cbnz	r5, 802f084 <mem_free+0x70>
 802f064:	4d15      	ldr	r5, [pc, #84]	; (802f0bc <mem_free+0xa8>)
 802f066:	682d      	ldr	r5, [r5, #0]
 802f068:	42a9      	cmp	r1, r5
 802f06a:	d00b      	beq.n	802f084 <mem_free+0x70>
    /* if mem->next is unused and not end of ram, combine mem and mem->next */
    if (lfree == nmem) {
 802f06c:	4d15      	ldr	r5, [pc, #84]	; (802f0c4 <mem_free+0xb0>)
 802f06e:	682e      	ldr	r6, [r5, #0]
 802f070:	428e      	cmp	r6, r1
      lfree = mem;
    }
    mem->next = nmem->next;
 802f072:	5a19      	ldrh	r1, [r3, r0]

  nmem = (struct mem *)(void *)&ram[mem->next];
  if (mem != nmem && nmem->used == 0 && (u8_t *)nmem != (u8_t *)ram_end) {
    /* if mem->next is unused and not end of ram, combine mem and mem->next */
    if (lfree == nmem) {
      lfree = mem;
 802f074:	bf08      	it	eq
 802f076:	602a      	streq	r2, [r5, #0]
    }
    mem->next = nmem->next;
 802f078:	f824 1c08 	strh.w	r1, [r4, #-8]
    ((struct mem *)(void *)&ram[nmem->next])->prev = (mem_size_t)((u8_t *)mem - ram);
 802f07c:	5a19      	ldrh	r1, [r3, r0]
 802f07e:	1859      	adds	r1, r3, r1
 802f080:	1ad0      	subs	r0, r2, r3
 802f082:	8048      	strh	r0, [r1, #2]
  }

  /* plug hole backward */
  pmem = (struct mem *)(void *)&ram[mem->prev];
 802f084:	f834 0c06 	ldrh.w	r0, [r4, #-6]
 802f088:	1819      	adds	r1, r3, r0
  if (pmem != mem && pmem->used == 0) {
 802f08a:	4291      	cmp	r1, r2
 802f08c:	d00e      	beq.n	802f0ac <mem_free+0x98>
 802f08e:	790d      	ldrb	r5, [r1, #4]
 802f090:	b965      	cbnz	r5, 802f0ac <mem_free+0x98>
    /* if mem->prev is unused, combine mem and mem->prev */
    if (lfree == mem) {
 802f092:	4d0c      	ldr	r5, [pc, #48]	; (802f0c4 <mem_free+0xb0>)
 802f094:	682e      	ldr	r6, [r5, #0]
 802f096:	4296      	cmp	r6, r2
      lfree = pmem;
    }
    pmem->next = mem->next;
 802f098:	f834 2c08 	ldrh.w	r2, [r4, #-8]
  /* plug hole backward */
  pmem = (struct mem *)(void *)&ram[mem->prev];
  if (pmem != mem && pmem->used == 0) {
    /* if mem->prev is unused, combine mem and mem->prev */
    if (lfree == mem) {
      lfree = pmem;
 802f09c:	bf08      	it	eq
 802f09e:	6029      	streq	r1, [r5, #0]
    }
    pmem->next = mem->next;
 802f0a0:	521a      	strh	r2, [r3, r0]
    ((struct mem *)(void *)&ram[mem->next])->prev = (mem_size_t)((u8_t *)pmem - ram);
 802f0a2:	f834 2c08 	ldrh.w	r2, [r4, #-8]
 802f0a6:	189a      	adds	r2, r3, r2
 802f0a8:	1acb      	subs	r3, r1, r3
 802f0aa:	8053      	strh	r3, [r2, #2]
  /* finally, see if prev or next are free also */
  plug_holes(mem);
#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
  mem_free_count = 1;
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
  LWIP_MEM_FREE_UNPROTECT();
 802f0ac:	4804      	ldr	r0, [pc, #16]	; (802f0c0 <mem_free+0xac>)
}
 802f0ae:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  /* finally, see if prev or next are free also */
  plug_holes(mem);
#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
  mem_free_count = 1;
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
  LWIP_MEM_FREE_UNPROTECT();
 802f0b2:	f007 bea5 	b.w	8036e00 <sys_mutex_unlock>
 802f0b6:	bd70      	pop	{r4, r5, r6, pc}
 802f0b8:	20000d54 	.word	0x20000d54
 802f0bc:	20000d4c 	.word	0x20000d4c
 802f0c0:	20000d50 	.word	0x20000d50
 802f0c4:	20000d48 	.word	0x20000d48

0802f0c8 <mem_trim>:
 *         or NULL if newsize is > old size, in which case rmem is NOT touched
 *         or freed!
 */
void *
mem_trim(void *rmem, mem_size_t newsize)
{
 802f0c8:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
  /* use the FREE_PROTECT here: it protects with sem OR SYS_ARCH_PROTECT */
  LWIP_MEM_FREE_DECL_PROTECT();

  /* Expand the size of the allocated memory region so that we can
     adjust for alignment. */
  newsize = LWIP_MEM_ALIGN_SIZE(newsize);
 802f0cc:	3103      	adds	r1, #3
 802f0ce:	f64f 75fc 	movw	r5, #65532	; 0xfffc
 802f0d2:	400d      	ands	r5, r1

  if(newsize < MIN_SIZE_ALIGNED) {
 802f0d4:	2d0b      	cmp	r5, #11
 *         or NULL if newsize is > old size, in which case rmem is NOT touched
 *         or freed!
 */
void *
mem_trim(void *rmem, mem_size_t newsize)
{
 802f0d6:	4604      	mov	r4, r0

  /* Expand the size of the allocated memory region so that we can
     adjust for alignment. */
  newsize = LWIP_MEM_ALIGN_SIZE(newsize);

  if(newsize < MIN_SIZE_ALIGNED) {
 802f0d8:	d903      	bls.n	802f0e2 <mem_trim+0x1a>
    /* every data block must be at least MIN_SIZE_ALIGNED long */
    newsize = MIN_SIZE_ALIGNED;
  }

  if (newsize > MEM_SIZE_ALIGNED) {
 802f0da:	f5b5 5fa0 	cmp.w	r5, #5120	; 0x1400
 802f0de:	d901      	bls.n	802f0e4 <mem_trim+0x1c>
 802f0e0:	e053      	b.n	802f18a <mem_trim+0xc2>
     adjust for alignment. */
  newsize = LWIP_MEM_ALIGN_SIZE(newsize);

  if(newsize < MIN_SIZE_ALIGNED) {
    /* every data block must be at least MIN_SIZE_ALIGNED long */
    newsize = MIN_SIZE_ALIGNED;
 802f0e2:	250c      	movs	r5, #12
  }

  LWIP_ASSERT("mem_trim: legal memory", (u8_t *)rmem >= (u8_t *)ram &&
   (u8_t *)rmem < (u8_t *)ram_end);

  if ((u8_t *)rmem < (u8_t *)ram || (u8_t *)rmem >= (u8_t *)ram_end) {
 802f0e4:	f8df 80b8 	ldr.w	r8, [pc, #184]	; 802f1a0 <mem_trim+0xd8>
 802f0e8:	f8d8 3000 	ldr.w	r3, [r8]
 802f0ec:	429c      	cmp	r4, r3
 802f0ee:	d303      	bcc.n	802f0f8 <mem_trim+0x30>
 802f0f0:	4a28      	ldr	r2, [pc, #160]	; (802f194 <mem_trim+0xcc>)
 802f0f2:	6812      	ldr	r2, [r2, #0]
 802f0f4:	4294      	cmp	r4, r2
 802f0f6:	d304      	bcc.n	802f102 <mem_trim+0x3a>
    SYS_ARCH_DECL_PROTECT(lev);
    LWIP_DEBUGF(MEM_DEBUG | LWIP_DBG_LEVEL_SEVERE, ("mem_trim: illegal memory\n"));
    /* protect mem stats from concurrent access */
    SYS_ARCH_PROTECT(lev);
 802f0f8:	f007 fea2 	bl	8036e40 <sys_arch_protect>
    MEM_STATS_INC(illegal);
    SYS_ARCH_UNPROTECT(lev);
 802f0fc:	f007 feaa 	bl	8036e54 <sys_arch_unprotect>
    return rmem;
 802f100:	e044      	b.n	802f18c <mem_trim+0xc4>
  }
  /* Get the corresponding struct mem ... */
  mem = (struct mem *)(void *)((u8_t *)rmem - SIZEOF_STRUCT_MEM);
 802f102:	f1a4 0608 	sub.w	r6, r4, #8
  /* ... and its offset pointer */
  ptr = (mem_size_t)((u8_t *)mem - ram);

  size = mem->next - ptr - SIZEOF_STRUCT_MEM;
 802f106:	f834 7c08 	ldrh.w	r7, [r4, #-8]
    return rmem;
  }
  /* Get the corresponding struct mem ... */
  mem = (struct mem *)(void *)((u8_t *)rmem - SIZEOF_STRUCT_MEM);
  /* ... and its offset pointer */
  ptr = (mem_size_t)((u8_t *)mem - ram);
 802f10a:	1af6      	subs	r6, r6, r3

  size = mem->next - ptr - SIZEOF_STRUCT_MEM;
 802f10c:	3f08      	subs	r7, #8
    return rmem;
  }
  /* Get the corresponding struct mem ... */
  mem = (struct mem *)(void *)((u8_t *)rmem - SIZEOF_STRUCT_MEM);
  /* ... and its offset pointer */
  ptr = (mem_size_t)((u8_t *)mem - ram);
 802f10e:	b2b6      	uxth	r6, r6

  size = mem->next - ptr - SIZEOF_STRUCT_MEM;
 802f110:	1bbf      	subs	r7, r7, r6
 802f112:	b2bf      	uxth	r7, r7
  LWIP_ASSERT("mem_trim can only shrink memory", newsize <= size);
  if (newsize > size) {
 802f114:	42bd      	cmp	r5, r7
 802f116:	d838      	bhi.n	802f18a <mem_trim+0xc2>
    /* not supported */
    return NULL;
  }
  if (newsize == size) {
 802f118:	d038      	beq.n	802f18c <mem_trim+0xc4>
    /* No change in size, simply return */
    return rmem;
  }

  /* protect the heap from concurrent access */
  LWIP_MEM_FREE_PROTECT();
 802f11a:	481f      	ldr	r0, [pc, #124]	; (802f198 <mem_trim+0xd0>)
 802f11c:	f007 fe64 	bl	8036de8 <sys_mutex_lock>

  mem2 = (struct mem *)(void *)&ram[mem->next];
 802f120:	f8d8 3000 	ldr.w	r3, [r8]
 802f124:	f834 1c08 	ldrh.w	r1, [r4, #-8]
 802f128:	185a      	adds	r2, r3, r1
  if(mem2->used == 0) {
 802f12a:	7910      	ldrb	r0, [r2, #4]
 802f12c:	b978      	cbnz	r0, 802f14e <mem_trim+0x86>
    /* The next struct is unused, we can simply move it at little */
    mem_size_t next;
    /* remember the old next pointer */
    next = mem2->next;
 802f12e:	5a5f      	ldrh	r7, [r3, r1]
    /* create new struct mem which is moved directly after the shrinked mem */
    ptr2 = ptr + SIZEOF_STRUCT_MEM + newsize;
 802f130:	f106 0108 	add.w	r1, r6, #8
 802f134:	186d      	adds	r5, r5, r1
    if (lfree == mem2) {
 802f136:	4919      	ldr	r1, [pc, #100]	; (802f19c <mem_trim+0xd4>)
 802f138:	6808      	ldr	r0, [r1, #0]
    /* The next struct is unused, we can simply move it at little */
    mem_size_t next;
    /* remember the old next pointer */
    next = mem2->next;
    /* create new struct mem which is moved directly after the shrinked mem */
    ptr2 = ptr + SIZEOF_STRUCT_MEM + newsize;
 802f13a:	b2ad      	uxth	r5, r5
    if (lfree == mem2) {
 802f13c:	4290      	cmp	r0, r2
 802f13e:	eb03 0205 	add.w	r2, r3, r5
      lfree = (struct mem *)(void *)&ram[ptr2];
 802f142:	bf08      	it	eq
 802f144:	600a      	streq	r2, [r1, #0]
    }
    mem2 = (struct mem *)(void *)&ram[ptr2];
    mem2->used = 0;
 802f146:	2100      	movs	r1, #0
 802f148:	7111      	strb	r1, [r2, #4]
    /* restore the next pointer */
    mem2->next = next;
 802f14a:	535f      	strh	r7, [r3, r5]
 802f14c:	e010      	b.n	802f170 <mem_trim+0xa8>
    if (mem2->next != MEM_SIZE_ALIGNED) {
      ((struct mem *)(void *)&ram[mem2->next])->prev = ptr2;
    }
    MEM_STATS_DEC_USED(used, (size - newsize));
    /* no need to plug holes, we've already done that */
  } else if (newsize + SIZEOF_STRUCT_MEM + MIN_SIZE_ALIGNED <= size) {
 802f14e:	f105 0214 	add.w	r2, r5, #20
 802f152:	42ba      	cmp	r2, r7
 802f154:	d815      	bhi.n	802f182 <mem_trim+0xba>
     * @todo we could leave out MIN_SIZE_ALIGNED. We would create an empty
     *       region that couldn't hold data, but when mem->next gets freed,
     *       the 2 regions would be combined, resulting in more free memory */
    ptr2 = ptr + SIZEOF_STRUCT_MEM + newsize;
    mem2 = (struct mem *)(void *)&ram[ptr2];
    if (mem2 < lfree) {
 802f156:	4811      	ldr	r0, [pc, #68]	; (802f19c <mem_trim+0xd4>)
     * Old size ('size') must be big enough to contain at least 'newsize' plus a struct mem
     * ('SIZEOF_STRUCT_MEM') with some data ('MIN_SIZE_ALIGNED').
     * @todo we could leave out MIN_SIZE_ALIGNED. We would create an empty
     *       region that couldn't hold data, but when mem->next gets freed,
     *       the 2 regions would be combined, resulting in more free memory */
    ptr2 = ptr + SIZEOF_STRUCT_MEM + newsize;
 802f158:	f106 0208 	add.w	r2, r6, #8
 802f15c:	18ad      	adds	r5, r5, r2
    mem2 = (struct mem *)(void *)&ram[ptr2];
    if (mem2 < lfree) {
 802f15e:	6807      	ldr	r7, [r0, #0]
     * Old size ('size') must be big enough to contain at least 'newsize' plus a struct mem
     * ('SIZEOF_STRUCT_MEM') with some data ('MIN_SIZE_ALIGNED').
     * @todo we could leave out MIN_SIZE_ALIGNED. We would create an empty
     *       region that couldn't hold data, but when mem->next gets freed,
     *       the 2 regions would be combined, resulting in more free memory */
    ptr2 = ptr + SIZEOF_STRUCT_MEM + newsize;
 802f160:	b2ad      	uxth	r5, r5
    mem2 = (struct mem *)(void *)&ram[ptr2];
 802f162:	195a      	adds	r2, r3, r5
    if (mem2 < lfree) {
 802f164:	42ba      	cmp	r2, r7
      lfree = mem2;
 802f166:	bf38      	it	cc
 802f168:	6002      	strcc	r2, [r0, #0]
    }
    mem2->used = 0;
    mem2->next = mem->next;
 802f16a:	5359      	strh	r1, [r3, r5]
    ptr2 = ptr + SIZEOF_STRUCT_MEM + newsize;
    mem2 = (struct mem *)(void *)&ram[ptr2];
    if (mem2 < lfree) {
      lfree = mem2;
    }
    mem2->used = 0;
 802f16c:	2000      	movs	r0, #0
 802f16e:	7110      	strb	r0, [r2, #4]
    mem2->next = mem->next;
    mem2->prev = ptr;
 802f170:	8056      	strh	r6, [r2, #2]
    mem->next = ptr2;
 802f172:	f824 5c08 	strh.w	r5, [r4, #-8]
    if (mem2->next != MEM_SIZE_ALIGNED) {
 802f176:	5b5a      	ldrh	r2, [r3, r5]
 802f178:	f5b2 5fa0 	cmp.w	r2, #5120	; 0x1400
      ((struct mem *)(void *)&ram[mem2->next])->prev = ptr2;
 802f17c:	bf1c      	itt	ne
 802f17e:	189b      	addne	r3, r3, r2
 802f180:	805d      	strhne	r5, [r3, #2]
    -> the remaining space stays unused since it is too small
  } */
#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
  mem_free_count = 1;
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
  LWIP_MEM_FREE_UNPROTECT();
 802f182:	4805      	ldr	r0, [pc, #20]	; (802f198 <mem_trim+0xd0>)
 802f184:	f007 fe3c 	bl	8036e00 <sys_mutex_unlock>
  return rmem;
 802f188:	e000      	b.n	802f18c <mem_trim+0xc4>
    /* every data block must be at least MIN_SIZE_ALIGNED long */
    newsize = MIN_SIZE_ALIGNED;
  }

  if (newsize > MEM_SIZE_ALIGNED) {
    return NULL;
 802f18a:	2400      	movs	r4, #0
#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
  mem_free_count = 1;
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
  LWIP_MEM_FREE_UNPROTECT();
  return rmem;
}
 802f18c:	4620      	mov	r0, r4
 802f18e:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 802f192:	bf00      	nop
 802f194:	20000d4c 	.word	0x20000d4c
 802f198:	20000d50 	.word	0x20000d50
 802f19c:	20000d48 	.word	0x20000d48
 802f1a0:	20000d54 	.word	0x20000d54

0802f1a4 <mem_malloc>:
 *
 * Note that the returned value will always be aligned (as defined by MEM_ALIGNMENT).
 */
void *
mem_malloc(mem_size_t size)
{
 802f1a4:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
  u8_t local_mem_free_count = 0;
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
  LWIP_MEM_ALLOC_DECL_PROTECT();

  if (size == 0) {
 802f1a6:	2800      	cmp	r0, #0
 802f1a8:	d056      	beq.n	802f258 <mem_malloc+0xb4>
    return NULL;
  }

  /* Expand the size of the allocated memory region so that we can
     adjust for alignment. */
  size = LWIP_MEM_ALIGN_SIZE(size);
 802f1aa:	3003      	adds	r0, #3
 802f1ac:	f64f 74fc 	movw	r4, #65532	; 0xfffc
 802f1b0:	4004      	ands	r4, r0

  if(size < MIN_SIZE_ALIGNED) {
 802f1b2:	2c0b      	cmp	r4, #11
 802f1b4:	d903      	bls.n	802f1be <mem_malloc+0x1a>
    /* every data block must be at least MIN_SIZE_ALIGNED long */
    size = MIN_SIZE_ALIGNED;
  }

  if (size > MEM_SIZE_ALIGNED) {
 802f1b6:	f5b4 5fa0 	cmp.w	r4, #5120	; 0x1400
 802f1ba:	d901      	bls.n	802f1c0 <mem_malloc+0x1c>
 802f1bc:	e04b      	b.n	802f256 <mem_malloc+0xb2>
     adjust for alignment. */
  size = LWIP_MEM_ALIGN_SIZE(size);

  if(size < MIN_SIZE_ALIGNED) {
    /* every data block must be at least MIN_SIZE_ALIGNED long */
    size = MIN_SIZE_ALIGNED;
 802f1be:	240c      	movs	r4, #12
  if (size > MEM_SIZE_ALIGNED) {
    return NULL;
  }

  /* protect the heap from concurrent access */
  sys_mutex_lock(&mem_mutex);
 802f1c0:	4826      	ldr	r0, [pc, #152]	; (802f25c <mem_malloc+0xb8>)
 802f1c2:	f007 fe11 	bl	8036de8 <sys_mutex_lock>
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */

    /* Scan through the heap searching for a free block that is big enough,
     * beginning with the lowest free block.
     */
    for (ptr = (mem_size_t)((u8_t *)lfree - ram); ptr < MEM_SIZE_ALIGNED - size;
 802f1c6:	4b26      	ldr	r3, [pc, #152]	; (802f260 <mem_malloc+0xbc>)
 802f1c8:	6819      	ldr	r1, [r3, #0]
 802f1ca:	4b26      	ldr	r3, [pc, #152]	; (802f264 <mem_malloc+0xc0>)
 802f1cc:	681a      	ldr	r2, [r3, #0]
 802f1ce:	1a8b      	subs	r3, r1, r2
 802f1d0:	b29b      	uxth	r3, r3
 802f1d2:	f5c4 5ea0 	rsb	lr, r4, #5120	; 0x1400
 802f1d6:	e039      	b.n	802f24c <mem_malloc+0xa8>
         ptr = ((struct mem *)(void *)&ram[ptr])->next) {
      mem = (struct mem *)(void *)&ram[ptr];
 802f1d8:	18d5      	adds	r5, r2, r3
        local_mem_free_count = 1;
        break;
      }
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */

      if ((!mem->used) &&
 802f1da:	792f      	ldrb	r7, [r5, #4]
 802f1dc:	2f00      	cmp	r7, #0
 802f1de:	d134      	bne.n	802f24a <mem_malloc+0xa6>
          (mem->next - (ptr + SIZEOF_STRUCT_MEM)) >= size) {
 802f1e0:	5ad6      	ldrh	r6, [r2, r3]
 802f1e2:	f1a6 0008 	sub.w	r0, r6, #8
 802f1e6:	1ac0      	subs	r0, r0, r3
        local_mem_free_count = 1;
        break;
      }
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */

      if ((!mem->used) &&
 802f1e8:	42a0      	cmp	r0, r4
 802f1ea:	d32e      	bcc.n	802f24a <mem_malloc+0xa6>
          (mem->next - (ptr + SIZEOF_STRUCT_MEM)) >= size) {
        /* mem is not used and at least perfect fit is possible:
         * mem->next - (ptr + SIZEOF_STRUCT_MEM) gives us the 'user data size' of mem */

        if (mem->next - (ptr + SIZEOF_STRUCT_MEM) >= (size + SIZEOF_STRUCT_MEM + MIN_SIZE_ALIGNED)) {
 802f1ec:	f104 0e14 	add.w	lr, r4, #20
 802f1f0:	4570      	cmp	r0, lr
 802f1f2:	d310      	bcc.n	802f216 <mem_malloc+0x72>
           * struct mem would fit in but no data between mem2 and mem2->next
           * @todo we could leave out MIN_SIZE_ALIGNED. We would create an empty
           *       region that couldn't hold data, but when mem->next gets freed,
           *       the 2 regions would be combined, resulting in more free memory
           */
          ptr2 = ptr + SIZEOF_STRUCT_MEM + size;
 802f1f4:	3408      	adds	r4, #8
 802f1f6:	191c      	adds	r4, r3, r4
 802f1f8:	b2a4      	uxth	r4, r4
          /* create mem2 struct */
          mem2 = (struct mem *)(void *)&ram[ptr2];
 802f1fa:	1910      	adds	r0, r2, r4
          mem2->used = 0;
          mem2->next = mem->next;
 802f1fc:	5316      	strh	r6, [r2, r4]
          mem2->prev = ptr;
 802f1fe:	8043      	strh	r3, [r0, #2]
          /* and insert it between mem and mem->next */
          mem->next = ptr2;
 802f200:	802c      	strh	r4, [r5, #0]
          mem->used = 1;
 802f202:	2301      	movs	r3, #1
           *       the 2 regions would be combined, resulting in more free memory
           */
          ptr2 = ptr + SIZEOF_STRUCT_MEM + size;
          /* create mem2 struct */
          mem2 = (struct mem *)(void *)&ram[ptr2];
          mem2->used = 0;
 802f204:	7107      	strb	r7, [r0, #4]
          mem2->next = mem->next;
          mem2->prev = ptr;
          /* and insert it between mem and mem->next */
          mem->next = ptr2;
          mem->used = 1;
 802f206:	712b      	strb	r3, [r5, #4]

          if (mem2->next != MEM_SIZE_ALIGNED) {
 802f208:	5b13      	ldrh	r3, [r2, r4]
 802f20a:	f5b3 5fa0 	cmp.w	r3, #5120	; 0x1400
 802f20e:	d004      	beq.n	802f21a <mem_malloc+0x76>
            ((struct mem *)(void *)&ram[mem2->next])->prev = ptr2;
 802f210:	18d2      	adds	r2, r2, r3
 802f212:	8054      	strh	r4, [r2, #2]
 802f214:	e001      	b.n	802f21a <mem_malloc+0x76>
           * take care of this).
           * -> near fit or excact fit: do not split, no mem2 creation
           * also can't move mem->next directly behind mem, since mem->next
           * will always be used at this point!
           */
          mem->used = 1;
 802f216:	2301      	movs	r3, #1
 802f218:	712b      	strb	r3, [r5, #4]
          MEM_STATS_INC_USED(used, mem->next - (mem_size_t)((u8_t *)mem - ram));
        }
#if LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT
mem_malloc_adjust_lfree:
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
        if (mem == lfree) {
 802f21a:	428d      	cmp	r5, r1
 802f21c:	d10f      	bne.n	802f23e <mem_malloc+0x9a>
          struct mem *cur = lfree;
          /* Find next free block after mem and update lowest free pointer */
          while (cur->used && cur != ram_end) {
 802f21e:	4b12      	ldr	r3, [pc, #72]	; (802f268 <mem_malloc+0xc4>)
 802f220:	681a      	ldr	r2, [r3, #0]
              /* If mem_free or mem_trim have run, we have to restart since they
                 could have altered our current struct mem or lfree. */
              goto mem_malloc_adjust_lfree;
            }
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
            cur = (struct mem *)(void *)&ram[cur->next];
 802f222:	4b10      	ldr	r3, [pc, #64]	; (802f264 <mem_malloc+0xc0>)
 802f224:	6819      	ldr	r1, [r3, #0]
 802f226:	462b      	mov	r3, r5
 802f228:	e001      	b.n	802f22e <mem_malloc+0x8a>
 802f22a:	881b      	ldrh	r3, [r3, #0]
 802f22c:	18cb      	adds	r3, r1, r3
mem_malloc_adjust_lfree:
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
        if (mem == lfree) {
          struct mem *cur = lfree;
          /* Find next free block after mem and update lowest free pointer */
          while (cur->used && cur != ram_end) {
 802f22e:	7918      	ldrb	r0, [r3, #4]
 802f230:	b910      	cbnz	r0, 802f238 <mem_malloc+0x94>
              goto mem_malloc_adjust_lfree;
            }
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
            cur = (struct mem *)(void *)&ram[cur->next];
          }
          lfree = cur;
 802f232:	4a0b      	ldr	r2, [pc, #44]	; (802f260 <mem_malloc+0xbc>)
 802f234:	6013      	str	r3, [r2, #0]
 802f236:	e002      	b.n	802f23e <mem_malloc+0x9a>
mem_malloc_adjust_lfree:
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
        if (mem == lfree) {
          struct mem *cur = lfree;
          /* Find next free block after mem and update lowest free pointer */
          while (cur->used && cur != ram_end) {
 802f238:	4293      	cmp	r3, r2
 802f23a:	d1f6      	bne.n	802f22a <mem_malloc+0x86>
 802f23c:	e7f9      	b.n	802f232 <mem_malloc+0x8e>
          }
          lfree = cur;
          LWIP_ASSERT("mem_malloc: !lfree->used", ((lfree == ram_end) || (!lfree->used)));
        }
        LWIP_MEM_ALLOC_UNPROTECT();
        sys_mutex_unlock(&mem_mutex);
 802f23e:	4807      	ldr	r0, [pc, #28]	; (802f25c <mem_malloc+0xb8>)
 802f240:	f007 fdde 	bl	8036e00 <sys_mutex_unlock>
        LWIP_ASSERT("mem_malloc: allocated memory properly aligned.",
         ((mem_ptr_t)mem + SIZEOF_STRUCT_MEM) % MEM_ALIGNMENT == 0);
        LWIP_ASSERT("mem_malloc: sanity check alignment",
          (((mem_ptr_t)mem) & (MEM_ALIGNMENT-1)) == 0);

        return (u8_t *)mem + SIZEOF_STRUCT_MEM;
 802f244:	f105 0008 	add.w	r0, r5, #8
 802f248:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}

    /* Scan through the heap searching for a free block that is big enough,
     * beginning with the lowest free block.
     */
    for (ptr = (mem_size_t)((u8_t *)lfree - ram); ptr < MEM_SIZE_ALIGNED - size;
         ptr = ((struct mem *)(void *)&ram[ptr])->next) {
 802f24a:	882b      	ldrh	r3, [r5, #0]
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */

    /* Scan through the heap searching for a free block that is big enough,
     * beginning with the lowest free block.
     */
    for (ptr = (mem_size_t)((u8_t *)lfree - ram); ptr < MEM_SIZE_ALIGNED - size;
 802f24c:	4573      	cmp	r3, lr
 802f24e:	dbc3      	blt.n	802f1d8 <mem_malloc+0x34>
  } while(local_mem_free_count != 0);
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
  LWIP_DEBUGF(MEM_DEBUG | LWIP_DBG_LEVEL_SERIOUS, ("mem_malloc: could not allocate %"S16_F" bytes\n", (s16_t)size));
  MEM_STATS_INC(err);
  LWIP_MEM_ALLOC_UNPROTECT();
  sys_mutex_unlock(&mem_mutex);
 802f250:	4802      	ldr	r0, [pc, #8]	; (802f25c <mem_malloc+0xb8>)
 802f252:	f007 fdd5 	bl	8036e00 <sys_mutex_unlock>
  u8_t local_mem_free_count = 0;
#endif /* LWIP_ALLOW_MEM_FREE_FROM_OTHER_CONTEXT */
  LWIP_MEM_ALLOC_DECL_PROTECT();

  if (size == 0) {
    return NULL;
 802f256:	2000      	movs	r0, #0
  LWIP_DEBUGF(MEM_DEBUG | LWIP_DBG_LEVEL_SERIOUS, ("mem_malloc: could not allocate %"S16_F" bytes\n", (s16_t)size));
  MEM_STATS_INC(err);
  LWIP_MEM_ALLOC_UNPROTECT();
  sys_mutex_unlock(&mem_mutex);
  return NULL;
}
 802f258:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 802f25a:	bf00      	nop
 802f25c:	20000d50 	.word	0x20000d50
 802f260:	20000d48 	.word	0x20000d48
 802f264:	20000d54 	.word	0x20000d54
 802f268:	20000d4c 	.word	0x20000d4c

0802f26c <memp_init>:
    MEMP_STATS_AVAIL(err, i, 0);
    MEMP_STATS_AVAIL(avail, i, memp_num[i]);
  }

#if !MEMP_SEPARATE_POOLS
  memp = (struct memp *)LWIP_MEM_ALIGN(memp_memory);
 802f26c:	4a0e      	ldr	r2, [pc, #56]	; (802f2a8 <memp_init+0x3c>)
 802f26e:	490f      	ldr	r1, [pc, #60]	; (802f2ac <memp_init+0x40>)
 * 
 * Carves out memp_memory into linked lists for each pool-type.
 */
void
memp_init(void)
{
 802f270:	b5f0      	push	{r4, r5, r6, r7, lr}
    MEMP_STATS_AVAIL(err, i, 0);
    MEMP_STATS_AVAIL(avail, i, memp_num[i]);
  }

#if !MEMP_SEPARATE_POOLS
  memp = (struct memp *)LWIP_MEM_ALIGN(memp_memory);
 802f272:	2300      	movs	r3, #0
    memp_tab[i] = NULL;
#if MEMP_SEPARATE_POOLS
    memp = (struct memp*)memp_bases[i];
#endif /* MEMP_SEPARATE_POOLS */
    /* create a linked list of memp elements */
    for (j = 0; j < memp_num[i]; ++j) {
 802f274:	4e0e      	ldr	r6, [pc, #56]	; (802f2b0 <memp_init+0x44>)
      memp->next = memp_tab[i];
      memp_tab[i] = memp;
      memp = (struct memp *)(void *)((u8_t *)memp + MEMP_SIZE + memp_sizes[i]
 802f276:	4f0f      	ldr	r7, [pc, #60]	; (802f2b4 <memp_init+0x48>)
    MEMP_STATS_AVAIL(err, i, 0);
    MEMP_STATS_AVAIL(avail, i, memp_num[i]);
  }

#if !MEMP_SEPARATE_POOLS
  memp = (struct memp *)LWIP_MEM_ALIGN(memp_memory);
 802f278:	f022 0203 	bic.w	r2, r2, #3
#endif /* !MEMP_SEPARATE_POOLS */
  /* for every pool: */
  for (i = 0; i < MEMP_MAX; ++i) {
    memp_tab[i] = NULL;
 802f27c:	461d      	mov	r5, r3
 802f27e:	f841 5b04 	str.w	r5, [r1], #4
#if MEMP_SEPARATE_POOLS
    memp = (struct memp*)memp_bases[i];
#endif /* MEMP_SEPARATE_POOLS */
    /* create a linked list of memp elements */
    for (j = 0; j < memp_num[i]; ++j) {
 802f282:	f833 c006 	ldrh.w	ip, [r3, r6]
 802f286:	2000      	movs	r0, #0
 802f288:	e008      	b.n	802f29c <memp_init+0x30>
      memp->next = memp_tab[i];
 802f28a:	f851 4c04 	ldr.w	r4, [r1, #-4]
 802f28e:	6014      	str	r4, [r2, #0]
      memp_tab[i] = memp;
      memp = (struct memp *)(void *)((u8_t *)memp + MEMP_SIZE + memp_sizes[i]
 802f290:	5bdc      	ldrh	r4, [r3, r7]
    memp = (struct memp*)memp_bases[i];
#endif /* MEMP_SEPARATE_POOLS */
    /* create a linked list of memp elements */
    for (j = 0; j < memp_num[i]; ++j) {
      memp->next = memp_tab[i];
      memp_tab[i] = memp;
 802f292:	f841 2c04 	str.w	r2, [r1, #-4]
    memp_tab[i] = NULL;
#if MEMP_SEPARATE_POOLS
    memp = (struct memp*)memp_bases[i];
#endif /* MEMP_SEPARATE_POOLS */
    /* create a linked list of memp elements */
    for (j = 0; j < memp_num[i]; ++j) {
 802f296:	3001      	adds	r0, #1
      memp->next = memp_tab[i];
      memp_tab[i] = memp;
      memp = (struct memp *)(void *)((u8_t *)memp + MEMP_SIZE + memp_sizes[i]
 802f298:	1912      	adds	r2, r2, r4
    memp_tab[i] = NULL;
#if MEMP_SEPARATE_POOLS
    memp = (struct memp*)memp_bases[i];
#endif /* MEMP_SEPARATE_POOLS */
    /* create a linked list of memp elements */
    for (j = 0; j < memp_num[i]; ++j) {
 802f29a:	b280      	uxth	r0, r0
 802f29c:	4560      	cmp	r0, ip
 802f29e:	d1f4      	bne.n	802f28a <memp_init+0x1e>
 802f2a0:	3302      	adds	r3, #2

#if !MEMP_SEPARATE_POOLS
  memp = (struct memp *)LWIP_MEM_ALIGN(memp_memory);
#endif /* !MEMP_SEPARATE_POOLS */
  /* for every pool: */
  for (i = 0; i < MEMP_MAX; ++i) {
 802f2a2:	2b20      	cmp	r3, #32
 802f2a4:	d1eb      	bne.n	802f27e <memp_init+0x12>
#if MEMP_OVERFLOW_CHECK
  memp_overflow_init();
  /* check everything a first time to see if it worked */
  memp_overflow_check_all();
#endif /* MEMP_OVERFLOW_CHECK */
}
 802f2a6:	bdf0      	pop	{r4, r5, r6, r7, pc}
 802f2a8:	20000d5b 	.word	0x20000d5b
 802f2ac:	2000c398 	.word	0x2000c398
 802f2b0:	08043f7c 	.word	0x08043f7c
 802f2b4:	08043f9c 	.word	0x08043f9c

0802f2b8 <memp_malloc>:
#endif
{
  struct memp *memp;
  SYS_ARCH_DECL_PROTECT(old_level);
 
  LWIP_ERROR("memp_malloc: type < MEMP_MAX", (type < MEMP_MAX), return NULL;);
 802f2b8:	280f      	cmp	r0, #15
#if !MEMP_OVERFLOW_CHECK
memp_malloc(memp_t type)
#else
memp_malloc_fn(memp_t type, const char* file, const int line)
#endif
{
 802f2ba:	b538      	push	{r3, r4, r5, lr}
 802f2bc:	4605      	mov	r5, r0
  struct memp *memp;
  SYS_ARCH_DECL_PROTECT(old_level);
 
  LWIP_ERROR("memp_malloc: type < MEMP_MAX", (type < MEMP_MAX), return NULL;);
 802f2be:	d80b      	bhi.n	802f2d8 <memp_malloc+0x20>

  SYS_ARCH_PROTECT(old_level);
 802f2c0:	f007 fdbe 	bl	8036e40 <sys_arch_protect>
#if MEMP_OVERFLOW_CHECK >= 2
  memp_overflow_check_all();
#endif /* MEMP_OVERFLOW_CHECK >= 2 */

  memp = memp_tab[type];
 802f2c4:	4b06      	ldr	r3, [pc, #24]	; (802f2e0 <memp_malloc+0x28>)
 802f2c6:	f853 4025 	ldr.w	r4, [r3, r5, lsl #2]
  
  if (memp != NULL) {
 802f2ca:	b114      	cbz	r4, 802f2d2 <memp_malloc+0x1a>
    memp_tab[type] = memp->next;
 802f2cc:	6822      	ldr	r2, [r4, #0]
 802f2ce:	f843 2025 	str.w	r2, [r3, r5, lsl #2]
  } else {
    LWIP_DEBUGF(MEMP_DEBUG | LWIP_DBG_LEVEL_SERIOUS, ("memp_malloc: out of memory in pool %s\n", memp_desc[type]));
    MEMP_STATS_INC(err, type);
  }

  SYS_ARCH_UNPROTECT(old_level);
 802f2d2:	f007 fdbf 	bl	8036e54 <sys_arch_unprotect>

  return memp;
 802f2d6:	e000      	b.n	802f2da <memp_malloc+0x22>
#endif
{
  struct memp *memp;
  SYS_ARCH_DECL_PROTECT(old_level);
 
  LWIP_ERROR("memp_malloc: type < MEMP_MAX", (type < MEMP_MAX), return NULL;);
 802f2d8:	2400      	movs	r4, #0
  }

  SYS_ARCH_UNPROTECT(old_level);

  return memp;
}
 802f2da:	4620      	mov	r0, r4
 802f2dc:	bd38      	pop	{r3, r4, r5, pc}
 802f2de:	bf00      	nop
 802f2e0:	2000c398 	.word	0x2000c398

0802f2e4 <memp_free>:
 * @param type the pool where to put mem
 * @param mem the memp element to free
 */
void
memp_free(memp_t type, void *mem)
{
 802f2e4:	b538      	push	{r3, r4, r5, lr}
 802f2e6:	4605      	mov	r5, r0
  struct memp *memp;
  SYS_ARCH_DECL_PROTECT(old_level);

  if (mem == NULL) {
 802f2e8:	460c      	mov	r4, r1
 802f2ea:	b159      	cbz	r1, 802f304 <memp_free+0x20>
  LWIP_ASSERT("memp_free: mem properly aligned",
                ((mem_ptr_t)mem % MEM_ALIGNMENT) == 0);

  memp = (struct memp *)(void *)((u8_t*)mem - MEMP_SIZE);

  SYS_ARCH_PROTECT(old_level);
 802f2ec:	f007 fda8 	bl	8036e40 <sys_arch_protect>
#endif /* MEMP_OVERFLOW_CHECK >= 2 */
#endif /* MEMP_OVERFLOW_CHECK */

  MEMP_STATS_DEC(used, type); 
  
  memp->next = memp_tab[type]; 
 802f2f0:	4b05      	ldr	r3, [pc, #20]	; (802f308 <memp_free+0x24>)
 802f2f2:	f853 2025 	ldr.w	r2, [r3, r5, lsl #2]
 802f2f6:	6022      	str	r2, [r4, #0]
  memp_tab[type] = memp;
 802f2f8:	f843 4025 	str.w	r4, [r3, r5, lsl #2]
#if MEMP_SANITY_CHECK
  LWIP_ASSERT("memp sanity", memp_sanity());
#endif /* MEMP_SANITY_CHECK */

  SYS_ARCH_UNPROTECT(old_level);
}
 802f2fc:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}

#if MEMP_SANITY_CHECK
  LWIP_ASSERT("memp sanity", memp_sanity());
#endif /* MEMP_SANITY_CHECK */

  SYS_ARCH_UNPROTECT(old_level);
 802f300:	f007 bda8 	b.w	8036e54 <sys_arch_unprotect>
 802f304:	bd38      	pop	{r3, r4, r5, pc}
 802f306:	bf00      	nop
 802f308:	2000c398 	.word	0x2000c398

0802f30c <netif_init>:
}
#endif /* LWIP_HAVE_LOOPIF */

void
netif_init(void)
{
 802f30c:	4770      	bx	lr
 802f30e:	0000      	movs	r0, r0

0802f310 <netif_set_ipaddr>:
 * @note call netif_set_addr() if you also want to change netmask and
 * default gateway
 */
void
netif_set_ipaddr(struct netif *netif, ip_addr_t *ipaddr)
{
 802f310:	b570      	push	{r4, r5, r6, lr}
 802f312:	4604      	mov	r4, r0
#if LWIP_TCP
  struct tcp_pcb *pcb;
  struct tcp_pcb_listen *lpcb;

  /* address is actually being changed? */
  if (ipaddr && (ip_addr_cmp(ipaddr, &(netif->ip_addr))) == 0) {
 802f314:	460d      	mov	r5, r1
 802f316:	b941      	cbnz	r1, 802f32a <netif_set_ipaddr+0x1a>
        ip_addr_set(&(lpcb->local_ip), ipaddr);
      }
    }
  }
#endif
  snmp_delete_ipaddridx_tree(netif);
 802f318:	4620      	mov	r0, r4
 802f31a:	f004 fdb5 	bl	8033e88 <snmp_delete_ipaddridx_tree>
  snmp_delete_iprteidx_tree(0,netif);
 802f31e:	2000      	movs	r0, #0
 802f320:	4621      	mov	r1, r4
 802f322:	f004 fe47 	bl	8033fb4 <snmp_delete_iprteidx_tree>
  /* set new IP address to netif */
  ip_addr_set(&(netif->ip_addr), ipaddr);
 802f326:	b9fd      	cbnz	r5, 802f368 <netif_set_ipaddr+0x58>
 802f328:	e01f      	b.n	802f36a <netif_set_ipaddr+0x5a>
#if LWIP_TCP
  struct tcp_pcb *pcb;
  struct tcp_pcb_listen *lpcb;

  /* address is actually being changed? */
  if (ipaddr && (ip_addr_cmp(ipaddr, &(netif->ip_addr))) == 0) {
 802f32a:	680a      	ldr	r2, [r1, #0]
 802f32c:	6843      	ldr	r3, [r0, #4]
 802f32e:	429a      	cmp	r2, r3
 802f330:	d0f2      	beq.n	802f318 <netif_set_ipaddr+0x8>
    /* extern struct tcp_pcb *tcp_active_pcbs; defined by tcp.h */
    LWIP_DEBUGF(NETIF_DEBUG | LWIP_DBG_STATE, ("netif_set_ipaddr: netif address being changed\n"));
    pcb = tcp_active_pcbs;
 802f332:	4b13      	ldr	r3, [pc, #76]	; (802f380 <netif_set_ipaddr+0x70>)
 802f334:	6818      	ldr	r0, [r3, #0]
    while (pcb != NULL) {
 802f336:	e007      	b.n	802f348 <netif_set_ipaddr+0x38>
      /* PCB bound to current local interface address? */
      if (ip_addr_cmp(&(pcb->local_ip), &(netif->ip_addr))
 802f338:	6802      	ldr	r2, [r0, #0]
 802f33a:	6863      	ldr	r3, [r4, #4]
 802f33c:	68c6      	ldr	r6, [r0, #12]
 802f33e:	429a      	cmp	r2, r3
 802f340:	d101      	bne.n	802f346 <netif_set_ipaddr+0x36>
#endif /* LWIP_AUTOIP */
        ) {
        /* this connection must be aborted */
        struct tcp_pcb *next = pcb->next;
        LWIP_DEBUGF(NETIF_DEBUG | LWIP_DBG_STATE, ("netif_set_ipaddr: aborting TCP pcb %p\n", (void *)pcb));
        tcp_abort(pcb);
 802f342:	f000 fd89 	bl	802fe58 <tcp_abort>
        pcb = next;
      } else {
        pcb = pcb->next;
 802f346:	4630      	mov	r0, r6
  /* address is actually being changed? */
  if (ipaddr && (ip_addr_cmp(ipaddr, &(netif->ip_addr))) == 0) {
    /* extern struct tcp_pcb *tcp_active_pcbs; defined by tcp.h */
    LWIP_DEBUGF(NETIF_DEBUG | LWIP_DBG_STATE, ("netif_set_ipaddr: netif address being changed\n"));
    pcb = tcp_active_pcbs;
    while (pcb != NULL) {
 802f348:	2800      	cmp	r0, #0
 802f34a:	d1f5      	bne.n	802f338 <netif_set_ipaddr+0x28>
        pcb = next;
      } else {
        pcb = pcb->next;
      }
    }
    for (lpcb = tcp_listen_pcbs.listen_pcbs; lpcb != NULL; lpcb = lpcb->next) {
 802f34c:	4b0d      	ldr	r3, [pc, #52]	; (802f384 <netif_set_ipaddr+0x74>)
 802f34e:	681b      	ldr	r3, [r3, #0]
 802f350:	e007      	b.n	802f362 <netif_set_ipaddr+0x52>
      /* PCB bound to current local interface address? */
      if ((!(ip_addr_isany(&(lpcb->local_ip)))) &&
 802f352:	681a      	ldr	r2, [r3, #0]
 802f354:	b122      	cbz	r2, 802f360 <netif_set_ipaddr+0x50>
 802f356:	6861      	ldr	r1, [r4, #4]
 802f358:	428a      	cmp	r2, r1
          (ip_addr_cmp(&(lpcb->local_ip), &(netif->ip_addr)))) {
        /* The PCB is listening to the old ipaddr and
         * is set to listen to the new one instead */
        ip_addr_set(&(lpcb->local_ip), ipaddr);
 802f35a:	bf04      	itt	eq
 802f35c:	682a      	ldreq	r2, [r5, #0]
 802f35e:	601a      	streq	r2, [r3, #0]
        pcb = next;
      } else {
        pcb = pcb->next;
      }
    }
    for (lpcb = tcp_listen_pcbs.listen_pcbs; lpcb != NULL; lpcb = lpcb->next) {
 802f360:	68db      	ldr	r3, [r3, #12]
 802f362:	2b00      	cmp	r3, #0
 802f364:	d1f5      	bne.n	802f352 <netif_set_ipaddr+0x42>
 802f366:	e7d7      	b.n	802f318 <netif_set_ipaddr+0x8>
  }
#endif
  snmp_delete_ipaddridx_tree(netif);
  snmp_delete_iprteidx_tree(0,netif);
  /* set new IP address to netif */
  ip_addr_set(&(netif->ip_addr), ipaddr);
 802f368:	682d      	ldr	r5, [r5, #0]
  snmp_insert_ipaddridx_tree(netif);
 802f36a:	4620      	mov	r0, r4
  }
#endif
  snmp_delete_ipaddridx_tree(netif);
  snmp_delete_iprteidx_tree(0,netif);
  /* set new IP address to netif */
  ip_addr_set(&(netif->ip_addr), ipaddr);
 802f36c:	6065      	str	r5, [r4, #4]
  snmp_insert_ipaddridx_tree(netif);
 802f36e:	f004 fd49 	bl	8033e04 <snmp_insert_ipaddridx_tree>
  snmp_insert_iprteidx_tree(0,netif);
 802f372:	2000      	movs	r0, #0
 802f374:	4621      	mov	r1, r4
    netif->name[0], netif->name[1],
    ip4_addr1_16(&netif->ip_addr),
    ip4_addr2_16(&netif->ip_addr),
    ip4_addr3_16(&netif->ip_addr),
    ip4_addr4_16(&netif->ip_addr)));
}
 802f376:	e8bd 4070 	ldmia.w	sp!, {r4, r5, r6, lr}
  snmp_delete_ipaddridx_tree(netif);
  snmp_delete_iprteidx_tree(0,netif);
  /* set new IP address to netif */
  ip_addr_set(&(netif->ip_addr), ipaddr);
  snmp_insert_ipaddridx_tree(netif);
  snmp_insert_iprteidx_tree(0,netif);
 802f37a:	f004 bdcf 	b.w	8033f1c <snmp_insert_iprteidx_tree>
 802f37e:	bf00      	nop
 802f380:	2000f6ac 	.word	0x2000f6ac
 802f384:	2000f6b4 	.word	0x2000f6b4

0802f388 <netif_set_gw>:
 * @note call netif_set_addr() if you also want to change ip address and netmask
 */
void
netif_set_gw(struct netif *netif, ip_addr_t *gw)
{
  ip_addr_set(&(netif->gw), gw);
 802f388:	b101      	cbz	r1, 802f38c <netif_set_gw+0x4>
 802f38a:	6809      	ldr	r1, [r1, #0]
 802f38c:	60c1      	str	r1, [r0, #12]
 802f38e:	4770      	bx	lr

0802f390 <netif_set_netmask>:
 * @note call netif_set_addr() if you also want to change ip address and
 * default gateway
 */
void
netif_set_netmask(struct netif *netif, ip_addr_t *netmask)
{
 802f390:	b538      	push	{r3, r4, r5, lr}
 802f392:	4604      	mov	r4, r0
 802f394:	460d      	mov	r5, r1
  snmp_delete_iprteidx_tree(0, netif);
 802f396:	2000      	movs	r0, #0
 802f398:	4621      	mov	r1, r4
 802f39a:	f004 fe0b 	bl	8033fb4 <snmp_delete_iprteidx_tree>
  /* set new netmask to netif */
  ip_addr_set(&(netif->netmask), netmask);
 802f39e:	b105      	cbz	r5, 802f3a2 <netif_set_netmask+0x12>
 802f3a0:	682d      	ldr	r5, [r5, #0]
  snmp_insert_iprteidx_tree(0, netif);
 802f3a2:	2000      	movs	r0, #0
 802f3a4:	4621      	mov	r1, r4
void
netif_set_netmask(struct netif *netif, ip_addr_t *netmask)
{
  snmp_delete_iprteidx_tree(0, netif);
  /* set new netmask to netif */
  ip_addr_set(&(netif->netmask), netmask);
 802f3a6:	60a5      	str	r5, [r4, #8]
    netif->name[0], netif->name[1],
    ip4_addr1_16(&netif->netmask),
    ip4_addr2_16(&netif->netmask),
    ip4_addr3_16(&netif->netmask),
    ip4_addr4_16(&netif->netmask)));
}
 802f3a8:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
netif_set_netmask(struct netif *netif, ip_addr_t *netmask)
{
  snmp_delete_iprteidx_tree(0, netif);
  /* set new netmask to netif */
  ip_addr_set(&(netif->netmask), netmask);
  snmp_insert_iprteidx_tree(0, netif);
 802f3ac:	f004 bdb6 	b.w	8033f1c <snmp_insert_iprteidx_tree>

0802f3b0 <netif_set_addr>:
 * @param gw the new default gateway
 */
void
netif_set_addr(struct netif *netif, ip_addr_t *ipaddr, ip_addr_t *netmask,
    ip_addr_t *gw)
{
 802f3b0:	b570      	push	{r4, r5, r6, lr}
 802f3b2:	4605      	mov	r5, r0
 802f3b4:	4616      	mov	r6, r2
 802f3b6:	461c      	mov	r4, r3
  netif_set_ipaddr(netif, ipaddr);
 802f3b8:	f7ff ffaa 	bl	802f310 <netif_set_ipaddr>
  netif_set_netmask(netif, netmask);
 802f3bc:	4628      	mov	r0, r5
 802f3be:	4631      	mov	r1, r6
 802f3c0:	f7ff ffe6 	bl	802f390 <netif_set_netmask>
 * @note call netif_set_addr() if you also want to change ip address and netmask
 */
void
netif_set_gw(struct netif *netif, ip_addr_t *gw)
{
  ip_addr_set(&(netif->gw), gw);
 802f3c4:	b104      	cbz	r4, 802f3c8 <netif_set_addr+0x18>
 802f3c6:	6824      	ldr	r4, [r4, #0]
 802f3c8:	60ec      	str	r4, [r5, #12]
 802f3ca:	bd70      	pop	{r4, r5, r6, pc}

0802f3cc <netif_add>:
 * @return netif, or NULL if failed.
 */
struct netif *
netif_add(struct netif *netif, ip_addr_t *ipaddr, ip_addr_t *netmask,
  ip_addr_t *gw, void *state, netif_init_fn init, netif_input_fn input)
{
 802f3cc:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  netif->loop_first = NULL;
  netif->loop_last = NULL;
#endif /* ENABLE_LOOPBACK */

  /* remember netif specific state information data */
  netif->state = state;
 802f3ce:	9e06      	ldr	r6, [sp, #24]
 802f3d0:	61c6      	str	r6, [r0, #28]
  netif->num = netif_num++;
 802f3d2:	4e10      	ldr	r6, [pc, #64]	; (802f414 <netif_add+0x48>)
 802f3d4:	7837      	ldrb	r7, [r6, #0]
 802f3d6:	f880 7030 	strb.w	r7, [r0, #48]	; 0x30
 802f3da:	3701      	adds	r7, #1
 802f3dc:	7037      	strb	r7, [r6, #0]
  netif->input = input;
 802f3de:	9e08      	ldr	r6, [sp, #32]
{

  LWIP_ASSERT("No init function given", init != NULL);

  /* reset new interface configuration state */
  ip_addr_set_zero(&netif->ip_addr);
 802f3e0:	2500      	movs	r5, #0
 * @return netif, or NULL if failed.
 */
struct netif *
netif_add(struct netif *netif, ip_addr_t *ipaddr, ip_addr_t *netmask,
  ip_addr_t *gw, void *state, netif_init_fn init, netif_input_fn input)
{
 802f3e2:	4604      	mov	r4, r0

  LWIP_ASSERT("No init function given", init != NULL);

  /* reset new interface configuration state */
  ip_addr_set_zero(&netif->ip_addr);
 802f3e4:	6045      	str	r5, [r0, #4]
  ip_addr_set_zero(&netif->netmask);
 802f3e6:	6085      	str	r5, [r0, #8]
  ip_addr_set_zero(&netif->gw);
 802f3e8:	60c5      	str	r5, [r0, #12]
  netif->flags = 0;
 802f3ea:	f880 502d 	strb.w	r5, [r0, #45]	; 0x2d
#if LWIP_DHCP
  /* netif not under DHCP control by default */
  netif->dhcp = NULL;
 802f3ee:	6205      	str	r5, [r0, #32]
#endif /* ENABLE_LOOPBACK */

  /* remember netif specific state information data */
  netif->state = state;
  netif->num = netif_num++;
  netif->input = input;
 802f3f0:	6106      	str	r6, [r0, #16]
  NETIF_SET_HWADDRHINT(netif, NULL);
#if ENABLE_LOOPBACK && LWIP_LOOPBACK_MAX_PBUFS
  netif->loop_cnt_current = 0;
#endif /* ENABLE_LOOPBACK && LWIP_LOOPBACK_MAX_PBUFS */

  netif_set_addr(netif, ipaddr, netmask, gw);
 802f3f2:	f7ff ffdd 	bl	802f3b0 <netif_set_addr>

  /* call user specified initialization function for netif */
  if (init(netif) != ERR_OK) {
 802f3f6:	4620      	mov	r0, r4
 802f3f8:	9b07      	ldr	r3, [sp, #28]
 802f3fa:	4798      	blx	r3
 802f3fc:	b930      	cbnz	r0, 802f40c <netif_add+0x40>
    return NULL;
  }

  /* add this netif to the list */
  netif->next = netif_list;
 802f3fe:	4b06      	ldr	r3, [pc, #24]	; (802f418 <netif_add+0x4c>)
 802f400:	681a      	ldr	r2, [r3, #0]
 802f402:	6022      	str	r2, [r4, #0]
  netif_list = netif;
 802f404:	601c      	str	r4, [r3, #0]
  snmp_inc_iflist();
 802f406:	f004 fbe1 	bl	8033bcc <snmp_inc_iflist>
  LWIP_DEBUGF(NETIF_DEBUG, (" netmask "));
  ip_addr_debug_print(NETIF_DEBUG, netmask);
  LWIP_DEBUGF(NETIF_DEBUG, (" gw "));
  ip_addr_debug_print(NETIF_DEBUG, gw);
  LWIP_DEBUGF(NETIF_DEBUG, ("\n"));
  return netif;
 802f40a:	e000      	b.n	802f40e <netif_add+0x42>

  netif_set_addr(netif, ipaddr, netmask, gw);

  /* call user specified initialization function for netif */
  if (init(netif) != ERR_OK) {
    return NULL;
 802f40c:	462c      	mov	r4, r5
  ip_addr_debug_print(NETIF_DEBUG, netmask);
  LWIP_DEBUGF(NETIF_DEBUG, (" gw "));
  ip_addr_debug_print(NETIF_DEBUG, gw);
  LWIP_DEBUGF(NETIF_DEBUG, ("\n"));
  return netif;
}
 802f40e:	4620      	mov	r0, r4
 802f410:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 802f412:	bf00      	nop
 802f414:	2000c3d8 	.word	0x2000c3d8
 802f418:	2000f6a0 	.word	0x2000f6a0

0802f41c <netif_set_default>:
 *
 * @param netif the default network interface
 */
void
netif_set_default(struct netif *netif)
{
 802f41c:	b510      	push	{r4, lr}
  if (netif == NULL) {
 802f41e:	4604      	mov	r4, r0
    /* remove default route */
    snmp_delete_iprteidx_tree(1, netif);
 802f420:	4621      	mov	r1, r4
 802f422:	2001      	movs	r0, #1
 * @param netif the default network interface
 */
void
netif_set_default(struct netif *netif)
{
  if (netif == NULL) {
 802f424:	b914      	cbnz	r4, 802f42c <netif_set_default+0x10>
    /* remove default route */
    snmp_delete_iprteidx_tree(1, netif);
 802f426:	f004 fdc5 	bl	8033fb4 <snmp_delete_iprteidx_tree>
 802f42a:	e001      	b.n	802f430 <netif_set_default+0x14>
  } else {
    /* install default route */
    snmp_insert_iprteidx_tree(1, netif);
 802f42c:	f004 fd76 	bl	8033f1c <snmp_insert_iprteidx_tree>
  }
  netif_default = netif;
 802f430:	4b01      	ldr	r3, [pc, #4]	; (802f438 <netif_set_default+0x1c>)
 802f432:	601c      	str	r4, [r3, #0]
 802f434:	bd10      	pop	{r4, pc}
 802f436:	bf00      	nop
 802f438:	2000f6a4 	.word	0x2000f6a4

0802f43c <netif_set_up>:
 * up once configured.
 * 
 * @see dhcp_start()
 */ 
void netif_set_up(struct netif *netif)
{
 802f43c:	b510      	push	{r4, lr}
  if (!(netif->flags & NETIF_FLAG_UP)) {
 802f43e:	f890 302d 	ldrb.w	r3, [r0, #45]	; 0x2d
 802f442:	07da      	lsls	r2, r3, #31
 * up once configured.
 * 
 * @see dhcp_start()
 */ 
void netif_set_up(struct netif *netif)
{
 802f444:	4604      	mov	r4, r0
  if (!(netif->flags & NETIF_FLAG_UP)) {
 802f446:	d412      	bmi.n	802f46e <netif_set_up+0x32>
    netif->flags |= NETIF_FLAG_UP;
 802f448:	f043 0301 	orr.w	r3, r3, #1
 802f44c:	f880 302d 	strb.w	r3, [r0, #45]	; 0x2d
    
#if LWIP_SNMP
    snmp_get_sysuptime(&netif->ts);
 802f450:	3038      	adds	r0, #56	; 0x38
 802f452:	f004 fb55 	bl	8033b00 <snmp_get_sysuptime>
 * @note: Enabling DHCP on a down interface will make it come
 * up once configured.
 * 
 * @see dhcp_start()
 */ 
void netif_set_up(struct netif *netif)
 802f456:	f894 302d 	ldrb.w	r3, [r4, #45]	; 0x2d
    NETIF_STATUS_CALLBACK(netif);

    if (netif->flags & NETIF_FLAG_LINK_UP) {
#if LWIP_ARP
      /* For Ethernet network interfaces, we would like to send a "gratuitous ARP" */ 
      if (netif->flags & (NETIF_FLAG_ETHARP)) {
 802f45a:	f003 0330 	and.w	r3, r3, #48	; 0x30
 802f45e:	2b30      	cmp	r3, #48	; 0x30
 802f460:	d105      	bne.n	802f46e <netif_set_up+0x32>
        etharp_gratuitous(netif);
 802f462:	4620      	mov	r0, r4
 802f464:	1d21      	adds	r1, r4, #4
        igmp_report_groups( netif);
      }
#endif /* LWIP_IGMP */
    }
  }
}
 802f466:	e8bd 4010 	ldmia.w	sp!, {r4, lr}

    if (netif->flags & NETIF_FLAG_LINK_UP) {
#if LWIP_ARP
      /* For Ethernet network interfaces, we would like to send a "gratuitous ARP" */ 
      if (netif->flags & (NETIF_FLAG_ETHARP)) {
        etharp_gratuitous(netif);
 802f46a:	f007 b89d 	b.w	80365a8 <etharp_request>
 802f46e:	bd10      	pop	{r4, pc}

0802f470 <netif_set_down>:
 * up once configured.
 * 
 * @see dhcp_start()
 */ 
void netif_set_down(struct netif *netif)
{
 802f470:	b510      	push	{r4, lr}
  if (netif->flags & NETIF_FLAG_UP) {
 802f472:	f890 302d 	ldrb.w	r3, [r0, #45]	; 0x2d
 802f476:	07d9      	lsls	r1, r3, #31
 * up once configured.
 * 
 * @see dhcp_start()
 */ 
void netif_set_down(struct netif *netif)
{
 802f478:	4604      	mov	r4, r0
  if (netif->flags & NETIF_FLAG_UP) {
 802f47a:	d511      	bpl.n	802f4a0 <netif_set_down+0x30>
    netif->flags &= ~NETIF_FLAG_UP;
 802f47c:	f023 0301 	bic.w	r3, r3, #1
 802f480:	f880 302d 	strb.w	r3, [r0, #45]	; 0x2d
#if LWIP_SNMP
    snmp_get_sysuptime(&netif->ts);
 802f484:	3038      	adds	r0, #56	; 0x38
 802f486:	f004 fb3b 	bl	8033b00 <snmp_get_sysuptime>
#endif

#if LWIP_ARP
    if (netif->flags & NETIF_FLAG_ETHARP) {
 802f48a:	f894 302d 	ldrb.w	r3, [r4, #45]	; 0x2d
 802f48e:	f003 0320 	and.w	r3, r3, #32
 802f492:	b2db      	uxtb	r3, r3
 802f494:	b123      	cbz	r3, 802f4a0 <netif_set_down+0x30>
      etharp_cleanup_netif(netif);
 802f496:	4620      	mov	r0, r4
    }
#endif /* LWIP_ARP */
    NETIF_STATUS_CALLBACK(netif);
  }
}
 802f498:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
    snmp_get_sysuptime(&netif->ts);
#endif

#if LWIP_ARP
    if (netif->flags & NETIF_FLAG_ETHARP) {
      etharp_cleanup_netif(netif);
 802f49c:	f007 b854 	b.w	8036548 <etharp_cleanup_netif>
 802f4a0:	bd10      	pop	{r4, pc}

0802f4a2 <pbuf_header>:
 * @return non-zero on failure, zero on success.
 *
 */
u8_t
pbuf_header(struct pbuf *p, s16_t header_size_increment)
{
 802f4a2:	b510      	push	{r4, lr}
  u16_t type;
  void *payload;
  u16_t increment_magnitude;

  LWIP_ASSERT("p != NULL", p != NULL);
  if ((header_size_increment == 0) || (p == NULL)) {
 802f4a4:	b321      	cbz	r1, 802f4f0 <pbuf_header+0x4e>
 802f4a6:	b330      	cbz	r0, 802f4f6 <pbuf_header+0x54>
    return 0;
  }
 
  if (header_size_increment < 0){
 802f4a8:	2900      	cmp	r1, #0
 802f4aa:	da05      	bge.n	802f4b8 <pbuf_header+0x16>
    increment_magnitude = -header_size_increment;
 802f4ac:	424b      	negs	r3, r1
    /* Check that we aren't going to move off the end of the pbuf */
    LWIP_ERROR("increment_magnitude <= p->len", (increment_magnitude <= p->len), return 1;);
 802f4ae:	8942      	ldrh	r2, [r0, #10]
  if ((header_size_increment == 0) || (p == NULL)) {
    return 0;
  }
 
  if (header_size_increment < 0){
    increment_magnitude = -header_size_increment;
 802f4b0:	b29b      	uxth	r3, r3
    /* Check that we aren't going to move off the end of the pbuf */
    LWIP_ERROR("increment_magnitude <= p->len", (increment_magnitude <= p->len), return 1;);
 802f4b2:	429a      	cmp	r2, r3
 802f4b4:	d201      	bcs.n	802f4ba <pbuf_header+0x18>
 802f4b6:	e01d      	b.n	802f4f4 <pbuf_header+0x52>
  } else {
    increment_magnitude = header_size_increment;
 802f4b8:	b28b      	uxth	r3, r1
    LWIP_ASSERT("p->payload - increment_magnitude >= p + SIZEOF_STRUCT_PBUF",
                (u8_t *)p->payload - increment_magnitude >= (u8_t *)p + SIZEOF_STRUCT_PBUF);
#endif
  }

  type = p->type;
 802f4ba:	7b02      	ldrb	r2, [r0, #12]
  /* remember current payload pointer */
  payload = p->payload;
 802f4bc:	6844      	ldr	r4, [r0, #4]

  /* pbuf types containing payloads? */
  if (type == PBUF_RAM || type == PBUF_POOL) {
 802f4be:	b10a      	cbz	r2, 802f4c4 <pbuf_header+0x22>
 802f4c0:	2a03      	cmp	r2, #3
 802f4c2:	d105      	bne.n	802f4d0 <pbuf_header+0x2e>
    /* set new payload pointer */
    p->payload = (u8_t *)p->payload - header_size_increment;
 802f4c4:	1a64      	subs	r4, r4, r1
    /* boundary check fails? */
    if ((u8_t *)p->payload < (u8_t *)p + SIZEOF_STRUCT_PBUF) {
 802f4c6:	f100 0310 	add.w	r3, r0, #16
 802f4ca:	429c      	cmp	r4, r3
 802f4cc:	d312      	bcc.n	802f4f4 <pbuf_header+0x52>
 802f4ce:	e008      	b.n	802f4e2 <pbuf_header+0x40>
      p->payload = payload;
      /* bail out unsuccesfully */
      return 1;
    }
  /* pbuf types refering to external payloads? */
  } else if (type == PBUF_REF || type == PBUF_ROM) {
 802f4d0:	3a01      	subs	r2, #1
 802f4d2:	2a01      	cmp	r2, #1
 802f4d4:	d80e      	bhi.n	802f4f4 <pbuf_header+0x52>
    /* hide a header in the payload? */
    if ((header_size_increment < 0) && (increment_magnitude <= p->len)) {
 802f4d6:	2900      	cmp	r1, #0
 802f4d8:	da0c      	bge.n	802f4f4 <pbuf_header+0x52>
 802f4da:	8942      	ldrh	r2, [r0, #10]
 802f4dc:	429a      	cmp	r2, r3
 802f4de:	d309      	bcc.n	802f4f4 <pbuf_header+0x52>
      /* increase payload pointer */
      p->payload = (u8_t *)p->payload - header_size_increment;
 802f4e0:	1a64      	subs	r4, r4, r1
    /* Unknown type */
    LWIP_ASSERT("bad pbuf type", 0);
    return 1;
  }
  /* modify pbuf length fields */
  p->len += header_size_increment;
 802f4e2:	8943      	ldrh	r3, [r0, #10]
  /* pbuf types refering to external payloads? */
  } else if (type == PBUF_REF || type == PBUF_ROM) {
    /* hide a header in the payload? */
    if ((header_size_increment < 0) && (increment_magnitude <= p->len)) {
      /* increase payload pointer */
      p->payload = (u8_t *)p->payload - header_size_increment;
 802f4e4:	6044      	str	r4, [r0, #4]
    /* Unknown type */
    LWIP_ASSERT("bad pbuf type", 0);
    return 1;
  }
  /* modify pbuf length fields */
  p->len += header_size_increment;
 802f4e6:	18cb      	adds	r3, r1, r3
 802f4e8:	8143      	strh	r3, [r0, #10]
  p->tot_len += header_size_increment;
 802f4ea:	8903      	ldrh	r3, [r0, #8]
 802f4ec:	18c9      	adds	r1, r1, r3
 802f4ee:	8101      	strh	r1, [r0, #8]

  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_header: old %p new %p (%"S16_F")\n",
    (void *)payload, (void *)p->payload, header_size_increment));

  return 0;
 802f4f0:	2000      	movs	r0, #0
 802f4f2:	bd10      	pop	{r4, pc}
  }
 
  if (header_size_increment < 0){
    increment_magnitude = -header_size_increment;
    /* Check that we aren't going to move off the end of the pbuf */
    LWIP_ERROR("increment_magnitude <= p->len", (increment_magnitude <= p->len), return 1;);
 802f4f4:	2001      	movs	r0, #1

  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_header: old %p new %p (%"S16_F")\n",
    (void *)payload, (void *)p->payload, header_size_increment));

  return 0;
}
 802f4f6:	bd10      	pop	{r4, pc}

0802f4f8 <pbuf_free>:
 * 1->1->1 becomes .......
 *
 */
u8_t
pbuf_free(struct pbuf *p)
{
 802f4f8:	b570      	push	{r4, r5, r6, lr}
  u16_t type;
  struct pbuf *q;
  u8_t count;

  if (p == NULL) {
 802f4fa:	4604      	mov	r4, r0
 802f4fc:	b300      	cbz	r0, 802f540 <pbuf_free+0x48>
 802f4fe:	2500      	movs	r5, #0
    u16_t ref;
    SYS_ARCH_DECL_PROTECT(old_level);
    /* Since decrementing ref cannot be guaranteed to be a single machine operation
     * we must protect it. We put the new ref into a local variable to prevent
     * further protection. */
    SYS_ARCH_PROTECT(old_level);
 802f500:	f007 fc9e 	bl	8036e40 <sys_arch_protect>
    /* all pbufs in a chain are referenced at least once */
    LWIP_ASSERT("pbuf_free: p->ref > 0", p->ref > 0);
    /* decrease reference count (number of pointers to pbuf) */
    ref = --(p->ref);
 802f504:	89e6      	ldrh	r6, [r4, #14]
 802f506:	3e01      	subs	r6, #1
 802f508:	b2b6      	uxth	r6, r6
 802f50a:	81e6      	strh	r6, [r4, #14]
    SYS_ARCH_UNPROTECT(old_level);
 802f50c:	f007 fca2 	bl	8036e54 <sys_arch_unprotect>
    /* this pbuf is no longer referenced to? */
    if (ref == 0) {
 802f510:	b9be      	cbnz	r6, 802f542 <pbuf_free+0x4a>
      /* remember next pbuf in chain for next iteration */
      q = p->next;
      LWIP_DEBUGF( PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_free: deallocating %p\n", (void *)p));
      type = p->type;
 802f512:	7b23      	ldrb	r3, [r4, #12]
    ref = --(p->ref);
    SYS_ARCH_UNPROTECT(old_level);
    /* this pbuf is no longer referenced to? */
    if (ref == 0) {
      /* remember next pbuf in chain for next iteration */
      q = p->next;
 802f514:	6826      	ldr	r6, [r4, #0]
        pc->custom_free_function(p);
      } else
#endif /* LWIP_SUPPORT_CUSTOM_PBUF */
      {
        /* is this a pbuf from the pool? */
        if (type == PBUF_POOL) {
 802f516:	2b03      	cmp	r3, #3
 802f518:	d101      	bne.n	802f51e <pbuf_free+0x26>
          memp_free(MEMP_PBUF_POOL, p);
 802f51a:	200f      	movs	r0, #15
 802f51c:	e003      	b.n	802f526 <pbuf_free+0x2e>
        /* is this a ROM or RAM referencing pbuf? */
        } else if (type == PBUF_ROM || type == PBUF_REF) {
 802f51e:	3b01      	subs	r3, #1
 802f520:	2b01      	cmp	r3, #1
 802f522:	d804      	bhi.n	802f52e <pbuf_free+0x36>
          memp_free(MEMP_PBUF, p);
 802f524:	200e      	movs	r0, #14
 802f526:	4621      	mov	r1, r4
 802f528:	f7ff fedc 	bl	802f2e4 <memp_free>
 802f52c:	e002      	b.n	802f534 <pbuf_free+0x3c>
        /* type == PBUF_RAM */
        } else {
          mem_free(p);
 802f52e:	4620      	mov	r0, r4
 802f530:	f7ff fd70 	bl	802f014 <mem_free>
        }
      }
      count++;
 802f534:	3501      	adds	r5, #1
 802f536:	b2ed      	uxtb	r5, r5
    p->type == PBUF_REF || p->type == PBUF_POOL);

  count = 0;
  /* de-allocate all consecutive pbufs from the head of the chain that
   * obtain a zero reference count after decrementing*/
  while (p != NULL) {
 802f538:	4634      	mov	r4, r6
 802f53a:	2e00      	cmp	r6, #0
 802f53c:	d1e0      	bne.n	802f500 <pbuf_free+0x8>
 802f53e:	e000      	b.n	802f542 <pbuf_free+0x4a>
  if (p == NULL) {
    LWIP_ASSERT("p != NULL", p != NULL);
    /* if assertions are disabled, proceed with debug output */
    LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_LEVEL_SERIOUS,
      ("pbuf_free(p == NULL) was called.\n"));
    return 0;
 802f540:	4605      	mov	r5, r0
    }
  }
  PERF_STOP("pbuf_free");
  /* return number of de-allocated pbufs */
  return count;
}
 802f542:	4628      	mov	r0, r5
 802f544:	bd70      	pop	{r4, r5, r6, pc}

0802f546 <pbuf_realloc>:
 *
 * @note Despite its name, pbuf_realloc cannot grow the size of a pbuf (chain).
 */
void
pbuf_realloc(struct pbuf *p, u16_t new_len)
{
 802f546:	b538      	push	{r3, r4, r5, lr}
              p->type == PBUF_ROM ||
              p->type == PBUF_RAM ||
              p->type == PBUF_REF);

  /* desired length larger than current length? */
  if (new_len >= p->tot_len) {
 802f548:	8903      	ldrh	r3, [r0, #8]
 802f54a:	4299      	cmp	r1, r3
 802f54c:	d220      	bcs.n	802f590 <pbuf_realloc+0x4a>
    return;
  }

  /* the pbuf chain grows by (new_len - p->tot_len) bytes
   * (which may be negative in case of shrinking) */
  grow = new_len - p->tot_len;
 802f54e:	1aca      	subs	r2, r1, r3

  /* first, step over any pbufs that should remain in the chain */
  rem_len = new_len;
  q = p;
  /* should this pbuf be kept? */
  while (rem_len > q->len) {
 802f550:	460d      	mov	r5, r1
 802f552:	4604      	mov	r4, r0
 802f554:	e005      	b.n	802f562 <pbuf_realloc+0x1c>
    /* decrease remaining length by pbuf length */
    rem_len -= q->len;
 802f556:	1aed      	subs	r5, r5, r3
    /* decrease total length indicator */
    LWIP_ASSERT("grow < max_u16_t", grow < 0xffff);
    q->tot_len += (u16_t)grow;
 802f558:	8923      	ldrh	r3, [r4, #8]
 802f55a:	18d3      	adds	r3, r2, r3
 802f55c:	8123      	strh	r3, [r4, #8]
    /* proceed to next pbuf in chain */
    q = q->next;
 802f55e:	6824      	ldr	r4, [r4, #0]
  rem_len = new_len;
  q = p;
  /* should this pbuf be kept? */
  while (rem_len > q->len) {
    /* decrease remaining length by pbuf length */
    rem_len -= q->len;
 802f560:	b2ad      	uxth	r5, r5

  /* first, step over any pbufs that should remain in the chain */
  rem_len = new_len;
  q = p;
  /* should this pbuf be kept? */
  while (rem_len > q->len) {
 802f562:	8963      	ldrh	r3, [r4, #10]
 802f564:	429d      	cmp	r5, r3
 802f566:	d8f6      	bhi.n	802f556 <pbuf_realloc+0x10>
  /* we have now reached the new last pbuf (in q) */
  /* rem_len == desired length for pbuf q */

  /* shrink allocated memory for PBUF_RAM */
  /* (other types merely adjust their length fields */
  if ((q->type == PBUF_RAM) && (rem_len != q->len)) {
 802f568:	7b22      	ldrb	r2, [r4, #12]
 802f56a:	b94a      	cbnz	r2, 802f580 <pbuf_realloc+0x3a>
 802f56c:	429d      	cmp	r5, r3
 802f56e:	d007      	beq.n	802f580 <pbuf_realloc+0x3a>
    /* reallocate and adjust the length of the pbuf that will be split */
    q = (struct pbuf *)mem_trim(q, (u16_t)((u8_t *)q->payload - (u8_t *)q) + rem_len);
 802f570:	6863      	ldr	r3, [r4, #4]
 802f572:	1b1b      	subs	r3, r3, r4
 802f574:	18e9      	adds	r1, r5, r3
 802f576:	4620      	mov	r0, r4
 802f578:	b289      	uxth	r1, r1
 802f57a:	f7ff fda5 	bl	802f0c8 <mem_trim>
 802f57e:	4604      	mov	r4, r0
  /* adjust length fields for new last pbuf */
  q->len = rem_len;
  q->tot_len = q->len;

  /* any remaining pbufs in chain? */
  if (q->next != NULL) {
 802f580:	6820      	ldr	r0, [r4, #0]
    /* reallocate and adjust the length of the pbuf that will be split */
    q = (struct pbuf *)mem_trim(q, (u16_t)((u8_t *)q->payload - (u8_t *)q) + rem_len);
    LWIP_ASSERT("mem_trim returned q == NULL", q != NULL);
  }
  /* adjust length fields for new last pbuf */
  q->len = rem_len;
 802f582:	8165      	strh	r5, [r4, #10]
  q->tot_len = q->len;
 802f584:	8125      	strh	r5, [r4, #8]

  /* any remaining pbufs in chain? */
  if (q->next != NULL) {
 802f586:	b108      	cbz	r0, 802f58c <pbuf_realloc+0x46>
    /* free remaining pbufs in chain */
    pbuf_free(q->next);
 802f588:	f7ff ffb6 	bl	802f4f8 <pbuf_free>
  }
  /* q is last packet in chain */
  q->next = NULL;
 802f58c:	2300      	movs	r3, #0
 802f58e:	6023      	str	r3, [r4, #0]
 802f590:	bd38      	pop	{r3, r4, r5, pc}

0802f592 <pbuf_alloc>:
 * @return the allocated pbuf. If multiple pbufs where allocated, this
 * is the first pbuf of a pbuf chain.
 */
struct pbuf *
pbuf_alloc(pbuf_layer layer, u16_t length, pbuf_type type)
{
 802f592:	e92d 47f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, lr}
 802f596:	460d      	mov	r5, r1
 802f598:	4617      	mov	r7, r2
  u16_t offset;
  s32_t rem_len; /* remaining length */
  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_alloc(length=%"U16_F")\n", length));

  /* determine header offset */
  switch (layer) {
 802f59a:	2803      	cmp	r0, #3
 802f59c:	d87c      	bhi.n	802f698 <pbuf_alloc+0x106>
 802f59e:	e8df f000 	tbb	[pc, r0]
 802f5a2:	0802      	.short	0x0802
 802f5a4:	0604      	.short	0x0604
  case PBUF_TRANSPORT:
    /* add room for transport (often TCP) layer header */
    offset = PBUF_LINK_HLEN + PBUF_IP_HLEN + PBUF_TRANSPORT_HLEN;
 802f5a6:	2636      	movs	r6, #54	; 0x36
 802f5a8:	e004      	b.n	802f5b4 <pbuf_alloc+0x22>
    /* add room for IP layer header */
    offset = PBUF_LINK_HLEN + PBUF_IP_HLEN;
    break;
  case PBUF_LINK:
    /* add room for link layer header */
    offset = PBUF_LINK_HLEN;
 802f5aa:	260e      	movs	r6, #14
    break;
 802f5ac:	e002      	b.n	802f5b4 <pbuf_alloc+0x22>
  case PBUF_RAW:
    offset = 0;
 802f5ae:	2600      	movs	r6, #0
    break;
 802f5b0:	e000      	b.n	802f5b4 <pbuf_alloc+0x22>
    /* add room for transport (often TCP) layer header */
    offset = PBUF_LINK_HLEN + PBUF_IP_HLEN + PBUF_TRANSPORT_HLEN;
    break;
  case PBUF_IP:
    /* add room for IP layer header */
    offset = PBUF_LINK_HLEN + PBUF_IP_HLEN;
 802f5b2:	2622      	movs	r6, #34	; 0x22
  default:
    LWIP_ASSERT("pbuf_alloc: bad pbuf layer", 0);
    return NULL;
  }

  switch (type) {
 802f5b4:	2f03      	cmp	r7, #3
 802f5b6:	d86f      	bhi.n	802f698 <pbuf_alloc+0x106>
 802f5b8:	e8df f007 	tbb	[pc, r7]
 802f5bc:	025e5e46 	.word	0x025e5e46
  case PBUF_POOL:
    /* allocate head of pbuf chain into p */
    p = (struct pbuf *)memp_malloc(MEMP_PBUF_POOL);
 802f5c0:	200f      	movs	r0, #15
 802f5c2:	f7ff fe79 	bl	802f2b8 <memp_malloc>
    LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_alloc: allocated pbuf %p\n", (void *)p));
    if (p == NULL) {
 802f5c6:	4604      	mov	r4, r0
 802f5c8:	b900      	cbnz	r0, 802f5cc <pbuf_alloc+0x3a>
 802f5ca:	e065      	b.n	802f698 <pbuf_alloc+0x106>
    }
    p->type = type;
    p->next = NULL;

    /* make the payload pointer point 'offset' bytes into pbuf data memory */
    p->payload = LWIP_MEM_ALIGN((void *)((u8_t *)p + (SIZEOF_STRUCT_PBUF + offset)));
 802f5cc:	1982      	adds	r2, r0, r6
    LWIP_ASSERT("pbuf_alloc: pbuf p->payload properly aligned",
            ((mem_ptr_t)p->payload % MEM_ALIGNMENT) == 0);
    /* the total length of the pbuf chain is the requested size */
    p->tot_len = length;
    /* set the length of the first pbuf in the chain */
    p->len = LWIP_MIN(length, PBUF_POOL_BUFSIZE_ALIGNED - LWIP_MEM_ALIGN_SIZE(offset));
 802f5ce:	3603      	adds	r6, #3
 802f5d0:	f026 0603 	bic.w	r6, r6, #3
    }
    p->type = type;
    p->next = NULL;

    /* make the payload pointer point 'offset' bytes into pbuf data memory */
    p->payload = LWIP_MEM_ALIGN((void *)((u8_t *)p + (SIZEOF_STRUCT_PBUF + offset)));
 802f5d4:	3213      	adds	r2, #19
    LWIP_ASSERT("pbuf_alloc: pbuf p->payload properly aligned",
            ((mem_ptr_t)p->payload % MEM_ALIGNMENT) == 0);
    /* the total length of the pbuf chain is the requested size */
    p->tot_len = length;
    /* set the length of the first pbuf in the chain */
    p->len = LWIP_MIN(length, PBUF_POOL_BUFSIZE_ALIGNED - LWIP_MEM_ALIGN_SIZE(offset));
 802f5d6:	f5c6 66c0 	rsb	r6, r6, #1536	; 0x600
    LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_alloc: allocated pbuf %p\n", (void *)p));
    if (p == NULL) {
      PBUF_POOL_IS_EMPTY();
      return NULL;
    }
    p->type = type;
 802f5da:	2303      	movs	r3, #3
    p->next = NULL;

    /* make the payload pointer point 'offset' bytes into pbuf data memory */
    p->payload = LWIP_MEM_ALIGN((void *)((u8_t *)p + (SIZEOF_STRUCT_PBUF + offset)));
 802f5dc:	f022 0203 	bic.w	r2, r2, #3
    LWIP_ASSERT("pbuf_alloc: pbuf p->payload properly aligned",
            ((mem_ptr_t)p->payload % MEM_ALIGNMENT) == 0);
    /* the total length of the pbuf chain is the requested size */
    p->tot_len = length;
    /* set the length of the first pbuf in the chain */
    p->len = LWIP_MIN(length, PBUF_POOL_BUFSIZE_ALIGNED - LWIP_MEM_ALIGN_SIZE(offset));
 802f5e0:	3604      	adds	r6, #4
 802f5e2:	42ae      	cmp	r6, r5
 802f5e4:	bfa8      	it	ge
 802f5e6:	462e      	movge	r6, r5
    LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_alloc: allocated pbuf %p\n", (void *)p));
    if (p == NULL) {
      PBUF_POOL_IS_EMPTY();
      return NULL;
    }
    p->type = type;
 802f5e8:	7303      	strb	r3, [r0, #12]
    p->next = NULL;

    /* make the payload pointer point 'offset' bytes into pbuf data memory */
    p->payload = LWIP_MEM_ALIGN((void *)((u8_t *)p + (SIZEOF_STRUCT_PBUF + offset)));
 802f5ea:	6042      	str	r2, [r0, #4]
    if (p == NULL) {
      PBUF_POOL_IS_EMPTY();
      return NULL;
    }
    p->type = type;
    p->next = NULL;
 802f5ec:	2300      	movs	r3, #0
                ((u8_t*)p->payload + p->len <=
                 (u8_t*)p + SIZEOF_STRUCT_PBUF + PBUF_POOL_BUFSIZE_ALIGNED));
    LWIP_ASSERT("PBUF_POOL_BUFSIZE must be bigger than MEM_ALIGNMENT",
      (PBUF_POOL_BUFSIZE_ALIGNED - LWIP_MEM_ALIGN_SIZE(offset)) > 0 );
    /* set reference count (needed here in case we fail) */
    p->ref = 1;
 802f5ee:	2201      	movs	r2, #1
    LWIP_ASSERT("pbuf_alloc: pbuf p->payload properly aligned",
            ((mem_ptr_t)p->payload % MEM_ALIGNMENT) == 0);
    /* the total length of the pbuf chain is the requested size */
    p->tot_len = length;
    /* set the length of the first pbuf in the chain */
    p->len = LWIP_MIN(length, PBUF_POOL_BUFSIZE_ALIGNED - LWIP_MEM_ALIGN_SIZE(offset));
 802f5f0:	8146      	strh	r6, [r0, #10]
    if (p == NULL) {
      PBUF_POOL_IS_EMPTY();
      return NULL;
    }
    p->type = type;
    p->next = NULL;
 802f5f2:	6003      	str	r3, [r0, #0]
    /* make the payload pointer point 'offset' bytes into pbuf data memory */
    p->payload = LWIP_MEM_ALIGN((void *)((u8_t *)p + (SIZEOF_STRUCT_PBUF + offset)));
    LWIP_ASSERT("pbuf_alloc: pbuf p->payload properly aligned",
            ((mem_ptr_t)p->payload % MEM_ALIGNMENT) == 0);
    /* the total length of the pbuf chain is the requested size */
    p->tot_len = length;
 802f5f4:	8105      	strh	r5, [r0, #8]
                ((u8_t*)p->payload + p->len <=
                 (u8_t*)p + SIZEOF_STRUCT_PBUF + PBUF_POOL_BUFSIZE_ALIGNED));
    LWIP_ASSERT("PBUF_POOL_BUFSIZE must be bigger than MEM_ALIGNMENT",
      (PBUF_POOL_BUFSIZE_ALIGNED - LWIP_MEM_ALIGN_SIZE(offset)) > 0 );
    /* set reference count (needed here in case we fail) */
    p->ref = 1;
 802f5f6:	81c2      	strh	r2, [r0, #14]
    /* now allocate the tail of the pbuf chain */

    /* remember first pbuf for linkage in next iteration */
    r = p;
    /* remaining length to be allocated */
    rem_len = length - p->len;
 802f5f8:	1bae      	subs	r6, r5, r6
    /* any remaining pbufs to be allocated? */
    while (rem_len > 0) {
 802f5fa:	4607      	mov	r7, r0
 802f5fc:	4698      	mov	r8, r3
      r->next = q;
      /* set total length of this pbuf and next in chain */
      LWIP_ASSERT("rem_len < max_u16_t", rem_len < 0xffff);
      q->tot_len = (u16_t)rem_len;
      /* this pbuf length is pool size, unless smaller sized tail */
      q->len = LWIP_MIN((u16_t)rem_len, PBUF_POOL_BUFSIZE_ALIGNED);
 802f5fe:	f240 6903 	movw	r9, #1539	; 0x603
 802f602:	f240 6a04 	movw	sl, #1540	; 0x604
    /* remember first pbuf for linkage in next iteration */
    r = p;
    /* remaining length to be allocated */
    rem_len = length - p->len;
    /* any remaining pbufs to be allocated? */
    while (rem_len > 0) {
 802f606:	e01c      	b.n	802f642 <pbuf_alloc+0xb0>
      q = (struct pbuf *)memp_malloc(MEMP_PBUF_POOL);
 802f608:	200f      	movs	r0, #15
 802f60a:	f7ff fe55 	bl	802f2b8 <memp_malloc>
      if (q == NULL) {
 802f60e:	4605      	mov	r5, r0
 802f610:	b918      	cbnz	r0, 802f61a <pbuf_alloc+0x88>
        PBUF_POOL_IS_EMPTY();
        /* free chain so far allocated */
        pbuf_free(p);
 802f612:	4620      	mov	r0, r4
 802f614:	f7ff ff70 	bl	802f4f8 <pbuf_free>
 802f618:	e03e      	b.n	802f698 <pbuf_alloc+0x106>
        /* bail out unsuccesfully */
        return NULL;
      }
      q->type = type;
 802f61a:	2303      	movs	r3, #3
      /* set total length of this pbuf and next in chain */
      LWIP_ASSERT("rem_len < max_u16_t", rem_len < 0xffff);
      q->tot_len = (u16_t)rem_len;
      /* this pbuf length is pool size, unless smaller sized tail */
      q->len = LWIP_MIN((u16_t)rem_len, PBUF_POOL_BUFSIZE_ALIGNED);
      q->payload = (void *)((u8_t *)q + SIZEOF_STRUCT_PBUF);
 802f61c:	f100 0210 	add.w	r2, r0, #16
        /* free chain so far allocated */
        pbuf_free(p);
        /* bail out unsuccesfully */
        return NULL;
      }
      q->type = type;
 802f620:	7303      	strb	r3, [r0, #12]
      q->next = NULL;
      /* make previous pbuf point to this pbuf */
      r->next = q;
      /* set total length of this pbuf and next in chain */
      LWIP_ASSERT("rem_len < max_u16_t", rem_len < 0xffff);
      q->tot_len = (u16_t)rem_len;
 802f622:	b2b3      	uxth	r3, r6
 802f624:	8103      	strh	r3, [r0, #8]
      /* this pbuf length is pool size, unless smaller sized tail */
      q->len = LWIP_MIN((u16_t)rem_len, PBUF_POOL_BUFSIZE_ALIGNED);
      q->payload = (void *)((u8_t *)q + SIZEOF_STRUCT_PBUF);
 802f626:	6042      	str	r2, [r0, #4]
      r->next = q;
      /* set total length of this pbuf and next in chain */
      LWIP_ASSERT("rem_len < max_u16_t", rem_len < 0xffff);
      q->tot_len = (u16_t)rem_len;
      /* this pbuf length is pool size, unless smaller sized tail */
      q->len = LWIP_MIN((u16_t)rem_len, PBUF_POOL_BUFSIZE_ALIGNED);
 802f628:	454b      	cmp	r3, r9
 802f62a:	bf88      	it	hi
 802f62c:	4653      	movhi	r3, sl
      LWIP_ASSERT("pbuf_alloc: pbuf q->payload properly aligned",
              ((mem_ptr_t)q->payload % MEM_ALIGNMENT) == 0);
      LWIP_ASSERT("check p->payload + p->len does not overflow pbuf",
                  ((u8_t*)p->payload + p->len <=
                   (u8_t*)p + SIZEOF_STRUCT_PBUF + PBUF_POOL_BUFSIZE_ALIGNED));
      q->ref = 1;
 802f62e:	2201      	movs	r2, #1
        /* bail out unsuccesfully */
        return NULL;
      }
      q->type = type;
      q->flags = 0;
      q->next = NULL;
 802f630:	f8c0 8000 	str.w	r8, [r0]
        pbuf_free(p);
        /* bail out unsuccesfully */
        return NULL;
      }
      q->type = type;
      q->flags = 0;
 802f634:	f880 800d 	strb.w	r8, [r0, #13]
      q->next = NULL;
      /* make previous pbuf point to this pbuf */
      r->next = q;
 802f638:	6038      	str	r0, [r7, #0]
      /* set total length of this pbuf and next in chain */
      LWIP_ASSERT("rem_len < max_u16_t", rem_len < 0xffff);
      q->tot_len = (u16_t)rem_len;
      /* this pbuf length is pool size, unless smaller sized tail */
      q->len = LWIP_MIN((u16_t)rem_len, PBUF_POOL_BUFSIZE_ALIGNED);
 802f63a:	8143      	strh	r3, [r0, #10]
      LWIP_ASSERT("pbuf_alloc: pbuf q->payload properly aligned",
              ((mem_ptr_t)q->payload % MEM_ALIGNMENT) == 0);
      LWIP_ASSERT("check p->payload + p->len does not overflow pbuf",
                  ((u8_t*)p->payload + p->len <=
                   (u8_t*)p + SIZEOF_STRUCT_PBUF + PBUF_POOL_BUFSIZE_ALIGNED));
      q->ref = 1;
 802f63c:	81c2      	strh	r2, [r0, #14]
      /* calculate remaining length to be allocated */
      rem_len -= q->len;
 802f63e:	1af6      	subs	r6, r6, r3
 802f640:	4607      	mov	r7, r0
    /* remember first pbuf for linkage in next iteration */
    r = p;
    /* remaining length to be allocated */
    rem_len = length - p->len;
    /* any remaining pbufs to be allocated? */
    while (rem_len > 0) {
 802f642:	2e00      	cmp	r6, #0
 802f644:	dce0      	bgt.n	802f608 <pbuf_alloc+0x76>
 802f646:	e022      	b.n	802f68e <pbuf_alloc+0xfc>
    /*r->next = NULL;*/

    break;
  case PBUF_RAM:
    /* If pbuf is to be allocated in RAM, allocate memory for it. */
    p = (struct pbuf*)mem_malloc(LWIP_MEM_ALIGN_SIZE(SIZEOF_STRUCT_PBUF + offset) + LWIP_MEM_ALIGN_SIZE(length));
 802f648:	f106 0013 	add.w	r0, r6, #19
 802f64c:	1ceb      	adds	r3, r5, #3
 802f64e:	f023 0303 	bic.w	r3, r3, #3
 802f652:	f020 0003 	bic.w	r0, r0, #3
 802f656:	18c0      	adds	r0, r0, r3
 802f658:	b280      	uxth	r0, r0
 802f65a:	f7ff fda3 	bl	802f1a4 <mem_malloc>
    if (p == NULL) {
 802f65e:	4604      	mov	r4, r0
 802f660:	b1d0      	cbz	r0, 802f698 <pbuf_alloc+0x106>
      return NULL;
    }
    /* Set up internal structure of the pbuf. */
    p->payload = LWIP_MEM_ALIGN((void *)((u8_t *)p + SIZEOF_STRUCT_PBUF + offset));
 802f662:	1986      	adds	r6, r0, r6
 802f664:	3613      	adds	r6, #19
    p->len = p->tot_len = length;
    p->next = NULL;
 802f666:	2300      	movs	r3, #0
    p = (struct pbuf*)mem_malloc(LWIP_MEM_ALIGN_SIZE(SIZEOF_STRUCT_PBUF + offset) + LWIP_MEM_ALIGN_SIZE(length));
    if (p == NULL) {
      return NULL;
    }
    /* Set up internal structure of the pbuf. */
    p->payload = LWIP_MEM_ALIGN((void *)((u8_t *)p + SIZEOF_STRUCT_PBUF + offset));
 802f668:	f026 0603 	bic.w	r6, r6, #3
 802f66c:	6046      	str	r6, [r0, #4]
    p->len = p->tot_len = length;
 802f66e:	8105      	strh	r5, [r0, #8]
 802f670:	8145      	strh	r5, [r0, #10]
    p->next = NULL;
 802f672:	6003      	str	r3, [r0, #0]
    p->type = type;
 802f674:	7303      	strb	r3, [r0, #12]
 802f676:	e00a      	b.n	802f68e <pbuf_alloc+0xfc>
  /* pbuf references existing (non-volatile static constant) ROM payload? */
  case PBUF_ROM:
  /* pbuf references existing (externally allocated) RAM payload? */
  case PBUF_REF:
    /* only allocate memory for the pbuf structure */
    p = (struct pbuf *)memp_malloc(MEMP_PBUF);
 802f678:	200e      	movs	r0, #14
 802f67a:	f7ff fe1d 	bl	802f2b8 <memp_malloc>
    if (p == NULL) {
 802f67e:	4604      	mov	r4, r0
 802f680:	b150      	cbz	r0, 802f698 <pbuf_alloc+0x106>
                  ("pbuf_alloc: Could not allocate MEMP_PBUF for PBUF_%s.\n",
                  (type == PBUF_ROM) ? "ROM" : "REF"));
      return NULL;
    }
    /* caller must set this field properly, afterwards */
    p->payload = NULL;
 802f682:	2300      	movs	r3, #0
 802f684:	6043      	str	r3, [r0, #4]
    p->len = p->tot_len = length;
 802f686:	8105      	strh	r5, [r0, #8]
 802f688:	8145      	strh	r5, [r0, #10]
    p->next = NULL;
 802f68a:	6003      	str	r3, [r0, #0]
    p->type = type;
 802f68c:	7307      	strb	r7, [r0, #12]
  default:
    LWIP_ASSERT("pbuf_alloc: erroneous type", 0);
    return NULL;
  }
  /* set reference count */
  p->ref = 1;
 802f68e:	2301      	movs	r3, #1
 802f690:	81e3      	strh	r3, [r4, #14]
  /* set flags */
  p->flags = 0;
 802f692:	2300      	movs	r3, #0
 802f694:	7363      	strb	r3, [r4, #13]
  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_alloc(length=%"U16_F") == %p\n", length, (void *)p));
  return p;
 802f696:	e000      	b.n	802f69a <pbuf_alloc+0x108>
    p->next = NULL;
    p->type = type;
    break;
  default:
    LWIP_ASSERT("pbuf_alloc: erroneous type", 0);
    return NULL;
 802f698:	2400      	movs	r4, #0
  p->ref = 1;
  /* set flags */
  p->flags = 0;
  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_alloc(length=%"U16_F") == %p\n", length, (void *)p));
  return p;
}
 802f69a:	4620      	mov	r0, r4
 802f69c:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}

0802f6a0 <pbuf_clen>:
 * @return the number of pbufs in a chain
 */

u8_t
pbuf_clen(struct pbuf *p)
{
 802f6a0:	4603      	mov	r3, r0
  u8_t len;

  len = 0;
 802f6a2:	2000      	movs	r0, #0
  while (p != NULL) {
 802f6a4:	e002      	b.n	802f6ac <pbuf_clen+0xc>
    ++len;
 802f6a6:	3001      	adds	r0, #1
    p = p->next;
 802f6a8:	681b      	ldr	r3, [r3, #0]
{
  u8_t len;

  len = 0;
  while (p != NULL) {
    ++len;
 802f6aa:	b2c0      	uxtb	r0, r0
pbuf_clen(struct pbuf *p)
{
  u8_t len;

  len = 0;
  while (p != NULL) {
 802f6ac:	2b00      	cmp	r3, #0
 802f6ae:	d1fa      	bne.n	802f6a6 <pbuf_clen+0x6>
    ++len;
    p = p->next;
  }
  return len;
}
 802f6b0:	4770      	bx	lr

0802f6b2 <pbuf_ref>:
 * @param p pbuf to increase reference counter of
 *
 */
void
pbuf_ref(struct pbuf *p)
{
 802f6b2:	b510      	push	{r4, lr}
  SYS_ARCH_DECL_PROTECT(old_level);
  /* pbuf given? */
  if (p != NULL) {
 802f6b4:	4604      	mov	r4, r0
 802f6b6:	b140      	cbz	r0, 802f6ca <pbuf_ref+0x18>
    SYS_ARCH_PROTECT(old_level);
 802f6b8:	f007 fbc2 	bl	8036e40 <sys_arch_protect>
    ++(p->ref);
 802f6bc:	89e3      	ldrh	r3, [r4, #14]
 802f6be:	3301      	adds	r3, #1
 802f6c0:	81e3      	strh	r3, [r4, #14]
    SYS_ARCH_UNPROTECT(old_level);
  }
}
 802f6c2:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  SYS_ARCH_DECL_PROTECT(old_level);
  /* pbuf given? */
  if (p != NULL) {
    SYS_ARCH_PROTECT(old_level);
    ++(p->ref);
    SYS_ARCH_UNPROTECT(old_level);
 802f6c6:	f007 bbc5 	b.w	8036e54 <sys_arch_unprotect>
 802f6ca:	bd10      	pop	{r4, pc}

0802f6cc <pbuf_cat>:
 * @see pbuf_chain()
 */

void
pbuf_cat(struct pbuf *h, struct pbuf *t)
{
 802f6cc:	b510      	push	{r4, lr}
  struct pbuf *p;

  LWIP_ERROR("(h != NULL) && (t != NULL) (programmer violates API)",
 802f6ce:	b168      	cbz	r0, 802f6ec <pbuf_cat+0x20>
 802f6d0:	b161      	cbz	r1, 802f6ec <pbuf_cat+0x20>
 802f6d2:	e003      	b.n	802f6dc <pbuf_cat+0x10>
             ((h != NULL) && (t != NULL)), return;);

  /* proceed to last pbuf of chain */
  for (p = h; p->next != NULL; p = p->next) {
    /* add total length of second chain to all totals of first chain */
    p->tot_len += t->tot_len;
 802f6d4:	8904      	ldrh	r4, [r0, #8]
 802f6d6:	191b      	adds	r3, r3, r4
 802f6d8:	8103      	strh	r3, [r0, #8]

  LWIP_ERROR("(h != NULL) && (t != NULL) (programmer violates API)",
             ((h != NULL) && (t != NULL)), return;);

  /* proceed to last pbuf of chain */
  for (p = h; p->next != NULL; p = p->next) {
 802f6da:	4610      	mov	r0, r2
 802f6dc:	6802      	ldr	r2, [r0, #0]
 802f6de:	890b      	ldrh	r3, [r1, #8]
 802f6e0:	2a00      	cmp	r2, #0
 802f6e2:	d1f7      	bne.n	802f6d4 <pbuf_cat+0x8>
  }
  /* { p is last pbuf of first h chain, p->next == NULL } */
  LWIP_ASSERT("p->tot_len == p->len (of last pbuf in chain)", p->tot_len == p->len);
  LWIP_ASSERT("p->next == NULL", p->next == NULL);
  /* add total length of second chain to last pbuf total of first chain */
  p->tot_len += t->tot_len;
 802f6e4:	8902      	ldrh	r2, [r0, #8]
  /* chain last pbuf of head (p) with first of tail (t) */
  p->next = t;
 802f6e6:	6001      	str	r1, [r0, #0]
  }
  /* { p is last pbuf of first h chain, p->next == NULL } */
  LWIP_ASSERT("p->tot_len == p->len (of last pbuf in chain)", p->tot_len == p->len);
  LWIP_ASSERT("p->next == NULL", p->next == NULL);
  /* add total length of second chain to last pbuf total of first chain */
  p->tot_len += t->tot_len;
 802f6e8:	189b      	adds	r3, r3, r2
 802f6ea:	8103      	strh	r3, [r0, #8]
 802f6ec:	bd10      	pop	{r4, pc}

0802f6ee <pbuf_chain>:
 * The ->ref field of the first pbuf of the tail chain is adjusted.
 *
 */
void
pbuf_chain(struct pbuf *h, struct pbuf *t)
{
 802f6ee:	b510      	push	{r4, lr}
 802f6f0:	460c      	mov	r4, r1
  pbuf_cat(h, t);
 802f6f2:	f7ff ffeb 	bl	802f6cc <pbuf_cat>
  /* t is now referenced by h */
  pbuf_ref(t);
 802f6f6:	4620      	mov	r0, r4
  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_chain: %p references %p\n", (void *)h, (void *)t));
}
 802f6f8:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
void
pbuf_chain(struct pbuf *h, struct pbuf *t)
{
  pbuf_cat(h, t);
  /* t is now referenced by h */
  pbuf_ref(t);
 802f6fc:	f7ff bfd9 	b.w	802f6b2 <pbuf_ref>

0802f700 <pbuf_copy>:
 *         ERR_ARG if one of the pbufs is NULL or p_to is not big
 *                 enough to hold p_from
 */
err_t
pbuf_copy(struct pbuf *p_to, struct pbuf *p_from)
{
 802f700:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 802f704:	460c      	mov	r4, r1

  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_copy(%p, %p)\n",
    (void*)p_to, (void*)p_from));

  /* is the target big enough to hold the source? */
  LWIP_ERROR("pbuf_copy: target not big enough to hold source", ((p_to != NULL) &&
 802f706:	4605      	mov	r5, r0
 802f708:	b908      	cbnz	r0, 802f70e <pbuf_copy+0xe>
 802f70a:	20f2      	movs	r0, #242	; 0xf2
 802f70c:	e03f      	b.n	802f78e <pbuf_copy+0x8e>
 802f70e:	2900      	cmp	r1, #0
 802f710:	d0fb      	beq.n	802f70a <pbuf_copy+0xa>
 802f712:	8902      	ldrh	r2, [r0, #8]
 802f714:	890b      	ldrh	r3, [r1, #8]
 802f716:	429a      	cmp	r2, r3
 802f718:	d3f7      	bcc.n	802f70a <pbuf_copy+0xa>
 802f71a:	2600      	movs	r6, #0
 802f71c:	4637      	mov	r7, r6

  /* iterate through pbuf chain */
  do
  {
    /* copy one part of the original chain */
    if ((p_to->len - offset_to) >= (p_from->len - offset_from)) {
 802f71e:	f8b4 800a 	ldrh.w	r8, [r4, #10]
 802f722:	896b      	ldrh	r3, [r5, #10]
      len = p_from->len - offset_from;
    } else {
      /* current p_from does not fit into current p_to */
      len = p_to->len - offset_to;
    }
    MEMCPY((u8_t*)p_to->payload + offset_to, (u8_t*)p_from->payload + offset_from, len);
 802f724:	6861      	ldr	r1, [r4, #4]
 802f726:	6868      	ldr	r0, [r5, #4]

  /* iterate through pbuf chain */
  do
  {
    /* copy one part of the original chain */
    if ((p_to->len - offset_to) >= (p_from->len - offset_from)) {
 802f728:	ebc6 0808 	rsb	r8, r6, r8
 802f72c:	1bdb      	subs	r3, r3, r7
 802f72e:	4543      	cmp	r3, r8
      /* complete current p_from fits into current p_to */
      len = p_from->len - offset_from;
    } else {
      /* current p_from does not fit into current p_to */
      len = p_to->len - offset_to;
 802f730:	bfb4      	ite	lt
 802f732:	fa1f f883 	uxthlt.w	r8, r3
  do
  {
    /* copy one part of the original chain */
    if ((p_to->len - offset_to) >= (p_from->len - offset_from)) {
      /* complete current p_from fits into current p_to */
      len = p_from->len - offset_from;
 802f736:	fa1f f888 	uxthge.w	r8, r8
    } else {
      /* current p_from does not fit into current p_to */
      len = p_to->len - offset_to;
    }
    MEMCPY((u8_t*)p_to->payload + offset_to, (u8_t*)p_from->payload + offset_from, len);
 802f73a:	19c0      	adds	r0, r0, r7
 802f73c:	1989      	adds	r1, r1, r6
 802f73e:	4642      	mov	r2, r8
 802f740:	f7f2 fa74 	bl	8021c2c <memcpy>
    offset_to += len;
    offset_from += len;
 802f744:	4446      	add	r6, r8
    LWIP_ASSERT("offset_to <= p_to->len", offset_to <= p_to->len);
    LWIP_ASSERT("offset_from <= p_from->len", offset_from <= p_from->len);
    if (offset_from >= p_from->len) {
 802f746:	8963      	ldrh	r3, [r4, #10]
      /* current p_from does not fit into current p_to */
      len = p_to->len - offset_to;
    }
    MEMCPY((u8_t*)p_to->payload + offset_to, (u8_t*)p_from->payload + offset_from, len);
    offset_to += len;
    offset_from += len;
 802f748:	b2b6      	uxth	r6, r6
    LWIP_ASSERT("offset_to <= p_to->len", offset_to <= p_to->len);
    LWIP_ASSERT("offset_from <= p_from->len", offset_from <= p_from->len);
    if (offset_from >= p_from->len) {
 802f74a:	42b3      	cmp	r3, r6
    } else {
      /* current p_from does not fit into current p_to */
      len = p_to->len - offset_to;
    }
    MEMCPY((u8_t*)p_to->payload + offset_to, (u8_t*)p_from->payload + offset_from, len);
    offset_to += len;
 802f74c:	4447      	add	r7, r8
    if (offset_from >= p_from->len) {
      /* on to next p_from (if any) */
      offset_from = 0;
      p_from = p_from->next;
    }
    if (offset_to == p_to->len) {
 802f74e:	896b      	ldrh	r3, [r5, #10]
    LWIP_ASSERT("offset_to <= p_to->len", offset_to <= p_to->len);
    LWIP_ASSERT("offset_from <= p_from->len", offset_from <= p_from->len);
    if (offset_from >= p_from->len) {
      /* on to next p_from (if any) */
      offset_from = 0;
      p_from = p_from->next;
 802f750:	bf98      	it	ls
 802f752:	6824      	ldrls	r4, [r4, #0]
    } else {
      /* current p_from does not fit into current p_to */
      len = p_to->len - offset_to;
    }
    MEMCPY((u8_t*)p_to->payload + offset_to, (u8_t*)p_from->payload + offset_from, len);
    offset_to += len;
 802f754:	b2bf      	uxth	r7, r7
    offset_from += len;
    LWIP_ASSERT("offset_to <= p_to->len", offset_to <= p_to->len);
    LWIP_ASSERT("offset_from <= p_from->len", offset_from <= p_from->len);
    if (offset_from >= p_from->len) {
      /* on to next p_from (if any) */
      offset_from = 0;
 802f756:	bf98      	it	ls
 802f758:	2600      	movls	r6, #0
      p_from = p_from->next;
    }
    if (offset_to == p_to->len) {
 802f75a:	42bb      	cmp	r3, r7
 802f75c:	d105      	bne.n	802f76a <pbuf_copy+0x6a>
      /* on to next p_to (if any) */
      offset_to = 0;
      p_to = p_to->next;
 802f75e:	682d      	ldr	r5, [r5, #0]
      LWIP_ERROR("p_to != NULL", (p_to != NULL) || (p_from == NULL) , return ERR_ARG;);
 802f760:	b915      	cbnz	r5, 802f768 <pbuf_copy+0x68>
 802f762:	2c00      	cmp	r4, #0
 802f764:	d1d1      	bne.n	802f70a <pbuf_copy+0xa>
 802f766:	e00f      	b.n	802f788 <pbuf_copy+0x88>
      offset_from = 0;
      p_from = p_from->next;
    }
    if (offset_to == p_to->len) {
      /* on to next p_to (if any) */
      offset_to = 0;
 802f768:	2700      	movs	r7, #0
      p_to = p_to->next;
      LWIP_ERROR("p_to != NULL", (p_to != NULL) || (p_from == NULL) , return ERR_ARG;);
    }

    if((p_from != NULL) && (p_from->len == p_from->tot_len)) {
 802f76a:	b12c      	cbz	r4, 802f778 <pbuf_copy+0x78>
 802f76c:	8962      	ldrh	r2, [r4, #10]
 802f76e:	8923      	ldrh	r3, [r4, #8]
 802f770:	429a      	cmp	r2, r3
 802f772:	d101      	bne.n	802f778 <pbuf_copy+0x78>
      /* don't copy more than one packet! */
      LWIP_ERROR("pbuf_copy() does not allow packet queues!\n",
 802f774:	6823      	ldr	r3, [r4, #0]
 802f776:	b94b      	cbnz	r3, 802f78c <pbuf_copy+0x8c>
                 (p_from->next == NULL), return ERR_VAL;);
    }
    if((p_to != NULL) && (p_to->len == p_to->tot_len)) {
 802f778:	896a      	ldrh	r2, [r5, #10]
 802f77a:	892b      	ldrh	r3, [r5, #8]
 802f77c:	429a      	cmp	r2, r3
 802f77e:	d101      	bne.n	802f784 <pbuf_copy+0x84>
      /* don't copy more than one packet! */
      LWIP_ERROR("pbuf_copy() does not allow packet queues!\n",
 802f780:	682b      	ldr	r3, [r5, #0]
 802f782:	b91b      	cbnz	r3, 802f78c <pbuf_copy+0x8c>
                  (p_to->next == NULL), return ERR_VAL;);
    }
  } while (p_from);
 802f784:	2c00      	cmp	r4, #0
 802f786:	d1ca      	bne.n	802f71e <pbuf_copy+0x1e>
  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_copy: end of chain reached.\n"));
  return ERR_OK;
 802f788:	4620      	mov	r0, r4
 802f78a:	e000      	b.n	802f78e <pbuf_copy+0x8e>
      LWIP_ERROR("p_to != NULL", (p_to != NULL) || (p_from == NULL) , return ERR_ARG;);
    }

    if((p_from != NULL) && (p_from->len == p_from->tot_len)) {
      /* don't copy more than one packet! */
      LWIP_ERROR("pbuf_copy() does not allow packet queues!\n",
 802f78c:	20fa      	movs	r0, #250	; 0xfa
                  (p_to->next == NULL), return ERR_VAL;);
    }
  } while (p_from);
  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE, ("pbuf_copy: end of chain reached.\n"));
  return ERR_OK;
}
 802f78e:	b240      	sxtb	r0, r0
 802f790:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}

0802f794 <pbuf_copy_partial>:
 * @param offset offset into the packet buffer from where to begin copying len bytes
 * @return the number of bytes copied, or 0 on failure
 */
u16_t
pbuf_copy_partial(struct pbuf *buf, void *dataptr, u16_t len, u16_t offset)
{
 802f794:	e92d 43f8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
 802f798:	4688      	mov	r8, r1
 802f79a:	4616      	mov	r6, r2
  struct pbuf *p;
  u16_t left;
  u16_t buf_copy_len;
  u16_t copied_total = 0;

  LWIP_ERROR("pbuf_copy_partial: invalid buf", (buf != NULL), return 0;);
 802f79c:	b328      	cbz	r0, 802f7ea <pbuf_copy_partial+0x56>
  LWIP_ERROR("pbuf_copy_partial: invalid dataptr", (dataptr != NULL), return 0;);
 802f79e:	b331      	cbz	r1, 802f7ee <pbuf_copy_partial+0x5a>
 802f7a0:	2400      	movs	r4, #0
 802f7a2:	4605      	mov	r5, r0
 802f7a4:	46a1      	mov	r9, r4
 802f7a6:	e01c      	b.n	802f7e2 <pbuf_copy_partial+0x4e>
    return 0;
  }

  /* Note some systems use byte copy if dataptr or one of the pbuf payload pointers are unaligned. */
  for(p = buf; len != 0 && p != NULL; p = p->next) {
    if ((offset != 0) && (offset >= p->len)) {
 802f7a8:	b12b      	cbz	r3, 802f7b6 <pbuf_copy_partial+0x22>
 802f7aa:	896a      	ldrh	r2, [r5, #10]
 802f7ac:	4293      	cmp	r3, r2
 802f7ae:	d302      	bcc.n	802f7b6 <pbuf_copy_partial+0x22>
      /* don't copy from this buffer -> on to the next */
      offset -= p->len;
 802f7b0:	1a9b      	subs	r3, r3, r2
 802f7b2:	b29b      	uxth	r3, r3
 802f7b4:	e014      	b.n	802f7e0 <pbuf_copy_partial+0x4c>
    } else {
      /* copy from this buffer. maybe only partially. */
      buf_copy_len = p->len - offset;
 802f7b6:	896f      	ldrh	r7, [r5, #10]
      if (buf_copy_len > len)
          buf_copy_len = len;
      /* copy the necessary parts of the buffer */
      MEMCPY(&((char*)dataptr)[left], &((char*)p->payload)[offset], buf_copy_len);
 802f7b8:	6869      	ldr	r1, [r5, #4]
    if ((offset != 0) && (offset >= p->len)) {
      /* don't copy from this buffer -> on to the next */
      offset -= p->len;
    } else {
      /* copy from this buffer. maybe only partially. */
      buf_copy_len = p->len - offset;
 802f7ba:	1aff      	subs	r7, r7, r3
 802f7bc:	b2bf      	uxth	r7, r7
 802f7be:	42b7      	cmp	r7, r6
 802f7c0:	bf28      	it	cs
 802f7c2:	4637      	movcs	r7, r6
      if (buf_copy_len > len)
          buf_copy_len = len;
      /* copy the necessary parts of the buffer */
      MEMCPY(&((char*)dataptr)[left], &((char*)p->payload)[offset], buf_copy_len);
 802f7c4:	eb08 0009 	add.w	r0, r8, r9
 802f7c8:	18c9      	adds	r1, r1, r3
 802f7ca:	463a      	mov	r2, r7
      copied_total += buf_copy_len;
 802f7cc:	193c      	adds	r4, r7, r4
      left += buf_copy_len;
 802f7ce:	44b9      	add	r9, r7
      len -= buf_copy_len;
 802f7d0:	1bf6      	subs	r6, r6, r7
      /* copy from this buffer. maybe only partially. */
      buf_copy_len = p->len - offset;
      if (buf_copy_len > len)
          buf_copy_len = len;
      /* copy the necessary parts of the buffer */
      MEMCPY(&((char*)dataptr)[left], &((char*)p->payload)[offset], buf_copy_len);
 802f7d2:	f7f2 fa2b 	bl	8021c2c <memcpy>
      copied_total += buf_copy_len;
 802f7d6:	b2a4      	uxth	r4, r4
      left += buf_copy_len;
 802f7d8:	fa1f f989 	uxth.w	r9, r9
      len -= buf_copy_len;
 802f7dc:	b2b6      	uxth	r6, r6
      offset = 0;
 802f7de:	2300      	movs	r3, #0
  if((buf == NULL) || (dataptr == NULL)) {
    return 0;
  }

  /* Note some systems use byte copy if dataptr or one of the pbuf payload pointers are unaligned. */
  for(p = buf; len != 0 && p != NULL; p = p->next) {
 802f7e0:	682d      	ldr	r5, [r5, #0]
 802f7e2:	b12e      	cbz	r6, 802f7f0 <pbuf_copy_partial+0x5c>
 802f7e4:	2d00      	cmp	r5, #0
 802f7e6:	d1df      	bne.n	802f7a8 <pbuf_copy_partial+0x14>
 802f7e8:	e002      	b.n	802f7f0 <pbuf_copy_partial+0x5c>
  struct pbuf *p;
  u16_t left;
  u16_t buf_copy_len;
  u16_t copied_total = 0;

  LWIP_ERROR("pbuf_copy_partial: invalid buf", (buf != NULL), return 0;);
 802f7ea:	4604      	mov	r4, r0
 802f7ec:	e000      	b.n	802f7f0 <pbuf_copy_partial+0x5c>
 802f7ee:	460c      	mov	r4, r1
      len -= buf_copy_len;
      offset = 0;
    }
  }
  return copied_total;
}
 802f7f0:	4620      	mov	r0, r4
 802f7f2:	e8bd 83f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, pc}
 802f7f6:	0000      	movs	r0, r0

0802f7f8 <raw_input>:
 *           caller).
 *
 */
u8_t
raw_input(struct pbuf *p, struct netif *inp)
{
 802f7f8:	e92d 47f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, lr}
  u8_t eaten = 0;

  LWIP_UNUSED_ARG(inp);

  iphdr = (struct ip_hdr *)p->payload;
  proto = IPH_PROTO(iphdr);
 802f7fc:	6843      	ldr	r3, [r0, #4]
  /* loop through all raw pcbs until the packet is eaten by one */
  /* this allows multiple pcbs to match against the packet by design */
  while ((eaten == 0) && (pcb != NULL)) {
    if ((pcb->protocol == proto) &&
        (ip_addr_isany(&pcb->local_ip) ||
         ip_addr_cmp(&(pcb->local_ip), &current_iphdr_dest))) {
 802f7fe:	f8df a074 	ldr.w	sl, [pc, #116]	; 802f874 <raw_input+0x7c>
  u8_t eaten = 0;

  LWIP_UNUSED_ARG(inp);

  iphdr = (struct ip_hdr *)p->payload;
  proto = IPH_PROTO(iphdr);
 802f802:	f893 9009 	ldrb.w	r9, [r3, #9]

  prev = NULL;
  pcb = raw_pcbs;
 802f806:	4b19      	ldr	r3, [pc, #100]	; (802f86c <raw_input+0x74>)
 *           caller).
 *
 */
u8_t
raw_input(struct pbuf *p, struct netif *inp)
{
 802f808:	4606      	mov	r6, r0

  iphdr = (struct ip_hdr *)p->payload;
  proto = IPH_PROTO(iphdr);

  prev = NULL;
  pcb = raw_pcbs;
 802f80a:	681c      	ldr	r4, [r3, #0]
  LWIP_UNUSED_ARG(inp);

  iphdr = (struct ip_hdr *)p->payload;
  proto = IPH_PROTO(iphdr);

  prev = NULL;
 802f80c:	2500      	movs	r5, #0
            eaten = 1;
            if (prev != NULL) {
            /* move the pcb to the front of raw_pcbs so that is
               found faster next time */
              prev->next = pcb->next;
              pcb->next = raw_pcbs;
 802f80e:	4698      	mov	r8, r3
 802f810:	e023      	b.n	802f85a <raw_input+0x62>
  prev = NULL;
  pcb = raw_pcbs;
  /* loop through all raw pcbs until the packet is eaten by one */
  /* this allows multiple pcbs to match against the packet by design */
  while ((eaten == 0) && (pcb != NULL)) {
    if ((pcb->protocol == proto) &&
 802f812:	7c23      	ldrb	r3, [r4, #16]
 802f814:	454b      	cmp	r3, r9
 802f816:	d118      	bne.n	802f84a <raw_input+0x52>
        (ip_addr_isany(&pcb->local_ip) ||
 802f818:	6823      	ldr	r3, [r4, #0]
 802f81a:	b11b      	cbz	r3, 802f824 <raw_input+0x2c>
 802f81c:	f8da 2000 	ldr.w	r2, [sl]
 802f820:	4293      	cmp	r3, r2
 802f822:	d112      	bne.n	802f84a <raw_input+0x52>
      /* broadcast filter? */
      if (ip_get_option(pcb, SOF_BROADCAST) || !ip_addr_isbroadcast(&current_iphdr_dest, inp))
#endif /* IP_SOF_BROADCAST_RECV */
      {
        /* receive callback function available? */
        if (pcb->recv != NULL) {
 802f824:	6967      	ldr	r7, [r4, #20]
 802f826:	b187      	cbz	r7, 802f84a <raw_input+0x52>
          /* the receive callback function did not eat the packet? */
          if (pcb->recv(pcb->recv_arg, pcb, p, ip_current_src_addr()) != 0) {
 802f828:	69a0      	ldr	r0, [r4, #24]
 802f82a:	4b11      	ldr	r3, [pc, #68]	; (802f870 <raw_input+0x78>)
 802f82c:	4621      	mov	r1, r4
 802f82e:	4632      	mov	r2, r6
 802f830:	47b8      	blx	r7
 802f832:	b150      	cbz	r0, 802f84a <raw_input+0x52>
            /* receive function ate the packet */
            p = NULL;
            eaten = 1;
            if (prev != NULL) {
 802f834:	b15d      	cbz	r5, 802f84e <raw_input+0x56>
            /* move the pcb to the front of raw_pcbs so that is
               found faster next time */
              prev->next = pcb->next;
 802f836:	68e3      	ldr	r3, [r4, #12]
 802f838:	60eb      	str	r3, [r5, #12]
              pcb->next = raw_pcbs;
 802f83a:	f8d8 3000 	ldr.w	r3, [r8]
              raw_pcbs = pcb;
 802f83e:	f8c8 4000 	str.w	r4, [r8]
            eaten = 1;
            if (prev != NULL) {
            /* move the pcb to the front of raw_pcbs so that is
               found faster next time */
              prev->next = pcb->next;
              pcb->next = raw_pcbs;
 802f842:	60e3      	str	r3, [r4, #12]
        /* receive callback function available? */
        if (pcb->recv != NULL) {
          /* the receive callback function did not eat the packet? */
          if (pcb->recv(pcb->recv_arg, pcb, p, ip_current_src_addr()) != 0) {
            /* receive function ate the packet */
            p = NULL;
 802f844:	2600      	movs	r6, #0
            eaten = 1;
 802f846:	2301      	movs	r3, #1
 802f848:	e003      	b.n	802f852 <raw_input+0x5a>
  pcb = raw_pcbs;
  /* loop through all raw pcbs until the packet is eaten by one */
  /* this allows multiple pcbs to match against the packet by design */
  while ((eaten == 0) && (pcb != NULL)) {
    if ((pcb->protocol == proto) &&
        (ip_addr_isany(&pcb->local_ip) ||
 802f84a:	2300      	movs	r3, #0
 802f84c:	e001      	b.n	802f852 <raw_input+0x5a>
        if (pcb->recv != NULL) {
          /* the receive callback function did not eat the packet? */
          if (pcb->recv(pcb->recv_arg, pcb, p, ip_current_src_addr()) != 0) {
            /* receive function ate the packet */
            p = NULL;
            eaten = 1;
 802f84e:	2301      	movs	r3, #1
        /* receive callback function available? */
        if (pcb->recv != NULL) {
          /* the receive callback function did not eat the packet? */
          if (pcb->recv(pcb->recv_arg, pcb, p, ip_current_src_addr()) != 0) {
            /* receive function ate the packet */
            p = NULL;
 802f850:	462e      	mov	r6, r5
        /* no receive callback function was set for this raw PCB */
      }
      /* drop the packet */
    }
    prev = pcb;
    pcb = pcb->next;
 802f852:	68e2      	ldr	r2, [r4, #12]
 802f854:	4625      	mov	r5, r4

  prev = NULL;
  pcb = raw_pcbs;
  /* loop through all raw pcbs until the packet is eaten by one */
  /* this allows multiple pcbs to match against the packet by design */
  while ((eaten == 0) && (pcb != NULL)) {
 802f856:	b92b      	cbnz	r3, 802f864 <raw_input+0x6c>
        /* no receive callback function was set for this raw PCB */
      }
      /* drop the packet */
    }
    prev = pcb;
    pcb = pcb->next;
 802f858:	4614      	mov	r4, r2

  prev = NULL;
  pcb = raw_pcbs;
  /* loop through all raw pcbs until the packet is eaten by one */
  /* this allows multiple pcbs to match against the packet by design */
  while ((eaten == 0) && (pcb != NULL)) {
 802f85a:	2c00      	cmp	r4, #0
 802f85c:	d1d9      	bne.n	802f812 <raw_input+0x1a>
 802f85e:	4620      	mov	r0, r4
 802f860:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}
 802f864:	2001      	movs	r0, #1
    }
    prev = pcb;
    pcb = pcb->next;
  }
  return eaten;
}
 802f866:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}
 802f86a:	bf00      	nop
 802f86c:	2000c3dc 	.word	0x2000c3dc
 802f870:	2000f6cc 	.word	0x2000f6cc
 802f874:	2000f6d4 	.word	0x2000f6d4

0802f878 <tcp_accept_null>:
  LWIP_UNUSED_ARG(arg);
  LWIP_UNUSED_ARG(pcb);
  LWIP_UNUSED_ARG(err);

  return ERR_ABRT;
}
 802f878:	f06f 0009 	mvn.w	r0, #9
 802f87c:	4770      	bx	lr
 802f87e:	0000      	movs	r0, r0

0802f880 <tcp_new_port>:
 *
 * @return a new (free) local TCP port number
 */
static u16_t
tcp_new_port(void)
{
 802f880:	4b13      	ldr	r3, [pc, #76]	; (802f8d0 <tcp_new_port+0x50>)
 802f882:	b570      	push	{r4, r5, r6, lr}
 802f884:	8818      	ldrh	r0, [r3, #0]
  if (tcp_port++ == TCP_LOCAL_PORT_RANGE_END) {
    tcp_port = TCP_LOCAL_PORT_RANGE_START;
  }
  /* Check all PCB lists. */
  for (i = 0; i < NUM_TCP_PCB_LISTS; i++) {
    for(pcb = *tcp_pcb_lists[i]; pcb != NULL; pcb = pcb->next) {
 802f886:	4d13      	ldr	r5, [pc, #76]	; (802f8d4 <tcp_new_port+0x54>)
 *
 * @return a new (free) local TCP port number
 */
static u16_t
tcp_new_port(void)
{
 802f888:	f44f 4280 	mov.w	r2, #16384	; 0x4000
  u8_t i;
  u16_t n = 0;
  struct tcp_pcb *pcb;
  
again:
  if (tcp_port++ == TCP_LOCAL_PORT_RANGE_END) {
 802f88c:	f64f 74ff 	movw	r4, #65535	; 0xffff
 802f890:	42a0      	cmp	r0, r4
 802f892:	d002      	beq.n	802f89a <tcp_new_port+0x1a>
 802f894:	3001      	adds	r0, #1
 802f896:	b280      	uxth	r0, r0
 802f898:	e001      	b.n	802f89e <tcp_new_port+0x1e>
    tcp_port = TCP_LOCAL_PORT_RANGE_START;
 802f89a:	f44f 4040 	mov.w	r0, #49152	; 0xc000
 802f89e:	2300      	movs	r3, #0
  }
  /* Check all PCB lists. */
  for (i = 0; i < NUM_TCP_PCB_LISTS; i++) {
    for(pcb = *tcp_pcb_lists[i]; pcb != NULL; pcb = pcb->next) {
 802f8a0:	5959      	ldr	r1, [r3, r5]
 802f8a2:	6809      	ldr	r1, [r1, #0]
 802f8a4:	e00b      	b.n	802f8be <tcp_new_port+0x3e>
      if (pcb->local_port == tcp_port) {
 802f8a6:	8b4e      	ldrh	r6, [r1, #26]
 802f8a8:	4286      	cmp	r6, r0
 802f8aa:	d107      	bne.n	802f8bc <tcp_new_port+0x3c>
 802f8ac:	3a01      	subs	r2, #1
 802f8ae:	b292      	uxth	r2, r2
        if (++n > (TCP_LOCAL_PORT_RANGE_END - TCP_LOCAL_PORT_RANGE_START)) {
 802f8b0:	2a00      	cmp	r2, #0
 802f8b2:	d1ed      	bne.n	802f890 <tcp_new_port+0x10>
 802f8b4:	4b06      	ldr	r3, [pc, #24]	; (802f8d0 <tcp_new_port+0x50>)
 802f8b6:	8018      	strh	r0, [r3, #0]
          return 0;
 802f8b8:	4610      	mov	r0, r2
 802f8ba:	bd70      	pop	{r4, r5, r6, pc}
  if (tcp_port++ == TCP_LOCAL_PORT_RANGE_END) {
    tcp_port = TCP_LOCAL_PORT_RANGE_START;
  }
  /* Check all PCB lists. */
  for (i = 0; i < NUM_TCP_PCB_LISTS; i++) {
    for(pcb = *tcp_pcb_lists[i]; pcb != NULL; pcb = pcb->next) {
 802f8bc:	68c9      	ldr	r1, [r1, #12]
 802f8be:	2900      	cmp	r1, #0
 802f8c0:	d1f1      	bne.n	802f8a6 <tcp_new_port+0x26>
 802f8c2:	3304      	adds	r3, #4
again:
  if (tcp_port++ == TCP_LOCAL_PORT_RANGE_END) {
    tcp_port = TCP_LOCAL_PORT_RANGE_START;
  }
  /* Check all PCB lists. */
  for (i = 0; i < NUM_TCP_PCB_LISTS; i++) {
 802f8c4:	2b10      	cmp	r3, #16
 802f8c6:	d1eb      	bne.n	802f8a0 <tcp_new_port+0x20>
 802f8c8:	4b01      	ldr	r3, [pc, #4]	; (802f8d0 <tcp_new_port+0x50>)
 802f8ca:	8018      	strh	r0, [r3, #0]
        goto again;
      }
    }
  }
  return tcp_port;
}
 802f8cc:	bd70      	pop	{r4, r5, r6, pc}
 802f8ce:	bf00      	nop
 802f8d0:	2000071c 	.word	0x2000071c
 802f8d4:	08043fbc 	.word	0x08043fbc

0802f8d8 <tcp_init>:
/**
 * Initialize this module.
 */
void
tcp_init(void)
{
 802f8d8:	4770      	bx	lr
 802f8da:	0000      	movs	r0, r0

0802f8dc <tcp_bind>:
 *         ERR_VAL if bind failed because the PCB is not in a valid state
 *         ERR_OK if bound
 */
err_t
tcp_bind(struct tcp_pcb *pcb, ip_addr_t *ipaddr, u16_t port)
{
 802f8dc:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  int i;
  int max_pcb_list = NUM_TCP_PCB_LISTS;
  struct tcp_pcb *cpcb;

  LWIP_ERROR("tcp_bind: can only bind in state CLOSED", pcb->state == CLOSED, return ERR_VAL);
 802f8de:	7e03      	ldrb	r3, [r0, #24]
 *         ERR_VAL if bind failed because the PCB is not in a valid state
 *         ERR_OK if bound
 */
err_t
tcp_bind(struct tcp_pcb *pcb, ip_addr_t *ipaddr, u16_t port)
{
 802f8e0:	4604      	mov	r4, r0
 802f8e2:	460d      	mov	r5, r1
  int i;
  int max_pcb_list = NUM_TCP_PCB_LISTS;
  struct tcp_pcb *cpcb;

  LWIP_ERROR("tcp_bind: can only bind in state CLOSED", pcb->state == CLOSED, return ERR_VAL);
 802f8e4:	bb33      	cbnz	r3, 802f934 <tcp_bind+0x58>
  if (ip_get_option(pcb, SOF_REUSEADDR)) {
    max_pcb_list = NUM_TCP_PCB_LISTS_NO_TIME_WAIT;
  }
#endif /* SO_REUSE */

  if (port == 0) {
 802f8e6:	b91a      	cbnz	r2, 802f8f0 <tcp_bind+0x14>
    port = tcp_new_port();
 802f8e8:	f7ff ffca 	bl	802f880 <tcp_new_port>
    if (port == 0) {
 802f8ec:	4602      	mov	r2, r0
 802f8ee:	b318      	cbz	r0, 802f938 <tcp_bind+0x5c>
    }
  }

  /* Check if the address already is in use (on all lists) */
  for (i = 0; i < max_pcb_list; i++) {
    for(cpcb = *tcp_pcb_lists[i]; cpcb != NULL; cpcb = cpcb->next) {
 802f8f0:	4f14      	ldr	r7, [pc, #80]	; (802f944 <tcp_bind+0x68>)
 *         ERR_VAL if bind failed because the PCB is not in a valid state
 *         ERR_OK if bound
 */
err_t
tcp_bind(struct tcp_pcb *pcb, ip_addr_t *ipaddr, u16_t port)
{
 802f8f2:	2100      	movs	r1, #0
    }
  }

  /* Check if the address already is in use (on all lists) */
  for (i = 0; i < max_pcb_list; i++) {
    for(cpcb = *tcp_pcb_lists[i]; cpcb != NULL; cpcb = cpcb->next) {
 802f8f4:	59cb      	ldr	r3, [r1, r7]
 802f8f6:	681b      	ldr	r3, [r3, #0]
 802f8f8:	e00a      	b.n	802f910 <tcp_bind+0x34>
      if (cpcb->local_port == port) {
 802f8fa:	8b58      	ldrh	r0, [r3, #26]
 802f8fc:	4290      	cmp	r0, r2
 802f8fe:	d106      	bne.n	802f90e <tcp_bind+0x32>
           tcp_connect. */
        if (!ip_get_option(pcb, SOF_REUSEADDR) ||
            !ip_get_option(cpcb, SOF_REUSEADDR))
#endif /* SO_REUSE */
        {
          if (ip_addr_isany(&(cpcb->local_ip)) ||
 802f900:	681e      	ldr	r6, [r3, #0]
 802f902:	b1de      	cbz	r6, 802f93c <tcp_bind+0x60>
 802f904:	b1d5      	cbz	r5, 802f93c <tcp_bind+0x60>
              ip_addr_isany(ipaddr) ||
 802f906:	6828      	ldr	r0, [r5, #0]
 802f908:	b1c0      	cbz	r0, 802f93c <tcp_bind+0x60>
 802f90a:	4286      	cmp	r6, r0
 802f90c:	d016      	beq.n	802f93c <tcp_bind+0x60>
    }
  }

  /* Check if the address already is in use (on all lists) */
  for (i = 0; i < max_pcb_list; i++) {
    for(cpcb = *tcp_pcb_lists[i]; cpcb != NULL; cpcb = cpcb->next) {
 802f90e:	68db      	ldr	r3, [r3, #12]
 802f910:	2b00      	cmp	r3, #0
 802f912:	d1f2      	bne.n	802f8fa <tcp_bind+0x1e>
 802f914:	3104      	adds	r1, #4
      return ERR_BUF;
    }
  }

  /* Check if the address already is in use (on all lists) */
  for (i = 0; i < max_pcb_list; i++) {
 802f916:	2910      	cmp	r1, #16
 802f918:	d1ec      	bne.n	802f8f4 <tcp_bind+0x18>
        }
      }
    }
  }

  if (!ip_addr_isany(ipaddr)) {
 802f91a:	b115      	cbz	r5, 802f922 <tcp_bind+0x46>
 802f91c:	682b      	ldr	r3, [r5, #0]
 802f91e:	b103      	cbz	r3, 802f922 <tcp_bind+0x46>
    pcb->local_ip = *ipaddr;
 802f920:	6023      	str	r3, [r4, #0]
  }
  pcb->local_port = port;
  TCP_REG(&tcp_bound_pcbs, pcb);
 802f922:	4b09      	ldr	r3, [pc, #36]	; (802f948 <tcp_bind+0x6c>)
  }

  if (!ip_addr_isany(ipaddr)) {
    pcb->local_ip = *ipaddr;
  }
  pcb->local_port = port;
 802f924:	8362      	strh	r2, [r4, #26]
  TCP_REG(&tcp_bound_pcbs, pcb);
 802f926:	681a      	ldr	r2, [r3, #0]
 802f928:	601c      	str	r4, [r3, #0]
 802f92a:	60e2      	str	r2, [r4, #12]
 802f92c:	f002 f8de 	bl	8031aec <tcp_timer_needed>
  LWIP_DEBUGF(TCP_DEBUG, ("tcp_bind: bind to port %"U16_F"\n", port));
  return ERR_OK;
 802f930:	2000      	movs	r0, #0
 802f932:	e004      	b.n	802f93e <tcp_bind+0x62>
{
  int i;
  int max_pcb_list = NUM_TCP_PCB_LISTS;
  struct tcp_pcb *cpcb;

  LWIP_ERROR("tcp_bind: can only bind in state CLOSED", pcb->state == CLOSED, return ERR_VAL);
 802f934:	20fa      	movs	r0, #250	; 0xfa
 802f936:	e002      	b.n	802f93e <tcp_bind+0x62>
#endif /* SO_REUSE */

  if (port == 0) {
    port = tcp_new_port();
    if (port == 0) {
      return ERR_BUF;
 802f938:	20fe      	movs	r0, #254	; 0xfe
 802f93a:	e000      	b.n	802f93e <tcp_bind+0x62>
#endif /* SO_REUSE */
        {
          if (ip_addr_isany(&(cpcb->local_ip)) ||
              ip_addr_isany(ipaddr) ||
              ip_addr_cmp(&(cpcb->local_ip), ipaddr)) {
            return ERR_USE;
 802f93c:	20f8      	movs	r0, #248	; 0xf8
  }
  pcb->local_port = port;
  TCP_REG(&tcp_bound_pcbs, pcb);
  LWIP_DEBUGF(TCP_DEBUG, ("tcp_bind: bind to port %"U16_F"\n", port));
  return ERR_OK;
}
 802f93e:	b240      	sxtb	r0, r0
 802f940:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 802f942:	bf00      	nop
 802f944:	08043fbc 	.word	0x08043fbc
 802f948:	2000f6bc 	.word	0x2000f6bc

0802f94c <tcp_listen_with_backlog>:
 *       called like this:
 *             tpcb = tcp_listen(tpcb);
 */
struct tcp_pcb *
tcp_listen_with_backlog(struct tcp_pcb *pcb, u8_t backlog)
{
 802f94c:	b538      	push	{r3, r4, r5, lr}
  struct tcp_pcb_listen *lpcb;

  LWIP_UNUSED_ARG(backlog);
  LWIP_ERROR("tcp_listen: pcb already connected", pcb->state == CLOSED, return NULL);
 802f94e:	7e03      	ldrb	r3, [r0, #24]
 *       called like this:
 *             tpcb = tcp_listen(tpcb);
 */
struct tcp_pcb *
tcp_listen_with_backlog(struct tcp_pcb *pcb, u8_t backlog)
{
 802f950:	4604      	mov	r4, r0
  struct tcp_pcb_listen *lpcb;

  LWIP_UNUSED_ARG(backlog);
  LWIP_ERROR("tcp_listen: pcb already connected", pcb->state == CLOSED, return NULL);
 802f952:	b10b      	cbz	r3, 802f958 <tcp_listen_with_backlog+0xc>
 802f954:	2000      	movs	r0, #0
 802f956:	bd38      	pop	{r3, r4, r5, pc}
        }
      }
    }
  }
#endif /* SO_REUSE */
  lpcb = (struct tcp_pcb_listen *)memp_malloc(MEMP_TCP_PCB_LISTEN);
 802f958:	2003      	movs	r0, #3
 802f95a:	f7ff fcad 	bl	802f2b8 <memp_malloc>
  if (lpcb == NULL) {
 802f95e:	4605      	mov	r5, r0
 802f960:	2800      	cmp	r0, #0
 802f962:	d0f7      	beq.n	802f954 <tcp_listen_with_backlog+0x8>
    return NULL;
  }
  lpcb->callback_arg = pcb->callback_arg;
 802f964:	6923      	ldr	r3, [r4, #16]
 802f966:	6103      	str	r3, [r0, #16]
  lpcb->local_port = pcb->local_port;
 802f968:	8b63      	ldrh	r3, [r4, #26]
 802f96a:	8343      	strh	r3, [r0, #26]
  lpcb->state = LISTEN;
 802f96c:	2301      	movs	r3, #1
 802f96e:	7603      	strb	r3, [r0, #24]
  lpcb->prio = pcb->prio;
 802f970:	7e63      	ldrb	r3, [r4, #25]
 802f972:	7643      	strb	r3, [r0, #25]
  lpcb->so_options = pcb->so_options;
  ip_set_option(lpcb, SOF_ACCEPTCONN);
 802f974:	7a23      	ldrb	r3, [r4, #8]
 802f976:	f043 0302 	orr.w	r3, r3, #2
 802f97a:	7203      	strb	r3, [r0, #8]
  lpcb->ttl = pcb->ttl;
 802f97c:	7aa3      	ldrb	r3, [r4, #10]
 802f97e:	7283      	strb	r3, [r0, #10]
  lpcb->tos = pcb->tos;
 802f980:	7a63      	ldrb	r3, [r4, #9]
 802f982:	7243      	strb	r3, [r0, #9]
  ip_addr_copy(lpcb->local_ip, pcb->local_ip);
 802f984:	6823      	ldr	r3, [r4, #0]
 802f986:	6003      	str	r3, [r0, #0]
  if (pcb->local_port != 0) {
 802f988:	8b63      	ldrh	r3, [r4, #26]
 802f98a:	b1ab      	cbz	r3, 802f9b8 <tcp_listen_with_backlog+0x6c>
    TCP_RMV(&tcp_bound_pcbs, pcb);
 802f98c:	4a11      	ldr	r2, [pc, #68]	; (802f9d4 <tcp_listen_with_backlog+0x88>)
 802f98e:	6813      	ldr	r3, [r2, #0]
 802f990:	42a3      	cmp	r3, r4
 802f992:	d101      	bne.n	802f998 <tcp_listen_with_backlog+0x4c>
 802f994:	68e3      	ldr	r3, [r4, #12]
 802f996:	e00c      	b.n	802f9b2 <tcp_listen_with_backlog+0x66>
 802f998:	4a0f      	ldr	r2, [pc, #60]	; (802f9d8 <tcp_listen_with_backlog+0x8c>)
 802f99a:	6013      	str	r3, [r2, #0]
 802f99c:	e007      	b.n	802f9ae <tcp_listen_with_backlog+0x62>
 802f99e:	68d9      	ldr	r1, [r3, #12]
 802f9a0:	42a1      	cmp	r1, r4
 802f9a2:	d103      	bne.n	802f9ac <tcp_listen_with_backlog+0x60>
 802f9a4:	6013      	str	r3, [r2, #0]
 802f9a6:	68e2      	ldr	r2, [r4, #12]
 802f9a8:	60da      	str	r2, [r3, #12]
 802f9aa:	e003      	b.n	802f9b4 <tcp_listen_with_backlog+0x68>
 802f9ac:	460b      	mov	r3, r1
 802f9ae:	2b00      	cmp	r3, #0
 802f9b0:	d1f5      	bne.n	802f99e <tcp_listen_with_backlog+0x52>
 802f9b2:	6013      	str	r3, [r2, #0]
 802f9b4:	2300      	movs	r3, #0
 802f9b6:	60e3      	str	r3, [r4, #12]
  }
  memp_free(MEMP_TCP_PCB, pcb);
 802f9b8:	2002      	movs	r0, #2
 802f9ba:	4621      	mov	r1, r4
 802f9bc:	f7ff fc92 	bl	802f2e4 <memp_free>
#if LWIP_CALLBACK_API
  lpcb->accept = tcp_accept_null;
 802f9c0:	4b06      	ldr	r3, [pc, #24]	; (802f9dc <tcp_listen_with_backlog+0x90>)
 802f9c2:	616b      	str	r3, [r5, #20]
#endif /* LWIP_CALLBACK_API */
#if TCP_LISTEN_BACKLOG
  lpcb->accepts_pending = 0;
  lpcb->backlog = (backlog ? backlog : 1);
#endif /* TCP_LISTEN_BACKLOG */
  TCP_REG(&tcp_listen_pcbs.pcbs, (struct tcp_pcb *)lpcb);
 802f9c4:	4b06      	ldr	r3, [pc, #24]	; (802f9e0 <tcp_listen_with_backlog+0x94>)
 802f9c6:	681a      	ldr	r2, [r3, #0]
 802f9c8:	601d      	str	r5, [r3, #0]
 802f9ca:	60ea      	str	r2, [r5, #12]
 802f9cc:	f002 f88e 	bl	8031aec <tcp_timer_needed>
  return (struct tcp_pcb *)lpcb;
 802f9d0:	4628      	mov	r0, r5
}
 802f9d2:	bd38      	pop	{r3, r4, r5, pc}
 802f9d4:	2000f6bc 	.word	0x2000f6bc
 802f9d8:	2000f6b8 	.word	0x2000f6b8
 802f9dc:	0802f879 	.word	0x0802f879
 802f9e0:	2000f6b4 	.word	0x2000f6b4

0802f9e4 <tcp_update_rcv_ann_wnd>:
 *
 * Returns how much extra window would be advertised if we sent an
 * update now.
 */
u32_t tcp_update_rcv_ann_wnd(struct tcp_pcb *pcb)
{
 802f9e4:	b530      	push	{r4, r5, lr}
  u32_t new_right_edge = pcb->rcv_nxt + pcb->rcv_wnd;

  if (TCP_SEQ_GEQ(new_right_edge, pcb->rcv_ann_right_edge + LWIP_MIN((TCP_WND / 2), pcb->mss))) {
 802f9e6:	6b01      	ldr	r1, [r0, #48]	; 0x30
 * Returns how much extra window would be advertised if we sent an
 * update now.
 */
u32_t tcp_update_rcv_ann_wnd(struct tcp_pcb *pcb)
{
  u32_t new_right_edge = pcb->rcv_nxt + pcb->rcv_wnd;
 802f9e8:	8d84      	ldrh	r4, [r0, #44]	; 0x2c

  if (TCP_SEQ_GEQ(new_right_edge, pcb->rcv_ann_right_edge + LWIP_MIN((TCP_WND / 2), pcb->mss))) {
 802f9ea:	8ec5      	ldrh	r5, [r0, #54]	; 0x36
 * Returns how much extra window would be advertised if we sent an
 * update now.
 */
u32_t tcp_update_rcv_ann_wnd(struct tcp_pcb *pcb)
{
  u32_t new_right_edge = pcb->rcv_nxt + pcb->rcv_wnd;
 802f9ec:	6a82      	ldr	r2, [r0, #40]	; 0x28
 *
 * Returns how much extra window would be advertised if we sent an
 * update now.
 */
u32_t tcp_update_rcv_ann_wnd(struct tcp_pcb *pcb)
{
 802f9ee:	4603      	mov	r3, r0
  u32_t new_right_edge = pcb->rcv_nxt + pcb->rcv_wnd;

  if (TCP_SEQ_GEQ(new_right_edge, pcb->rcv_ann_right_edge + LWIP_MIN((TCP_WND / 2), pcb->mss))) {
 802f9f0:	f640 3068 	movw	r0, #2920	; 0xb68
 802f9f4:	4285      	cmp	r5, r0
 802f9f6:	bf28      	it	cs
 802f9f8:	4605      	movcs	r5, r0
 * Returns how much extra window would be advertised if we sent an
 * update now.
 */
u32_t tcp_update_rcv_ann_wnd(struct tcp_pcb *pcb)
{
  u32_t new_right_edge = pcb->rcv_nxt + pcb->rcv_wnd;
 802f9fa:	1a60      	subs	r0, r4, r1

  if (TCP_SEQ_GEQ(new_right_edge, pcb->rcv_ann_right_edge + LWIP_MIN((TCP_WND / 2), pcb->mss))) {
 802f9fc:	1880      	adds	r0, r0, r2
 802f9fe:	1b45      	subs	r5, r0, r5
 802fa00:	2d00      	cmp	r5, #0
 802fa02:	db01      	blt.n	802fa08 <tcp_update_rcv_ann_wnd+0x24>
    /* we can advertise more window */
    pcb->rcv_ann_wnd = pcb->rcv_wnd;
 802fa04:	85dc      	strh	r4, [r3, #46]	; 0x2e
    return new_right_edge - pcb->rcv_ann_right_edge;
 802fa06:	bd30      	pop	{r4, r5, pc}
  } else {
    if (TCP_SEQ_GT(pcb->rcv_nxt, pcb->rcv_ann_right_edge)) {
 802fa08:	1a50      	subs	r0, r2, r1
 802fa0a:	2800      	cmp	r0, #0
 802fa0c:	f04f 0000 	mov.w	r0, #0
 802fa10:	dd01      	ble.n	802fa16 <tcp_update_rcv_ann_wnd+0x32>
      /* Can happen due to other end sending out of advertised window,
       * but within actual available (but not yet advertised) window */
      pcb->rcv_ann_wnd = 0;
 802fa12:	85d8      	strh	r0, [r3, #46]	; 0x2e
 802fa14:	bd30      	pop	{r4, r5, pc}
    } else {
      /* keep the right edge of window constant */
      u32_t new_rcv_ann_wnd = pcb->rcv_ann_right_edge - pcb->rcv_nxt;
 802fa16:	1a8a      	subs	r2, r1, r2
      LWIP_ASSERT("new_rcv_ann_wnd <= 0xffff", new_rcv_ann_wnd <= 0xffff);
      pcb->rcv_ann_wnd = (u16_t)new_rcv_ann_wnd;
 802fa18:	85da      	strh	r2, [r3, #46]	; 0x2e
    }
    return 0;
  }
}
 802fa1a:	bd30      	pop	{r4, r5, pc}

0802fa1c <tcp_recved>:
  LWIP_ASSERT("don't call tcp_recved for listen-pcbs",
    pcb->state != LISTEN);
  LWIP_ASSERT("tcp_recved: len would wrap rcv_wnd\n",
              len <= 0xffff - pcb->rcv_wnd );

  pcb->rcv_wnd += len;
 802fa1c:	8d83      	ldrh	r3, [r0, #44]	; 0x2c
 802fa1e:	18c9      	adds	r1, r1, r3
 802fa20:	b289      	uxth	r1, r1
  if (pcb->rcv_wnd > TCP_WND) {
 802fa22:	f241 63d0 	movw	r3, #5840	; 0x16d0
 802fa26:	4299      	cmp	r1, r3
 * @param pcb the tcp_pcb for which data is read
 * @param len the amount of bytes that have been read by the application
 */
void
tcp_recved(struct tcp_pcb *pcb, u16_t len)
{
 802fa28:	b510      	push	{r4, lr}
  LWIP_ASSERT("tcp_recved: len would wrap rcv_wnd\n",
              len <= 0xffff - pcb->rcv_wnd );

  pcb->rcv_wnd += len;
  if (pcb->rcv_wnd > TCP_WND) {
    pcb->rcv_wnd = TCP_WND;
 802fa2a:	bf8c      	ite	hi
 802fa2c:	8583      	strhhi	r3, [r0, #44]	; 0x2c
  LWIP_ASSERT("don't call tcp_recved for listen-pcbs",
    pcb->state != LISTEN);
  LWIP_ASSERT("tcp_recved: len would wrap rcv_wnd\n",
              len <= 0xffff - pcb->rcv_wnd );

  pcb->rcv_wnd += len;
 802fa2e:	8581      	strhls	r1, [r0, #44]	; 0x2c
 * @param pcb the tcp_pcb for which data is read
 * @param len the amount of bytes that have been read by the application
 */
void
tcp_recved(struct tcp_pcb *pcb, u16_t len)
{
 802fa30:	4604      	mov	r4, r0
  pcb->rcv_wnd += len;
  if (pcb->rcv_wnd > TCP_WND) {
    pcb->rcv_wnd = TCP_WND;
  }

  wnd_inflation = tcp_update_rcv_ann_wnd(pcb);
 802fa32:	f7ff ffd7 	bl	802f9e4 <tcp_update_rcv_ann_wnd>

  /* If the change in the right edge of window is significant (default
   * watermark is TCP_WND/4), then send an explicit update now.
   * Otherwise wait for a packet to be sent in the normal course of
   * events (or more window to be available later) */
  if (wnd_inflation >= TCP_WND_UPDATE_THRESHOLD) {
 802fa36:	f240 53b3 	movw	r3, #1459	; 0x5b3
 802fa3a:	4298      	cmp	r0, r3
 802fa3c:	dd08      	ble.n	802fa50 <tcp_recved+0x34>
    tcp_ack_now(pcb);
 802fa3e:	7fa3      	ldrb	r3, [r4, #30]
    tcp_output(pcb);
 802fa40:	4620      	mov	r0, r4
  /* If the change in the right edge of window is significant (default
   * watermark is TCP_WND/4), then send an explicit update now.
   * Otherwise wait for a packet to be sent in the normal course of
   * events (or more window to be available later) */
  if (wnd_inflation >= TCP_WND_UPDATE_THRESHOLD) {
    tcp_ack_now(pcb);
 802fa42:	f043 0302 	orr.w	r3, r3, #2
 802fa46:	77a3      	strb	r3, [r4, #30]
    tcp_output(pcb);
  }

  LWIP_DEBUGF(TCP_DEBUG, ("tcp_recved: recveived %"U16_F" bytes, wnd %"U16_F" (%"U16_F").\n",
         len, pcb->rcv_wnd, TCP_WND - pcb->rcv_wnd));
}
 802fa48:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
   * watermark is TCP_WND/4), then send an explicit update now.
   * Otherwise wait for a packet to be sent in the normal course of
   * events (or more window to be available later) */
  if (wnd_inflation >= TCP_WND_UPDATE_THRESHOLD) {
    tcp_ack_now(pcb);
    tcp_output(pcb);
 802fa4c:	f001 bd90 	b.w	8031570 <tcp_output>
 802fa50:	bd10      	pop	{r4, pc}

0802fa52 <tcp_seg_free>:
 *
 * @param seg single tcp_seg to free
 */
void
tcp_seg_free(struct tcp_seg *seg)
{
 802fa52:	b510      	push	{r4, lr}
  if (seg != NULL) {
 802fa54:	4604      	mov	r4, r0
 802fa56:	b148      	cbz	r0, 802fa6c <tcp_seg_free+0x1a>
    if (seg->p != NULL) {
 802fa58:	6840      	ldr	r0, [r0, #4]
 802fa5a:	b108      	cbz	r0, 802fa60 <tcp_seg_free+0xe>
      pbuf_free(seg->p);
 802fa5c:	f7ff fd4c 	bl	802f4f8 <pbuf_free>
#if TCP_DEBUG
      seg->p = NULL;
#endif /* TCP_DEBUG */
    }
    memp_free(MEMP_TCP_SEG, seg);
 802fa60:	2004      	movs	r0, #4
 802fa62:	4621      	mov	r1, r4
  }
}
 802fa64:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
      pbuf_free(seg->p);
#if TCP_DEBUG
      seg->p = NULL;
#endif /* TCP_DEBUG */
    }
    memp_free(MEMP_TCP_SEG, seg);
 802fa68:	f7ff bc3c 	b.w	802f2e4 <memp_free>
 802fa6c:	bd10      	pop	{r4, pc}

0802fa6e <tcp_segs_free>:
 *
 * @param seg tcp_seg list of TCP segments to free
 */
void
tcp_segs_free(struct tcp_seg *seg)
{
 802fa6e:	b510      	push	{r4, lr}
  while (seg != NULL) {
 802fa70:	e003      	b.n	802fa7a <tcp_segs_free+0xc>
    struct tcp_seg *next = seg->next;
 802fa72:	6804      	ldr	r4, [r0, #0]
    tcp_seg_free(seg);
 802fa74:	f7ff ffed 	bl	802fa52 <tcp_seg_free>
    seg = next;
 802fa78:	4620      	mov	r0, r4
 * @param seg tcp_seg list of TCP segments to free
 */
void
tcp_segs_free(struct tcp_seg *seg)
{
  while (seg != NULL) {
 802fa7a:	2800      	cmp	r0, #0
 802fa7c:	d1f9      	bne.n	802fa72 <tcp_segs_free+0x4>
    struct tcp_seg *next = seg->next;
    tcp_seg_free(seg);
    seg = next;
  }
}
 802fa7e:	bd10      	pop	{r4, pc}

0802fa80 <tcp_arg>:
void
tcp_arg(struct tcp_pcb *pcb, void *arg)
{
  /* This function is allowed to be called for both listen pcbs and
     connection pcbs. */
  pcb->callback_arg = arg;
 802fa80:	6101      	str	r1, [r0, #16]
 802fa82:	4770      	bx	lr

0802fa84 <tcp_recv>:
 */ 
void
tcp_recv(struct tcp_pcb *pcb, tcp_recv_fn recv)
{
  LWIP_ASSERT("invalid socket state for recv callback", pcb->state != LISTEN);
  pcb->recv = recv;
 802fa84:	67c1      	str	r1, [r0, #124]	; 0x7c
 802fa86:	4770      	bx	lr

0802fa88 <tcp_sent>:
 */ 
void
tcp_sent(struct tcp_pcb *pcb, tcp_sent_fn sent)
{
  LWIP_ASSERT("invalid socket state for sent callback", pcb->state != LISTEN);
  pcb->sent = sent;
 802fa88:	6781      	str	r1, [r0, #120]	; 0x78
 802fa8a:	4770      	bx	lr

0802fa8c <tcp_err>:
 */ 
void
tcp_err(struct tcp_pcb *pcb, tcp_err_fn err)
{
  LWIP_ASSERT("invalid socket state for err callback", pcb->state != LISTEN);
  pcb->errf = err;
 802fa8c:	f8c0 1088 	str.w	r1, [r0, #136]	; 0x88
 802fa90:	4770      	bx	lr

0802fa92 <tcp_accept>:
void
tcp_accept(struct tcp_pcb *pcb, tcp_accept_fn accept)
{
  /* This function is allowed to be called for both listen pcbs and
     connection pcbs. */
  pcb->accept = accept;
 802fa92:	6141      	str	r1, [r0, #20]
 802fa94:	4770      	bx	lr

0802fa96 <tcp_poll>:
void
tcp_poll(struct tcp_pcb *pcb, tcp_poll_fn poll, u8_t interval)
{
  LWIP_ASSERT("invalid socket state for poll", pcb->state != LISTEN);
#if LWIP_CALLBACK_API
  pcb->poll = poll;
 802fa96:	f8c0 1084 	str.w	r1, [r0, #132]	; 0x84
#else /* LWIP_CALLBACK_API */  
  LWIP_UNUSED_ARG(poll);
#endif /* LWIP_CALLBACK_API */  
  pcb->pollinterval = interval;
 802fa9a:	f880 2020 	strb.w	r2, [r0, #32]
 802fa9e:	4770      	bx	lr

0802faa0 <tcp_pcb_purge>:
 * @param pcb tcp_pcb to purge. The pcb itself is not deallocated!
 */
void
tcp_pcb_purge(struct tcp_pcb *pcb)
{
  if (pcb->state != CLOSED &&
 802faa0:	7e03      	ldrb	r3, [r0, #24]
 *
 * @param pcb tcp_pcb to purge. The pcb itself is not deallocated!
 */
void
tcp_pcb_purge(struct tcp_pcb *pcb)
{
 802faa2:	b510      	push	{r4, lr}
 802faa4:	4604      	mov	r4, r0
  if (pcb->state != CLOSED &&
 802faa6:	b1bb      	cbz	r3, 802fad8 <tcp_pcb_purge+0x38>
 802faa8:	2b0a      	cmp	r3, #10
 802faaa:	d015      	beq.n	802fad8 <tcp_pcb_purge+0x38>
     pcb->state != TIME_WAIT &&
 802faac:	2b01      	cmp	r3, #1
 802faae:	d013      	beq.n	802fad8 <tcp_pcb_purge+0x38>
      }
    }
#endif /* TCP_LISTEN_BACKLOG */


    if (pcb->refused_data != NULL) {
 802fab0:	6f40      	ldr	r0, [r0, #116]	; 0x74
 802fab2:	b118      	cbz	r0, 802fabc <tcp_pcb_purge+0x1c>
      LWIP_DEBUGF(TCP_DEBUG, ("tcp_pcb_purge: data left on ->refused_data\n"));
      pbuf_free(pcb->refused_data);
 802fab4:	f7ff fd20 	bl	802f4f8 <pbuf_free>
      pcb->refused_data = NULL;
 802fab8:	2300      	movs	r3, #0
 802faba:	6763      	str	r3, [r4, #116]	; 0x74
    pcb->ooseq = NULL;
#endif /* TCP_QUEUE_OOSEQ */

    /* Stop the retransmission timer as it will expect data on unacked
       queue if it fires */
    pcb->rtime = -1;
 802fabc:	f64f 73ff 	movw	r3, #65535	; 0xffff
 802fac0:	86a3      	strh	r3, [r4, #52]	; 0x34

    tcp_segs_free(pcb->unsent);
 802fac2:	6ee0      	ldr	r0, [r4, #108]	; 0x6c
 802fac4:	f7ff ffd3 	bl	802fa6e <tcp_segs_free>
    tcp_segs_free(pcb->unacked);
 802fac8:	6f20      	ldr	r0, [r4, #112]	; 0x70
 802faca:	f7ff ffd0 	bl	802fa6e <tcp_segs_free>
    pcb->unacked = pcb->unsent = NULL;
 802face:	2300      	movs	r3, #0
 802fad0:	66e3      	str	r3, [r4, #108]	; 0x6c
 802fad2:	6723      	str	r3, [r4, #112]	; 0x70
#if TCP_OVERSIZE
    pcb->unsent_oversize = 0;
 802fad4:	f8a4 306a 	strh.w	r3, [r4, #106]	; 0x6a
 802fad8:	bd10      	pop	{r4, pc}
 802fada:	0000      	movs	r0, r0

0802fadc <tcp_slowtmr>:
  u8_t pcb_reset;       /* flag if a RST should be sent when removing */
  err_t err;

  err = ERR_OK;

  ++tcp_ticks;
 802fadc:	4b9c      	ldr	r3, [pc, #624]	; (802fd50 <tcp_slowtmr+0x274>)
 *
 * Automatically called from tcp_tmr().
 */
void
tcp_slowtmr(void)
{
 802fade:	e92d 4ff7 	stmdb	sp!, {r0, r1, r2, r4, r5, r6, r7, r8, r9, sl, fp, lr}
  u8_t pcb_reset;       /* flag if a RST should be sent when removing */
  err_t err;

  err = ERR_OK;

  ++tcp_ticks;
 802fae2:	681a      	ldr	r2, [r3, #0]
      err_arg = pcb->callback_arg;
      pcb2 = pcb;
      pcb = pcb->next;
      memp_free(MEMP_TCP_PCB, pcb2);

      tcp_active_pcbs_changed = 0;
 802fae4:	f8df 8284 	ldr.w	r8, [pc, #644]	; 802fd6c <tcp_slowtmr+0x290>
  u8_t pcb_reset;       /* flag if a RST should be sent when removing */
  err_t err;

  err = ERR_OK;

  ++tcp_ticks;
 802fae8:	3201      	adds	r2, #1
 802faea:	601a      	str	r2, [r3, #0]
  ++tcp_timer_ctr;
 802faec:	4b99      	ldr	r3, [pc, #612]	; (802fd54 <tcp_slowtmr+0x278>)
 802faee:	781a      	ldrb	r2, [r3, #0]
 802faf0:	3201      	adds	r2, #1
 802faf2:	701a      	strb	r2, [r3, #0]
 802faf4:	46c1      	mov	r9, r8

tcp_slowtmr_start:
  /* Steps through all of the active PCBs. */
  prev = NULL;
  pcb = tcp_active_pcbs;
 802faf6:	4b98      	ldr	r3, [pc, #608]	; (802fd58 <tcp_slowtmr+0x27c>)
  while (pcb != NULL) {
    LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: processing active pcb\n"));
    LWIP_ASSERT("tcp_slowtmr: active pcb->state != CLOSED\n", pcb->state != CLOSED);
    LWIP_ASSERT("tcp_slowtmr: active pcb->state != LISTEN\n", pcb->state != LISTEN);
    LWIP_ASSERT("tcp_slowtmr: active pcb->state != TIME-WAIT\n", pcb->state != TIME_WAIT);
    if (pcb->last_timer == tcp_timer_ctr) {
 802faf8:	f8df a258 	ldr.w	sl, [pc, #600]	; 802fd54 <tcp_slowtmr+0x278>
  ++tcp_timer_ctr;

tcp_slowtmr_start:
  /* Steps through all of the active PCBs. */
  prev = NULL;
  pcb = tcp_active_pcbs;
 802fafc:	681c      	ldr	r4, [r3, #0]
  ++tcp_ticks;
  ++tcp_timer_ctr;

tcp_slowtmr_start:
  /* Steps through all of the active PCBs. */
  prev = NULL;
 802fafe:	2600      	movs	r6, #0
  pcb = tcp_active_pcbs;
  if (pcb == NULL) {
    LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: no active pcbs\n"));
  }
  while (pcb != NULL) {
 802fb00:	e0ff      	b.n	802fd02 <tcp_slowtmr+0x226>
    LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: processing active pcb\n"));
    LWIP_ASSERT("tcp_slowtmr: active pcb->state != CLOSED\n", pcb->state != CLOSED);
    LWIP_ASSERT("tcp_slowtmr: active pcb->state != LISTEN\n", pcb->state != LISTEN);
    LWIP_ASSERT("tcp_slowtmr: active pcb->state != TIME-WAIT\n", pcb->state != TIME_WAIT);
    if (pcb->last_timer == tcp_timer_ctr) {
 802fb02:	f89a 3000 	ldrb.w	r3, [sl]
 802fb06:	f894 2021 	ldrb.w	r2, [r4, #33]	; 0x21
 802fb0a:	429a      	cmp	r2, r3
 802fb0c:	d101      	bne.n	802fb12 <tcp_slowtmr+0x36>
      /* skip this pcb, we have already processed it */
      pcb = pcb->next;
 802fb0e:	68e7      	ldr	r7, [r4, #12]
      continue;
 802fb10:	e0f6      	b.n	802fd00 <tcp_slowtmr+0x224>
    pcb->last_timer = tcp_timer_ctr;

    pcb_remove = 0;
    pcb_reset = 0;

    if (pcb->state == SYN_SENT && pcb->nrtx == TCP_SYNMAXRTX) {
 802fb12:	7e21      	ldrb	r1, [r4, #24]
    if (pcb->last_timer == tcp_timer_ctr) {
      /* skip this pcb, we have already processed it */
      pcb = pcb->next;
      continue;
    }
    pcb->last_timer = tcp_timer_ctr;
 802fb14:	f884 3021 	strb.w	r3, [r4, #33]	; 0x21

    pcb_remove = 0;
    pcb_reset = 0;

    if (pcb->state == SYN_SENT && pcb->nrtx == TCP_SYNMAXRTX) {
 802fb18:	2902      	cmp	r1, #2
 802fb1a:	f894 2046 	ldrb.w	r2, [r4, #70]	; 0x46
 802fb1e:	d101      	bne.n	802fb24 <tcp_slowtmr+0x48>
 802fb20:	2a06      	cmp	r2, #6
 802fb22:	d051      	beq.n	802fbc8 <tcp_slowtmr+0xec>
      ++pcb_remove;
      LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: max SYN retries reached\n"));
    }
    else if (pcb->nrtx == TCP_MAXRTX) {
 802fb24:	2a0c      	cmp	r2, #12
 802fb26:	d04f      	beq.n	802fbc8 <tcp_slowtmr+0xec>
      ++pcb_remove;
      LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: max DATA retries reached\n"));
    } else {
      if (pcb->persist_backoff > 0) {
 802fb28:	f894 3091 	ldrb.w	r3, [r4, #145]	; 0x91
 802fb2c:	b1c3      	cbz	r3, 802fb60 <tcp_slowtmr+0x84>
        /* If snd_wnd is zero, use persist timer to send 1 byte probes
         * instead of using the standard retransmission mechanism. */
        pcb->persist_cnt++;
        if (pcb->persist_cnt >= tcp_persist_backoff[pcb->persist_backoff-1]) {
 802fb2e:	498b      	ldr	r1, [pc, #556]	; (802fd5c <tcp_slowtmr+0x280>)
      LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: max DATA retries reached\n"));
    } else {
      if (pcb->persist_backoff > 0) {
        /* If snd_wnd is zero, use persist timer to send 1 byte probes
         * instead of using the standard retransmission mechanism. */
        pcb->persist_cnt++;
 802fb30:	f894 2090 	ldrb.w	r2, [r4, #144]	; 0x90
        if (pcb->persist_cnt >= tcp_persist_backoff[pcb->persist_backoff-1]) {
 802fb34:	18c9      	adds	r1, r1, r3
      LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: max DATA retries reached\n"));
    } else {
      if (pcb->persist_backoff > 0) {
        /* If snd_wnd is zero, use persist timer to send 1 byte probes
         * instead of using the standard retransmission mechanism. */
        pcb->persist_cnt++;
 802fb36:	3201      	adds	r2, #1
        if (pcb->persist_cnt >= tcp_persist_backoff[pcb->persist_backoff-1]) {
 802fb38:	f811 1c01 	ldrb.w	r1, [r1, #-1]
      LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: max DATA retries reached\n"));
    } else {
      if (pcb->persist_backoff > 0) {
        /* If snd_wnd is zero, use persist timer to send 1 byte probes
         * instead of using the standard retransmission mechanism. */
        pcb->persist_cnt++;
 802fb3c:	b2d2      	uxtb	r2, r2
        if (pcb->persist_cnt >= tcp_persist_backoff[pcb->persist_backoff-1]) {
 802fb3e:	4291      	cmp	r1, r2
      LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: max DATA retries reached\n"));
    } else {
      if (pcb->persist_backoff > 0) {
        /* If snd_wnd is zero, use persist timer to send 1 byte probes
         * instead of using the standard retransmission mechanism. */
        pcb->persist_cnt++;
 802fb40:	f884 2090 	strb.w	r2, [r4, #144]	; 0x90
        if (pcb->persist_cnt >= tcp_persist_backoff[pcb->persist_backoff-1]) {
 802fb44:	d900      	bls.n	802fb48 <tcp_slowtmr+0x6c>
 802fb46:	e03d      	b.n	802fbc4 <tcp_slowtmr+0xe8>
          pcb->persist_cnt = 0;
 802fb48:	2200      	movs	r2, #0
          if (pcb->persist_backoff < sizeof(tcp_persist_backoff)) {
 802fb4a:	2b06      	cmp	r3, #6
      if (pcb->persist_backoff > 0) {
        /* If snd_wnd is zero, use persist timer to send 1 byte probes
         * instead of using the standard retransmission mechanism. */
        pcb->persist_cnt++;
        if (pcb->persist_cnt >= tcp_persist_backoff[pcb->persist_backoff-1]) {
          pcb->persist_cnt = 0;
 802fb4c:	f884 2090 	strb.w	r2, [r4, #144]	; 0x90
          if (pcb->persist_backoff < sizeof(tcp_persist_backoff)) {
 802fb50:	d802      	bhi.n	802fb58 <tcp_slowtmr+0x7c>
            pcb->persist_backoff++;
 802fb52:	3301      	adds	r3, #1
 802fb54:	f884 3091 	strb.w	r3, [r4, #145]	; 0x91
          }
          tcp_zero_window_probe(pcb);
 802fb58:	4620      	mov	r0, r4
 802fb5a:	f001 ff04 	bl	8031966 <tcp_zero_window_probe>
 802fb5e:	e031      	b.n	802fbc4 <tcp_slowtmr+0xe8>
        }
      } else {
        /* Increase the retransmission timer if it is running */
        if(pcb->rtime >= 0) {
 802fb60:	8ea3      	ldrh	r3, [r4, #52]	; 0x34
 802fb62:	0418      	lsls	r0, r3, #16
 802fb64:	d401      	bmi.n	802fb6a <tcp_slowtmr+0x8e>
          ++pcb->rtime;
 802fb66:	3301      	adds	r3, #1
 802fb68:	86a3      	strh	r3, [r4, #52]	; 0x34
        }

        if (pcb->unacked != NULL && pcb->rtime >= pcb->rto) {
 802fb6a:	6f23      	ldr	r3, [r4, #112]	; 0x70
 802fb6c:	b353      	cbz	r3, 802fbc4 <tcp_slowtmr+0xe8>
 802fb6e:	f9b4 0034 	ldrsh.w	r0, [r4, #52]	; 0x34
 802fb72:	f9b4 3044 	ldrsh.w	r3, [r4, #68]	; 0x44
 802fb76:	4298      	cmp	r0, r3
 802fb78:	db24      	blt.n	802fbc4 <tcp_slowtmr+0xe8>
                                      " pcb->rto %"S16_F"\n",
                                      pcb->rtime, pcb->rto));

          /* Double retransmission time-out unless we are trying to
           * connect to somebody (i.e., we are in SYN_SENT). */
          if (pcb->state != SYN_SENT) {
 802fb7a:	2902      	cmp	r1, #2
 802fb7c:	d00b      	beq.n	802fb96 <tcp_slowtmr+0xba>
            pcb->rto = ((pcb->sa >> 3) + pcb->sv) << tcp_backoff[pcb->nrtx];
 802fb7e:	f9b4 1040 	ldrsh.w	r1, [r4, #64]	; 0x40
 802fb82:	f9b4 3042 	ldrsh.w	r3, [r4, #66]	; 0x42
 802fb86:	eb03 03e1 	add.w	r3, r3, r1, asr #3
 802fb8a:	4975      	ldr	r1, [pc, #468]	; (802fd60 <tcp_slowtmr+0x284>)
 802fb8c:	5c8a      	ldrb	r2, [r1, r2]
 802fb8e:	fa03 f302 	lsl.w	r3, r3, r2
 802fb92:	f8a4 3044 	strh.w	r3, [r4, #68]	; 0x44
          }

          /* Reset the retransmission timer. */
          pcb->rtime = 0;
 802fb96:	2300      	movs	r3, #0

          /* Reduce congestion window and ssthresh. */
          eff_wnd = LWIP_MIN(pcb->cwnd, pcb->snd_wnd);
 802fb98:	f8b4 104c 	ldrh.w	r1, [r4, #76]	; 0x4c
          if (pcb->state != SYN_SENT) {
            pcb->rto = ((pcb->sa >> 3) + pcb->sv) << tcp_backoff[pcb->nrtx];
          }

          /* Reset the retransmission timer. */
          pcb->rtime = 0;
 802fb9c:	86a3      	strh	r3, [r4, #52]	; 0x34

          /* Reduce congestion window and ssthresh. */
          eff_wnd = LWIP_MIN(pcb->cwnd, pcb->snd_wnd);
 802fb9e:	f8b4 3060 	ldrh.w	r3, [r4, #96]	; 0x60
          pcb->ssthresh = eff_wnd >> 1;
 802fba2:	4299      	cmp	r1, r3
 802fba4:	bf28      	it	cs
 802fba6:	4619      	movcs	r1, r3
          if (pcb->ssthresh < (pcb->mss << 1)) {
 802fba8:	8ee3      	ldrh	r3, [r4, #54]	; 0x36
          /* Reset the retransmission timer. */
          pcb->rtime = 0;

          /* Reduce congestion window and ssthresh. */
          eff_wnd = LWIP_MIN(pcb->cwnd, pcb->snd_wnd);
          pcb->ssthresh = eff_wnd >> 1;
 802fbaa:	0849      	lsrs	r1, r1, #1
          if (pcb->ssthresh < (pcb->mss << 1)) {
 802fbac:	005a      	lsls	r2, r3, #1
 802fbae:	4291      	cmp	r1, r2
          /* Reset the retransmission timer. */
          pcb->rtime = 0;

          /* Reduce congestion window and ssthresh. */
          eff_wnd = LWIP_MIN(pcb->cwnd, pcb->snd_wnd);
          pcb->ssthresh = eff_wnd >> 1;
 802fbb0:	f8a4 104e 	strh.w	r1, [r4, #78]	; 0x4e
          if (pcb->ssthresh < (pcb->mss << 1)) {
            pcb->ssthresh = (pcb->mss << 1);
          }
          pcb->cwnd = pcb->mss;
 802fbb4:	f8a4 304c 	strh.w	r3, [r4, #76]	; 0x4c

          /* Reduce congestion window and ssthresh. */
          eff_wnd = LWIP_MIN(pcb->cwnd, pcb->snd_wnd);
          pcb->ssthresh = eff_wnd >> 1;
          if (pcb->ssthresh < (pcb->mss << 1)) {
            pcb->ssthresh = (pcb->mss << 1);
 802fbb8:	bfb8      	it	lt
 802fbba:	f8a4 204e 	strhlt.w	r2, [r4, #78]	; 0x4e
                                       " ssthresh %"U16_F"\n",
                                       pcb->cwnd, pcb->ssthresh));
 
          /* The following needs to be called AFTER cwnd is set to one
             mss - STJ */
          tcp_rexmit_rto(pcb);
 802fbbe:	4620      	mov	r0, r4
 802fbc0:	f001 fe40 	bl	8031844 <tcp_rexmit_rto>
      pcb = pcb->next;
      continue;
    }
    pcb->last_timer = tcp_timer_ctr;

    pcb_remove = 0;
 802fbc4:	2500      	movs	r5, #0
 802fbc6:	e000      	b.n	802fbca <tcp_slowtmr+0xee>
    pcb_reset = 0;

    if (pcb->state == SYN_SENT && pcb->nrtx == TCP_SYNMAXRTX) {
      ++pcb_remove;
 802fbc8:	2501      	movs	r5, #1
          tcp_rexmit_rto(pcb);
        }
      }
    }
    /* Check if this PCB has stayed too long in FIN-WAIT-2 */
    if (pcb->state == FIN_WAIT_2) {
 802fbca:	7e23      	ldrb	r3, [r4, #24]
 802fbcc:	2b06      	cmp	r3, #6
 802fbce:	d10c      	bne.n	802fbea <tcp_slowtmr+0x10e>
      /* If this PCB is in FIN_WAIT_2 because of SHUT_WR don't let it time out. */
      if (pcb->flags & TF_RXCLOSED) {
 802fbd0:	7fa2      	ldrb	r2, [r4, #30]
 802fbd2:	f002 0210 	and.w	r2, r2, #16
 802fbd6:	b2d2      	uxtb	r2, r2
 802fbd8:	b13a      	cbz	r2, 802fbea <tcp_slowtmr+0x10e>
        /* PCB was fully closed (either through close() or SHUT_RDWR):
           normal FIN-WAIT timeout handling. */
        if ((u32_t)(tcp_ticks - pcb->tmr) >
 802fbda:	4a5d      	ldr	r2, [pc, #372]	; (802fd50 <tcp_slowtmr+0x274>)
 802fbdc:	6811      	ldr	r1, [r2, #0]
 802fbde:	6a62      	ldr	r2, [r4, #36]	; 0x24
 802fbe0:	1a8a      	subs	r2, r1, r2
 802fbe2:	2a28      	cmp	r2, #40	; 0x28
 802fbe4:	d901      	bls.n	802fbea <tcp_slowtmr+0x10e>
            TCP_FIN_WAIT_TIMEOUT / TCP_SLOW_INTERVAL) {
          ++pcb_remove;
 802fbe6:	3501      	adds	r5, #1
 802fbe8:	b2ed      	uxtb	r5, r5
        }
      }
    }

    /* Check if KEEPALIVE should be sent */
    if(ip_get_option(pcb, SOF_KEEPALIVE) &&
 802fbea:	7a27      	ldrb	r7, [r4, #8]
 802fbec:	f007 0708 	and.w	r7, r7, #8
 802fbf0:	b2ff      	uxtb	r7, r7
 802fbf2:	b34f      	cbz	r7, 802fc48 <tcp_slowtmr+0x16c>
 802fbf4:	2b04      	cmp	r3, #4
 802fbf6:	d001      	beq.n	802fbfc <tcp_slowtmr+0x120>
       ((pcb->state == ESTABLISHED) ||
 802fbf8:	2b07      	cmp	r3, #7
 802fbfa:	d124      	bne.n	802fc46 <tcp_slowtmr+0x16a>
        (pcb->state == CLOSE_WAIT))) {
      if((u32_t)(tcp_ticks - pcb->tmr) >
 802fbfc:	4b54      	ldr	r3, [pc, #336]	; (802fd50 <tcp_slowtmr+0x274>)
         (pcb->keep_idle + TCP_KEEP_DUR(pcb)) / TCP_SLOW_INTERVAL)
 802fbfe:	f8d4 008c 	ldr.w	r0, [r4, #140]	; 0x8c

    /* Check if KEEPALIVE should be sent */
    if(ip_get_option(pcb, SOF_KEEPALIVE) &&
       ((pcb->state == ESTABLISHED) ||
        (pcb->state == CLOSE_WAIT))) {
      if((u32_t)(tcp_ticks - pcb->tmr) >
 802fc02:	681a      	ldr	r2, [r3, #0]
 802fc04:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802fc06:	1ad2      	subs	r2, r2, r3
         (pcb->keep_idle + TCP_KEEP_DUR(pcb)) / TCP_SLOW_INTERVAL)
 802fc08:	f500 2324 	add.w	r3, r0, #671744	; 0xa4000
 802fc0c:	f603 43b8 	addw	r3, r3, #3256	; 0xcb8
 802fc10:	f44f 71fa 	mov.w	r1, #500	; 0x1f4
 802fc14:	fbb3 f3f1 	udiv	r3, r3, r1

    /* Check if KEEPALIVE should be sent */
    if(ip_get_option(pcb, SOF_KEEPALIVE) &&
       ((pcb->state == ESTABLISHED) ||
        (pcb->state == CLOSE_WAIT))) {
      if((u32_t)(tcp_ticks - pcb->tmr) >
 802fc18:	429a      	cmp	r2, r3
 802fc1a:	d903      	bls.n	802fc24 <tcp_slowtmr+0x148>
      {
        LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: KEEPALIVE timeout. Aborting connection to %"U16_F".%"U16_F".%"U16_F".%"U16_F".\n",
                                ip4_addr1_16(&pcb->remote_ip), ip4_addr2_16(&pcb->remote_ip),
                                ip4_addr3_16(&pcb->remote_ip), ip4_addr4_16(&pcb->remote_ip)));
        
        ++pcb_remove;
 802fc1c:	3501      	adds	r5, #1
 802fc1e:	b2ed      	uxtb	r5, r5
        ++pcb_reset;
 802fc20:	2701      	movs	r7, #1
 802fc22:	e011      	b.n	802fc48 <tcp_slowtmr+0x16c>
      }
      else if((u32_t)(tcp_ticks - pcb->tmr) > 
              (pcb->keep_idle + pcb->keep_cnt_sent * TCP_KEEP_INTVL(pcb))
 802fc24:	f894 3092 	ldrb.w	r3, [r4, #146]	; 0x92
 802fc28:	4f4e      	ldr	r7, [pc, #312]	; (802fd64 <tcp_slowtmr+0x288>)
 802fc2a:	fb07 0003 	mla	r0, r7, r3, r0
              / TCP_SLOW_INTERVAL)
 802fc2e:	fbb0 f1f1 	udiv	r1, r0, r1
                                ip4_addr3_16(&pcb->remote_ip), ip4_addr4_16(&pcb->remote_ip)));
        
        ++pcb_remove;
        ++pcb_reset;
      }
      else if((u32_t)(tcp_ticks - pcb->tmr) > 
 802fc32:	428a      	cmp	r2, r1
 802fc34:	d907      	bls.n	802fc46 <tcp_slowtmr+0x16a>
              (pcb->keep_idle + pcb->keep_cnt_sent * TCP_KEEP_INTVL(pcb))
              / TCP_SLOW_INTERVAL)
      {
        tcp_keepalive(pcb);
 802fc36:	4620      	mov	r0, r4
 802fc38:	f001 fe76 	bl	8031928 <tcp_keepalive>
        pcb->keep_cnt_sent++;
 802fc3c:	f894 3092 	ldrb.w	r3, [r4, #146]	; 0x92
 802fc40:	3301      	adds	r3, #1
 802fc42:	f884 3092 	strb.w	r3, [r4, #146]	; 0x92
      continue;
    }
    pcb->last_timer = tcp_timer_ctr;

    pcb_remove = 0;
    pcb_reset = 0;
 802fc46:	2700      	movs	r7, #0
      LWIP_DEBUGF(TCP_CWND_DEBUG, ("tcp_slowtmr: dropping OOSEQ queued data\n"));
    }
#endif /* TCP_QUEUE_OOSEQ */

    /* Check if this PCB has stayed too long in SYN-RCVD */
    if (pcb->state == SYN_RCVD) {
 802fc48:	7e23      	ldrb	r3, [r4, #24]
 802fc4a:	2b03      	cmp	r3, #3
 802fc4c:	d108      	bne.n	802fc60 <tcp_slowtmr+0x184>
      if ((u32_t)(tcp_ticks - pcb->tmr) >
 802fc4e:	4b40      	ldr	r3, [pc, #256]	; (802fd50 <tcp_slowtmr+0x274>)
 802fc50:	681a      	ldr	r2, [r3, #0]
 802fc52:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802fc54:	1ad3      	subs	r3, r2, r3
 802fc56:	2b28      	cmp	r3, #40	; 0x28
 802fc58:	d90a      	bls.n	802fc70 <tcp_slowtmr+0x194>
          TCP_SYN_RCVD_TIMEOUT / TCP_SLOW_INTERVAL) {
        ++pcb_remove;
 802fc5a:	3501      	adds	r5, #1
 802fc5c:	b2ed      	uxtb	r5, r5
 802fc5e:	e007      	b.n	802fc70 <tcp_slowtmr+0x194>
        LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: removing pcb stuck in SYN-RCVD\n"));
      }
    }

    /* Check if this PCB has stayed too long in LAST-ACK */
    if (pcb->state == LAST_ACK) {
 802fc60:	2b09      	cmp	r3, #9
 802fc62:	d105      	bne.n	802fc70 <tcp_slowtmr+0x194>
      if ((u32_t)(tcp_ticks - pcb->tmr) > 2 * TCP_MSL / TCP_SLOW_INTERVAL) {
 802fc64:	4b3a      	ldr	r3, [pc, #232]	; (802fd50 <tcp_slowtmr+0x274>)
 802fc66:	681a      	ldr	r2, [r3, #0]
 802fc68:	6a63      	ldr	r3, [r4, #36]	; 0x24
 802fc6a:	1ad3      	subs	r3, r2, r3
 802fc6c:	2bf0      	cmp	r3, #240	; 0xf0
 802fc6e:	d800      	bhi.n	802fc72 <tcp_slowtmr+0x196>
        LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: removing pcb stuck in LAST-ACK\n"));
      }
    }

    /* If the PCB should be removed, do it. */
    if (pcb_remove) {
 802fc70:	b345      	cbz	r5, 802fcc4 <tcp_slowtmr+0x1e8>
      struct tcp_pcb *pcb2;
      tcp_err_fn err_fn;
      void *err_arg;
      tcp_pcb_purge(pcb);
 802fc72:	4620      	mov	r0, r4
 802fc74:	f7ff ff14 	bl	802faa0 <tcp_pcb_purge>
 802fc78:	68e3      	ldr	r3, [r4, #12]
      /* Remove PCB from tcp_active_pcbs list. */
      if (prev != NULL) {
 802fc7a:	b10e      	cbz	r6, 802fc80 <tcp_slowtmr+0x1a4>
        LWIP_ASSERT("tcp_slowtmr: middle tcp != tcp_active_pcbs", pcb != tcp_active_pcbs);
        prev->next = pcb->next;
 802fc7c:	60f3      	str	r3, [r6, #12]
 802fc7e:	e001      	b.n	802fc84 <tcp_slowtmr+0x1a8>
      } else {
        /* This PCB was the first. */
        LWIP_ASSERT("tcp_slowtmr: first pcb == tcp_active_pcbs", tcp_active_pcbs == pcb);
        tcp_active_pcbs = pcb->next;
 802fc80:	4a35      	ldr	r2, [pc, #212]	; (802fd58 <tcp_slowtmr+0x27c>)
 802fc82:	6013      	str	r3, [r2, #0]
      }

      if (pcb_reset) {
 802fc84:	b14f      	cbz	r7, 802fc9a <tcp_slowtmr+0x1be>
        tcp_rst(pcb->snd_nxt, pcb->rcv_nxt, &pcb->local_ip, &pcb->remote_ip,
 802fc86:	8b63      	ldrh	r3, [r4, #26]
 802fc88:	9300      	str	r3, [sp, #0]
 802fc8a:	8ba3      	ldrh	r3, [r4, #28]
 802fc8c:	9301      	str	r3, [sp, #4]
 802fc8e:	6d20      	ldr	r0, [r4, #80]	; 0x50
 802fc90:	6aa1      	ldr	r1, [r4, #40]	; 0x28
 802fc92:	4622      	mov	r2, r4
 802fc94:	1d23      	adds	r3, r4, #4
 802fc96:	f001 fd8f 	bl	80317b8 <tcp_rst>
          pcb->local_port, pcb->remote_port);
      }

      err_fn = pcb->errf;
 802fc9a:	f8d4 5088 	ldr.w	r5, [r4, #136]	; 0x88
      err_arg = pcb->callback_arg;
 802fc9e:	f8d4 b010 	ldr.w	fp, [r4, #16]
      pcb2 = pcb;
      pcb = pcb->next;
 802fca2:	68e7      	ldr	r7, [r4, #12]
      memp_free(MEMP_TCP_PCB, pcb2);
 802fca4:	2002      	movs	r0, #2
 802fca6:	4621      	mov	r1, r4
 802fca8:	f7ff fb1c 	bl	802f2e4 <memp_free>

      tcp_active_pcbs_changed = 0;
 802fcac:	2300      	movs	r3, #0
 802fcae:	f888 3000 	strb.w	r3, [r8]
      TCP_EVENT_ERR(err_fn, err_arg, ERR_ABRT);
 802fcb2:	b11d      	cbz	r5, 802fcbc <tcp_slowtmr+0x1e0>
 802fcb4:	4658      	mov	r0, fp
 802fcb6:	f06f 0109 	mvn.w	r1, #9
 802fcba:	47a8      	blx	r5
      if (tcp_active_pcbs_changed) {
 802fcbc:	f899 3000 	ldrb.w	r3, [r9]
 802fcc0:	b1f3      	cbz	r3, 802fd00 <tcp_slowtmr+0x224>
 802fcc2:	e718      	b.n	802faf6 <tcp_slowtmr+0x1a>
      /* get the 'next' element now and work with 'prev' below (in case of abort) */
      prev = pcb;
      pcb = pcb->next;

      /* We check if we should poll the connection. */
      ++prev->polltmr;
 802fcc4:	7fe3      	ldrb	r3, [r4, #31]
      if (prev->polltmr >= prev->pollinterval) {
 802fcc6:	f894 2020 	ldrb.w	r2, [r4, #32]
        goto tcp_slowtmr_start;
      }
    } else {
      /* get the 'next' element now and work with 'prev' below (in case of abort) */
      prev = pcb;
      pcb = pcb->next;
 802fcca:	68e7      	ldr	r7, [r4, #12]

      /* We check if we should poll the connection. */
      ++prev->polltmr;
 802fccc:	3301      	adds	r3, #1
 802fcce:	b2db      	uxtb	r3, r3
      if (prev->polltmr >= prev->pollinterval) {
 802fcd0:	429a      	cmp	r2, r3
      /* get the 'next' element now and work with 'prev' below (in case of abort) */
      prev = pcb;
      pcb = pcb->next;

      /* We check if we should poll the connection. */
      ++prev->polltmr;
 802fcd2:	77e3      	strb	r3, [r4, #31]
      if (prev->polltmr >= prev->pollinterval) {
 802fcd4:	d813      	bhi.n	802fcfe <tcp_slowtmr+0x222>
        prev->polltmr = 0;
        LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: polling application\n"));
        tcp_active_pcbs_changed = 0;
        TCP_EVENT_POLL(prev, err);
 802fcd6:	f8d4 3084 	ldr.w	r3, [r4, #132]	; 0x84
      pcb = pcb->next;

      /* We check if we should poll the connection. */
      ++prev->polltmr;
      if (prev->polltmr >= prev->pollinterval) {
        prev->polltmr = 0;
 802fcda:	77e5      	strb	r5, [r4, #31]
        LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: polling application\n"));
        tcp_active_pcbs_changed = 0;
 802fcdc:	f888 5000 	strb.w	r5, [r8]
        TCP_EVENT_POLL(prev, err);
 802fce0:	b11b      	cbz	r3, 802fcea <tcp_slowtmr+0x20e>
 802fce2:	6920      	ldr	r0, [r4, #16]
 802fce4:	4621      	mov	r1, r4
 802fce6:	4798      	blx	r3
 802fce8:	e000      	b.n	802fcec <tcp_slowtmr+0x210>
 802fcea:	4628      	mov	r0, r5
        if (tcp_active_pcbs_changed) {
 802fcec:	f899 3000 	ldrb.w	r3, [r9]
 802fcf0:	2b00      	cmp	r3, #0
 802fcf2:	f47f af00 	bne.w	802faf6 <tcp_slowtmr+0x1a>
          goto tcp_slowtmr_start;
        }
        /* if err == ERR_ABRT, 'prev' is already deallocated */
        if (err == ERR_OK) {
 802fcf6:	b910      	cbnz	r0, 802fcfe <tcp_slowtmr+0x222>
          tcp_output(prev);
 802fcf8:	4620      	mov	r0, r4
 802fcfa:	f001 fc39 	bl	8031570 <tcp_output>
        TCP_EVENT_POLL(prev, err);
        if (tcp_active_pcbs_changed) {
          goto tcp_slowtmr_start;
        }
        /* if err == ERR_ABRT, 'prev' is already deallocated */
        if (err == ERR_OK) {
 802fcfe:	4626      	mov	r6, r4
      prev = pcb;
      pcb = pcb->next;

      /* We check if we should poll the connection. */
      ++prev->polltmr;
      if (prev->polltmr >= prev->pollinterval) {
 802fd00:	463c      	mov	r4, r7
  prev = NULL;
  pcb = tcp_active_pcbs;
  if (pcb == NULL) {
    LWIP_DEBUGF(TCP_DEBUG, ("tcp_slowtmr: no active pcbs\n"));
  }
  while (pcb != NULL) {
 802fd02:	2c00      	cmp	r4, #0
 802fd04:	f47f aefd 	bne.w	802fb02 <tcp_slowtmr+0x26>
  }

  
  /* Steps through all of the TIME-WAIT PCBs. */
  prev = NULL;
  pcb = tcp_tw_pcbs;
 802fd08:	4b17      	ldr	r3, [pc, #92]	; (802fd68 <tcp_slowtmr+0x28c>)
  while (pcb != NULL) {
    LWIP_ASSERT("tcp_slowtmr: TIME-WAIT pcb->state == TIME-WAIT", pcb->state == TIME_WAIT);
    pcb_remove = 0;

    /* Check if this PCB has stayed long enough in TIME-WAIT */
    if ((u32_t)(tcp_ticks - pcb->tmr) > 2 * TCP_MSL / TCP_SLOW_INTERVAL) {
 802fd0a:	4e11      	ldr	r6, [pc, #68]	; (802fd50 <tcp_slowtmr+0x274>)
  }

  
  /* Steps through all of the TIME-WAIT PCBs. */
  prev = NULL;
  pcb = tcp_tw_pcbs;
 802fd0c:	681d      	ldr	r5, [r3, #0]
        LWIP_ASSERT("tcp_slowtmr: middle tcp != tcp_tw_pcbs", pcb != tcp_tw_pcbs);
        prev->next = pcb->next;
      } else {
        /* This PCB was the first. */
        LWIP_ASSERT("tcp_slowtmr: first pcb == tcp_tw_pcbs", tcp_tw_pcbs == pcb);
        tcp_tw_pcbs = pcb->next;
 802fd0e:	461f      	mov	r7, r3

  
  /* Steps through all of the TIME-WAIT PCBs. */
  prev = NULL;
  pcb = tcp_tw_pcbs;
  while (pcb != NULL) {
 802fd10:	e00f      	b.n	802fd32 <tcp_slowtmr+0x256>
    LWIP_ASSERT("tcp_slowtmr: TIME-WAIT pcb->state == TIME-WAIT", pcb->state == TIME_WAIT);
    pcb_remove = 0;

    /* Check if this PCB has stayed long enough in TIME-WAIT */
    if ((u32_t)(tcp_ticks - pcb->tmr) > 2 * TCP_MSL / TCP_SLOW_INTERVAL) {
 802fd12:	6832      	ldr	r2, [r6, #0]
 802fd14:	6a6b      	ldr	r3, [r5, #36]	; 0x24
 802fd16:	1ad3      	subs	r3, r2, r3
 802fd18:	2bf0      	cmp	r3, #240	; 0xf0
 802fd1a:	d810      	bhi.n	802fd3e <tcp_slowtmr+0x262>
 802fd1c:	e00c      	b.n	802fd38 <tcp_slowtmr+0x25c>
      struct tcp_pcb *pcb2;
      tcp_pcb_purge(pcb);
      /* Remove PCB from tcp_tw_pcbs list. */
      if (prev != NULL) {
        LWIP_ASSERT("tcp_slowtmr: middle tcp != tcp_tw_pcbs", pcb != tcp_tw_pcbs);
        prev->next = pcb->next;
 802fd1e:	60e2      	str	r2, [r4, #12]
 802fd20:	e000      	b.n	802fd24 <tcp_slowtmr+0x248>
      } else {
        /* This PCB was the first. */
        LWIP_ASSERT("tcp_slowtmr: first pcb == tcp_tw_pcbs", tcp_tw_pcbs == pcb);
        tcp_tw_pcbs = pcb->next;
 802fd22:	603a      	str	r2, [r7, #0]
      }
      pcb2 = pcb;
      pcb = pcb->next;
      memp_free(MEMP_TCP_PCB, pcb2);
 802fd24:	4629      	mov	r1, r5
 802fd26:	2002      	movs	r0, #2
        /* This PCB was the first. */
        LWIP_ASSERT("tcp_slowtmr: first pcb == tcp_tw_pcbs", tcp_tw_pcbs == pcb);
        tcp_tw_pcbs = pcb->next;
      }
      pcb2 = pcb;
      pcb = pcb->next;
 802fd28:	f8d5 800c 	ldr.w	r8, [r5, #12]
      memp_free(MEMP_TCP_PCB, pcb2);
 802fd2c:	f7ff fada 	bl	802f2e4 <memp_free>
        /* This PCB was the first. */
        LWIP_ASSERT("tcp_slowtmr: first pcb == tcp_tw_pcbs", tcp_tw_pcbs == pcb);
        tcp_tw_pcbs = pcb->next;
      }
      pcb2 = pcb;
      pcb = pcb->next;
 802fd30:	4645      	mov	r5, r8

  
  /* Steps through all of the TIME-WAIT PCBs. */
  prev = NULL;
  pcb = tcp_tw_pcbs;
  while (pcb != NULL) {
 802fd32:	2d00      	cmp	r5, #0
 802fd34:	d1ed      	bne.n	802fd12 <tcp_slowtmr+0x236>
 802fd36:	e009      	b.n	802fd4c <tcp_slowtmr+0x270>
      pcb2 = pcb;
      pcb = pcb->next;
      memp_free(MEMP_TCP_PCB, pcb2);
    } else {
      prev = pcb;
      pcb = pcb->next;
 802fd38:	462c      	mov	r4, r5
 802fd3a:	68ed      	ldr	r5, [r5, #12]
 802fd3c:	e7f9      	b.n	802fd32 <tcp_slowtmr+0x256>


    /* If the PCB should be removed, do it. */
    if (pcb_remove) {
      struct tcp_pcb *pcb2;
      tcp_pcb_purge(pcb);
 802fd3e:	4628      	mov	r0, r5
 802fd40:	f7ff feae 	bl	802faa0 <tcp_pcb_purge>
 802fd44:	68ea      	ldr	r2, [r5, #12]
      /* Remove PCB from tcp_tw_pcbs list. */
      if (prev != NULL) {
 802fd46:	2c00      	cmp	r4, #0
 802fd48:	d1e9      	bne.n	802fd1e <tcp_slowtmr+0x242>
 802fd4a:	e7ea      	b.n	802fd22 <tcp_slowtmr+0x246>
    } else {
      prev = pcb;
      pcb = pcb->next;
    }
  }
}
 802fd4c:	e8bd 8ffe 	ldmia.w	sp!, {r1, r2, r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}
 802fd50:	2000f6b0 	.word	0x2000f6b0
 802fd54:	2000c3e1 	.word	0x2000c3e1
 802fd58:	2000f6ac 	.word	0x2000f6ac
 802fd5c:	08043fd9 	.word	0x08043fd9
 802fd60:	08043fcc 	.word	0x08043fcc
 802fd64:	000124f8 	.word	0x000124f8
 802fd68:	2000f6c0 	.word	0x2000f6c0
 802fd6c:	2000f6a8 	.word	0x2000f6a8

0802fd70 <tcp_pcb_remove>:
 * @param pcb tcp_pcb to purge. The pcb itself is NOT deallocated!
 */
void
tcp_pcb_remove(struct tcp_pcb **pcblist, struct tcp_pcb *pcb)
{
  TCP_RMV(pcblist, pcb);
 802fd70:	6803      	ldr	r3, [r0, #0]
 802fd72:	428b      	cmp	r3, r1
 * @param pcblist PCB list to purge.
 * @param pcb tcp_pcb to purge. The pcb itself is NOT deallocated!
 */
void
tcp_pcb_remove(struct tcp_pcb **pcblist, struct tcp_pcb *pcb)
{
 802fd74:	b510      	push	{r4, lr}
 802fd76:	460c      	mov	r4, r1
  TCP_RMV(pcblist, pcb);
 802fd78:	d102      	bne.n	802fd80 <tcp_pcb_remove+0x10>
 802fd7a:	68cb      	ldr	r3, [r1, #12]
 802fd7c:	6003      	str	r3, [r0, #0]
 802fd7e:	e00d      	b.n	802fd9c <tcp_pcb_remove+0x2c>
 802fd80:	4a11      	ldr	r2, [pc, #68]	; (802fdc8 <tcp_pcb_remove+0x58>)
 802fd82:	6013      	str	r3, [r2, #0]
 802fd84:	e007      	b.n	802fd96 <tcp_pcb_remove+0x26>
 802fd86:	68d9      	ldr	r1, [r3, #12]
 802fd88:	42a1      	cmp	r1, r4
 802fd8a:	d103      	bne.n	802fd94 <tcp_pcb_remove+0x24>
 802fd8c:	6013      	str	r3, [r2, #0]
 802fd8e:	68e2      	ldr	r2, [r4, #12]
 802fd90:	60da      	str	r2, [r3, #12]
 802fd92:	e003      	b.n	802fd9c <tcp_pcb_remove+0x2c>
 802fd94:	460b      	mov	r3, r1
 802fd96:	2b00      	cmp	r3, #0
 802fd98:	d1f5      	bne.n	802fd86 <tcp_pcb_remove+0x16>
 802fd9a:	6013      	str	r3, [r2, #0]
 802fd9c:	2300      	movs	r3, #0
 802fd9e:	60e3      	str	r3, [r4, #12]

  tcp_pcb_purge(pcb);
 802fda0:	4620      	mov	r0, r4
 802fda2:	f7ff fe7d 	bl	802faa0 <tcp_pcb_purge>
  
  /* if there is an outstanding delayed ACKs, send it */
  if (pcb->state != TIME_WAIT &&
 802fda6:	7e23      	ldrb	r3, [r4, #24]
 802fda8:	2b0a      	cmp	r3, #10
 802fdaa:	d00a      	beq.n	802fdc2 <tcp_pcb_remove+0x52>
 802fdac:	2b01      	cmp	r3, #1
 802fdae:	d008      	beq.n	802fdc2 <tcp_pcb_remove+0x52>
     pcb->state != LISTEN &&
     pcb->flags & TF_ACK_DELAY) {
 802fdb0:	7fa3      	ldrb	r3, [r4, #30]

  tcp_pcb_purge(pcb);
  
  /* if there is an outstanding delayed ACKs, send it */
  if (pcb->state != TIME_WAIT &&
     pcb->state != LISTEN &&
 802fdb2:	07da      	lsls	r2, r3, #31
 802fdb4:	d505      	bpl.n	802fdc2 <tcp_pcb_remove+0x52>
     pcb->flags & TF_ACK_DELAY) {
    pcb->flags |= TF_ACK_NOW;
 802fdb6:	f043 0302 	orr.w	r3, r3, #2
 802fdba:	77a3      	strb	r3, [r4, #30]
    tcp_output(pcb);
 802fdbc:	4620      	mov	r0, r4
 802fdbe:	f001 fbd7 	bl	8031570 <tcp_output>
#if TCP_QUEUE_OOSEQ
    LWIP_ASSERT("ooseq segments leaking", pcb->ooseq == NULL);
#endif /* TCP_QUEUE_OOSEQ */
  }

  pcb->state = CLOSED;
 802fdc2:	2300      	movs	r3, #0
 802fdc4:	7623      	strb	r3, [r4, #24]
 802fdc6:	bd10      	pop	{r4, pc}
 802fdc8:	2000f6b8 	.word	0x2000f6b8

0802fdcc <tcp_abandon>:
  LWIP_ASSERT("don't call tcp_abort/tcp_abandon for listen-pcbs",
    pcb->state != LISTEN);
  /* Figure out on which TCP PCB list we are, and remove us. If we
     are in an active state, call the receive function associated with
     the PCB with a NULL argument, and send an RST to the remote end. */
  if (pcb->state == TIME_WAIT) {
 802fdcc:	7e03      	ldrb	r3, [r0, #24]
 802fdce:	2b0a      	cmp	r3, #10
 * @param pcb the tcp_pcb to abort
 * @param reset boolean to indicate whether a reset should be sent
 */
void
tcp_abandon(struct tcp_pcb *pcb, int reset)
{
 802fdd0:	e92d 43f7 	stmdb	sp!, {r0, r1, r2, r4, r5, r6, r7, r8, r9, lr}
 802fdd4:	4604      	mov	r4, r0
 802fdd6:	4689      	mov	r9, r1
  LWIP_ASSERT("don't call tcp_abort/tcp_abandon for listen-pcbs",
    pcb->state != LISTEN);
  /* Figure out on which TCP PCB list we are, and remove us. If we
     are in an active state, call the receive function associated with
     the PCB with a NULL argument, and send an RST to the remote end. */
  if (pcb->state == TIME_WAIT) {
 802fdd8:	d10a      	bne.n	802fdf0 <tcp_abandon+0x24>
    tcp_pcb_remove(&tcp_tw_pcbs, pcb);
 802fdda:	4621      	mov	r1, r4
 802fddc:	481b      	ldr	r0, [pc, #108]	; (802fe4c <tcp_abandon+0x80>)
 802fdde:	f7ff ffc7 	bl	802fd70 <tcp_pcb_remove>
    memp_free(MEMP_TCP_PCB, pcb);
 802fde2:	2002      	movs	r0, #2
 802fde4:	4621      	mov	r1, r4
      tcp_rst(seqno, ackno, &pcb->local_ip, &pcb->remote_ip, pcb->local_port, pcb->remote_port);
    }
    memp_free(MEMP_TCP_PCB, pcb);
    TCP_EVENT_ERR(errf, errf_arg, ERR_ABRT);
  }
}
 802fde6:	b003      	add	sp, #12
 802fde8:	e8bd 43f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, lr}
  /* Figure out on which TCP PCB list we are, and remove us. If we
     are in an active state, call the receive function associated with
     the PCB with a NULL argument, and send an RST to the remote end. */
  if (pcb->state == TIME_WAIT) {
    tcp_pcb_remove(&tcp_tw_pcbs, pcb);
    memp_free(MEMP_TCP_PCB, pcb);
 802fdec:	f7ff ba7a 	b.w	802f2e4 <memp_free>
  } else {
    seqno = pcb->snd_nxt;
 802fdf0:	f8d0 8050 	ldr.w	r8, [r0, #80]	; 0x50
    ackno = pcb->rcv_nxt;
 802fdf4:	6a87      	ldr	r7, [r0, #40]	; 0x28
#if LWIP_CALLBACK_API
    errf = pcb->errf;
 802fdf6:	f8d0 5088 	ldr.w	r5, [r0, #136]	; 0x88
#endif /* LWIP_CALLBACK_API */
    errf_arg = pcb->callback_arg;
 802fdfa:	6906      	ldr	r6, [r0, #16]
    TCP_PCB_REMOVE_ACTIVE(pcb);
 802fdfc:	4814      	ldr	r0, [pc, #80]	; (802fe50 <tcp_abandon+0x84>)
 802fdfe:	4621      	mov	r1, r4
 802fe00:	f7ff ffb6 	bl	802fd70 <tcp_pcb_remove>
 802fe04:	4b13      	ldr	r3, [pc, #76]	; (802fe54 <tcp_abandon+0x88>)
    if (pcb->unacked != NULL) {
 802fe06:	6f20      	ldr	r0, [r4, #112]	; 0x70
    ackno = pcb->rcv_nxt;
#if LWIP_CALLBACK_API
    errf = pcb->errf;
#endif /* LWIP_CALLBACK_API */
    errf_arg = pcb->callback_arg;
    TCP_PCB_REMOVE_ACTIVE(pcb);
 802fe08:	2201      	movs	r2, #1
 802fe0a:	701a      	strb	r2, [r3, #0]
    if (pcb->unacked != NULL) {
 802fe0c:	b108      	cbz	r0, 802fe12 <tcp_abandon+0x46>
      tcp_segs_free(pcb->unacked);
 802fe0e:	f7ff fe2e 	bl	802fa6e <tcp_segs_free>
    }
    if (pcb->unsent != NULL) {
 802fe12:	6ee0      	ldr	r0, [r4, #108]	; 0x6c
 802fe14:	b108      	cbz	r0, 802fe1a <tcp_abandon+0x4e>
      tcp_segs_free(pcb->unsent);
 802fe16:	f7ff fe2a 	bl	802fa6e <tcp_segs_free>
#if TCP_QUEUE_OOSEQ    
    if (pcb->ooseq != NULL) {
      tcp_segs_free(pcb->ooseq);
    }
#endif /* TCP_QUEUE_OOSEQ */
    if (reset) {
 802fe1a:	f1b9 0f00 	cmp.w	r9, #0
 802fe1e:	d009      	beq.n	802fe34 <tcp_abandon+0x68>
      LWIP_DEBUGF(TCP_RST_DEBUG, ("tcp_abandon: sending RST\n"));
      tcp_rst(seqno, ackno, &pcb->local_ip, &pcb->remote_ip, pcb->local_port, pcb->remote_port);
 802fe20:	8b63      	ldrh	r3, [r4, #26]
 802fe22:	9300      	str	r3, [sp, #0]
 802fe24:	8ba3      	ldrh	r3, [r4, #28]
 802fe26:	4640      	mov	r0, r8
 802fe28:	9301      	str	r3, [sp, #4]
 802fe2a:	4639      	mov	r1, r7
 802fe2c:	4622      	mov	r2, r4
 802fe2e:	1d23      	adds	r3, r4, #4
 802fe30:	f001 fcc2 	bl	80317b8 <tcp_rst>
    }
    memp_free(MEMP_TCP_PCB, pcb);
 802fe34:	2002      	movs	r0, #2
 802fe36:	4621      	mov	r1, r4
 802fe38:	f7ff fa54 	bl	802f2e4 <memp_free>
    TCP_EVENT_ERR(errf, errf_arg, ERR_ABRT);
 802fe3c:	b11d      	cbz	r5, 802fe46 <tcp_abandon+0x7a>
 802fe3e:	4630      	mov	r0, r6
 802fe40:	f06f 0109 	mvn.w	r1, #9
 802fe44:	47a8      	blx	r5
  }
}
 802fe46:	b003      	add	sp, #12
 802fe48:	e8bd 83f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, pc}
 802fe4c:	2000f6c0 	.word	0x2000f6c0
 802fe50:	2000f6ac 	.word	0x2000f6ac
 802fe54:	2000f6a8 	.word	0x2000f6a8

0802fe58 <tcp_abort>:
 * @param pcb the tcp pcb to abort
 */
void
tcp_abort(struct tcp_pcb *pcb)
{
  tcp_abandon(pcb, 1);
 802fe58:	2101      	movs	r1, #1
 802fe5a:	f7ff bfb7 	b.w	802fdcc <tcp_abandon>
 802fe5e:	0000      	movs	r0, r0

0802fe60 <tcp_close_shutdown>:
 * @return ERR_OK if connection has been closed
 *         another err_t if closing failed and pcb is not freed
 */
static err_t
tcp_close_shutdown(struct tcp_pcb *pcb, u8_t rst_on_unacked_data)
{
 802fe60:	b537      	push	{r0, r1, r2, r4, r5, lr}
 802fe62:	4604      	mov	r4, r0
  err_t err;

  if (rst_on_unacked_data && ((pcb->state == ESTABLISHED) || (pcb->state == CLOSE_WAIT))) {
 802fe64:	2900      	cmp	r1, #0
 802fe66:	d043      	beq.n	802fef0 <tcp_close_shutdown+0x90>
 802fe68:	7e03      	ldrb	r3, [r0, #24]
 802fe6a:	2b04      	cmp	r3, #4
 802fe6c:	d001      	beq.n	802fe72 <tcp_close_shutdown+0x12>
 802fe6e:	2b07      	cmp	r3, #7
 802fe70:	d13e      	bne.n	802fef0 <tcp_close_shutdown+0x90>
    if ((pcb->refused_data != NULL) || (pcb->rcv_wnd != TCP_WND)) {
 802fe72:	6f63      	ldr	r3, [r4, #116]	; 0x74
 802fe74:	b923      	cbnz	r3, 802fe80 <tcp_close_shutdown+0x20>
 802fe76:	8da2      	ldrh	r2, [r4, #44]	; 0x2c
 802fe78:	f241 63d0 	movw	r3, #5840	; 0x16d0
 802fe7c:	429a      	cmp	r2, r3
 802fe7e:	d037      	beq.n	802fef0 <tcp_close_shutdown+0x90>
         side about this. */
      LWIP_ASSERT("pcb->flags & TF_RXCLOSED", pcb->flags & TF_RXCLOSED);

      /* don't call tcp_abort here: we must not deallocate the pcb since
         that might not be expected when calling tcp_close */
      tcp_rst(pcb->snd_nxt, pcb->rcv_nxt, &pcb->local_ip, &pcb->remote_ip,
 802fe80:	8b63      	ldrh	r3, [r4, #26]
 802fe82:	6d20      	ldr	r0, [r4, #80]	; 0x50
 802fe84:	9300      	str	r3, [sp, #0]
 802fe86:	8ba3      	ldrh	r3, [r4, #28]
 802fe88:	6aa1      	ldr	r1, [r4, #40]	; 0x28
 802fe8a:	9301      	str	r3, [sp, #4]
 802fe8c:	4622      	mov	r2, r4
 802fe8e:	1d23      	adds	r3, r4, #4
 802fe90:	f001 fc92 	bl	80317b8 <tcp_rst>
        pcb->local_port, pcb->remote_port);

      tcp_pcb_purge(pcb);
 802fe94:	4620      	mov	r0, r4
 802fe96:	f7ff fe03 	bl	802faa0 <tcp_pcb_purge>
      TCP_RMV_ACTIVE(pcb);
 802fe9a:	4a42      	ldr	r2, [pc, #264]	; (802ffa4 <tcp_close_shutdown+0x144>)
 802fe9c:	6813      	ldr	r3, [r2, #0]
 802fe9e:	42a3      	cmp	r3, r4
 802fea0:	d101      	bne.n	802fea6 <tcp_close_shutdown+0x46>
 802fea2:	68e3      	ldr	r3, [r4, #12]
 802fea4:	e00c      	b.n	802fec0 <tcp_close_shutdown+0x60>
 802fea6:	4a40      	ldr	r2, [pc, #256]	; (802ffa8 <tcp_close_shutdown+0x148>)
 802fea8:	6013      	str	r3, [r2, #0]
 802feaa:	e007      	b.n	802febc <tcp_close_shutdown+0x5c>
 802feac:	68d9      	ldr	r1, [r3, #12]
 802feae:	42a1      	cmp	r1, r4
 802feb0:	d103      	bne.n	802feba <tcp_close_shutdown+0x5a>
 802feb2:	6013      	str	r3, [r2, #0]
 802feb4:	68e2      	ldr	r2, [r4, #12]
 802feb6:	60da      	str	r2, [r3, #12]
 802feb8:	e003      	b.n	802fec2 <tcp_close_shutdown+0x62>
 802feba:	460b      	mov	r3, r1
 802febc:	2b00      	cmp	r3, #0
 802febe:	d1f5      	bne.n	802feac <tcp_close_shutdown+0x4c>
 802fec0:	6013      	str	r3, [r2, #0]
 802fec2:	4b3a      	ldr	r3, [pc, #232]	; (802ffac <tcp_close_shutdown+0x14c>)
 802fec4:	2201      	movs	r2, #1
 802fec6:	701a      	strb	r2, [r3, #0]
      if (pcb->state == ESTABLISHED) {
 802fec8:	7e23      	ldrb	r3, [r4, #24]
         that might not be expected when calling tcp_close */
      tcp_rst(pcb->snd_nxt, pcb->rcv_nxt, &pcb->local_ip, &pcb->remote_ip,
        pcb->local_port, pcb->remote_port);

      tcp_pcb_purge(pcb);
      TCP_RMV_ACTIVE(pcb);
 802feca:	2500      	movs	r5, #0
      if (pcb->state == ESTABLISHED) {
 802fecc:	2b04      	cmp	r3, #4
         that might not be expected when calling tcp_close */
      tcp_rst(pcb->snd_nxt, pcb->rcv_nxt, &pcb->local_ip, &pcb->remote_ip,
        pcb->local_port, pcb->remote_port);

      tcp_pcb_purge(pcb);
      TCP_RMV_ACTIVE(pcb);
 802fece:	60e5      	str	r5, [r4, #12]
      if (pcb->state == ESTABLISHED) {
 802fed0:	d108      	bne.n	802fee4 <tcp_close_shutdown+0x84>
        /* move to TIME_WAIT since we close actively */
        pcb->state = TIME_WAIT;
 802fed2:	230a      	movs	r3, #10
 802fed4:	7623      	strb	r3, [r4, #24]
        TCP_REG(&tcp_tw_pcbs, pcb);
 802fed6:	4b36      	ldr	r3, [pc, #216]	; (802ffb0 <tcp_close_shutdown+0x150>)
 802fed8:	681a      	ldr	r2, [r3, #0]
 802feda:	601c      	str	r4, [r3, #0]
 802fedc:	60e2      	str	r2, [r4, #12]
 802fede:	f001 fe05 	bl	8031aec <tcp_timer_needed>
 802fee2:	e003      	b.n	802feec <tcp_close_shutdown+0x8c>
      } else {
        /* CLOSE_WAIT: deallocate the pcb since we already sent a RST for it */
        memp_free(MEMP_TCP_PCB, pcb);
 802fee4:	2002      	movs	r0, #2
 802fee6:	4621      	mov	r1, r4
 802fee8:	f7ff f9fc 	bl	802f2e4 <memp_free>
      }
      return ERR_OK;
 802feec:	4628      	mov	r0, r5
 802feee:	e051      	b.n	802ff94 <tcp_close_shutdown+0x134>
    }
  }

  switch (pcb->state) {
 802fef0:	7e23      	ldrb	r3, [r4, #24]
 802fef2:	2b07      	cmp	r3, #7
 802fef4:	d853      	bhi.n	802ff9e <tcp_close_shutdown+0x13e>
 802fef6:	e8df f003 	tbb	[pc, r3]
 802fefa:	1e04      	.short	0x1e04
 802fefc:	523c3527 	.word	0x523c3527
 802ff00:	4452      	.short	0x4452
     * Calling tcp_close() with a pcb that has already been closed, (i.e. twice)
     * or for a pcb that has been used and then entered the CLOSED state 
     * is erroneous, but this should never happen as the pcb has in those cases
     * been freed, and so any remaining handles are bogus. */
    err = ERR_OK;
    if (pcb->local_port != 0) {
 802ff02:	8b63      	ldrh	r3, [r4, #26]
 802ff04:	b1ab      	cbz	r3, 802ff32 <tcp_close_shutdown+0xd2>
      TCP_RMV(&tcp_bound_pcbs, pcb);
 802ff06:	4a2b      	ldr	r2, [pc, #172]	; (802ffb4 <tcp_close_shutdown+0x154>)
 802ff08:	6813      	ldr	r3, [r2, #0]
 802ff0a:	42a3      	cmp	r3, r4
 802ff0c:	d101      	bne.n	802ff12 <tcp_close_shutdown+0xb2>
 802ff0e:	68e3      	ldr	r3, [r4, #12]
 802ff10:	e00c      	b.n	802ff2c <tcp_close_shutdown+0xcc>
 802ff12:	4a25      	ldr	r2, [pc, #148]	; (802ffa8 <tcp_close_shutdown+0x148>)
 802ff14:	6013      	str	r3, [r2, #0]
 802ff16:	e007      	b.n	802ff28 <tcp_close_shutdown+0xc8>
 802ff18:	68d9      	ldr	r1, [r3, #12]
 802ff1a:	42a1      	cmp	r1, r4
 802ff1c:	d103      	bne.n	802ff26 <tcp_close_shutdown+0xc6>
 802ff1e:	6013      	str	r3, [r2, #0]
 802ff20:	68e2      	ldr	r2, [r4, #12]
 802ff22:	60da      	str	r2, [r3, #12]
 802ff24:	e003      	b.n	802ff2e <tcp_close_shutdown+0xce>
 802ff26:	460b      	mov	r3, r1
 802ff28:	2b00      	cmp	r3, #0
 802ff2a:	d1f5      	bne.n	802ff18 <tcp_close_shutdown+0xb8>
 802ff2c:	6013      	str	r3, [r2, #0]
 802ff2e:	2300      	movs	r3, #0
 802ff30:	60e3      	str	r3, [r4, #12]
    }
    memp_free(MEMP_TCP_PCB, pcb);
 802ff32:	2002      	movs	r0, #2
 802ff34:	e004      	b.n	802ff40 <tcp_close_shutdown+0xe0>
    pcb = NULL;
    break;
  case LISTEN:
    err = ERR_OK;
    tcp_pcb_remove(&tcp_listen_pcbs.pcbs, pcb);
 802ff36:	4820      	ldr	r0, [pc, #128]	; (802ffb8 <tcp_close_shutdown+0x158>)
 802ff38:	4621      	mov	r1, r4
 802ff3a:	f7ff ff19 	bl	802fd70 <tcp_pcb_remove>
    memp_free(MEMP_TCP_PCB_LISTEN, pcb);
 802ff3e:	2003      	movs	r0, #3
 802ff40:	4621      	mov	r1, r4
 802ff42:	f7ff f9cf 	bl	802f2e4 <memp_free>
    pcb = NULL;
    break;
 802ff46:	e02a      	b.n	802ff9e <tcp_close_shutdown+0x13e>
  case SYN_SENT:
    err = ERR_OK;
    TCP_PCB_REMOVE_ACTIVE(pcb);
 802ff48:	4621      	mov	r1, r4
 802ff4a:	4816      	ldr	r0, [pc, #88]	; (802ffa4 <tcp_close_shutdown+0x144>)
 802ff4c:	f7ff ff10 	bl	802fd70 <tcp_pcb_remove>
 802ff50:	4b16      	ldr	r3, [pc, #88]	; (802ffac <tcp_close_shutdown+0x14c>)
 802ff52:	2201      	movs	r2, #1
    memp_free(MEMP_TCP_PCB, pcb);
 802ff54:	2002      	movs	r0, #2
 802ff56:	4621      	mov	r1, r4
    memp_free(MEMP_TCP_PCB_LISTEN, pcb);
    pcb = NULL;
    break;
  case SYN_SENT:
    err = ERR_OK;
    TCP_PCB_REMOVE_ACTIVE(pcb);
 802ff58:	701a      	strb	r2, [r3, #0]
    memp_free(MEMP_TCP_PCB, pcb);
 802ff5a:	f7ff f9c3 	bl	802f2e4 <memp_free>
    pcb = NULL;
    snmp_inc_tcpattemptfails();
 802ff5e:	f004 f8af 	bl	80340c0 <snmp_inc_tcpattemptfails>
    break;
 802ff62:	e01c      	b.n	802ff9e <tcp_close_shutdown+0x13e>
  case SYN_RCVD:
    err = tcp_send_fin(pcb);
 802ff64:	4620      	mov	r0, r4
 802ff66:	f001 fabe 	bl	80314e6 <tcp_send_fin>
    if (err == ERR_OK) {
 802ff6a:	b998      	cbnz	r0, 802ff94 <tcp_close_shutdown+0x134>
      snmp_inc_tcpattemptfails();
 802ff6c:	f004 f8a8 	bl	80340c0 <snmp_inc_tcpattemptfails>
 802ff70:	e005      	b.n	802ff7e <tcp_close_shutdown+0x11e>
      pcb->state = FIN_WAIT_1;
    }
    break;
  case ESTABLISHED:
    err = tcp_send_fin(pcb);
 802ff72:	4620      	mov	r0, r4
 802ff74:	f001 fab7 	bl	80314e6 <tcp_send_fin>
    if (err == ERR_OK) {
 802ff78:	b960      	cbnz	r0, 802ff94 <tcp_close_shutdown+0x134>
      snmp_inc_tcpestabresets();
 802ff7a:	f004 f8a9 	bl	80340d0 <snmp_inc_tcpestabresets>
      pcb->state = FIN_WAIT_1;
 802ff7e:	2305      	movs	r3, #5
 802ff80:	e006      	b.n	802ff90 <tcp_close_shutdown+0x130>
    }
    break;
  case CLOSE_WAIT:
    err = tcp_send_fin(pcb);
 802ff82:	4620      	mov	r0, r4
 802ff84:	f001 faaf 	bl	80314e6 <tcp_send_fin>
    if (err == ERR_OK) {
 802ff88:	b920      	cbnz	r0, 802ff94 <tcp_close_shutdown+0x134>
      snmp_inc_tcpestabresets();
 802ff8a:	f004 f8a1 	bl	80340d0 <snmp_inc_tcpestabresets>
      pcb->state = LAST_ACK;
 802ff8e:	2309      	movs	r3, #9
 802ff90:	7623      	strb	r3, [r4, #24]
 802ff92:	e001      	b.n	802ff98 <tcp_close_shutdown+0x138>
 802ff94:	b240      	sxtb	r0, r0
 802ff96:	e004      	b.n	802ffa2 <tcp_close_shutdown+0x142>
       returns (unsent data is sent from tcp timer functions, also), we don't care
       for the return value of tcp_output for now. */
    /* @todo: When implementing SO_LINGER, this must be changed somehow:
       If SOF_LINGER is set, the data should be sent and acked before close returns.
       This can only be valid for sequential APIs, not for the raw API. */
    tcp_output(pcb);
 802ff98:	4620      	mov	r0, r4
 802ff9a:	f001 fae9 	bl	8031570 <tcp_output>
 802ff9e:	2000      	movs	r0, #0
 802ffa0:	e7f8      	b.n	802ff94 <tcp_close_shutdown+0x134>
  }
  return err;
}
 802ffa2:	bd3e      	pop	{r1, r2, r3, r4, r5, pc}
 802ffa4:	2000f6ac 	.word	0x2000f6ac
 802ffa8:	2000f6b8 	.word	0x2000f6b8
 802ffac:	2000f6a8 	.word	0x2000f6a8
 802ffb0:	2000f6c0 	.word	0x2000f6c0
 802ffb4:	2000f6bc 	.word	0x2000f6bc
 802ffb8:	2000f6b4 	.word	0x2000f6b4

0802ffbc <tcp_close>:
#if TCP_DEBUG
  LWIP_DEBUGF(TCP_DEBUG, ("tcp_close: closing in "));
  tcp_debug_print_state(pcb->state);
#endif /* TCP_DEBUG */

  if (pcb->state != LISTEN) {
 802ffbc:	7e03      	ldrb	r3, [r0, #24]
 802ffbe:	2b01      	cmp	r3, #1
 802ffc0:	d003      	beq.n	802ffca <tcp_close+0xe>
    /* Set a flag not to receive any more data... */
    pcb->flags |= TF_RXCLOSED;
 802ffc2:	7f83      	ldrb	r3, [r0, #30]
 802ffc4:	f043 0310 	orr.w	r3, r3, #16
 802ffc8:	7783      	strb	r3, [r0, #30]
  }
  /* ... and close */
  return tcp_close_shutdown(pcb, 1);
 802ffca:	2101      	movs	r1, #1
 802ffcc:	f7ff bf48 	b.w	802fe60 <tcp_close_shutdown>

0802ffd0 <tcp_recv_null>:
 * Default receive callback that is called if the user didn't register
 * a recv callback for the pcb.
 */
err_t
tcp_recv_null(void *arg, struct tcp_pcb *pcb, struct pbuf *p, err_t err)
{
 802ffd0:	b510      	push	{r4, lr}
 802ffd2:	4608      	mov	r0, r1
  LWIP_UNUSED_ARG(arg);
  if (p != NULL) {
 802ffd4:	4614      	mov	r4, r2
 802ffd6:	b132      	cbz	r2, 802ffe6 <tcp_recv_null+0x16>
    tcp_recved(pcb, p->tot_len);
 802ffd8:	8911      	ldrh	r1, [r2, #8]
 802ffda:	f7ff fd1f 	bl	802fa1c <tcp_recved>
    pbuf_free(p);
 802ffde:	4620      	mov	r0, r4
 802ffe0:	f7ff fa8a 	bl	802f4f8 <pbuf_free>
 802ffe4:	e004      	b.n	802fff0 <tcp_recv_null+0x20>
  } else if (err == ERR_OK) {
 802ffe6:	b91b      	cbnz	r3, 802fff0 <tcp_recv_null+0x20>
    return tcp_close(pcb);
  }
  return ERR_OK;
}
 802ffe8:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  LWIP_UNUSED_ARG(arg);
  if (p != NULL) {
    tcp_recved(pcb, p->tot_len);
    pbuf_free(p);
  } else if (err == ERR_OK) {
    return tcp_close(pcb);
 802ffec:	f7ff bfe6 	b.w	802ffbc <tcp_close>
  }
  return ERR_OK;
}
 802fff0:	2000      	movs	r0, #0
 802fff2:	bd10      	pop	{r4, pc}

0802fff4 <tcp_process_refused_data>:
}

/** Pass pcb->refused_data to the recv callback */
err_t
tcp_process_refused_data(struct tcp_pcb *pcb)
{
 802fff4:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  err_t err;
  u8_t refused_flags = pcb->refused_data->flags;
 802fff6:	6f45      	ldr	r5, [r0, #116]	; 0x74
     closes the pcb */
  struct pbuf *refused_data = pcb->refused_data;
  pcb->refused_data = NULL;
  /* Notify again application with data previously received. */
  LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_input: notify kept packet\n"));
  TCP_EVENT_RECV(pcb, refused_data, ERR_OK, err);
 802fff8:	6fc6      	ldr	r6, [r0, #124]	; 0x7c
/** Pass pcb->refused_data to the recv callback */
err_t
tcp_process_refused_data(struct tcp_pcb *pcb)
{
  err_t err;
  u8_t refused_flags = pcb->refused_data->flags;
 802fffa:	7b6f      	ldrb	r7, [r5, #13]
  /* set pcb->refused_data to NULL in case the callback frees it and then
     closes the pcb */
  struct pbuf *refused_data = pcb->refused_data;
  pcb->refused_data = NULL;
 802fffc:	2300      	movs	r3, #0
}

/** Pass pcb->refused_data to the recv callback */
err_t
tcp_process_refused_data(struct tcp_pcb *pcb)
{
 802fffe:	4604      	mov	r4, r0
  err_t err;
  u8_t refused_flags = pcb->refused_data->flags;
  /* set pcb->refused_data to NULL in case the callback frees it and then
     closes the pcb */
  struct pbuf *refused_data = pcb->refused_data;
  pcb->refused_data = NULL;
 8030000:	6743      	str	r3, [r0, #116]	; 0x74
  /* Notify again application with data previously received. */
  LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_input: notify kept packet\n"));
  TCP_EVENT_RECV(pcb, refused_data, ERR_OK, err);
 8030002:	b126      	cbz	r6, 803000e <tcp_process_refused_data+0x1a>
 8030004:	4621      	mov	r1, r4
 8030006:	462a      	mov	r2, r5
 8030008:	6900      	ldr	r0, [r0, #16]
 803000a:	47b0      	blx	r6
 803000c:	e005      	b.n	803001a <tcp_process_refused_data+0x26>
 803000e:	4630      	mov	r0, r6
 8030010:	4621      	mov	r1, r4
 8030012:	462a      	mov	r2, r5
 8030014:	4633      	mov	r3, r6
 8030016:	f7ff ffdb 	bl	802ffd0 <tcp_recv_null>
  if (err == ERR_OK) {
 803001a:	b9b0      	cbnz	r0, 803004a <tcp_process_refused_data+0x56>
    /* did refused_data include a FIN? */
    if (refused_flags & PBUF_FLAG_TCP_FIN) {
 803001c:	f007 0720 	and.w	r7, r7, #32
 8030020:	b2ff      	uxtb	r7, r7
 8030022:	b1bf      	cbz	r7, 8030054 <tcp_process_refused_data+0x60>
      /* correct rcv_wnd as the application won't call tcp_recved()
         for the FIN's seqno */
      if (pcb->rcv_wnd != TCP_WND) {
 8030024:	8da3      	ldrh	r3, [r4, #44]	; 0x2c
 8030026:	f241 62d0 	movw	r2, #5840	; 0x16d0
 803002a:	4293      	cmp	r3, r2
 803002c:	d001      	beq.n	8030032 <tcp_process_refused_data+0x3e>
        pcb->rcv_wnd++;
 803002e:	3301      	adds	r3, #1
 8030030:	85a3      	strh	r3, [r4, #44]	; 0x2c
      }
      TCP_EVENT_CLOSED(pcb, err);
 8030032:	6fe5      	ldr	r5, [r4, #124]	; 0x7c
 8030034:	b905      	cbnz	r5, 8030038 <tcp_process_refused_data+0x44>
 8030036:	e00c      	b.n	8030052 <tcp_process_refused_data+0x5e>
 8030038:	2200      	movs	r2, #0
 803003a:	6920      	ldr	r0, [r4, #16]
 803003c:	4621      	mov	r1, r4
 803003e:	4613      	mov	r3, r2
 8030040:	47a8      	blx	r5
      if (err == ERR_ABRT) {
 8030042:	300a      	adds	r0, #10
 8030044:	d105      	bne.n	8030052 <tcp_process_refused_data+0x5e>
        return ERR_ABRT;
 8030046:	20f6      	movs	r0, #246	; 0xf6
 8030048:	e004      	b.n	8030054 <tcp_process_refused_data+0x60>
      }
    }
  } else if (err == ERR_ABRT) {
 803004a:	b240      	sxtb	r0, r0
 803004c:	300a      	adds	r0, #10
 803004e:	d0fa      	beq.n	8030046 <tcp_process_refused_data+0x52>
       segment contains data). */
    LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_input: drop incoming packets, because pcb is \"full\"\n"));
    return ERR_ABRT;
  } else {
    /* data is still refused, pbuf is still valid (go on for ACK-only packets) */
    pcb->refused_data = refused_data;
 8030050:	6765      	str	r5, [r4, #116]	; 0x74
  }
  return ERR_OK;
 8030052:	2000      	movs	r0, #0
}
 8030054:	b240      	sxtb	r0, r0
 8030056:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}

08030058 <tcp_fasttmr>:
 *
 * Automatically called from tcp_tmr().
 */
void
tcp_fasttmr(void)
{
 8030058:	e92d 43f8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
  struct tcp_pcb *pcb;

  ++tcp_timer_ctr;
 803005c:	4b18      	ldr	r3, [pc, #96]	; (80300c0 <tcp_fasttmr+0x68>)

tcp_fasttmr_start:
  pcb = tcp_active_pcbs;
 803005e:	4f19      	ldr	r7, [pc, #100]	; (80300c4 <tcp_fasttmr+0x6c>)
void
tcp_fasttmr(void)
{
  struct tcp_pcb *pcb;

  ++tcp_timer_ctr;
 8030060:	781a      	ldrb	r2, [r3, #0]
 8030062:	3201      	adds	r2, #1
 8030064:	701a      	strb	r2, [r3, #0]

tcp_fasttmr_start:
  pcb = tcp_active_pcbs;

  while(pcb != NULL) {
    if (pcb->last_timer != tcp_timer_ctr) {
 8030066:	4698      	mov	r8, r3
  struct tcp_pcb *pcb;

  ++tcp_timer_ctr;

tcp_fasttmr_start:
  pcb = tcp_active_pcbs;
 8030068:	683c      	ldr	r4, [r7, #0]

      next = pcb->next;

      /* If there is data which was previously "refused" by upper layer */
      if (pcb->refused_data != NULL) {
        tcp_active_pcbs_changed = 0;
 803006a:	4d17      	ldr	r5, [pc, #92]	; (80300c8 <tcp_fasttmr+0x70>)
 803006c:	2600      	movs	r6, #0
  ++tcp_timer_ctr;

tcp_fasttmr_start:
  pcb = tcp_active_pcbs;

  while(pcb != NULL) {
 803006e:	e022      	b.n	80300b6 <tcp_fasttmr+0x5e>
    if (pcb->last_timer != tcp_timer_ctr) {
 8030070:	f898 2000 	ldrb.w	r2, [r8]
 8030074:	f894 3021 	ldrb.w	r3, [r4, #33]	; 0x21
 8030078:	4293      	cmp	r3, r2
 803007a:	d020      	beq.n	80300be <tcp_fasttmr+0x66>
      struct tcp_pcb *next;
      pcb->last_timer = tcp_timer_ctr;
 803007c:	f884 2021 	strb.w	r2, [r4, #33]	; 0x21
      /* send delayed ACKs */
      if (pcb->flags & TF_ACK_DELAY) {
 8030080:	7fa2      	ldrb	r2, [r4, #30]
 8030082:	07d1      	lsls	r1, r2, #31
 8030084:	d509      	bpl.n	803009a <tcp_fasttmr+0x42>
        LWIP_DEBUGF(TCP_DEBUG, ("tcp_fasttmr: delayed ACK\n"));
        tcp_ack_now(pcb);
 8030086:	f042 0202 	orr.w	r2, r2, #2
 803008a:	77a2      	strb	r2, [r4, #30]
        tcp_output(pcb);
 803008c:	4620      	mov	r0, r4
 803008e:	f001 fa6f 	bl	8031570 <tcp_output>
        pcb->flags &= ~(TF_ACK_DELAY | TF_ACK_NOW);
 8030092:	7fa3      	ldrb	r3, [r4, #30]
 8030094:	f023 0303 	bic.w	r3, r3, #3
 8030098:	77a3      	strb	r3, [r4, #30]
      }

      next = pcb->next;

      /* If there is data which was previously "refused" by upper layer */
      if (pcb->refused_data != NULL) {
 803009a:	6f63      	ldr	r3, [r4, #116]	; 0x74
        tcp_ack_now(pcb);
        tcp_output(pcb);
        pcb->flags &= ~(TF_ACK_DELAY | TF_ACK_NOW);
      }

      next = pcb->next;
 803009c:	f8d4 900c 	ldr.w	r9, [r4, #12]

      /* If there is data which was previously "refused" by upper layer */
      if (pcb->refused_data != NULL) {
 80300a0:	b90b      	cbnz	r3, 80300a6 <tcp_fasttmr+0x4e>
 80300a2:	464c      	mov	r4, r9
 80300a4:	e007      	b.n	80300b6 <tcp_fasttmr+0x5e>
        tcp_active_pcbs_changed = 0;
        tcp_process_refused_data(pcb);
 80300a6:	4620      	mov	r0, r4

      next = pcb->next;

      /* If there is data which was previously "refused" by upper layer */
      if (pcb->refused_data != NULL) {
        tcp_active_pcbs_changed = 0;
 80300a8:	702e      	strb	r6, [r5, #0]
        tcp_process_refused_data(pcb);
 80300aa:	f7ff ffa3 	bl	802fff4 <tcp_process_refused_data>
        if (tcp_active_pcbs_changed) {
 80300ae:	782b      	ldrb	r3, [r5, #0]
 80300b0:	2b00      	cmp	r3, #0
 80300b2:	d1d9      	bne.n	8030068 <tcp_fasttmr+0x10>
 80300b4:	e7f5      	b.n	80300a2 <tcp_fasttmr+0x4a>
  ++tcp_timer_ctr;

tcp_fasttmr_start:
  pcb = tcp_active_pcbs;

  while(pcb != NULL) {
 80300b6:	2c00      	cmp	r4, #0
 80300b8:	d1da      	bne.n	8030070 <tcp_fasttmr+0x18>
 80300ba:	e8bd 83f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, pc}
 80300be:	e7fe      	b.n	80300be <tcp_fasttmr+0x66>
 80300c0:	2000c3e1 	.word	0x2000c3e1
 80300c4:	2000f6ac 	.word	0x2000f6ac
 80300c8:	2000f6a8 	.word	0x2000f6a8

080300cc <tcp_tmr>:
/**
 * Called periodically to dispatch TCP timers.
 */
void
tcp_tmr(void)
{
 80300cc:	b508      	push	{r3, lr}
  /* Call tcp_fasttmr() every 250 ms */
  tcp_fasttmr();
 80300ce:	f7ff ffc3 	bl	8030058 <tcp_fasttmr>

  if (++tcp_timer & 1) {
 80300d2:	4a06      	ldr	r2, [pc, #24]	; (80300ec <tcp_tmr+0x20>)
 80300d4:	7813      	ldrb	r3, [r2, #0]
 80300d6:	3301      	adds	r3, #1
 80300d8:	b2db      	uxtb	r3, r3
 80300da:	07d8      	lsls	r0, r3, #31
 80300dc:	7013      	strb	r3, [r2, #0]
 80300de:	d503      	bpl.n	80300e8 <tcp_tmr+0x1c>
    /* Call tcp_tmr() every 500 ms, i.e., every other timer
       tcp_tmr() is called. */
    tcp_slowtmr();
  }
}
 80300e0:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  tcp_fasttmr();

  if (++tcp_timer & 1) {
    /* Call tcp_tmr() every 500 ms, i.e., every other timer
       tcp_tmr() is called. */
    tcp_slowtmr();
 80300e4:	f7ff bcfa 	b.w	802fadc <tcp_slowtmr>
 80300e8:	bd08      	pop	{r3, pc}
 80300ea:	bf00      	nop
 80300ec:	2000c3e0 	.word	0x2000c3e0

080300f0 <tcp_next_iss>:
u32_t
tcp_next_iss(void)
{
  static u32_t iss = 6510;
  
  iss += tcp_ticks;       /* XXX */
 80300f0:	4b03      	ldr	r3, [pc, #12]	; (8030100 <tcp_next_iss+0x10>)
 80300f2:	4a04      	ldr	r2, [pc, #16]	; (8030104 <tcp_next_iss+0x14>)
 80300f4:	6810      	ldr	r0, [r2, #0]
 80300f6:	681a      	ldr	r2, [r3, #0]
 80300f8:	1880      	adds	r0, r0, r2
 80300fa:	6018      	str	r0, [r3, #0]
  return iss;
}
 80300fc:	4770      	bx	lr
 80300fe:	bf00      	nop
 8030100:	20000718 	.word	0x20000718
 8030104:	2000f6b0 	.word	0x2000f6b0

08030108 <tcp_alloc>:
 * @param prio priority for the new pcb
 * @return a new tcp_pcb that initially is in state CLOSED
 */
struct tcp_pcb *
tcp_alloc(u8_t prio)
{
 8030108:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 803010a:	4605      	mov	r5, r0
  struct tcp_pcb *pcb;
  u32_t iss;
  
  pcb = (struct tcp_pcb *)memp_malloc(MEMP_TCP_PCB);
 803010c:	2002      	movs	r0, #2
 803010e:	f7ff f8d3 	bl	802f2b8 <memp_malloc>
  if (pcb == NULL) {
 8030112:	4604      	mov	r4, r0
 8030114:	2800      	cmp	r0, #0
 8030116:	d136      	bne.n	8030186 <tcp_alloc+0x7e>
  u32_t inactivity;

  inactivity = 0;
  inactive = NULL;
  /* Go through the list of TIME_WAIT pcbs and get the oldest pcb. */
  for(pcb = tcp_tw_pcbs; pcb != NULL; pcb = pcb->next) {
 8030118:	4b39      	ldr	r3, [pc, #228]	; (8030200 <tcp_alloc+0xf8>)
    if ((u32_t)(tcp_ticks - pcb->tmr) >= inactivity) {
 803011a:	4a3a      	ldr	r2, [pc, #232]	; (8030204 <tcp_alloc+0xfc>)
  u32_t inactivity;

  inactivity = 0;
  inactive = NULL;
  /* Go through the list of TIME_WAIT pcbs and get the oldest pcb. */
  for(pcb = tcp_tw_pcbs; pcb != NULL; pcb = pcb->next) {
 803011c:	681b      	ldr	r3, [r3, #0]
    if ((u32_t)(tcp_ticks - pcb->tmr) >= inactivity) {
 803011e:	6811      	ldr	r1, [r2, #0]
 8030120:	e007      	b.n	8030132 <tcp_alloc+0x2a>
 8030122:	6a5a      	ldr	r2, [r3, #36]	; 0x24
 8030124:	1a8a      	subs	r2, r1, r2
 8030126:	42a2      	cmp	r2, r4
 8030128:	bf34      	ite	cc
 803012a:	4622      	movcc	r2, r4
 803012c:	4618      	movcs	r0, r3
  u32_t inactivity;

  inactivity = 0;
  inactive = NULL;
  /* Go through the list of TIME_WAIT pcbs and get the oldest pcb. */
  for(pcb = tcp_tw_pcbs; pcb != NULL; pcb = pcb->next) {
 803012e:	68db      	ldr	r3, [r3, #12]
 8030130:	4614      	mov	r4, r2
 8030132:	2b00      	cmp	r3, #0
 8030134:	d1f5      	bne.n	8030122 <tcp_alloc+0x1a>
    if ((u32_t)(tcp_ticks - pcb->tmr) >= inactivity) {
      inactivity = tcp_ticks - pcb->tmr;
      inactive = pcb;
    }
  }
  if (inactive != NULL) {
 8030136:	b108      	cbz	r0, 803013c <tcp_alloc+0x34>
    LWIP_DEBUGF(TCP_DEBUG, ("tcp_kill_timewait: killing oldest TIME-WAIT PCB %p (%"S32_F")\n",
           (void *)inactive, inactivity));
    tcp_abort(inactive);
 8030138:	f7ff fe8e 	bl	802fe58 <tcp_abort>
  if (pcb == NULL) {
    /* Try killing oldest connection in TIME-WAIT. */
    LWIP_DEBUGF(TCP_DEBUG, ("tcp_alloc: killing off oldest TIME-WAIT connection\n"));
    tcp_kill_timewait();
    /* Try to allocate a tcp_pcb again. */
    pcb = (struct tcp_pcb *)memp_malloc(MEMP_TCP_PCB);
 803013c:	2002      	movs	r0, #2
 803013e:	f7ff f8bb 	bl	802f2b8 <memp_malloc>
    if (pcb == NULL) {
 8030142:	4604      	mov	r4, r0
 8030144:	b9f8      	cbnz	r0, 8030186 <tcp_alloc+0x7e>
  inactivity = 0;
  inactive = NULL;
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
    if (pcb->prio <= prio &&
       pcb->prio <= mprio &&
       (u32_t)(tcp_ticks - pcb->tmr) >= inactivity) {
 8030146:	4a2f      	ldr	r2, [pc, #188]	; (8030204 <tcp_alloc+0xfc>)
  mprio = TCP_PRIO_MAX;
  
  /* We kill the oldest active connection that has lower priority than prio. */
  inactivity = 0;
  inactive = NULL;
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
 8030148:	4b2f      	ldr	r3, [pc, #188]	; (8030208 <tcp_alloc+0x100>)
    if (pcb->prio <= prio &&
       pcb->prio <= mprio &&
       (u32_t)(tcp_ticks - pcb->tmr) >= inactivity) {
 803014a:	6817      	ldr	r7, [r2, #0]
  mprio = TCP_PRIO_MAX;
  
  /* We kill the oldest active connection that has lower priority than prio. */
  inactivity = 0;
  inactive = NULL;
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
 803014c:	681b      	ldr	r3, [r3, #0]
  struct tcp_pcb *pcb, *inactive;
  u32_t inactivity;
  u8_t mprio;


  mprio = TCP_PRIO_MAX;
 803014e:	207f      	movs	r0, #127	; 0x7f
  
  /* We kill the oldest active connection that has lower priority than prio. */
  inactivity = 0;
  inactive = NULL;
 8030150:	4622      	mov	r2, r4
 8030152:	e00c      	b.n	803016e <tcp_alloc+0x66>
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
    if (pcb->prio <= prio &&
 8030154:	7e59      	ldrb	r1, [r3, #25]
 8030156:	42a9      	cmp	r1, r5
 8030158:	d808      	bhi.n	803016c <tcp_alloc+0x64>
 803015a:	4281      	cmp	r1, r0
 803015c:	d806      	bhi.n	803016c <tcp_alloc+0x64>
       pcb->prio <= mprio &&
       (u32_t)(tcp_ticks - pcb->tmr) >= inactivity) {
 803015e:	6a5e      	ldr	r6, [r3, #36]	; 0x24
 8030160:	1bbe      	subs	r6, r7, r6
  /* We kill the oldest active connection that has lower priority than prio. */
  inactivity = 0;
  inactive = NULL;
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
    if (pcb->prio <= prio &&
       pcb->prio <= mprio &&
 8030162:	42a6      	cmp	r6, r4
 8030164:	d302      	bcc.n	803016c <tcp_alloc+0x64>
 8030166:	4608      	mov	r0, r1
 8030168:	4634      	mov	r4, r6
 803016a:	461a      	mov	r2, r3
  mprio = TCP_PRIO_MAX;
  
  /* We kill the oldest active connection that has lower priority than prio. */
  inactivity = 0;
  inactive = NULL;
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
 803016c:	68db      	ldr	r3, [r3, #12]
 803016e:	2b00      	cmp	r3, #0
 8030170:	d1f0      	bne.n	8030154 <tcp_alloc+0x4c>
      inactivity = tcp_ticks - pcb->tmr;
      inactive = pcb;
      mprio = pcb->prio;
    }
  }
  if (inactive != NULL) {
 8030172:	b112      	cbz	r2, 803017a <tcp_alloc+0x72>
    LWIP_DEBUGF(TCP_DEBUG, ("tcp_kill_prio: killing oldest PCB %p (%"S32_F")\n",
           (void *)inactive, inactivity));
    tcp_abort(inactive);
 8030174:	4610      	mov	r0, r2
 8030176:	f7ff fe6f 	bl	802fe58 <tcp_abort>
    if (pcb == NULL) {
      /* Try killing active connections with lower priority than the new one. */
      LWIP_DEBUGF(TCP_DEBUG, ("tcp_alloc: killing connection with prio lower than %d\n", prio));
      tcp_kill_prio(prio);
      /* Try to allocate a tcp_pcb again. */
      pcb = (struct tcp_pcb *)memp_malloc(MEMP_TCP_PCB);
 803017a:	2002      	movs	r0, #2
 803017c:	f7ff f89c 	bl	802f2b8 <memp_malloc>
    if (pcb != NULL) {
      /* adjust err stats: timewait PCB was freed above */
      MEMP_STATS_DEC(err, MEMP_TCP_PCB);
    }
  }
  if (pcb != NULL) {
 8030180:	4604      	mov	r4, r0
 8030182:	2800      	cmp	r0, #0
 8030184:	d039      	beq.n	80301fa <tcp_alloc+0xf2>
    memset(pcb, 0, sizeof(struct tcp_pcb));
 8030186:	2100      	movs	r1, #0
 8030188:	2294      	movs	r2, #148	; 0x94
 803018a:	4620      	mov	r0, r4
 803018c:	f7f1 fe08 	bl	8021da0 <memset>
    pcb->prio = prio;
    pcb->snd_buf = TCP_SND_BUF;
    pcb->snd_queuelen = 0;
    pcb->rcv_wnd = TCP_WND;
 8030190:	f241 62d0 	movw	r2, #5840	; 0x16d0
    }
  }
  if (pcb != NULL) {
    memset(pcb, 0, sizeof(struct tcp_pcb));
    pcb->prio = prio;
    pcb->snd_buf = TCP_SND_BUF;
 8030194:	f246 63a8 	movw	r3, #26280	; 0x66a8
 8030198:	f8a4 3066 	strh.w	r3, [r4, #102]	; 0x66
    pcb->snd_queuelen = 0;
    pcb->rcv_wnd = TCP_WND;
 803019c:	85a2      	strh	r2, [r4, #44]	; 0x2c
  }
  if (pcb != NULL) {
    memset(pcb, 0, sizeof(struct tcp_pcb));
    pcb->prio = prio;
    pcb->snd_buf = TCP_SND_BUF;
    pcb->snd_queuelen = 0;
 803019e:	2300      	movs	r3, #0
    pcb->rcv_wnd = TCP_WND;
    pcb->rcv_ann_wnd = TCP_WND;
 80301a0:	85e2      	strh	r2, [r4, #46]	; 0x2e
    pcb->tos = 0;
    pcb->ttl = TCP_TTL;
 80301a2:	22ff      	movs	r2, #255	; 0xff
      MEMP_STATS_DEC(err, MEMP_TCP_PCB);
    }
  }
  if (pcb != NULL) {
    memset(pcb, 0, sizeof(struct tcp_pcb));
    pcb->prio = prio;
 80301a4:	7665      	strb	r5, [r4, #25]
    pcb->snd_buf = TCP_SND_BUF;
    pcb->snd_queuelen = 0;
 80301a6:	f8a4 3068 	strh.w	r3, [r4, #104]	; 0x68
 80301aa:	461d      	mov	r5, r3
    pcb->rcv_wnd = TCP_WND;
    pcb->rcv_ann_wnd = TCP_WND;
    pcb->tos = 0;
 80301ac:	7263      	strb	r3, [r4, #9]
    pcb->ttl = TCP_TTL;
 80301ae:	72a2      	strb	r2, [r4, #10]
    /* As initial send MSS, we use TCP_MSS but limit it to 536.
       The send MSS is updated when an MSS option is received. */
    pcb->mss = (TCP_MSS > 536) ? 536 : TCP_MSS;
    pcb->rto = 3000 / TCP_SLOW_INTERVAL;
    pcb->sa = 0;
 80301b0:	f8a4 3040 	strh.w	r3, [r4, #64]	; 0x40
    pcb->rcv_ann_wnd = TCP_WND;
    pcb->tos = 0;
    pcb->ttl = TCP_TTL;
    /* As initial send MSS, we use TCP_MSS but limit it to 536.
       The send MSS is updated when an MSS option is received. */
    pcb->mss = (TCP_MSS > 536) ? 536 : TCP_MSS;
 80301b4:	f44f 7206 	mov.w	r2, #536	; 0x218
    pcb->rto = 3000 / TCP_SLOW_INTERVAL;
    pcb->sa = 0;
    pcb->sv = 3000 / TCP_SLOW_INTERVAL;
    pcb->rtime = -1;
 80301b8:	f64f 73ff 	movw	r3, #65535	; 0xffff
    pcb->rcv_ann_wnd = TCP_WND;
    pcb->tos = 0;
    pcb->ttl = TCP_TTL;
    /* As initial send MSS, we use TCP_MSS but limit it to 536.
       The send MSS is updated when an MSS option is received. */
    pcb->mss = (TCP_MSS > 536) ? 536 : TCP_MSS;
 80301bc:	86e2      	strh	r2, [r4, #54]	; 0x36
    pcb->rto = 3000 / TCP_SLOW_INTERVAL;
    pcb->sa = 0;
    pcb->sv = 3000 / TCP_SLOW_INTERVAL;
    pcb->rtime = -1;
 80301be:	86a3      	strh	r3, [r4, #52]	; 0x34
    pcb->tos = 0;
    pcb->ttl = TCP_TTL;
    /* As initial send MSS, we use TCP_MSS but limit it to 536.
       The send MSS is updated when an MSS option is received. */
    pcb->mss = (TCP_MSS > 536) ? 536 : TCP_MSS;
    pcb->rto = 3000 / TCP_SLOW_INTERVAL;
 80301c0:	2206      	movs	r2, #6
    pcb->sa = 0;
    pcb->sv = 3000 / TCP_SLOW_INTERVAL;
    pcb->rtime = -1;
    pcb->cwnd = 1;
 80301c2:	2301      	movs	r3, #1
 80301c4:	f8a4 304c 	strh.w	r3, [r4, #76]	; 0x4c
    pcb->tos = 0;
    pcb->ttl = TCP_TTL;
    /* As initial send MSS, we use TCP_MSS but limit it to 536.
       The send MSS is updated when an MSS option is received. */
    pcb->mss = (TCP_MSS > 536) ? 536 : TCP_MSS;
    pcb->rto = 3000 / TCP_SLOW_INTERVAL;
 80301c8:	f8a4 2044 	strh.w	r2, [r4, #68]	; 0x44
    pcb->sa = 0;
    pcb->sv = 3000 / TCP_SLOW_INTERVAL;
 80301cc:	f8a4 2042 	strh.w	r2, [r4, #66]	; 0x42
    pcb->rtime = -1;
    pcb->cwnd = 1;
    iss = tcp_next_iss();
 80301d0:	f7ff ff8e 	bl	80300f0 <tcp_next_iss>
    pcb->snd_wl2 = iss;
    pcb->snd_nxt = iss;
    pcb->lastack = iss;
    pcb->snd_lbb = iss;   
    pcb->tmr = tcp_ticks;
 80301d4:	4b0b      	ldr	r3, [pc, #44]	; (8030204 <tcp_alloc+0xfc>)
    pcb->sa = 0;
    pcb->sv = 3000 / TCP_SLOW_INTERVAL;
    pcb->rtime = -1;
    pcb->cwnd = 1;
    iss = tcp_next_iss();
    pcb->snd_wl2 = iss;
 80301d6:	65a0      	str	r0, [r4, #88]	; 0x58
    pcb->snd_nxt = iss;
    pcb->lastack = iss;
    pcb->snd_lbb = iss;   
    pcb->tmr = tcp_ticks;
 80301d8:	681b      	ldr	r3, [r3, #0]
    pcb->sv = 3000 / TCP_SLOW_INTERVAL;
    pcb->rtime = -1;
    pcb->cwnd = 1;
    iss = tcp_next_iss();
    pcb->snd_wl2 = iss;
    pcb->snd_nxt = iss;
 80301da:	6520      	str	r0, [r4, #80]	; 0x50
    pcb->lastack = iss;
    pcb->snd_lbb = iss;   
    pcb->tmr = tcp_ticks;
 80301dc:	6263      	str	r3, [r4, #36]	; 0x24
    pcb->last_timer = tcp_timer_ctr;
 80301de:	4b0b      	ldr	r3, [pc, #44]	; (803020c <tcp_alloc+0x104>)
    pcb->rtime = -1;
    pcb->cwnd = 1;
    iss = tcp_next_iss();
    pcb->snd_wl2 = iss;
    pcb->snd_nxt = iss;
    pcb->lastack = iss;
 80301e0:	64a0      	str	r0, [r4, #72]	; 0x48
    pcb->snd_lbb = iss;   
    pcb->tmr = tcp_ticks;
    pcb->last_timer = tcp_timer_ctr;
 80301e2:	781b      	ldrb	r3, [r3, #0]
    pcb->cwnd = 1;
    iss = tcp_next_iss();
    pcb->snd_wl2 = iss;
    pcb->snd_nxt = iss;
    pcb->lastack = iss;
    pcb->snd_lbb = iss;   
 80301e4:	65e0      	str	r0, [r4, #92]	; 0x5c
    pcb->tmr = tcp_ticks;
    pcb->last_timer = tcp_timer_ctr;
 80301e6:	f884 3021 	strb.w	r3, [r4, #33]	; 0x21

    pcb->polltmr = 0;

#if LWIP_CALLBACK_API
    pcb->recv = tcp_recv_null;
 80301ea:	4b09      	ldr	r3, [pc, #36]	; (8030210 <tcp_alloc+0x108>)
    pcb->lastack = iss;
    pcb->snd_lbb = iss;   
    pcb->tmr = tcp_ticks;
    pcb->last_timer = tcp_timer_ctr;

    pcb->polltmr = 0;
 80301ec:	77e5      	strb	r5, [r4, #31]

#if LWIP_CALLBACK_API
    pcb->recv = tcp_recv_null;
 80301ee:	67e3      	str	r3, [r4, #124]	; 0x7c
#endif /* LWIP_CALLBACK_API */  
    
    /* Init KEEPALIVE timer */
    pcb->keep_idle  = TCP_KEEPIDLE_DEFAULT;
 80301f0:	4b08      	ldr	r3, [pc, #32]	; (8030214 <tcp_alloc+0x10c>)
#if LWIP_TCP_KEEPALIVE
    pcb->keep_intvl = TCP_KEEPINTVL_DEFAULT;
    pcb->keep_cnt   = TCP_KEEPCNT_DEFAULT;
#endif /* LWIP_TCP_KEEPALIVE */

    pcb->keep_cnt_sent = 0;
 80301f2:	f884 5092 	strb.w	r5, [r4, #146]	; 0x92
#if LWIP_CALLBACK_API
    pcb->recv = tcp_recv_null;
#endif /* LWIP_CALLBACK_API */  
    
    /* Init KEEPALIVE timer */
    pcb->keep_idle  = TCP_KEEPIDLE_DEFAULT;
 80301f6:	f8c4 308c 	str.w	r3, [r4, #140]	; 0x8c
#endif /* LWIP_TCP_KEEPALIVE */

    pcb->keep_cnt_sent = 0;
  }
  return pcb;
}
 80301fa:	4620      	mov	r0, r4
 80301fc:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 80301fe:	bf00      	nop
 8030200:	2000f6c0 	.word	0x2000f6c0
 8030204:	2000f6b0 	.word	0x2000f6b0
 8030208:	2000f6ac 	.word	0x2000f6ac
 803020c:	2000c3e1 	.word	0x2000c3e1
 8030210:	0802ffd1 	.word	0x0802ffd1
 8030214:	006ddd00 	.word	0x006ddd00

08030218 <tcp_new>:
 * @return a new tcp_pcb that initially is in state CLOSED
 */
struct tcp_pcb *
tcp_new(void)
{
  return tcp_alloc(TCP_PRIO_NORMAL);
 8030218:	2040      	movs	r0, #64	; 0x40
 803021a:	f7ff bf75 	b.w	8030108 <tcp_alloc>

0803021e <tcp_eff_send_mss>:
 * by using ip_route to determin the netif used to send to the address and
 * calculating the minimum of TCP_MSS and that netif's mtu (if set).
 */
u16_t
tcp_eff_send_mss(u16_t sendmss, ip_addr_t *addr)
{
 803021e:	b510      	push	{r4, lr}
 8030220:	4604      	mov	r4, r0
  u16_t mss_s;
  struct netif *outif;

  outif = ip_route(addr);
 8030222:	4608      	mov	r0, r1
 8030224:	f002 f8f2 	bl	803240c <ip_route>
  if ((outif != NULL) && (outif->mtu != 0)) {
 8030228:	b130      	cbz	r0, 8030238 <tcp_eff_send_mss+0x1a>
 803022a:	8c83      	ldrh	r3, [r0, #36]	; 0x24
 803022c:	b123      	cbz	r3, 8030238 <tcp_eff_send_mss+0x1a>
    mss_s = outif->mtu - IP_HLEN - TCP_HLEN;
 803022e:	3b28      	subs	r3, #40	; 0x28
    /* RFC 1122, chap 4.2.2.6:
     * Eff.snd.MSS = min(SendMSS+20, MMS_S) - TCPhdrsize - IPoptionsize
     * We correct for TCP options in tcp_write(), and don't support IP options.
     */
    sendmss = LWIP_MIN(sendmss, mss_s);
 8030230:	b29b      	uxth	r3, r3
 8030232:	429c      	cmp	r4, r3
 8030234:	bf28      	it	cs
 8030236:	461c      	movcs	r4, r3
  }
  return sendmss;
}
 8030238:	4620      	mov	r0, r4
 803023a:	bd10      	pop	{r4, pc}

0803023c <tcp_parseopt>:
 *
 * @param pcb the tcp_pcb for which a segment arrived
 */
static void
tcp_parseopt(struct tcp_pcb *pcb)
{
 803023c:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  u8_t *opts, opt;
#if LWIP_TCP_TIMESTAMPS
  u32_t tsval;
#endif

  opts = (u8_t *)tcphdr + TCP_HLEN;
 803023e:	4d1e      	ldr	r5, [pc, #120]	; (80302b8 <tcp_parseopt+0x7c>)
 8030240:	682c      	ldr	r4, [r5, #0]
 *
 * @param pcb the tcp_pcb for which a segment arrived
 */
static void
tcp_parseopt(struct tcp_pcb *pcb)
{
 8030242:	4606      	mov	r6, r0
#endif

  opts = (u8_t *)tcphdr + TCP_HLEN;

  /* Parse the TCP MSS option, if present. */
  if(TCPH_HDRLEN(tcphdr) > 0x5) {
 8030244:	89a0      	ldrh	r0, [r4, #12]
 8030246:	f7fe f81e 	bl	802e286 <lwip_ntohs>
 803024a:	f3c0 300f 	ubfx	r0, r0, #12, #16
 803024e:	2805      	cmp	r0, #5
 8030250:	d931      	bls.n	80302b6 <tcp_parseopt+0x7a>
    max_c = (TCPH_HDRLEN(tcphdr) - 5) << 2;
 8030252:	682b      	ldr	r3, [r5, #0]
 8030254:	8998      	ldrh	r0, [r3, #12]
 8030256:	f7fe f816 	bl	802e286 <lwip_ntohs>
 803025a:	0b00      	lsrs	r0, r0, #12
 803025c:	1f41      	subs	r1, r0, #5
 803025e:	0089      	lsls	r1, r1, #2
  u8_t *opts, opt;
#if LWIP_TCP_TIMESTAMPS
  u32_t tsval;
#endif

  opts = (u8_t *)tcphdr + TCP_HLEN;
 8030260:	3414      	adds	r4, #20

  /* Parse the TCP MSS option, if present. */
  if(TCPH_HDRLEN(tcphdr) > 0x5) {
    max_c = (TCPH_HDRLEN(tcphdr) - 5) << 2;
 8030262:	b289      	uxth	r1, r1
    for (c = 0; c < max_c; ) {
 8030264:	2300      	movs	r3, #0
          return;
        }
        /* An MSS option with the right option length. */
        mss = (opts[c + 2] << 8) | opts[c + 3];
        /* Limit the mss to the configured TCP_MSS and prevent division by zero */
        pcb->mss = ((mss > TCP_MSS) || (mss == 0)) ? TCP_MSS : mss;
 8030266:	f240 50b3 	movw	r0, #1459	; 0x5b3
 803026a:	f240 55b4 	movw	r5, #1460	; 0x5b4
  opts = (u8_t *)tcphdr + TCP_HLEN;

  /* Parse the TCP MSS option, if present. */
  if(TCPH_HDRLEN(tcphdr) > 0x5) {
    max_c = (TCPH_HDRLEN(tcphdr) - 5) << 2;
    for (c = 0; c < max_c; ) {
 803026e:	e020      	b.n	80302b2 <tcp_parseopt+0x76>
      opt = opts[c];
      switch (opt) {
 8030270:	5ce2      	ldrb	r2, [r4, r3]
 8030272:	2a01      	cmp	r2, #1
 8030274:	d005      	beq.n	8030282 <tcp_parseopt+0x46>
 8030276:	d31e      	bcc.n	80302b6 <tcp_parseopt+0x7a>
 8030278:	2a02      	cmp	r2, #2
 803027a:	eb04 0203 	add.w	r2, r4, r3
 803027e:	d114      	bne.n	80302aa <tcp_parseopt+0x6e>
 8030280:	e001      	b.n	8030286 <tcp_parseopt+0x4a>
        /* End of options. */
        LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_parseopt: EOL\n"));
        return;
      case 0x01:
        /* NOP option. */
        ++c;
 8030282:	3301      	adds	r3, #1
 8030284:	e014      	b.n	80302b0 <tcp_parseopt+0x74>
        LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_parseopt: NOP\n"));
        break;
      case 0x02:
        LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_parseopt: MSS\n"));
        if (opts[c + 1] != 0x04 || c + 0x04 > max_c) {
 8030286:	7857      	ldrb	r7, [r2, #1]
 8030288:	2f04      	cmp	r7, #4
 803028a:	d114      	bne.n	80302b6 <tcp_parseopt+0x7a>
 803028c:	1cdf      	adds	r7, r3, #3
 803028e:	428f      	cmp	r7, r1
 8030290:	da11      	bge.n	80302b6 <tcp_parseopt+0x7a>
          /* Bad length */
          LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_parseopt: bad length\n"));
          return;
        }
        /* An MSS option with the right option length. */
        mss = (opts[c + 2] << 8) | opts[c + 3];
 8030292:	7897      	ldrb	r7, [r2, #2]
 8030294:	78d2      	ldrb	r2, [r2, #3]
 8030296:	ea42 2207 	orr.w	r2, r2, r7, lsl #8
        /* Limit the mss to the configured TCP_MSS and prevent division by zero */
        pcb->mss = ((mss > TCP_MSS) || (mss == 0)) ? TCP_MSS : mss;
 803029a:	1e57      	subs	r7, r2, #1
 803029c:	b2bf      	uxth	r7, r7
 803029e:	4287      	cmp	r7, r0
 80302a0:	bf88      	it	hi
 80302a2:	462a      	movhi	r2, r5
 80302a4:	86f2      	strh	r2, [r6, #54]	; 0x36
        /* Advance to next option */
        c += 0x04;
 80302a6:	3304      	adds	r3, #4
 80302a8:	e002      	b.n	80302b0 <tcp_parseopt+0x74>
        c += 0x0A;
        break;
#endif
      default:
        LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_parseopt: other\n"));
        if (opts[c + 1] == 0) {
 80302aa:	7852      	ldrb	r2, [r2, #1]
 80302ac:	b11a      	cbz	r2, 80302b6 <tcp_parseopt+0x7a>
             and we don't process them further. */
          return;
        }
        /* All other options have a length field, so that we easily
           can skip past them. */
        c += opts[c + 1];
 80302ae:	18d3      	adds	r3, r2, r3
 80302b0:	b29b      	uxth	r3, r3
  opts = (u8_t *)tcphdr + TCP_HLEN;

  /* Parse the TCP MSS option, if present. */
  if(TCPH_HDRLEN(tcphdr) > 0x5) {
    max_c = (TCPH_HDRLEN(tcphdr) - 5) << 2;
    for (c = 0; c < max_c; ) {
 80302b2:	428b      	cmp	r3, r1
 80302b4:	d3dc      	bcc.n	8030270 <tcp_parseopt+0x34>
 80302b6:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 80302b8:	2000c3e4 	.word	0x2000c3e4

080302bc <tcp_receive>:
 *
 * Called from tcp_process().
 */
static void
tcp_receive(struct tcp_pcb *pcb)
{
 80302bc:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
  u16_t ooseq_qlen;
#endif /* TCP_OOSEQ_MAX_BYTES || TCP_OOSEQ_MAX_PBUFS */

  LWIP_ASSERT("tcp_receive: wrong state", pcb->state >= ESTABLISHED);

  if (flags & TCP_ACK) {
 80302c0:	4ba0      	ldr	r3, [pc, #640]	; (8030544 <tcp_receive+0x288>)
 80302c2:	781b      	ldrb	r3, [r3, #0]
 80302c4:	f003 0310 	and.w	r3, r3, #16
 80302c8:	b2db      	uxtb	r3, r3
 *
 * Called from tcp_process().
 */
static void
tcp_receive(struct tcp_pcb *pcb)
{
 80302ca:	4604      	mov	r4, r0
  u16_t ooseq_qlen;
#endif /* TCP_OOSEQ_MAX_BYTES || TCP_OOSEQ_MAX_PBUFS */

  LWIP_ASSERT("tcp_receive: wrong state", pcb->state >= ESTABLISHED);

  if (flags & TCP_ACK) {
 80302cc:	2b00      	cmp	r3, #0
 80302ce:	f000 816b 	beq.w	80305a8 <tcp_receive+0x2ec>
    right_wnd_edge = pcb->snd_wnd + pcb->snd_wl2;

    /* Update window. */
    if (TCP_SEQ_LT(pcb->snd_wl1, seqno) ||
 80302d2:	4a9d      	ldr	r2, [pc, #628]	; (8030548 <tcp_receive+0x28c>)
 80302d4:	6d43      	ldr	r3, [r0, #84]	; 0x54
 80302d6:	6812      	ldr	r2, [r2, #0]
#endif /* TCP_OOSEQ_MAX_BYTES || TCP_OOSEQ_MAX_PBUFS */

  LWIP_ASSERT("tcp_receive: wrong state", pcb->state >= ESTABLISHED);

  if (flags & TCP_ACK) {
    right_wnd_edge = pcb->snd_wnd + pcb->snd_wl2;
 80302d8:	f8b0 5060 	ldrh.w	r5, [r0, #96]	; 0x60
 80302dc:	6d81      	ldr	r1, [r0, #88]	; 0x58

    /* Update window. */
    if (TCP_SEQ_LT(pcb->snd_wl1, seqno) ||
 80302de:	1a98      	subs	r0, r3, r2
 80302e0:	2800      	cmp	r0, #0
 80302e2:	db0e      	blt.n	8030302 <tcp_receive+0x46>
 80302e4:	4293      	cmp	r3, r2
 80302e6:	4b99      	ldr	r3, [pc, #612]	; (803054c <tcp_receive+0x290>)
 80302e8:	d103      	bne.n	80302f2 <tcp_receive+0x36>
       (pcb->snd_wl1 == seqno && TCP_SEQ_LT(pcb->snd_wl2, ackno)) ||
 80302ea:	6818      	ldr	r0, [r3, #0]
 80302ec:	1a08      	subs	r0, r1, r0
 80302ee:	2800      	cmp	r0, #0
 80302f0:	db07      	blt.n	8030302 <tcp_receive+0x46>
 80302f2:	681b      	ldr	r3, [r3, #0]
 80302f4:	4299      	cmp	r1, r3
 80302f6:	d11f      	bne.n	8030338 <tcp_receive+0x7c>
       (pcb->snd_wl2 == ackno && tcphdr->wnd > pcb->snd_wnd)) {
 80302f8:	4b95      	ldr	r3, [pc, #596]	; (8030550 <tcp_receive+0x294>)
 80302fa:	681b      	ldr	r3, [r3, #0]
 80302fc:	89db      	ldrh	r3, [r3, #14]
 80302fe:	42ab      	cmp	r3, r5
 8030300:	d91a      	bls.n	8030338 <tcp_receive+0x7c>
      pcb->snd_wnd = tcphdr->wnd;
 8030302:	4b93      	ldr	r3, [pc, #588]	; (8030550 <tcp_receive+0x294>)
      /* keep track of the biggest window announced by the remote host to calculate
         the maximum segment size */
      if (pcb->snd_wnd_max < tcphdr->wnd) {
 8030304:	f8b4 6062 	ldrh.w	r6, [r4, #98]	; 0x62

    /* Update window. */
    if (TCP_SEQ_LT(pcb->snd_wl1, seqno) ||
       (pcb->snd_wl1 == seqno && TCP_SEQ_LT(pcb->snd_wl2, ackno)) ||
       (pcb->snd_wl2 == ackno && tcphdr->wnd > pcb->snd_wnd)) {
      pcb->snd_wnd = tcphdr->wnd;
 8030308:	681b      	ldr	r3, [r3, #0]
 803030a:	89d8      	ldrh	r0, [r3, #14]
      /* keep track of the biggest window announced by the remote host to calculate
         the maximum segment size */
      if (pcb->snd_wnd_max < tcphdr->wnd) {
        pcb->snd_wnd_max = tcphdr->wnd;
      }
      pcb->snd_wl1 = seqno;
 803030c:	6562      	str	r2, [r4, #84]	; 0x54
      pcb->snd_wl2 = ackno;
 803030e:	4a8f      	ldr	r2, [pc, #572]	; (803054c <tcp_receive+0x290>)

    /* Update window. */
    if (TCP_SEQ_LT(pcb->snd_wl1, seqno) ||
       (pcb->snd_wl1 == seqno && TCP_SEQ_LT(pcb->snd_wl2, ackno)) ||
       (pcb->snd_wl2 == ackno && tcphdr->wnd > pcb->snd_wnd)) {
      pcb->snd_wnd = tcphdr->wnd;
 8030310:	f8a4 0060 	strh.w	r0, [r4, #96]	; 0x60
         the maximum segment size */
      if (pcb->snd_wnd_max < tcphdr->wnd) {
        pcb->snd_wnd_max = tcphdr->wnd;
      }
      pcb->snd_wl1 = seqno;
      pcb->snd_wl2 = ackno;
 8030314:	6812      	ldr	r2, [r2, #0]
       (pcb->snd_wl1 == seqno && TCP_SEQ_LT(pcb->snd_wl2, ackno)) ||
       (pcb->snd_wl2 == ackno && tcphdr->wnd > pcb->snd_wnd)) {
      pcb->snd_wnd = tcphdr->wnd;
      /* keep track of the biggest window announced by the remote host to calculate
         the maximum segment size */
      if (pcb->snd_wnd_max < tcphdr->wnd) {
 8030316:	4286      	cmp	r6, r0
        pcb->snd_wnd_max = tcphdr->wnd;
      }
      pcb->snd_wl1 = seqno;
      pcb->snd_wl2 = ackno;
 8030318:	65a2      	str	r2, [r4, #88]	; 0x58
       (pcb->snd_wl2 == ackno && tcphdr->wnd > pcb->snd_wnd)) {
      pcb->snd_wnd = tcphdr->wnd;
      /* keep track of the biggest window announced by the remote host to calculate
         the maximum segment size */
      if (pcb->snd_wnd_max < tcphdr->wnd) {
        pcb->snd_wnd_max = tcphdr->wnd;
 803031a:	bf38      	it	cc
 803031c:	f8a4 0062 	strhcc.w	r0, [r4, #98]	; 0x62
 8030320:	f894 2091 	ldrb.w	r2, [r4, #145]	; 0x91
      }
      pcb->snd_wl1 = seqno;
      pcb->snd_wl2 = ackno;
      if (pcb->snd_wnd == 0) {
 8030324:	b920      	cbnz	r0, 8030330 <tcp_receive+0x74>
        if (pcb->persist_backoff == 0) {
 8030326:	b93a      	cbnz	r2, 8030338 <tcp_receive+0x7c>
          /* start persist timer */
          pcb->persist_cnt = 0;
 8030328:	f884 0090 	strb.w	r0, [r4, #144]	; 0x90
          pcb->persist_backoff = 1;
 803032c:	2301      	movs	r3, #1
 803032e:	e001      	b.n	8030334 <tcp_receive+0x78>
        }
      } else if (pcb->persist_backoff > 0) {
 8030330:	b112      	cbz	r2, 8030338 <tcp_receive+0x7c>
        /* stop persist timer */
          pcb->persist_backoff = 0;
 8030332:	2300      	movs	r3, #0
 8030334:	f884 3091 	strb.w	r3, [r4, #145]	; 0x91
     * If it only passes 1, should reset dupack counter
     *
     */

    /* Clause 1 */
    if (TCP_SEQ_LEQ(ackno, pcb->lastack)) {
 8030338:	4b84      	ldr	r3, [pc, #528]	; (803054c <tcp_receive+0x290>)
 803033a:	6ca2      	ldr	r2, [r4, #72]	; 0x48
 803033c:	681b      	ldr	r3, [r3, #0]
 803033e:	1a98      	subs	r0, r3, r2
 8030340:	2800      	cmp	r0, #0
 8030342:	dc34      	bgt.n	80303ae <tcp_receive+0xf2>
      pcb->acked = 0;
 8030344:	2000      	movs	r0, #0
 8030346:	f8a4 0064 	strh.w	r0, [r4, #100]	; 0x64
      /* Clause 2 */
      if (tcplen == 0) {
 803034a:	4882      	ldr	r0, [pc, #520]	; (8030554 <tcp_receive+0x298>)
 803034c:	8800      	ldrh	r0, [r0, #0]
 803034e:	2800      	cmp	r0, #0
 8030350:	f040 81f4 	bne.w	803073c <tcp_receive+0x480>
        /* Clause 3 */
        if (pcb->snd_wl2 + pcb->snd_wnd == right_wnd_edge){
 8030354:	f8b4 6060 	ldrh.w	r6, [r4, #96]	; 0x60
 8030358:	6da0      	ldr	r0, [r4, #88]	; 0x58
#endif /* TCP_OOSEQ_MAX_BYTES || TCP_OOSEQ_MAX_PBUFS */

  LWIP_ASSERT("tcp_receive: wrong state", pcb->state >= ESTABLISHED);

  if (flags & TCP_ACK) {
    right_wnd_edge = pcb->snd_wnd + pcb->snd_wl2;
 803035a:	1869      	adds	r1, r5, r1
    if (TCP_SEQ_LEQ(ackno, pcb->lastack)) {
      pcb->acked = 0;
      /* Clause 2 */
      if (tcplen == 0) {
        /* Clause 3 */
        if (pcb->snd_wl2 + pcb->snd_wnd == right_wnd_edge){
 803035c:	1830      	adds	r0, r6, r0
 803035e:	4288      	cmp	r0, r1
 8030360:	f040 81ec 	bne.w	803073c <tcp_receive+0x480>
          /* Clause 4 */
          if (pcb->rtime >= 0) {
 8030364:	f9b4 1034 	ldrsh.w	r1, [r4, #52]	; 0x34
 8030368:	2900      	cmp	r1, #0
 803036a:	f2c0 81e7 	blt.w	803073c <tcp_receive+0x480>
            /* Clause 5 */
            if (pcb->lastack == ackno) {
 803036e:	429a      	cmp	r2, r3
 8030370:	f040 81e4 	bne.w	803073c <tcp_receive+0x480>
              found_dupack = 1;
              if ((u8_t)(pcb->dupacks + 1) > pcb->dupacks) {
 8030374:	f894 2047 	ldrb.w	r2, [r4, #71]	; 0x47
 8030378:	1c53      	adds	r3, r2, #1
 803037a:	b2db      	uxtb	r3, r3
 803037c:	4293      	cmp	r3, r2
                ++pcb->dupacks;
 803037e:	bf88      	it	hi
 8030380:	f884 3047 	strbhi.w	r3, [r4, #71]	; 0x47
              }
              if (pcb->dupacks > 3) {
 8030384:	f894 3047 	ldrb.w	r3, [r4, #71]	; 0x47
 8030388:	2b03      	cmp	r3, #3
 803038a:	d90a      	bls.n	80303a2 <tcp_receive+0xe6>
                /* Inflate the congestion window, but not if it means that
                   the value overflows. */
                if ((u16_t)(pcb->cwnd + pcb->mss) > pcb->cwnd) {
 803038c:	f8b4 204c 	ldrh.w	r2, [r4, #76]	; 0x4c
 8030390:	8ee3      	ldrh	r3, [r4, #54]	; 0x36
 8030392:	18d3      	adds	r3, r2, r3
 8030394:	b29b      	uxth	r3, r3
 8030396:	4293      	cmp	r3, r2
 8030398:	f240 80b2 	bls.w	8030500 <tcp_receive+0x244>
                  pcb->cwnd += pcb->mss;
 803039c:	f8a4 304c 	strh.w	r3, [r4, #76]	; 0x4c
 80303a0:	e0ae      	b.n	8030500 <tcp_receive+0x244>
                }
              } else if (pcb->dupacks == 3) {
 80303a2:	f040 80ad 	bne.w	8030500 <tcp_receive+0x244>
                /* Do fast retransmit */
                tcp_rexmit_fast(pcb);
 80303a6:	4620      	mov	r0, r4
 80303a8:	f001 fa92 	bl	80318d0 <tcp_rexmit_fast>
 80303ac:	e0a8      	b.n	8030500 <tcp_receive+0x244>
      /* If Clause (1) or more is true, but not a duplicate ack, reset
       * count of consecutive duplicate acks */
      if (!found_dupack) {
        pcb->dupacks = 0;
      }
    } else if (TCP_SEQ_BETWEEN(ackno, pcb->lastack+1, pcb->snd_nxt)){
 80303ae:	43d1      	mvns	r1, r2
 80303b0:	42d9      	cmn	r1, r3
 80303b2:	d47e      	bmi.n	80304b2 <tcp_receive+0x1f6>
 80303b4:	6d21      	ldr	r1, [r4, #80]	; 0x50
 80303b6:	1a59      	subs	r1, r3, r1
 80303b8:	2900      	cmp	r1, #0
 80303ba:	dc7a      	bgt.n	80304b2 <tcp_receive+0x1f6>
      /* We come here when the ACK acknowledges new data. */

      /* Reset the "IN Fast Retransmit" flag, since we are no longer
         in fast retransmit. Also reset the congestion window to the
         slow start threshold. */
      if (pcb->flags & TF_INFR) {
 80303bc:	7fa1      	ldrb	r1, [r4, #30]
 80303be:	f001 0004 	and.w	r0, r1, #4
 80303c2:	b2c0      	uxtb	r0, r0
 80303c4:	b130      	cbz	r0, 80303d4 <tcp_receive+0x118>
        pcb->flags &= ~TF_INFR;
 80303c6:	f021 0104 	bic.w	r1, r1, #4
 80303ca:	77a1      	strb	r1, [r4, #30]
        pcb->cwnd = pcb->ssthresh;
 80303cc:	f8b4 104e 	ldrh.w	r1, [r4, #78]	; 0x4e
 80303d0:	f8a4 104c 	strh.w	r1, [r4, #76]	; 0x4c

      /* Reset the number of retransmissions. */
      pcb->nrtx = 0;

      /* Reset the retransmission time-out. */
      pcb->rto = (pcb->sa >> 3) + pcb->sv;
 80303d4:	f9b4 5040 	ldrsh.w	r5, [r4, #64]	; 0x40
 80303d8:	f8b4 0042 	ldrh.w	r0, [r4, #66]	; 0x42

      pcb->snd_buf += pcb->acked;

      /* Reset the fast retransmit variables. */
      pcb->dupacks = 0;
      pcb->lastack = ackno;
 80303dc:	64a3      	str	r3, [r4, #72]	; 0x48

      /* Reset the number of retransmissions. */
      pcb->nrtx = 0;

      /* Reset the retransmission time-out. */
      pcb->rto = (pcb->sa >> 3) + pcb->sv;
 80303de:	eb00 00e5 	add.w	r0, r0, r5, asr #3

      /* Update the send buffer space. Diff between the two can never exceed 64K? */
      pcb->acked = (u16_t)(ackno - pcb->lastack);
 80303e2:	1a9a      	subs	r2, r3, r2

      /* Reset the number of retransmissions. */
      pcb->nrtx = 0;

      /* Reset the retransmission time-out. */
      pcb->rto = (pcb->sa >> 3) + pcb->sv;
 80303e4:	f8a4 0044 	strh.w	r0, [r4, #68]	; 0x44
      pcb->dupacks = 0;
      pcb->lastack = ackno;

      /* Update the congestion control variables (cwnd and
         ssthresh). */
      if (pcb->state >= ESTABLISHED) {
 80303e8:	7e23      	ldrb	r3, [r4, #24]
      pcb->rto = (pcb->sa >> 3) + pcb->sv;

      /* Update the send buffer space. Diff between the two can never exceed 64K? */
      pcb->acked = (u16_t)(ackno - pcb->lastack);

      pcb->snd_buf += pcb->acked;
 80303ea:	f8b4 0066 	ldrh.w	r0, [r4, #102]	; 0x66

      /* Reset the retransmission time-out. */
      pcb->rto = (pcb->sa >> 3) + pcb->sv;

      /* Update the send buffer space. Diff between the two can never exceed 64K? */
      pcb->acked = (u16_t)(ackno - pcb->lastack);
 80303ee:	f8a4 2064 	strh.w	r2, [r4, #100]	; 0x64
        pcb->flags &= ~TF_INFR;
        pcb->cwnd = pcb->ssthresh;
      }

      /* Reset the number of retransmissions. */
      pcb->nrtx = 0;
 80303f2:	2100      	movs	r1, #0
      pcb->rto = (pcb->sa >> 3) + pcb->sv;

      /* Update the send buffer space. Diff between the two can never exceed 64K? */
      pcb->acked = (u16_t)(ackno - pcb->lastack);

      pcb->snd_buf += pcb->acked;
 80303f4:	1812      	adds	r2, r2, r0
      pcb->dupacks = 0;
      pcb->lastack = ackno;

      /* Update the congestion control variables (cwnd and
         ssthresh). */
      if (pcb->state >= ESTABLISHED) {
 80303f6:	2b03      	cmp	r3, #3
        pcb->flags &= ~TF_INFR;
        pcb->cwnd = pcb->ssthresh;
      }

      /* Reset the number of retransmissions. */
      pcb->nrtx = 0;
 80303f8:	f884 1046 	strb.w	r1, [r4, #70]	; 0x46
      pcb->rto = (pcb->sa >> 3) + pcb->sv;

      /* Update the send buffer space. Diff between the two can never exceed 64K? */
      pcb->acked = (u16_t)(ackno - pcb->lastack);

      pcb->snd_buf += pcb->acked;
 80303fc:	f8a4 2066 	strh.w	r2, [r4, #102]	; 0x66

      /* Reset the fast retransmit variables. */
      pcb->dupacks = 0;
 8030400:	f884 1047 	strb.w	r1, [r4, #71]	; 0x47
      pcb->lastack = ackno;

      /* Update the congestion control variables (cwnd and
         ssthresh). */
      if (pcb->state >= ESTABLISHED) {
 8030404:	d931      	bls.n	803046a <tcp_receive+0x1ae>
        if (pcb->cwnd < pcb->ssthresh) {
 8030406:	f8b4 204e 	ldrh.w	r2, [r4, #78]	; 0x4e
 803040a:	f8b4 304c 	ldrh.w	r3, [r4, #76]	; 0x4c
 803040e:	429a      	cmp	r2, r3
          if ((u16_t)(pcb->cwnd + pcb->mss) > pcb->cwnd) {
 8030410:	8ee2      	ldrh	r2, [r4, #54]	; 0x36
      pcb->lastack = ackno;

      /* Update the congestion control variables (cwnd and
         ssthresh). */
      if (pcb->state >= ESTABLISHED) {
        if (pcb->cwnd < pcb->ssthresh) {
 8030412:	d900      	bls.n	8030416 <tcp_receive+0x15a>
 8030414:	e002      	b.n	803041c <tcp_receive+0x160>
          if ((u16_t)(pcb->cwnd + pcb->mss) > pcb->cwnd) {
            pcb->cwnd += pcb->mss;
          }
          LWIP_DEBUGF(TCP_CWND_DEBUG, ("tcp_receive: slow start cwnd %"U16_F"\n", pcb->cwnd));
        } else {
          u16_t new_cwnd = (pcb->cwnd + pcb->mss * pcb->mss / pcb->cwnd);
 8030416:	4352      	muls	r2, r2
 8030418:	fb92 f2f3 	sdiv	r2, r2, r3
 803041c:	189a      	adds	r2, r3, r2
 803041e:	b292      	uxth	r2, r2
          if (new_cwnd > pcb->cwnd) {
 8030420:	429a      	cmp	r2, r3
 8030422:	d922      	bls.n	803046a <tcp_receive+0x1ae>
            pcb->cwnd = new_cwnd;
 8030424:	f8a4 204c 	strh.w	r2, [r4, #76]	; 0x4c
 8030428:	e01f      	b.n	803046a <tcp_receive+0x1ae>
        LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_receive: removing %"U32_F":%"U32_F" from pcb->unacked\n",
                                      ntohl(pcb->unacked->tcphdr->seqno),
                                      ntohl(pcb->unacked->tcphdr->seqno) +
                                      TCP_TCPLEN(pcb->unacked)));

        next = pcb->unacked;
 803042a:	6f25      	ldr	r5, [r4, #112]	; 0x70
        pcb->unacked = pcb->unacked->next;
 803042c:	682b      	ldr	r3, [r5, #0]

        LWIP_DEBUGF(TCP_QLEN_DEBUG, ("tcp_receive: queuelen %"U16_F" ... ", (u16_t)pcb->snd_queuelen));
        LWIP_ASSERT("pcb->snd_queuelen >= pbuf_clen(next->p)", (pcb->snd_queuelen >= pbuf_clen(next->p)));
 803042e:	6868      	ldr	r0, [r5, #4]
                                      ntohl(pcb->unacked->tcphdr->seqno),
                                      ntohl(pcb->unacked->tcphdr->seqno) +
                                      TCP_TCPLEN(pcb->unacked)));

        next = pcb->unacked;
        pcb->unacked = pcb->unacked->next;
 8030430:	6723      	str	r3, [r4, #112]	; 0x70

        LWIP_DEBUGF(TCP_QLEN_DEBUG, ("tcp_receive: queuelen %"U16_F" ... ", (u16_t)pcb->snd_queuelen));
        LWIP_ASSERT("pcb->snd_queuelen >= pbuf_clen(next->p)", (pcb->snd_queuelen >= pbuf_clen(next->p)));
 8030432:	f7ff f935 	bl	802f6a0 <pbuf_clen>
        /* Prevent ACK for FIN to generate a sent event */
        if ((pcb->acked != 0) && ((TCPH_FLAGS(next->tcphdr) & TCP_FIN) != 0)) {
 8030436:	f8b4 3064 	ldrh.w	r3, [r4, #100]	; 0x64
 803043a:	b153      	cbz	r3, 8030452 <tcp_receive+0x196>
 803043c:	68eb      	ldr	r3, [r5, #12]
 803043e:	8998      	ldrh	r0, [r3, #12]
 8030440:	f7fd ff21 	bl	802e286 <lwip_ntohs>
 8030444:	07c3      	lsls	r3, r0, #31
 8030446:	d504      	bpl.n	8030452 <tcp_receive+0x196>
          pcb->acked--;
 8030448:	f8b4 3064 	ldrh.w	r3, [r4, #100]	; 0x64
 803044c:	3b01      	subs	r3, #1
 803044e:	f8a4 3064 	strh.w	r3, [r4, #100]	; 0x64
        }

        pcb->snd_queuelen -= pbuf_clen(next->p);
 8030452:	6868      	ldr	r0, [r5, #4]
 8030454:	f8b4 7068 	ldrh.w	r7, [r4, #104]	; 0x68
 8030458:	f7ff f922 	bl	802f6a0 <pbuf_clen>
 803045c:	1a38      	subs	r0, r7, r0
 803045e:	f8a4 0068 	strh.w	r0, [r4, #104]	; 0x68
        tcp_seg_free(next);
 8030462:	4628      	mov	r0, r5
 8030464:	f7ff faf5 	bl	802fa52 <tcp_seg_free>
 8030468:	e000      	b.n	803046c <tcp_receive+0x1b0>
                                    ntohl(pcb->unacked->tcphdr->seqno) + TCP_TCPLEN(pcb->unacked): 0));

      /* Remove segment from the unacknowledged list if the incoming
         ACK acknowlegdes them. */
      while (pcb->unacked != NULL &&
             TCP_SEQ_LEQ(ntohl(pcb->unacked->tcphdr->seqno) +
 803046a:	4e38      	ldr	r6, [pc, #224]	; (803054c <tcp_receive+0x290>)
                                    pcb->unacked != NULL?
                                    ntohl(pcb->unacked->tcphdr->seqno) + TCP_TCPLEN(pcb->unacked): 0));

      /* Remove segment from the unacknowledged list if the incoming
         ACK acknowlegdes them. */
      while (pcb->unacked != NULL &&
 803046c:	6f23      	ldr	r3, [r4, #112]	; 0x70
 803046e:	b91b      	cbnz	r3, 8030478 <tcp_receive+0x1bc>
        }
      }

      /* If there's nothing left to acknowledge, stop the retransmit
         timer, otherwise reset it to start again */
      if(pcb->unacked == NULL)
 8030470:	6f22      	ldr	r2, [r4, #112]	; 0x70
 8030472:	2300      	movs	r3, #0
 8030474:	b9d2      	cbnz	r2, 80304ac <tcp_receive+0x1f0>
 8030476:	e015      	b.n	80304a4 <tcp_receive+0x1e8>
                                    ntohl(pcb->unacked->tcphdr->seqno) + TCP_TCPLEN(pcb->unacked): 0));

      /* Remove segment from the unacknowledged list if the incoming
         ACK acknowlegdes them. */
      while (pcb->unacked != NULL &&
             TCP_SEQ_LEQ(ntohl(pcb->unacked->tcphdr->seqno) +
 8030478:	68db      	ldr	r3, [r3, #12]
 803047a:	6858      	ldr	r0, [r3, #4]
 803047c:	f7fd ff0a 	bl	802e294 <lwip_ntohl>
 8030480:	6f23      	ldr	r3, [r4, #112]	; 0x70
 8030482:	891d      	ldrh	r5, [r3, #8]
 8030484:	68db      	ldr	r3, [r3, #12]
 8030486:	4607      	mov	r7, r0
 8030488:	8998      	ldrh	r0, [r3, #12]
 803048a:	f7fd fefc 	bl	802e286 <lwip_ntohs>
 803048e:	6833      	ldr	r3, [r6, #0]
 8030490:	f010 0003 	ands.w	r0, r0, #3
 8030494:	bf18      	it	ne
 8030496:	2001      	movne	r0, #1
 8030498:	1afb      	subs	r3, r7, r3
 803049a:	1828      	adds	r0, r5, r0
 803049c:	181b      	adds	r3, r3, r0
                                    pcb->unacked != NULL?
                                    ntohl(pcb->unacked->tcphdr->seqno) + TCP_TCPLEN(pcb->unacked): 0));

      /* Remove segment from the unacknowledged list if the incoming
         ACK acknowlegdes them. */
      while (pcb->unacked != NULL &&
 803049e:	2b00      	cmp	r3, #0
 80304a0:	ddc3      	ble.n	803042a <tcp_receive+0x16e>
 80304a2:	e7e5      	b.n	8030470 <tcp_receive+0x1b4>
      }

      /* If there's nothing left to acknowledge, stop the retransmit
         timer, otherwise reset it to start again */
      if(pcb->unacked == NULL)
        pcb->rtime = -1;
 80304a4:	f64f 72ff 	movw	r2, #65535	; 0xffff
 80304a8:	86a2      	strh	r2, [r4, #52]	; 0x34
 80304aa:	e000      	b.n	80304ae <tcp_receive+0x1f2>
      else
        pcb->rtime = 0;
 80304ac:	86a3      	strh	r3, [r4, #52]	; 0x34

      pcb->polltmr = 0;
 80304ae:	77e3      	strb	r3, [r4, #31]
 80304b0:	e026      	b.n	8030500 <tcp_receive+0x244>
    } else {
      /* Fix bug bug #21582: out of sequence ACK, didn't really ack anything */
      pcb->acked = 0;
 80304b2:	2300      	movs	r3, #0
 80304b4:	f8a4 3064 	strh.w	r3, [r4, #100]	; 0x64
 80304b8:	e022      	b.n	8030500 <tcp_receive+0x244>
                           TCP_TCPLEN(pcb->unsent), pcb->snd_nxt)) {
      LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_receive: removing %"U32_F":%"U32_F" from pcb->unsent\n",
                                    ntohl(pcb->unsent->tcphdr->seqno), ntohl(pcb->unsent->tcphdr->seqno) +
                                    TCP_TCPLEN(pcb->unsent)));

      next = pcb->unsent;
 80304ba:	6ee5      	ldr	r5, [r4, #108]	; 0x6c
      pcb->unsent = pcb->unsent->next;
 80304bc:	682b      	ldr	r3, [r5, #0]
 80304be:	66e3      	str	r3, [r4, #108]	; 0x6c
#if TCP_OVERSIZE
      if (pcb->unsent == NULL) {
 80304c0:	b90b      	cbnz	r3, 80304c6 <tcp_receive+0x20a>
        pcb->unsent_oversize = 0;
 80304c2:	f8a4 306a 	strh.w	r3, [r4, #106]	; 0x6a
      }
#endif /* TCP_OVERSIZE */ 
      LWIP_DEBUGF(TCP_QLEN_DEBUG, ("tcp_receive: queuelen %"U16_F" ... ", (u16_t)pcb->snd_queuelen));
      LWIP_ASSERT("pcb->snd_queuelen >= pbuf_clen(next->p)", (pcb->snd_queuelen >= pbuf_clen(next->p)));
 80304c6:	6868      	ldr	r0, [r5, #4]
 80304c8:	f7ff f8ea 	bl	802f6a0 <pbuf_clen>
      /* Prevent ACK for FIN to generate a sent event */
      if ((pcb->acked != 0) && ((TCPH_FLAGS(next->tcphdr) & TCP_FIN) != 0)) {
 80304cc:	f8b4 3064 	ldrh.w	r3, [r4, #100]	; 0x64
 80304d0:	b153      	cbz	r3, 80304e8 <tcp_receive+0x22c>
 80304d2:	68eb      	ldr	r3, [r5, #12]
 80304d4:	8998      	ldrh	r0, [r3, #12]
 80304d6:	f7fd fed6 	bl	802e286 <lwip_ntohs>
 80304da:	07c7      	lsls	r7, r0, #31
 80304dc:	d504      	bpl.n	80304e8 <tcp_receive+0x22c>
        pcb->acked--;
 80304de:	f8b4 3064 	ldrh.w	r3, [r4, #100]	; 0x64
 80304e2:	3b01      	subs	r3, #1
 80304e4:	f8a4 3064 	strh.w	r3, [r4, #100]	; 0x64
      }
      pcb->snd_queuelen -= pbuf_clen(next->p);
 80304e8:	6868      	ldr	r0, [r5, #4]
 80304ea:	f8b4 7068 	ldrh.w	r7, [r4, #104]	; 0x68
 80304ee:	f7ff f8d7 	bl	802f6a0 <pbuf_clen>
 80304f2:	1a38      	subs	r0, r7, r0
 80304f4:	f8a4 0068 	strh.w	r0, [r4, #104]	; 0x68
      tcp_seg_free(next);
 80304f8:	4628      	mov	r0, r5
 80304fa:	f7ff faaa 	bl	802fa52 <tcp_seg_free>
 80304fe:	e000      	b.n	8030502 <tcp_receive+0x246>
       strange since an "unsent" segment shouldn't be acked. The
       rationale is that lwIP puts all outstanding segments on the
       ->unsent list after a retransmission, so these segments may
       in fact have been sent once. */
    while (pcb->unsent != NULL &&
           TCP_SEQ_BETWEEN(ackno, ntohl(pcb->unsent->tcphdr->seqno) + 
 8030500:	4e12      	ldr	r6, [pc, #72]	; (803054c <tcp_receive+0x290>)
       on the list are acknowledged by the ACK. This may seem
       strange since an "unsent" segment shouldn't be acked. The
       rationale is that lwIP puts all outstanding segments on the
       ->unsent list after a retransmission, so these segments may
       in fact have been sent once. */
    while (pcb->unsent != NULL &&
 8030502:	6ee3      	ldr	r3, [r4, #108]	; 0x6c
 8030504:	b913      	cbnz	r3, 803050c <tcp_receive+0x250>
                                pcb->rttest, pcb->rtseq, ackno));

    /* RTT estimation calculations. This is done by checking if the
       incoming segment acknowledges the segment we use to take a
       round-trip time measurement. */
    if (pcb->rttest && TCP_SEQ_LT(pcb->rtseq, ackno)) {
 8030506:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 8030508:	bb33      	cbnz	r3, 8030558 <tcp_receive+0x29c>
 803050a:	e04d      	b.n	80305a8 <tcp_receive+0x2ec>
       strange since an "unsent" segment shouldn't be acked. The
       rationale is that lwIP puts all outstanding segments on the
       ->unsent list after a retransmission, so these segments may
       in fact have been sent once. */
    while (pcb->unsent != NULL &&
           TCP_SEQ_BETWEEN(ackno, ntohl(pcb->unsent->tcphdr->seqno) + 
 803050c:	68db      	ldr	r3, [r3, #12]
 803050e:	6835      	ldr	r5, [r6, #0]
 8030510:	6858      	ldr	r0, [r3, #4]
 8030512:	f7fd febf 	bl	802e294 <lwip_ntohl>
 8030516:	6ee3      	ldr	r3, [r4, #108]	; 0x6c
 8030518:	891f      	ldrh	r7, [r3, #8]
 803051a:	68db      	ldr	r3, [r3, #12]
 803051c:	4680      	mov	r8, r0
 803051e:	8998      	ldrh	r0, [r3, #12]
 8030520:	f7fd feb1 	bl	802e286 <lwip_ntohs>
 8030524:	f010 0003 	ands.w	r0, r0, #3
 8030528:	bf18      	it	ne
 803052a:	2001      	movne	r0, #1
 803052c:	ebc8 0505 	rsb	r5, r8, r5
 8030530:	1838      	adds	r0, r7, r0
 8030532:	1a2d      	subs	r5, r5, r0
       on the list are acknowledged by the ACK. This may seem
       strange since an "unsent" segment shouldn't be acked. The
       rationale is that lwIP puts all outstanding segments on the
       ->unsent list after a retransmission, so these segments may
       in fact have been sent once. */
    while (pcb->unsent != NULL &&
 8030534:	2d00      	cmp	r5, #0
 8030536:	dbe6      	blt.n	8030506 <tcp_receive+0x24a>
           TCP_SEQ_BETWEEN(ackno, ntohl(pcb->unsent->tcphdr->seqno) + 
 8030538:	6832      	ldr	r2, [r6, #0]
 803053a:	6d23      	ldr	r3, [r4, #80]	; 0x50
 803053c:	1ad3      	subs	r3, r2, r3
 803053e:	2b00      	cmp	r3, #0
 8030540:	ddbb      	ble.n	80304ba <tcp_receive+0x1fe>
 8030542:	e7e0      	b.n	8030506 <tcp_receive+0x24a>
 8030544:	2000c3f4 	.word	0x2000c3f4
 8030548:	2000c3e8 	.word	0x2000c3e8
 803054c:	2000c3f0 	.word	0x2000c3f0
 8030550:	2000c3e4 	.word	0x2000c3e4
 8030554:	2000c3ec 	.word	0x2000c3ec
                                pcb->rttest, pcb->rtseq, ackno));

    /* RTT estimation calculations. This is done by checking if the
       incoming segment acknowledges the segment we use to take a
       round-trip time measurement. */
    if (pcb->rttest && TCP_SEQ_LT(pcb->rtseq, ackno)) {
 8030558:	497b      	ldr	r1, [pc, #492]	; (8030748 <tcp_receive+0x48c>)
 803055a:	6be2      	ldr	r2, [r4, #60]	; 0x3c
 803055c:	6809      	ldr	r1, [r1, #0]
 803055e:	1a52      	subs	r2, r2, r1
 8030560:	2a00      	cmp	r2, #0
 8030562:	da21      	bge.n	80305a8 <tcp_receive+0x2ec>
      /* diff between this shouldn't exceed 32K since this are tcp timer ticks
         and a round-trip shouldn't be that long... */
      m = (s16_t)(tcp_ticks - pcb->rttest);
 8030564:	4a79      	ldr	r2, [pc, #484]	; (803074c <tcp_receive+0x490>)

      LWIP_DEBUGF(TCP_RTO_DEBUG, ("tcp_receive: experienced rtt %"U16_F" ticks (%"U16_F" msec).\n",
                                  m, m * TCP_SLOW_INTERVAL));

      /* This is taken directly from VJs original code in his paper */
      m = m - (pcb->sa >> 3);
 8030566:	f8b4 1040 	ldrh.w	r1, [r4, #64]	; 0x40
       incoming segment acknowledges the segment we use to take a
       round-trip time measurement. */
    if (pcb->rttest && TCP_SEQ_LT(pcb->rtseq, ackno)) {
      /* diff between this shouldn't exceed 32K since this are tcp timer ticks
         and a round-trip shouldn't be that long... */
      m = (s16_t)(tcp_ticks - pcb->rttest);
 803056a:	6812      	ldr	r2, [r2, #0]

      LWIP_DEBUGF(TCP_RTO_DEBUG, ("tcp_receive: experienced rtt %"U16_F" ticks (%"U16_F" msec).\n",
                                  m, m * TCP_SLOW_INTERVAL));

      /* This is taken directly from VJs original code in his paper */
      m = m - (pcb->sa >> 3);
 803056c:	f341 00cc 	sbfx	r0, r1, #3, #13
       incoming segment acknowledges the segment we use to take a
       round-trip time measurement. */
    if (pcb->rttest && TCP_SEQ_LT(pcb->rtseq, ackno)) {
      /* diff between this shouldn't exceed 32K since this are tcp timer ticks
         and a round-trip shouldn't be that long... */
      m = (s16_t)(tcp_ticks - pcb->rttest);
 8030570:	1ad2      	subs	r2, r2, r3

      LWIP_DEBUGF(TCP_RTO_DEBUG, ("tcp_receive: experienced rtt %"U16_F" ticks (%"U16_F" msec).\n",
                                  m, m * TCP_SLOW_INTERVAL));

      /* This is taken directly from VJs original code in his paper */
      m = m - (pcb->sa >> 3);
 8030572:	1a12      	subs	r2, r2, r0
 8030574:	b292      	uxth	r2, r2
 8030576:	b293      	uxth	r3, r2
      pcb->sa += m;
 8030578:	1851      	adds	r1, r2, r1
 803057a:	b289      	uxth	r1, r1
      if (m < 0) {
 803057c:	0418      	lsls	r0, r3, #16
      LWIP_DEBUGF(TCP_RTO_DEBUG, ("tcp_receive: experienced rtt %"U16_F" ticks (%"U16_F" msec).\n",
                                  m, m * TCP_SLOW_INTERVAL));

      /* This is taken directly from VJs original code in his paper */
      m = m - (pcb->sa >> 3);
      pcb->sa += m;
 803057e:	f8a4 1040 	strh.w	r1, [r4, #64]	; 0x40
      if (m < 0) {
 8030582:	d501      	bpl.n	8030588 <tcp_receive+0x2cc>
        m = -m;
 8030584:	4253      	negs	r3, r2
 8030586:	b29b      	uxth	r3, r3
      }
      m = m - (pcb->sv >> 2);
 8030588:	f8b4 2042 	ldrh.w	r2, [r4, #66]	; 0x42
 803058c:	f342 008d 	sbfx	r0, r2, #2, #14
 8030590:	1a12      	subs	r2, r2, r0
      pcb->sv += m;
 8030592:	18d3      	adds	r3, r2, r3
 8030594:	b29b      	uxth	r3, r3
      pcb->rto = (pcb->sa >> 3) + pcb->sv;
 8030596:	f341 01cc 	sbfx	r1, r1, #3, #13
      pcb->sa += m;
      if (m < 0) {
        m = -m;
      }
      m = m - (pcb->sv >> 2);
      pcb->sv += m;
 803059a:	f8a4 3042 	strh.w	r3, [r4, #66]	; 0x42
      pcb->rto = (pcb->sa >> 3) + pcb->sv;
 803059e:	185b      	adds	r3, r3, r1
 80305a0:	f8a4 3044 	strh.w	r3, [r4, #68]	; 0x44

      LWIP_DEBUGF(TCP_RTO_DEBUG, ("tcp_receive: RTO %"U16_F" (%"U16_F" milliseconds)\n",
                                  pcb->rto, pcb->rto * TCP_SLOW_INTERVAL));

      pcb->rttest = 0;
 80305a4:	2300      	movs	r3, #0
 80305a6:	63a3      	str	r3, [r4, #56]	; 0x38

  /* If the incoming segment contains data, we must process it
     further unless the pcb already received a FIN.
     (RFC 793, chapeter 3.9, "SEGMENT ARRIVES" in states CLOSE-WAIT, CLOSING,
     LAST-ACK and TIME-WAIT: "Ignore the segment text.") */
  if ((tcplen > 0) && (pcb->state < CLOSE_WAIT)) {
 80305a8:	4b69      	ldr	r3, [pc, #420]	; (8030750 <tcp_receive+0x494>)
 80305aa:	4a6a      	ldr	r2, [pc, #424]	; (8030754 <tcp_receive+0x498>)
 80305ac:	8818      	ldrh	r0, [r3, #0]
 80305ae:	2800      	cmp	r0, #0
 80305b0:	f000 80b3 	beq.w	803071a <tcp_receive+0x45e>
 80305b4:	7e23      	ldrb	r3, [r4, #24]
 80305b6:	2b06      	cmp	r3, #6
 80305b8:	f200 80af 	bhi.w	803071a <tcp_receive+0x45e>
       this if the sequence number of the incoming segment is less
       than rcv_nxt, and the sequence number plus the length of the
       segment is larger than rcv_nxt. */
    /*    if (TCP_SEQ_LT(seqno, pcb->rcv_nxt)){
          if (TCP_SEQ_LT(pcb->rcv_nxt, seqno + tcplen)) {*/
    if (TCP_SEQ_BETWEEN(pcb->rcv_nxt, seqno + 1, seqno + tcplen - 1)){
 80305bc:	6811      	ldr	r1, [r2, #0]
 80305be:	6aa3      	ldr	r3, [r4, #40]	; 0x28
 80305c0:	43ca      	mvns	r2, r1
 80305c2:	42da      	cmn	r2, r3
 80305c4:	d425      	bmi.n	8030612 <tcp_receive+0x356>
 80305c6:	1c5a      	adds	r2, r3, #1
 80305c8:	1a52      	subs	r2, r2, r1
 80305ca:	1a10      	subs	r0, r2, r0
 80305cc:	2800      	cmp	r0, #0
 80305ce:	dc20      	bgt.n	8030612 <tcp_receive+0x356>

         After we are done with adjusting the pbuf pointers we must
         adjust the ->data pointer in the seg and the segment
         length.*/

      off = pcb->rcv_nxt - seqno;
 80305d0:	1a59      	subs	r1, r3, r1
      p = inseg.p;
 80305d2:	4b61      	ldr	r3, [pc, #388]	; (8030758 <tcp_receive+0x49c>)
 80305d4:	6858      	ldr	r0, [r3, #4]
      LWIP_ASSERT("inseg.p != NULL", inseg.p);
      LWIP_ASSERT("insane offset!", (off < 0x7fff));
      if (inseg.p->len < off) {
 80305d6:	8943      	ldrh	r3, [r0, #10]
 80305d8:	428b      	cmp	r3, r1
 80305da:	da0a      	bge.n	80305f2 <tcp_receive+0x336>
        LWIP_ASSERT("pbuf too short!", (((s32_t)inseg.p->tot_len) >= off));
        new_tot_len = (u16_t)(inseg.p->tot_len - off);
 80305dc:	8902      	ldrh	r2, [r0, #8]
          off -= p->len;
          /* KJM following line changed (with addition of new_tot_len var)
             to fix bug #9076
             inseg.p->tot_len -= p->len; */
          p->tot_len = new_tot_len;
          p->len = 0;
 80305de:	2500      	movs	r5, #0
      p = inseg.p;
      LWIP_ASSERT("inseg.p != NULL", inseg.p);
      LWIP_ASSERT("insane offset!", (off < 0x7fff));
      if (inseg.p->len < off) {
        LWIP_ASSERT("pbuf too short!", (((s32_t)inseg.p->tot_len) >= off));
        new_tot_len = (u16_t)(inseg.p->tot_len - off);
 80305e0:	1a52      	subs	r2, r2, r1
        while (p->len < off) {
 80305e2:	e003      	b.n	80305ec <tcp_receive+0x330>
          off -= p->len;
          /* KJM following line changed (with addition of new_tot_len var)
             to fix bug #9076
             inseg.p->tot_len -= p->len; */
          p->tot_len = new_tot_len;
 80305e4:	8102      	strh	r2, [r0, #8]
          p->len = 0;
 80305e6:	8145      	strh	r5, [r0, #10]
          p = p->next;
 80305e8:	6800      	ldr	r0, [r0, #0]
      LWIP_ASSERT("insane offset!", (off < 0x7fff));
      if (inseg.p->len < off) {
        LWIP_ASSERT("pbuf too short!", (((s32_t)inseg.p->tot_len) >= off));
        new_tot_len = (u16_t)(inseg.p->tot_len - off);
        while (p->len < off) {
          off -= p->len;
 80305ea:	1ac9      	subs	r1, r1, r3
      LWIP_ASSERT("inseg.p != NULL", inseg.p);
      LWIP_ASSERT("insane offset!", (off < 0x7fff));
      if (inseg.p->len < off) {
        LWIP_ASSERT("pbuf too short!", (((s32_t)inseg.p->tot_len) >= off));
        new_tot_len = (u16_t)(inseg.p->tot_len - off);
        while (p->len < off) {
 80305ec:	8943      	ldrh	r3, [r0, #10]
 80305ee:	428b      	cmp	r3, r1
 80305f0:	dbf8      	blt.n	80305e4 <tcp_receive+0x328>
        if(pbuf_header(p, (s16_t)-off)) {
          /* Do we need to cope with this failing?  Assert for now */
          LWIP_ASSERT("pbuf_header failed", 0);
        }
      } else {
        if(pbuf_header(inseg.p, (s16_t)-off)) {
 80305f2:	4249      	negs	r1, r1
 80305f4:	b209      	sxth	r1, r1
 80305f6:	f7fe ff54 	bl	802f4a2 <pbuf_header>
          /* Do we need to cope with this failing?  Assert for now */
          LWIP_ASSERT("pbuf_header failed", 0);
        }
      }
      inseg.len -= (u16_t)(pcb->rcv_nxt - seqno);
 80305fa:	4a57      	ldr	r2, [pc, #348]	; (8030758 <tcp_receive+0x49c>)
 80305fc:	4955      	ldr	r1, [pc, #340]	; (8030754 <tcp_receive+0x498>)
 80305fe:	8915      	ldrh	r5, [r2, #8]
 8030600:	6808      	ldr	r0, [r1, #0]
 8030602:	6aa3      	ldr	r3, [r4, #40]	; 0x28
 8030604:	1940      	adds	r0, r0, r5
 8030606:	1ac0      	subs	r0, r0, r3
 8030608:	8110      	strh	r0, [r2, #8]
      inseg.tcphdr->seqno = seqno = pcb->rcv_nxt;
 803060a:	68d2      	ldr	r2, [r2, #12]
 803060c:	600b      	str	r3, [r1, #0]
 803060e:	6053      	str	r3, [r2, #4]
 8030610:	e006      	b.n	8030620 <tcp_receive+0x364>
    }
    else {
      if (TCP_SEQ_LT(seqno, pcb->rcv_nxt)){
 8030612:	1ac9      	subs	r1, r1, r3
 8030614:	2900      	cmp	r1, #0
 8030616:	da03      	bge.n	8030620 <tcp_receive+0x364>
        /* the whole segment is < rcv_nxt */
        /* must be a duplicate of a packet that has already been correctly handled */

        LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_receive: duplicate seqno %"U32_F"\n", seqno));
        tcp_ack_now(pcb);
 8030618:	7fa3      	ldrb	r3, [r4, #30]
 803061a:	f043 0302 	orr.w	r3, r3, #2
 803061e:	77a3      	strb	r3, [r4, #30]
    }

    /* The sequence number must be within the window (above rcv_nxt
       and below rcv_nxt + rcv_wnd) in order to be further
       processed. */
    if (TCP_SEQ_BETWEEN(seqno, pcb->rcv_nxt, 
 8030620:	4b4c      	ldr	r3, [pc, #304]	; (8030754 <tcp_receive+0x498>)
 8030622:	6aa2      	ldr	r2, [r4, #40]	; 0x28
 8030624:	681b      	ldr	r3, [r3, #0]
 8030626:	1a99      	subs	r1, r3, r2
 8030628:	2900      	cmp	r1, #0
 803062a:	db71      	blt.n	8030710 <tcp_receive+0x454>
 803062c:	1c59      	adds	r1, r3, #1
 803062e:	8da0      	ldrh	r0, [r4, #44]	; 0x2c
 8030630:	1a89      	subs	r1, r1, r2
 8030632:	1a09      	subs	r1, r1, r0
 8030634:	2900      	cmp	r1, #0
 8030636:	dc6b      	bgt.n	8030710 <tcp_receive+0x454>
                        pcb->rcv_nxt + pcb->rcv_wnd - 1)){
      if (pcb->rcv_nxt == seqno) {
 8030638:	429a      	cmp	r2, r3
 803063a:	d169      	bne.n	8030710 <tcp_receive+0x454>
        /* The incoming segment is the next in sequence. We check if
           we have to trim the end of the segment and update rcv_nxt
           and pass the data to the application. */
        tcplen = TCP_TCPLEN(&inseg);
 803063c:	4d46      	ldr	r5, [pc, #280]	; (8030758 <tcp_receive+0x49c>)
 803063e:	68eb      	ldr	r3, [r5, #12]
 8030640:	892e      	ldrh	r6, [r5, #8]
 8030642:	8998      	ldrh	r0, [r3, #12]
 8030644:	f7fd fe1f 	bl	802e286 <lwip_ntohs>
 8030648:	f010 0003 	ands.w	r0, r0, #3
 803064c:	bf18      	it	ne
 803064e:	2001      	movne	r0, #1
 8030650:	4b3f      	ldr	r3, [pc, #252]	; (8030750 <tcp_receive+0x494>)
 8030652:	1830      	adds	r0, r6, r0
 8030654:	b280      	uxth	r0, r0
 8030656:	8018      	strh	r0, [r3, #0]

        if (tcplen > pcb->rcv_wnd) {
 8030658:	8da3      	ldrh	r3, [r4, #44]	; 0x2c
 803065a:	4283      	cmp	r3, r0
 803065c:	d230      	bcs.n	80306c0 <tcp_receive+0x404>
          LWIP_DEBUGF(TCP_INPUT_DEBUG, 
                      ("tcp_receive: other end overran receive window"
                       "seqno %"U32_F" len %"U16_F" right edge %"U32_F"\n",
                       seqno, tcplen, pcb->rcv_nxt + pcb->rcv_wnd));
          if (TCPH_FLAGS(inseg.tcphdr) & TCP_FIN) {
 803065e:	68eb      	ldr	r3, [r5, #12]
 8030660:	8998      	ldrh	r0, [r3, #12]
 8030662:	f7fd fe10 	bl	802e286 <lwip_ntohs>
 8030666:	07c0      	lsls	r0, r0, #31
 8030668:	d50c      	bpl.n	8030684 <tcp_receive+0x3c8>
            /* Must remove the FIN from the header as we're trimming 
             * that byte of sequence-space from the packet */
            TCPH_FLAGS_SET(inseg.tcphdr, TCPH_FLAGS(inseg.tcphdr) &~ TCP_FIN);
 803066a:	68ed      	ldr	r5, [r5, #12]
 803066c:	89ae      	ldrh	r6, [r5, #12]
 803066e:	4630      	mov	r0, r6
 8030670:	f7fd fe09 	bl	802e286 <lwip_ntohs>
 8030674:	f000 003e 	and.w	r0, r0, #62	; 0x3e
 8030678:	f7fd fe00 	bl	802e27c <lwip_htons>
 803067c:	f426 567c 	bic.w	r6, r6, #16128	; 0x3f00
 8030680:	4330      	orrs	r0, r6
 8030682:	81a8      	strh	r0, [r5, #12]
          }
          /* Adjust length of segment to fit in the window. */
          inseg.len = pcb->rcv_wnd;
 8030684:	8da3      	ldrh	r3, [r4, #44]	; 0x2c
 8030686:	4d34      	ldr	r5, [pc, #208]	; (8030758 <tcp_receive+0x49c>)
 8030688:	812b      	strh	r3, [r5, #8]
          if (TCPH_FLAGS(inseg.tcphdr) & TCP_SYN) {
 803068a:	68eb      	ldr	r3, [r5, #12]
 803068c:	8998      	ldrh	r0, [r3, #12]
 803068e:	f7fd fdfa 	bl	802e286 <lwip_ntohs>
 8030692:	f000 0002 	and.w	r0, r0, #2
 8030696:	b280      	uxth	r0, r0
 8030698:	b110      	cbz	r0, 80306a0 <tcp_receive+0x3e4>
            inseg.len -= 1;
 803069a:	892b      	ldrh	r3, [r5, #8]
 803069c:	3b01      	subs	r3, #1
 803069e:	812b      	strh	r3, [r5, #8]
          }
          pbuf_realloc(inseg.p, inseg.len);
 80306a0:	6868      	ldr	r0, [r5, #4]
 80306a2:	8929      	ldrh	r1, [r5, #8]
 80306a4:	f7fe ff4f 	bl	802f546 <pbuf_realloc>
          tcplen = TCP_TCPLEN(&inseg);
 80306a8:	68eb      	ldr	r3, [r5, #12]
 80306aa:	892e      	ldrh	r6, [r5, #8]
 80306ac:	8998      	ldrh	r0, [r3, #12]
 80306ae:	f7fd fdea 	bl	802e286 <lwip_ntohs>
 80306b2:	f010 0003 	ands.w	r0, r0, #3
 80306b6:	bf18      	it	ne
 80306b8:	2001      	movne	r0, #1
 80306ba:	4b25      	ldr	r3, [pc, #148]	; (8030750 <tcp_receive+0x494>)
 80306bc:	1830      	adds	r0, r6, r0
 80306be:	8018      	strh	r0, [r3, #0]
            pcb->ooseq = next;
          }
        }
#endif /* TCP_QUEUE_OOSEQ */

        pcb->rcv_nxt = seqno + tcplen;
 80306c0:	4b23      	ldr	r3, [pc, #140]	; (8030750 <tcp_receive+0x494>)
 80306c2:	4a24      	ldr	r2, [pc, #144]	; (8030754 <tcp_receive+0x498>)
 80306c4:	881b      	ldrh	r3, [r3, #0]
 80306c6:	6812      	ldr	r2, [r2, #0]
 80306c8:	189a      	adds	r2, r3, r2
 80306ca:	62a2      	str	r2, [r4, #40]	; 0x28

        /* Update the receiver's (our) window. */
        LWIP_ASSERT("tcp_receive: tcplen > rcv_wnd\n", pcb->rcv_wnd >= tcplen);
        pcb->rcv_wnd -= tcplen;
 80306cc:	8da2      	ldrh	r2, [r4, #44]	; 0x2c
 80306ce:	1ad3      	subs	r3, r2, r3
 80306d0:	85a3      	strh	r3, [r4, #44]	; 0x2c

        tcp_update_rcv_ann_wnd(pcb);
 80306d2:	4620      	mov	r0, r4
 80306d4:	f7ff f986 	bl	802f9e4 <tcp_update_rcv_ann_wnd>
           chains its data on this pbuf as well.

           If the segment was a FIN, we set the TF_GOT_FIN flag that will
           be used to indicate to the application that the remote side has
           closed its end of the connection. */
        if (inseg.p->tot_len > 0) {
 80306d8:	4b1f      	ldr	r3, [pc, #124]	; (8030758 <tcp_receive+0x49c>)
 80306da:	685a      	ldr	r2, [r3, #4]
 80306dc:	8911      	ldrh	r1, [r2, #8]
 80306de:	b119      	cbz	r1, 80306e8 <tcp_receive+0x42c>
          recv_data = inseg.p;
 80306e0:	491e      	ldr	r1, [pc, #120]	; (803075c <tcp_receive+0x4a0>)
 80306e2:	600a      	str	r2, [r1, #0]
          /* Since this pbuf now is the responsibility of the
             application, we delete our reference to it so that we won't
             (mistakingly) deallocate it. */
          inseg.p = NULL;
 80306e4:	2200      	movs	r2, #0
 80306e6:	605a      	str	r2, [r3, #4]
        }
        if (TCPH_FLAGS(inseg.tcphdr) & TCP_FIN) {
 80306e8:	68db      	ldr	r3, [r3, #12]
 80306ea:	8998      	ldrh	r0, [r3, #12]
 80306ec:	f7fd fdcb 	bl	802e286 <lwip_ntohs>
 80306f0:	07c1      	lsls	r1, r0, #31
 80306f2:	d504      	bpl.n	80306fe <tcp_receive+0x442>
          LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_receive: received FIN.\n"));
          recv_flags |= TF_GOT_FIN;
 80306f4:	4b1a      	ldr	r3, [pc, #104]	; (8030760 <tcp_receive+0x4a4>)
 80306f6:	781a      	ldrb	r2, [r3, #0]
 80306f8:	f042 0220 	orr.w	r2, r2, #32
 80306fc:	701a      	strb	r2, [r3, #0]
        }
#endif /* TCP_QUEUE_OOSEQ */


        /* Acknowledge the segment(s). */
        tcp_ack(pcb);
 80306fe:	7fa3      	ldrb	r3, [r4, #30]
 8030700:	07da      	lsls	r2, r3, #31
 8030702:	d502      	bpl.n	803070a <tcp_receive+0x44e>
 8030704:	f023 0301 	bic.w	r3, r3, #1
 8030708:	e013      	b.n	8030732 <tcp_receive+0x476>
 803070a:	f043 0301 	orr.w	r3, r3, #1
 803070e:	e012      	b.n	8030736 <tcp_receive+0x47a>

      } else {
        /* We get here if the incoming segment is out-of-sequence. */
        tcp_send_empty_ack(pcb);
 8030710:	4620      	mov	r0, r4
      TCP_SEQ_GEQ(seqno, pcb->rcv_nxt + pcb->rcv_wnd)) {*/
    if(!TCP_SEQ_BETWEEN(seqno, pcb->rcv_nxt, pcb->rcv_nxt + pcb->rcv_wnd-1)){
      tcp_ack_now(pcb);
    }
  }
}
 8030712:	e8bd 41f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, lr}
        /* Acknowledge the segment(s). */
        tcp_ack(pcb);

      } else {
        /* We get here if the incoming segment is out-of-sequence. */
        tcp_send_empty_ack(pcb);
 8030716:	f000 bf09 	b.w	803152c <tcp_send_empty_ack>
  } else {
    /* Segments with length 0 is taken care of here. Segments that
       fall out of the window are ACKed. */
    /*if (TCP_SEQ_GT(pcb->rcv_nxt, seqno) ||
      TCP_SEQ_GEQ(seqno, pcb->rcv_nxt + pcb->rcv_wnd)) {*/
    if(!TCP_SEQ_BETWEEN(seqno, pcb->rcv_nxt, pcb->rcv_nxt + pcb->rcv_wnd-1)){
 803071a:	6812      	ldr	r2, [r2, #0]
 803071c:	6aa3      	ldr	r3, [r4, #40]	; 0x28
 803071e:	1ad1      	subs	r1, r2, r3
 8030720:	2900      	cmp	r1, #0
 8030722:	db05      	blt.n	8030730 <tcp_receive+0x474>
 8030724:	3201      	adds	r2, #1
 8030726:	8da1      	ldrh	r1, [r4, #44]	; 0x2c
 8030728:	1ad3      	subs	r3, r2, r3
 803072a:	1a5b      	subs	r3, r3, r1
 803072c:	2b00      	cmp	r3, #0
 803072e:	dd09      	ble.n	8030744 <tcp_receive+0x488>
      tcp_ack_now(pcb);
 8030730:	7fa3      	ldrb	r3, [r4, #30]
 8030732:	f043 0302 	orr.w	r3, r3, #2
 8030736:	77a3      	strb	r3, [r4, #30]
 8030738:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
        }
      }
      /* If Clause (1) or more is true, but not a duplicate ack, reset
       * count of consecutive duplicate acks */
      if (!found_dupack) {
        pcb->dupacks = 0;
 803073c:	2300      	movs	r3, #0
 803073e:	f884 3047 	strb.w	r3, [r4, #71]	; 0x47
 8030742:	e6dd      	b.n	8030500 <tcp_receive+0x244>
 8030744:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 8030748:	2000c3f0 	.word	0x2000c3f0
 803074c:	2000f6b0 	.word	0x2000f6b0
 8030750:	2000c3ec 	.word	0x2000c3ec
 8030754:	2000c3e8 	.word	0x2000c3e8
 8030758:	2000c400 	.word	0x2000c400
 803075c:	2000c3f8 	.word	0x2000c3f8
 8030760:	2000c3f5 	.word	0x2000c3f5

08030764 <tcp_input>:
 * @param p received TCP segment to process (p->payload pointing to the IP header)
 * @param inp network interface on which this segment was received
 */
void
tcp_input(struct pbuf *p, struct netif *inp)
{
 8030764:	e92d 4ff7 	stmdb	sp!, {r0, r1, r2, r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8030768:	4606      	mov	r6, r0
 803076a:	460f      	mov	r7, r1
  err_t err;

  PERF_START;

  TCP_STATS_INC(tcp.recv);
  snmp_inc_tcpinsegs();
 803076c:	f003 fcb8 	bl	80340e0 <snmp_inc_tcpinsegs>

  iphdr = (struct ip_hdr *)p->payload;
 8030770:	6873      	ldr	r3, [r6, #4]
 8030772:	4aa7      	ldr	r2, [pc, #668]	; (8030a10 <tcp_input+0x2ac>)
  tcphdr = (struct tcp_hdr *)((u8_t *)p->payload + IPH_HL(iphdr) * 4);
 8030774:	4ca7      	ldr	r4, [pc, #668]	; (8030a14 <tcp_input+0x2b0>)
  PERF_START;

  TCP_STATS_INC(tcp.recv);
  snmp_inc_tcpinsegs();

  iphdr = (struct ip_hdr *)p->payload;
 8030776:	6013      	str	r3, [r2, #0]
  tcphdr = (struct tcp_hdr *)((u8_t *)p->payload + IPH_HL(iphdr) * 4);
 8030778:	781a      	ldrb	r2, [r3, #0]
 803077a:	f002 020f 	and.w	r2, r2, #15
#if TCP_INPUT_DEBUG
  tcp_debug_print(tcphdr);
#endif

  /* remove header from payload */
  if (pbuf_header(p, -((s16_t)(IPH_HL(iphdr) * 4))) || (p->tot_len < sizeof(struct tcp_hdr))) {
 803077e:	0091      	lsls	r1, r2, #2

  TCP_STATS_INC(tcp.recv);
  snmp_inc_tcpinsegs();

  iphdr = (struct ip_hdr *)p->payload;
  tcphdr = (struct tcp_hdr *)((u8_t *)p->payload + IPH_HL(iphdr) * 4);
 8030780:	eb03 0382 	add.w	r3, r3, r2, lsl #2
#if TCP_INPUT_DEBUG
  tcp_debug_print(tcphdr);
#endif

  /* remove header from payload */
  if (pbuf_header(p, -((s16_t)(IPH_HL(iphdr) * 4))) || (p->tot_len < sizeof(struct tcp_hdr))) {
 8030784:	4630      	mov	r0, r6
 8030786:	4249      	negs	r1, r1

  TCP_STATS_INC(tcp.recv);
  snmp_inc_tcpinsegs();

  iphdr = (struct ip_hdr *)p->payload;
  tcphdr = (struct tcp_hdr *)((u8_t *)p->payload + IPH_HL(iphdr) * 4);
 8030788:	6023      	str	r3, [r4, #0]
#if TCP_INPUT_DEBUG
  tcp_debug_print(tcphdr);
#endif

  /* remove header from payload */
  if (pbuf_header(p, -((s16_t)(IPH_HL(iphdr) * 4))) || (p->tot_len < sizeof(struct tcp_hdr))) {
 803078a:	f7fe fe8a 	bl	802f4a2 <pbuf_header>
 803078e:	2800      	cmp	r0, #0
 8030790:	f040 83ce 	bne.w	8030f30 <tcp_input+0x7cc>
 8030794:	8933      	ldrh	r3, [r6, #8]
 8030796:	2b13      	cmp	r3, #19
 8030798:	f240 83ca 	bls.w	8030f30 <tcp_input+0x7cc>
    TCP_STATS_INC(tcp.lenerr);
    goto dropped;
  }

  /* Don't even process incoming broadcasts/multicasts. */
  if (ip_addr_isbroadcast(&current_iphdr_dest, inp) ||
 803079c:	4d9e      	ldr	r5, [pc, #632]	; (8030a18 <tcp_input+0x2b4>)
 803079e:	4639      	mov	r1, r7
 80307a0:	6828      	ldr	r0, [r5, #0]
 80307a2:	f001 fd43 	bl	803222c <ip4_addr_isbroadcast>
 80307a6:	2800      	cmp	r0, #0
 80307a8:	f040 83c2 	bne.w	8030f30 <tcp_input+0x7cc>
      ip_addr_ismulticast(&current_iphdr_dest)) {
 80307ac:	682b      	ldr	r3, [r5, #0]
 80307ae:	f003 03f0 	and.w	r3, r3, #240	; 0xf0
    TCP_STATS_INC(tcp.lenerr);
    goto dropped;
  }

  /* Don't even process incoming broadcasts/multicasts. */
  if (ip_addr_isbroadcast(&current_iphdr_dest, inp) ||
 80307b2:	2be0      	cmp	r3, #224	; 0xe0
 80307b4:	f000 83bc 	beq.w	8030f30 <tcp_input+0x7cc>
  }
#endif

  /* Move the payload pointer in the pbuf so that it points to the
     TCP data instead of the TCP header. */
  hdrlen = TCPH_HDRLEN(tcphdr);
 80307b8:	6823      	ldr	r3, [r4, #0]
 80307ba:	8998      	ldrh	r0, [r3, #12]
 80307bc:	f7fd fd63 	bl	802e286 <lwip_ntohs>
  if(pbuf_header(p, -(hdrlen * 4))){
 80307c0:	f06f 0103 	mvn.w	r1, #3
 80307c4:	f3c0 3307 	ubfx	r3, r0, #12, #8
 80307c8:	4359      	muls	r1, r3
 80307ca:	4630      	mov	r0, r6
 80307cc:	f7fe fe69 	bl	802f4a2 <pbuf_header>
 80307d0:	4683      	mov	fp, r0
 80307d2:	2800      	cmp	r0, #0
 80307d4:	f040 83ac 	bne.w	8030f30 <tcp_input+0x7cc>
    TCP_STATS_INC(tcp.lenerr);
    goto dropped;
  }

  /* Convert fields in TCP header to host byte order. */
  tcphdr->src = ntohs(tcphdr->src);
 80307d8:	6827      	ldr	r7, [r4, #0]
 80307da:	8838      	ldrh	r0, [r7, #0]
 80307dc:	f7fd fd53 	bl	802e286 <lwip_ntohs>
 80307e0:	8038      	strh	r0, [r7, #0]
  tcphdr->dest = ntohs(tcphdr->dest);
 80307e2:	6827      	ldr	r7, [r4, #0]
 80307e4:	8878      	ldrh	r0, [r7, #2]
 80307e6:	f7fd fd4e 	bl	802e286 <lwip_ntohs>
 80307ea:	8078      	strh	r0, [r7, #2]
  seqno = tcphdr->seqno = ntohl(tcphdr->seqno);
 80307ec:	6827      	ldr	r7, [r4, #0]
 80307ee:	6878      	ldr	r0, [r7, #4]
 80307f0:	f7fd fd50 	bl	802e294 <lwip_ntohl>
 80307f4:	4b89      	ldr	r3, [pc, #548]	; (8030a1c <tcp_input+0x2b8>)
 80307f6:	6078      	str	r0, [r7, #4]
  ackno = tcphdr->ackno = ntohl(tcphdr->ackno);
 80307f8:	6827      	ldr	r7, [r4, #0]
  }

  /* Convert fields in TCP header to host byte order. */
  tcphdr->src = ntohs(tcphdr->src);
  tcphdr->dest = ntohs(tcphdr->dest);
  seqno = tcphdr->seqno = ntohl(tcphdr->seqno);
 80307fa:	6018      	str	r0, [r3, #0]
  ackno = tcphdr->ackno = ntohl(tcphdr->ackno);
 80307fc:	68b8      	ldr	r0, [r7, #8]
 80307fe:	f7fd fd49 	bl	802e294 <lwip_ntohl>
 8030802:	4b87      	ldr	r3, [pc, #540]	; (8030a20 <tcp_input+0x2bc>)
 8030804:	60b8      	str	r0, [r7, #8]
  tcphdr->wnd = ntohs(tcphdr->wnd);
 8030806:	6827      	ldr	r7, [r4, #0]

  /* Convert fields in TCP header to host byte order. */
  tcphdr->src = ntohs(tcphdr->src);
  tcphdr->dest = ntohs(tcphdr->dest);
  seqno = tcphdr->seqno = ntohl(tcphdr->seqno);
  ackno = tcphdr->ackno = ntohl(tcphdr->ackno);
 8030808:	6018      	str	r0, [r3, #0]
  tcphdr->wnd = ntohs(tcphdr->wnd);
 803080a:	89f8      	ldrh	r0, [r7, #14]
 803080c:	f7fd fd3b 	bl	802e286 <lwip_ntohs>
 8030810:	81f8      	strh	r0, [r7, #14]

  flags = TCPH_FLAGS(tcphdr);
 8030812:	6823      	ldr	r3, [r4, #0]
 8030814:	8998      	ldrh	r0, [r3, #12]
 8030816:	f7fd fd36 	bl	802e286 <lwip_ntohs>
 803081a:	4b82      	ldr	r3, [pc, #520]	; (8030a24 <tcp_input+0x2c0>)
  tcplen = p->tot_len + ((flags & (TCP_FIN | TCP_SYN)) ? 1 : 0);
 803081c:	f8b6 8008 	ldrh.w	r8, [r6, #8]
  
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
    LWIP_ASSERT("tcp_input: active pcb->state != CLOSED", pcb->state != CLOSED);
    LWIP_ASSERT("tcp_input: active pcb->state != TIME-WAIT", pcb->state != TIME_WAIT);
    LWIP_ASSERT("tcp_input: active pcb->state != LISTEN", pcb->state != LISTEN);
    if (pcb->remote_port == tcphdr->src &&
 8030820:	6827      	ldr	r7, [r4, #0]
  seqno = tcphdr->seqno = ntohl(tcphdr->seqno);
  ackno = tcphdr->ackno = ntohl(tcphdr->ackno);
  tcphdr->wnd = ntohs(tcphdr->wnd);

  flags = TCPH_FLAGS(tcphdr);
  tcplen = p->tot_len + ((flags & (TCP_FIN | TCP_SYN)) ? 1 : 0);
 8030822:	f010 0c03 	ands.w	ip, r0, #3
  tcphdr->dest = ntohs(tcphdr->dest);
  seqno = tcphdr->seqno = ntohl(tcphdr->seqno);
  ackno = tcphdr->ackno = ntohl(tcphdr->ackno);
  tcphdr->wnd = ntohs(tcphdr->wnd);

  flags = TCPH_FLAGS(tcphdr);
 8030826:	f000 013f 	and.w	r1, r0, #63	; 0x3f
  tcplen = p->tot_len + ((flags & (TCP_FIN | TCP_SYN)) ? 1 : 0);
 803082a:	bf18      	it	ne
 803082c:	f04f 0c01 	movne.w	ip, #1
  tcphdr->dest = ntohs(tcphdr->dest);
  seqno = tcphdr->seqno = ntohl(tcphdr->seqno);
  ackno = tcphdr->ackno = ntohl(tcphdr->ackno);
  tcphdr->wnd = ntohs(tcphdr->wnd);

  flags = TCPH_FLAGS(tcphdr);
 8030830:	7019      	strb	r1, [r3, #0]
  tcplen = p->tot_len + ((flags & (TCP_FIN | TCP_SYN)) ? 1 : 0);
 8030832:	44c4      	add	ip, r8
 8030834:	4b7c      	ldr	r3, [pc, #496]	; (8030a28 <tcp_input+0x2c4>)
    LWIP_ASSERT("tcp_input: active pcb->state != TIME-WAIT", pcb->state != TIME_WAIT);
    LWIP_ASSERT("tcp_input: active pcb->state != LISTEN", pcb->state != LISTEN);
    if (pcb->remote_port == tcphdr->src &&
       pcb->local_port == tcphdr->dest &&
       ip_addr_cmp(&(pcb->remote_ip), &current_iphdr_src) &&
       ip_addr_cmp(&(pcb->local_ip), &current_iphdr_dest)) {
 8030836:	6829      	ldr	r1, [r5, #0]
  seqno = tcphdr->seqno = ntohl(tcphdr->seqno);
  ackno = tcphdr->ackno = ntohl(tcphdr->ackno);
  tcphdr->wnd = ntohs(tcphdr->wnd);

  flags = TCPH_FLAGS(tcphdr);
  tcplen = p->tot_len + ((flags & (TCP_FIN | TCP_SYN)) ? 1 : 0);
 8030838:	fa1f fc8c 	uxth.w	ip, ip
 803083c:	f8a3 c000 	strh.w	ip, [r3]
  /* Demultiplex an incoming segment. First, we check if it is destined
     for an active connection. */
  prev = NULL;

  
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
 8030840:	4b7a      	ldr	r3, [pc, #488]	; (8030a2c <tcp_input+0x2c8>)
 8030842:	f8d3 a000 	ldr.w	sl, [r3]
    LWIP_ASSERT("tcp_input: active pcb->state != CLOSED", pcb->state != CLOSED);
    LWIP_ASSERT("tcp_input: active pcb->state != TIME-WAIT", pcb->state != TIME_WAIT);
    LWIP_ASSERT("tcp_input: active pcb->state != LISTEN", pcb->state != LISTEN);
    if (pcb->remote_port == tcphdr->src &&
       pcb->local_port == tcphdr->dest &&
       ip_addr_cmp(&(pcb->remote_ip), &current_iphdr_src) &&
 8030846:	4b7a      	ldr	r3, [pc, #488]	; (8030a30 <tcp_input+0x2cc>)
  tcphdr->dest = ntohs(tcphdr->dest);
  seqno = tcphdr->seqno = ntohl(tcphdr->seqno);
  ackno = tcphdr->ackno = ntohl(tcphdr->ackno);
  tcphdr->wnd = ntohs(tcphdr->wnd);

  flags = TCPH_FLAGS(tcphdr);
 8030848:	4602      	mov	r2, r0
    LWIP_ASSERT("tcp_input: active pcb->state != CLOSED", pcb->state != CLOSED);
    LWIP_ASSERT("tcp_input: active pcb->state != TIME-WAIT", pcb->state != TIME_WAIT);
    LWIP_ASSERT("tcp_input: active pcb->state != LISTEN", pcb->state != LISTEN);
    if (pcb->remote_port == tcphdr->src &&
       pcb->local_port == tcphdr->dest &&
       ip_addr_cmp(&(pcb->remote_ip), &current_iphdr_src) &&
 803084a:	f8d3 9000 	ldr.w	r9, [r3]
  /* Demultiplex an incoming segment. First, we check if it is destined
     for an active connection. */
  prev = NULL;

  
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
 803084e:	4654      	mov	r4, sl
  flags = TCPH_FLAGS(tcphdr);
  tcplen = p->tot_len + ((flags & (TCP_FIN | TCP_SYN)) ? 1 : 0);

  /* Demultiplex an incoming segment. First, we check if it is destined
     for an active connection. */
  prev = NULL;
 8030850:	4658      	mov	r0, fp

  
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
 8030852:	e019      	b.n	8030888 <tcp_input+0x124>
    LWIP_ASSERT("tcp_input: active pcb->state != CLOSED", pcb->state != CLOSED);
    LWIP_ASSERT("tcp_input: active pcb->state != TIME-WAIT", pcb->state != TIME_WAIT);
    LWIP_ASSERT("tcp_input: active pcb->state != LISTEN", pcb->state != LISTEN);
    if (pcb->remote_port == tcphdr->src &&
 8030854:	8ba5      	ldrh	r5, [r4, #28]
 8030856:	883b      	ldrh	r3, [r7, #0]
 8030858:	429d      	cmp	r5, r3
 803085a:	d113      	bne.n	8030884 <tcp_input+0x120>
 803085c:	8b65      	ldrh	r5, [r4, #26]
 803085e:	887b      	ldrh	r3, [r7, #2]
 8030860:	429d      	cmp	r5, r3
 8030862:	d10f      	bne.n	8030884 <tcp_input+0x120>
       pcb->local_port == tcphdr->dest &&
 8030864:	6863      	ldr	r3, [r4, #4]
 8030866:	454b      	cmp	r3, r9
 8030868:	d10c      	bne.n	8030884 <tcp_input+0x120>
       ip_addr_cmp(&(pcb->remote_ip), &current_iphdr_src) &&
 803086a:	6823      	ldr	r3, [r4, #0]
 803086c:	428b      	cmp	r3, r1
 803086e:	d109      	bne.n	8030884 <tcp_input+0x120>

      /* Move this PCB to the front of the list so that subsequent
         lookups will be faster (we exploit locality in TCP segment
         arrivals). */
      LWIP_ASSERT("tcp_input: pcb->next != pcb (before cache)", pcb->next != pcb);
      if (prev != NULL) {
 8030870:	2800      	cmp	r0, #0
 8030872:	f000 8382 	beq.w	8030f7a <tcp_input+0x816>
        prev->next = pcb->next;
 8030876:	68e3      	ldr	r3, [r4, #12]
 8030878:	60c3      	str	r3, [r0, #12]
        pcb->next = tcp_active_pcbs;
        tcp_active_pcbs = pcb;
 803087a:	4b6c      	ldr	r3, [pc, #432]	; (8030a2c <tcp_input+0x2c8>)
         lookups will be faster (we exploit locality in TCP segment
         arrivals). */
      LWIP_ASSERT("tcp_input: pcb->next != pcb (before cache)", pcb->next != pcb);
      if (prev != NULL) {
        prev->next = pcb->next;
        pcb->next = tcp_active_pcbs;
 803087c:	f8c4 a00c 	str.w	sl, [r4, #12]
        tcp_active_pcbs = pcb;
 8030880:	601c      	str	r4, [r3, #0]
 8030882:	e37a      	b.n	8030f7a <tcp_input+0x816>
 8030884:	4620      	mov	r0, r4
  /* Demultiplex an incoming segment. First, we check if it is destined
     for an active connection. */
  prev = NULL;

  
  for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next) {
 8030886:	68e4      	ldr	r4, [r4, #12]
 8030888:	2c00      	cmp	r4, #0
 803088a:	d1e3      	bne.n	8030854 <tcp_input+0xf0>
 803088c:	e372      	b.n	8030f74 <tcp_input+0x810>
  if (pcb == NULL) {
    /* If it did not go to an active connection, we check the connections
       in the TIME-WAIT state. */
    for(pcb = tcp_tw_pcbs; pcb != NULL; pcb = pcb->next) {
      LWIP_ASSERT("tcp_input: TIME-WAIT pcb->state == TIME-WAIT", pcb->state == TIME_WAIT);
      if (pcb->remote_port == tcphdr->src &&
 803088e:	8b98      	ldrh	r0, [r3, #28]
 8030890:	883c      	ldrh	r4, [r7, #0]
 8030892:	4284      	cmp	r4, r0
 8030894:	d130      	bne.n	80308f8 <tcp_input+0x194>
         pcb->local_port == tcphdr->dest &&
 8030896:	8b58      	ldrh	r0, [r3, #26]
  if (pcb == NULL) {
    /* If it did not go to an active connection, we check the connections
       in the TIME-WAIT state. */
    for(pcb = tcp_tw_pcbs; pcb != NULL; pcb = pcb->next) {
      LWIP_ASSERT("tcp_input: TIME-WAIT pcb->state == TIME-WAIT", pcb->state == TIME_WAIT);
      if (pcb->remote_port == tcphdr->src &&
 8030898:	887d      	ldrh	r5, [r7, #2]
 803089a:	4285      	cmp	r5, r0
 803089c:	d12c      	bne.n	80308f8 <tcp_input+0x194>
         pcb->local_port == tcphdr->dest &&
 803089e:	6858      	ldr	r0, [r3, #4]
 80308a0:	4548      	cmp	r0, r9
 80308a2:	d129      	bne.n	80308f8 <tcp_input+0x194>
         ip_addr_cmp(&(pcb->remote_ip), &current_iphdr_src) &&
 80308a4:	6818      	ldr	r0, [r3, #0]
 80308a6:	4288      	cmp	r0, r1
 80308a8:	d126      	bne.n	80308f8 <tcp_input+0x194>
  /* RFC 1337: in TIME_WAIT, ignore RST and ACK FINs + any 'acceptable' segments */
  /* RFC 793 3.9 Event Processing - Segment Arrives:
   * - first check sequence number - we skip that one in TIME_WAIT (always
   *   acceptable since we only send ACKs)
   * - second check the RST bit (... return) */
  if (flags & TCP_RST)  {
 80308aa:	f002 0104 	and.w	r1, r2, #4
 80308ae:	b2c9      	uxtb	r1, r1
 80308b0:	2900      	cmp	r1, #0
 80308b2:	f040 833f 	bne.w	8030f34 <tcp_input+0x7d0>
    return ERR_OK;
  }
  /* - fourth, check the SYN bit, */
  if (flags & TCP_SYN) {
 80308b6:	f002 0102 	and.w	r1, r2, #2
 80308ba:	b2c9      	uxtb	r1, r1
 80308bc:	b159      	cbz	r1, 80308d6 <tcp_input+0x172>
    /* If an incoming segment is not acceptable, an acknowledgment
       should be sent in reply */
    if (TCP_SEQ_BETWEEN(seqno, pcb->rcv_nxt, pcb->rcv_nxt+pcb->rcv_wnd)) {
 80308be:	4a57      	ldr	r2, [pc, #348]	; (8030a1c <tcp_input+0x2b8>)
 80308c0:	6811      	ldr	r1, [r2, #0]
 80308c2:	6a9a      	ldr	r2, [r3, #40]	; 0x28
 80308c4:	1a8a      	subs	r2, r1, r2
 80308c6:	d40b      	bmi.n	80308e0 <tcp_input+0x17c>
 80308c8:	8d98      	ldrh	r0, [r3, #44]	; 0x2c
 80308ca:	1a12      	subs	r2, r2, r0
 80308cc:	2a00      	cmp	r2, #0
 80308ce:	dc07      	bgt.n	80308e0 <tcp_input+0x17c>
      /* If the SYN is in the window it is an error, send a reset */
      tcp_rst(ackno, seqno + tcplen, ip_current_dest_addr(), ip_current_src_addr(),
 80308d0:	9500      	str	r5, [sp, #0]
 80308d2:	9401      	str	r4, [sp, #4]
 80308d4:	e041      	b.n	803095a <tcp_input+0x1f6>
        tcphdr->dest, tcphdr->src);
      return ERR_OK;
    }
  } else if (flags & TCP_FIN) {
 80308d6:	07d2      	lsls	r2, r2, #31
 80308d8:	d502      	bpl.n	80308e0 <tcp_input+0x17c>
    /* - eighth, check the FIN bit: Remain in the TIME-WAIT state.
         Restart the 2 MSL time-wait timeout.*/
    pcb->tmr = tcp_ticks;
 80308da:	4a56      	ldr	r2, [pc, #344]	; (8030a34 <tcp_input+0x2d0>)
 80308dc:	6812      	ldr	r2, [r2, #0]
 80308de:	625a      	str	r2, [r3, #36]	; 0x24
  }

  if ((tcplen > 0))  {
 80308e0:	f1bc 0f00 	cmp.w	ip, #0
 80308e4:	f000 8326 	beq.w	8030f34 <tcp_input+0x7d0>
    /* Acknowledge data, FIN or out-of-window SYN */
    pcb->flags |= TF_ACK_NOW;
 80308e8:	7f9a      	ldrb	r2, [r3, #30]
 80308ea:	f042 0202 	orr.w	r2, r2, #2
 80308ee:	779a      	strb	r2, [r3, #30]
    return tcp_output(pcb);
 80308f0:	4618      	mov	r0, r3
 80308f2:	f000 fe3d 	bl	8031570 <tcp_output>
 80308f6:	e31d      	b.n	8030f34 <tcp_input+0x7d0>
  }

  if (pcb == NULL) {
    /* If it did not go to an active connection, we check the connections
       in the TIME-WAIT state. */
    for(pcb = tcp_tw_pcbs; pcb != NULL; pcb = pcb->next) {
 80308f8:	68db      	ldr	r3, [r3, #12]
 80308fa:	2b00      	cmp	r3, #0
 80308fc:	d1c7      	bne.n	803088e <tcp_input+0x12a>
    }

    /* Finally, if we still did not get a match, we check all PCBs that
       are LISTENing for incoming connections. */
    prev = NULL;
    for(lpcb = tcp_listen_pcbs.listen_pcbs; lpcb != NULL; lpcb = lpcb->next) {
 80308fe:	484e      	ldr	r0, [pc, #312]	; (8030a38 <tcp_input+0x2d4>)
 8030900:	6804      	ldr	r4, [r0, #0]
 8030902:	4625      	mov	r5, r4
 8030904:	e00f      	b.n	8030926 <tcp_input+0x1c2>
      if (lpcb->local_port == tcphdr->dest) {
 8030906:	8b68      	ldrh	r0, [r5, #26]
 8030908:	f8b7 8002 	ldrh.w	r8, [r7, #2]
 803090c:	4580      	cmp	r8, r0
 803090e:	d108      	bne.n	8030922 <tcp_input+0x1be>
          /* found an ANY-match */
          lpcb_any = lpcb;
          lpcb_prev = prev;
        }
#else /* SO_REUSE */
        if (ip_addr_cmp(&(lpcb->local_ip), &current_iphdr_dest) ||
 8030910:	f8d5 8000 	ldr.w	r8, [r5]
 8030914:	4588      	cmp	r8, r1
 8030916:	f000 8342 	beq.w	8030f9e <tcp_input+0x83a>
            ip_addr_isany(&(lpcb->local_ip))) {
 803091a:	f1b8 0f00 	cmp.w	r8, #0
 803091e:	f000 833e 	beq.w	8030f9e <tcp_input+0x83a>
 8030922:	462b      	mov	r3, r5
    }

    /* Finally, if we still did not get a match, we check all PCBs that
       are LISTENing for incoming connections. */
    prev = NULL;
    for(lpcb = tcp_listen_pcbs.listen_pcbs; lpcb != NULL; lpcb = lpcb->next) {
 8030924:	68ed      	ldr	r5, [r5, #12]
 8030926:	2d00      	cmp	r5, #0
 8030928:	d1ed      	bne.n	8030906 <tcp_input+0x1a2>
 803092a:	e33c      	b.n	8030fa6 <tcp_input+0x842>
    if (lpcb != NULL) {
      /* Move this PCB to the front of the list so that subsequent
         lookups will be faster (we exploit locality in TCP segment
         arrivals). */
      if (prev != NULL) {
        ((struct tcp_pcb_listen *)prev)->next = lpcb->next;
 803092c:	68e9      	ldr	r1, [r5, #12]
 803092e:	60d9      	str	r1, [r3, #12]
              /* our successor is the remainder of the listening list */
        lpcb->next = tcp_listen_pcbs.listen_pcbs;
              /* put this listening pcb at the head of the listening list */
        tcp_listen_pcbs.listen_pcbs = lpcb;
 8030930:	4b41      	ldr	r3, [pc, #260]	; (8030a38 <tcp_input+0x2d4>)
         lookups will be faster (we exploit locality in TCP segment
         arrivals). */
      if (prev != NULL) {
        ((struct tcp_pcb_listen *)prev)->next = lpcb->next;
              /* our successor is the remainder of the listening list */
        lpcb->next = tcp_listen_pcbs.listen_pcbs;
 8030932:	60ec      	str	r4, [r5, #12]
              /* put this listening pcb at the head of the listening list */
        tcp_listen_pcbs.listen_pcbs = lpcb;
 8030934:	601d      	str	r5, [r3, #0]
tcp_listen_input(struct tcp_pcb_listen *pcb)
{
  struct tcp_pcb *npcb;
  err_t rc;

  if (flags & TCP_RST) {
 8030936:	f002 0304 	and.w	r3, r2, #4
 803093a:	b2db      	uxtb	r3, r3
 803093c:	2b00      	cmp	r3, #0
 803093e:	f040 82f9 	bne.w	8030f34 <tcp_input+0x7d0>
    return ERR_OK;
  }

  /* In the LISTEN state, we check for incoming SYN segments,
     creates a new PCB, and responds with a SYN|ACK. */
  if (flags & TCP_ACK) {
 8030942:	f002 0810 	and.w	r8, r2, #16
 8030946:	fa5f f888 	uxtb.w	r8, r8
 803094a:	f1b8 0f00 	cmp.w	r8, #0
 803094e:	d00c      	beq.n	803096a <tcp_input+0x206>
    /* For incoming segments with the ACK flag set, respond with a
       RST. */
    LWIP_DEBUGF(TCP_RST_DEBUG, ("tcp_listen_input: ACK in LISTEN, sending reset\n"));
    tcp_rst(ackno, seqno + tcplen, ip_current_dest_addr(),
 8030950:	4b32      	ldr	r3, [pc, #200]	; (8030a1c <tcp_input+0x2b8>)
 8030952:	6819      	ldr	r1, [r3, #0]
 8030954:	9000      	str	r0, [sp, #0]
 8030956:	883b      	ldrh	r3, [r7, #0]
 8030958:	9301      	str	r3, [sp, #4]
 803095a:	4b31      	ldr	r3, [pc, #196]	; (8030a20 <tcp_input+0x2bc>)
 803095c:	6818      	ldr	r0, [r3, #0]
 803095e:	4461      	add	r1, ip
 8030960:	4a2d      	ldr	r2, [pc, #180]	; (8030a18 <tcp_input+0x2b4>)
 8030962:	4b33      	ldr	r3, [pc, #204]	; (8030a30 <tcp_input+0x2cc>)
 8030964:	f000 ff28 	bl	80317b8 <tcp_rst>
 8030968:	e2e4      	b.n	8030f34 <tcp_input+0x7d0>
      ip_current_src_addr(), tcphdr->dest, tcphdr->src);
  } else if (flags & TCP_SYN) {
 803096a:	f002 0202 	and.w	r2, r2, #2
 803096e:	b2d2      	uxtb	r2, r2
 8030970:	2a00      	cmp	r2, #0
 8030972:	f000 82df 	beq.w	8030f34 <tcp_input+0x7d0>
    if (pcb->accepts_pending >= pcb->backlog) {
      LWIP_DEBUGF(TCP_DEBUG, ("tcp_listen_input: listen backlog exceeded for port %"U16_F"\n", tcphdr->dest));
      return ERR_ABRT;
    }
#endif /* TCP_LISTEN_BACKLOG */
    npcb = tcp_alloc(pcb->prio);
 8030976:	7e68      	ldrb	r0, [r5, #25]
 8030978:	f7ff fbc6 	bl	8030108 <tcp_alloc>
    /* If a new PCB could not be created (probably due to lack of memory),
       we don't do anything, but rely on the sender will retransmit the
       SYN at a time when we have more memory available. */
    if (npcb == NULL) {
 803097c:	4604      	mov	r4, r0
 803097e:	2800      	cmp	r0, #0
 8030980:	f000 82d8 	beq.w	8030f34 <tcp_input+0x7d0>
    }
#if TCP_LISTEN_BACKLOG
    pcb->accepts_pending++;
#endif /* TCP_LISTEN_BACKLOG */
    /* Set up the new PCB. */
    ip_addr_copy(npcb->local_ip, current_iphdr_dest);
 8030984:	4b24      	ldr	r3, [pc, #144]	; (8030a18 <tcp_input+0x2b4>)
 8030986:	681b      	ldr	r3, [r3, #0]
 8030988:	6003      	str	r3, [r0, #0]
    npcb->local_port = pcb->local_port;
 803098a:	8b6b      	ldrh	r3, [r5, #26]
 803098c:	8343      	strh	r3, [r0, #26]
    ip_addr_copy(npcb->remote_ip, current_iphdr_src);
 803098e:	4b28      	ldr	r3, [pc, #160]	; (8030a30 <tcp_input+0x2cc>)
 8030990:	681b      	ldr	r3, [r3, #0]
 8030992:	6043      	str	r3, [r0, #4]
    npcb->remote_port = tcphdr->src;
 8030994:	4b1f      	ldr	r3, [pc, #124]	; (8030a14 <tcp_input+0x2b0>)
 8030996:	681b      	ldr	r3, [r3, #0]
 8030998:	7859      	ldrb	r1, [r3, #1]
 803099a:	781a      	ldrb	r2, [r3, #0]
 803099c:	ea42 2201 	orr.w	r2, r2, r1, lsl #8
 80309a0:	8382      	strh	r2, [r0, #28]
    npcb->state = SYN_RCVD;
 80309a2:	2203      	movs	r2, #3
 80309a4:	7602      	strb	r2, [r0, #24]
    npcb->rcv_nxt = seqno + 1;
 80309a6:	4a1d      	ldr	r2, [pc, #116]	; (8030a1c <tcp_input+0x2b8>)
 80309a8:	6812      	ldr	r2, [r2, #0]
 80309aa:	1c51      	adds	r1, r2, #1
 80309ac:	6281      	str	r1, [r0, #40]	; 0x28
    npcb->rcv_ann_right_edge = npcb->rcv_nxt;
 80309ae:	6301      	str	r1, [r0, #48]	; 0x30
    npcb->snd_wnd = tcphdr->wnd;
 80309b0:	89db      	ldrh	r3, [r3, #14]
 80309b2:	f8a0 3060 	strh.w	r3, [r0, #96]	; 0x60
    npcb->snd_wnd_max = tcphdr->wnd;
 80309b6:	f8a0 3062 	strh.w	r3, [r0, #98]	; 0x62
    npcb->ssthresh = npcb->snd_wnd;
 80309ba:	f8a0 304e 	strh.w	r3, [r0, #78]	; 0x4e
    npcb->snd_wl1 = seqno - 1;/* initialise to seqno-1 to force window update */
    npcb->callback_arg = pcb->callback_arg;
 80309be:	692b      	ldr	r3, [r5, #16]
 80309c0:	6103      	str	r3, [r0, #16]
#if LWIP_CALLBACK_API
    npcb->accept = pcb->accept;
 80309c2:	696b      	ldr	r3, [r5, #20]
    npcb->rcv_nxt = seqno + 1;
    npcb->rcv_ann_right_edge = npcb->rcv_nxt;
    npcb->snd_wnd = tcphdr->wnd;
    npcb->snd_wnd_max = tcphdr->wnd;
    npcb->ssthresh = npcb->snd_wnd;
    npcb->snd_wl1 = seqno - 1;/* initialise to seqno-1 to force window update */
 80309c4:	3a01      	subs	r2, #1
 80309c6:	6542      	str	r2, [r0, #84]	; 0x54
    npcb->callback_arg = pcb->callback_arg;
#if LWIP_CALLBACK_API
    npcb->accept = pcb->accept;
 80309c8:	6143      	str	r3, [r0, #20]
#endif /* LWIP_CALLBACK_API */
    /* inherit socket options */
    npcb->so_options = pcb->so_options & SOF_INHERITED;
 80309ca:	7a2b      	ldrb	r3, [r5, #8]
 80309cc:	f023 0373 	bic.w	r3, r3, #115	; 0x73
 80309d0:	7203      	strb	r3, [r0, #8]
    /* Register the new PCB so that we can begin receiving segments
       for it. */
    TCP_REG_ACTIVE(npcb);
 80309d2:	4b16      	ldr	r3, [pc, #88]	; (8030a2c <tcp_input+0x2c8>)
 80309d4:	681a      	ldr	r2, [r3, #0]
 80309d6:	6018      	str	r0, [r3, #0]
 80309d8:	60c2      	str	r2, [r0, #12]
 80309da:	f001 f887 	bl	8031aec <tcp_timer_needed>
 80309de:	4b17      	ldr	r3, [pc, #92]	; (8030a3c <tcp_input+0x2d8>)
 80309e0:	2201      	movs	r2, #1

    /* Parse any options in the SYN. */
    tcp_parseopt(npcb);
 80309e2:	4620      	mov	r0, r4
#endif /* LWIP_CALLBACK_API */
    /* inherit socket options */
    npcb->so_options = pcb->so_options & SOF_INHERITED;
    /* Register the new PCB so that we can begin receiving segments
       for it. */
    TCP_REG_ACTIVE(npcb);
 80309e4:	701a      	strb	r2, [r3, #0]

    /* Parse any options in the SYN. */
    tcp_parseopt(npcb);
 80309e6:	f7ff fc29 	bl	803023c <tcp_parseopt>
#if TCP_CALCULATE_EFF_SEND_MSS
    npcb->mss = tcp_eff_send_mss(npcb->mss, &(npcb->remote_ip));
 80309ea:	1d21      	adds	r1, r4, #4
 80309ec:	8ee0      	ldrh	r0, [r4, #54]	; 0x36
 80309ee:	f7ff fc16 	bl	803021e <tcp_eff_send_mss>
 80309f2:	86e0      	strh	r0, [r4, #54]	; 0x36
#endif /* TCP_CALCULATE_EFF_SEND_MSS */

    snmp_inc_tcppassiveopens();
 80309f4:	f003 fb5c 	bl	80340b0 <snmp_inc_tcppassiveopens>

    /* Send a SYN|ACK together with the MSS option. */
    rc = tcp_enqueue_flags(npcb, TCP_SYN | TCP_ACK);
 80309f8:	4620      	mov	r0, r4
 80309fa:	2112      	movs	r1, #18
 80309fc:	f000 fd28 	bl	8031450 <tcp_enqueue_flags>
    if (rc != ERR_OK) {
 8030a00:	b120      	cbz	r0, 8030a0c <tcp_input+0x2a8>
      tcp_abandon(npcb, 0);
 8030a02:	4620      	mov	r0, r4
 8030a04:	4641      	mov	r1, r8
 8030a06:	f7ff f9e1 	bl	802fdcc <tcp_abandon>
 8030a0a:	e293      	b.n	8030f34 <tcp_input+0x7d0>
      return rc;
    }
    return tcp_output(npcb);
 8030a0c:	4620      	mov	r0, r4
 8030a0e:	e770      	b.n	80308f2 <tcp_input+0x18e>
 8030a10:	2000c3fc 	.word	0x2000c3fc
 8030a14:	2000c3e4 	.word	0x2000c3e4
 8030a18:	2000f6d4 	.word	0x2000f6d4
 8030a1c:	2000c3e8 	.word	0x2000c3e8
 8030a20:	2000c3f0 	.word	0x2000c3f0
 8030a24:	2000c3f4 	.word	0x2000c3f4
 8030a28:	2000c3ec 	.word	0x2000c3ec
 8030a2c:	2000f6ac 	.word	0x2000f6ac
 8030a30:	2000f6cc 	.word	0x2000f6cc
 8030a34:	2000f6b0 	.word	0x2000f6b0
 8030a38:	2000f6b4 	.word	0x2000f6b4
 8030a3c:	2000f6a8 	.word	0x2000f6a8

    recv_data = NULL;
    recv_flags = 0;

    if (flags & TCP_PSH) {
      p->flags |= PBUF_FLAG_PUSH;
 8030a40:	7b73      	ldrb	r3, [r6, #13]
 8030a42:	f043 0301 	orr.w	r3, r3, #1
 8030a46:	7373      	strb	r3, [r6, #13]
    }

    /* If there is data which was previously "refused" by upper layer */
    if (pcb->refused_data != NULL) {
 8030a48:	6f63      	ldr	r3, [r4, #116]	; 0x74
 8030a4a:	b163      	cbz	r3, 8030a66 <tcp_input+0x302>
      if ((tcp_process_refused_data(pcb) == ERR_ABRT) ||
 8030a4c:	4620      	mov	r0, r4
 8030a4e:	f7ff fad1 	bl	802fff4 <tcp_process_refused_data>
 8030a52:	300a      	adds	r0, #10
 8030a54:	d004      	beq.n	8030a60 <tcp_input+0x2fc>
 8030a56:	6f63      	ldr	r3, [r4, #116]	; 0x74
 8030a58:	b12b      	cbz	r3, 8030a66 <tcp_input+0x302>
        ((pcb->refused_data != NULL) && (tcplen > 0))) {
 8030a5a:	4b9f      	ldr	r3, [pc, #636]	; (8030cd8 <tcp_input+0x574>)
 8030a5c:	881b      	ldrh	r3, [r3, #0]
 8030a5e:	b113      	cbz	r3, 8030a66 <tcp_input+0x302>
        /* pcb has been aborted or refused data is still refused and the new
           segment contains data */
        TCP_STATS_INC(tcp.drop);
        snmp_inc_tcpinerrs();
 8030a60:	f003 fb56 	bl	8034110 <snmp_inc_tcpinerrs>
        goto aborted;
 8030a64:	e249      	b.n	8030efa <tcp_input+0x796>
      }
    }
    tcp_input_pcb = pcb;
 8030a66:	4b9d      	ldr	r3, [pc, #628]	; (8030cdc <tcp_input+0x578>)
 8030a68:	601c      	str	r4, [r3, #0]
  err_t err;

  err = ERR_OK;

  /* Process incoming RST segments. */
  if (flags & TCP_RST) {
 8030a6a:	4b9d      	ldr	r3, [pc, #628]	; (8030ce0 <tcp_input+0x57c>)
 8030a6c:	781b      	ldrb	r3, [r3, #0]
 8030a6e:	f003 0204 	and.w	r2, r3, #4
 8030a72:	b2d2      	uxtb	r2, r2
 8030a74:	b1aa      	cbz	r2, 8030aa2 <tcp_input+0x33e>
    /* First, determine if the reset is acceptable. */
    if (pcb->state == SYN_SENT) {
 8030a76:	7e23      	ldrb	r3, [r4, #24]
 8030a78:	2b02      	cmp	r3, #2
 8030a7a:	d106      	bne.n	8030a8a <tcp_input+0x326>
      if (ackno == pcb->snd_nxt) {
 8030a7c:	4b99      	ldr	r3, [pc, #612]	; (8030ce4 <tcp_input+0x580>)
 8030a7e:	681a      	ldr	r2, [r3, #0]
 8030a80:	6d23      	ldr	r3, [r4, #80]	; 0x50
 8030a82:	429a      	cmp	r2, r3
 8030a84:	f040 82a1 	bne.w	8030fca <tcp_input+0x866>
 8030a88:	e296      	b.n	8030fb8 <tcp_input+0x854>
        acceptable = 1;
      }
    } else {
      if (TCP_SEQ_BETWEEN(seqno, pcb->rcv_nxt, 
 8030a8a:	4b97      	ldr	r3, [pc, #604]	; (8030ce8 <tcp_input+0x584>)
 8030a8c:	681a      	ldr	r2, [r3, #0]
 8030a8e:	6aa3      	ldr	r3, [r4, #40]	; 0x28
 8030a90:	1ad3      	subs	r3, r2, r3
 8030a92:	f100 829a 	bmi.w	8030fca <tcp_input+0x866>
 8030a96:	8da1      	ldrh	r1, [r4, #44]	; 0x2c
 8030a98:	1a5b      	subs	r3, r3, r1
 8030a9a:	2b00      	cmp	r3, #0
 8030a9c:	f300 8295 	bgt.w	8030fca <tcp_input+0x866>
 8030aa0:	e28a      	b.n	8030fb8 <tcp_input+0x854>
       seqno, pcb->rcv_nxt));
      return ERR_OK;
    }
  }

  if ((flags & TCP_SYN) && (pcb->state != SYN_SENT && pcb->state != SYN_RCVD)) { 
 8030aa2:	f003 0302 	and.w	r3, r3, #2
 8030aa6:	b2db      	uxtb	r3, r3
 8030aa8:	b123      	cbz	r3, 8030ab4 <tcp_input+0x350>
 8030aaa:	7e23      	ldrb	r3, [r4, #24]
 8030aac:	3b02      	subs	r3, #2
 8030aae:	2b01      	cmp	r3, #1
 8030ab0:	d900      	bls.n	8030ab4 <tcp_input+0x350>
 8030ab2:	e06b      	b.n	8030b8c <tcp_input+0x428>
    /* Cope with new connection attempt after remote end crashed */
    tcp_ack_now(pcb);
    return ERR_OK;
  }
  
  if ((pcb->flags & TF_RXCLOSED) == 0) {
 8030ab4:	7fa3      	ldrb	r3, [r4, #30]
 8030ab6:	f003 0310 	and.w	r3, r3, #16
 8030aba:	b2db      	uxtb	r3, r3
 8030abc:	b913      	cbnz	r3, 8030ac4 <tcp_input+0x360>
    /* Update the PCB (in)activity timer unless rx is closed (see tcp_shutdown) */
    pcb->tmr = tcp_ticks;
 8030abe:	4b8b      	ldr	r3, [pc, #556]	; (8030cec <tcp_input+0x588>)
 8030ac0:	681b      	ldr	r3, [r3, #0]
 8030ac2:	6263      	str	r3, [r4, #36]	; 0x24
  }
  pcb->keep_cnt_sent = 0;
 8030ac4:	2300      	movs	r3, #0
 8030ac6:	f884 3092 	strb.w	r3, [r4, #146]	; 0x92

  tcp_parseopt(pcb);
 8030aca:	4620      	mov	r0, r4
 8030acc:	f7ff fbb6 	bl	803023c <tcp_parseopt>

  /* Do different things depending on the TCP state. */
  switch (pcb->state) {
 8030ad0:	7e23      	ldrb	r3, [r4, #24]
 8030ad2:	3b02      	subs	r3, #2
 8030ad4:	2b07      	cmp	r3, #7
 8030ad6:	f200 8278 	bhi.w	8030fca <tcp_input+0x866>
 8030ada:	e8df f013 	tbh	[pc, r3, lsl #1]
 8030ade:	0008      	.short	0x0008
 8030ae0:	00c90077 	.word	0x00c90077
 8030ae4:	013000da 	.word	0x013000da
 8030ae8:	015200c9 	.word	0x015200c9
 8030aec:	0186      	.short	0x0186
  case SYN_SENT:
    LWIP_DEBUGF(TCP_INPUT_DEBUG, ("SYN-SENT: ackno %"U32_F" pcb->snd_nxt %"U32_F" unacked %"U32_F"\n", ackno,
     pcb->snd_nxt, ntohl(pcb->unacked->tcphdr->seqno)));
    /* received SYN ACK with expected sequence number? */
    if ((flags & TCP_ACK) && (flags & TCP_SYN)
 8030aee:	4b7c      	ldr	r3, [pc, #496]	; (8030ce0 <tcp_input+0x57c>)
 8030af0:	781b      	ldrb	r3, [r3, #0]
 8030af2:	f003 0312 	and.w	r3, r3, #18
 8030af6:	2b12      	cmp	r3, #18
 8030af8:	d153      	bne.n	8030ba2 <tcp_input+0x43e>
        && ackno == ntohl(pcb->unacked->tcphdr->seqno) + 1) {
 8030afa:	6f23      	ldr	r3, [r4, #112]	; 0x70
 8030afc:	4d79      	ldr	r5, [pc, #484]	; (8030ce4 <tcp_input+0x580>)
 8030afe:	68db      	ldr	r3, [r3, #12]
 8030b00:	682e      	ldr	r6, [r5, #0]
 8030b02:	6858      	ldr	r0, [r3, #4]
 8030b04:	f7fd fbc6 	bl	802e294 <lwip_ntohl>
 8030b08:	3001      	adds	r0, #1
 8030b0a:	4286      	cmp	r6, r0
 8030b0c:	d149      	bne.n	8030ba2 <tcp_input+0x43e>
      pcb->snd_buf++;
 8030b0e:	f8b4 3066 	ldrh.w	r3, [r4, #102]	; 0x66
      pcb->snd_wnd_max = tcphdr->wnd;
      pcb->snd_wl1 = seqno - 1; /* initialise to seqno - 1 to force window update */
      pcb->state = ESTABLISHED;

#if TCP_CALCULATE_EFF_SEND_MSS
      pcb->mss = tcp_eff_send_mss(pcb->mss, &(pcb->remote_ip));
 8030b12:	8ee0      	ldrh	r0, [r4, #54]	; 0x36
    LWIP_DEBUGF(TCP_INPUT_DEBUG, ("SYN-SENT: ackno %"U32_F" pcb->snd_nxt %"U32_F" unacked %"U32_F"\n", ackno,
     pcb->snd_nxt, ntohl(pcb->unacked->tcphdr->seqno)));
    /* received SYN ACK with expected sequence number? */
    if ((flags & TCP_ACK) && (flags & TCP_SYN)
        && ackno == ntohl(pcb->unacked->tcphdr->seqno) + 1) {
      pcb->snd_buf++;
 8030b14:	3301      	adds	r3, #1
 8030b16:	f8a4 3066 	strh.w	r3, [r4, #102]	; 0x66
      pcb->rcv_nxt = seqno + 1;
 8030b1a:	4b73      	ldr	r3, [pc, #460]	; (8030ce8 <tcp_input+0x584>)
 8030b1c:	681b      	ldr	r3, [r3, #0]
 8030b1e:	1c5a      	adds	r2, r3, #1
 8030b20:	62a2      	str	r2, [r4, #40]	; 0x28
      pcb->rcv_ann_right_edge = pcb->rcv_nxt;
 8030b22:	6322      	str	r2, [r4, #48]	; 0x30
      pcb->lastack = ackno;
 8030b24:	682a      	ldr	r2, [r5, #0]
 8030b26:	64a2      	str	r2, [r4, #72]	; 0x48
      pcb->snd_wnd = tcphdr->wnd;
 8030b28:	4a71      	ldr	r2, [pc, #452]	; (8030cf0 <tcp_input+0x58c>)
 8030b2a:	6812      	ldr	r2, [r2, #0]
      pcb->snd_wnd_max = tcphdr->wnd;
      pcb->snd_wl1 = seqno - 1; /* initialise to seqno - 1 to force window update */
 8030b2c:	3b01      	subs	r3, #1
        && ackno == ntohl(pcb->unacked->tcphdr->seqno) + 1) {
      pcb->snd_buf++;
      pcb->rcv_nxt = seqno + 1;
      pcb->rcv_ann_right_edge = pcb->rcv_nxt;
      pcb->lastack = ackno;
      pcb->snd_wnd = tcphdr->wnd;
 8030b2e:	89d2      	ldrh	r2, [r2, #14]
      pcb->snd_wnd_max = tcphdr->wnd;
      pcb->snd_wl1 = seqno - 1; /* initialise to seqno - 1 to force window update */
 8030b30:	6563      	str	r3, [r4, #84]	; 0x54
      pcb->state = ESTABLISHED;
 8030b32:	2304      	movs	r3, #4
 8030b34:	7623      	strb	r3, [r4, #24]

#if TCP_CALCULATE_EFF_SEND_MSS
      pcb->mss = tcp_eff_send_mss(pcb->mss, &(pcb->remote_ip));
 8030b36:	18e1      	adds	r1, r4, r3
        && ackno == ntohl(pcb->unacked->tcphdr->seqno) + 1) {
      pcb->snd_buf++;
      pcb->rcv_nxt = seqno + 1;
      pcb->rcv_ann_right_edge = pcb->rcv_nxt;
      pcb->lastack = ackno;
      pcb->snd_wnd = tcphdr->wnd;
 8030b38:	f8a4 2060 	strh.w	r2, [r4, #96]	; 0x60
      pcb->snd_wnd_max = tcphdr->wnd;
 8030b3c:	f8a4 2062 	strh.w	r2, [r4, #98]	; 0x62
      pcb->snd_wl1 = seqno - 1; /* initialise to seqno - 1 to force window update */
      pcb->state = ESTABLISHED;

#if TCP_CALCULATE_EFF_SEND_MSS
      pcb->mss = tcp_eff_send_mss(pcb->mss, &(pcb->remote_ip));
 8030b40:	f7ff fb6d 	bl	803021e <tcp_eff_send_mss>
#endif /* TCP_CALCULATE_EFF_SEND_MSS */

      /* Set ssthresh again after changing pcb->mss (already set in tcp_connect
       * but for the default value of pcb->mss) */
      pcb->ssthresh = pcb->mss * 10;
 8030b44:	230a      	movs	r3, #10
 8030b46:	4343      	muls	r3, r0
 8030b48:	f8a4 304e 	strh.w	r3, [r4, #78]	; 0x4e

      pcb->cwnd = ((pcb->cwnd == 1) ? (pcb->mss * 2) : pcb->mss);
 8030b4c:	f8b4 304c 	ldrh.w	r3, [r4, #76]	; 0x4c
      pcb->snd_wnd_max = tcphdr->wnd;
      pcb->snd_wl1 = seqno - 1; /* initialise to seqno - 1 to force window update */
      pcb->state = ESTABLISHED;

#if TCP_CALCULATE_EFF_SEND_MSS
      pcb->mss = tcp_eff_send_mss(pcb->mss, &(pcb->remote_ip));
 8030b50:	86e0      	strh	r0, [r4, #54]	; 0x36

      /* Set ssthresh again after changing pcb->mss (already set in tcp_connect
       * but for the default value of pcb->mss) */
      pcb->ssthresh = pcb->mss * 10;

      pcb->cwnd = ((pcb->cwnd == 1) ? (pcb->mss * 2) : pcb->mss);
 8030b52:	2b01      	cmp	r3, #1
 8030b54:	d101      	bne.n	8030b5a <tcp_input+0x3f6>
 8030b56:	0040      	lsls	r0, r0, #1
 8030b58:	b280      	uxth	r0, r0
      LWIP_ASSERT("pcb->snd_queuelen > 0", (pcb->snd_queuelen > 0));
      --pcb->snd_queuelen;
 8030b5a:	f8b4 3068 	ldrh.w	r3, [r4, #104]	; 0x68

      /* Set ssthresh again after changing pcb->mss (already set in tcp_connect
       * but for the default value of pcb->mss) */
      pcb->ssthresh = pcb->mss * 10;

      pcb->cwnd = ((pcb->cwnd == 1) ? (pcb->mss * 2) : pcb->mss);
 8030b5e:	f8a4 004c 	strh.w	r0, [r4, #76]	; 0x4c
      LWIP_ASSERT("pcb->snd_queuelen > 0", (pcb->snd_queuelen > 0));
      --pcb->snd_queuelen;
      LWIP_DEBUGF(TCP_QLEN_DEBUG, ("tcp_process: SYN-SENT --queuelen %"U16_F"\n", (u16_t)pcb->snd_queuelen));
      rseg = pcb->unacked;
 8030b62:	6f20      	ldr	r0, [r4, #112]	; 0x70
       * but for the default value of pcb->mss) */
      pcb->ssthresh = pcb->mss * 10;

      pcb->cwnd = ((pcb->cwnd == 1) ? (pcb->mss * 2) : pcb->mss);
      LWIP_ASSERT("pcb->snd_queuelen > 0", (pcb->snd_queuelen > 0));
      --pcb->snd_queuelen;
 8030b64:	3b01      	subs	r3, #1
 8030b66:	f8a4 3068 	strh.w	r3, [r4, #104]	; 0x68
      LWIP_DEBUGF(TCP_QLEN_DEBUG, ("tcp_process: SYN-SENT --queuelen %"U16_F"\n", (u16_t)pcb->snd_queuelen));
      rseg = pcb->unacked;
      pcb->unacked = rseg->next;
 8030b6a:	6803      	ldr	r3, [r0, #0]
 8030b6c:	6723      	str	r3, [r4, #112]	; 0x70
      tcp_seg_free(rseg);
 8030b6e:	f7fe ff70 	bl	802fa52 <tcp_seg_free>

      /* If there's nothing left to acknowledge, stop the retransmit
         timer, otherwise reset it to start again */
      if(pcb->unacked == NULL)
 8030b72:	6f23      	ldr	r3, [r4, #112]	; 0x70
 8030b74:	b91b      	cbnz	r3, 8030b7e <tcp_input+0x41a>
        pcb->rtime = -1;
 8030b76:	f64f 73ff 	movw	r3, #65535	; 0xffff
 8030b7a:	86a3      	strh	r3, [r4, #52]	; 0x34
 8030b7c:	e003      	b.n	8030b86 <tcp_input+0x422>
      else {
        pcb->rtime = 0;
 8030b7e:	2300      	movs	r3, #0
 8030b80:	86a3      	strh	r3, [r4, #52]	; 0x34
        pcb->nrtx = 0;
 8030b82:	f884 3046 	strb.w	r3, [r4, #70]	; 0x46
      }

      /* Call the user specified function to call when sucessfully
       * connected. */
      TCP_EVENT_CONNECTED(pcb, ERR_OK, err);
 8030b86:	f8d4 3080 	ldr.w	r3, [r4, #128]	; 0x80
 8030b8a:	b91b      	cbnz	r3, 8030b94 <tcp_input+0x430>
      if (err == ERR_ABRT) {
        return ERR_ABRT;
      }
      tcp_ack_now(pcb);
 8030b8c:	7fa3      	ldrb	r3, [r4, #30]
 8030b8e:	f043 0302 	orr.w	r3, r3, #2
 8030b92:	e219      	b.n	8030fc8 <tcp_input+0x864>
        pcb->nrtx = 0;
      }

      /* Call the user specified function to call when sucessfully
       * connected. */
      TCP_EVENT_CONNECTED(pcb, ERR_OK, err);
 8030b94:	2200      	movs	r2, #0
 8030b96:	6920      	ldr	r0, [r4, #16]
 8030b98:	4621      	mov	r1, r4
 8030b9a:	4798      	blx	r3
      if (err == ERR_ABRT) {
 8030b9c:	300a      	adds	r0, #10
 8030b9e:	d1f5      	bne.n	8030b8c <tcp_input+0x428>
 8030ba0:	e1ab      	b.n	8030efa <tcp_input+0x796>
        return ERR_ABRT;
      }
      tcp_ack_now(pcb);
    }
    /* received ACK? possibly a half-open connection */
    else if (flags & TCP_ACK) {
 8030ba2:	4b4f      	ldr	r3, [pc, #316]	; (8030ce0 <tcp_input+0x57c>)
 8030ba4:	781b      	ldrb	r3, [r3, #0]
 8030ba6:	f003 0310 	and.w	r3, r3, #16
 8030baa:	b2db      	uxtb	r3, r3
 8030bac:	2b00      	cmp	r3, #0
 8030bae:	f000 820c 	beq.w	8030fca <tcp_input+0x866>
      /* send a RST to bring the other side in a non-synchronized state. */
      tcp_rst(ackno, seqno + tcplen, ip_current_dest_addr(), ip_current_src_addr(),
        tcphdr->dest, tcphdr->src);
 8030bb2:	4b4f      	ldr	r3, [pc, #316]	; (8030cf0 <tcp_input+0x58c>)
      tcp_ack_now(pcb);
    }
    /* received ACK? possibly a half-open connection */
    else if (flags & TCP_ACK) {
      /* send a RST to bring the other side in a non-synchronized state. */
      tcp_rst(ackno, seqno + tcplen, ip_current_dest_addr(), ip_current_src_addr(),
 8030bb4:	4a48      	ldr	r2, [pc, #288]	; (8030cd8 <tcp_input+0x574>)
        tcphdr->dest, tcphdr->src);
 8030bb6:	681b      	ldr	r3, [r3, #0]
      tcp_ack_now(pcb);
    }
    /* received ACK? possibly a half-open connection */
    else if (flags & TCP_ACK) {
      /* send a RST to bring the other side in a non-synchronized state. */
      tcp_rst(ackno, seqno + tcplen, ip_current_dest_addr(), ip_current_src_addr(),
 8030bb8:	8811      	ldrh	r1, [r2, #0]
 8030bba:	8858      	ldrh	r0, [r3, #2]
 8030bbc:	4a4a      	ldr	r2, [pc, #296]	; (8030ce8 <tcp_input+0x584>)
 8030bbe:	6812      	ldr	r2, [r2, #0]
 8030bc0:	9000      	str	r0, [sp, #0]
 8030bc2:	881b      	ldrh	r3, [r3, #0]
 8030bc4:	9301      	str	r3, [sp, #4]
 8030bc6:	4b47      	ldr	r3, [pc, #284]	; (8030ce4 <tcp_input+0x580>)
 8030bc8:	6818      	ldr	r0, [r3, #0]
 8030bca:	e03a      	b.n	8030c42 <tcp_input+0x4de>
        tcphdr->dest, tcphdr->src);
    }
    break;
  case SYN_RCVD:
    if (flags & TCP_ACK) {
 8030bcc:	4b44      	ldr	r3, [pc, #272]	; (8030ce0 <tcp_input+0x57c>)
 8030bce:	781b      	ldrb	r3, [r3, #0]
 8030bd0:	f003 0210 	and.w	r2, r3, #16
 8030bd4:	b2d2      	uxtb	r2, r2
 8030bd6:	2a00      	cmp	r2, #0
 8030bd8:	d039      	beq.n	8030c4e <tcp_input+0x4ea>
      /* expected ACK number? */
      if (TCP_SEQ_BETWEEN(ackno, pcb->lastack+1, pcb->snd_nxt)) {
 8030bda:	4b42      	ldr	r3, [pc, #264]	; (8030ce4 <tcp_input+0x580>)
 8030bdc:	6818      	ldr	r0, [r3, #0]
 8030bde:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 8030be0:	43db      	mvns	r3, r3
 8030be2:	42c3      	cmn	r3, r0
 8030be4:	d423      	bmi.n	8030c2e <tcp_input+0x4ca>
 8030be6:	6d23      	ldr	r3, [r4, #80]	; 0x50
 8030be8:	1ac3      	subs	r3, r0, r3
 8030bea:	2b00      	cmp	r3, #0
 8030bec:	dc1f      	bgt.n	8030c2e <tcp_input+0x4ca>
        u16_t old_cwnd;
        pcb->state = ESTABLISHED;
 8030bee:	2304      	movs	r3, #4
 8030bf0:	7623      	strb	r3, [r4, #24]
        LWIP_DEBUGF(TCP_DEBUG, ("TCP connection established %"U16_F" -> %"U16_F".\n", inseg.tcphdr->src, inseg.tcphdr->dest));
#if LWIP_CALLBACK_API
        LWIP_ASSERT("pcb->accept != NULL", pcb->accept != NULL);
#endif
        /* Call the accept function. */
        TCP_EVENT_ACCEPT(pcb, ERR_OK, err);
 8030bf2:	6963      	ldr	r3, [r4, #20]
 8030bf4:	b903      	cbnz	r3, 8030bf8 <tcp_input+0x494>
 8030bf6:	e147      	b.n	8030e88 <tcp_input+0x724>
 8030bf8:	6920      	ldr	r0, [r4, #16]
 8030bfa:	4621      	mov	r1, r4
 8030bfc:	2200      	movs	r2, #0
 8030bfe:	4798      	blx	r3
        if (err != ERR_OK) {
 8030c00:	b118      	cbz	r0, 8030c0a <tcp_input+0x4a6>
          /* If the accept function returns with an error, we abort
           * the connection. */
          /* Already aborted? */
          if (err != ERR_ABRT) {
 8030c02:	300a      	adds	r0, #10
 8030c04:	f040 8140 	bne.w	8030e88 <tcp_input+0x724>
 8030c08:	e177      	b.n	8030efa <tcp_input+0x796>
          return ERR_ABRT;
        }
        old_cwnd = pcb->cwnd;
        /* If there was any data contained within this ACK,
         * we'd better pass it on to the application as well. */
        tcp_receive(pcb);
 8030c0a:	4620      	mov	r0, r4
          if (err != ERR_ABRT) {
            tcp_abort(pcb);
          }
          return ERR_ABRT;
        }
        old_cwnd = pcb->cwnd;
 8030c0c:	f8b4 504c 	ldrh.w	r5, [r4, #76]	; 0x4c
        /* If there was any data contained within this ACK,
         * we'd better pass it on to the application as well. */
        tcp_receive(pcb);
 8030c10:	f7ff fb54 	bl	80302bc <tcp_receive>

        /* Prevent ACK for SYN to generate a sent event */
        if (pcb->acked != 0) {
 8030c14:	f8b4 3064 	ldrh.w	r3, [r4, #100]	; 0x64
 8030c18:	b113      	cbz	r3, 8030c20 <tcp_input+0x4bc>
          pcb->acked--;
 8030c1a:	3b01      	subs	r3, #1
 8030c1c:	f8a4 3064 	strh.w	r3, [r4, #100]	; 0x64
        }

        pcb->cwnd = ((old_cwnd == 1) ? (pcb->mss * 2) : pcb->mss);
 8030c20:	8ee3      	ldrh	r3, [r4, #54]	; 0x36
 8030c22:	2d01      	cmp	r5, #1
 8030c24:	bf08      	it	eq
 8030c26:	005b      	lsleq	r3, r3, #1
 8030c28:	f8a4 304c 	strh.w	r3, [r4, #76]	; 0x4c
 8030c2c:	e023      	b.n	8030c76 <tcp_input+0x512>
          pcb->state = CLOSE_WAIT;
        }
      } else {
        /* incorrect ACK number, send RST */
        tcp_rst(ackno, seqno + tcplen, ip_current_dest_addr(), ip_current_src_addr(),
                tcphdr->dest, tcphdr->src);
 8030c2e:	4b30      	ldr	r3, [pc, #192]	; (8030cf0 <tcp_input+0x58c>)
          tcp_ack_now(pcb);
          pcb->state = CLOSE_WAIT;
        }
      } else {
        /* incorrect ACK number, send RST */
        tcp_rst(ackno, seqno + tcplen, ip_current_dest_addr(), ip_current_src_addr(),
 8030c30:	4a29      	ldr	r2, [pc, #164]	; (8030cd8 <tcp_input+0x574>)
                tcphdr->dest, tcphdr->src);
 8030c32:	681b      	ldr	r3, [r3, #0]
          tcp_ack_now(pcb);
          pcb->state = CLOSE_WAIT;
        }
      } else {
        /* incorrect ACK number, send RST */
        tcp_rst(ackno, seqno + tcplen, ip_current_dest_addr(), ip_current_src_addr(),
 8030c34:	8811      	ldrh	r1, [r2, #0]
 8030c36:	885d      	ldrh	r5, [r3, #2]
 8030c38:	4a2b      	ldr	r2, [pc, #172]	; (8030ce8 <tcp_input+0x584>)
 8030c3a:	6812      	ldr	r2, [r2, #0]
 8030c3c:	9500      	str	r5, [sp, #0]
 8030c3e:	881b      	ldrh	r3, [r3, #0]
 8030c40:	9301      	str	r3, [sp, #4]
 8030c42:	1889      	adds	r1, r1, r2
 8030c44:	4b2b      	ldr	r3, [pc, #172]	; (8030cf4 <tcp_input+0x590>)
 8030c46:	4a2c      	ldr	r2, [pc, #176]	; (8030cf8 <tcp_input+0x594>)
 8030c48:	f000 fdb6 	bl	80317b8 <tcp_rst>
 8030c4c:	e1bd      	b.n	8030fca <tcp_input+0x866>
                tcphdr->dest, tcphdr->src);
      }
    } else if ((flags & TCP_SYN) && (seqno == pcb->rcv_nxt - 1)) {
 8030c4e:	f003 0302 	and.w	r3, r3, #2
 8030c52:	b2db      	uxtb	r3, r3
 8030c54:	2b00      	cmp	r3, #0
 8030c56:	f000 81b8 	beq.w	8030fca <tcp_input+0x866>
 8030c5a:	4a23      	ldr	r2, [pc, #140]	; (8030ce8 <tcp_input+0x584>)
 8030c5c:	6aa3      	ldr	r3, [r4, #40]	; 0x28
 8030c5e:	6812      	ldr	r2, [r2, #0]
 8030c60:	3b01      	subs	r3, #1
 8030c62:	429a      	cmp	r2, r3
 8030c64:	f040 81b1 	bne.w	8030fca <tcp_input+0x866>
      /* Looks like another copy of the SYN - retransmit our SYN-ACK */
      tcp_rexmit(pcb);
 8030c68:	4620      	mov	r0, r4
 8030c6a:	f000 fe03 	bl	8031874 <tcp_rexmit>
 8030c6e:	e1ac      	b.n	8030fca <tcp_input+0x866>
    }
    break;
  case CLOSE_WAIT:
    /* FALLTHROUGH */
  case ESTABLISHED:
    tcp_receive(pcb);
 8030c70:	4620      	mov	r0, r4
 8030c72:	f7ff fb23 	bl	80302bc <tcp_receive>
    if (recv_flags & TF_GOT_FIN) { /* passive close */
 8030c76:	4b21      	ldr	r3, [pc, #132]	; (8030cfc <tcp_input+0x598>)
 8030c78:	781b      	ldrb	r3, [r3, #0]
 8030c7a:	f003 0320 	and.w	r3, r3, #32
 8030c7e:	b2db      	uxtb	r3, r3
 8030c80:	2b00      	cmp	r3, #0
 8030c82:	f000 81a2 	beq.w	8030fca <tcp_input+0x866>
      tcp_ack_now(pcb);
 8030c86:	7fa3      	ldrb	r3, [r4, #30]
 8030c88:	f043 0302 	orr.w	r3, r3, #2
 8030c8c:	77a3      	strb	r3, [r4, #30]
      pcb->state = CLOSE_WAIT;
 8030c8e:	2307      	movs	r3, #7
 8030c90:	e053      	b.n	8030d3a <tcp_input+0x5d6>
    }
    break;
  case FIN_WAIT_1:
    tcp_receive(pcb);
 8030c92:	4620      	mov	r0, r4
 8030c94:	f7ff fb12 	bl	80302bc <tcp_receive>
    if (recv_flags & TF_GOT_FIN) {
 8030c98:	4b18      	ldr	r3, [pc, #96]	; (8030cfc <tcp_input+0x598>)
 8030c9a:	781a      	ldrb	r2, [r3, #0]
 8030c9c:	4b10      	ldr	r3, [pc, #64]	; (8030ce0 <tcp_input+0x57c>)
      if ((flags & TCP_ACK) && (ackno == pcb->snd_nxt)) {
 8030c9e:	781b      	ldrb	r3, [r3, #0]
      pcb->state = CLOSE_WAIT;
    }
    break;
  case FIN_WAIT_1:
    tcp_receive(pcb);
    if (recv_flags & TF_GOT_FIN) {
 8030ca0:	f002 0220 	and.w	r2, r2, #32
      if ((flags & TCP_ACK) && (ackno == pcb->snd_nxt)) {
 8030ca4:	f003 0310 	and.w	r3, r3, #16
      pcb->state = CLOSE_WAIT;
    }
    break;
  case FIN_WAIT_1:
    tcp_receive(pcb);
    if (recv_flags & TF_GOT_FIN) {
 8030ca8:	b2d2      	uxtb	r2, r2
      if ((flags & TCP_ACK) && (ackno == pcb->snd_nxt)) {
 8030caa:	b2db      	uxtb	r3, r3
      pcb->state = CLOSE_WAIT;
    }
    break;
  case FIN_WAIT_1:
    tcp_receive(pcb);
    if (recv_flags & TF_GOT_FIN) {
 8030cac:	2a00      	cmp	r2, #0
 8030cae:	d03a      	beq.n	8030d26 <tcp_input+0x5c2>
      if ((flags & TCP_ACK) && (ackno == pcb->snd_nxt)) {
 8030cb0:	2b00      	cmp	r3, #0
 8030cb2:	d032      	beq.n	8030d1a <tcp_input+0x5b6>
 8030cb4:	4b0b      	ldr	r3, [pc, #44]	; (8030ce4 <tcp_input+0x580>)
 8030cb6:	681a      	ldr	r2, [r3, #0]
 8030cb8:	6d23      	ldr	r3, [r4, #80]	; 0x50
 8030cba:	429a      	cmp	r2, r3
 8030cbc:	d12d      	bne.n	8030d1a <tcp_input+0x5b6>
        LWIP_DEBUGF(TCP_DEBUG,
          ("TCP connection closed: FIN_WAIT_1 %"U16_F" -> %"U16_F".\n", inseg.tcphdr->src, inseg.tcphdr->dest));
        tcp_ack_now(pcb);
 8030cbe:	7fa3      	ldrb	r3, [r4, #30]
 8030cc0:	f043 0302 	orr.w	r3, r3, #2
 8030cc4:	77a3      	strb	r3, [r4, #30]
        tcp_pcb_purge(pcb);
 8030cc6:	4620      	mov	r0, r4
 8030cc8:	f7fe feea 	bl	802faa0 <tcp_pcb_purge>
        TCP_RMV_ACTIVE(pcb);
 8030ccc:	4a0c      	ldr	r2, [pc, #48]	; (8030d00 <tcp_input+0x59c>)
 8030cce:	6813      	ldr	r3, [r2, #0]
 8030cd0:	42a3      	cmp	r3, r4
 8030cd2:	d117      	bne.n	8030d04 <tcp_input+0x5a0>
 8030cd4:	e06d      	b.n	8030db2 <tcp_input+0x64e>
 8030cd6:	bf00      	nop
 8030cd8:	2000c3ec 	.word	0x2000c3ec
 8030cdc:	2000f6c4 	.word	0x2000f6c4
 8030ce0:	2000c3f4 	.word	0x2000c3f4
 8030ce4:	2000c3f0 	.word	0x2000c3f0
 8030ce8:	2000c3e8 	.word	0x2000c3e8
 8030cec:	2000f6b0 	.word	0x2000f6b0
 8030cf0:	2000c3e4 	.word	0x2000c3e4
 8030cf4:	2000f6cc 	.word	0x2000f6cc
 8030cf8:	2000f6d4 	.word	0x2000f6d4
 8030cfc:	2000c3f5 	.word	0x2000c3f5
 8030d00:	2000f6ac 	.word	0x2000f6ac
 8030d04:	4a8e      	ldr	r2, [pc, #568]	; (8030f40 <tcp_input+0x7dc>)
 8030d06:	6013      	str	r3, [r2, #0]
 8030d08:	e004      	b.n	8030d14 <tcp_input+0x5b0>
 8030d0a:	68d9      	ldr	r1, [r3, #12]
 8030d0c:	42a1      	cmp	r1, r4
 8030d0e:	d100      	bne.n	8030d12 <tcp_input+0x5ae>
 8030d10:	e057      	b.n	8030dc2 <tcp_input+0x65e>
 8030d12:	460b      	mov	r3, r1
 8030d14:	2b00      	cmp	r3, #0
 8030d16:	d1f8      	bne.n	8030d0a <tcp_input+0x5a6>
 8030d18:	e05a      	b.n	8030dd0 <tcp_input+0x66c>
        pcb->state = TIME_WAIT;
        TCP_REG(&tcp_tw_pcbs, pcb);
      } else {
        tcp_ack_now(pcb);
 8030d1a:	7fa3      	ldrb	r3, [r4, #30]
 8030d1c:	f043 0302 	orr.w	r3, r3, #2
 8030d20:	77a3      	strb	r3, [r4, #30]
        pcb->state = CLOSING;
 8030d22:	2308      	movs	r3, #8
 8030d24:	e009      	b.n	8030d3a <tcp_input+0x5d6>
      }
    } else if ((flags & TCP_ACK) && (ackno == pcb->snd_nxt)) {
 8030d26:	2b00      	cmp	r3, #0
 8030d28:	f000 814f 	beq.w	8030fca <tcp_input+0x866>
 8030d2c:	4b85      	ldr	r3, [pc, #532]	; (8030f44 <tcp_input+0x7e0>)
 8030d2e:	681a      	ldr	r2, [r3, #0]
 8030d30:	6d23      	ldr	r3, [r4, #80]	; 0x50
 8030d32:	429a      	cmp	r2, r3
 8030d34:	f040 8149 	bne.w	8030fca <tcp_input+0x866>
      pcb->state = FIN_WAIT_2;
 8030d38:	2306      	movs	r3, #6
 8030d3a:	7623      	strb	r3, [r4, #24]
 8030d3c:	e145      	b.n	8030fca <tcp_input+0x866>
    }
    break;
  case FIN_WAIT_2:
    tcp_receive(pcb);
 8030d3e:	4620      	mov	r0, r4
 8030d40:	f7ff fabc 	bl	80302bc <tcp_receive>
    if (recv_flags & TF_GOT_FIN) {
 8030d44:	4b80      	ldr	r3, [pc, #512]	; (8030f48 <tcp_input+0x7e4>)
 8030d46:	781b      	ldrb	r3, [r3, #0]
 8030d48:	f003 0320 	and.w	r3, r3, #32
 8030d4c:	b2db      	uxtb	r3, r3
 8030d4e:	2b00      	cmp	r3, #0
 8030d50:	f000 813b 	beq.w	8030fca <tcp_input+0x866>
      LWIP_DEBUGF(TCP_DEBUG, ("TCP connection closed: FIN_WAIT_2 %"U16_F" -> %"U16_F".\n", inseg.tcphdr->src, inseg.tcphdr->dest));
      tcp_ack_now(pcb);
 8030d54:	7fa3      	ldrb	r3, [r4, #30]
 8030d56:	f043 0302 	orr.w	r3, r3, #2
 8030d5a:	77a3      	strb	r3, [r4, #30]
      tcp_pcb_purge(pcb);
 8030d5c:	4620      	mov	r0, r4
 8030d5e:	f7fe fe9f 	bl	802faa0 <tcp_pcb_purge>
      TCP_RMV_ACTIVE(pcb);
 8030d62:	4a7a      	ldr	r2, [pc, #488]	; (8030f4c <tcp_input+0x7e8>)
 8030d64:	6813      	ldr	r3, [r2, #0]
 8030d66:	42a3      	cmp	r3, r4
 8030d68:	d100      	bne.n	8030d6c <tcp_input+0x608>
 8030d6a:	e022      	b.n	8030db2 <tcp_input+0x64e>
 8030d6c:	4a74      	ldr	r2, [pc, #464]	; (8030f40 <tcp_input+0x7dc>)
 8030d6e:	6013      	str	r3, [r2, #0]
 8030d70:	e004      	b.n	8030d7c <tcp_input+0x618>
 8030d72:	68d9      	ldr	r1, [r3, #12]
 8030d74:	42a1      	cmp	r1, r4
 8030d76:	d100      	bne.n	8030d7a <tcp_input+0x616>
 8030d78:	e023      	b.n	8030dc2 <tcp_input+0x65e>
 8030d7a:	460b      	mov	r3, r1
 8030d7c:	2b00      	cmp	r3, #0
 8030d7e:	d1f8      	bne.n	8030d72 <tcp_input+0x60e>
 8030d80:	e026      	b.n	8030dd0 <tcp_input+0x66c>
      pcb->state = TIME_WAIT;
      TCP_REG(&tcp_tw_pcbs, pcb);
    }
    break;
  case CLOSING:
    tcp_receive(pcb);
 8030d82:	4620      	mov	r0, r4
 8030d84:	f7ff fa9a 	bl	80302bc <tcp_receive>
    if (flags & TCP_ACK && ackno == pcb->snd_nxt) {
 8030d88:	4b71      	ldr	r3, [pc, #452]	; (8030f50 <tcp_input+0x7ec>)
 8030d8a:	781b      	ldrb	r3, [r3, #0]
 8030d8c:	f003 0310 	and.w	r3, r3, #16
 8030d90:	b2db      	uxtb	r3, r3
 8030d92:	2b00      	cmp	r3, #0
 8030d94:	f000 8119 	beq.w	8030fca <tcp_input+0x866>
 8030d98:	4b6a      	ldr	r3, [pc, #424]	; (8030f44 <tcp_input+0x7e0>)
 8030d9a:	681a      	ldr	r2, [r3, #0]
 8030d9c:	6d23      	ldr	r3, [r4, #80]	; 0x50
 8030d9e:	429a      	cmp	r2, r3
 8030da0:	f040 8113 	bne.w	8030fca <tcp_input+0x866>
      LWIP_DEBUGF(TCP_DEBUG, ("TCP connection closed: CLOSING %"U16_F" -> %"U16_F".\n", inseg.tcphdr->src, inseg.tcphdr->dest));
      tcp_pcb_purge(pcb);
 8030da4:	4620      	mov	r0, r4
 8030da6:	f7fe fe7b 	bl	802faa0 <tcp_pcb_purge>
      TCP_RMV_ACTIVE(pcb);
 8030daa:	4a68      	ldr	r2, [pc, #416]	; (8030f4c <tcp_input+0x7e8>)
 8030dac:	6813      	ldr	r3, [r2, #0]
 8030dae:	42a3      	cmp	r3, r4
 8030db0:	d101      	bne.n	8030db6 <tcp_input+0x652>
 8030db2:	68e3      	ldr	r3, [r4, #12]
 8030db4:	e00c      	b.n	8030dd0 <tcp_input+0x66c>
 8030db6:	4a62      	ldr	r2, [pc, #392]	; (8030f40 <tcp_input+0x7dc>)
 8030db8:	6013      	str	r3, [r2, #0]
 8030dba:	e007      	b.n	8030dcc <tcp_input+0x668>
 8030dbc:	68d9      	ldr	r1, [r3, #12]
 8030dbe:	42a1      	cmp	r1, r4
 8030dc0:	d103      	bne.n	8030dca <tcp_input+0x666>
 8030dc2:	6013      	str	r3, [r2, #0]
 8030dc4:	68e2      	ldr	r2, [r4, #12]
 8030dc6:	60da      	str	r2, [r3, #12]
 8030dc8:	e003      	b.n	8030dd2 <tcp_input+0x66e>
 8030dca:	460b      	mov	r3, r1
 8030dcc:	2b00      	cmp	r3, #0
 8030dce:	d1f5      	bne.n	8030dbc <tcp_input+0x658>
 8030dd0:	6013      	str	r3, [r2, #0]
 8030dd2:	4b60      	ldr	r3, [pc, #384]	; (8030f54 <tcp_input+0x7f0>)
 8030dd4:	2201      	movs	r2, #1
 8030dd6:	701a      	strb	r2, [r3, #0]
      pcb->state = TIME_WAIT;
 8030dd8:	230a      	movs	r3, #10
 8030dda:	7623      	strb	r3, [r4, #24]
      TCP_REG(&tcp_tw_pcbs, pcb);
 8030ddc:	4b5e      	ldr	r3, [pc, #376]	; (8030f58 <tcp_input+0x7f4>)
 8030dde:	681a      	ldr	r2, [r3, #0]
 8030de0:	601c      	str	r4, [r3, #0]
 8030de2:	60e2      	str	r2, [r4, #12]
 8030de4:	f000 fe82 	bl	8031aec <tcp_timer_needed>
 8030de8:	e0ef      	b.n	8030fca <tcp_input+0x866>
    }
    break;
  case LAST_ACK:
    tcp_receive(pcb);
 8030dea:	4620      	mov	r0, r4
 8030dec:	f7ff fa66 	bl	80302bc <tcp_receive>
    if (flags & TCP_ACK && ackno == pcb->snd_nxt) {
 8030df0:	4b57      	ldr	r3, [pc, #348]	; (8030f50 <tcp_input+0x7ec>)
 8030df2:	781b      	ldrb	r3, [r3, #0]
 8030df4:	f003 0310 	and.w	r3, r3, #16
 8030df8:	b2db      	uxtb	r3, r3
 8030dfa:	2b00      	cmp	r3, #0
 8030dfc:	f000 80e5 	beq.w	8030fca <tcp_input+0x866>
 8030e00:	4b50      	ldr	r3, [pc, #320]	; (8030f44 <tcp_input+0x7e0>)
 8030e02:	681a      	ldr	r2, [r3, #0]
 8030e04:	6d23      	ldr	r3, [r4, #80]	; 0x50
 8030e06:	429a      	cmp	r2, r3
 8030e08:	f040 80df 	bne.w	8030fca <tcp_input+0x866>
      LWIP_DEBUGF(TCP_DEBUG, ("TCP connection closed: LAST_ACK %"U16_F" -> %"U16_F".\n", inseg.tcphdr->src, inseg.tcphdr->dest));
      /* bugfix #21699: don't set pcb->state to CLOSED here or we risk leaking segments */
      recv_flags |= TF_CLOSED;
 8030e0c:	4b4e      	ldr	r3, [pc, #312]	; (8030f48 <tcp_input+0x7e4>)
 8030e0e:	781a      	ldrb	r2, [r3, #0]
 8030e10:	f042 0210 	orr.w	r2, r2, #16
 8030e14:	701a      	strb	r2, [r3, #0]
 8030e16:	e0d8      	b.n	8030fca <tcp_input+0x866>
      if (recv_flags & TF_RESET) {
        /* TF_RESET means that the connection was reset by the other
           end. We then call the error callback to inform the
           application that the connection is dead before we
           deallocate the PCB. */
        TCP_EVENT_ERR(pcb->errf, pcb->callback_arg, ERR_RST);
 8030e18:	f8d4 3088 	ldr.w	r3, [r4, #136]	; 0x88
 8030e1c:	b19b      	cbz	r3, 8030e46 <tcp_input+0x6e2>
 8030e1e:	6920      	ldr	r0, [r4, #16]
 8030e20:	f06f 010a 	mvn.w	r1, #10
 8030e24:	e00e      	b.n	8030e44 <tcp_input+0x6e0>
        tcp_pcb_remove(&tcp_active_pcbs, pcb);
        memp_free(MEMP_TCP_PCB, pcb);
      } else if (recv_flags & TF_CLOSED) {
 8030e26:	f003 0310 	and.w	r3, r3, #16
 8030e2a:	b2db      	uxtb	r3, r3
 8030e2c:	b1a3      	cbz	r3, 8030e58 <tcp_input+0x6f4>
        /* The connection has been closed and we will deallocate the
           PCB. */
        if (!(pcb->flags & TF_RXCLOSED)) {
 8030e2e:	7fa3      	ldrb	r3, [r4, #30]
 8030e30:	f003 0310 	and.w	r3, r3, #16
 8030e34:	b2db      	uxtb	r3, r3
 8030e36:	b933      	cbnz	r3, 8030e46 <tcp_input+0x6e2>
          /* Connection closed although the application has only shut down the
             tx side: call the PCB's err callback and indicate the closure to
             ensure the application doesn't continue using the PCB. */
          TCP_EVENT_ERR(pcb->errf, pcb->callback_arg, ERR_CLSD);
 8030e38:	f8d4 3088 	ldr.w	r3, [r4, #136]	; 0x88
 8030e3c:	b11b      	cbz	r3, 8030e46 <tcp_input+0x6e2>
 8030e3e:	6920      	ldr	r0, [r4, #16]
 8030e40:	f06f 010b 	mvn.w	r1, #11
 8030e44:	4798      	blx	r3
        }
        tcp_pcb_remove(&tcp_active_pcbs, pcb);
 8030e46:	4621      	mov	r1, r4
 8030e48:	4840      	ldr	r0, [pc, #256]	; (8030f4c <tcp_input+0x7e8>)
 8030e4a:	f7fe ff91 	bl	802fd70 <tcp_pcb_remove>
        memp_free(MEMP_TCP_PCB, pcb);
 8030e4e:	2002      	movs	r0, #2
 8030e50:	4621      	mov	r1, r4
 8030e52:	f7fe fa47 	bl	802f2e4 <memp_free>
 8030e56:	e050      	b.n	8030efa <tcp_input+0x796>
      } else {
        err = ERR_OK;
        /* If the application has registered a "sent" function to be
           called when new send buffer space is available, we call it
           now. */
        if (pcb->acked > 0) {
 8030e58:	f8b4 2064 	ldrh.w	r2, [r4, #100]	; 0x64
 8030e5c:	b91a      	cbnz	r2, 8030e66 <tcp_input+0x702>
          if (err == ERR_ABRT) {
            goto aborted;
          }
        }

        if (recv_data != NULL) {
 8030e5e:	4b3f      	ldr	r3, [pc, #252]	; (8030f5c <tcp_input+0x7f8>)
 8030e60:	681a      	ldr	r2, [r3, #0]
 8030e62:	b94a      	cbnz	r2, 8030e78 <tcp_input+0x714>
 8030e64:	e026      	b.n	8030eb4 <tcp_input+0x750>
        err = ERR_OK;
        /* If the application has registered a "sent" function to be
           called when new send buffer space is available, we call it
           now. */
        if (pcb->acked > 0) {
          TCP_EVENT_SENT(pcb, pcb->acked, err);
 8030e66:	6fa3      	ldr	r3, [r4, #120]	; 0x78
 8030e68:	2b00      	cmp	r3, #0
 8030e6a:	d0f8      	beq.n	8030e5e <tcp_input+0x6fa>
 8030e6c:	6920      	ldr	r0, [r4, #16]
 8030e6e:	4621      	mov	r1, r4
 8030e70:	4798      	blx	r3
          if (err == ERR_ABRT) {
 8030e72:	300a      	adds	r0, #10
 8030e74:	d1f3      	bne.n	8030e5e <tcp_input+0x6fa>
 8030e76:	e040      	b.n	8030efa <tcp_input+0x796>
          }
        }

        if (recv_data != NULL) {
          LWIP_ASSERT("pcb->refused_data == NULL", pcb->refused_data == NULL);
          if (pcb->flags & TF_RXCLOSED) {
 8030e78:	7fa3      	ldrb	r3, [r4, #30]
 8030e7a:	f003 0310 	and.w	r3, r3, #16
 8030e7e:	b2db      	uxtb	r3, r3
 8030e80:	b133      	cbz	r3, 8030e90 <tcp_input+0x72c>
            /* received data although already closed -> abort (send RST) to
               notify the remote host that not all data has been processed */
            pbuf_free(recv_data);
 8030e82:	4610      	mov	r0, r2
 8030e84:	f7fe fb38 	bl	802f4f8 <pbuf_free>
            tcp_abort(pcb);
 8030e88:	4620      	mov	r0, r4
 8030e8a:	f7fe ffe5 	bl	802fe58 <tcp_abort>
            goto aborted;
 8030e8e:	e034      	b.n	8030efa <tcp_input+0x796>
          }

          /* Notify application that data has been received. */
          TCP_EVENT_RECV(pcb, recv_data, ERR_OK, err);
 8030e90:	6fe5      	ldr	r5, [r4, #124]	; 0x7c
 8030e92:	b11d      	cbz	r5, 8030e9c <tcp_input+0x738>
 8030e94:	6920      	ldr	r0, [r4, #16]
 8030e96:	4621      	mov	r1, r4
 8030e98:	47a8      	blx	r5
 8030e9a:	e004      	b.n	8030ea6 <tcp_input+0x742>
 8030e9c:	4628      	mov	r0, r5
 8030e9e:	4621      	mov	r1, r4
 8030ea0:	462b      	mov	r3, r5
 8030ea2:	f7ff f895 	bl	802ffd0 <tcp_recv_null>
          if (err == ERR_ABRT) {
 8030ea6:	b243      	sxtb	r3, r0
 8030ea8:	330a      	adds	r3, #10
 8030eaa:	d026      	beq.n	8030efa <tcp_input+0x796>
            goto aborted;
          }

          /* If the upper layer can't receive this data, store it */
          if (err != ERR_OK) {
 8030eac:	b110      	cbz	r0, 8030eb4 <tcp_input+0x750>
            pcb->refused_data = recv_data;
 8030eae:	4b2b      	ldr	r3, [pc, #172]	; (8030f5c <tcp_input+0x7f8>)
 8030eb0:	681b      	ldr	r3, [r3, #0]
 8030eb2:	6763      	str	r3, [r4, #116]	; 0x74
          }
        }

        /* If a FIN segment was received, we call the callback
           function with a NULL buffer to indicate EOF. */
        if (recv_flags & TF_GOT_FIN) {
 8030eb4:	4b24      	ldr	r3, [pc, #144]	; (8030f48 <tcp_input+0x7e4>)
 8030eb6:	781b      	ldrb	r3, [r3, #0]
 8030eb8:	f003 0320 	and.w	r3, r3, #32
 8030ebc:	b2db      	uxtb	r3, r3
 8030ebe:	b1b3      	cbz	r3, 8030eee <tcp_input+0x78a>
          if (pcb->refused_data != NULL) {
 8030ec0:	6f63      	ldr	r3, [r4, #116]	; 0x74
 8030ec2:	b123      	cbz	r3, 8030ece <tcp_input+0x76a>
            /* Delay this if we have refused data. */
            pcb->refused_data->flags |= PBUF_FLAG_TCP_FIN;
 8030ec4:	7b5a      	ldrb	r2, [r3, #13]
 8030ec6:	f042 0220 	orr.w	r2, r2, #32
 8030eca:	735a      	strb	r2, [r3, #13]
 8030ecc:	e00f      	b.n	8030eee <tcp_input+0x78a>
          } else {
            /* correct rcv_wnd as the application won't call tcp_recved()
               for the FIN's seqno */
            if (pcb->rcv_wnd != TCP_WND) {
 8030ece:	8da3      	ldrh	r3, [r4, #44]	; 0x2c
 8030ed0:	f241 62d0 	movw	r2, #5840	; 0x16d0
 8030ed4:	4293      	cmp	r3, r2
 8030ed6:	d001      	beq.n	8030edc <tcp_input+0x778>
              pcb->rcv_wnd++;
 8030ed8:	3301      	adds	r3, #1
 8030eda:	85a3      	strh	r3, [r4, #44]	; 0x2c
            }
            TCP_EVENT_CLOSED(pcb, err);
 8030edc:	6fe5      	ldr	r5, [r4, #124]	; 0x7c
 8030ede:	b135      	cbz	r5, 8030eee <tcp_input+0x78a>
 8030ee0:	2200      	movs	r2, #0
 8030ee2:	6920      	ldr	r0, [r4, #16]
 8030ee4:	4621      	mov	r1, r4
 8030ee6:	4613      	mov	r3, r2
 8030ee8:	47a8      	blx	r5
            if (err == ERR_ABRT) {
 8030eea:	300a      	adds	r0, #10
 8030eec:	d005      	beq.n	8030efa <tcp_input+0x796>
              goto aborted;
            }
          }
        }

        tcp_input_pcb = NULL;
 8030eee:	4b1c      	ldr	r3, [pc, #112]	; (8030f60 <tcp_input+0x7fc>)
 8030ef0:	2200      	movs	r2, #0
        /* Try to send something out. */
        tcp_output(pcb);
 8030ef2:	4620      	mov	r0, r4
              goto aborted;
            }
          }
        }

        tcp_input_pcb = NULL;
 8030ef4:	601a      	str	r2, [r3, #0]
        /* Try to send something out. */
        tcp_output(pcb);
 8030ef6:	f000 fb3b 	bl	8031570 <tcp_output>
      }
    }
    /* Jump target if pcb has been aborted in a callback (by calling tcp_abort()).
       Below this line, 'pcb' may not be dereferenced! */
aborted:
    tcp_input_pcb = NULL;
 8030efa:	4b19      	ldr	r3, [pc, #100]	; (8030f60 <tcp_input+0x7fc>)
    recv_data = NULL;

    /* give up our reference to inseg.p */
    if (inseg.p != NULL)
 8030efc:	4d19      	ldr	r5, [pc, #100]	; (8030f64 <tcp_input+0x800>)
      }
    }
    /* Jump target if pcb has been aborted in a callback (by calling tcp_abort()).
       Below this line, 'pcb' may not be dereferenced! */
aborted:
    tcp_input_pcb = NULL;
 8030efe:	2400      	movs	r4, #0
 8030f00:	601c      	str	r4, [r3, #0]
    recv_data = NULL;

    /* give up our reference to inseg.p */
    if (inseg.p != NULL)
 8030f02:	6868      	ldr	r0, [r5, #4]
    }
    /* Jump target if pcb has been aborted in a callback (by calling tcp_abort()).
       Below this line, 'pcb' may not be dereferenced! */
aborted:
    tcp_input_pcb = NULL;
    recv_data = NULL;
 8030f04:	4b15      	ldr	r3, [pc, #84]	; (8030f5c <tcp_input+0x7f8>)
 8030f06:	601c      	str	r4, [r3, #0]

    /* give up our reference to inseg.p */
    if (inseg.p != NULL)
 8030f08:	2800      	cmp	r0, #0
 8030f0a:	d067      	beq.n	8030fdc <tcp_input+0x878>
    {
      pbuf_free(inseg.p);
 8030f0c:	f7fe faf4 	bl	802f4f8 <pbuf_free>
      inseg.p = NULL;
 8030f10:	606c      	str	r4, [r5, #4]
 8030f12:	e063      	b.n	8030fdc <tcp_input+0x878>
    if (!(TCPH_FLAGS(tcphdr) & TCP_RST)) {
      TCP_STATS_INC(tcp.proterr);
      TCP_STATS_INC(tcp.drop);
      tcp_rst(ackno, seqno + tcplen,
        ip_current_dest_addr(), ip_current_src_addr(),
        tcphdr->dest, tcphdr->src);
 8030f14:	4b14      	ldr	r3, [pc, #80]	; (8030f68 <tcp_input+0x804>)
       sender. */
    LWIP_DEBUGF(TCP_RST_DEBUG, ("tcp_input: no PCB match found, resetting.\n"));
    if (!(TCPH_FLAGS(tcphdr) & TCP_RST)) {
      TCP_STATS_INC(tcp.proterr);
      TCP_STATS_INC(tcp.drop);
      tcp_rst(ackno, seqno + tcplen,
 8030f16:	4a15      	ldr	r2, [pc, #84]	; (8030f6c <tcp_input+0x808>)
        ip_current_dest_addr(), ip_current_src_addr(),
        tcphdr->dest, tcphdr->src);
 8030f18:	681b      	ldr	r3, [r3, #0]
       sender. */
    LWIP_DEBUGF(TCP_RST_DEBUG, ("tcp_input: no PCB match found, resetting.\n"));
    if (!(TCPH_FLAGS(tcphdr) & TCP_RST)) {
      TCP_STATS_INC(tcp.proterr);
      TCP_STATS_INC(tcp.drop);
      tcp_rst(ackno, seqno + tcplen,
 8030f1a:	8811      	ldrh	r1, [r2, #0]
 8030f1c:	8858      	ldrh	r0, [r3, #2]
 8030f1e:	4a14      	ldr	r2, [pc, #80]	; (8030f70 <tcp_input+0x80c>)
 8030f20:	6812      	ldr	r2, [r2, #0]
 8030f22:	9000      	str	r0, [sp, #0]
 8030f24:	881b      	ldrh	r3, [r3, #0]
 8030f26:	9301      	str	r3, [sp, #4]
 8030f28:	4b06      	ldr	r3, [pc, #24]	; (8030f44 <tcp_input+0x7e0>)
 8030f2a:	1889      	adds	r1, r1, r2
 8030f2c:	6818      	ldr	r0, [r3, #0]
 8030f2e:	e517      	b.n	8030960 <tcp_input+0x1fc>
  LWIP_ASSERT("tcp_input: tcp_pcbs_sane()", tcp_pcbs_sane());
  PERF_STOP("tcp_input");
  return;
dropped:
  TCP_STATS_INC(tcp.drop);
  snmp_inc_tcpinerrs();
 8030f30:	f003 f8ee 	bl	8034110 <snmp_inc_tcpinerrs>
  pbuf_free(p);
 8030f34:	4630      	mov	r0, r6
}
 8030f36:	b003      	add	sp, #12
 8030f38:	e8bd 4ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
  PERF_STOP("tcp_input");
  return;
dropped:
  TCP_STATS_INC(tcp.drop);
  snmp_inc_tcpinerrs();
  pbuf_free(p);
 8030f3c:	f7fe badc 	b.w	802f4f8 <pbuf_free>
 8030f40:	2000f6b8 	.word	0x2000f6b8
 8030f44:	2000c3f0 	.word	0x2000c3f0
 8030f48:	2000c3f5 	.word	0x2000c3f5
 8030f4c:	2000f6ac 	.word	0x2000f6ac
 8030f50:	2000c3f4 	.word	0x2000c3f4
 8030f54:	2000f6a8 	.word	0x2000f6a8
 8030f58:	2000f6c0 	.word	0x2000f6c0
 8030f5c:	2000c3f8 	.word	0x2000c3f8
 8030f60:	2000f6c4 	.word	0x2000f6c4
 8030f64:	2000c400 	.word	0x2000c400
 8030f68:	2000c3e4 	.word	0x2000c3e4
 8030f6c:	2000c3ec 	.word	0x2000c3ec
 8030f70:	2000c3e8 	.word	0x2000c3e8
  }

  if (pcb == NULL) {
    /* If it did not go to an active connection, we check the connections
       in the TIME-WAIT state. */
    for(pcb = tcp_tw_pcbs; pcb != NULL; pcb = pcb->next) {
 8030f74:	4b1b      	ldr	r3, [pc, #108]	; (8030fe4 <tcp_input+0x880>)
 8030f76:	681b      	ldr	r3, [r3, #0]
 8030f78:	e4bf      	b.n	80308fa <tcp_input+0x196>
    tcp_debug_print_state(pcb->state);
#endif /* TCP_DEBUG */
#endif /* TCP_INPUT_DEBUG */

    /* Set up a tcp_seg structure. */
    inseg.next = NULL;
 8030f7a:	4b1b      	ldr	r3, [pc, #108]	; (8030fe8 <tcp_input+0x884>)
 8030f7c:	2100      	movs	r1, #0
 8030f7e:	6019      	str	r1, [r3, #0]
    inseg.len = p->tot_len;
 8030f80:	f8a3 8008 	strh.w	r8, [r3, #8]
    inseg.p = p;
 8030f84:	605e      	str	r6, [r3, #4]
    inseg.tcphdr = tcphdr;
 8030f86:	60df      	str	r7, [r3, #12]

    recv_data = NULL;
 8030f88:	4b18      	ldr	r3, [pc, #96]	; (8030fec <tcp_input+0x888>)
    recv_flags = 0;

    if (flags & TCP_PSH) {
 8030f8a:	f002 0208 	and.w	r2, r2, #8
    inseg.next = NULL;
    inseg.len = p->tot_len;
    inseg.p = p;
    inseg.tcphdr = tcphdr;

    recv_data = NULL;
 8030f8e:	6019      	str	r1, [r3, #0]
    recv_flags = 0;
 8030f90:	4b17      	ldr	r3, [pc, #92]	; (8030ff0 <tcp_input+0x88c>)

    if (flags & TCP_PSH) {
 8030f92:	b2d2      	uxtb	r2, r2
    inseg.len = p->tot_len;
    inseg.p = p;
    inseg.tcphdr = tcphdr;

    recv_data = NULL;
    recv_flags = 0;
 8030f94:	7019      	strb	r1, [r3, #0]

    if (flags & TCP_PSH) {
 8030f96:	2a00      	cmp	r2, #0
 8030f98:	f47f ad52 	bne.w	8030a40 <tcp_input+0x2dc>
 8030f9c:	e554      	b.n	8030a48 <tcp_input+0x2e4>
#endif /* SO_REUSE */
    if (lpcb != NULL) {
      /* Move this PCB to the front of the list so that subsequent
         lookups will be faster (we exploit locality in TCP segment
         arrivals). */
      if (prev != NULL) {
 8030f9e:	2b00      	cmp	r3, #0
 8030fa0:	f47f acc4 	bne.w	803092c <tcp_input+0x1c8>
 8030fa4:	e4c7      	b.n	8030936 <tcp_input+0x1d2>
  } else {

    /* If no matching PCB was found, send a TCP RST (reset) to the
       sender. */
    LWIP_DEBUGF(TCP_RST_DEBUG, ("tcp_input: no PCB match found, resetting.\n"));
    if (!(TCPH_FLAGS(tcphdr) & TCP_RST)) {
 8030fa6:	89b8      	ldrh	r0, [r7, #12]
 8030fa8:	f7fd f96d 	bl	802e286 <lwip_ntohs>
 8030fac:	f000 0004 	and.w	r0, r0, #4
 8030fb0:	b280      	uxth	r0, r0
 8030fb2:	2800      	cmp	r0, #0
 8030fb4:	d1be      	bne.n	8030f34 <tcp_input+0x7d0>
 8030fb6:	e7ad      	b.n	8030f14 <tcp_input+0x7b0>
    }

    if (acceptable) {
      LWIP_DEBUGF(TCP_INPUT_DEBUG, ("tcp_process: Connection RESET\n"));
      LWIP_ASSERT("tcp_input: pcb->state != CLOSED", pcb->state != CLOSED);
      recv_flags |= TF_RESET;
 8030fb8:	4b0d      	ldr	r3, [pc, #52]	; (8030ff0 <tcp_input+0x88c>)
 8030fba:	781a      	ldrb	r2, [r3, #0]
 8030fbc:	f042 0208 	orr.w	r2, r2, #8
 8030fc0:	701a      	strb	r2, [r3, #0]
      pcb->flags &= ~TF_ACK_DELAY;
 8030fc2:	7fa3      	ldrb	r3, [r4, #30]
 8030fc4:	f023 0301 	bic.w	r3, r3, #1
 8030fc8:	77a3      	strb	r3, [r4, #30]
    tcp_input_pcb = pcb;
    err = tcp_process(pcb);
    /* A return value of ERR_ABRT means that tcp_abort() was called
       and that the pcb has been freed. If so, we don't do anything. */
    if (err != ERR_ABRT) {
      if (recv_flags & TF_RESET) {
 8030fca:	4b09      	ldr	r3, [pc, #36]	; (8030ff0 <tcp_input+0x88c>)
 8030fcc:	781b      	ldrb	r3, [r3, #0]
 8030fce:	f003 0208 	and.w	r2, r3, #8
 8030fd2:	b2d2      	uxtb	r2, r2
 8030fd4:	2a00      	cmp	r2, #0
 8030fd6:	f47f af1f 	bne.w	8030e18 <tcp_input+0x6b4>
 8030fda:	e724      	b.n	8030e26 <tcp_input+0x6c2>
  return;
dropped:
  TCP_STATS_INC(tcp.drop);
  snmp_inc_tcpinerrs();
  pbuf_free(p);
}
 8030fdc:	b003      	add	sp, #12
 8030fde:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8030fe2:	bf00      	nop
 8030fe4:	2000f6c0 	.word	0x2000f6c0
 8030fe8:	2000c400 	.word	0x2000c400
 8030fec:	2000c3f8 	.word	0x2000c3f8
 8030ff0:	2000c3f5 	.word	0x2000c3f5

08030ff4 <tcp_pbuf_prealloc>:
#if TCP_OVERSIZE
static struct pbuf *
tcp_pbuf_prealloc(pbuf_layer layer, u16_t length, u16_t max_length,
                  u16_t *oversize, struct tcp_pcb *pcb, u8_t apiflags,
                  u8_t first_seg)
{
 8030ff4:	b570      	push	{r4, r5, r6, lr}
  LWIP_UNUSED_ARG(apiflags);
  LWIP_UNUSED_ARG(first_seg);
  /* always create MSS-sized pbufs */
  alloc = max_length;
#else /* LWIP_NETIF_TX_SINGLE_PBUF */
  if (length < max_length) {
 8030ff6:	4291      	cmp	r1, r2
#if TCP_OVERSIZE
static struct pbuf *
tcp_pbuf_prealloc(pbuf_layer layer, u16_t length, u16_t max_length,
                  u16_t *oversize, struct tcp_pcb *pcb, u8_t apiflags,
                  u8_t first_seg)
{
 8030ff8:	460c      	mov	r4, r1
 8030ffa:	461e      	mov	r6, r3
 8030ffc:	9d04      	ldr	r5, [sp, #16]
  LWIP_UNUSED_ARG(apiflags);
  LWIP_UNUSED_ARG(first_seg);
  /* always create MSS-sized pbufs */
  alloc = max_length;
#else /* LWIP_NETIF_TX_SINGLE_PBUF */
  if (length < max_length) {
 8030ffe:	d21a      	bcs.n	8031036 <tcp_pbuf_prealloc+0x42>
     *
     * Did the user set TCP_WRITE_FLAG_MORE?
     *
     * Will the Nagle algorithm defer transmission of this segment?
     */
    if ((apiflags & TCP_WRITE_FLAG_MORE) ||
 8031000:	f89d 3014 	ldrb.w	r3, [sp, #20]
 8031004:	f003 0302 	and.w	r3, r3, #2
 8031008:	b2db      	uxtb	r3, r3
 803100a:	b95b      	cbnz	r3, 8031024 <tcp_pbuf_prealloc+0x30>
        (!(pcb->flags & TF_NODELAY) &&
 803100c:	7fab      	ldrb	r3, [r5, #30]
     *
     * Did the user set TCP_WRITE_FLAG_MORE?
     *
     * Will the Nagle algorithm defer transmission of this segment?
     */
    if ((apiflags & TCP_WRITE_FLAG_MORE) ||
 803100e:	f003 0340 	and.w	r3, r3, #64	; 0x40
 8031012:	b2db      	uxtb	r3, r3
 8031014:	b97b      	cbnz	r3, 8031036 <tcp_pbuf_prealloc+0x42>
        (!(pcb->flags & TF_NODELAY) &&
 8031016:	f89d 3018 	ldrb.w	r3, [sp, #24]
 803101a:	b11b      	cbz	r3, 8031024 <tcp_pbuf_prealloc+0x30>
         (!first_seg ||
 803101c:	6ee9      	ldr	r1, [r5, #108]	; 0x6c
 803101e:	b909      	cbnz	r1, 8031024 <tcp_pbuf_prealloc+0x30>
          pcb->unsent != NULL ||
 8031020:	6f2b      	ldr	r3, [r5, #112]	; 0x70
 8031022:	b143      	cbz	r3, 8031036 <tcp_pbuf_prealloc+0x42>
          pcb->unacked != NULL))) {
      alloc = LWIP_MIN(max_length, LWIP_MEM_ALIGN_SIZE(length + TCP_OVERSIZE));
 8031024:	f204 51b7 	addw	r1, r4, #1463	; 0x5b7
 8031028:	f021 0103 	bic.w	r1, r1, #3
 803102c:	4291      	cmp	r1, r2
 803102e:	bfa8      	it	ge
 8031030:	4611      	movge	r1, r2
 8031032:	b289      	uxth	r1, r1
 8031034:	e000      	b.n	8031038 <tcp_pbuf_prealloc+0x44>
     * Will the Nagle algorithm defer transmission of this segment?
     */
    if ((apiflags & TCP_WRITE_FLAG_MORE) ||
        (!(pcb->flags & TF_NODELAY) &&
         (!first_seg ||
          pcb->unsent != NULL ||
 8031036:	4621      	mov	r1, r4
          pcb->unacked != NULL))) {
      alloc = LWIP_MIN(max_length, LWIP_MEM_ALIGN_SIZE(length + TCP_OVERSIZE));
    }
  }
#endif /* LWIP_NETIF_TX_SINGLE_PBUF */
  p = pbuf_alloc(layer, alloc, PBUF_RAM);
 8031038:	2200      	movs	r2, #0
 803103a:	f7fe faaa 	bl	802f592 <pbuf_alloc>
  if (p == NULL) {
 803103e:	b120      	cbz	r0, 803104a <tcp_pbuf_prealloc+0x56>
    return NULL;
  }
  LWIP_ASSERT("need unchained pbuf", p->next == NULL);
  *oversize = p->len - length;
 8031040:	8943      	ldrh	r3, [r0, #10]
 8031042:	1b1b      	subs	r3, r3, r4
 8031044:	8033      	strh	r3, [r6, #0]
  /* trim p->len to the currently used size */
  p->len = p->tot_len = length;
 8031046:	8104      	strh	r4, [r0, #8]
 8031048:	8144      	strh	r4, [r0, #10]
  return p;
}
 803104a:	bd70      	pop	{r4, r5, r6, pc}

0803104c <tcp_create_segment>:
 * The TCP header is filled in except ackno and wnd.
 * p is freed on failure.
 */
static struct tcp_seg *
tcp_create_segment(struct tcp_pcb *pcb, struct pbuf *p, u8_t flags, u32_t seqno, u8_t optflags)
{
 803104c:	e92d 47f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, lr}
 8031050:	f89d 6020 	ldrb.w	r6, [sp, #32]
  struct tcp_seg *seg;
  u8_t optlen = LWIP_TCP_OPT_LENGTH(optflags);
 8031054:	f006 0702 	and.w	r7, r6, #2
 8031058:	f016 0f01 	tst.w	r6, #1
 803105c:	b2ff      	uxtb	r7, r7
 * The TCP header is filled in except ackno and wnd.
 * p is freed on failure.
 */
static struct tcp_seg *
tcp_create_segment(struct tcp_pcb *pcb, struct pbuf *p, u8_t flags, u32_t seqno, u8_t optflags)
{
 803105e:	4680      	mov	r8, r0
 8031060:	469a      	mov	sl, r3
  struct tcp_seg *seg;
  u8_t optlen = LWIP_TCP_OPT_LENGTH(optflags);
 8031062:	bf0c      	ite	eq
 8031064:	2300      	moveq	r3, #0
 8031066:	2304      	movne	r3, #4
 8031068:	2f00      	cmp	r7, #0
 803106a:	bf14      	ite	ne
 803106c:	270c      	movne	r7, #12
 803106e:	2700      	moveq	r7, #0

  if ((seg = (struct tcp_seg *)memp_malloc(MEMP_TCP_SEG)) == NULL) {
 8031070:	2004      	movs	r0, #4
 * The TCP header is filled in except ackno and wnd.
 * p is freed on failure.
 */
static struct tcp_seg *
tcp_create_segment(struct tcp_pcb *pcb, struct pbuf *p, u8_t flags, u32_t seqno, u8_t optflags)
{
 8031072:	460d      	mov	r5, r1
 8031074:	4691      	mov	r9, r2
  struct tcp_seg *seg;
  u8_t optlen = LWIP_TCP_OPT_LENGTH(optflags);
 8031076:	18ff      	adds	r7, r7, r3

  if ((seg = (struct tcp_seg *)memp_malloc(MEMP_TCP_SEG)) == NULL) {
 8031078:	f7fe f91e 	bl	802f2b8 <memp_malloc>
 803107c:	4604      	mov	r4, r0
 803107e:	b918      	cbnz	r0, 8031088 <tcp_create_segment+0x3c>
    LWIP_DEBUGF(TCP_OUTPUT_DEBUG | 2, ("tcp_create_segment: no memory.\n"));
    pbuf_free(p);
 8031080:	4628      	mov	r0, r5
 8031082:	f7fe fa39 	bl	802f4f8 <pbuf_free>
    return NULL;
 8031086:	e030      	b.n	80310ea <tcp_create_segment+0x9e>
  }
  seg->flags = optflags;
 8031088:	7286      	strb	r6, [r0, #10]
  seg->next = NULL;
  seg->p = p;
  seg->len = p->tot_len - optlen;
 803108a:	892b      	ldrh	r3, [r5, #8]
    pbuf_free(p);
    return NULL;
  }
  seg->flags = optflags;
  seg->next = NULL;
  seg->p = p;
 803108c:	6045      	str	r5, [r0, #4]
  seg->len = p->tot_len - optlen;
 803108e:	1bdb      	subs	r3, r3, r7
    LWIP_DEBUGF(TCP_OUTPUT_DEBUG | 2, ("tcp_create_segment: no memory.\n"));
    pbuf_free(p);
    return NULL;
  }
  seg->flags = optflags;
  seg->next = NULL;
 8031090:	2600      	movs	r6, #0
 8031092:	6006      	str	r6, [r0, #0]
  seg->p = p;
  seg->len = p->tot_len - optlen;
 8031094:	8103      	strh	r3, [r0, #8]
  LWIP_ASSERT("invalid optflags passed: TF_SEG_DATA_CHECKSUMMED",
              (optflags & TF_SEG_DATA_CHECKSUMMED) == 0);
#endif /* TCP_CHECKSUM_ON_COPY */

  /* build TCP header */
  if (pbuf_header(p, TCP_HLEN)) {
 8031096:	2114      	movs	r1, #20
 8031098:	4628      	mov	r0, r5
 803109a:	f7fe fa02 	bl	802f4a2 <pbuf_header>
 803109e:	4605      	mov	r5, r0
 80310a0:	b120      	cbz	r0, 80310ac <tcp_create_segment+0x60>
    LWIP_DEBUGF(TCP_OUTPUT_DEBUG | 2, ("tcp_create_segment: no room for TCP header in pbuf.\n"));
    TCP_STATS_INC(tcp.err);
    tcp_seg_free(seg);
 80310a2:	4620      	mov	r0, r4
 80310a4:	f7fe fcd5 	bl	802fa52 <tcp_seg_free>
    return NULL;
 80310a8:	4634      	mov	r4, r6
 80310aa:	e01e      	b.n	80310ea <tcp_create_segment+0x9e>
  }
  seg->tcphdr = (struct tcp_hdr *)seg->p->payload;
 80310ac:	6863      	ldr	r3, [r4, #4]
  seg->tcphdr->src = htons(pcb->local_port);
 80310ae:	f8b8 001a 	ldrh.w	r0, [r8, #26]
    LWIP_DEBUGF(TCP_OUTPUT_DEBUG | 2, ("tcp_create_segment: no room for TCP header in pbuf.\n"));
    TCP_STATS_INC(tcp.err);
    tcp_seg_free(seg);
    return NULL;
  }
  seg->tcphdr = (struct tcp_hdr *)seg->p->payload;
 80310b2:	685e      	ldr	r6, [r3, #4]
 80310b4:	60e6      	str	r6, [r4, #12]
  seg->tcphdr->src = htons(pcb->local_port);
 80310b6:	f7fd f8e1 	bl	802e27c <lwip_htons>
 80310ba:	8030      	strh	r0, [r6, #0]
  seg->tcphdr->dest = htons(pcb->remote_port);
 80310bc:	f8b8 001c 	ldrh.w	r0, [r8, #28]
 80310c0:	68e6      	ldr	r6, [r4, #12]
 80310c2:	f7fd f8db 	bl	802e27c <lwip_htons>
 80310c6:	8070      	strh	r0, [r6, #2]
  seg->tcphdr->seqno = htonl(seqno);
 80310c8:	4650      	mov	r0, sl
 80310ca:	68e6      	ldr	r6, [r4, #12]
 80310cc:	f7fd f8e0 	bl	802e290 <lwip_htonl>
  /* ackno is set in tcp_output */
  TCPH_HDRLEN_FLAGS_SET(seg->tcphdr, (5 + optlen / 4), flags);
 80310d0:	02bf      	lsls	r7, r7, #10
    return NULL;
  }
  seg->tcphdr = (struct tcp_hdr *)seg->p->payload;
  seg->tcphdr->src = htons(pcb->local_port);
  seg->tcphdr->dest = htons(pcb->remote_port);
  seg->tcphdr->seqno = htonl(seqno);
 80310d2:	6070      	str	r0, [r6, #4]
  /* ackno is set in tcp_output */
  TCPH_HDRLEN_FLAGS_SET(seg->tcphdr, (5 + optlen / 4), flags);
 80310d4:	f507 40a0 	add.w	r0, r7, #20480	; 0x5000
 80310d8:	ea40 0009 	orr.w	r0, r0, r9
 80310dc:	68e6      	ldr	r6, [r4, #12]
 80310de:	f7fd f8cd 	bl	802e27c <lwip_htons>
 80310e2:	81b0      	strh	r0, [r6, #12]
  /* wnd and chksum are set in tcp_output */
  seg->tcphdr->urgp = 0;
 80310e4:	68e3      	ldr	r3, [r4, #12]
 80310e6:	749d      	strb	r5, [r3, #18]
 80310e8:	74dd      	strb	r5, [r3, #19]
  return seg;
} 
 80310ea:	4620      	mov	r0, r4
 80310ec:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}

080310f0 <tcp_output_alloc_header.constprop.0>:
static struct pbuf *
tcp_output_alloc_header(struct tcp_pcb *pcb, u16_t optlen, u16_t datalen,
                      u32_t seqno_be /* already in network byte order */)
{
  struct tcp_hdr *tcphdr;
  struct pbuf *p = pbuf_alloc(PBUF_IP, TCP_HLEN + optlen + datalen, PBUF_RAM);
 80310f0:	3114      	adds	r1, #20
 * @param datalen length of tcp data to reserve in pbuf
 * @param seqno_be seqno in network byte order (big-endian)
 * @return pbuf with p->payload being the tcp_hdr
 */
static struct pbuf *
tcp_output_alloc_header(struct tcp_pcb *pcb, u16_t optlen, u16_t datalen,
 80310f2:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
                      u32_t seqno_be /* already in network byte order */)
{
  struct tcp_hdr *tcphdr;
  struct pbuf *p = pbuf_alloc(PBUF_IP, TCP_HLEN + optlen + datalen, PBUF_RAM);
 80310f4:	b289      	uxth	r1, r1
 * @param datalen length of tcp data to reserve in pbuf
 * @param seqno_be seqno in network byte order (big-endian)
 * @return pbuf with p->payload being the tcp_hdr
 */
static struct pbuf *
tcp_output_alloc_header(struct tcp_pcb *pcb, u16_t optlen, u16_t datalen,
 80310f6:	4605      	mov	r5, r0
 80310f8:	4617      	mov	r7, r2
                      u32_t seqno_be /* already in network byte order */)
{
  struct tcp_hdr *tcphdr;
  struct pbuf *p = pbuf_alloc(PBUF_IP, TCP_HLEN + optlen + datalen, PBUF_RAM);
 80310fa:	2001      	movs	r0, #1
 80310fc:	2200      	movs	r2, #0
 80310fe:	f7fe fa48 	bl	802f592 <pbuf_alloc>
  if (p != NULL) {
 8031102:	4606      	mov	r6, r0
 8031104:	b1f8      	cbz	r0, 8031146 <tcp_output_alloc_header.constprop.0+0x56>
    LWIP_ASSERT("check that first pbuf can hold struct tcp_hdr",
                 (p->len >= TCP_HLEN + optlen));
    tcphdr = (struct tcp_hdr *)p->payload;
 8031106:	6844      	ldr	r4, [r0, #4]
    tcphdr->src = htons(pcb->local_port);
 8031108:	8b68      	ldrh	r0, [r5, #26]
 803110a:	f7fd f8b7 	bl	802e27c <lwip_htons>
 803110e:	8020      	strh	r0, [r4, #0]
    tcphdr->dest = htons(pcb->remote_port);
 8031110:	8ba8      	ldrh	r0, [r5, #28]
 8031112:	f7fd f8b3 	bl	802e27c <lwip_htons>
    tcphdr->seqno = seqno_be;
 8031116:	6067      	str	r7, [r4, #4]
  if (p != NULL) {
    LWIP_ASSERT("check that first pbuf can hold struct tcp_hdr",
                 (p->len >= TCP_HLEN + optlen));
    tcphdr = (struct tcp_hdr *)p->payload;
    tcphdr->src = htons(pcb->local_port);
    tcphdr->dest = htons(pcb->remote_port);
 8031118:	8060      	strh	r0, [r4, #2]
    tcphdr->seqno = seqno_be;
    tcphdr->ackno = htonl(pcb->rcv_nxt);
 803111a:	6aa8      	ldr	r0, [r5, #40]	; 0x28
 803111c:	f7fd f8b8 	bl	802e290 <lwip_htonl>
 8031120:	60a0      	str	r0, [r4, #8]
    TCPH_HDRLEN_FLAGS_SET(tcphdr, (5 + optlen / 4), TCP_ACK);
 8031122:	f245 0010 	movw	r0, #20496	; 0x5010
 8031126:	f7fd f8a9 	bl	802e27c <lwip_htons>
 803112a:	81a0      	strh	r0, [r4, #12]
    tcphdr->wnd = htons(pcb->rcv_ann_wnd);
 803112c:	8de8      	ldrh	r0, [r5, #46]	; 0x2e
 803112e:	f7fd f8a5 	bl	802e27c <lwip_htons>
    tcphdr->chksum = 0;
 8031132:	2300      	movs	r3, #0
    tcphdr->src = htons(pcb->local_port);
    tcphdr->dest = htons(pcb->remote_port);
    tcphdr->seqno = seqno_be;
    tcphdr->ackno = htonl(pcb->rcv_nxt);
    TCPH_HDRLEN_FLAGS_SET(tcphdr, (5 + optlen / 4), TCP_ACK);
    tcphdr->wnd = htons(pcb->rcv_ann_wnd);
 8031134:	81e0      	strh	r0, [r4, #14]
    tcphdr->chksum = 0;
 8031136:	7423      	strb	r3, [r4, #16]
 8031138:	7463      	strb	r3, [r4, #17]
    tcphdr->urgp = 0;
 803113a:	74a3      	strb	r3, [r4, #18]
 803113c:	74e3      	strb	r3, [r4, #19]

    /* If we're sending a packet, update the announced right window edge */
    pcb->rcv_ann_right_edge = pcb->rcv_nxt + pcb->rcv_ann_wnd;
 803113e:	8dea      	ldrh	r2, [r5, #46]	; 0x2e
 8031140:	6aab      	ldr	r3, [r5, #40]	; 0x28
 8031142:	18d3      	adds	r3, r2, r3
 8031144:	632b      	str	r3, [r5, #48]	; 0x30
  }
  return p;
}
 8031146:	4630      	mov	r0, r6
 8031148:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}

0803114a <tcp_write>:
 * - TCP_WRITE_FLAG_MORE (0x02) for TCP connection, PSH flag will be set on last segment sent,
 * @return ERR_OK if enqueued, another err_t on error
 */
err_t
tcp_write(struct tcp_pcb *pcb, const void *arg, u16_t len, u8_t apiflags)
{
 803114a:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 803114e:	b08f      	sub	sp, #60	; 0x3c
 8031150:	4691      	mov	r9, r2
 8031152:	9307      	str	r3, [sp, #28]
  u16_t pos = 0; /* position in 'arg' data */
  u16_t queuelen;
  u8_t optlen = 0;
  u8_t optflags = 0;
#if TCP_OVERSIZE
  u16_t oversize = 0;
 8031154:	2300      	movs	r3, #0
 8031156:	f8ad 3036 	strh.w	r3, [sp, #54]	; 0x36
 * - TCP_WRITE_FLAG_MORE (0x02) for TCP connection, PSH flag will be set on last segment sent,
 * @return ERR_OK if enqueued, another err_t on error
 */
err_t
tcp_write(struct tcp_pcb *pcb, const void *arg, u16_t len, u8_t apiflags)
{
 803115a:	4604      	mov	r4, r0
  u8_t concat_chksum_swapped = 0;
  u16_t concat_chksummed = 0;
#endif /* TCP_CHECKSUM_ON_COPY */
  err_t err;
  /* don't allocate segments bigger than half the maximum window we ever received */
  u16_t mss_local = LWIP_MIN(pcb->mss, pcb->snd_wnd_max/2);
 803115c:	f8b0 2062 	ldrh.w	r2, [r0, #98]	; 0x62
 8031160:	8ec3      	ldrh	r3, [r0, #54]	; 0x36
  apiflags |= TCP_WRITE_FLAG_COPY;
#endif /* LWIP_NETIF_TX_SINGLE_PBUF */

  LWIP_DEBUGF(TCP_OUTPUT_DEBUG, ("tcp_write(pcb=%p, data=%p, len=%"U16_F", apiflags=%"U16_F")\n",
    (void *)pcb, arg, len, (u16_t)apiflags));
  LWIP_ERROR("tcp_write: arg == NULL (programmer violates API)", 
 8031162:	9106      	str	r1, [sp, #24]
 8031164:	2900      	cmp	r1, #0
 8031166:	f000 8168 	beq.w	803143a <tcp_write+0x2f0>
 803116a:	7e01      	ldrb	r1, [r0, #24]
 803116c:	2907      	cmp	r1, #7
 803116e:	f200 8166 	bhi.w	803143e <tcp_write+0x2f4>
 8031172:	f990 1018 	ldrsb.w	r1, [r0, #24]
 8031176:	f04f 5064 	mov.w	r0, #956301312	; 0x39000000
 803117a:	4088      	lsls	r0, r1
 803117c:	f140 815f 	bpl.w	803143e <tcp_write+0x2f4>
      (pcb->state != CLOSE_WAIT) &&
      (pcb->state != SYN_SENT) &&
      (pcb->state != SYN_RCVD)) {
    LWIP_DEBUGF(TCP_OUTPUT_DEBUG | LWIP_DBG_STATE | LWIP_DBG_LEVEL_SEVERE, ("tcp_write() called in invalid state\n"));
    return ERR_CONN;
  } else if (len == 0) {
 8031180:	f1b9 0f00 	cmp.w	r9, #0
 8031184:	d00d      	beq.n	80311a2 <tcp_write+0x58>
    return ERR_OK;
  }

  /* fail on too much data */
  if (len > pcb->snd_buf) {
 8031186:	f8b4 1066 	ldrh.w	r1, [r4, #102]	; 0x66
 803118a:	4549      	cmp	r1, r9
 803118c:	d200      	bcs.n	8031190 <tcp_write+0x46>
 803118e:	e003      	b.n	8031198 <tcp_write+0x4e>
  LWIP_DEBUGF(TCP_QLEN_DEBUG, ("tcp_write: queuelen: %"U16_F"\n", (u16_t)pcb->snd_queuelen));

  /* If total number of pbufs on the unsent/unacked queues exceeds the
   * configured maximum, return an error */
  /* check for configured max queuelen and possible overflow */
  if ((pcb->snd_queuelen >= TCP_SND_QUEUELEN) || (pcb->snd_queuelen > TCP_SNDQUEUELEN_OVERFLOW)) {
 8031190:	f8b4 1068 	ldrh.w	r1, [r4, #104]	; 0x68
 8031194:	2947      	cmp	r1, #71	; 0x47
 8031196:	d904      	bls.n	80311a2 <tcp_write+0x58>
    LWIP_DEBUGF(TCP_OUTPUT_DEBUG | 3, ("tcp_write: too long queue %"U16_F" (max %"U16_F")\n",
      pcb->snd_queuelen, TCP_SND_QUEUELEN));
    TCP_STATS_INC(tcp.memerr);
    pcb->flags |= TF_NAGLEMEMERR;
 8031198:	7fa3      	ldrb	r3, [r4, #30]
 803119a:	f063 037f 	orn	r3, r3, #127	; 0x7f
 803119e:	77a3      	strb	r3, [r4, #30]
 80311a0:	e151      	b.n	8031446 <tcp_write+0x2fc>
  u8_t concat_chksum_swapped = 0;
  u16_t concat_chksummed = 0;
#endif /* TCP_CHECKSUM_ON_COPY */
  err_t err;
  /* don't allocate segments bigger than half the maximum window we ever received */
  u16_t mss_local = LWIP_MIN(pcb->mss, pcb->snd_wnd_max/2);
 80311a2:	0852      	lsrs	r2, r2, #1
   *
   * pos records progress as data is segmented.
   */

  /* Find the tail of the unsent queue. */
  if (pcb->unsent != NULL) {
 80311a4:	6ee6      	ldr	r6, [r4, #108]	; 0x6c

  err = tcp_write_checks(pcb, len);
  if (err != ERR_OK) {
    return err;
  }
  queuelen = pcb->snd_queuelen;
 80311a6:	f8b4 b068 	ldrh.w	fp, [r4, #104]	; 0x68
  u8_t concat_chksum_swapped = 0;
  u16_t concat_chksummed = 0;
#endif /* TCP_CHECKSUM_ON_COPY */
  err_t err;
  /* don't allocate segments bigger than half the maximum window we ever received */
  u16_t mss_local = LWIP_MIN(pcb->mss, pcb->snd_wnd_max/2);
 80311aa:	429a      	cmp	r2, r3
 80311ac:	bf28      	it	cs
 80311ae:	461a      	movcs	r2, r3
 80311b0:	920a      	str	r2, [sp, #40]	; 0x28
   *
   * pos records progress as data is segmented.
   */

  /* Find the tail of the unsent queue. */
  if (pcb->unsent != NULL) {
 80311b2:	b90e      	cbnz	r6, 80311b8 <tcp_write+0x6e>
 80311b4:	e066      	b.n	8031284 <tcp_write+0x13a>
    u16_t space;
    u16_t unsent_optlen;

    /* @todo: this could be sped up by keeping last_unsent in the pcb */
    for (last_unsent = pcb->unsent; last_unsent->next != NULL;
         last_unsent = last_unsent->next);
 80311b6:	461e      	mov	r6, r3
  if (pcb->unsent != NULL) {
    u16_t space;
    u16_t unsent_optlen;

    /* @todo: this could be sped up by keeping last_unsent in the pcb */
    for (last_unsent = pcb->unsent; last_unsent->next != NULL;
 80311b8:	6833      	ldr	r3, [r6, #0]
 80311ba:	2b00      	cmp	r3, #0
 80311bc:	d1fb      	bne.n	80311b6 <tcp_write+0x6c>
         last_unsent = last_unsent->next);

    /* Usable space at the end of the last unsent segment */
    unsent_optlen = LWIP_TCP_OPT_LENGTH(last_unsent->flags);
 80311be:	7ab3      	ldrb	r3, [r6, #10]
    space = mss_local - (last_unsent->len + unsent_optlen);
 80311c0:	8937      	ldrh	r7, [r6, #8]
    /* @todo: this could be sped up by keeping last_unsent in the pcb */
    for (last_unsent = pcb->unsent; last_unsent->next != NULL;
         last_unsent = last_unsent->next);

    /* Usable space at the end of the last unsent segment */
    unsent_optlen = LWIP_TCP_OPT_LENGTH(last_unsent->flags);
 80311c2:	980a      	ldr	r0, [sp, #40]	; 0x28
#if TCP_OVERSIZE_DBGCHECK
    /* check that pcb->unsent_oversize matches last_unsent->unsent_oversize */
    LWIP_ASSERT("unsent_oversize mismatch (pcb vs. last_unsent)",
                pcb->unsent_oversize == last_unsent->oversize_left);
#endif /* TCP_OVERSIZE_DBGCHECK */
    oversize = pcb->unsent_oversize;
 80311c4:	f8b4 506a 	ldrh.w	r5, [r4, #106]	; 0x6a
    /* @todo: this could be sped up by keeping last_unsent in the pcb */
    for (last_unsent = pcb->unsent; last_unsent->next != NULL;
         last_unsent = last_unsent->next);

    /* Usable space at the end of the last unsent segment */
    unsent_optlen = LWIP_TCP_OPT_LENGTH(last_unsent->flags);
 80311c8:	f013 0f01 	tst.w	r3, #1
 80311cc:	f003 0302 	and.w	r3, r3, #2
 80311d0:	bf0c      	ite	eq
 80311d2:	2100      	moveq	r1, #0
 80311d4:	2104      	movne	r1, #4
 80311d6:	b2db      	uxtb	r3, r3
 80311d8:	1bc2      	subs	r2, r0, r7
 80311da:	2b00      	cmp	r3, #0
 80311dc:	bf14      	ite	ne
 80311de:	230c      	movne	r3, #12
 80311e0:	2300      	moveq	r3, #0
    space = mss_local - (last_unsent->len + unsent_optlen);
 80311e2:	1a52      	subs	r2, r2, r1
 80311e4:	1ad2      	subs	r2, r2, r3
 80311e6:	b292      	uxth	r2, r2
    /* check that pcb->unsent_oversize matches last_unsent->unsent_oversize */
    LWIP_ASSERT("unsent_oversize mismatch (pcb vs. last_unsent)",
                pcb->unsent_oversize == last_unsent->oversize_left);
#endif /* TCP_OVERSIZE_DBGCHECK */
    oversize = pcb->unsent_oversize;
    if (oversize > 0) {
 80311e8:	b91d      	cbnz	r5, 80311f2 <tcp_write+0xa8>
#if TCP_OVERSIZE_DBGCHECK
    /* check that pcb->unsent_oversize matches last_unsent->unsent_oversize */
    LWIP_ASSERT("unsent_oversize mismatch (pcb vs. last_unsent)",
                pcb->unsent_oversize == last_unsent->oversize_left);
#endif /* TCP_OVERSIZE_DBGCHECK */
    oversize = pcb->unsent_oversize;
 80311ea:	f8ad 5036 	strh.w	r5, [sp, #54]	; 0x36
 */
err_t
tcp_write(struct tcp_pcb *pcb, const void *arg, u16_t len, u8_t apiflags)
{
  struct pbuf *concat_p = NULL;
  struct tcp_seg *last_unsent = NULL, *seg = NULL, *prev_seg = NULL, *queue = NULL;
 80311ee:	462b      	mov	r3, r5
 80311f0:	e00a      	b.n	8031208 <tcp_write+0xbe>
#endif /* TCP_OVERSIZE_DBGCHECK */
    oversize = pcb->unsent_oversize;
    if (oversize > 0) {
      LWIP_ASSERT("inconsistent oversize vs. space", oversize_used <= space);
      seg = last_unsent;
      oversize_used = oversize < len ? oversize : len;
 80311f2:	45a9      	cmp	r9, r5
 80311f4:	bf34      	ite	cc
 80311f6:	464b      	movcc	r3, r9
 80311f8:	462b      	movcs	r3, r5
      pos += oversize_used;
      oversize -= oversize_used;
 80311fa:	1aed      	subs	r5, r5, r3
      space -= oversize_used;
 80311fc:	1ad2      	subs	r2, r2, r3
    if (oversize > 0) {
      LWIP_ASSERT("inconsistent oversize vs. space", oversize_used <= space);
      seg = last_unsent;
      oversize_used = oversize < len ? oversize : len;
      pos += oversize_used;
      oversize -= oversize_used;
 80311fe:	f8ad 5036 	strh.w	r5, [sp, #54]	; 0x36
      space -= oversize_used;
 8031202:	b292      	uxth	r2, r2
    oversize = pcb->unsent_oversize;
    if (oversize > 0) {
      LWIP_ASSERT("inconsistent oversize vs. space", oversize_used <= space);
      seg = last_unsent;
      oversize_used = oversize < len ? oversize : len;
      pos += oversize_used;
 8031204:	461d      	mov	r5, r3
      oversize -= oversize_used;
      space -= oversize_used;
 8031206:	4633      	mov	r3, r6
     *
     * We don't extend segments containing SYN/FIN flags or options
     * (len==0). The new pbuf is kept in concat_p and pbuf_cat'ed at
     * the end.
     */
    if ((pos < len) && (space > 0) && (last_unsent->len > 0)) {
 8031208:	454d      	cmp	r5, r9
 803120a:	d23f      	bcs.n	803128c <tcp_write+0x142>
 803120c:	2a00      	cmp	r2, #0
 803120e:	d03d      	beq.n	803128c <tcp_write+0x142>
 8031210:	2f00      	cmp	r7, #0
 8031212:	d03e      	beq.n	8031292 <tcp_write+0x148>
      seg = last_unsent;

      /* Create a pbuf with a copy or reference to seglen bytes. We
       * can use PBUF_RAW here since the data appears in the middle of
       * a segment. A header will never be prepended. */
      if (apiflags & TCP_WRITE_FLAG_COPY) {
 8031214:	9907      	ldr	r1, [sp, #28]
     * We don't extend segments containing SYN/FIN flags or options
     * (len==0). The new pbuf is kept in concat_p and pbuf_cat'ed at
     * the end.
     */
    if ((pos < len) && (space > 0) && (last_unsent->len > 0)) {
      u16_t seglen = space < len - pos ? space : len - pos;
 8031216:	ebc5 0a09 	rsb	sl, r5, r9
 803121a:	4592      	cmp	sl, r2
 803121c:	bfa8      	it	ge
 803121e:	4692      	movge	sl, r2
      seg = last_unsent;

      /* Create a pbuf with a copy or reference to seglen bytes. We
       * can use PBUF_RAW here since the data appears in the middle of
       * a segment. A header will never be prepended. */
      if (apiflags & TCP_WRITE_FLAG_COPY) {
 8031220:	07cb      	lsls	r3, r1, #31
     * We don't extend segments containing SYN/FIN flags or options
     * (len==0). The new pbuf is kept in concat_p and pbuf_cat'ed at
     * the end.
     */
    if ((pos < len) && (space > 0) && (last_unsent->len > 0)) {
      u16_t seglen = space < len - pos ? space : len - pos;
 8031222:	fa1f f88a 	uxth.w	r8, sl
      seg = last_unsent;

      /* Create a pbuf with a copy or reference to seglen bytes. We
       * can use PBUF_RAW here since the data appears in the middle of
       * a segment. A header will never be prepended. */
      if (apiflags & TCP_WRITE_FLAG_COPY) {
 8031226:	d514      	bpl.n	8031252 <tcp_write+0x108>
        /* Data is copied */
        if ((concat_p = tcp_pbuf_prealloc(PBUF_RAW, seglen, space, &oversize, pcb, apiflags, 1)) == NULL) {
 8031228:	2301      	movs	r3, #1
 803122a:	9101      	str	r1, [sp, #4]
 803122c:	9302      	str	r3, [sp, #8]
 803122e:	9400      	str	r4, [sp, #0]
 8031230:	2003      	movs	r0, #3
 8031232:	4641      	mov	r1, r8
 8031234:	f10d 0336 	add.w	r3, sp, #54	; 0x36
 8031238:	f7ff fedc 	bl	8030ff4 <tcp_pbuf_prealloc>
 803123c:	4607      	mov	r7, r0
 803123e:	2800      	cmp	r0, #0
 8031240:	f000 80e9 	beq.w	8031416 <tcp_write+0x2cc>
          goto memerr;
        }
#if TCP_OVERSIZE_DBGCHECK
        last_unsent->oversize_left += oversize;
#endif /* TCP_OVERSIZE_DBGCHECK */
        TCP_DATA_COPY2(concat_p->payload, (u8_t*)arg + pos, seglen, &concat_chksum, &concat_chksum_swapped);
 8031244:	9a06      	ldr	r2, [sp, #24]
 8031246:	6840      	ldr	r0, [r0, #4]
 8031248:	1951      	adds	r1, r2, r5
 803124a:	4642      	mov	r2, r8
 803124c:	f7f0 fcee 	bl	8021c2c <memcpy>
 8031250:	e00b      	b.n	803126a <tcp_write+0x120>
#if TCP_CHECKSUM_ON_COPY
        concat_chksummed += seglen;
#endif /* TCP_CHECKSUM_ON_COPY */
      } else {
        /* Data is not copied */
        if ((concat_p = pbuf_alloc(PBUF_RAW, seglen, PBUF_ROM)) == NULL) {
 8031252:	2003      	movs	r0, #3
 8031254:	4641      	mov	r1, r8
 8031256:	2201      	movs	r2, #1
 8031258:	f7fe f99b 	bl	802f592 <pbuf_alloc>
 803125c:	4607      	mov	r7, r0
 803125e:	2800      	cmp	r0, #0
 8031260:	f000 80d9 	beq.w	8031416 <tcp_write+0x2cc>
        tcp_seg_add_chksum(~inet_chksum((u8_t*)arg + pos, seglen), seglen,
          &concat_chksum, &concat_chksum_swapped);
        concat_chksummed += seglen;
#endif /* TCP_CHECKSUM_ON_COPY */
        /* reference the non-volatile payload data */
        concat_p->payload = (u8_t*)arg + pos;
 8031264:	9806      	ldr	r0, [sp, #24]
 8031266:	1943      	adds	r3, r0, r5
 8031268:	607b      	str	r3, [r7, #4]
      }

      pos += seglen;
      queuelen += pbuf_clen(concat_p);
 803126a:	4638      	mov	r0, r7
 803126c:	f7fe fa18 	bl	802f6a0 <pbuf_clen>
#endif /* TCP_CHECKSUM_ON_COPY */
        /* reference the non-volatile payload data */
        concat_p->payload = (u8_t*)arg + pos;
      }

      pos += seglen;
 8031270:	44a8      	add	r8, r5
 8031272:	fa1f f888 	uxth.w	r8, r8
      queuelen += pbuf_clen(concat_p);
 8031276:	4458      	add	r0, fp
 8031278:	46aa      	mov	sl, r5
 803127a:	fa1f fb80 	uxth.w	fp, r0
#endif /* TCP_CHECKSUM_ON_COPY */
        /* reference the non-volatile payload data */
        concat_p->payload = (u8_t*)arg + pos;
      }

      pos += seglen;
 803127e:	4645      	mov	r5, r8
      queuelen += pbuf_clen(concat_p);
 8031280:	4633      	mov	r3, r6
 8031282:	e007      	b.n	8031294 <tcp_write+0x14a>
  u16_t queuelen;
  u8_t optlen = 0;
  u8_t optflags = 0;
#if TCP_OVERSIZE
  u16_t oversize = 0;
  u16_t oversize_used = 0;
 8031284:	46b2      	mov	sl, r6
err_t
tcp_write(struct tcp_pcb *pcb, const void *arg, u16_t len, u8_t apiflags)
{
  struct pbuf *concat_p = NULL;
  struct tcp_seg *last_unsent = NULL, *seg = NULL, *prev_seg = NULL, *queue = NULL;
  u16_t pos = 0; /* position in 'arg' data */
 8031286:	4635      	mov	r5, r6
 */
err_t
tcp_write(struct tcp_pcb *pcb, const void *arg, u16_t len, u8_t apiflags)
{
  struct pbuf *concat_p = NULL;
  struct tcp_seg *last_unsent = NULL, *seg = NULL, *prev_seg = NULL, *queue = NULL;
 8031288:	4633      	mov	r3, r6
 803128a:	e000      	b.n	803128e <tcp_write+0x144>
     *
     * We don't extend segments containing SYN/FIN flags or options
     * (len==0). The new pbuf is kept in concat_p and pbuf_cat'ed at
     * the end.
     */
    if ((pos < len) && (space > 0) && (last_unsent->len > 0)) {
 803128c:	46aa      	mov	sl, r5
 * @return ERR_OK if enqueued, another err_t on error
 */
err_t
tcp_write(struct tcp_pcb *pcb, const void *arg, u16_t len, u8_t apiflags)
{
  struct pbuf *concat_p = NULL;
 803128e:	2700      	movs	r7, #0
 8031290:	e000      	b.n	8031294 <tcp_write+0x14a>
     *
     * We don't extend segments containing SYN/FIN flags or options
     * (len==0). The new pbuf is kept in concat_p and pbuf_cat'ed at
     * the end.
     */
    if ((pos < len) && (space > 0) && (last_unsent->len > 0)) {
 8031292:	46aa      	mov	sl, r5
#if TCP_CHECKSUM_ON_COPY
    u16_t chksum = 0;
    u8_t chksum_swapped = 0;
#endif /* TCP_CHECKSUM_ON_COPY */

    if (apiflags & TCP_WRITE_FLAG_COPY) {
 8031294:	9907      	ldr	r1, [sp, #28]
    seg->chksum_swapped = chksum_swapped;
    seg->flags |= TF_SEG_DATA_CHECKSUMMED;
#endif /* TCP_CHECKSUM_ON_COPY */

    /* first segment of to-be-queued data? */
    if (queue == NULL) {
 8031296:	f04f 0800 	mov.w	r8, #0
#if TCP_CHECKSUM_ON_COPY
    u16_t chksum = 0;
    u8_t chksum_swapped = 0;
#endif /* TCP_CHECKSUM_ON_COPY */

    if (apiflags & TCP_WRITE_FLAG_COPY) {
 803129a:	f001 0101 	and.w	r1, r1, #1
    seg->chksum_swapped = chksum_swapped;
    seg->flags |= TF_SEG_DATA_CHECKSUMMED;
#endif /* TCP_CHECKSUM_ON_COPY */

    /* first segment of to-be-queued data? */
    if (queue == NULL) {
 803129e:	f8cd 802c 	str.w	r8, [sp, #44]	; 0x2c
#if TCP_CHECKSUM_ON_COPY
    u16_t chksum = 0;
    u8_t chksum_swapped = 0;
#endif /* TCP_CHECKSUM_ON_COPY */

    if (apiflags & TCP_WRITE_FLAG_COPY) {
 80312a2:	9108      	str	r1, [sp, #32]
 80312a4:	e068      	b.n	8031378 <tcp_write+0x22e>
   * The new segments are chained together in the local 'queue'
   * variable, ready to be appended to pcb->unsent.
   */
  while (pos < len) {
    struct pbuf *p;
    u16_t left = len - pos;
 80312a6:	ebc5 0309 	rsb	r3, r5, r9
    u16_t max_len = mss_local - optlen;
    u16_t seglen = left > max_len ? max_len : left;
 80312aa:	9a0a      	ldr	r2, [sp, #40]	; 0x28
 80312ac:	b29b      	uxth	r3, r3
 80312ae:	4293      	cmp	r3, r2
 80312b0:	bf38      	it	cc
 80312b2:	461a      	movcc	r2, r3
#if TCP_CHECKSUM_ON_COPY
    u16_t chksum = 0;
    u8_t chksum_swapped = 0;
#endif /* TCP_CHECKSUM_ON_COPY */

    if (apiflags & TCP_WRITE_FLAG_COPY) {
 80312b4:	9b08      	ldr	r3, [sp, #32]
   */
  while (pos < len) {
    struct pbuf *p;
    u16_t left = len - pos;
    u16_t max_len = mss_local - optlen;
    u16_t seglen = left > max_len ? max_len : left;
 80312b6:	9209      	str	r2, [sp, #36]	; 0x24
#if TCP_CHECKSUM_ON_COPY
    u16_t chksum = 0;
    u8_t chksum_swapped = 0;
#endif /* TCP_CHECKSUM_ON_COPY */

    if (apiflags & TCP_WRITE_FLAG_COPY) {
 80312b8:	b1db      	cbz	r3, 80312f2 <tcp_write+0x1a8>
      /* If copy is set, memory should be allocated and data copied
       * into pbuf */
      if ((p = tcp_pbuf_prealloc(PBUF_TRANSPORT, seglen + optlen, mss_local, &oversize, pcb, apiflags, queue == NULL)) == NULL) {
 80312ba:	f1d8 0301 	rsbs	r3, r8, #1
 80312be:	9807      	ldr	r0, [sp, #28]
 80312c0:	9400      	str	r4, [sp, #0]
 80312c2:	bf38      	it	cc
 80312c4:	2300      	movcc	r3, #0
 80312c6:	9001      	str	r0, [sp, #4]
 80312c8:	9302      	str	r3, [sp, #8]
 80312ca:	4611      	mov	r1, r2
 80312cc:	2000      	movs	r0, #0
 80312ce:	9a0a      	ldr	r2, [sp, #40]	; 0x28
 80312d0:	f10d 0336 	add.w	r3, sp, #54	; 0x36
 80312d4:	f7ff fe8e 	bl	8030ff4 <tcp_pbuf_prealloc>
 80312d8:	4684      	mov	ip, r0
 80312da:	2800      	cmp	r0, #0
 80312dc:	f000 809e 	beq.w	803141c <tcp_write+0x2d2>
        LWIP_DEBUGF(TCP_OUTPUT_DEBUG | 2, ("tcp_write : could not allocate memory for pbuf copy size %"U16_F"\n", seglen));
        goto memerr;
      }
      LWIP_ASSERT("tcp_write: check that first pbuf can hold the complete seglen",
                  (p->len >= seglen));
      TCP_DATA_COPY2((char *)p->payload + optlen, (u8_t*)arg + pos, seglen, &chksum, &chksum_swapped);
 80312e0:	9a06      	ldr	r2, [sp, #24]
 80312e2:	6840      	ldr	r0, [r0, #4]
 80312e4:	f8cd c014 	str.w	ip, [sp, #20]
 80312e8:	1951      	adds	r1, r2, r5
 80312ea:	9a09      	ldr	r2, [sp, #36]	; 0x24
 80312ec:	f7f0 fc9e 	bl	8021c2c <memcpy>
 80312f0:	e019      	b.n	8031326 <tcp_write+0x1dc>
       */
      struct pbuf *p2;
#if TCP_OVERSIZE
      LWIP_ASSERT("oversize == 0", oversize == 0);
#endif /* TCP_OVERSIZE */
      if ((p2 = pbuf_alloc(PBUF_TRANSPORT, seglen, PBUF_ROM)) == NULL) {
 80312f2:	9808      	ldr	r0, [sp, #32]
 80312f4:	9909      	ldr	r1, [sp, #36]	; 0x24
 80312f6:	2201      	movs	r2, #1
 80312f8:	f7fe f94b 	bl	802f592 <pbuf_alloc>
 80312fc:	4603      	mov	r3, r0
 80312fe:	2800      	cmp	r0, #0
 8031300:	f000 808c 	beq.w	803141c <tcp_write+0x2d2>
#if TCP_CHECKSUM_ON_COPY
      /* calculate the checksum of nocopy-data */
      chksum = ~inet_chksum((u8_t*)arg + pos, seglen);
#endif /* TCP_CHECKSUM_ON_COPY */
      /* reference the non-volatile payload data */
      p2->payload = (u8_t*)arg + pos;
 8031304:	9806      	ldr	r0, [sp, #24]
 8031306:	1942      	adds	r2, r0, r5

      /* Second, allocate a pbuf for the headers. */
      if ((p = pbuf_alloc(PBUF_TRANSPORT, optlen, PBUF_RAM)) == NULL) {
 8031308:	9808      	ldr	r0, [sp, #32]
#if TCP_CHECKSUM_ON_COPY
      /* calculate the checksum of nocopy-data */
      chksum = ~inet_chksum((u8_t*)arg + pos, seglen);
#endif /* TCP_CHECKSUM_ON_COPY */
      /* reference the non-volatile payload data */
      p2->payload = (u8_t*)arg + pos;
 803130a:	605a      	str	r2, [r3, #4]

      /* Second, allocate a pbuf for the headers. */
      if ((p = pbuf_alloc(PBUF_TRANSPORT, optlen, PBUF_RAM)) == NULL) {
 803130c:	4601      	mov	r1, r0
 803130e:	4602      	mov	r2, r0
 8031310:	9305      	str	r3, [sp, #20]
 8031312:	f7fe f93e 	bl	802f592 <pbuf_alloc>
 8031316:	9b05      	ldr	r3, [sp, #20]
 8031318:	b908      	cbnz	r0, 803131e <tcp_write+0x1d4>
        /* If allocation fails, we have to deallocate the data pbuf as
         * well. */
        pbuf_free(p2);
 803131a:	4618      	mov	r0, r3
 803131c:	e013      	b.n	8031346 <tcp_write+0x1fc>
        LWIP_DEBUGF(TCP_OUTPUT_DEBUG | 2, ("tcp_write: could not allocate memory for header pbuf\n"));
        goto memerr;
      }
      /* Concatenate the headers and data pbufs together. */
      pbuf_cat(p/*header*/, p2/*data*/);
 803131e:	4619      	mov	r1, r3
 8031320:	9005      	str	r0, [sp, #20]
 8031322:	f7fe f9d3 	bl	802f6cc <pbuf_cat>
 8031326:	f8dd c014 	ldr.w	ip, [sp, #20]
    }

    queuelen += pbuf_clen(p);
 803132a:	4660      	mov	r0, ip
 803132c:	f8cd c014 	str.w	ip, [sp, #20]
 8031330:	f7fe f9b6 	bl	802f6a0 <pbuf_clen>
 8031334:	4458      	add	r0, fp
 8031336:	fa1f fb80 	uxth.w	fp, r0

    /* Now that there are more segments queued, we check again if the
     * length of the queue exceeds the configured maximum or
     * overflows. */
    if ((queuelen > TCP_SND_QUEUELEN) || (queuelen > TCP_SNDQUEUELEN_OVERFLOW)) {
 803133a:	f1bb 0f48 	cmp.w	fp, #72	; 0x48
 803133e:	f8dd c014 	ldr.w	ip, [sp, #20]
 8031342:	d903      	bls.n	803134c <tcp_write+0x202>
      LWIP_DEBUGF(TCP_OUTPUT_DEBUG | 2, ("tcp_write: queue too long %"U16_F" (%"U16_F")\n", queuelen, TCP_SND_QUEUELEN));
      pbuf_free(p);
 8031344:	4660      	mov	r0, ip
 8031346:	f7fe f8d7 	bl	802f4f8 <pbuf_free>
      goto memerr;
 803134a:	e067      	b.n	803141c <tcp_write+0x2d2>
    }

    if ((seg = tcp_create_segment(pcb, p, 0, pcb->snd_lbb + pos, optflags)) == NULL) {
 803134c:	6de3      	ldr	r3, [r4, #92]	; 0x5c
 803134e:	2200      	movs	r2, #0
 8031350:	18eb      	adds	r3, r5, r3
 8031352:	9200      	str	r2, [sp, #0]
 8031354:	4620      	mov	r0, r4
 8031356:	4661      	mov	r1, ip
 8031358:	f7ff fe78 	bl	803104c <tcp_create_segment>
 803135c:	4603      	mov	r3, r0
 803135e:	2800      	cmp	r0, #0
 8031360:	d05c      	beq.n	803141c <tcp_write+0x2d2>
    seg->chksum_swapped = chksum_swapped;
    seg->flags |= TF_SEG_DATA_CHECKSUMMED;
#endif /* TCP_CHECKSUM_ON_COPY */

    /* first segment of to-be-queued data? */
    if (queue == NULL) {
 8031362:	f1b8 0f00 	cmp.w	r8, #0
 8031366:	d002      	beq.n	803136e <tcp_write+0x224>
      queue = seg;
    } else {
      /* Attach the segment to the end of the queued segments */
      LWIP_ASSERT("prev_seg != NULL", prev_seg != NULL);
      prev_seg->next = seg;
 8031368:	990b      	ldr	r1, [sp, #44]	; 0x2c
 803136a:	6008      	str	r0, [r1, #0]
 803136c:	e000      	b.n	8031370 <tcp_write+0x226>
    seg->chksum_swapped = chksum_swapped;
    seg->flags |= TF_SEG_DATA_CHECKSUMMED;
#endif /* TCP_CHECKSUM_ON_COPY */

    /* first segment of to-be-queued data? */
    if (queue == NULL) {
 803136e:	4680      	mov	r8, r0

    LWIP_DEBUGF(TCP_OUTPUT_DEBUG | LWIP_DBG_TRACE, ("tcp_write: queueing %"U32_F":%"U32_F"\n",
      ntohl(seg->tcphdr->seqno),
      ntohl(seg->tcphdr->seqno) + TCP_TCPLEN(seg)));

    pos += seglen;
 8031370:	9a09      	ldr	r2, [sp, #36]	; 0x24
 8031372:	930b      	str	r3, [sp, #44]	; 0x2c
 8031374:	1955      	adds	r5, r2, r5
 8031376:	b2ad      	uxth	r5, r5
   * Phase 3: Create new segments.
   *
   * The new segments are chained together in the local 'queue'
   * variable, ready to be appended to pcb->unsent.
   */
  while (pos < len) {
 8031378:	454d      	cmp	r5, r9
 803137a:	d394      	bcc.n	80312a6 <tcp_write+0x15c>
  /*
   * Phase 1: If data has been added to the preallocated tail of
   * last_unsent, we update the length fields of the pbuf chain.
   */
#if TCP_OVERSIZE
  if (oversize_used > 0) {
 803137c:	f1ba 0f00 	cmp.w	sl, #0
 8031380:	d019      	beq.n	80313b6 <tcp_write+0x26c>
    struct pbuf *p;
    /* Bump tot_len of whole chain, len of tail */
    for (p = last_unsent->p; p; p = p->next) {
 8031382:	6875      	ldr	r5, [r6, #4]
 8031384:	e011      	b.n	80313aa <tcp_write+0x260>
      p->tot_len += oversize_used;
 8031386:	892a      	ldrh	r2, [r5, #8]
 8031388:	4452      	add	r2, sl
 803138a:	812a      	strh	r2, [r5, #8]
      if (p->next == NULL) {
 803138c:	682a      	ldr	r2, [r5, #0]
 803138e:	b95a      	cbnz	r2, 80313a8 <tcp_write+0x25e>
        TCP_DATA_COPY((char *)p->payload + p->len, arg, oversize_used, last_unsent);
 8031390:	686a      	ldr	r2, [r5, #4]
 8031392:	8968      	ldrh	r0, [r5, #10]
 8031394:	9906      	ldr	r1, [sp, #24]
 8031396:	9305      	str	r3, [sp, #20]
 8031398:	1810      	adds	r0, r2, r0
 803139a:	4652      	mov	r2, sl
 803139c:	f7f0 fc46 	bl	8021c2c <memcpy>
        p->len += oversize_used;
 80313a0:	896a      	ldrh	r2, [r5, #10]
 80313a2:	9b05      	ldr	r3, [sp, #20]
 80313a4:	4452      	add	r2, sl
 80313a6:	816a      	strh	r2, [r5, #10]
   */
#if TCP_OVERSIZE
  if (oversize_used > 0) {
    struct pbuf *p;
    /* Bump tot_len of whole chain, len of tail */
    for (p = last_unsent->p; p; p = p->next) {
 80313a8:	682d      	ldr	r5, [r5, #0]
 80313aa:	2d00      	cmp	r5, #0
 80313ac:	d1eb      	bne.n	8031386 <tcp_write+0x23c>
      if (p->next == NULL) {
        TCP_DATA_COPY((char *)p->payload + p->len, arg, oversize_used, last_unsent);
        p->len += oversize_used;
      }
    }
    last_unsent->len += oversize_used;
 80313ae:	8932      	ldrh	r2, [r6, #8]
 80313b0:	4492      	add	sl, r2
 80313b2:	f8a6 a008 	strh.w	sl, [r6, #8]
    LWIP_ASSERT("last_unsent->oversize_left >= oversize_used",
                last_unsent->oversize_left >= oversize_used);
    last_unsent->oversize_left -= oversize_used;
#endif /* TCP_OVERSIZE_DBGCHECK */
  }
  pcb->unsent_oversize = oversize;
 80313b6:	f8bd 2036 	ldrh.w	r2, [sp, #54]	; 0x36
 80313ba:	f8a4 206a 	strh.w	r2, [r4, #106]	; 0x6a
#endif /* TCP_OVERSIZE */

  /*
   * Phase 2: concat_p can be concatenated onto last_unsent->p
   */
  if (concat_p != NULL) {
 80313be:	b157      	cbz	r7, 80313d6 <tcp_write+0x28c>
    LWIP_ASSERT("tcp_write: cannot concatenate when pcb->unsent is empty",
      (last_unsent != NULL));
    pbuf_cat(last_unsent->p, concat_p);
 80313c0:	6870      	ldr	r0, [r6, #4]
 80313c2:	9305      	str	r3, [sp, #20]
 80313c4:	4639      	mov	r1, r7
 80313c6:	f7fe f981 	bl	802f6cc <pbuf_cat>
    last_unsent->len += concat_p->tot_len;
 80313ca:	8939      	ldrh	r1, [r7, #8]
 80313cc:	8932      	ldrh	r2, [r6, #8]
 80313ce:	9b05      	ldr	r3, [sp, #20]
 80313d0:	188a      	adds	r2, r1, r2
 80313d2:	8132      	strh	r2, [r6, #8]
 80313d4:	e003      	b.n	80313de <tcp_write+0x294>

  /*
   * Phase 3: Append queue to pcb->unsent. Queue may be NULL, but that
   * is harmless
   */
  if (last_unsent == NULL) {
 80313d6:	b916      	cbnz	r6, 80313de <tcp_write+0x294>
    pcb->unsent = queue;
 80313d8:	f8c4 806c 	str.w	r8, [r4, #108]	; 0x6c
 80313dc:	e001      	b.n	80313e2 <tcp_write+0x298>
  } else {
    last_unsent->next = queue;
 80313de:	f8c6 8000 	str.w	r8, [r6]
  }

  /*
   * Finally update the pcb state.
   */
  pcb->snd_lbb += len;
 80313e2:	6de2      	ldr	r2, [r4, #92]	; 0x5c
  pcb->snd_buf -= len;
  pcb->snd_queuelen = queuelen;
 80313e4:	f8a4 b068 	strh.w	fp, [r4, #104]	; 0x68
  }

  /*
   * Finally update the pcb state.
   */
  pcb->snd_lbb += len;
 80313e8:	444a      	add	r2, r9
 80313ea:	65e2      	str	r2, [r4, #92]	; 0x5c
  pcb->snd_buf -= len;
 80313ec:	f8b4 2066 	ldrh.w	r2, [r4, #102]	; 0x66
 80313f0:	ebc9 0902 	rsb	r9, r9, r2
 80313f4:	f8a4 9066 	strh.w	r9, [r4, #102]	; 0x66
    LWIP_ASSERT("tcp_write: valid queue length",
                pcb->unacked != NULL || pcb->unsent != NULL);
  }

  /* Set the PSH flag in the last segment that we enqueued. */
  if (seg != NULL && seg->tcphdr != NULL && ((apiflags & TCP_WRITE_FLAG_MORE)==0)) {
 80313f8:	b333      	cbz	r3, 8031448 <tcp_write+0x2fe>
 80313fa:	68dc      	ldr	r4, [r3, #12]
 80313fc:	b30c      	cbz	r4, 8031442 <tcp_write+0x2f8>
 80313fe:	9b07      	ldr	r3, [sp, #28]
 8031400:	f003 0502 	and.w	r5, r3, #2
 8031404:	b2ed      	uxtb	r5, r5
 8031406:	b9e5      	cbnz	r5, 8031442 <tcp_write+0x2f8>
    TCPH_SET_FLAG(seg->tcphdr, TCP_PSH);
 8031408:	2008      	movs	r0, #8
 803140a:	89a6      	ldrh	r6, [r4, #12]
 803140c:	f7fc ff36 	bl	802e27c <lwip_htons>
 8031410:	4330      	orrs	r0, r6
 8031412:	81a0      	strh	r0, [r4, #12]
 8031414:	e015      	b.n	8031442 <tcp_write+0x2f8>
 */
err_t
tcp_write(struct tcp_pcb *pcb, const void *arg, u16_t len, u8_t apiflags)
{
  struct pbuf *concat_p = NULL;
  struct tcp_seg *last_unsent = NULL, *seg = NULL, *prev_seg = NULL, *queue = NULL;
 8031416:	f04f 0800 	mov.w	r8, #0
 803141a:	4647      	mov	r7, r8
    TCPH_SET_FLAG(seg->tcphdr, TCP_PSH);
  }

  return ERR_OK;
memerr:
  pcb->flags |= TF_NAGLEMEMERR;
 803141c:	7fa3      	ldrb	r3, [r4, #30]
 803141e:	f063 037f 	orn	r3, r3, #127	; 0x7f
 8031422:	77a3      	strb	r3, [r4, #30]
  TCP_STATS_INC(tcp.memerr);

  if (concat_p != NULL) {
 8031424:	b117      	cbz	r7, 803142c <tcp_write+0x2e2>
    pbuf_free(concat_p);
 8031426:	4638      	mov	r0, r7
 8031428:	f7fe f866 	bl	802f4f8 <pbuf_free>
  }
  if (queue != NULL) {
 803142c:	f1b8 0f00 	cmp.w	r8, #0
 8031430:	d009      	beq.n	8031446 <tcp_write+0x2fc>
    tcp_segs_free(queue);
 8031432:	4640      	mov	r0, r8
 8031434:	f7fe fb1b 	bl	802fa6e <tcp_segs_free>
 8031438:	e005      	b.n	8031446 <tcp_write+0x2fc>
  apiflags |= TCP_WRITE_FLAG_COPY;
#endif /* LWIP_NETIF_TX_SINGLE_PBUF */

  LWIP_DEBUGF(TCP_OUTPUT_DEBUG, ("tcp_write(pcb=%p, data=%p, len=%"U16_F", apiflags=%"U16_F")\n",
    (void *)pcb, arg, len, (u16_t)apiflags));
  LWIP_ERROR("tcp_write: arg == NULL (programmer violates API)", 
 803143a:	23f2      	movs	r3, #242	; 0xf2
 803143c:	e004      	b.n	8031448 <tcp_write+0x2fe>
  if ((pcb->state != ESTABLISHED) &&
      (pcb->state != CLOSE_WAIT) &&
      (pcb->state != SYN_SENT) &&
      (pcb->state != SYN_RCVD)) {
    LWIP_DEBUGF(TCP_OUTPUT_DEBUG | LWIP_DBG_STATE | LWIP_DBG_LEVEL_SEVERE, ("tcp_write() called in invalid state\n"));
    return ERR_CONN;
 803143e:	23f3      	movs	r3, #243	; 0xf3
 8031440:	e002      	b.n	8031448 <tcp_write+0x2fe>
  /* Set the PSH flag in the last segment that we enqueued. */
  if (seg != NULL && seg->tcphdr != NULL && ((apiflags & TCP_WRITE_FLAG_MORE)==0)) {
    TCPH_SET_FLAG(seg->tcphdr, TCP_PSH);
  }

  return ERR_OK;
 8031442:	2300      	movs	r3, #0
 8031444:	e000      	b.n	8031448 <tcp_write+0x2fe>
  if (pcb->snd_queuelen != 0) {
    LWIP_ASSERT("tcp_write: valid queue length", pcb->unacked != NULL ||
      pcb->unsent != NULL);
  }
  LWIP_DEBUGF(TCP_QLEN_DEBUG | LWIP_DBG_STATE, ("tcp_write: %"S16_F" (with mem err)\n", pcb->snd_queuelen));
  return ERR_MEM;
 8031446:	23ff      	movs	r3, #255	; 0xff
 8031448:	b258      	sxtb	r0, r3
}
 803144a:	b00f      	add	sp, #60	; 0x3c
 803144c:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}

08031450 <tcp_enqueue_flags>:

  LWIP_ASSERT("tcp_enqueue_flags: need either TCP_SYN or TCP_FIN in flags (programmer violates API)",
              (flags & (TCP_SYN | TCP_FIN)) != 0);

  /* check for configured max queuelen and possible overflow */
  if ((pcb->snd_queuelen >= TCP_SND_QUEUELEN) || (pcb->snd_queuelen > TCP_SNDQUEUELEN_OVERFLOW)) {
 8031450:	f8b0 3068 	ldrh.w	r3, [r0, #104]	; 0x68
 8031454:	2b47      	cmp	r3, #71	; 0x47
 * @param optdata pointer to TCP options, or NULL.
 * @param optlen length of TCP options in bytes.
 */
err_t
tcp_enqueue_flags(struct tcp_pcb *pcb, u8_t flags)
{
 8031456:	b573      	push	{r0, r1, r4, r5, r6, lr}
 8031458:	4604      	mov	r4, r0
 803145a:	460d      	mov	r5, r1

  LWIP_ASSERT("tcp_enqueue_flags: need either TCP_SYN or TCP_FIN in flags (programmer violates API)",
              (flags & (TCP_SYN | TCP_FIN)) != 0);

  /* check for configured max queuelen and possible overflow */
  if ((pcb->snd_queuelen >= TCP_SND_QUEUELEN) || (pcb->snd_queuelen > TCP_SNDQUEUELEN_OVERFLOW)) {
 803145c:	d900      	bls.n	8031460 <tcp_enqueue_flags+0x10>
 803145e:	e014      	b.n	803148a <tcp_enqueue_flags+0x3a>

  /* tcp_enqueue_flags is always called with either SYN or FIN in flags.
   * We need one available snd_buf byte to do that.
   * This means we can't send FIN while snd_buf==0. A better fix would be to
   * not include SYN and FIN sequence numbers in the snd_buf count. */
  if (pcb->snd_buf == 0) {
 8031460:	f8b0 3066 	ldrh.w	r3, [r0, #102]	; 0x66
err_t
tcp_enqueue_flags(struct tcp_pcb *pcb, u8_t flags)
{
  struct pbuf *p;
  struct tcp_seg *seg;
  u8_t optflags = 0;
 8031464:	f3c1 0640 	ubfx	r6, r1, #1, #1
#if LWIP_TCP_TIMESTAMPS
  if ((pcb->flags & TF_TIMESTAMP)) {
    optflags |= TF_SEG_OPTS_TS;
  }
#endif /* LWIP_TCP_TIMESTAMPS */
  optlen = LWIP_TCP_OPT_LENGTH(optflags);
 8031468:	00b1      	lsls	r1, r6, #2

  /* tcp_enqueue_flags is always called with either SYN or FIN in flags.
   * We need one available snd_buf byte to do that.
   * This means we can't send FIN while snd_buf==0. A better fix would be to
   * not include SYN and FIN sequence numbers in the snd_buf count. */
  if (pcb->snd_buf == 0) {
 803146a:	2b00      	cmp	r3, #0
 803146c:	d038      	beq.n	80314e0 <tcp_enqueue_flags+0x90>
    TCP_STATS_INC(tcp.memerr);
    return ERR_MEM;
  }

  /* Allocate pbuf with room for TCP header + options */
  if ((p = pbuf_alloc(PBUF_TRANSPORT, optlen, PBUF_RAM)) == NULL) {
 803146e:	2000      	movs	r0, #0
 8031470:	4602      	mov	r2, r0
 8031472:	f7fe f88e 	bl	802f592 <pbuf_alloc>
 8031476:	4601      	mov	r1, r0
 8031478:	b900      	cbnz	r0, 803147c <tcp_enqueue_flags+0x2c>
 803147a:	e006      	b.n	803148a <tcp_enqueue_flags+0x3a>
  }
  LWIP_ASSERT("tcp_enqueue_flags: check that first pbuf can hold optlen",
              (p->len >= optlen));

  /* Allocate memory for tcp_seg, and fill in fields. */
  if ((seg = tcp_create_segment(pcb, p, flags, pcb->snd_lbb, optflags)) == NULL) {
 803147c:	9600      	str	r6, [sp, #0]
 803147e:	4620      	mov	r0, r4
 8031480:	462a      	mov	r2, r5
 8031482:	6de3      	ldr	r3, [r4, #92]	; 0x5c
 8031484:	f7ff fde2 	bl	803104c <tcp_create_segment>
 8031488:	b920      	cbnz	r0, 8031494 <tcp_enqueue_flags+0x44>
    pcb->flags |= TF_NAGLEMEMERR;
 803148a:	7fa3      	ldrb	r3, [r4, #30]
 803148c:	f063 037f 	orn	r3, r3, #127	; 0x7f
 8031490:	77a3      	strb	r3, [r4, #30]
 8031492:	e025      	b.n	80314e0 <tcp_enqueue_flags+0x90>
               ntohl(seg->tcphdr->seqno),
               ntohl(seg->tcphdr->seqno) + TCP_TCPLEN(seg),
               (u16_t)flags));

  /* Now append seg to pcb->unsent queue */
  if (pcb->unsent == NULL) {
 8031494:	6ee3      	ldr	r3, [r4, #108]	; 0x6c
 8031496:	b913      	cbnz	r3, 803149e <tcp_enqueue_flags+0x4e>
    pcb->unsent = seg;
 8031498:	66e0      	str	r0, [r4, #108]	; 0x6c
 803149a:	e004      	b.n	80314a6 <tcp_enqueue_flags+0x56>
  } else {
    struct tcp_seg *useg;
    for (useg = pcb->unsent; useg->next != NULL; useg = useg->next);
 803149c:	4613      	mov	r3, r2
 803149e:	681a      	ldr	r2, [r3, #0]
 80314a0:	2a00      	cmp	r2, #0
 80314a2:	d1fb      	bne.n	803149c <tcp_enqueue_flags+0x4c>
    useg->next = seg;
 80314a4:	6018      	str	r0, [r3, #0]
  }
#if TCP_OVERSIZE
  /* The new unsent tail has no space */
  pcb->unsent_oversize = 0;
 80314a6:	2300      	movs	r3, #0
#endif /* TCP_OVERSIZE */

  /* SYN and FIN bump the sequence number */
  if ((flags & TCP_SYN) || (flags & TCP_FIN)) {
 80314a8:	07a9      	lsls	r1, r5, #30
    for (useg = pcb->unsent; useg->next != NULL; useg = useg->next);
    useg->next = seg;
  }
#if TCP_OVERSIZE
  /* The new unsent tail has no space */
  pcb->unsent_oversize = 0;
 80314aa:	f8a4 306a 	strh.w	r3, [r4, #106]	; 0x6a
#endif /* TCP_OVERSIZE */

  /* SYN and FIN bump the sequence number */
  if ((flags & TCP_SYN) || (flags & TCP_FIN)) {
 80314ae:	d007      	beq.n	80314c0 <tcp_enqueue_flags+0x70>
    pcb->snd_lbb++;
 80314b0:	6de3      	ldr	r3, [r4, #92]	; 0x5c
 80314b2:	3301      	adds	r3, #1
 80314b4:	65e3      	str	r3, [r4, #92]	; 0x5c
    /* optlen does not influence snd_buf */
    pcb->snd_buf--;
 80314b6:	f8b4 3066 	ldrh.w	r3, [r4, #102]	; 0x66
 80314ba:	3b01      	subs	r3, #1
 80314bc:	f8a4 3066 	strh.w	r3, [r4, #102]	; 0x66
  }
  if (flags & TCP_FIN) {
 80314c0:	07ea      	lsls	r2, r5, #31
 80314c2:	d503      	bpl.n	80314cc <tcp_enqueue_flags+0x7c>
    pcb->flags |= TF_FIN;
 80314c4:	7fa3      	ldrb	r3, [r4, #30]
 80314c6:	f043 0320 	orr.w	r3, r3, #32
 80314ca:	77a3      	strb	r3, [r4, #30]
  }

  /* update number of segments on the queues */
  pcb->snd_queuelen += pbuf_clen(seg->p);
 80314cc:	6840      	ldr	r0, [r0, #4]
 80314ce:	f8b4 5068 	ldrh.w	r5, [r4, #104]	; 0x68
 80314d2:	f7fe f8e5 	bl	802f6a0 <pbuf_clen>
 80314d6:	1940      	adds	r0, r0, r5
 80314d8:	f8a4 0068 	strh.w	r0, [r4, #104]	; 0x68
  if (pcb->snd_queuelen != 0) {
    LWIP_ASSERT("tcp_enqueue_flags: invalid queue length",
      pcb->unacked != NULL || pcb->unsent != NULL);
  }

  return ERR_OK;
 80314dc:	2000      	movs	r0, #0
 80314de:	e000      	b.n	80314e2 <tcp_enqueue_flags+0x92>
   * This means we can't send FIN while snd_buf==0. A better fix would be to
   * not include SYN and FIN sequence numbers in the snd_buf count. */
  if (pcb->snd_buf == 0) {
    LWIP_DEBUGF(TCP_OUTPUT_DEBUG | 3, ("tcp_enqueue_flags: no send buffer available\n"));
    TCP_STATS_INC(tcp.memerr);
    return ERR_MEM;
 80314e0:	20ff      	movs	r0, #255	; 0xff
    LWIP_ASSERT("tcp_enqueue_flags: invalid queue length",
      pcb->unacked != NULL || pcb->unsent != NULL);
  }

  return ERR_OK;
}
 80314e2:	b240      	sxtb	r0, r0
 80314e4:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}

080314e6 <tcp_send_fin>:
 * @param pcb the tcp_pcb over which to send a segment
 * @return ERR_OK if sent, another err_t otherwise
 */
err_t
tcp_send_fin(struct tcp_pcb *pcb)
{
 80314e6:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  /* first, try to add the fin to the last unsent segment */
  if (pcb->unsent != NULL) {
 80314e8:	6ec4      	ldr	r4, [r0, #108]	; 0x6c
 * @param pcb the tcp_pcb over which to send a segment
 * @return ERR_OK if sent, another err_t otherwise
 */
err_t
tcp_send_fin(struct tcp_pcb *pcb)
{
 80314ea:	4605      	mov	r5, r0
  /* first, try to add the fin to the last unsent segment */
  if (pcb->unsent != NULL) {
 80314ec:	b90c      	cbnz	r4, 80314f2 <tcp_send_fin+0xc>
 80314ee:	e00a      	b.n	8031506 <tcp_send_fin+0x20>
    struct tcp_seg *last_unsent;
    for (last_unsent = pcb->unsent; last_unsent->next != NULL;
         last_unsent = last_unsent->next);
 80314f0:	461c      	mov	r4, r3
tcp_send_fin(struct tcp_pcb *pcb)
{
  /* first, try to add the fin to the last unsent segment */
  if (pcb->unsent != NULL) {
    struct tcp_seg *last_unsent;
    for (last_unsent = pcb->unsent; last_unsent->next != NULL;
 80314f2:	6823      	ldr	r3, [r4, #0]
 80314f4:	2b00      	cmp	r3, #0
 80314f6:	d1fb      	bne.n	80314f0 <tcp_send_fin+0xa>
         last_unsent = last_unsent->next);

    if ((TCPH_FLAGS(last_unsent->tcphdr) & (TCP_SYN | TCP_FIN | TCP_RST)) == 0) {
 80314f8:	68e3      	ldr	r3, [r4, #12]
 80314fa:	8998      	ldrh	r0, [r3, #12]
 80314fc:	f7fc fec3 	bl	802e286 <lwip_ntohs>
 8031500:	f010 0607 	ands.w	r6, r0, #7
 8031504:	d005      	beq.n	8031512 <tcp_send_fin+0x2c>
      pcb->flags |= TF_FIN;
      return ERR_OK;
    }
  }
  /* no data, no length, flags, copy=1, no optdata */
  return tcp_enqueue_flags(pcb, TCP_FIN);
 8031506:	4628      	mov	r0, r5
 8031508:	2101      	movs	r1, #1
}
 803150a:	e8bd 40f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, lr}
      pcb->flags |= TF_FIN;
      return ERR_OK;
    }
  }
  /* no data, no length, flags, copy=1, no optdata */
  return tcp_enqueue_flags(pcb, TCP_FIN);
 803150e:	f7ff bf9f 	b.w	8031450 <tcp_enqueue_flags>
    for (last_unsent = pcb->unsent; last_unsent->next != NULL;
         last_unsent = last_unsent->next);

    if ((TCPH_FLAGS(last_unsent->tcphdr) & (TCP_SYN | TCP_FIN | TCP_RST)) == 0) {
      /* no SYN/FIN/RST flag in the header, we can add the FIN flag */
      TCPH_SET_FLAG(last_unsent->tcphdr, TCP_FIN);
 8031512:	68e4      	ldr	r4, [r4, #12]
 8031514:	2001      	movs	r0, #1
 8031516:	89a7      	ldrh	r7, [r4, #12]
 8031518:	f7fc feb0 	bl	802e27c <lwip_htons>
 803151c:	4338      	orrs	r0, r7
 803151e:	81a0      	strh	r0, [r4, #12]
      pcb->flags |= TF_FIN;
 8031520:	7fab      	ldrb	r3, [r5, #30]
 8031522:	f043 0320 	orr.w	r3, r3, #32
 8031526:	77ab      	strb	r3, [r5, #30]
      return ERR_OK;
    }
  }
  /* no data, no length, flags, copy=1, no optdata */
  return tcp_enqueue_flags(pcb, TCP_FIN);
}
 8031528:	4630      	mov	r0, r6
 803152a:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}

0803152c <tcp_send_empty_ack>:
 *
 * @param pcb Protocol control block for the TCP connection to send the ACK
 */
err_t
tcp_send_empty_ack(struct tcp_pcb *pcb)
{
 803152c:	b537      	push	{r0, r1, r2, r4, r5, lr}
 803152e:	4604      	mov	r4, r0
  if (pcb->flags & TF_TIMESTAMP) {
    optlen = LWIP_TCP_OPT_LENGTH(TF_SEG_OPTS_TS);
  }
#endif

  p = tcp_output_alloc_header(pcb, optlen, 0, htonl(pcb->snd_nxt));
 8031530:	6d00      	ldr	r0, [r0, #80]	; 0x50
 8031532:	f7fc fead 	bl	802e290 <lwip_htonl>
 8031536:	2100      	movs	r1, #0
 8031538:	4602      	mov	r2, r0
 803153a:	4620      	mov	r0, r4
 803153c:	f7ff fdd8 	bl	80310f0 <tcp_output_alloc_header.constprop.0>
  if (p == NULL) {
 8031540:	4605      	mov	r5, r0
 8031542:	b188      	cbz	r0, 8031568 <tcp_send_empty_ack+0x3c>
  }
  tcphdr = (struct tcp_hdr *)p->payload;
  LWIP_DEBUGF(TCP_OUTPUT_DEBUG, 
              ("tcp_output: sending ACK for %"U32_F"\n", pcb->rcv_nxt));
  /* remove ACK flags from the PCB, as we send an empty ACK now */
  pcb->flags &= ~(TF_ACK_DELAY | TF_ACK_NOW);
 8031544:	7fa3      	ldrb	r3, [r4, #30]
#endif
#if LWIP_NETIF_HWADDRHINT
  ip_output_hinted(p, &(pcb->local_ip), &(pcb->remote_ip), pcb->ttl, pcb->tos,
      IP_PROTO_TCP, &(pcb->addr_hint));
#else /* LWIP_NETIF_HWADDRHINT*/
  ip_output(p, &(pcb->local_ip), &(pcb->remote_ip), pcb->ttl, pcb->tos,
 8031546:	7a62      	ldrb	r2, [r4, #9]
  }
  tcphdr = (struct tcp_hdr *)p->payload;
  LWIP_DEBUGF(TCP_OUTPUT_DEBUG, 
              ("tcp_output: sending ACK for %"U32_F"\n", pcb->rcv_nxt));
  /* remove ACK flags from the PCB, as we send an empty ACK now */
  pcb->flags &= ~(TF_ACK_DELAY | TF_ACK_NOW);
 8031548:	f023 0303 	bic.w	r3, r3, #3
#endif
#if LWIP_NETIF_HWADDRHINT
  ip_output_hinted(p, &(pcb->local_ip), &(pcb->remote_ip), pcb->ttl, pcb->tos,
      IP_PROTO_TCP, &(pcb->addr_hint));
#else /* LWIP_NETIF_HWADDRHINT*/
  ip_output(p, &(pcb->local_ip), &(pcb->remote_ip), pcb->ttl, pcb->tos,
 803154c:	9200      	str	r2, [sp, #0]
 803154e:	2206      	movs	r2, #6
  }
  tcphdr = (struct tcp_hdr *)p->payload;
  LWIP_DEBUGF(TCP_OUTPUT_DEBUG, 
              ("tcp_output: sending ACK for %"U32_F"\n", pcb->rcv_nxt));
  /* remove ACK flags from the PCB, as we send an empty ACK now */
  pcb->flags &= ~(TF_ACK_DELAY | TF_ACK_NOW);
 8031550:	77a3      	strb	r3, [r4, #30]
#endif
#if LWIP_NETIF_HWADDRHINT
  ip_output_hinted(p, &(pcb->local_ip), &(pcb->remote_ip), pcb->ttl, pcb->tos,
      IP_PROTO_TCP, &(pcb->addr_hint));
#else /* LWIP_NETIF_HWADDRHINT*/
  ip_output(p, &(pcb->local_ip), &(pcb->remote_ip), pcb->ttl, pcb->tos,
 8031552:	9201      	str	r2, [sp, #4]
 8031554:	7aa3      	ldrb	r3, [r4, #10]
 8031556:	4621      	mov	r1, r4
 8031558:	1d22      	adds	r2, r4, #4
 803155a:	f001 f8ab 	bl	80326b4 <ip_output>
      IP_PROTO_TCP);
#endif /* LWIP_NETIF_HWADDRHINT*/
  pbuf_free(p);
 803155e:	4628      	mov	r0, r5
 8031560:	f7fd ffca 	bl	802f4f8 <pbuf_free>

  return ERR_OK;
 8031564:	2000      	movs	r0, #0
 8031566:	e000      	b.n	803156a <tcp_send_empty_ack+0x3e>
#endif

  p = tcp_output_alloc_header(pcb, optlen, 0, htonl(pcb->snd_nxt));
  if (p == NULL) {
    LWIP_DEBUGF(TCP_OUTPUT_DEBUG, ("tcp_output: (ACK) could not allocate pbuf\n"));
    return ERR_BUF;
 8031568:	20fe      	movs	r0, #254	; 0xfe
      IP_PROTO_TCP);
#endif /* LWIP_NETIF_HWADDRHINT*/
  pbuf_free(p);

  return ERR_OK;
}
 803156a:	b240      	sxtb	r0, r0
 803156c:	bd3e      	pop	{r1, r2, r3, r4, r5, pc}
 803156e:	0000      	movs	r0, r0

08031570 <tcp_output>:

  /* First, check if we are invoked by the TCP input processing
     code. If so, we do not output anything. Instead, we rely on the
     input processing code to call us when input processing is done
     with. */
  if (tcp_input_pcb == pcb) {
 8031570:	4b8f      	ldr	r3, [pc, #572]	; (80317b0 <tcp_output+0x240>)
 8031572:	681b      	ldr	r3, [r3, #0]
 8031574:	4283      	cmp	r3, r0
 * @return ERR_OK if data has been sent or nothing to send
 *         another err_t on error
 */
err_t
tcp_output(struct tcp_pcb *pcb)
{
 8031576:	e92d 4ff7 	stmdb	sp!, {r0, r1, r2, r4, r5, r6, r7, r8, r9, sl, fp, lr}
 803157a:	4604      	mov	r4, r0

  /* First, check if we are invoked by the TCP input processing
     code. If so, we do not output anything. Instead, we rely on the
     input processing code to call us when input processing is done
     with. */
  if (tcp_input_pcb == pcb) {
 803157c:	f000 8113 	beq.w	80317a6 <tcp_output+0x236>
    return ERR_OK;
  }

  wnd = LWIP_MIN(pcb->snd_wnd, pcb->cwnd);
 8031580:	f8b0 304c 	ldrh.w	r3, [r0, #76]	; 0x4c
 8031584:	f8b0 9060 	ldrh.w	r9, [r0, #96]	; 0x60

  seg = pcb->unsent;
 8031588:	6ec5      	ldr	r5, [r0, #108]	; 0x6c
     with. */
  if (tcp_input_pcb == pcb) {
    return ERR_OK;
  }

  wnd = LWIP_MIN(pcb->snd_wnd, pcb->cwnd);
 803158a:	4599      	cmp	r9, r3
 803158c:	bf28      	it	cs
 803158e:	4699      	movcs	r9, r3
   * because the ->unsent queue is empty or because the window does
   * not allow it), construct an empty ACK segment and send it.
   *
   * If data is to be sent, we will just piggyback the ACK (see below).
   */
  if (pcb->flags & TF_ACK_NOW &&
 8031590:	7f83      	ldrb	r3, [r0, #30]
 8031592:	f003 0302 	and.w	r3, r3, #2
 8031596:	b2db      	uxtb	r3, r3
 8031598:	b183      	cbz	r3, 80315bc <tcp_output+0x4c>
 803159a:	b92d      	cbnz	r5, 80315a8 <tcp_output+0x38>
     (seg == NULL ||
      ntohl(seg->tcphdr->seqno) - pcb->lastack + seg->len > wnd)) {
     return tcp_send_empty_ack(pcb);
 803159c:	4620      	mov	r0, r4
  }
#endif /* TCP_OVERSIZE */

  pcb->flags &= ~TF_NAGLEMEMERR;
  return ERR_OK;
}
 803159e:	b003      	add	sp, #12
 80315a0:	e8bd 4ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
   * If data is to be sent, we will just piggyback the ACK (see below).
   */
  if (pcb->flags & TF_ACK_NOW &&
     (seg == NULL ||
      ntohl(seg->tcphdr->seqno) - pcb->lastack + seg->len > wnd)) {
     return tcp_send_empty_ack(pcb);
 80315a4:	f7ff bfc2 	b.w	803152c <tcp_send_empty_ack>
   *
   * If data is to be sent, we will just piggyback the ACK (see below).
   */
  if (pcb->flags & TF_ACK_NOW &&
     (seg == NULL ||
      ntohl(seg->tcphdr->seqno) - pcb->lastack + seg->len > wnd)) {
 80315a8:	68eb      	ldr	r3, [r5, #12]
 80315aa:	6858      	ldr	r0, [r3, #4]
 80315ac:	f7fc fe72 	bl	802e294 <lwip_ntohl>
 80315b0:	892a      	ldrh	r2, [r5, #8]
 80315b2:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 80315b4:	1ad3      	subs	r3, r2, r3
 80315b6:	1818      	adds	r0, r3, r0
   * not allow it), construct an empty ACK segment and send it.
   *
   * If data is to be sent, we will just piggyback the ACK (see below).
   */
  if (pcb->flags & TF_ACK_NOW &&
     (seg == NULL ||
 80315b8:	4548      	cmp	r0, r9
 80315ba:	d8ef      	bhi.n	803159c <tcp_output+0x2c>
      ntohl(seg->tcphdr->seqno) - pcb->lastack + seg->len > wnd)) {
     return tcp_send_empty_ack(pcb);
  }

  /* useg should point to last segment on unacked queue */
  useg = pcb->unacked;
 80315bc:	6f26      	ldr	r6, [r4, #112]	; 0x70
  if (useg != NULL) {
 80315be:	b90e      	cbnz	r6, 80315c4 <tcp_output+0x54>
 80315c0:	e0d1      	b.n	8031766 <tcp_output+0x1f6>
    for (; useg->next != NULL; useg = useg->next);
 80315c2:	461e      	mov	r6, r3
 80315c4:	6833      	ldr	r3, [r6, #0]
 80315c6:	2b00      	cmp	r3, #0
 80315c8:	d1fb      	bne.n	80315c2 <tcp_output+0x52>
 80315ca:	e0cc      	b.n	8031766 <tcp_output+0x1f6>
  }
#endif /* TCP_CWND_DEBUG */
  /* data available and window allows it to be sent? */
  while (seg != NULL &&
         ntohl(seg->tcphdr->seqno) - pcb->lastack + seg->len <= wnd) {
    LWIP_ASSERT("RST not expected here!", 
 80315cc:	68eb      	ldr	r3, [r5, #12]
 80315ce:	8998      	ldrh	r0, [r3, #12]
 80315d0:	f7fc fe59 	bl	802e286 <lwip_ntohs>
     * - if tcp_write had a memory error before (prevent delayed ACK timeout) or
     * - if FIN was already enqueued for this PCB (SYN is always alone in a segment -
     *   either seg->next != NULL or pcb->unacked == NULL;
     *   RST is no sent using tcp_write/tcp_output.
     */
    if((tcp_do_output_nagle(pcb) == 0) &&
 80315d4:	6f23      	ldr	r3, [r4, #112]	; 0x70
 80315d6:	b19b      	cbz	r3, 8031600 <tcp_output+0x90>
 80315d8:	7fa2      	ldrb	r2, [r4, #30]
 80315da:	f012 0f44 	tst.w	r2, #68	; 0x44
 80315de:	d10f      	bne.n	8031600 <tcp_output+0x90>
 80315e0:	6ee3      	ldr	r3, [r4, #108]	; 0x6c
 80315e2:	b12b      	cbz	r3, 80315f0 <tcp_output+0x80>
 80315e4:	6819      	ldr	r1, [r3, #0]
 80315e6:	b959      	cbnz	r1, 8031600 <tcp_output+0x90>
 80315e8:	8919      	ldrh	r1, [r3, #8]
 80315ea:	8ee3      	ldrh	r3, [r4, #54]	; 0x36
 80315ec:	4299      	cmp	r1, r3
 80315ee:	d207      	bcs.n	8031600 <tcp_output+0x90>
 80315f0:	f8b4 3066 	ldrh.w	r3, [r4, #102]	; 0x66
 80315f4:	b123      	cbz	r3, 8031600 <tcp_output+0x90>
 80315f6:	f8b4 3068 	ldrh.w	r3, [r4, #104]	; 0x68
 80315fa:	2b47      	cmp	r3, #71	; 0x47
 80315fc:	f240 80ce 	bls.w	803179c <tcp_output+0x22c>
                            pcb->lastack,
                            ntohl(seg->tcphdr->seqno), pcb->lastack, i));
    ++i;
#endif /* TCP_CWND_DEBUG */

    pcb->unsent = seg->next;
 8031600:	682b      	ldr	r3, [r5, #0]
 8031602:	66e3      	str	r3, [r4, #108]	; 0x6c

    if (pcb->state != SYN_SENT) {
 8031604:	7e23      	ldrb	r3, [r4, #24]
 8031606:	2b02      	cmp	r3, #2
 8031608:	d00c      	beq.n	8031624 <tcp_output+0xb4>
      TCPH_SET_FLAG(seg->tcphdr, TCP_ACK);
 803160a:	68ef      	ldr	r7, [r5, #12]
 803160c:	2010      	movs	r0, #16
 803160e:	f8b7 b00c 	ldrh.w	fp, [r7, #12]
 8031612:	f7fc fe33 	bl	802e27c <lwip_htons>
 8031616:	ea40 000b 	orr.w	r0, r0, fp
 803161a:	81b8      	strh	r0, [r7, #12]
      pcb->flags &= ~(TF_ACK_DELAY | TF_ACK_NOW);
 803161c:	7fa3      	ldrb	r3, [r4, #30]
 803161e:	f023 0303 	bic.w	r3, r3, #3
 8031622:	77a3      	strb	r3, [r4, #30]
  u16_t len;
  struct netif *netif;
  u32_t *opts;

  /** @bug Exclude retransmitted segments from this count. */
  snmp_inc_tcpoutsegs();
 8031624:	f002 fd64 	bl	80340f0 <snmp_inc_tcpoutsegs>

  /* The TCP header has already been constructed, but the ackno and
   wnd fields remain. */
  seg->tcphdr->ackno = htonl(pcb->rcv_nxt);
 8031628:	6aa0      	ldr	r0, [r4, #40]	; 0x28
 803162a:	68ef      	ldr	r7, [r5, #12]
 803162c:	f7fc fe30 	bl	802e290 <lwip_htonl>
 8031630:	60b8      	str	r0, [r7, #8]

  /* advertise our receive window size in this TCP segment */
  seg->tcphdr->wnd = htons(pcb->rcv_ann_wnd);
 8031632:	8de0      	ldrh	r0, [r4, #46]	; 0x2e
 8031634:	68ef      	ldr	r7, [r5, #12]
 8031636:	f7fc fe21 	bl	802e27c <lwip_htons>
 803163a:	81f8      	strh	r0, [r7, #14]

  pcb->rcv_ann_right_edge = pcb->rcv_nxt + pcb->rcv_ann_wnd;
 803163c:	8de2      	ldrh	r2, [r4, #46]	; 0x2e
 803163e:	6aa3      	ldr	r3, [r4, #40]	; 0x28

  /* Add any requested options.  NB MSS option is only set on SYN
     packets, so ignore it here */
  opts = (u32_t *)(void *)(seg->tcphdr + 1);
 8031640:	68ef      	ldr	r7, [r5, #12]
  seg->tcphdr->ackno = htonl(pcb->rcv_nxt);

  /* advertise our receive window size in this TCP segment */
  seg->tcphdr->wnd = htons(pcb->rcv_ann_wnd);

  pcb->rcv_ann_right_edge = pcb->rcv_nxt + pcb->rcv_ann_wnd;
 8031642:	18d3      	adds	r3, r2, r3
 8031644:	6323      	str	r3, [r4, #48]	; 0x30

  /* Add any requested options.  NB MSS option is only set on SYN
     packets, so ignore it here */
  opts = (u32_t *)(void *)(seg->tcphdr + 1);
  if (seg->flags & TF_SEG_OPTS_MSS) {
 8031646:	7aab      	ldrb	r3, [r5, #10]
 8031648:	07d8      	lsls	r0, r3, #31
 803164a:	d509      	bpl.n	8031660 <tcp_output+0xf0>
    u16_t mss;
#if TCP_CALCULATE_EFF_SEND_MSS
    mss = tcp_eff_send_mss(TCP_MSS, &pcb->remote_ip);
 803164c:	4641      	mov	r1, r8
 803164e:	f240 50b4 	movw	r0, #1460	; 0x5b4
 8031652:	f7fe fde4 	bl	803021e <tcp_eff_send_mss>
#else /* TCP_CALCULATE_EFF_SEND_MSS */
    mss = TCP_MSS;
#endif /* TCP_CALCULATE_EFF_SEND_MSS */
    *opts = TCP_BUILD_MSS_OPTION(mss);
 8031656:	f040 7001 	orr.w	r0, r0, #33816576	; 0x2040000
 803165a:	f7fc fe19 	bl	802e290 <lwip_htonl>
 803165e:	6178      	str	r0, [r7, #20]
  }
#endif

  /* Set retransmission timer running if it is not currently enabled 
     This must be set before checking the route. */
  if (pcb->rtime == -1) {
 8031660:	f9b4 3034 	ldrsh.w	r3, [r4, #52]	; 0x34
 8031664:	3301      	adds	r3, #1
 8031666:	d101      	bne.n	803166c <tcp_output+0xfc>
    pcb->rtime = 0;
 8031668:	2300      	movs	r3, #0
 803166a:	86a3      	strh	r3, [r4, #52]	; 0x34
  }

  /* If we don't have a local IP address, we get one by
     calling ip_route(). */
  if (ip_addr_isany(&(pcb->local_ip))) {
 803166c:	6823      	ldr	r3, [r4, #0]
 803166e:	b92b      	cbnz	r3, 803167c <tcp_output+0x10c>
    netif = ip_route(&(pcb->remote_ip));
 8031670:	4640      	mov	r0, r8
 8031672:	f000 fecb 	bl	803240c <ip_route>
    if (netif == NULL) {
 8031676:	b310      	cbz	r0, 80316be <tcp_output+0x14e>
      return;
    }
    ip_addr_copy(pcb->local_ip, netif->ip_addr);
 8031678:	6843      	ldr	r3, [r0, #4]
 803167a:	6023      	str	r3, [r4, #0]
  }

  if (pcb->rttest == 0) {
 803167c:	6ba3      	ldr	r3, [r4, #56]	; 0x38
 803167e:	b93b      	cbnz	r3, 8031690 <tcp_output+0x120>
    pcb->rttest = tcp_ticks;
 8031680:	f8da 3000 	ldr.w	r3, [sl]
 8031684:	63a3      	str	r3, [r4, #56]	; 0x38
    pcb->rtseq = ntohl(seg->tcphdr->seqno);
 8031686:	68eb      	ldr	r3, [r5, #12]
 8031688:	6858      	ldr	r0, [r3, #4]
 803168a:	f7fc fe03 	bl	802e294 <lwip_ntohl>
 803168e:	63e0      	str	r0, [r4, #60]	; 0x3c
  }
  LWIP_DEBUGF(TCP_OUTPUT_DEBUG, ("tcp_output_segment: %"U32_F":%"U32_F"\n",
          htonl(seg->tcphdr->seqno), htonl(seg->tcphdr->seqno) +
          seg->len));

  len = (u16_t)((u8_t *)seg->tcphdr - (u8_t *)seg->p->payload);
 8031690:	6868      	ldr	r0, [r5, #4]
 8031692:	68eb      	ldr	r3, [r5, #12]
 8031694:	6842      	ldr	r2, [r0, #4]

  seg->p->len -= len;
 8031696:	8941      	ldrh	r1, [r0, #10]
  seg->p->tot_len -= len;

  seg->p->payload = seg->tcphdr;
 8031698:	6043      	str	r3, [r0, #4]
  }
  LWIP_DEBUGF(TCP_OUTPUT_DEBUG, ("tcp_output_segment: %"U32_F":%"U32_F"\n",
          htonl(seg->tcphdr->seqno), htonl(seg->tcphdr->seqno) +
          seg->len));

  len = (u16_t)((u8_t *)seg->tcphdr - (u8_t *)seg->p->payload);
 803169a:	1a9a      	subs	r2, r3, r2

  seg->p->len -= len;
 803169c:	1a89      	subs	r1, r1, r2
 803169e:	8141      	strh	r1, [r0, #10]
  seg->p->tot_len -= len;
 80316a0:	8901      	ldrh	r1, [r0, #8]
 80316a2:	1a8a      	subs	r2, r1, r2
 80316a4:	8102      	strh	r2, [r0, #8]

  seg->p->payload = seg->tcphdr;

  seg->tcphdr->chksum = 0;
 80316a6:	2200      	movs	r2, #0
 80316a8:	741a      	strb	r2, [r3, #16]
 80316aa:	745a      	strb	r2, [r3, #17]

#if LWIP_NETIF_HWADDRHINT
  ip_output_hinted(seg->p, &(pcb->local_ip), &(pcb->remote_ip), pcb->ttl, pcb->tos,
      IP_PROTO_TCP, &(pcb->addr_hint));
#else /* LWIP_NETIF_HWADDRHINT*/
  ip_output(seg->p, &(pcb->local_ip), &(pcb->remote_ip), pcb->ttl, pcb->tos,
 80316ac:	7a62      	ldrb	r2, [r4, #9]
 80316ae:	7aa3      	ldrb	r3, [r4, #10]
 80316b0:	9200      	str	r2, [sp, #0]
 80316b2:	2206      	movs	r2, #6
 80316b4:	9201      	str	r2, [sp, #4]
 80316b6:	4621      	mov	r1, r4
 80316b8:	4642      	mov	r2, r8
 80316ba:	f000 fffb 	bl	80326b4 <ip_output>
      TCPH_SET_FLAG(seg->tcphdr, TCP_ACK);
      pcb->flags &= ~(TF_ACK_DELAY | TF_ACK_NOW);
    }

    tcp_output_segment(seg, pcb);
    snd_nxt = ntohl(seg->tcphdr->seqno) + TCP_TCPLEN(seg);
 80316be:	68eb      	ldr	r3, [r5, #12]
 80316c0:	6858      	ldr	r0, [r3, #4]
 80316c2:	f7fc fde7 	bl	802e294 <lwip_ntohl>
 80316c6:	68ea      	ldr	r2, [r5, #12]
 80316c8:	f8b5 b008 	ldrh.w	fp, [r5, #8]
 80316cc:	4607      	mov	r7, r0
 80316ce:	8990      	ldrh	r0, [r2, #12]
 80316d0:	f7fc fdd9 	bl	802e286 <lwip_ntohs>
 80316d4:	f010 0003 	ands.w	r0, r0, #3
 80316d8:	bf18      	it	ne
 80316da:	2001      	movne	r0, #1
    if (TCP_SEQ_LT(pcb->snd_nxt, snd_nxt)) {
 80316dc:	6d22      	ldr	r2, [r4, #80]	; 0x50
      TCPH_SET_FLAG(seg->tcphdr, TCP_ACK);
      pcb->flags &= ~(TF_ACK_DELAY | TF_ACK_NOW);
    }

    tcp_output_segment(seg, pcb);
    snd_nxt = ntohl(seg->tcphdr->seqno) + TCP_TCPLEN(seg);
 80316de:	eb0b 0300 	add.w	r3, fp, r0
 80316e2:	19db      	adds	r3, r3, r7
    if (TCP_SEQ_LT(pcb->snd_nxt, snd_nxt)) {
 80316e4:	1ad2      	subs	r2, r2, r3
 80316e6:	2a00      	cmp	r2, #0
      pcb->snd_nxt = snd_nxt;
 80316e8:	bfb8      	it	lt
 80316ea:	6523      	strlt	r3, [r4, #80]	; 0x50
    }
    /* put segment on unacknowledged list if length > 0 */
    if (TCP_TCPLEN(seg) > 0) {
 80316ec:	68eb      	ldr	r3, [r5, #12]
 80316ee:	892f      	ldrh	r7, [r5, #8]
 80316f0:	8998      	ldrh	r0, [r3, #12]
 80316f2:	f7fc fdc8 	bl	802e286 <lwip_ntohs>
 80316f6:	f010 0003 	ands.w	r0, r0, #3
 80316fa:	bf18      	it	ne
 80316fc:	2001      	movne	r0, #1
 80316fe:	1838      	adds	r0, r7, r0
 8031700:	b360      	cbz	r0, 803175c <tcp_output+0x1ec>
      seg->next = NULL;
 8031702:	2300      	movs	r3, #0
 8031704:	602b      	str	r3, [r5, #0]
      /* unacked list is empty? */
      if (pcb->unacked == NULL) {
 8031706:	6f23      	ldr	r3, [r4, #112]	; 0x70
 8031708:	b90b      	cbnz	r3, 803170e <tcp_output+0x19e>
        pcb->unacked = seg;
 803170a:	6725      	str	r5, [r4, #112]	; 0x70
 803170c:	e024      	b.n	8031758 <tcp_output+0x1e8>
      /* unacked list is not empty? */
      } else {
        /* In the case of fast retransmit, the packet should not go to the tail
         * of the unacked queue, but rather somewhere before it. We need to check for
         * this case. -STJ Jul 27, 2004 */
        if (TCP_SEQ_LT(ntohl(seg->tcphdr->seqno), ntohl(useg->tcphdr->seqno))) {
 803170e:	68eb      	ldr	r3, [r5, #12]
 8031710:	6858      	ldr	r0, [r3, #4]
 8031712:	f7fc fdbf 	bl	802e294 <lwip_ntohl>
 8031716:	68f3      	ldr	r3, [r6, #12]
 8031718:	4607      	mov	r7, r0
 803171a:	6858      	ldr	r0, [r3, #4]
 803171c:	f7fc fdba 	bl	802e294 <lwip_ntohl>
 8031720:	1a38      	subs	r0, r7, r0
 8031722:	2800      	cmp	r0, #0
 8031724:	da17      	bge.n	8031756 <tcp_output+0x1e6>
          /* add segment to before tail of unacked list, keeping the list sorted */
          struct tcp_seg **cur_seg = &(pcb->unacked);
 8031726:	f104 0770 	add.w	r7, r4, #112	; 0x70
          while (*cur_seg &&
 803172a:	e000      	b.n	803172e <tcp_output+0x1be>
            TCP_SEQ_LT(ntohl((*cur_seg)->tcphdr->seqno), ntohl(seg->tcphdr->seqno))) {
              cur_seg = &((*cur_seg)->next );
 803172c:	683f      	ldr	r7, [r7, #0]
         * of the unacked queue, but rather somewhere before it. We need to check for
         * this case. -STJ Jul 27, 2004 */
        if (TCP_SEQ_LT(ntohl(seg->tcphdr->seqno), ntohl(useg->tcphdr->seqno))) {
          /* add segment to before tail of unacked list, keeping the list sorted */
          struct tcp_seg **cur_seg = &(pcb->unacked);
          while (*cur_seg &&
 803172e:	683b      	ldr	r3, [r7, #0]
 8031730:	b91b      	cbnz	r3, 803173a <tcp_output+0x1ca>
            TCP_SEQ_LT(ntohl((*cur_seg)->tcphdr->seqno), ntohl(seg->tcphdr->seqno))) {
              cur_seg = &((*cur_seg)->next );
          }
          seg->next = (*cur_seg);
 8031732:	683b      	ldr	r3, [r7, #0]
 8031734:	602b      	str	r3, [r5, #0]
          (*cur_seg) = seg;
 8031736:	603d      	str	r5, [r7, #0]
 8031738:	e013      	b.n	8031762 <tcp_output+0x1f2>
         * this case. -STJ Jul 27, 2004 */
        if (TCP_SEQ_LT(ntohl(seg->tcphdr->seqno), ntohl(useg->tcphdr->seqno))) {
          /* add segment to before tail of unacked list, keeping the list sorted */
          struct tcp_seg **cur_seg = &(pcb->unacked);
          while (*cur_seg &&
            TCP_SEQ_LT(ntohl((*cur_seg)->tcphdr->seqno), ntohl(seg->tcphdr->seqno))) {
 803173a:	68db      	ldr	r3, [r3, #12]
 803173c:	6858      	ldr	r0, [r3, #4]
 803173e:	f7fc fda9 	bl	802e294 <lwip_ntohl>
 8031742:	68eb      	ldr	r3, [r5, #12]
 8031744:	4683      	mov	fp, r0
 8031746:	6858      	ldr	r0, [r3, #4]
 8031748:	f7fc fda4 	bl	802e294 <lwip_ntohl>
 803174c:	ebc0 000b 	rsb	r0, r0, fp
         * of the unacked queue, but rather somewhere before it. We need to check for
         * this case. -STJ Jul 27, 2004 */
        if (TCP_SEQ_LT(ntohl(seg->tcphdr->seqno), ntohl(useg->tcphdr->seqno))) {
          /* add segment to before tail of unacked list, keeping the list sorted */
          struct tcp_seg **cur_seg = &(pcb->unacked);
          while (*cur_seg &&
 8031750:	2800      	cmp	r0, #0
 8031752:	dbeb      	blt.n	803172c <tcp_output+0x1bc>
 8031754:	e7ed      	b.n	8031732 <tcp_output+0x1c2>
          }
          seg->next = (*cur_seg);
          (*cur_seg) = seg;
        } else {
          /* add segment to tail of unacked list */
          useg->next = seg;
 8031756:	6035      	str	r5, [r6, #0]
 8031758:	462e      	mov	r6, r5
 803175a:	e002      	b.n	8031762 <tcp_output+0x1f2>
          useg = useg->next;
        }
      }
    /* do not queue empty segments on the unacked list */
    } else {
      tcp_seg_free(seg);
 803175c:	4628      	mov	r0, r5
 803175e:	f7fe f978 	bl	802fa52 <tcp_seg_free>
    }
    seg = pcb->unsent;
 8031762:	6ee5      	ldr	r5, [r4, #108]	; 0x6c
 8031764:	e003      	b.n	803176e <tcp_output+0x1fe>
    }
    ip_addr_copy(pcb->local_ip, netif->ip_addr);
  }

  if (pcb->rttest == 0) {
    pcb->rttest = tcp_ticks;
 8031766:	f8df a04c 	ldr.w	sl, [pc, #76]	; 80317b4 <tcp_output+0x244>
     packets, so ignore it here */
  opts = (u32_t *)(void *)(seg->tcphdr + 1);
  if (seg->flags & TF_SEG_OPTS_MSS) {
    u16_t mss;
#if TCP_CALCULATE_EFF_SEND_MSS
    mss = tcp_eff_send_mss(TCP_MSS, &pcb->remote_ip);
 803176a:	f104 0804 	add.w	r8, r4, #4
                 ntohl(seg->tcphdr->seqno) - pcb->lastack + seg->len,
                 ntohl(seg->tcphdr->seqno), pcb->lastack));
  }
#endif /* TCP_CWND_DEBUG */
  /* data available and window allows it to be sent? */
  while (seg != NULL &&
 803176e:	b915      	cbnz	r5, 8031776 <tcp_output+0x206>
      tcp_seg_free(seg);
    }
    seg = pcb->unsent;
  }
#if TCP_OVERSIZE
  if (pcb->unsent == NULL) {
 8031770:	6ee3      	ldr	r3, [r4, #108]	; 0x6c
 8031772:	b973      	cbnz	r3, 8031792 <tcp_output+0x222>
 8031774:	e00b      	b.n	803178e <tcp_output+0x21e>
                 ntohl(seg->tcphdr->seqno), pcb->lastack));
  }
#endif /* TCP_CWND_DEBUG */
  /* data available and window allows it to be sent? */
  while (seg != NULL &&
         ntohl(seg->tcphdr->seqno) - pcb->lastack + seg->len <= wnd) {
 8031776:	68eb      	ldr	r3, [r5, #12]
 8031778:	6858      	ldr	r0, [r3, #4]
 803177a:	f7fc fd8b 	bl	802e294 <lwip_ntohl>
 803177e:	892a      	ldrh	r2, [r5, #8]
 8031780:	6ca3      	ldr	r3, [r4, #72]	; 0x48
 8031782:	1ad3      	subs	r3, r2, r3
 8031784:	1818      	adds	r0, r3, r0
                 ntohl(seg->tcphdr->seqno) - pcb->lastack + seg->len,
                 ntohl(seg->tcphdr->seqno), pcb->lastack));
  }
#endif /* TCP_CWND_DEBUG */
  /* data available and window allows it to be sent? */
  while (seg != NULL &&
 8031786:	4548      	cmp	r0, r9
 8031788:	f67f af20 	bls.w	80315cc <tcp_output+0x5c>
 803178c:	e7f0      	b.n	8031770 <tcp_output+0x200>
    seg = pcb->unsent;
  }
#if TCP_OVERSIZE
  if (pcb->unsent == NULL) {
    /* last unsent has been removed, reset unsent_oversize */
    pcb->unsent_oversize = 0;
 803178e:	f8a4 306a 	strh.w	r3, [r4, #106]	; 0x6a
  }
#endif /* TCP_OVERSIZE */

  pcb->flags &= ~TF_NAGLEMEMERR;
 8031792:	7fa3      	ldrb	r3, [r4, #30]
 8031794:	f003 037f 	and.w	r3, r3, #127	; 0x7f
 8031798:	77a3      	strb	r3, [r4, #30]
  return ERR_OK;
 803179a:	e004      	b.n	80317a6 <tcp_output+0x236>
     * - if tcp_write had a memory error before (prevent delayed ACK timeout) or
     * - if FIN was already enqueued for this PCB (SYN is always alone in a segment -
     *   either seg->next != NULL or pcb->unacked == NULL;
     *   RST is no sent using tcp_write/tcp_output.
     */
    if((tcp_do_output_nagle(pcb) == 0) &&
 803179c:	f012 0fa0 	tst.w	r2, #160	; 0xa0
 80317a0:	f47f af2e 	bne.w	8031600 <tcp_output+0x90>
 80317a4:	e7e4      	b.n	8031770 <tcp_output+0x200>
  }
#endif /* TCP_OVERSIZE */

  pcb->flags &= ~TF_NAGLEMEMERR;
  return ERR_OK;
}
 80317a6:	2000      	movs	r0, #0
 80317a8:	b003      	add	sp, #12
 80317aa:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 80317ae:	bf00      	nop
 80317b0:	2000f6c4 	.word	0x2000f6c4
 80317b4:	2000f6b0 	.word	0x2000f6b0

080317b8 <tcp_rst>:
 */
void
tcp_rst(u32_t seqno, u32_t ackno,
  ip_addr_t *local_ip, ip_addr_t *remote_ip,
  u16_t local_port, u16_t remote_port)
{
 80317b8:	e92d 4ff7 	stmdb	sp!, {r0, r1, r2, r4, r5, r6, r7, r8, r9, sl, fp, lr}
 80317bc:	4681      	mov	r9, r0
 80317be:	460d      	mov	r5, r1
 80317c0:	4690      	mov	r8, r2
  struct pbuf *p;
  struct tcp_hdr *tcphdr;
  p = pbuf_alloc(PBUF_IP, TCP_HLEN, PBUF_RAM);
 80317c2:	2001      	movs	r0, #1
 80317c4:	2114      	movs	r1, #20
 80317c6:	2200      	movs	r2, #0
 */
void
tcp_rst(u32_t seqno, u32_t ackno,
  ip_addr_t *local_ip, ip_addr_t *remote_ip,
  u16_t local_port, u16_t remote_port)
{
 80317c8:	461f      	mov	r7, r3
 80317ca:	f8bd b030 	ldrh.w	fp, [sp, #48]	; 0x30
 80317ce:	f8bd a034 	ldrh.w	sl, [sp, #52]	; 0x34
  struct pbuf *p;
  struct tcp_hdr *tcphdr;
  p = pbuf_alloc(PBUF_IP, TCP_HLEN, PBUF_RAM);
 80317d2:	f7fd fede 	bl	802f592 <pbuf_alloc>
  if (p == NULL) {
 80317d6:	4606      	mov	r6, r0
 80317d8:	2800      	cmp	r0, #0
 80317da:	d030      	beq.n	803183e <tcp_rst+0x86>
      return;
  }
  LWIP_ASSERT("check that first pbuf can hold struct tcp_hdr",
              (p->len >= sizeof(struct tcp_hdr)));

  tcphdr = (struct tcp_hdr *)p->payload;
 80317dc:	6844      	ldr	r4, [r0, #4]
  tcphdr->src = htons(local_port);
 80317de:	4658      	mov	r0, fp
 80317e0:	f7fc fd4c 	bl	802e27c <lwip_htons>
 80317e4:	8020      	strh	r0, [r4, #0]
  tcphdr->dest = htons(remote_port);
 80317e6:	4650      	mov	r0, sl
 80317e8:	f7fc fd48 	bl	802e27c <lwip_htons>
 80317ec:	8060      	strh	r0, [r4, #2]
  tcphdr->seqno = htonl(seqno);
 80317ee:	4648      	mov	r0, r9
 80317f0:	f7fc fd4e 	bl	802e290 <lwip_htonl>
 80317f4:	6060      	str	r0, [r4, #4]
  tcphdr->ackno = htonl(ackno);
 80317f6:	4628      	mov	r0, r5
 80317f8:	f7fc fd4a 	bl	802e290 <lwip_htonl>
 80317fc:	60a0      	str	r0, [r4, #8]
  TCPH_HDRLEN_FLAGS_SET(tcphdr, TCP_HLEN/4, TCP_RST | TCP_ACK);
 80317fe:	f245 0014 	movw	r0, #20500	; 0x5014
 8031802:	f7fc fd3b 	bl	802e27c <lwip_htons>
  tcphdr->wnd = PP_HTONS(TCP_WND);
 8031806:	2316      	movs	r3, #22
 8031808:	2500      	movs	r5, #0
 803180a:	73a3      	strb	r3, [r4, #14]
 803180c:	f06f 032f 	mvn.w	r3, #47	; 0x2f
  tcphdr = (struct tcp_hdr *)p->payload;
  tcphdr->src = htons(local_port);
  tcphdr->dest = htons(remote_port);
  tcphdr->seqno = htonl(seqno);
  tcphdr->ackno = htonl(ackno);
  TCPH_HDRLEN_FLAGS_SET(tcphdr, TCP_HLEN/4, TCP_RST | TCP_ACK);
 8031810:	81a0      	strh	r0, [r4, #12]
  tcphdr->wnd = PP_HTONS(TCP_WND);
 8031812:	73e3      	strb	r3, [r4, #15]
  tcphdr->chksum = 0;
 8031814:	7425      	strb	r5, [r4, #16]
 8031816:	7465      	strb	r5, [r4, #17]
  tcphdr->urgp = 0;
 8031818:	74a5      	strb	r5, [r4, #18]
 803181a:	74e5      	strb	r5, [r4, #19]
#if CHECKSUM_GEN_TCP
  tcphdr->chksum = inet_chksum_pseudo(p, local_ip, remote_ip,
              IP_PROTO_TCP, p->tot_len);
#endif
  TCP_STATS_INC(tcp.xmit);
  snmp_inc_tcpoutrsts();
 803181c:	f002 fc80 	bl	8034120 <snmp_inc_tcpoutrsts>
   /* Send output with hardcoded TTL since we have no access to the pcb */
  ip_output(p, local_ip, remote_ip, TCP_TTL, 0, IP_PROTO_TCP);
 8031820:	2306      	movs	r3, #6
 8031822:	9301      	str	r3, [sp, #4]
 8031824:	9500      	str	r5, [sp, #0]
 8031826:	4630      	mov	r0, r6
 8031828:	4641      	mov	r1, r8
 803182a:	463a      	mov	r2, r7
 803182c:	23ff      	movs	r3, #255	; 0xff
 803182e:	f000 ff41 	bl	80326b4 <ip_output>
  pbuf_free(p);
 8031832:	4630      	mov	r0, r6
  LWIP_DEBUGF(TCP_RST_DEBUG, ("tcp_rst: seqno %"U32_F" ackno %"U32_F".\n", seqno, ackno));
}
 8031834:	b003      	add	sp, #12
 8031836:	e8bd 4ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
#endif
  TCP_STATS_INC(tcp.xmit);
  snmp_inc_tcpoutrsts();
   /* Send output with hardcoded TTL since we have no access to the pcb */
  ip_output(p, local_ip, remote_ip, TCP_TTL, 0, IP_PROTO_TCP);
  pbuf_free(p);
 803183a:	f7fd be5d 	b.w	802f4f8 <pbuf_free>
  LWIP_DEBUGF(TCP_RST_DEBUG, ("tcp_rst: seqno %"U32_F" ackno %"U32_F".\n", seqno, ackno));
}
 803183e:	b003      	add	sp, #12
 8031840:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}

08031844 <tcp_rexmit_rto>:
void
tcp_rexmit_rto(struct tcp_pcb *pcb)
{
  struct tcp_seg *seg;

  if (pcb->unacked == NULL) {
 8031844:	6f02      	ldr	r2, [r0, #112]	; 0x70
 *
 * @param pcb the tcp_pcb for which to re-enqueue all unacked segments
 */
void
tcp_rexmit_rto(struct tcp_pcb *pcb)
{
 8031846:	b510      	push	{r4, lr}
  struct tcp_seg *seg;

  if (pcb->unacked == NULL) {
 8031848:	b19a      	cbz	r2, 8031872 <tcp_rexmit_rto+0x2e>
 803184a:	4611      	mov	r1, r2
 803184c:	e000      	b.n	8031850 <tcp_rexmit_rto+0xc>
    return;
  }

  /* Move all unacked segments to the head of the unsent queue */
  for (seg = pcb->unacked; seg->next != NULL; seg = seg->next);
 803184e:	4619      	mov	r1, r3
 8031850:	680b      	ldr	r3, [r1, #0]
 8031852:	2b00      	cmp	r3, #0
 8031854:	d1fb      	bne.n	803184e <tcp_rexmit_rto+0xa>
  /* concatenate unsent queue after unacked queue */
  seg->next = pcb->unsent;
 8031856:	6ec4      	ldr	r4, [r0, #108]	; 0x6c
 8031858:	600c      	str	r4, [r1, #0]
  /* unsent queue is the concatenated queue (of unacked, unsent) */
  pcb->unsent = pcb->unacked;
 803185a:	66c2      	str	r2, [r0, #108]	; 0x6c
  /* unacked queue is now empty */
  pcb->unacked = NULL;
  /* last unsent hasn't changed, no need to reset unsent_oversize */

  /* increment number of retransmissions */
  ++pcb->nrtx;
 803185c:	f890 2046 	ldrb.w	r2, [r0, #70]	; 0x46
  /* concatenate unsent queue after unacked queue */
  seg->next = pcb->unsent;
  /* unsent queue is the concatenated queue (of unacked, unsent) */
  pcb->unsent = pcb->unacked;
  /* unacked queue is now empty */
  pcb->unacked = NULL;
 8031860:	6703      	str	r3, [r0, #112]	; 0x70
  /* last unsent hasn't changed, no need to reset unsent_oversize */

  /* increment number of retransmissions */
  ++pcb->nrtx;
 8031862:	3201      	adds	r2, #1
 8031864:	f880 2046 	strb.w	r2, [r0, #70]	; 0x46

  /* Don't take any RTT measurements after retransmitting. */
  pcb->rttest = 0;
 8031868:	6383      	str	r3, [r0, #56]	; 0x38

  /* Do the actual retransmission */
  tcp_output(pcb);
}
 803186a:	e8bd 4010 	ldmia.w	sp!, {r4, lr}

  /* Don't take any RTT measurements after retransmitting. */
  pcb->rttest = 0;

  /* Do the actual retransmission */
  tcp_output(pcb);
 803186e:	f7ff be7f 	b.w	8031570 <tcp_output>
 8031872:	bd10      	pop	{r4, pc}

08031874 <tcp_rexmit>:
 *
 * @param pcb the tcp_pcb for which to retransmit the first unacked segment
 */
void
tcp_rexmit(struct tcp_pcb *pcb)
{
 8031874:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  struct tcp_seg *seg;
  struct tcp_seg **cur_seg;

  if (pcb->unacked == NULL) {
 8031876:	6f05      	ldr	r5, [r0, #112]	; 0x70
 *
 * @param pcb the tcp_pcb for which to retransmit the first unacked segment
 */
void
tcp_rexmit(struct tcp_pcb *pcb)
{
 8031878:	4604      	mov	r4, r0
  struct tcp_seg *seg;
  struct tcp_seg **cur_seg;

  if (pcb->unacked == NULL) {
 803187a:	2d00      	cmp	r5, #0
 803187c:	d027      	beq.n	80318ce <tcp_rexmit+0x5a>
  }

  /* Move the first unacked segment to the unsent queue */
  /* Keep the unsent queue sorted. */
  seg = pcb->unacked;
  pcb->unacked = seg->next;
 803187e:	682b      	ldr	r3, [r5, #0]

  cur_seg = &(pcb->unsent);
 8031880:	f100 066c 	add.w	r6, r0, #108	; 0x6c
  }

  /* Move the first unacked segment to the unsent queue */
  /* Keep the unsent queue sorted. */
  seg = pcb->unacked;
  pcb->unacked = seg->next;
 8031884:	6703      	str	r3, [r0, #112]	; 0x70

  cur_seg = &(pcb->unsent);
  while (*cur_seg &&
 8031886:	e000      	b.n	803188a <tcp_rexmit+0x16>
    TCP_SEQ_LT(ntohl((*cur_seg)->tcphdr->seqno), ntohl(seg->tcphdr->seqno))) {
      cur_seg = &((*cur_seg)->next );
 8031888:	6836      	ldr	r6, [r6, #0]
  /* Keep the unsent queue sorted. */
  seg = pcb->unacked;
  pcb->unacked = seg->next;

  cur_seg = &(pcb->unsent);
  while (*cur_seg &&
 803188a:	6833      	ldr	r3, [r6, #0]
 803188c:	b92b      	cbnz	r3, 803189a <tcp_rexmit+0x26>
    TCP_SEQ_LT(ntohl((*cur_seg)->tcphdr->seqno), ntohl(seg->tcphdr->seqno))) {
      cur_seg = &((*cur_seg)->next );
  }
  seg->next = *cur_seg;
 803188e:	6833      	ldr	r3, [r6, #0]
 8031890:	602b      	str	r3, [r5, #0]
  *cur_seg = seg;
 8031892:	6035      	str	r5, [r6, #0]
#if TCP_OVERSIZE
  if (seg->next == NULL) {
 8031894:	682b      	ldr	r3, [r5, #0]
 8031896:	b97b      	cbnz	r3, 80318b8 <tcp_rexmit+0x44>
 8031898:	e00c      	b.n	80318b4 <tcp_rexmit+0x40>
  seg = pcb->unacked;
  pcb->unacked = seg->next;

  cur_seg = &(pcb->unsent);
  while (*cur_seg &&
    TCP_SEQ_LT(ntohl((*cur_seg)->tcphdr->seqno), ntohl(seg->tcphdr->seqno))) {
 803189a:	68db      	ldr	r3, [r3, #12]
 803189c:	6858      	ldr	r0, [r3, #4]
 803189e:	f7fc fcf9 	bl	802e294 <lwip_ntohl>
 80318a2:	68eb      	ldr	r3, [r5, #12]
 80318a4:	4607      	mov	r7, r0
 80318a6:	6858      	ldr	r0, [r3, #4]
 80318a8:	f7fc fcf4 	bl	802e294 <lwip_ntohl>
 80318ac:	1a38      	subs	r0, r7, r0
  /* Keep the unsent queue sorted. */
  seg = pcb->unacked;
  pcb->unacked = seg->next;

  cur_seg = &(pcb->unsent);
  while (*cur_seg &&
 80318ae:	2800      	cmp	r0, #0
 80318b0:	dbea      	blt.n	8031888 <tcp_rexmit+0x14>
 80318b2:	e7ec      	b.n	803188e <tcp_rexmit+0x1a>
  seg->next = *cur_seg;
  *cur_seg = seg;
#if TCP_OVERSIZE
  if (seg->next == NULL) {
    /* the retransmitted segment is last in unsent, so reset unsent_oversize */
    pcb->unsent_oversize = 0;
 80318b4:	f8a4 306a 	strh.w	r3, [r4, #106]	; 0x6a
  }
#endif /* TCP_OVERSIZE */

  ++pcb->nrtx;
 80318b8:	f894 3046 	ldrb.w	r3, [r4, #70]	; 0x46
 80318bc:	3301      	adds	r3, #1
 80318be:	f884 3046 	strb.w	r3, [r4, #70]	; 0x46

  /* Don't take any rtt measurements after retransmitting. */
  pcb->rttest = 0;
 80318c2:	2300      	movs	r3, #0
 80318c4:	63a3      	str	r3, [r4, #56]	; 0x38

  /* Do the actual retransmission. */
  snmp_inc_tcpretranssegs();
  /* No need to call tcp_output: we are always called from tcp_input()
     and thus tcp_output directly returns. */
}
 80318c6:	e8bd 40f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, lr}

  /* Don't take any rtt measurements after retransmitting. */
  pcb->rttest = 0;

  /* Do the actual retransmission. */
  snmp_inc_tcpretranssegs();
 80318ca:	f002 bc19 	b.w	8034100 <snmp_inc_tcpretranssegs>
 80318ce:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}

080318d0 <tcp_rexmit_fast>:
 * @param pcb the tcp_pcb for which to retransmit the first unacked segment
 */
void 
tcp_rexmit_fast(struct tcp_pcb *pcb)
{
  if (pcb->unacked != NULL && !(pcb->flags & TF_INFR)) {
 80318d0:	6f03      	ldr	r3, [r0, #112]	; 0x70
 *
 * @param pcb the tcp_pcb for which to retransmit the first unacked segment
 */
void 
tcp_rexmit_fast(struct tcp_pcb *pcb)
{
 80318d2:	b510      	push	{r4, lr}
 80318d4:	4604      	mov	r4, r0
  if (pcb->unacked != NULL && !(pcb->flags & TF_INFR)) {
 80318d6:	b333      	cbz	r3, 8031926 <tcp_rexmit_fast+0x56>
 80318d8:	7f83      	ldrb	r3, [r0, #30]
 80318da:	f003 0304 	and.w	r3, r3, #4
 80318de:	b2db      	uxtb	r3, r3
 80318e0:	bb0b      	cbnz	r3, 8031926 <tcp_rexmit_fast+0x56>
    LWIP_DEBUGF(TCP_FR_DEBUG, 
                ("tcp_receive: dupacks %"U16_F" (%"U32_F
                 "), fast retransmit %"U32_F"\n",
                 (u16_t)pcb->dupacks, pcb->lastack,
                 ntohl(pcb->unacked->tcphdr->seqno)));
    tcp_rexmit(pcb);
 80318e2:	f7ff ffc7 	bl	8031874 <tcp_rexmit>

    /* Set ssthresh to half of the minimum of the current
     * cwnd and the advertised window */
    if (pcb->cwnd > pcb->snd_wnd) {
 80318e6:	f8b4 304c 	ldrh.w	r3, [r4, #76]	; 0x4c
 80318ea:	f8b4 2060 	ldrh.w	r2, [r4, #96]	; 0x60
 80318ee:	4293      	cmp	r3, r2
 80318f0:	d903      	bls.n	80318fa <tcp_rexmit_fast+0x2a>
      pcb->ssthresh = pcb->snd_wnd / 2;
 80318f2:	0852      	lsrs	r2, r2, #1
 80318f4:	f8a4 204e 	strh.w	r2, [r4, #78]	; 0x4e
 80318f8:	e002      	b.n	8031900 <tcp_rexmit_fast+0x30>
    } else {
      pcb->ssthresh = pcb->cwnd / 2;
 80318fa:	085b      	lsrs	r3, r3, #1
 80318fc:	f8a4 304e 	strh.w	r3, [r4, #78]	; 0x4e
    }
    
    /* The minimum value for ssthresh should be 2 MSS */
    if (pcb->ssthresh < 2*pcb->mss) {
 8031900:	8ee3      	ldrh	r3, [r4, #54]	; 0x36
 8031902:	f8b4 104e 	ldrh.w	r1, [r4, #78]	; 0x4e
 8031906:	005a      	lsls	r2, r3, #1
 8031908:	4291      	cmp	r1, r2
      LWIP_DEBUGF(TCP_FR_DEBUG, 
                  ("tcp_receive: The minimum value for ssthresh %"U16_F
                   " should be min 2 mss %"U16_F"...\n",
                   pcb->ssthresh, 2*pcb->mss));
      pcb->ssthresh = 2*pcb->mss;
 803190a:	bfb8      	it	lt
 803190c:	f8a4 204e 	strhlt.w	r2, [r4, #78]	; 0x4e
    }
    
    pcb->cwnd = pcb->ssthresh + 3 * pcb->mss;
 8031910:	f8b4 204e 	ldrh.w	r2, [r4, #78]	; 0x4e
 8031914:	2103      	movs	r1, #3
 8031916:	fb01 2303 	mla	r3, r1, r3, r2
 803191a:	f8a4 304c 	strh.w	r3, [r4, #76]	; 0x4c
    pcb->flags |= TF_INFR;
 803191e:	7fa3      	ldrb	r3, [r4, #30]
 8031920:	f043 0304 	orr.w	r3, r3, #4
 8031924:	77a3      	strb	r3, [r4, #30]
 8031926:	bd10      	pop	{r4, pc}

08031928 <tcp_keepalive>:
 *
 * @param pcb the tcp_pcb for which to send a keepalive packet
 */
void
tcp_keepalive(struct tcp_pcb *pcb)
{
 8031928:	b537      	push	{r0, r1, r2, r4, r5, lr}
 803192a:	4604      	mov	r4, r0
                          ip4_addr3_16(&pcb->remote_ip), ip4_addr4_16(&pcb->remote_ip)));

  LWIP_DEBUGF(TCP_DEBUG, ("tcp_keepalive: tcp_ticks %"U32_F"   pcb->tmr %"U32_F" pcb->keep_cnt_sent %"U16_F"\n", 
                          tcp_ticks, pcb->tmr, pcb->keep_cnt_sent));
   
  p = tcp_output_alloc_header(pcb, 0, 0, htonl(pcb->snd_nxt - 1));
 803192c:	6d00      	ldr	r0, [r0, #80]	; 0x50
 803192e:	3801      	subs	r0, #1
 8031930:	f7fc fcae 	bl	802e290 <lwip_htonl>
 8031934:	2100      	movs	r1, #0
 8031936:	4602      	mov	r2, r0
 8031938:	4620      	mov	r0, r4
 803193a:	f7ff fbd9 	bl	80310f0 <tcp_output_alloc_header.constprop.0>
  if(p == NULL) {
 803193e:	4605      	mov	r5, r0
 8031940:	b178      	cbz	r0, 8031962 <tcp_keepalive+0x3a>
  /* Send output to IP */
#if LWIP_NETIF_HWADDRHINT
  ip_output_hinted(p, &pcb->local_ip, &pcb->remote_ip, pcb->ttl, 0, IP_PROTO_TCP,
    &(pcb->addr_hint));
#else /* LWIP_NETIF_HWADDRHINT*/
  ip_output(p, &pcb->local_ip, &pcb->remote_ip, pcb->ttl, 0, IP_PROTO_TCP);
 8031942:	2200      	movs	r2, #0
 8031944:	f04f 0e06 	mov.w	lr, #6
 8031948:	e88d 4004 	stmia.w	sp, {r2, lr}
 803194c:	7aa3      	ldrb	r3, [r4, #10]
 803194e:	4621      	mov	r1, r4
 8031950:	1d22      	adds	r2, r4, #4
 8031952:	f000 feaf 	bl	80326b4 <ip_output>
#endif /* LWIP_NETIF_HWADDRHINT*/

  pbuf_free(p);
 8031956:	4628      	mov	r0, r5

  LWIP_DEBUGF(TCP_DEBUG, ("tcp_keepalive: seqno %"U32_F" ackno %"U32_F".\n",
                          pcb->snd_nxt - 1, pcb->rcv_nxt));
}
 8031958:	b003      	add	sp, #12
 803195a:	e8bd 4030 	ldmia.w	sp!, {r4, r5, lr}
    &(pcb->addr_hint));
#else /* LWIP_NETIF_HWADDRHINT*/
  ip_output(p, &pcb->local_ip, &pcb->remote_ip, pcb->ttl, 0, IP_PROTO_TCP);
#endif /* LWIP_NETIF_HWADDRHINT*/

  pbuf_free(p);
 803195e:	f7fd bdcb 	b.w	802f4f8 <pbuf_free>

  LWIP_DEBUGF(TCP_DEBUG, ("tcp_keepalive: seqno %"U32_F" ackno %"U32_F".\n",
                          pcb->snd_nxt - 1, pcb->rcv_nxt));
}
 8031962:	b003      	add	sp, #12
 8031964:	bd30      	pop	{r4, r5, pc}

08031966 <tcp_zero_window_probe>:
 *
 * @param pcb the tcp_pcb for which to send a zero-window probe packet
 */
void
tcp_zero_window_probe(struct tcp_pcb *pcb)
{
 8031966:	e92d 41f3 	stmdb	sp!, {r0, r1, r4, r5, r6, r7, r8, lr}
  LWIP_DEBUGF(TCP_DEBUG, 
              ("tcp_zero_window_probe: tcp_ticks %"U32_F
               "   pcb->tmr %"U32_F" pcb->keep_cnt_sent %"U16_F"\n", 
               tcp_ticks, pcb->tmr, pcb->keep_cnt_sent));

  seg = pcb->unacked;
 803196a:	6f04      	ldr	r4, [r0, #112]	; 0x70
 *
 * @param pcb the tcp_pcb for which to send a zero-window probe packet
 */
void
tcp_zero_window_probe(struct tcp_pcb *pcb)
{
 803196c:	4605      	mov	r5, r0
               "   pcb->tmr %"U32_F" pcb->keep_cnt_sent %"U16_F"\n", 
               tcp_ticks, pcb->tmr, pcb->keep_cnt_sent));

  seg = pcb->unacked;

  if(seg == NULL) {
 803196e:	b914      	cbnz	r4, 8031976 <tcp_zero_window_probe+0x10>
    seg = pcb->unsent;
 8031970:	6ec4      	ldr	r4, [r0, #108]	; 0x6c
  }
  if(seg == NULL) {
 8031972:	2c00      	cmp	r4, #0
 8031974:	d042      	beq.n	80319fc <tcp_zero_window_probe+0x96>
    return;
  }

  is_fin = ((TCPH_FLAGS(seg->tcphdr) & TCP_FIN) != 0) && (seg->len == 0);
 8031976:	68e3      	ldr	r3, [r4, #12]
 8031978:	8998      	ldrh	r0, [r3, #12]
 803197a:	f7fc fc84 	bl	802e286 <lwip_ntohs>
 803197e:	f010 0001 	ands.w	r0, r0, #1
 8031982:	d005      	beq.n	8031990 <tcp_zero_window_probe+0x2a>
 8031984:	8921      	ldrh	r1, [r4, #8]
 8031986:	f1d1 0101 	rsbs	r1, r1, #1
 803198a:	bf38      	it	cc
 803198c:	2100      	movcc	r1, #0
 803198e:	e000      	b.n	8031992 <tcp_zero_window_probe+0x2c>
 8031990:	4601      	mov	r1, r0
  /* we want to send one seqno: either FIN or data (no options) */
  len = is_fin ? 0 : 1;

  p = tcp_output_alloc_header(pcb, 0, len, seg->tcphdr->seqno);
 8031992:	68e3      	ldr	r3, [r4, #12]
  }
  if(seg == NULL) {
    return;
  }

  is_fin = ((TCPH_FLAGS(seg->tcphdr) & TCP_FIN) != 0) && (seg->len == 0);
 8031994:	fa5f f881 	uxtb.w	r8, r1
  /* we want to send one seqno: either FIN or data (no options) */
  len = is_fin ? 0 : 1;

  p = tcp_output_alloc_header(pcb, 0, len, seg->tcphdr->seqno);
 8031998:	4628      	mov	r0, r5
 803199a:	f081 0101 	eor.w	r1, r1, #1
 803199e:	685a      	ldr	r2, [r3, #4]
 80319a0:	f7ff fba6 	bl	80310f0 <tcp_output_alloc_header.constprop.0>
  if(p == NULL) {
 80319a4:	4606      	mov	r6, r0
 80319a6:	2800      	cmp	r0, #0
 80319a8:	d028      	beq.n	80319fc <tcp_zero_window_probe+0x96>
    LWIP_DEBUGF(TCP_DEBUG, ("tcp_zero_window_probe: no memory for pbuf\n"));
    return;
  }
  tcphdr = (struct tcp_hdr *)p->payload;
 80319aa:	6847      	ldr	r7, [r0, #4]

  if (is_fin) {
 80319ac:	f1b8 0f00 	cmp.w	r8, #0
 80319b0:	d009      	beq.n	80319c6 <tcp_zero_window_probe+0x60>
    /* FIN segment, no data */
    TCPH_FLAGS_SET(tcphdr, TCP_ACK | TCP_FIN);
 80319b2:	89bc      	ldrh	r4, [r7, #12]
 80319b4:	2011      	movs	r0, #17
 80319b6:	f7fc fc61 	bl	802e27c <lwip_htons>
 80319ba:	f424 547c 	bic.w	r4, r4, #16128	; 0x3f00
 80319be:	b2a4      	uxth	r4, r4
 80319c0:	4320      	orrs	r0, r4
 80319c2:	81b8      	strh	r0, [r7, #12]
 80319c4:	e009      	b.n	80319da <tcp_zero_window_probe+0x74>
    /* Data segment, copy in one byte from the head of the unacked queue */
    char *d = ((char *)p->payload + TCP_HLEN);
    /* Depending on whether the segment has already been sent (unacked) or not
       (unsent), seg->p->payload points to the IP header or TCP header.
       Ensure we copy the first TCP data byte: */
    pbuf_copy_partial(seg->p, d, 1, seg->p->tot_len - seg->len);
 80319c6:	6860      	ldr	r0, [r4, #4]
 80319c8:	8923      	ldrh	r3, [r4, #8]
 80319ca:	8902      	ldrh	r2, [r0, #8]
 80319cc:	1ad3      	subs	r3, r2, r3
 80319ce:	f107 0114 	add.w	r1, r7, #20
 80319d2:	2201      	movs	r2, #1
 80319d4:	b29b      	uxth	r3, r3
 80319d6:	f7fd fedd 	bl	802f794 <pbuf_copy_partial>
  /* Send output to IP */
#if LWIP_NETIF_HWADDRHINT
  ip_output_hinted(p, &pcb->local_ip, &pcb->remote_ip, pcb->ttl, 0, IP_PROTO_TCP,
    &(pcb->addr_hint));
#else /* LWIP_NETIF_HWADDRHINT*/
  ip_output(p, &pcb->local_ip, &pcb->remote_ip, pcb->ttl, 0, IP_PROTO_TCP);
 80319da:	2200      	movs	r2, #0
 80319dc:	f04f 0c06 	mov.w	ip, #6
 80319e0:	e88d 1004 	stmia.w	sp, {r2, ip}
 80319e4:	7aab      	ldrb	r3, [r5, #10]
 80319e6:	4630      	mov	r0, r6
 80319e8:	4629      	mov	r1, r5
 80319ea:	1d2a      	adds	r2, r5, #4
 80319ec:	f000 fe62 	bl	80326b4 <ip_output>
#endif /* LWIP_NETIF_HWADDRHINT*/

  pbuf_free(p);
 80319f0:	4630      	mov	r0, r6

  LWIP_DEBUGF(TCP_DEBUG, ("tcp_zero_window_probe: seqno %"U32_F
                          " ackno %"U32_F".\n",
                          pcb->snd_nxt - 1, pcb->rcv_nxt));
}
 80319f2:	b002      	add	sp, #8
 80319f4:	e8bd 41f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, lr}
    &(pcb->addr_hint));
#else /* LWIP_NETIF_HWADDRHINT*/
  ip_output(p, &pcb->local_ip, &pcb->remote_ip, pcb->ttl, 0, IP_PROTO_TCP);
#endif /* LWIP_NETIF_HWADDRHINT*/

  pbuf_free(p);
 80319f8:	f7fd bd7e 	b.w	802f4f8 <pbuf_free>

  LWIP_DEBUGF(TCP_DEBUG, ("tcp_zero_window_probe: seqno %"U32_F
                          " ackno %"U32_F".\n",
                          pcb->snd_nxt - 1, pcb->rcv_nxt));
}
 80319fc:	b002      	add	sp, #8
 80319fe:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 8031a02:	0000      	movs	r0, r0

08031a04 <sys_timeout>:
sys_timeout_debug(u32_t msecs, sys_timeout_handler handler, void *arg, const char* handler_name)
#else /* LWIP_DEBUG_TIMERNAMES */
void
sys_timeout(u32_t msecs, sys_timeout_handler handler, void *arg)
#endif /* LWIP_DEBUG_TIMERNAMES */
{
 8031a04:	b570      	push	{r4, r5, r6, lr}
 8031a06:	4604      	mov	r4, r0
  struct sys_timeo *timeout, *t;

  timeout = (struct sys_timeo *)memp_malloc(MEMP_SYS_TIMEOUT);
 8031a08:	2009      	movs	r0, #9
sys_timeout_debug(u32_t msecs, sys_timeout_handler handler, void *arg, const char* handler_name)
#else /* LWIP_DEBUG_TIMERNAMES */
void
sys_timeout(u32_t msecs, sys_timeout_handler handler, void *arg)
#endif /* LWIP_DEBUG_TIMERNAMES */
{
 8031a0a:	460d      	mov	r5, r1
 8031a0c:	4616      	mov	r6, r2
  struct sys_timeo *timeout, *t;

  timeout = (struct sys_timeo *)memp_malloc(MEMP_SYS_TIMEOUT);
 8031a0e:	f7fd fc53 	bl	802f2b8 <memp_malloc>
  if (timeout == NULL) {
 8031a12:	4603      	mov	r3, r0
 8031a14:	b308      	cbz	r0, 8031a5a <sys_timeout+0x56>
  timeout->handler_name = handler_name;
  LWIP_DEBUGF(TIMERS_DEBUG, ("sys_timeout: %p msecs=%"U32_F" handler=%s arg=%p\n",
    (void *)timeout, msecs, handler_name, (void *)arg));
#endif /* LWIP_DEBUG_TIMERNAMES */

  if (next_timeout == NULL) {
 8031a16:	4911      	ldr	r1, [pc, #68]	; (8031a5c <sys_timeout+0x58>)
  timeout = (struct sys_timeo *)memp_malloc(MEMP_SYS_TIMEOUT);
  if (timeout == NULL) {
    LWIP_ASSERT("sys_timeout: timeout != NULL, pool MEMP_SYS_TIMEOUT is empty", timeout != NULL);
    return;
  }
  timeout->next = NULL;
 8031a18:	2200      	movs	r2, #0
  timeout->h = handler;
  timeout->arg = arg;
  timeout->time = msecs;
 8031a1a:	e880 0074 	stmia.w	r0, {r2, r4, r5, r6}
  timeout->handler_name = handler_name;
  LWIP_DEBUGF(TIMERS_DEBUG, ("sys_timeout: %p msecs=%"U32_F" handler=%s arg=%p\n",
    (void *)timeout, msecs, handler_name, (void *)arg));
#endif /* LWIP_DEBUG_TIMERNAMES */

  if (next_timeout == NULL) {
 8031a1e:	680a      	ldr	r2, [r1, #0]
 8031a20:	b902      	cbnz	r2, 8031a24 <sys_timeout+0x20>
 8031a22:	e005      	b.n	8031a30 <sys_timeout+0x2c>
    next_timeout = timeout;
    return;
  }

  if (next_timeout->time > msecs) {
 8031a24:	6850      	ldr	r0, [r2, #4]
 8031a26:	42a0      	cmp	r0, r4
 8031a28:	d90c      	bls.n	8031a44 <sys_timeout+0x40>
    next_timeout->time -= msecs;
 8031a2a:	1b04      	subs	r4, r0, r4
 8031a2c:	6054      	str	r4, [r2, #4]
    timeout->next = next_timeout;
 8031a2e:	601a      	str	r2, [r3, #0]
    next_timeout = timeout;
 8031a30:	600b      	str	r3, [r1, #0]
 8031a32:	bd70      	pop	{r4, r5, r6, pc}
  } else {
    for(t = next_timeout; t != NULL; t = t->next) {
      timeout->time -= t->time;
      if (t->next == NULL || t->next->time > timeout->time) {
 8031a34:	684c      	ldr	r4, [r1, #4]
 8031a36:	4284      	cmp	r4, r0
 8031a38:	d80c      	bhi.n	8031a54 <sys_timeout+0x50>
 8031a3a:	460a      	mov	r2, r1
 8031a3c:	e002      	b.n	8031a44 <sys_timeout+0x40>
        if (t->next != NULL) {
          t->next->time -= timeout->time;
        }
        timeout->next = t->next;
 8031a3e:	6019      	str	r1, [r3, #0]
        t->next = timeout;
 8031a40:	6013      	str	r3, [r2, #0]
        break;
 8031a42:	bd70      	pop	{r4, r5, r6, pc}
    next_timeout->time -= msecs;
    timeout->next = next_timeout;
    next_timeout = timeout;
  } else {
    for(t = next_timeout; t != NULL; t = t->next) {
      timeout->time -= t->time;
 8031a44:	6851      	ldr	r1, [r2, #4]
 8031a46:	6858      	ldr	r0, [r3, #4]
 8031a48:	1a40      	subs	r0, r0, r1
      if (t->next == NULL || t->next->time > timeout->time) {
 8031a4a:	6811      	ldr	r1, [r2, #0]
    next_timeout->time -= msecs;
    timeout->next = next_timeout;
    next_timeout = timeout;
  } else {
    for(t = next_timeout; t != NULL; t = t->next) {
      timeout->time -= t->time;
 8031a4c:	6058      	str	r0, [r3, #4]
      if (t->next == NULL || t->next->time > timeout->time) {
 8031a4e:	2900      	cmp	r1, #0
 8031a50:	d1f0      	bne.n	8031a34 <sys_timeout+0x30>
 8031a52:	e7f4      	b.n	8031a3e <sys_timeout+0x3a>
        if (t->next != NULL) {
          t->next->time -= timeout->time;
 8031a54:	1a20      	subs	r0, r4, r0
 8031a56:	6048      	str	r0, [r1, #4]
 8031a58:	e7f1      	b.n	8031a3e <sys_timeout+0x3a>
 8031a5a:	bd70      	pop	{r4, r5, r6, pc}
 8031a5c:	2000c414 	.word	0x2000c414

08031a60 <sys_timeouts_init>:
}
#endif /* LWIP_DNS */

/** Initialize this module */
void sys_timeouts_init(void)
{
 8031a60:	b508      	push	{r3, lr}
#if IP_REASSEMBLY
  sys_timeout(IP_TMR_INTERVAL, ip_reass_timer, NULL);
#endif /* IP_REASSEMBLY */
#if LWIP_ARP
  sys_timeout(ARP_TMR_INTERVAL, arp_timer, NULL);
 8031a62:	2200      	movs	r2, #0
 8031a64:	f241 3088 	movw	r0, #5000	; 0x1388
 8031a68:	4908      	ldr	r1, [pc, #32]	; (8031a8c <sys_timeouts_init+0x2c>)
 8031a6a:	f7ff ffcb 	bl	8031a04 <sys_timeout>
#endif /* LWIP_ARP */
#if LWIP_DHCP
  sys_timeout(DHCP_COARSE_TIMER_MSECS, dhcp_timer_coarse, NULL);
 8031a6e:	2200      	movs	r2, #0
 8031a70:	f64e 2060 	movw	r0, #60000	; 0xea60
 8031a74:	4906      	ldr	r1, [pc, #24]	; (8031a90 <sys_timeouts_init+0x30>)
 8031a76:	f7ff ffc5 	bl	8031a04 <sys_timeout>
  sys_timeout(DHCP_FINE_TIMER_MSECS, dhcp_timer_fine, NULL);
 8031a7a:	4906      	ldr	r1, [pc, #24]	; (8031a94 <sys_timeouts_init+0x34>)
 8031a7c:	f44f 70fa 	mov.w	r0, #500	; 0x1f4
 8031a80:	2200      	movs	r2, #0

#if NO_SYS
  /* Initialise timestamp for sys_check_timeouts */
  timeouts_last_time = sys_now();
#endif
}
 8031a82:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
#if LWIP_ARP
  sys_timeout(ARP_TMR_INTERVAL, arp_timer, NULL);
#endif /* LWIP_ARP */
#if LWIP_DHCP
  sys_timeout(DHCP_COARSE_TIMER_MSECS, dhcp_timer_coarse, NULL);
  sys_timeout(DHCP_FINE_TIMER_MSECS, dhcp_timer_fine, NULL);
 8031a86:	f7ff bfbd 	b.w	8031a04 <sys_timeout>
 8031a8a:	bf00      	nop
 8031a8c:	08031ad1 	.word	0x08031ad1
 8031a90:	08031ab5 	.word	0x08031ab5
 8031a94:	08031a99 	.word	0x08031a99

08031a98 <dhcp_timer_fine>:
 *
 * @param arg unused argument
 */
static void
dhcp_timer_fine(void *arg)
{
 8031a98:	b508      	push	{r3, lr}
  LWIP_UNUSED_ARG(arg);
  LWIP_DEBUGF(TIMERS_DEBUG, ("tcpip: dhcp_fine_tmr()\n"));
  dhcp_fine_tmr();
 8031a9a:	f7fd f9c9 	bl	802ee30 <dhcp_fine_tmr>
  sys_timeout(DHCP_FINE_TIMER_MSECS, dhcp_timer_fine, NULL);
 8031a9e:	4904      	ldr	r1, [pc, #16]	; (8031ab0 <dhcp_timer_fine+0x18>)
 8031aa0:	f44f 70fa 	mov.w	r0, #500	; 0x1f4
 8031aa4:	2200      	movs	r2, #0
}
 8031aa6:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
dhcp_timer_fine(void *arg)
{
  LWIP_UNUSED_ARG(arg);
  LWIP_DEBUGF(TIMERS_DEBUG, ("tcpip: dhcp_fine_tmr()\n"));
  dhcp_fine_tmr();
  sys_timeout(DHCP_FINE_TIMER_MSECS, dhcp_timer_fine, NULL);
 8031aaa:	f7ff bfab 	b.w	8031a04 <sys_timeout>
 8031aae:	bf00      	nop
 8031ab0:	08031a99 	.word	0x08031a99

08031ab4 <dhcp_timer_coarse>:
 *
 * @param arg unused argument
 */
static void
dhcp_timer_coarse(void *arg)
{
 8031ab4:	b508      	push	{r3, lr}
  LWIP_UNUSED_ARG(arg);
  LWIP_DEBUGF(TIMERS_DEBUG, ("tcpip: dhcp_coarse_tmr()\n"));
  dhcp_coarse_tmr();
 8031ab6:	f7fd f939 	bl	802ed2c <dhcp_coarse_tmr>
  sys_timeout(DHCP_COARSE_TIMER_MSECS, dhcp_timer_coarse, NULL);
 8031aba:	4904      	ldr	r1, [pc, #16]	; (8031acc <dhcp_timer_coarse+0x18>)
 8031abc:	f64e 2060 	movw	r0, #60000	; 0xea60
 8031ac0:	2200      	movs	r2, #0
}
 8031ac2:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
dhcp_timer_coarse(void *arg)
{
  LWIP_UNUSED_ARG(arg);
  LWIP_DEBUGF(TIMERS_DEBUG, ("tcpip: dhcp_coarse_tmr()\n"));
  dhcp_coarse_tmr();
  sys_timeout(DHCP_COARSE_TIMER_MSECS, dhcp_timer_coarse, NULL);
 8031ac6:	f7ff bf9d 	b.w	8031a04 <sys_timeout>
 8031aca:	bf00      	nop
 8031acc:	08031ab5 	.word	0x08031ab5

08031ad0 <arp_timer>:
 *
 * @param arg unused argument
 */
static void
arp_timer(void *arg)
{
 8031ad0:	b508      	push	{r3, lr}
  LWIP_UNUSED_ARG(arg);
  LWIP_DEBUGF(TIMERS_DEBUG, ("tcpip: etharp_tmr()\n"));
  etharp_tmr();
 8031ad2:	f004 fd1b 	bl	803650c <etharp_tmr>
  sys_timeout(ARP_TMR_INTERVAL, arp_timer, NULL);
 8031ad6:	4904      	ldr	r1, [pc, #16]	; (8031ae8 <arp_timer+0x18>)
 8031ad8:	f241 3088 	movw	r0, #5000	; 0x1388
 8031adc:	2200      	movs	r2, #0
}
 8031ade:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
arp_timer(void *arg)
{
  LWIP_UNUSED_ARG(arg);
  LWIP_DEBUGF(TIMERS_DEBUG, ("tcpip: etharp_tmr()\n"));
  etharp_tmr();
  sys_timeout(ARP_TMR_INTERVAL, arp_timer, NULL);
 8031ae2:	f7ff bf8f 	b.w	8031a04 <sys_timeout>
 8031ae6:	bf00      	nop
 8031ae8:	08031ad1 	.word	0x08031ad1

08031aec <tcp_timer_needed>:
 */
void
tcp_timer_needed(void)
{
  /* timer is off but needed again? */
  if (!tcpip_tcp_timer_active && (tcp_active_pcbs || tcp_tw_pcbs)) {
 8031aec:	4b08      	ldr	r3, [pc, #32]	; (8031b10 <tcp_timer_needed+0x24>)
 8031aee:	681b      	ldr	r3, [r3, #0]
 8031af0:	b96b      	cbnz	r3, 8031b0e <tcp_timer_needed+0x22>
 8031af2:	4b08      	ldr	r3, [pc, #32]	; (8031b14 <tcp_timer_needed+0x28>)
 8031af4:	681b      	ldr	r3, [r3, #0]
 8031af6:	b913      	cbnz	r3, 8031afe <tcp_timer_needed+0x12>
 8031af8:	4b07      	ldr	r3, [pc, #28]	; (8031b18 <tcp_timer_needed+0x2c>)
 8031afa:	681b      	ldr	r3, [r3, #0]
 8031afc:	b13b      	cbz	r3, 8031b0e <tcp_timer_needed+0x22>
    /* enable and start timer */
    tcpip_tcp_timer_active = 1;
 8031afe:	4b04      	ldr	r3, [pc, #16]	; (8031b10 <tcp_timer_needed+0x24>)
    sys_timeout(TCP_TMR_INTERVAL, tcpip_tcp_timer, NULL);
 8031b00:	4906      	ldr	r1, [pc, #24]	; (8031b1c <tcp_timer_needed+0x30>)
tcp_timer_needed(void)
{
  /* timer is off but needed again? */
  if (!tcpip_tcp_timer_active && (tcp_active_pcbs || tcp_tw_pcbs)) {
    /* enable and start timer */
    tcpip_tcp_timer_active = 1;
 8031b02:	2201      	movs	r2, #1
 8031b04:	601a      	str	r2, [r3, #0]
    sys_timeout(TCP_TMR_INTERVAL, tcpip_tcp_timer, NULL);
 8031b06:	20fa      	movs	r0, #250	; 0xfa
 8031b08:	2200      	movs	r2, #0
 8031b0a:	f7ff bf7b 	b.w	8031a04 <sys_timeout>
 8031b0e:	4770      	bx	lr
 8031b10:	2000c410 	.word	0x2000c410
 8031b14:	2000f6ac 	.word	0x2000f6ac
 8031b18:	2000f6c0 	.word	0x2000f6c0
 8031b1c:	08031b21 	.word	0x08031b21

08031b20 <tcpip_tcp_timer>:
 *
 * @param arg unused argument
 */
static void
tcpip_tcp_timer(void *arg)
{
 8031b20:	b508      	push	{r3, lr}
  LWIP_UNUSED_ARG(arg);

  /* call TCP timer handler */
  tcp_tmr();
 8031b22:	f7fe fad3 	bl	80300cc <tcp_tmr>
  /* timer still needed? */
  if (tcp_active_pcbs || tcp_tw_pcbs) {
 8031b26:	4b08      	ldr	r3, [pc, #32]	; (8031b48 <tcpip_tcp_timer+0x28>)
 8031b28:	681b      	ldr	r3, [r3, #0]
 8031b2a:	b913      	cbnz	r3, 8031b32 <tcpip_tcp_timer+0x12>
 8031b2c:	4b07      	ldr	r3, [pc, #28]	; (8031b4c <tcpip_tcp_timer+0x2c>)
 8031b2e:	681b      	ldr	r3, [r3, #0]
 8031b30:	b133      	cbz	r3, 8031b40 <tcpip_tcp_timer+0x20>
    /* restart timer */
    sys_timeout(TCP_TMR_INTERVAL, tcpip_tcp_timer, NULL);
 8031b32:	4907      	ldr	r1, [pc, #28]	; (8031b50 <tcpip_tcp_timer+0x30>)
 8031b34:	20fa      	movs	r0, #250	; 0xfa
 8031b36:	2200      	movs	r2, #0
  } else {
    /* disable timer */
    tcpip_tcp_timer_active = 0;
  }
}
 8031b38:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  /* call TCP timer handler */
  tcp_tmr();
  /* timer still needed? */
  if (tcp_active_pcbs || tcp_tw_pcbs) {
    /* restart timer */
    sys_timeout(TCP_TMR_INTERVAL, tcpip_tcp_timer, NULL);
 8031b3c:	f7ff bf62 	b.w	8031a04 <sys_timeout>
  } else {
    /* disable timer */
    tcpip_tcp_timer_active = 0;
 8031b40:	4a04      	ldr	r2, [pc, #16]	; (8031b54 <tcpip_tcp_timer+0x34>)
 8031b42:	6013      	str	r3, [r2, #0]
 8031b44:	bd08      	pop	{r3, pc}
 8031b46:	bf00      	nop
 8031b48:	2000f6ac 	.word	0x2000f6ac
 8031b4c:	2000f6c0 	.word	0x2000f6c0
 8031b50:	08031b21 	.word	0x08031b21
 8031b54:	2000c410 	.word	0x2000c410

08031b58 <sys_untimeout>:
void
sys_untimeout(sys_timeout_handler handler, void *arg)
{
  struct sys_timeo *prev_t, *t;

  if (next_timeout == NULL) {
 8031b58:	4b10      	ldr	r3, [pc, #64]	; (8031b9c <sys_untimeout+0x44>)
 8031b5a:	681b      	ldr	r3, [r3, #0]
 * @param handler callback function that would be called by the timeout
 * @param arg callback argument that would be passed to handler
*/
void
sys_untimeout(sys_timeout_handler handler, void *arg)
{
 8031b5c:	b510      	push	{r4, lr}
  struct sys_timeo *prev_t, *t;

  if (next_timeout == NULL) {
 8031b5e:	b1e3      	cbz	r3, 8031b9a <sys_untimeout+0x42>
 8031b60:	2200      	movs	r2, #0
 8031b62:	e000      	b.n	8031b66 <sys_untimeout+0xe>
    return;
  }

  for (t = next_timeout, prev_t = NULL; t != NULL; prev_t = t, t = t->next) {
 8031b64:	4623      	mov	r3, r4
    if ((t->h == handler) && (t->arg == arg)) {
 8031b66:	689c      	ldr	r4, [r3, #8]
 8031b68:	4284      	cmp	r4, r0
 8031b6a:	d112      	bne.n	8031b92 <sys_untimeout+0x3a>
 8031b6c:	68dc      	ldr	r4, [r3, #12]
 8031b6e:	428c      	cmp	r4, r1
 8031b70:	d10f      	bne.n	8031b92 <sys_untimeout+0x3a>
 8031b72:	6819      	ldr	r1, [r3, #0]
      /* We have a match */
      /* Unlink from previous in list */
      if (prev_t == NULL) {
 8031b74:	b902      	cbnz	r2, 8031b78 <sys_untimeout+0x20>
        next_timeout = t->next;
 8031b76:	4a09      	ldr	r2, [pc, #36]	; (8031b9c <sys_untimeout+0x44>)
      } else {
        prev_t->next = t->next;
 8031b78:	6011      	str	r1, [r2, #0]
      }
      /* If not the last one, add time of this one back to next */
      if (t->next != NULL) {
 8031b7a:	681a      	ldr	r2, [r3, #0]
 8031b7c:	b11a      	cbz	r2, 8031b86 <sys_untimeout+0x2e>
        t->next->time += t->time;
 8031b7e:	6850      	ldr	r0, [r2, #4]
 8031b80:	6859      	ldr	r1, [r3, #4]
 8031b82:	1841      	adds	r1, r0, r1
 8031b84:	6051      	str	r1, [r2, #4]
      }
      memp_free(MEMP_SYS_TIMEOUT, t);
 8031b86:	2009      	movs	r0, #9
 8031b88:	4619      	mov	r1, r3
      return;
    }
  }
  return;
}
 8031b8a:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
      }
      /* If not the last one, add time of this one back to next */
      if (t->next != NULL) {
        t->next->time += t->time;
      }
      memp_free(MEMP_SYS_TIMEOUT, t);
 8031b8e:	f7fd bba9 	b.w	802f2e4 <memp_free>

  if (next_timeout == NULL) {
    return;
  }

  for (t = next_timeout, prev_t = NULL; t != NULL; prev_t = t, t = t->next) {
 8031b92:	681c      	ldr	r4, [r3, #0]
 8031b94:	461a      	mov	r2, r3
 8031b96:	2c00      	cmp	r4, #0
 8031b98:	d1e4      	bne.n	8031b64 <sys_untimeout+0xc>
 8031b9a:	bd10      	pop	{r4, pc}
 8031b9c:	2000c414 	.word	0x2000c414

08031ba0 <sys_timeouts_mbox_fetch>:
 * @param mbox the mbox to fetch the message from
 * @param msg the place to store the message
 */
void
sys_timeouts_mbox_fetch(sys_mbox_t *mbox, void **msg)
{
 8031ba0:	e92d 43f8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
  struct sys_timeo *tmptimeout;
  sys_timeout_handler handler;
  void *arg;

 again:
  if (!next_timeout) {
 8031ba4:	4e18      	ldr	r6, [pc, #96]	; (8031c08 <sys_timeouts_mbox_fetch+0x68>)
 * @param mbox the mbox to fetch the message from
 * @param msg the place to store the message
 */
void
sys_timeouts_mbox_fetch(sys_mbox_t *mbox, void **msg)
{
 8031ba6:	4604      	mov	r4, r0
 8031ba8:	460d      	mov	r5, r1
 8031baa:	4637      	mov	r7, r6
  struct sys_timeo *tmptimeout;
  sys_timeout_handler handler;
  void *arg;

 again:
  if (!next_timeout) {
 8031bac:	6832      	ldr	r2, [r6, #0]
 8031bae:	b92a      	cbnz	r2, 8031bbc <sys_timeouts_mbox_fetch+0x1c>
    time_needed = sys_arch_mbox_fetch(mbox, msg, 0);
 8031bb0:	4620      	mov	r0, r4
 8031bb2:	4629      	mov	r1, r5
      } else {
        next_timeout->time = 0;
      }
    }
  }
}
 8031bb4:	e8bd 43f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
  sys_timeout_handler handler;
  void *arg;

 again:
  if (!next_timeout) {
    time_needed = sys_arch_mbox_fetch(mbox, msg, 0);
 8031bb8:	f005 b8d4 	b.w	8036d64 <sys_arch_mbox_fetch>
  } else {
    if (next_timeout->time > 0) {
 8031bbc:	6852      	ldr	r2, [r2, #4]
 8031bbe:	b96a      	cbnz	r2, 8031bdc <sys_timeouts_mbox_fetch+0x3c>

    if (time_needed == SYS_ARCH_TIMEOUT) {
      /* If time == SYS_ARCH_TIMEOUT, a timeout occured before a message
         could be fetched. We should now call the timeout handler and
         deallocate the memory allocated for the timeout. */
      tmptimeout = next_timeout;
 8031bc0:	6839      	ldr	r1, [r7, #0]
      next_timeout = tmptimeout->next;
 8031bc2:	680a      	ldr	r2, [r1, #0]
      handler = tmptimeout->h;
 8031bc4:	f8d1 8008 	ldr.w	r8, [r1, #8]
    if (time_needed == SYS_ARCH_TIMEOUT) {
      /* If time == SYS_ARCH_TIMEOUT, a timeout occured before a message
         could be fetched. We should now call the timeout handler and
         deallocate the memory allocated for the timeout. */
      tmptimeout = next_timeout;
      next_timeout = tmptimeout->next;
 8031bc8:	603a      	str	r2, [r7, #0]
      if (handler != NULL) {
        LWIP_DEBUGF(TIMERS_DEBUG, ("stmf calling h=%s arg=%p\n",
          tmptimeout->handler_name, arg));
      }
#endif /* LWIP_DEBUG_TIMERNAMES */
      memp_free(MEMP_SYS_TIMEOUT, tmptimeout);
 8031bca:	2009      	movs	r0, #9
         could be fetched. We should now call the timeout handler and
         deallocate the memory allocated for the timeout. */
      tmptimeout = next_timeout;
      next_timeout = tmptimeout->next;
      handler = tmptimeout->h;
      arg = tmptimeout->arg;
 8031bcc:	f8d1 900c 	ldr.w	r9, [r1, #12]
      if (handler != NULL) {
        LWIP_DEBUGF(TIMERS_DEBUG, ("stmf calling h=%s arg=%p\n",
          tmptimeout->handler_name, arg));
      }
#endif /* LWIP_DEBUG_TIMERNAMES */
      memp_free(MEMP_SYS_TIMEOUT, tmptimeout);
 8031bd0:	f7fd fb88 	bl	802f2e4 <memp_free>
      if (handler != NULL) {
 8031bd4:	f1b8 0f00 	cmp.w	r8, #0
 8031bd8:	d0e8      	beq.n	8031bac <sys_timeouts_mbox_fetch+0xc>
 8031bda:	e006      	b.n	8031bea <sys_timeouts_mbox_fetch+0x4a>
 again:
  if (!next_timeout) {
    time_needed = sys_arch_mbox_fetch(mbox, msg, 0);
  } else {
    if (next_timeout->time > 0) {
      time_needed = sys_arch_mbox_fetch(mbox, msg, next_timeout->time);
 8031bdc:	4620      	mov	r0, r4
 8031bde:	4629      	mov	r1, r5
 8031be0:	f005 f8c0 	bl	8036d64 <sys_arch_mbox_fetch>
    } else {
      time_needed = SYS_ARCH_TIMEOUT;
    }

    if (time_needed == SYS_ARCH_TIMEOUT) {
 8031be4:	1c43      	adds	r3, r0, #1
 8031be6:	d0eb      	beq.n	8031bc0 <sys_timeouts_mbox_fetch+0x20>
 8031be8:	e002      	b.n	8031bf0 <sys_timeouts_mbox_fetch+0x50>
      memp_free(MEMP_SYS_TIMEOUT, tmptimeout);
      if (handler != NULL) {
        /* For LWIP_TCPIP_CORE_LOCKING, lock the core before calling the
           timeout handler function. */
        LOCK_TCPIP_CORE();
        handler(arg);
 8031bea:	4648      	mov	r0, r9
 8031bec:	47c0      	blx	r8
 8031bee:	e7dd      	b.n	8031bac <sys_timeouts_mbox_fetch+0xc>
      goto again;
    } else {
      /* If time != SYS_ARCH_TIMEOUT, a message was received before the timeout
         occured. The time variable is set to the number of
         milliseconds we waited for the message. */
      if (time_needed < next_timeout->time) {
 8031bf0:	4b05      	ldr	r3, [pc, #20]	; (8031c08 <sys_timeouts_mbox_fetch+0x68>)
 8031bf2:	681b      	ldr	r3, [r3, #0]
 8031bf4:	6859      	ldr	r1, [r3, #4]
 8031bf6:	4288      	cmp	r0, r1
        next_timeout->time -= time_needed;
 8031bf8:	bf34      	ite	cc
 8031bfa:	ebc0 0201 	rsbcc	r2, r0, r1
      } else {
        next_timeout->time = 0;
 8031bfe:	2200      	movcs	r2, #0
 8031c00:	605a      	str	r2, [r3, #4]
 8031c02:	e8bd 83f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, pc}
 8031c06:	bf00      	nop
 8031c08:	2000c414 	.word	0x2000c414

08031c0c <udp_init>:
/**
 * Initialize this module.
 */
void
udp_init(void)
{
 8031c0c:	4770      	bx	lr
 8031c0e:	0000      	movs	r0, r0

08031c10 <udp_input>:
 * @param inp network interface on which the datagram was received.
 *
 */
void
udp_input(struct pbuf *p, struct netif *inp)
{
 8031c10:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}

  PERF_START;

  UDP_STATS_INC(udp.recv);

  iphdr = (struct ip_hdr *)p->payload;
 8031c14:	f8d0 9004 	ldr.w	r9, [r0, #4]

  /* Check minimum length (IP header + UDP header)
   * and move payload pointer to UDP header */
  if (p->tot_len < (IPH_HL(iphdr) * 4 + UDP_HLEN) || pbuf_header(p, -(s16_t)(IPH_HL(iphdr) * 4))) {
 8031c18:	8903      	ldrh	r3, [r0, #8]
 * @param inp network interface on which the datagram was received.
 *
 */
void
udp_input(struct pbuf *p, struct netif *inp)
{
 8031c1a:	460e      	mov	r6, r1

  iphdr = (struct ip_hdr *)p->payload;

  /* Check minimum length (IP header + UDP header)
   * and move payload pointer to UDP header */
  if (p->tot_len < (IPH_HL(iphdr) * 4 + UDP_HLEN) || pbuf_header(p, -(s16_t)(IPH_HL(iphdr) * 4))) {
 8031c1c:	f899 1000 	ldrb.w	r1, [r9]
 8031c20:	f001 010f 	and.w	r1, r1, #15
 8031c24:	1c8a      	adds	r2, r1, #2
 8031c26:	ebb3 0f82 	cmp.w	r3, r2, lsl #2
 * @param inp network interface on which the datagram was received.
 *
 */
void
udp_input(struct pbuf *p, struct netif *inp)
{
 8031c2a:	b085      	sub	sp, #20
 8031c2c:	4605      	mov	r5, r0

  iphdr = (struct ip_hdr *)p->payload;

  /* Check minimum length (IP header + UDP header)
   * and move payload pointer to UDP header */
  if (p->tot_len < (IPH_HL(iphdr) * 4 + UDP_HLEN) || pbuf_header(p, -(s16_t)(IPH_HL(iphdr) * 4))) {
 8031c2e:	db05      	blt.n	8031c3c <udp_input+0x2c>
 8031c30:	0089      	lsls	r1, r1, #2
 8031c32:	4249      	negs	r1, r1
 8031c34:	f7fd fc35 	bl	802f4a2 <pbuf_header>
 8031c38:	4683      	mov	fp, r0
 8031c3a:	b110      	cbz	r0, 8031c42 <udp_input+0x32>
    /* drop short packets */
    LWIP_DEBUGF(UDP_DEBUG,
                ("udp_input: short UDP datagram (%"U16_F" bytes) discarded\n", p->tot_len));
    UDP_STATS_INC(udp.lenerr);
    UDP_STATS_INC(udp.drop);
    snmp_inc_udpinerrors();
 8031c3c:	f002 fa88 	bl	8034150 <snmp_inc_udpinerrors>
 8031c40:	e096      	b.n	8031d70 <udp_input+0x160>
  }

  udphdr = (struct udp_hdr *)p->payload;

  /* is broadcast packet ? */
  broadcast = ip_addr_isbroadcast(&current_iphdr_dest, inp);
 8031c42:	f8df a150 	ldr.w	sl, [pc, #336]	; 8031d94 <udp_input+0x184>
    snmp_inc_udpinerrors();
    pbuf_free(p);
    goto end;
  }

  udphdr = (struct udp_hdr *)p->payload;
 8031c46:	686c      	ldr	r4, [r5, #4]

  /* is broadcast packet ? */
  broadcast = ip_addr_isbroadcast(&current_iphdr_dest, inp);
 8031c48:	f8da 0000 	ldr.w	r0, [sl]
 8031c4c:	4631      	mov	r1, r6
 8031c4e:	f000 faed 	bl	803222c <ip4_addr_isbroadcast>
 8031c52:	4680      	mov	r8, r0

  LWIP_DEBUGF(UDP_DEBUG, ("udp_input: received datagram of length %"U16_F"\n", p->tot_len));

  /* convert src and dest ports to host byte order */
  src = ntohs(udphdr->src);
 8031c54:	8820      	ldrh	r0, [r4, #0]
 8031c56:	f7fc fb16 	bl	802e286 <lwip_ntohs>
 8031c5a:	4607      	mov	r7, r0
  dest = ntohs(udphdr->dest);
 8031c5c:	8860      	ldrh	r0, [r4, #2]
 8031c5e:	f7fc fb12 	bl	802e286 <lwip_ntohs>

#if LWIP_DHCP
  pcb = NULL;
  /* when LWIP_DHCP is active, packets to DHCP_CLIENT_PORT may only be processed by
     the dhcp module, no other UDP pcb may use the local UDP port DHCP_CLIENT_PORT */
  if (dest == DHCP_CLIENT_PORT) {
 8031c62:	2844      	cmp	r0, #68	; 0x44
 8031c64:	d10f      	bne.n	8031c86 <udp_input+0x76>
    /* all packets for DHCP_CLIENT_PORT not coming from DHCP_SERVER_PORT are dropped! */
    if (src == DHCP_SERVER_PORT) {
 8031c66:	2f43      	cmp	r7, #67	; 0x43
 8031c68:	d14f      	bne.n	8031d0a <udp_input+0xfa>
      if ((inp->dhcp != NULL) && (inp->dhcp->pcb != NULL)) {
 8031c6a:	6a33      	ldr	r3, [r6, #32]
 8031c6c:	2b00      	cmp	r3, #0
 8031c6e:	d04c      	beq.n	8031d0a <udp_input+0xfa>
 8031c70:	685c      	ldr	r4, [r3, #4]
 8031c72:	2c00      	cmp	r4, #0
 8031c74:	d049      	beq.n	8031d0a <udp_input+0xfa>
        /* accept the packe if 
           (- broadcast or directed to us) -> DHCP is link-layer-addressed, local ip is always ANY!
           - inp->dhcp->pcb->remote == ANY or iphdr->src */
        if ((ip_addr_isany(&inp->dhcp->pcb->remote_ip) ||
 8031c76:	6863      	ldr	r3, [r4, #4]
 8031c78:	2b00      	cmp	r3, #0
 8031c7a:	d04e      	beq.n	8031d1a <udp_input+0x10a>
           ip_addr_cmp(&(inp->dhcp->pcb->remote_ip), &current_iphdr_src))) {
 8031c7c:	4a43      	ldr	r2, [pc, #268]	; (8031d8c <udp_input+0x17c>)
    if (src == DHCP_SERVER_PORT) {
      if ((inp->dhcp != NULL) && (inp->dhcp->pcb != NULL)) {
        /* accept the packe if 
           (- broadcast or directed to us) -> DHCP is link-layer-addressed, local ip is always ANY!
           - inp->dhcp->pcb->remote == ANY or iphdr->src */
        if ((ip_addr_isany(&inp->dhcp->pcb->remote_ip) ||
 8031c7e:	6812      	ldr	r2, [r2, #0]
 8031c80:	4293      	cmp	r3, r2
 8031c82:	d142      	bne.n	8031d0a <udp_input+0xfa>
 8031c84:	e049      	b.n	8031d1a <udp_input+0x10a>
    uncon_pcb = NULL;
    /* Iterate through the UDP pcb list for a matching pcb.
     * 'Perfect match' pcbs (connected to the remote port & ip address) are
     * preferred. If no perfect match is found, the first unconnected pcb that
     * matches the local port and ip address gets the datagram. */
    for (pcb = udp_pcbs; pcb != NULL; pcb = pcb->next) {
 8031c86:	4b42      	ldr	r3, [pc, #264]	; (8031d90 <udp_input+0x180>)

      /* compare PCB local addr+port to UDP destination addr+port */
      if (pcb->local_port == dest) {
        if (
           (!broadcast && ip_addr_isany(&pcb->local_ip)) ||
           ip_addr_cmp(&(pcb->local_ip), &current_iphdr_dest) ||
 8031c88:	f8da a000 	ldr.w	sl, [sl]
    uncon_pcb = NULL;
    /* Iterate through the UDP pcb list for a matching pcb.
     * 'Perfect match' pcbs (connected to the remote port & ip address) are
     * preferred. If no perfect match is found, the first unconnected pcb that
     * matches the local port and ip address gets the datagram. */
    for (pcb = udp_pcbs; pcb != NULL; pcb = pcb->next) {
 8031c8c:	f8d3 c000 	ldr.w	ip, [r3]
      }
      /* compare PCB remote addr+port to UDP source addr+port */
      if ((local_match != 0) &&
          (pcb->remote_port == src) &&
          (ip_addr_isany(&pcb->remote_ip) ||
           ip_addr_cmp(&(pcb->remote_ip), &current_iphdr_src))) {
 8031c90:	4b3e      	ldr	r3, [pc, #248]	; (8031d8c <udp_input+0x17c>)
 8031c92:	681b      	ldr	r3, [r3, #0]
    uncon_pcb = NULL;
    /* Iterate through the UDP pcb list for a matching pcb.
     * 'Perfect match' pcbs (connected to the remote port & ip address) are
     * preferred. If no perfect match is found, the first unconnected pcb that
     * matches the local port and ip address gets the datagram. */
    for (pcb = udp_pcbs; pcb != NULL; pcb = pcb->next) {
 8031c94:	4664      	mov	r4, ip
      }
      /* compare PCB remote addr+port to UDP source addr+port */
      if ((local_match != 0) &&
          (pcb->remote_port == src) &&
          (ip_addr_isany(&pcb->remote_ip) ||
           ip_addr_cmp(&(pcb->remote_ip), &current_iphdr_src))) {
 8031c96:	9303      	str	r3, [sp, #12]
      }
    }
  } else
#endif /* LWIP_DHCP */
  {
    prev = NULL;
 8031c98:	4659      	mov	r1, fp
    local_match = 0;
    uncon_pcb = NULL;
 8031c9a:	465b      	mov	r3, fp
    /* Iterate through the UDP pcb list for a matching pcb.
     * 'Perfect match' pcbs (connected to the remote port & ip address) are
     * preferred. If no perfect match is found, the first unconnected pcb that
     * matches the local port and ip address gets the datagram. */
    for (pcb = udp_pcbs; pcb != NULL; pcb = pcb->next) {
 8031c9c:	e032      	b.n	8031d04 <udp_input+0xf4>
                   ip4_addr3_16(&pcb->local_ip), ip4_addr4_16(&pcb->local_ip), pcb->local_port,
                   ip4_addr1_16(&pcb->remote_ip), ip4_addr2_16(&pcb->remote_ip),
                   ip4_addr3_16(&pcb->remote_ip), ip4_addr4_16(&pcb->remote_ip), pcb->remote_port));

      /* compare PCB local addr+port to UDP destination addr+port */
      if (pcb->local_port == dest) {
 8031c9e:	8a62      	ldrh	r2, [r4, #18]
 8031ca0:	4282      	cmp	r2, r0
 8031ca2:	d12d      	bne.n	8031d00 <udp_input+0xf0>
 8031ca4:	6822      	ldr	r2, [r4, #0]
        if (
 8031ca6:	f1b8 0f00 	cmp.w	r8, #0
 8031caa:	d100      	bne.n	8031cae <udp_input+0x9e>
           (!broadcast && ip_addr_isany(&pcb->local_ip)) ||
 8031cac:	b15a      	cbz	r2, 8031cc6 <udp_input+0xb6>
 8031cae:	4552      	cmp	r2, sl
 8031cb0:	d009      	beq.n	8031cc6 <udp_input+0xb6>
           ip_addr_cmp(&(pcb->local_ip), &current_iphdr_dest) ||
 8031cb2:	f1b8 0f00 	cmp.w	r8, #0
 8031cb6:	d023      	beq.n	8031d00 <udp_input+0xf0>
            (broadcast && ip_get_option(pcb, SOF_BROADCAST) &&
             (ip_addr_isany(&pcb->local_ip) ||
              ip_addr_netcmp(&pcb->local_ip, ip_current_dest_addr(), &inp->netmask)))) {
#else /* IP_SOF_BROADCAST_RECV */
            (broadcast &&
             (ip_addr_isany(&pcb->local_ip) ||
 8031cb8:	b12a      	cbz	r2, 8031cc6 <udp_input+0xb6>
              ip_addr_netcmp(&pcb->local_ip, ip_current_dest_addr(), &inp->netmask)))) {
 8031cba:	ea8a 0b02 	eor.w	fp, sl, r2
 8031cbe:	68b2      	ldr	r2, [r6, #8]
            (broadcast && ip_get_option(pcb, SOF_BROADCAST) &&
             (ip_addr_isany(&pcb->local_ip) ||
              ip_addr_netcmp(&pcb->local_ip, ip_current_dest_addr(), &inp->netmask)))) {
#else /* IP_SOF_BROADCAST_RECV */
            (broadcast &&
             (ip_addr_isany(&pcb->local_ip) ||
 8031cc0:	ea1b 0f02 	tst.w	fp, r2
 8031cc4:	d11c      	bne.n	8031d00 <udp_input+0xf0>
              ip_addr_netcmp(&pcb->local_ip, ip_current_dest_addr(), &inp->netmask)))) {
#endif /* IP_SOF_BROADCAST_RECV */ 
          local_match = 1;
          if ((uncon_pcb == NULL) && 
 8031cc6:	2b00      	cmp	r3, #0
 8031cc8:	d158      	bne.n	8031d7c <udp_input+0x16c>
              ((pcb->flags & UDP_FLAGS_CONNECTED) == 0)) {
 8031cca:	7c23      	ldrb	r3, [r4, #16]
            (broadcast &&
             (ip_addr_isany(&pcb->local_ip) ||
              ip_addr_netcmp(&pcb->local_ip, ip_current_dest_addr(), &inp->netmask)))) {
#endif /* IP_SOF_BROADCAST_RECV */ 
          local_match = 1;
          if ((uncon_pcb == NULL) && 
 8031ccc:	f003 0304 	and.w	r3, r3, #4
 8031cd0:	b2db      	uxtb	r3, r3
 8031cd2:	2b00      	cmp	r3, #0
 8031cd4:	bf0c      	ite	eq
 8031cd6:	4623      	moveq	r3, r4
 8031cd8:	2300      	movne	r3, #0
 8031cda:	e04f      	b.n	8031d7c <udp_input+0x16c>
        }
      }
      /* compare PCB remote addr+port to UDP source addr+port */
      if ((local_match != 0) &&
          (pcb->remote_port == src) &&
          (ip_addr_isany(&pcb->remote_ip) ||
 8031cdc:	f8d4 b004 	ldr.w	fp, [r4, #4]
 8031ce0:	f1bb 0f00 	cmp.w	fp, #0
 8031ce4:	d101      	bne.n	8031cea <udp_input+0xda>
           ip_addr_cmp(&(pcb->remote_ip), &current_iphdr_src))) {
        /* the first fully matching PCB */
        if (prev != NULL) {
 8031ce6:	b921      	cbnz	r1, 8031cf2 <udp_input+0xe2>
 8031ce8:	e017      	b.n	8031d1a <udp_input+0x10a>
        }
      }
      /* compare PCB remote addr+port to UDP source addr+port */
      if ((local_match != 0) &&
          (pcb->remote_port == src) &&
          (ip_addr_isany(&pcb->remote_ip) ||
 8031cea:	9a03      	ldr	r2, [sp, #12]
 8031cec:	4593      	cmp	fp, r2
 8031cee:	d107      	bne.n	8031d00 <udp_input+0xf0>
 8031cf0:	e7f9      	b.n	8031ce6 <udp_input+0xd6>
           ip_addr_cmp(&(pcb->remote_ip), &current_iphdr_src))) {
        /* the first fully matching PCB */
        if (prev != NULL) {
          /* move the pcb to the front of udp_pcbs so that is
             found faster next time */
          prev->next = pcb->next;
 8031cf2:	68e3      	ldr	r3, [r4, #12]
 8031cf4:	60cb      	str	r3, [r1, #12]
          pcb->next = udp_pcbs;
          udp_pcbs = pcb;
 8031cf6:	4b26      	ldr	r3, [pc, #152]	; (8031d90 <udp_input+0x180>)
        /* the first fully matching PCB */
        if (prev != NULL) {
          /* move the pcb to the front of udp_pcbs so that is
             found faster next time */
          prev->next = pcb->next;
          pcb->next = udp_pcbs;
 8031cf8:	f8c4 c00c 	str.w	ip, [r4, #12]
          udp_pcbs = pcb;
 8031cfc:	601c      	str	r4, [r3, #0]
 8031cfe:	e00c      	b.n	8031d1a <udp_input+0x10a>
 8031d00:	4621      	mov	r1, r4
    uncon_pcb = NULL;
    /* Iterate through the UDP pcb list for a matching pcb.
     * 'Perfect match' pcbs (connected to the remote port & ip address) are
     * preferred. If no perfect match is found, the first unconnected pcb that
     * matches the local port and ip address gets the datagram. */
    for (pcb = udp_pcbs; pcb != NULL; pcb = pcb->next) {
 8031d02:	68e4      	ldr	r4, [r4, #12]
 8031d04:	2c00      	cmp	r4, #0
 8031d06:	d1ca      	bne.n	8031c9e <udp_input+0x8e>
      pcb = uncon_pcb;
    }
  }

  /* Check checksum if this is a match or if it was directed at us. */
  if (pcb != NULL || ip_addr_cmp(&inp->ip_addr, &current_iphdr_dest)) {
 8031d08:	b933      	cbnz	r3, 8031d18 <udp_input+0x108>
 8031d0a:	4b22      	ldr	r3, [pc, #136]	; (8031d94 <udp_input+0x184>)
 8031d0c:	6872      	ldr	r2, [r6, #4]
 8031d0e:	681b      	ldr	r3, [r3, #0]
 8031d10:	429a      	cmp	r2, r3
 8031d12:	d12d      	bne.n	8031d70 <udp_input+0x160>
 8031d14:	2400      	movs	r4, #0
 8031d16:	e000      	b.n	8031d1a <udp_input+0x10a>
 8031d18:	461c      	mov	r4, r3
          goto end;
        }
      }
#endif /* CHECKSUM_CHECK_UDP */
    }
    if(pbuf_header(p, -UDP_HLEN)) {
 8031d1a:	4628      	mov	r0, r5
 8031d1c:	f06f 0107 	mvn.w	r1, #7
 8031d20:	f7fd fbbf 	bl	802f4a2 <pbuf_header>
 8031d24:	2800      	cmp	r0, #0
 8031d26:	d189      	bne.n	8031c3c <udp_input+0x2c>
      UDP_STATS_INC(udp.drop);
      snmp_inc_udpinerrors();
      pbuf_free(p);
      goto end;
    }
    if (pcb != NULL) {
 8031d28:	b154      	cbz	r4, 8031d40 <udp_input+0x130>
      snmp_inc_udpindatagrams();
 8031d2a:	f002 fa01 	bl	8034130 <snmp_inc_udpindatagrams>
          pbuf_header(p, -(s16_t)((IPH_HL(iphdr) * 4) + UDP_HLEN));
        }
      }
#endif /* SO_REUSE && SO_REUSE_RXTOALL */
      /* callback */
      if (pcb->recv != NULL) {
 8031d2e:	69a6      	ldr	r6, [r4, #24]
 8031d30:	b1f6      	cbz	r6, 8031d70 <udp_input+0x160>
        /* now the recv function is responsible for freeing p */
        pcb->recv(pcb->recv_arg, pcb, p, ip_current_src_addr(), src);
 8031d32:	9700      	str	r7, [sp, #0]
 8031d34:	69e0      	ldr	r0, [r4, #28]
 8031d36:	4b15      	ldr	r3, [pc, #84]	; (8031d8c <udp_input+0x17c>)
 8031d38:	4621      	mov	r1, r4
 8031d3a:	462a      	mov	r2, r5
 8031d3c:	47b0      	blx	r6
 8031d3e:	e021      	b.n	8031d84 <udp_input+0x174>
      LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE, ("udp_input: not for us.\n"));

#if LWIP_ICMP
      /* No match was found, send ICMP destination port unreachable unless
         destination address was broadcast/multicast. */
      if (!broadcast &&
 8031d40:	f1b8 0f00 	cmp.w	r8, #0
 8031d44:	d112      	bne.n	8031d6c <udp_input+0x15c>
          !ip_addr_ismulticast(&current_iphdr_dest)) {
 8031d46:	4b13      	ldr	r3, [pc, #76]	; (8031d94 <udp_input+0x184>)
 8031d48:	681b      	ldr	r3, [r3, #0]
 8031d4a:	f003 03f0 	and.w	r3, r3, #240	; 0xf0
      LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE, ("udp_input: not for us.\n"));

#if LWIP_ICMP
      /* No match was found, send ICMP destination port unreachable unless
         destination address was broadcast/multicast. */
      if (!broadcast &&
 8031d4e:	2be0      	cmp	r3, #224	; 0xe0
 8031d50:	d00c      	beq.n	8031d6c <udp_input+0x15c>
          !ip_addr_ismulticast(&current_iphdr_dest)) {
        /* move payload pointer back to ip header */
        pbuf_header(p, (IPH_HL(iphdr) * 4) + UDP_HLEN);
 8031d52:	f899 1000 	ldrb.w	r1, [r9]
 8031d56:	f001 010f 	and.w	r1, r1, #15
 8031d5a:	3102      	adds	r1, #2
 8031d5c:	0089      	lsls	r1, r1, #2
 8031d5e:	4628      	mov	r0, r5
 8031d60:	f7fd fb9f 	bl	802f4a2 <pbuf_header>
        LWIP_ASSERT("p->payload == iphdr", (p->payload == iphdr));
        icmp_dest_unreach(p, ICMP_DUR_PORT);
 8031d64:	4628      	mov	r0, r5
 8031d66:	2103      	movs	r1, #3
 8031d68:	f000 f9d2 	bl	8032110 <icmp_dest_unreach>
      }
#endif /* LWIP_ICMP */
      UDP_STATS_INC(udp.proterr);
      UDP_STATS_INC(udp.drop);
      snmp_inc_udpnoports();
 8031d6c:	f002 f9e8 	bl	8034140 <snmp_inc_udpnoports>
      pbuf_free(p);
 8031d70:	4628      	mov	r0, r5
  } else {
    pbuf_free(p);
  }
end:
  PERF_STOP("udp_input");
}
 8031d72:	b005      	add	sp, #20
 8031d74:	e8bd 4ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
      }
#endif /* LWIP_ICMP */
      UDP_STATS_INC(udp.proterr);
      UDP_STATS_INC(udp.drop);
      snmp_inc_udpnoports();
      pbuf_free(p);
 8031d78:	f7fd bbbe 	b.w	802f4f8 <pbuf_free>
            uncon_pcb = pcb;
          }
        }
      }
      /* compare PCB remote addr+port to UDP source addr+port */
      if ((local_match != 0) &&
 8031d7c:	8aa2      	ldrh	r2, [r4, #20]
 8031d7e:	42ba      	cmp	r2, r7
 8031d80:	d1be      	bne.n	8031d00 <udp_input+0xf0>
 8031d82:	e7ab      	b.n	8031cdc <udp_input+0xcc>
  } else {
    pbuf_free(p);
  }
end:
  PERF_STOP("udp_input");
}
 8031d84:	b005      	add	sp, #20
 8031d86:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8031d8a:	bf00      	nop
 8031d8c:	2000f6cc 	.word	0x2000f6cc
 8031d90:	2000f6c8 	.word	0x2000f6c8
 8031d94:	2000f6d4 	.word	0x2000f6d4

08031d98 <udp_bind>:
 *
 * @see udp_disconnect()
 */
err_t
udp_bind(struct udp_pcb *pcb, ip_addr_t *ipaddr, u16_t port)
{
 8031d98:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  ip_addr_debug_print(UDP_DEBUG, ipaddr);
  LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE, (", port = %"U16_F")\n", port));

  rebind = 0;
  /* Check for double bind and rebind of the same pcb */
  for (ipcb = udp_pcbs; ipcb != NULL; ipcb = ipcb->next) {
 8031d9a:	4b25      	ldr	r3, [pc, #148]	; (8031e30 <udp_bind+0x98>)
 *
 * @see udp_disconnect()
 */
err_t
udp_bind(struct udp_pcb *pcb, ip_addr_t *ipaddr, u16_t port)
{
 8031d9c:	4604      	mov	r4, r0
  ip_addr_debug_print(UDP_DEBUG, ipaddr);
  LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE, (", port = %"U16_F")\n", port));

  rebind = 0;
  /* Check for double bind and rebind of the same pcb */
  for (ipcb = udp_pcbs; ipcb != NULL; ipcb = ipcb->next) {
 8031d9e:	6818      	ldr	r0, [r3, #0]

  LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE, ("udp_bind(ipaddr = "));
  ip_addr_debug_print(UDP_DEBUG, ipaddr);
  LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE, (", port = %"U16_F")\n", port));

  rebind = 0;
 8031da0:	2500      	movs	r5, #0
  /* Check for double bind and rebind of the same pcb */
  for (ipcb = udp_pcbs; ipcb != NULL; ipcb = ipcb->next) {
 8031da2:	4603      	mov	r3, r0
 8031da4:	e012      	b.n	8031dcc <udp_bind+0x34>
    /* is this UDP PCB already on active list? */
    if (pcb == ipcb) {
 8031da6:	429c      	cmp	r4, r3
 8031da8:	d00e      	beq.n	8031dc8 <udp_bind+0x30>
             !ip_get_option(ipcb, SOF_REUSEADDR)) {
#else /* SO_REUSE */
    /* port matches that of PCB in list and REUSEADDR not set -> reject */
    else {
#endif /* SO_REUSE */
      if ((ipcb->local_port == port) &&
 8031daa:	8a5e      	ldrh	r6, [r3, #18]
 8031dac:	4296      	cmp	r6, r2
 8031dae:	d10c      	bne.n	8031dca <udp_bind+0x32>
          /* IP address matches, or one is IP_ADDR_ANY? */
          (ip_addr_isany(&(ipcb->local_ip)) ||
 8031db0:	681f      	ldr	r7, [r3, #0]
 8031db2:	b90f      	cbnz	r7, 8031db8 <udp_bind+0x20>
           ip_addr_isany(ipaddr) ||
           ip_addr_cmp(&(ipcb->local_ip), ipaddr))) {
        /* other PCB already binds to this local IP and port */
        LWIP_DEBUGF(UDP_DEBUG,
                    ("udp_bind: local port %"U16_F" already bound by another pcb\n", port));
        return ERR_USE;
 8031db4:	20f8      	movs	r0, #248	; 0xf8
 8031db6:	e039      	b.n	8031e2c <udp_bind+0x94>
    /* port matches that of PCB in list and REUSEADDR not set -> reject */
    else {
#endif /* SO_REUSE */
      if ((ipcb->local_port == port) &&
          /* IP address matches, or one is IP_ADDR_ANY? */
          (ip_addr_isany(&(ipcb->local_ip)) ||
 8031db8:	2900      	cmp	r1, #0
 8031dba:	d0fb      	beq.n	8031db4 <udp_bind+0x1c>
           ip_addr_isany(ipaddr) ||
 8031dbc:	680e      	ldr	r6, [r1, #0]
 8031dbe:	2e00      	cmp	r6, #0
 8031dc0:	d0f8      	beq.n	8031db4 <udp_bind+0x1c>
 8031dc2:	42b7      	cmp	r7, r6
 8031dc4:	d101      	bne.n	8031dca <udp_bind+0x32>
 8031dc6:	e7f5      	b.n	8031db4 <udp_bind+0x1c>
    /* is this UDP PCB already on active list? */
    if (pcb == ipcb) {
      /* pcb may occur at most once in active list */
      LWIP_ASSERT("rebind == 0", rebind == 0);
      /* pcb already in list, just rebind */
      rebind = 1;
 8031dc8:	2501      	movs	r5, #1
  ip_addr_debug_print(UDP_DEBUG, ipaddr);
  LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE, (", port = %"U16_F")\n", port));

  rebind = 0;
  /* Check for double bind and rebind of the same pcb */
  for (ipcb = udp_pcbs; ipcb != NULL; ipcb = ipcb->next) {
 8031dca:	68db      	ldr	r3, [r3, #12]
 8031dcc:	2b00      	cmp	r3, #0
 8031dce:	d1ea      	bne.n	8031da6 <udp_bind+0xe>
        return ERR_USE;
      }
    }
  }

  ip_addr_set(&pcb->local_ip, ipaddr);
 8031dd0:	b101      	cbz	r1, 8031dd4 <udp_bind+0x3c>
 8031dd2:	6809      	ldr	r1, [r1, #0]
 8031dd4:	6021      	str	r1, [r4, #0]

  /* no port specified? */
  if (port == 0) {
 8031dd6:	b9fa      	cbnz	r2, 8031e18 <udp_bind+0x80>
 8031dd8:	4b16      	ldr	r3, [pc, #88]	; (8031e34 <udp_bind+0x9c>)
 8031dda:	881a      	ldrh	r2, [r3, #0]
 8031ddc:	f44f 4180 	mov.w	r1, #16384	; 0x4000
{
  u16_t n = 0;
  struct udp_pcb *pcb;
  
again:
  if (udp_port++ == UDP_LOCAL_PORT_RANGE_END) {
 8031de0:	f64f 76ff 	movw	r6, #65535	; 0xffff
 8031de4:	42b2      	cmp	r2, r6
 8031de6:	d002      	beq.n	8031dee <udp_bind+0x56>
 8031de8:	3201      	adds	r2, #1
 8031dea:	b292      	uxth	r2, r2
 8031dec:	e001      	b.n	8031df2 <udp_bind+0x5a>
    udp_port = UDP_LOCAL_PORT_RANGE_START;
 8031dee:	f44f 4240 	mov.w	r2, #49152	; 0xc000
  }
  /* Check all PCBs. */
  for(pcb = udp_pcbs; pcb != NULL; pcb = pcb->next) {
 8031df2:	4603      	mov	r3, r0
 8031df4:	e00a      	b.n	8031e0c <udp_bind+0x74>
    if (pcb->local_port == udp_port) {
 8031df6:	8a5f      	ldrh	r7, [r3, #18]
 8031df8:	4297      	cmp	r7, r2
 8031dfa:	d106      	bne.n	8031e0a <udp_bind+0x72>
 8031dfc:	3901      	subs	r1, #1
 8031dfe:	b289      	uxth	r1, r1
      if (++n > (UDP_LOCAL_PORT_RANGE_END - UDP_LOCAL_PORT_RANGE_START)) {
 8031e00:	2900      	cmp	r1, #0
 8031e02:	d1ef      	bne.n	8031de4 <udp_bind+0x4c>
 8031e04:	4b0b      	ldr	r3, [pc, #44]	; (8031e34 <udp_bind+0x9c>)
 8031e06:	801a      	strh	r2, [r3, #0]
 8031e08:	e7d4      	b.n	8031db4 <udp_bind+0x1c>
again:
  if (udp_port++ == UDP_LOCAL_PORT_RANGE_END) {
    udp_port = UDP_LOCAL_PORT_RANGE_START;
  }
  /* Check all PCBs. */
  for(pcb = udp_pcbs; pcb != NULL; pcb = pcb->next) {
 8031e0a:	68db      	ldr	r3, [r3, #12]
 8031e0c:	2b00      	cmp	r3, #0
 8031e0e:	d1f2      	bne.n	8031df6 <udp_bind+0x5e>
 8031e10:	4b08      	ldr	r3, [pc, #32]	; (8031e34 <udp_bind+0x9c>)
 8031e12:	801a      	strh	r2, [r3, #0]
  ip_addr_set(&pcb->local_ip, ipaddr);

  /* no port specified? */
  if (port == 0) {
    port = udp_new_port();
    if (port == 0) {
 8031e14:	2a00      	cmp	r2, #0
 8031e16:	d0cd      	beq.n	8031db4 <udp_bind+0x1c>
      /* no more ports available in local range */
      LWIP_DEBUGF(UDP_DEBUG, ("udp_bind: out of free UDP ports\n"));
      return ERR_USE;
    }
  }
  pcb->local_port = port;
 8031e18:	8262      	strh	r2, [r4, #18]
  snmp_insert_udpidx_tree(pcb);
 8031e1a:	4620      	mov	r0, r4
 8031e1c:	f002 f9a8 	bl	8034170 <snmp_insert_udpidx_tree>
  /* pcb not active yet? */
  if (rebind == 0) {
 8031e20:	b91d      	cbnz	r5, 8031e2a <udp_bind+0x92>
    /* place the PCB on the active list if not already there */
    pcb->next = udp_pcbs;
 8031e22:	4b03      	ldr	r3, [pc, #12]	; (8031e30 <udp_bind+0x98>)
 8031e24:	681a      	ldr	r2, [r3, #0]
    udp_pcbs = pcb;
 8031e26:	601c      	str	r4, [r3, #0]
  pcb->local_port = port;
  snmp_insert_udpidx_tree(pcb);
  /* pcb not active yet? */
  if (rebind == 0) {
    /* place the PCB on the active list if not already there */
    pcb->next = udp_pcbs;
 8031e28:	60e2      	str	r2, [r4, #12]
  LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_STATE,
              ("udp_bind: bound to %"U16_F".%"U16_F".%"U16_F".%"U16_F", port %"U16_F"\n",
               ip4_addr1_16(&pcb->local_ip), ip4_addr2_16(&pcb->local_ip),
               ip4_addr3_16(&pcb->local_ip), ip4_addr4_16(&pcb->local_ip),
               pcb->local_port));
  return ERR_OK;
 8031e2a:	2000      	movs	r0, #0
}
 8031e2c:	b240      	sxtb	r0, r0
 8031e2e:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 8031e30:	2000f6c8 	.word	0x2000f6c8
 8031e34:	2000071e 	.word	0x2000071e

08031e38 <udp_sendto_if>:
 * @see udp_disconnect() udp_send()
 */
err_t
udp_sendto_if(struct udp_pcb *pcb, struct pbuf *p,
  ip_addr_t *dst_ip, u16_t dst_port, struct netif *netif)
{
 8031e38:	e92d 47ff 	stmdb	sp!, {r0, r1, r2, r3, r4, r5, r6, r7, r8, r9, sl, lr}
 8031e3c:	4692      	mov	sl, r2
    return ERR_VAL;
  }
#endif /* IP_SOF_BROADCAST */

  /* if the PCB is not yet bound to a port, bind it here */
  if (pcb->local_port == 0) {
 8031e3e:	8a42      	ldrh	r2, [r0, #18]
 * @see udp_disconnect() udp_send()
 */
err_t
udp_sendto_if(struct udp_pcb *pcb, struct pbuf *p,
  ip_addr_t *dst_ip, u16_t dst_port, struct netif *netif)
{
 8031e40:	f8dd 8030 	ldr.w	r8, [sp, #48]	; 0x30
 8031e44:	4605      	mov	r5, r0
 8031e46:	460e      	mov	r6, r1
 8031e48:	4699      	mov	r9, r3
    return ERR_VAL;
  }
#endif /* IP_SOF_BROADCAST */

  /* if the PCB is not yet bound to a port, bind it here */
  if (pcb->local_port == 0) {
 8031e4a:	b132      	cbz	r2, 8031e5a <udp_sendto_if+0x22>
      return err;
    }
  }

  /* not enough space to add an UDP header to first pbuf in given p chain? */
  if (pbuf_header(p, UDP_HLEN)) {
 8031e4c:	4630      	mov	r0, r6
 8031e4e:	2108      	movs	r1, #8
 8031e50:	f7fd fb27 	bl	802f4a2 <pbuf_header>
 8031e54:	b940      	cbnz	r0, 8031e68 <udp_sendto_if+0x30>
 8031e56:	4634      	mov	r4, r6
 8031e58:	e013      	b.n	8031e82 <udp_sendto_if+0x4a>
#endif /* IP_SOF_BROADCAST */

  /* if the PCB is not yet bound to a port, bind it here */
  if (pcb->local_port == 0) {
    LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE, ("udp_send: not yet bound to a port, binding now\n"));
    err = udp_bind(pcb, &pcb->local_ip, pcb->local_port);
 8031e5a:	4601      	mov	r1, r0
 8031e5c:	f7ff ff9c 	bl	8031d98 <udp_bind>
    if (err != ERR_OK) {
 8031e60:	4607      	mov	r7, r0
 8031e62:	2800      	cmp	r0, #0
 8031e64:	d0f2      	beq.n	8031e4c <udp_sendto_if+0x14>
 8031e66:	e044      	b.n	8031ef2 <udp_sendto_if+0xba>
  }

  /* not enough space to add an UDP header to first pbuf in given p chain? */
  if (pbuf_header(p, UDP_HLEN)) {
    /* allocate header in a separate new pbuf */
    q = pbuf_alloc(PBUF_IP, UDP_HLEN, PBUF_RAM);
 8031e68:	2001      	movs	r0, #1
 8031e6a:	2108      	movs	r1, #8
 8031e6c:	2200      	movs	r2, #0
 8031e6e:	f7fd fb90 	bl	802f592 <pbuf_alloc>
    /* new header pbuf could not be allocated? */
    if (q == NULL) {
 8031e72:	4604      	mov	r4, r0
 8031e74:	2800      	cmp	r0, #0
 8031e76:	d039      	beq.n	8031eec <udp_sendto_if+0xb4>
      LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("udp_send: could not allocate header\n"));
      return ERR_MEM;
    }
    if (p->tot_len != 0) {
 8031e78:	8933      	ldrh	r3, [r6, #8]
 8031e7a:	b113      	cbz	r3, 8031e82 <udp_sendto_if+0x4a>
      /* chain header q in front of given pbuf p (only if p contains data) */
      pbuf_chain(q, p);
 8031e7c:	4631      	mov	r1, r6
 8031e7e:	f7fd fc36 	bl	802f6ee <pbuf_chain>
  }
  LWIP_ASSERT("check that first pbuf can hold struct udp_hdr",
              (q->len >= sizeof(struct udp_hdr)));
  /* q now represents the packet to be sent */
  udphdr = (struct udp_hdr *)q->payload;
  udphdr->src = htons(pcb->local_port);
 8031e82:	8a68      	ldrh	r0, [r5, #18]
    LWIP_DEBUGF(UDP_DEBUG, ("udp_send: added header in given pbuf %p\n", (void *)p));
  }
  LWIP_ASSERT("check that first pbuf can hold struct udp_hdr",
              (q->len >= sizeof(struct udp_hdr)));
  /* q now represents the packet to be sent */
  udphdr = (struct udp_hdr *)q->payload;
 8031e84:	6867      	ldr	r7, [r4, #4]
  udphdr->src = htons(pcb->local_port);
 8031e86:	f7fc f9f9 	bl	802e27c <lwip_htons>
 8031e8a:	8038      	strh	r0, [r7, #0]
  udphdr->dest = htons(dst_port);
 8031e8c:	4648      	mov	r0, r9
 8031e8e:	f7fc f9f5 	bl	802e27c <lwip_htons>
  /* in UDP, 0 checksum means 'no checksum' */
  udphdr->chksum = 0x0000; 
 8031e92:	2300      	movs	r3, #0
  LWIP_ASSERT("check that first pbuf can hold struct udp_hdr",
              (q->len >= sizeof(struct udp_hdr)));
  /* q now represents the packet to be sent */
  udphdr = (struct udp_hdr *)q->payload;
  udphdr->src = htons(pcb->local_port);
  udphdr->dest = htons(dst_port);
 8031e94:	8078      	strh	r0, [r7, #2]
  /* in UDP, 0 checksum means 'no checksum' */
  udphdr->chksum = 0x0000; 
 8031e96:	71bb      	strb	r3, [r7, #6]
 8031e98:	71fb      	strb	r3, [r7, #7]
  }
#endif /* LWIP_IGMP */


  /* PCB local address is IP_ANY_ADDR? */
  if (ip_addr_isany(&pcb->local_ip)) {
 8031e9a:	682b      	ldr	r3, [r5, #0]
 8031e9c:	b913      	cbnz	r3, 8031ea4 <udp_sendto_if+0x6c>
    /* use outgoing network interface IP address as source address */
    src_ip = &(netif->ip_addr);
 8031e9e:	f108 0904 	add.w	r9, r8, #4
 8031ea2:	e00a      	b.n	8031eba <udp_sendto_if+0x82>
  } else {
    /* check if UDP PCB local IP address is correct
     * this could be an old address if netif->ip_addr has changed */
    if (!ip_addr_cmp(&(pcb->local_ip), &(netif->ip_addr))) {
 8031ea4:	f8d8 2004 	ldr.w	r2, [r8, #4]
 8031ea8:	4293      	cmp	r3, r2
 8031eaa:	d005      	beq.n	8031eb8 <udp_sendto_if+0x80>
      /* local_ip doesn't match, drop the packet */
      if (q != p) {
 8031eac:	42b4      	cmp	r4, r6
 8031eae:	d01f      	beq.n	8031ef0 <udp_sendto_if+0xb8>
        /* free the header pbuf */
        pbuf_free(q);
 8031eb0:	4620      	mov	r0, r4
 8031eb2:	f7fd fb21 	bl	802f4f8 <pbuf_free>
 8031eb6:	e01b      	b.n	8031ef0 <udp_sendto_if+0xb8>
  }
#endif /* LWIP_IGMP */


  /* PCB local address is IP_ANY_ADDR? */
  if (ip_addr_isany(&pcb->local_ip)) {
 8031eb8:	46a9      	mov	r9, r5
    NETIF_SET_HWADDRHINT(netif, NULL);
  } else
#endif /* LWIP_UDPLITE */
  {      /* UDP */
    LWIP_DEBUGF(UDP_DEBUG, ("udp_send: UDP packet length %"U16_F"\n", q->tot_len));
    udphdr->len = htons(q->tot_len);
 8031eba:	8920      	ldrh	r0, [r4, #8]
 8031ebc:	f7fc f9de 	bl	802e27c <lwip_htons>
 8031ec0:	80b8      	strh	r0, [r7, #4]
#endif /* CHECKSUM_GEN_UDP */
    LWIP_DEBUGF(UDP_DEBUG, ("udp_send: UDP checksum 0x%04"X16_F"\n", udphdr->chksum));
    LWIP_DEBUGF(UDP_DEBUG, ("udp_send: ip_output_if (,,,,IP_PROTO_UDP,)\n"));
    /* output to IP */
    NETIF_SET_HWADDRHINT(netif, &pcb->addr_hint);
    err = ip_output_if(q, src_ip, dst_ip, pcb->ttl, pcb->tos, IP_PROTO_UDP, netif);
 8031ec2:	7a6a      	ldrb	r2, [r5, #9]
 8031ec4:	7aab      	ldrb	r3, [r5, #10]
 8031ec6:	9200      	str	r2, [sp, #0]
 8031ec8:	2211      	movs	r2, #17
 8031eca:	9201      	str	r2, [sp, #4]
 8031ecc:	4649      	mov	r1, r9
 8031ece:	4652      	mov	r2, sl
 8031ed0:	f8cd 8008 	str.w	r8, [sp, #8]
 8031ed4:	4620      	mov	r0, r4
 8031ed6:	f000 fb9d 	bl	8032614 <ip_output_if>
 8031eda:	4607      	mov	r7, r0
    NETIF_SET_HWADDRHINT(netif, NULL);
  }
  /* TODO: must this be increased even if error occured? */
  snmp_inc_udpoutdatagrams();
 8031edc:	f002 f940 	bl	8034160 <snmp_inc_udpoutdatagrams>

  /* did we chain a separate header pbuf earlier? */
  if (q != p) {
 8031ee0:	42b4      	cmp	r4, r6
 8031ee2:	d006      	beq.n	8031ef2 <udp_sendto_if+0xba>
    /* free the header pbuf */
    pbuf_free(q);
 8031ee4:	4620      	mov	r0, r4
 8031ee6:	f7fd fb07 	bl	802f4f8 <pbuf_free>
 8031eea:	e002      	b.n	8031ef2 <udp_sendto_if+0xba>
    /* allocate header in a separate new pbuf */
    q = pbuf_alloc(PBUF_IP, UDP_HLEN, PBUF_RAM);
    /* new header pbuf could not be allocated? */
    if (q == NULL) {
      LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS, ("udp_send: could not allocate header\n"));
      return ERR_MEM;
 8031eec:	27ff      	movs	r7, #255	; 0xff
 8031eee:	e000      	b.n	8031ef2 <udp_sendto_if+0xba>
        /* free the header pbuf */
        pbuf_free(q);
        q = NULL;
        /* p is still referenced by the caller, and will live on */
      }
      return ERR_VAL;
 8031ef0:	27fa      	movs	r7, #250	; 0xfa
    /* p is still referenced by the caller, and will live on */
  }

  UDP_STATS_INC(udp.xmit);
  return err;
}
 8031ef2:	b278      	sxtb	r0, r7
 8031ef4:	b004      	add	sp, #16
 8031ef6:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}

08031efa <udp_sendto>:
 * @see udp_disconnect() udp_send()
 */
err_t
udp_sendto(struct udp_pcb *pcb, struct pbuf *p,
  ip_addr_t *dst_ip, u16_t dst_port)
{
 8031efa:	b5f7      	push	{r0, r1, r2, r4, r5, r6, r7, lr}
 8031efc:	4605      	mov	r5, r0

  /* find the outgoing network interface for this packet */
#if LWIP_IGMP
  netif = ip_route((ip_addr_ismulticast(dst_ip))?(&(pcb->multicast_ip)):(dst_ip));
#else
  netif = ip_route(dst_ip);
 8031efe:	4610      	mov	r0, r2
 * @see udp_disconnect() udp_send()
 */
err_t
udp_sendto(struct udp_pcb *pcb, struct pbuf *p,
  ip_addr_t *dst_ip, u16_t dst_port)
{
 8031f00:	460f      	mov	r7, r1
 8031f02:	4614      	mov	r4, r2
 8031f04:	461e      	mov	r6, r3

  /* find the outgoing network interface for this packet */
#if LWIP_IGMP
  netif = ip_route((ip_addr_ismulticast(dst_ip))?(&(pcb->multicast_ip)):(dst_ip));
#else
  netif = ip_route(dst_ip);
 8031f06:	f000 fa81 	bl	803240c <ip_route>
#endif /* LWIP_IGMP */

  /* no outgoing network interface could be found? */
  if (netif == NULL) {
 8031f0a:	b138      	cbz	r0, 8031f1c <udp_sendto+0x22>
    return ERR_RTE;
  }
#if LWIP_CHECKSUM_ON_COPY
  return udp_sendto_if_chksum(pcb, p, dst_ip, dst_port, netif, have_chksum, chksum);
#else /* LWIP_CHECKSUM_ON_COPY */
  return udp_sendto_if(pcb, p, dst_ip, dst_port, netif);
 8031f0c:	9000      	str	r0, [sp, #0]
 8031f0e:	4639      	mov	r1, r7
 8031f10:	4628      	mov	r0, r5
 8031f12:	4622      	mov	r2, r4
 8031f14:	4633      	mov	r3, r6
 8031f16:	f7ff ff8f 	bl	8031e38 <udp_sendto_if>
 8031f1a:	e000      	b.n	8031f1e <udp_sendto+0x24>
  /* no outgoing network interface could be found? */
  if (netif == NULL) {
    LWIP_DEBUGF(UDP_DEBUG | LWIP_DBG_LEVEL_SERIOUS, ("udp_send: No route to %"U16_F".%"U16_F".%"U16_F".%"U16_F"\n",
      ip4_addr1_16(dst_ip), ip4_addr2_16(dst_ip), ip4_addr3_16(dst_ip), ip4_addr4_16(dst_ip)));
    UDP_STATS_INC(udp.rterr);
    return ERR_RTE;
 8031f1c:	20fc      	movs	r0, #252	; 0xfc
#if LWIP_CHECKSUM_ON_COPY
  return udp_sendto_if_chksum(pcb, p, dst_ip, dst_port, netif, have_chksum, chksum);
#else /* LWIP_CHECKSUM_ON_COPY */
  return udp_sendto_if(pcb, p, dst_ip, dst_port, netif);
#endif /* LWIP_CHECKSUM_ON_COPY */
}
 8031f1e:	b240      	sxtb	r0, r0
 8031f20:	bdfe      	pop	{r1, r2, r3, r4, r5, r6, r7, pc}

08031f22 <udp_send>:
 */
err_t
udp_send(struct udp_pcb *pcb, struct pbuf *p)
{
  /* send to the packet using remote ip and port stored in the pcb */
  return udp_sendto(pcb, p, &pcb->remote_ip, pcb->remote_port);
 8031f22:	8a83      	ldrh	r3, [r0, #20]
 8031f24:	1d02      	adds	r2, r0, #4
 8031f26:	f7ff bfe8 	b.w	8031efa <udp_sendto>
 8031f2a:	0000      	movs	r0, r0

08031f2c <udp_connect>:
 *
 * @see udp_disconnect()
 */
err_t
udp_connect(struct udp_pcb *pcb, ip_addr_t *ipaddr, u16_t port)
{
 8031f2c:	b570      	push	{r4, r5, r6, lr}
 8031f2e:	4616      	mov	r6, r2
  struct udp_pcb *ipcb;

  if (pcb->local_port == 0) {
 8031f30:	8a42      	ldrh	r2, [r0, #18]
 *
 * @see udp_disconnect()
 */
err_t
udp_connect(struct udp_pcb *pcb, ip_addr_t *ipaddr, u16_t port)
{
 8031f32:	4604      	mov	r4, r0
 8031f34:	460d      	mov	r5, r1
  struct udp_pcb *ipcb;

  if (pcb->local_port == 0) {
 8031f36:	b10a      	cbz	r2, 8031f3c <udp_connect+0x10>
    if (err != ERR_OK) {
      return err;
    }
  }

  ip_addr_set(&pcb->remote_ip, ipaddr);
 8031f38:	b935      	cbnz	r5, 8031f48 <udp_connect+0x1c>
 8031f3a:	e006      	b.n	8031f4a <udp_connect+0x1e>
udp_connect(struct udp_pcb *pcb, ip_addr_t *ipaddr, u16_t port)
{
  struct udp_pcb *ipcb;

  if (pcb->local_port == 0) {
    err_t err = udp_bind(pcb, &pcb->local_ip, pcb->local_port);
 8031f3c:	4601      	mov	r1, r0
 8031f3e:	f7ff ff2b 	bl	8031d98 <udp_bind>
    if (err != ERR_OK) {
 8031f42:	2800      	cmp	r0, #0
 8031f44:	d0f8      	beq.n	8031f38 <udp_connect+0xc>
 8031f46:	e013      	b.n	8031f70 <udp_connect+0x44>
      return err;
    }
  }

  ip_addr_set(&pcb->remote_ip, ipaddr);
 8031f48:	682d      	ldr	r5, [r5, #0]
  pcb->remote_port = port;
  pcb->flags |= UDP_FLAGS_CONNECTED;
 8031f4a:	7c23      	ldrb	r3, [r4, #16]
               ip4_addr1_16(&pcb->local_ip), ip4_addr2_16(&pcb->local_ip),
               ip4_addr3_16(&pcb->local_ip), ip4_addr4_16(&pcb->local_ip),
               pcb->local_port));

  /* Insert UDP PCB into the list of active UDP PCBs. */
  for (ipcb = udp_pcbs; ipcb != NULL; ipcb = ipcb->next) {
 8031f4c:	4a09      	ldr	r2, [pc, #36]	; (8031f74 <udp_connect+0x48>)
    if (err != ERR_OK) {
      return err;
    }
  }

  ip_addr_set(&pcb->remote_ip, ipaddr);
 8031f4e:	6065      	str	r5, [r4, #4]
  pcb->remote_port = port;
  pcb->flags |= UDP_FLAGS_CONNECTED;
 8031f50:	f043 0304 	orr.w	r3, r3, #4
 8031f54:	7423      	strb	r3, [r4, #16]
               ip4_addr1_16(&pcb->local_ip), ip4_addr2_16(&pcb->local_ip),
               ip4_addr3_16(&pcb->local_ip), ip4_addr4_16(&pcb->local_ip),
               pcb->local_port));

  /* Insert UDP PCB into the list of active UDP PCBs. */
  for (ipcb = udp_pcbs; ipcb != NULL; ipcb = ipcb->next) {
 8031f56:	6813      	ldr	r3, [r2, #0]
      return err;
    }
  }

  ip_addr_set(&pcb->remote_ip, ipaddr);
  pcb->remote_port = port;
 8031f58:	82a6      	strh	r6, [r4, #20]
               ip4_addr1_16(&pcb->local_ip), ip4_addr2_16(&pcb->local_ip),
               ip4_addr3_16(&pcb->local_ip), ip4_addr4_16(&pcb->local_ip),
               pcb->local_port));

  /* Insert UDP PCB into the list of active UDP PCBs. */
  for (ipcb = udp_pcbs; ipcb != NULL; ipcb = ipcb->next) {
 8031f5a:	4618      	mov	r0, r3
 8031f5c:	e002      	b.n	8031f64 <udp_connect+0x38>
    if (pcb == ipcb) {
 8031f5e:	4284      	cmp	r4, r0
 8031f60:	d005      	beq.n	8031f6e <udp_connect+0x42>
               ip4_addr1_16(&pcb->local_ip), ip4_addr2_16(&pcb->local_ip),
               ip4_addr3_16(&pcb->local_ip), ip4_addr4_16(&pcb->local_ip),
               pcb->local_port));

  /* Insert UDP PCB into the list of active UDP PCBs. */
  for (ipcb = udp_pcbs; ipcb != NULL; ipcb = ipcb->next) {
 8031f62:	68c0      	ldr	r0, [r0, #12]
 8031f64:	2800      	cmp	r0, #0
 8031f66:	d1fa      	bne.n	8031f5e <udp_connect+0x32>
      /* already on the list, just return */
      return ERR_OK;
    }
  }
  /* PCB not yet on the list, add PCB now */
  pcb->next = udp_pcbs;
 8031f68:	60e3      	str	r3, [r4, #12]
  udp_pcbs = pcb;
 8031f6a:	6014      	str	r4, [r2, #0]
  return ERR_OK;
 8031f6c:	e000      	b.n	8031f70 <udp_connect+0x44>

  /* Insert UDP PCB into the list of active UDP PCBs. */
  for (ipcb = udp_pcbs; ipcb != NULL; ipcb = ipcb->next) {
    if (pcb == ipcb) {
      /* already on the list, just return */
      return ERR_OK;
 8031f6e:	2000      	movs	r0, #0
  }
  /* PCB not yet on the list, add PCB now */
  pcb->next = udp_pcbs;
  udp_pcbs = pcb;
  return ERR_OK;
}
 8031f70:	b240      	sxtb	r0, r0
 8031f72:	bd70      	pop	{r4, r5, r6, pc}
 8031f74:	2000f6c8 	.word	0x2000f6c8

08031f78 <udp_disconnect>:
 */
void
udp_disconnect(struct udp_pcb *pcb)
{
  /* reset remote address association */
  ip_addr_set_any(&pcb->remote_ip);
 8031f78:	2300      	movs	r3, #0
 8031f7a:	6043      	str	r3, [r0, #4]
  pcb->remote_port = 0;
 8031f7c:	8283      	strh	r3, [r0, #20]
  /* mark PCB as unconnected */
  pcb->flags &= ~UDP_FLAGS_CONNECTED;
 8031f7e:	7c03      	ldrb	r3, [r0, #16]
 8031f80:	f023 0304 	bic.w	r3, r3, #4
 8031f84:	7403      	strb	r3, [r0, #16]
 8031f86:	4770      	bx	lr

08031f88 <udp_recv>:
 */
void
udp_recv(struct udp_pcb *pcb, udp_recv_fn recv, void *recv_arg)
{
  /* remember recv() callback and user data */
  pcb->recv = recv;
 8031f88:	6181      	str	r1, [r0, #24]
  pcb->recv_arg = recv_arg;
 8031f8a:	61c2      	str	r2, [r0, #28]
 8031f8c:	4770      	bx	lr
 8031f8e:	0000      	movs	r0, r0

08031f90 <udp_remove>:
 *
 * @see udp_new()
 */
void
udp_remove(struct udp_pcb *pcb)
{
 8031f90:	b510      	push	{r4, lr}
 8031f92:	4604      	mov	r4, r0
  struct udp_pcb *pcb2;

  snmp_delete_udpidx_tree(pcb);
 8031f94:	f002 f930 	bl	80341f8 <snmp_delete_udpidx_tree>
  /* pcb to be removed is first in list? */
  if (udp_pcbs == pcb) {
 8031f98:	4a0a      	ldr	r2, [pc, #40]	; (8031fc4 <udp_remove+0x34>)
 8031f9a:	6813      	ldr	r3, [r2, #0]
 8031f9c:	42a3      	cmp	r3, r4
 8031f9e:	d109      	bne.n	8031fb4 <udp_remove+0x24>
    /* make list start at 2nd pcb */
    udp_pcbs = udp_pcbs->next;
 8031fa0:	68e3      	ldr	r3, [r4, #12]
 8031fa2:	6013      	str	r3, [r2, #0]
 8031fa4:	e008      	b.n	8031fb8 <udp_remove+0x28>
    /* pcb not 1st in list */
  } else {
    for (pcb2 = udp_pcbs; pcb2 != NULL; pcb2 = pcb2->next) {
      /* find pcb in udp_pcbs list */
      if (pcb2->next != NULL && pcb2->next == pcb) {
 8031fa6:	68da      	ldr	r2, [r3, #12]
 8031fa8:	b11a      	cbz	r2, 8031fb2 <udp_remove+0x22>
 8031faa:	42a2      	cmp	r2, r4
        /* remove pcb from list */
        pcb2->next = pcb->next;
 8031fac:	bf04      	itt	eq
 8031fae:	68e2      	ldreq	r2, [r4, #12]
 8031fb0:	60da      	streq	r2, [r3, #12]
  if (udp_pcbs == pcb) {
    /* make list start at 2nd pcb */
    udp_pcbs = udp_pcbs->next;
    /* pcb not 1st in list */
  } else {
    for (pcb2 = udp_pcbs; pcb2 != NULL; pcb2 = pcb2->next) {
 8031fb2:	68db      	ldr	r3, [r3, #12]
 8031fb4:	2b00      	cmp	r3, #0
 8031fb6:	d1f6      	bne.n	8031fa6 <udp_remove+0x16>
        /* remove pcb from list */
        pcb2->next = pcb->next;
      }
    }
  }
  memp_free(MEMP_UDP_PCB, pcb);
 8031fb8:	2001      	movs	r0, #1
 8031fba:	4621      	mov	r1, r4
}
 8031fbc:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
        /* remove pcb from list */
        pcb2->next = pcb->next;
      }
    }
  }
  memp_free(MEMP_UDP_PCB, pcb);
 8031fc0:	f7fd b990 	b.w	802f2e4 <memp_free>
 8031fc4:	2000f6c8 	.word	0x2000f6c8

08031fc8 <udp_new>:
 *
 * @see udp_remove()
 */
struct udp_pcb *
udp_new(void)
{
 8031fc8:	b510      	push	{r4, lr}
  struct udp_pcb *pcb;
  pcb = (struct udp_pcb *)memp_malloc(MEMP_UDP_PCB);
 8031fca:	2001      	movs	r0, #1
 8031fcc:	f7fd f974 	bl	802f2b8 <memp_malloc>
  /* could allocate UDP PCB? */
  if (pcb != NULL) {
 8031fd0:	4604      	mov	r4, r0
 8031fd2:	b128      	cbz	r0, 8031fe0 <udp_new+0x18>
    /* UDP Lite: by initializing to all zeroes, chksum_len is set to 0
     * which means checksum is generated over the whole datagram per default
     * (recommended as default by RFC 3828). */
    /* initialize PCB to all zeroes */
    memset(pcb, 0, sizeof(struct udp_pcb));
 8031fd4:	2100      	movs	r1, #0
 8031fd6:	2220      	movs	r2, #32
 8031fd8:	f7ef fee2 	bl	8021da0 <memset>
    pcb->ttl = UDP_TTL;
 8031fdc:	23ff      	movs	r3, #255	; 0xff
 8031fde:	72a3      	strb	r3, [r4, #10]
  }
  return pcb;
}
 8031fe0:	4620      	mov	r0, r4
 8031fe2:	bd10      	pop	{r4, pc}

08031fe4 <icmp_input>:
 * @param p the icmp echo request packet, p->payload pointing to the ip header
 * @param inp the netif on which this packet was received
 */
void
icmp_input(struct pbuf *p, struct netif *inp)
{
 8031fe4:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
 8031fe8:	4604      	mov	r4, r0
 8031fea:	b085      	sub	sp, #20
 8031fec:	460f      	mov	r7, r1
  struct icmp_echo_hdr *iecho;
  struct ip_hdr *iphdr;
  s16_t hlen;

  ICMP_STATS_INC(icmp.recv);
  snmp_inc_icmpinmsgs();
 8031fee:	f002 f837 	bl	8034060 <snmp_inc_icmpinmsgs>


  iphdr = (struct ip_hdr *)p->payload;
 8031ff2:	6865      	ldr	r5, [r4, #4]
  hlen = IPH_HL(iphdr) * 4;
 8031ff4:	f895 8000 	ldrb.w	r8, [r5]
 8031ff8:	f008 080f 	and.w	r8, r8, #15
 8031ffc:	ea4f 0888 	mov.w	r8, r8, lsl #2
  if (pbuf_header(p, -hlen) || (p->tot_len < sizeof(u16_t)*2)) {
 8032000:	f1c8 0900 	rsb	r9, r8, #0
 8032004:	4620      	mov	r0, r4
 8032006:	fa0f f189 	sxth.w	r1, r9
 803200a:	f7fd fa4a 	bl	802f4a2 <pbuf_header>
 803200e:	2800      	cmp	r0, #0
 8032010:	d172      	bne.n	80320f8 <icmp_input+0x114>
 8032012:	8923      	ldrh	r3, [r4, #8]
 8032014:	2b03      	cmp	r3, #3
 8032016:	d96f      	bls.n	80320f8 <icmp_input+0x114>
    LWIP_DEBUGF(ICMP_DEBUG, ("icmp_input: short ICMP (%"U16_F" bytes) received\n", p->tot_len));
    goto lenerr;
  }

  type = *((u8_t *)p->payload);
 8032018:	6863      	ldr	r3, [r4, #4]
#ifdef LWIP_DEBUG
  code = *(((u8_t *)p->payload)+1);
#endif /* LWIP_DEBUG */
  switch (type) {
 803201a:	781b      	ldrb	r3, [r3, #0]
 803201c:	2b08      	cmp	r3, #8
 803201e:	d165      	bne.n	80320ec <icmp_input+0x108>
#if !LWIP_MULTICAST_PING || !LWIP_BROADCAST_PING
    {
      int accepted = 1;
#if !LWIP_MULTICAST_PING
      /* multicast destination address? */
      if (ip_addr_ismulticast(&current_iphdr_dest)) {
 8032020:	4b39      	ldr	r3, [pc, #228]	; (8032108 <icmp_input+0x124>)
 8032022:	681e      	ldr	r6, [r3, #0]
        accepted = 0;
      }
#endif /* LWIP_MULTICAST_PING */
#if !LWIP_BROADCAST_PING
      /* broadcast destination address? */
      if (ip_addr_isbroadcast(&current_iphdr_dest, inp)) {
 8032024:	4639      	mov	r1, r7
 8032026:	4630      	mov	r0, r6
 8032028:	f000 f900 	bl	803222c <ip4_addr_isbroadcast>
 803202c:	2800      	cmp	r0, #0
 803202e:	d15d      	bne.n	80320ec <icmp_input+0x108>
#if !LWIP_MULTICAST_PING || !LWIP_BROADCAST_PING
    {
      int accepted = 1;
#if !LWIP_MULTICAST_PING
      /* multicast destination address? */
      if (ip_addr_ismulticast(&current_iphdr_dest)) {
 8032030:	f006 06f0 	and.w	r6, r6, #240	; 0xf0
      if (ip_addr_isbroadcast(&current_iphdr_dest, inp)) {
        accepted = 0;
      }
#endif /* LWIP_BROADCAST_PING */
      /* broadcast or multicast destination address not acceptd? */
      if (!accepted) {
 8032034:	2ee0      	cmp	r6, #224	; 0xe0
 8032036:	d100      	bne.n	803203a <icmp_input+0x56>
 8032038:	e058      	b.n	80320ec <icmp_input+0x108>
        return;
      }
    }
#endif /* !LWIP_MULTICAST_PING || !LWIP_BROADCAST_PING */
    LWIP_DEBUGF(ICMP_DEBUG, ("icmp_input: ping\n"));
    if (p->tot_len < sizeof(struct icmp_echo_hdr)) {
 803203a:	8923      	ldrh	r3, [r4, #8]
 803203c:	2b07      	cmp	r3, #7
 803203e:	d95b      	bls.n	80320f8 <icmp_input+0x114>
      LWIP_DEBUGF(ICMP_DEBUG, ("icmp_input: bad ICMP echo received\n"));
      goto lenerr;
    }
    if (inet_chksum_pbuf(p) != 0) {
 8032040:	4620      	mov	r0, r4
 8032042:	f000 f8cf 	bl	80321e4 <inet_chksum_pbuf>
 8032046:	b100      	cbz	r0, 803204a <icmp_input+0x66>
 8032048:	e056      	b.n	80320f8 <icmp_input+0x114>
      ICMP_STATS_INC(icmp.chkerr);
      snmp_inc_icmpinerrors();
      return;
    }
#if LWIP_ICMP_ECHO_CHECK_INPUT_PBUF_LEN
    if (pbuf_header(p, (PBUF_IP_HLEN + PBUF_LINK_HLEN))) {
 803204a:	4620      	mov	r0, r4
 803204c:	2122      	movs	r1, #34	; 0x22
  ICMP_STATS_INC(icmp.recv);
  snmp_inc_icmpinmsgs();


  iphdr = (struct ip_hdr *)p->payload;
  hlen = IPH_HL(iphdr) * 4;
 803204e:	fa1f f888 	uxth.w	r8, r8
      ICMP_STATS_INC(icmp.chkerr);
      snmp_inc_icmpinerrors();
      return;
    }
#if LWIP_ICMP_ECHO_CHECK_INPUT_PBUF_LEN
    if (pbuf_header(p, (PBUF_IP_HLEN + PBUF_LINK_HLEN))) {
 8032052:	f7fd fa26 	bl	802f4a2 <pbuf_header>
 8032056:	b1f8      	cbz	r0, 8032098 <icmp_input+0xb4>
      /* p is not big enough to contain link headers
       * allocate a new one and copy p into it
       */
      struct pbuf *r;
      /* switch p->payload to ip header */
      if (pbuf_header(p, hlen)) {
 8032058:	4620      	mov	r0, r4
 803205a:	4641      	mov	r1, r8
 803205c:	f7fd fa21 	bl	802f4a2 <pbuf_header>
 8032060:	4602      	mov	r2, r0
 8032062:	2800      	cmp	r0, #0
 8032064:	d148      	bne.n	80320f8 <icmp_input+0x114>
        LWIP_ASSERT("icmp_input: moving p->payload to ip header failed\n", 0);
        goto memerr;
      }
      /* allocate new packet buffer with space for link headers */
      r = pbuf_alloc(PBUF_LINK, p->tot_len, PBUF_RAM);
 8032066:	2002      	movs	r0, #2
 8032068:	8921      	ldrh	r1, [r4, #8]
 803206a:	f7fd fa92 	bl	802f592 <pbuf_alloc>
      if (r == NULL) {
 803206e:	4606      	mov	r6, r0
 8032070:	2800      	cmp	r0, #0
 8032072:	d041      	beq.n	80320f8 <icmp_input+0x114>
        goto memerr;
      }
      LWIP_ASSERT("check that first pbuf can hold struct the ICMP header",
                  (r->len >= hlen + sizeof(struct icmp_echo_hdr)));
      /* copy the whole packet including ip header */
      if (pbuf_copy(r, p) != ERR_OK) {
 8032074:	4621      	mov	r1, r4
 8032076:	f7fd fb43 	bl	802f700 <pbuf_copy>
 803207a:	2800      	cmp	r0, #0
 803207c:	d13c      	bne.n	80320f8 <icmp_input+0x114>
        LWIP_ASSERT("icmp_input: copying to new pbuf failed\n", 0);
        goto memerr;
      }
      iphdr = (struct ip_hdr *)r->payload;
      /* switch r->payload back to icmp header */
      if (pbuf_header(r, -hlen)) {
 803207e:	4630      	mov	r0, r6
 8032080:	fa0f f189 	sxth.w	r1, r9
      /* copy the whole packet including ip header */
      if (pbuf_copy(r, p) != ERR_OK) {
        LWIP_ASSERT("icmp_input: copying to new pbuf failed\n", 0);
        goto memerr;
      }
      iphdr = (struct ip_hdr *)r->payload;
 8032084:	6875      	ldr	r5, [r6, #4]
      /* switch r->payload back to icmp header */
      if (pbuf_header(r, -hlen)) {
 8032086:	f7fd fa0c 	bl	802f4a2 <pbuf_header>
 803208a:	2800      	cmp	r0, #0
 803208c:	d134      	bne.n	80320f8 <icmp_input+0x114>
        LWIP_ASSERT("icmp_input: restoring original p->payload failed\n", 0);
        goto memerr;
      }
      /* free the original p */
      pbuf_free(p);
 803208e:	4620      	mov	r0, r4
 8032090:	f7fd fa32 	bl	802f4f8 <pbuf_free>
 8032094:	4634      	mov	r4, r6
 8032096:	e006      	b.n	80320a6 <icmp_input+0xc2>
      /* we now have an identical copy of p that has room for link headers */
      p = r;
    } else {
      /* restore p->payload to point to icmp header */
      if (pbuf_header(p, -(s16_t)(PBUF_IP_HLEN + PBUF_LINK_HLEN))) {
 8032098:	4620      	mov	r0, r4
 803209a:	f06f 0121 	mvn.w	r1, #33	; 0x21
 803209e:	f7fd fa00 	bl	802f4a2 <pbuf_header>
 80320a2:	2800      	cmp	r0, #0
 80320a4:	d128      	bne.n	80320f8 <icmp_input+0x114>
#endif /* LWIP_ICMP_ECHO_CHECK_INPUT_PBUF_LEN */
    /* At this point, all checks are OK. */
    /* We generate an answer by switching the dest and src ip addresses,
     * setting the icmp type to ECHO_RESPONSE and updating the checksum. */
    iecho = (struct icmp_echo_hdr *)p->payload;
    ip_addr_copy(iphdr->src, *ip_current_dest_addr());
 80320a6:	f8df 9060 	ldr.w	r9, [pc, #96]	; 8032108 <icmp_input+0x124>
    }
#endif /* LWIP_ICMP_ECHO_CHECK_INPUT_PBUF_LEN */
    /* At this point, all checks are OK. */
    /* We generate an answer by switching the dest and src ip addresses,
     * setting the icmp type to ECHO_RESPONSE and updating the checksum. */
    iecho = (struct icmp_echo_hdr *)p->payload;
 80320aa:	6863      	ldr	r3, [r4, #4]
    ip_addr_copy(iphdr->src, *ip_current_dest_addr());
 80320ac:	f8d9 2000 	ldr.w	r2, [r9]
 80320b0:	60ea      	str	r2, [r5, #12]
    ip_addr_copy(iphdr->dest, *ip_current_src_addr());
 80320b2:	4a16      	ldr	r2, [pc, #88]	; (803210c <icmp_input+0x128>)
 80320b4:	6812      	ldr	r2, [r2, #0]
#else // CHECKSUM_GEN_ICMP 
    iecho->chksum = 0;
#endif // CHECKSUM_GEN_ICMP 
*/
    /* Set the correct TTL and recalculate the header checksum. */
    IPH_TTL_SET(iphdr, ICMP_TTL);
 80320b6:	26ff      	movs	r6, #255	; 0xff
    /* At this point, all checks are OK. */
    /* We generate an answer by switching the dest and src ip addresses,
     * setting the icmp type to ECHO_RESPONSE and updating the checksum. */
    iecho = (struct icmp_echo_hdr *)p->payload;
    ip_addr_copy(iphdr->src, *ip_current_dest_addr());
    ip_addr_copy(iphdr->dest, *ip_current_src_addr());
 80320b8:	612a      	str	r2, [r5, #16]
    ICMPH_TYPE_SET(iecho, ICMP_ER);
 80320ba:	2200      	movs	r2, #0
 80320bc:	701a      	strb	r2, [r3, #0]
//-----------------------------------------------------------    
// Добавил фик� 15.08.15.
// Фик� и�правл�ет баг � пингом.    
#ifdef CHECKSUM_BY_HARDWARE
    iecho->chksum = 0;
 80320be:	709a      	strb	r2, [r3, #2]
 80320c0:	70da      	strb	r2, [r3, #3]
    iecho->chksum = 0;
#endif // CHECKSUM_GEN_ICMP 
*/
    /* Set the correct TTL and recalculate the header checksum. */
    IPH_TTL_SET(iphdr, ICMP_TTL);
    IPH_CHKSUM_SET(iphdr, 0);
 80320c2:	72aa      	strb	r2, [r5, #10]
 80320c4:	72ea      	strb	r2, [r5, #11]
#else // CHECKSUM_GEN_ICMP 
    iecho->chksum = 0;
#endif // CHECKSUM_GEN_ICMP 
*/
    /* Set the correct TTL and recalculate the header checksum. */
    IPH_TTL_SET(iphdr, ICMP_TTL);
 80320c6:	722e      	strb	r6, [r5, #8]
    IPH_CHKSUM_SET(iphdr, inet_chksum(iphdr, IP_HLEN));
#endif /* CHECKSUM_GEN_IP */

    ICMP_STATS_INC(icmp.xmit);
    /* increase number of messages attempted to send */
    snmp_inc_icmpoutmsgs();
 80320c8:	f001 ffda 	bl	8034080 <snmp_inc_icmpoutmsgs>
    /* increase number of echo replies attempted to send */
    snmp_inc_icmpoutechoreps();
 80320cc:	f001 ffe8 	bl	80340a0 <snmp_inc_icmpoutechoreps>

    if(pbuf_header(p, hlen)) {
 80320d0:	4620      	mov	r0, r4
 80320d2:	4641      	mov	r1, r8
 80320d4:	f7fd f9e5 	bl	802f4a2 <pbuf_header>
 80320d8:	4602      	mov	r2, r0
 80320da:	b938      	cbnz	r0, 80320ec <icmp_input+0x108>
      LWIP_ASSERT("Can't move over header in packet", 0);
    } else {
      err_t ret;
      /* send an ICMP packet, src addr is the dest addr of the curren packet */
      ret = ip_output_if(p, ip_current_dest_addr(), IP_HDRINCL,
 80320dc:	2301      	movs	r3, #1
 80320de:	e88d 0089 	stmia.w	sp, {r0, r3, r7}
 80320e2:	4620      	mov	r0, r4
 80320e4:	4649      	mov	r1, r9
 80320e6:	4633      	mov	r3, r6
 80320e8:	f000 fa94 	bl	8032614 <ip_output_if>
    LWIP_DEBUGF(ICMP_DEBUG, ("icmp_input: ICMP type %"S16_F" code %"S16_F" not supported.\n", 
                (s16_t)type, (s16_t)code));
    ICMP_STATS_INC(icmp.proterr);
    ICMP_STATS_INC(icmp.drop);
  }
  pbuf_free(p);
 80320ec:	4620      	mov	r0, r4
  pbuf_free(p);
  ICMP_STATS_INC(icmp.err);
  snmp_inc_icmpinerrors();
  return;
#endif /* LWIP_ICMP_ECHO_CHECK_INPUT_PBUF_LEN */
}
 80320ee:	b005      	add	sp, #20
 80320f0:	e8bd 43f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, lr}
    LWIP_DEBUGF(ICMP_DEBUG, ("icmp_input: ICMP type %"S16_F" code %"S16_F" not supported.\n", 
                (s16_t)type, (s16_t)code));
    ICMP_STATS_INC(icmp.proterr);
    ICMP_STATS_INC(icmp.drop);
  }
  pbuf_free(p);
 80320f4:	f7fd ba00 	b.w	802f4f8 <pbuf_free>
  ICMP_STATS_INC(icmp.lenerr);
  snmp_inc_icmpinerrors();
  return;
#if LWIP_ICMP_ECHO_CHECK_INPUT_PBUF_LEN
memerr:
  pbuf_free(p);
 80320f8:	4620      	mov	r0, r4
 80320fa:	f7fd f9fd 	bl	802f4f8 <pbuf_free>
  ICMP_STATS_INC(icmp.err);
  snmp_inc_icmpinerrors();
  return;
#endif /* LWIP_ICMP_ECHO_CHECK_INPUT_PBUF_LEN */
}
 80320fe:	b005      	add	sp, #20
 8032100:	e8bd 43f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, lr}
  return;
#if LWIP_ICMP_ECHO_CHECK_INPUT_PBUF_LEN
memerr:
  pbuf_free(p);
  ICMP_STATS_INC(icmp.err);
  snmp_inc_icmpinerrors();
 8032104:	f001 bfb4 	b.w	8034070 <snmp_inc_icmpinerrors>
 8032108:	2000f6d4 	.word	0x2000f6d4
 803210c:	2000f6cc 	.word	0x2000f6cc

08032110 <icmp_dest_unreach>:
 *          p->payload pointing to the IP header
 * @param t type of the 'unreachable' packet
 */
void
icmp_dest_unreach(struct pbuf *p, enum icmp_dur_type t)
{
 8032110:	e92d 41ff 	stmdb	sp!, {r0, r1, r2, r3, r4, r5, r6, r7, r8, lr}
 8032114:	4607      	mov	r7, r0
 8032116:	460d      	mov	r5, r1
  /* we can use the echo header here */
  struct icmp_echo_hdr *icmphdr;
  ip_addr_t iphdr_src;

  /* ICMP header + IP header + 8 bytes of data */
  q = pbuf_alloc(PBUF_IP, sizeof(struct icmp_echo_hdr) + IP_HLEN + ICMP_DEST_UNREACH_DATASIZE,
 8032118:	2001      	movs	r0, #1
 803211a:	2124      	movs	r1, #36	; 0x24
 803211c:	2200      	movs	r2, #0
 803211e:	f7fd fa38 	bl	802f592 <pbuf_alloc>
                 PBUF_RAM);
  if (q == NULL) {
 8032122:	4606      	mov	r6, r0
 8032124:	b358      	cbz	r0, 803217e <icmp_dest_unreach+0x6e>
  ip_addr_debug_print(ICMP_DEBUG, &(iphdr->src));
  LWIP_DEBUGF(ICMP_DEBUG, (" to "));
  ip_addr_debug_print(ICMP_DEBUG, &(iphdr->dest));
  LWIP_DEBUGF(ICMP_DEBUG, ("\n"));

  icmphdr = (struct icmp_echo_hdr *)q->payload;
 8032126:	6844      	ldr	r4, [r0, #4]
    return;
  }
  LWIP_ASSERT("check that first pbuf can hold icmp message",
             (q->len >= (sizeof(struct icmp_echo_hdr) + IP_HLEN + ICMP_DEST_UNREACH_DATASIZE)));

  iphdr = (struct ip_hdr *)p->payload;
 8032128:	f8d7 8004 	ldr.w	r8, [r7, #4]
  ip_addr_debug_print(ICMP_DEBUG, &(iphdr->dest));
  LWIP_DEBUGF(ICMP_DEBUG, ("\n"));

  icmphdr = (struct icmp_echo_hdr *)q->payload;
  icmphdr->type = type;
  icmphdr->code = code;
 803212c:	7065      	strb	r5, [r4, #1]
  LWIP_DEBUGF(ICMP_DEBUG, (" to "));
  ip_addr_debug_print(ICMP_DEBUG, &(iphdr->dest));
  LWIP_DEBUGF(ICMP_DEBUG, ("\n"));

  icmphdr = (struct icmp_echo_hdr *)q->payload;
  icmphdr->type = type;
 803212e:	2303      	movs	r3, #3
  icmphdr->code = code;
  icmphdr->id = 0;
 8032130:	2500      	movs	r5, #0
  LWIP_DEBUGF(ICMP_DEBUG, (" to "));
  ip_addr_debug_print(ICMP_DEBUG, &(iphdr->dest));
  LWIP_DEBUGF(ICMP_DEBUG, ("\n"));

  icmphdr = (struct icmp_echo_hdr *)q->payload;
  icmphdr->type = type;
 8032132:	7023      	strb	r3, [r4, #0]
  icmphdr->code = code;
  icmphdr->id = 0;
 8032134:	7125      	strb	r5, [r4, #4]
 8032136:	7165      	strb	r5, [r4, #5]
  icmphdr->seqno = 0;
 8032138:	71a5      	strb	r5, [r4, #6]
 803213a:	71e5      	strb	r5, [r4, #7]

  /* copy fields from original packet */
  SMEMCPY((u8_t *)q->payload + sizeof(struct icmp_echo_hdr), (u8_t *)p->payload,
 803213c:	6840      	ldr	r0, [r0, #4]
 803213e:	6879      	ldr	r1, [r7, #4]
 8032140:	221c      	movs	r2, #28
 8032142:	3008      	adds	r0, #8
 8032144:	f7ef fd72 	bl	8021c2c <memcpy>
          IP_HLEN + ICMP_DEST_UNREACH_DATASIZE);

  /* calculate checksum */
  icmphdr->chksum = 0;
 8032148:	70a5      	strb	r5, [r4, #2]
 803214a:	70e5      	strb	r5, [r4, #3]
  icmphdr->chksum = inet_chksum(icmphdr, q->len);
 803214c:	8971      	ldrh	r1, [r6, #10]
 803214e:	4620      	mov	r0, r4
 8032150:	f000 f842 	bl	80321d8 <inet_chksum>
 8032154:	8060      	strh	r0, [r4, #2]
  ICMP_STATS_INC(icmp.xmit);
  /* increase number of messages attempted to send */
  snmp_inc_icmpoutmsgs();
 8032156:	f001 ff93 	bl	8034080 <snmp_inc_icmpoutmsgs>
  /* increase number of destination unreachable messages attempted to send */
  snmp_inc_icmpouttimeexcds();
 803215a:	f001 ff99 	bl	8034090 <snmp_inc_icmpouttimeexcds>
  ip_addr_copy(iphdr_src, iphdr->src);
 803215e:	f8d8 300c 	ldr.w	r3, [r8, #12]
 8032162:	aa04      	add	r2, sp, #16
  ip_output(q, NULL, &iphdr_src, ICMP_TTL, 0, IP_PROTO_ICMP);
 8032164:	4630      	mov	r0, r6
  ICMP_STATS_INC(icmp.xmit);
  /* increase number of messages attempted to send */
  snmp_inc_icmpoutmsgs();
  /* increase number of destination unreachable messages attempted to send */
  snmp_inc_icmpouttimeexcds();
  ip_addr_copy(iphdr_src, iphdr->src);
 8032166:	f842 3d04 	str.w	r3, [r2, #-4]!
  ip_output(q, NULL, &iphdr_src, ICMP_TTL, 0, IP_PROTO_ICMP);
 803216a:	2301      	movs	r3, #1
 803216c:	9301      	str	r3, [sp, #4]
 803216e:	9500      	str	r5, [sp, #0]
 8032170:	4629      	mov	r1, r5
 8032172:	23ff      	movs	r3, #255	; 0xff
 8032174:	f000 fa9e 	bl	80326b4 <ip_output>
  pbuf_free(q);
 8032178:	4630      	mov	r0, r6
 803217a:	f7fd f9bd 	bl	802f4f8 <pbuf_free>
 */
void
icmp_dest_unreach(struct pbuf *p, enum icmp_dur_type t)
{
  icmp_send_response(p, ICMP_DUR, t);
}
 803217e:	e8bd 81ff 	ldmia.w	sp!, {r0, r1, r2, r3, r4, r5, r6, r7, r8, pc}

08032182 <lwip_standard_chksum>:
 * @return host order (!) lwip checksum (non-inverted Internet sum) 
 */

static u16_t
lwip_standard_chksum(void *dataptr, int len)
{
 8032182:	b513      	push	{r0, r1, r4, lr}
  u8_t *pb = (u8_t *)dataptr;
  u16_t *ps, t = 0;
 8032184:	2300      	movs	r3, #0
  u32_t sum = 0;
  int odd = ((mem_ptr_t)pb & 1);

  /* Get aligned to u16_t */
  if (odd && len > 0) {
 8032186:	f010 0201 	ands.w	r2, r0, #1

static u16_t
lwip_standard_chksum(void *dataptr, int len)
{
  u8_t *pb = (u8_t *)dataptr;
  u16_t *ps, t = 0;
 803218a:	f8ad 3006 	strh.w	r3, [sp, #6]
  u32_t sum = 0;
  int odd = ((mem_ptr_t)pb & 1);

  /* Get aligned to u16_t */
  if (odd && len > 0) {
 803218e:	d006      	beq.n	803219e <lwip_standard_chksum+0x1c>
 8032190:	4299      	cmp	r1, r3
 8032192:	dd04      	ble.n	803219e <lwip_standard_chksum+0x1c>
    ((u8_t *)&t)[1] = *pb++;
 8032194:	f810 3b01 	ldrb.w	r3, [r0], #1
    len--;
 8032198:	3901      	subs	r1, #1
  u32_t sum = 0;
  int odd = ((mem_ptr_t)pb & 1);

  /* Get aligned to u16_t */
  if (odd && len > 0) {
    ((u8_t *)&t)[1] = *pb++;
 803219a:	f88d 3007 	strb.w	r3, [sp, #7]
static u16_t
lwip_standard_chksum(void *dataptr, int len)
{
  u8_t *pb = (u8_t *)dataptr;
  u16_t *ps, t = 0;
  u32_t sum = 0;
 803219e:	2300      	movs	r3, #0
    len--;
  }

  /* Add the bulk of the data */
  ps = (u16_t *)(void *)pb;
  while (len > 1) {
 80321a0:	e003      	b.n	80321aa <lwip_standard_chksum+0x28>
    sum += *ps++;
 80321a2:	f830 4b02 	ldrh.w	r4, [r0], #2
    len -= 2;
 80321a6:	3902      	subs	r1, #2
  }

  /* Add the bulk of the data */
  ps = (u16_t *)(void *)pb;
  while (len > 1) {
    sum += *ps++;
 80321a8:	191b      	adds	r3, r3, r4
    len--;
  }

  /* Add the bulk of the data */
  ps = (u16_t *)(void *)pb;
  while (len > 1) {
 80321aa:	2901      	cmp	r1, #1
 80321ac:	dcf9      	bgt.n	80321a2 <lwip_standard_chksum+0x20>
    len -= 2;
  }

  /* Consume left-over byte, if any */
  if (len > 0) {
    ((u8_t *)&t)[0] = *(u8_t *)ps;
 80321ae:	bf04      	itt	eq
 80321b0:	7801      	ldrbeq	r1, [r0, #0]
 80321b2:	f88d 1006 	strbeq.w	r1, [sp, #6]
  }

  /* Add end bytes */
  sum += t;
 80321b6:	f8bd 0006 	ldrh.w	r0, [sp, #6]
 80321ba:	181b      	adds	r3, r3, r0

  /* Fold 32-bit sum to 16 bits
     calling this twice is propably faster than if statements... */
  sum = FOLD_U32T(sum);
 80321bc:	b298      	uxth	r0, r3
 80321be:	eb00 4313 	add.w	r3, r0, r3, lsr #16
  sum = FOLD_U32T(sum);
 80321c2:	b298      	uxth	r0, r3
 80321c4:	eb00 4013 	add.w	r0, r0, r3, lsr #16

  /* Swap if alignment was odd */
  if (odd) {
 80321c8:	b122      	cbz	r2, 80321d4 <lwip_standard_chksum+0x52>
    sum = SWAP_BYTES_IN_WORD(sum);
 80321ca:	0603      	lsls	r3, r0, #24
 80321cc:	f3c0 2007 	ubfx	r0, r0, #8, #8
 80321d0:	ea40 4013 	orr.w	r0, r0, r3, lsr #16
  }

  return (u16_t)sum;
}
 80321d4:	b280      	uxth	r0, r0
 80321d6:	bd1c      	pop	{r2, r3, r4, pc}

080321d8 <inet_chksum>:
 * @return checksum (as u16_t) to be saved directly in the protocol header
 */

u16_t
inet_chksum(void *dataptr, u16_t len)
{
 80321d8:	b508      	push	{r3, lr}
  return ~LWIP_CHKSUM(dataptr, len);
 80321da:	f7ff ffd2 	bl	8032182 <lwip_standard_chksum>
 80321de:	43c0      	mvns	r0, r0
}
 80321e0:	b280      	uxth	r0, r0
 80321e2:	bd08      	pop	{r3, pc}

080321e4 <inet_chksum_pbuf>:
 * @param p pbuf chain over that the checksum should be calculated
 * @return checksum (as u16_t) to be saved directly in the protocol header
 */
u16_t
inet_chksum_pbuf(struct pbuf *p)
{
 80321e4:	b570      	push	{r4, r5, r6, lr}
  u32_t acc;
  struct pbuf *q;
  u8_t swapped;

  acc = 0;
  swapped = 0;
 80321e6:	2600      	movs	r6, #0
 * @param p pbuf chain over that the checksum should be calculated
 * @return checksum (as u16_t) to be saved directly in the protocol header
 */
u16_t
inet_chksum_pbuf(struct pbuf *p)
{
 80321e8:	4605      	mov	r5, r0
  u32_t acc;
  struct pbuf *q;
  u8_t swapped;

  acc = 0;
 80321ea:	4634      	mov	r4, r6
  swapped = 0;
  for(q = p; q != NULL; q = q->next) {
 80321ec:	e013      	b.n	8032216 <inet_chksum_pbuf+0x32>
    acc += LWIP_CHKSUM(q->payload, q->len);
 80321ee:	8969      	ldrh	r1, [r5, #10]
 80321f0:	6868      	ldr	r0, [r5, #4]
 80321f2:	f7ff ffc6 	bl	8032182 <lwip_standard_chksum>
    acc = FOLD_U32T(acc);
    if (q->len % 2 != 0) {
 80321f6:	896b      	ldrh	r3, [r5, #10]
  u8_t swapped;

  acc = 0;
  swapped = 0;
  for(q = p; q != NULL; q = q->next) {
    acc += LWIP_CHKSUM(q->payload, q->len);
 80321f8:	1900      	adds	r0, r0, r4
    acc = FOLD_U32T(acc);
 80321fa:	b284      	uxth	r4, r0
    if (q->len % 2 != 0) {
 80321fc:	07d9      	lsls	r1, r3, #31

  acc = 0;
  swapped = 0;
  for(q = p; q != NULL; q = q->next) {
    acc += LWIP_CHKSUM(q->payload, q->len);
    acc = FOLD_U32T(acc);
 80321fe:	eb04 4410 	add.w	r4, r4, r0, lsr #16
    if (q->len % 2 != 0) {
 8032202:	d507      	bpl.n	8032214 <inet_chksum_pbuf+0x30>
      swapped = 1 - swapped;
      acc = SWAP_BYTES_IN_WORD(acc);
 8032204:	0623      	lsls	r3, r4, #24
  swapped = 0;
  for(q = p; q != NULL; q = q->next) {
    acc += LWIP_CHKSUM(q->payload, q->len);
    acc = FOLD_U32T(acc);
    if (q->len % 2 != 0) {
      swapped = 1 - swapped;
 8032206:	f1c6 0601 	rsb	r6, r6, #1
      acc = SWAP_BYTES_IN_WORD(acc);
 803220a:	f3c4 2407 	ubfx	r4, r4, #8, #8
  swapped = 0;
  for(q = p; q != NULL; q = q->next) {
    acc += LWIP_CHKSUM(q->payload, q->len);
    acc = FOLD_U32T(acc);
    if (q->len % 2 != 0) {
      swapped = 1 - swapped;
 803220e:	b2f6      	uxtb	r6, r6
      acc = SWAP_BYTES_IN_WORD(acc);
 8032210:	ea44 4413 	orr.w	r4, r4, r3, lsr #16
  struct pbuf *q;
  u8_t swapped;

  acc = 0;
  swapped = 0;
  for(q = p; q != NULL; q = q->next) {
 8032214:	682d      	ldr	r5, [r5, #0]
 8032216:	2d00      	cmp	r5, #0
 8032218:	d1e9      	bne.n	80321ee <inet_chksum_pbuf+0xa>
      swapped = 1 - swapped;
      acc = SWAP_BYTES_IN_WORD(acc);
    }
  }

  if (swapped) {
 803221a:	b126      	cbz	r6, 8032226 <inet_chksum_pbuf+0x42>
    acc = SWAP_BYTES_IN_WORD(acc);
 803221c:	0623      	lsls	r3, r4, #24
 803221e:	f3c4 2407 	ubfx	r4, r4, #8, #8
 8032222:	ea44 4413 	orr.w	r4, r4, r3, lsr #16
  }
  return (u16_t)~(acc & 0xffffUL);
 8032226:	43e0      	mvns	r0, r4
}
 8032228:	b280      	uxth	r0, r0
 803222a:	bd70      	pop	{r4, r5, r6, pc}

0803222c <ip4_addr_isbroadcast>:
{
  ip_addr_t ipaddr;
  ip4_addr_set_u32(&ipaddr, addr);

  /* all ones (broadcast) or all zeroes (old skool broadcast) */
  if ((~addr == IPADDR_ANY) ||
 803222c:	1e43      	subs	r3, r0, #1
 803222e:	3303      	adds	r3, #3
 8032230:	d811      	bhi.n	8032256 <ip4_addr_isbroadcast+0x2a>
      (addr == IPADDR_ANY)) {
    return 1;
  /* no broadcast support on this network interface? */
  } else if ((netif->flags & NETIF_FLAG_BROADCAST) == 0) {
 8032232:	f891 302d 	ldrb.w	r3, [r1, #45]	; 0x2d
 8032236:	f003 0302 	and.w	r3, r3, #2
 803223a:	b2db      	uxtb	r3, r3
 803223c:	b16b      	cbz	r3, 803225a <ip4_addr_isbroadcast+0x2e>
    /* the given address cannot be a broadcast address
     * nor can we check against any broadcast addresses */
    return 0;
  /* address matches network interface address exactly? => no broadcast */
  } else if (addr == ip4_addr_get_u32(&netif->ip_addr)) {
 803223e:	684a      	ldr	r2, [r1, #4]
 8032240:	4290      	cmp	r0, r2
 8032242:	d00a      	beq.n	803225a <ip4_addr_isbroadcast+0x2e>
    return 0;
  /*  on the same (sub) network... */
  } else if (ip_addr_netcmp(&ipaddr, &(netif->ip_addr), &(netif->netmask))
 8032244:	688b      	ldr	r3, [r1, #8]
 8032246:	4042      	eors	r2, r0
 8032248:	421a      	tst	r2, r3
 803224a:	d000      	beq.n	803224e <ip4_addr_isbroadcast+0x22>
 803224c:	e005      	b.n	803225a <ip4_addr_isbroadcast+0x2e>
         /* ...and host identifier bits are all ones? =>... */
          && ((addr & ~ip4_addr_get_u32(&netif->netmask)) ==
 803224e:	43db      	mvns	r3, r3
 8032250:	4018      	ands	r0, r3
 8032252:	4298      	cmp	r0, r3
 8032254:	d101      	bne.n	803225a <ip4_addr_isbroadcast+0x2e>
  ip4_addr_set_u32(&ipaddr, addr);

  /* all ones (broadcast) or all zeroes (old skool broadcast) */
  if ((~addr == IPADDR_ANY) ||
      (addr == IPADDR_ANY)) {
    return 1;
 8032256:	2001      	movs	r0, #1
 8032258:	4770      	bx	lr
  /* no broadcast support on this network interface? */
  } else if ((netif->flags & NETIF_FLAG_BROADCAST) == 0) {
    /* the given address cannot be a broadcast address
     * nor can we check against any broadcast addresses */
    return 0;
 803225a:	2000      	movs	r0, #0
    /* => network broadcast address */
    return 1;
  } else {
    return 0;
  }
}
 803225c:	4770      	bx	lr

0803225e <ipaddr_aton>:
 * @param addr pointer to which to save the ip address in network order
 * @return 1 if cp could be converted to addr, 0 on failure
 */
int
ipaddr_aton(const char *cp, ip_addr_t *addr)
{
 803225e:	b5f0      	push	{r4, r5, r6, r7, lr}
  u8_t base;
  char c;
  u32_t parts[4];
  u32_t *pp = parts;

  c = *cp;
 8032260:	7803      	ldrb	r3, [r0, #0]
 * @param addr pointer to which to save the ip address in network order
 * @return 1 if cp could be converted to addr, 0 on failure
 */
int
ipaddr_aton(const char *cp, ip_addr_t *addr)
{
 8032262:	b085      	sub	sp, #20
 8032264:	460e      	mov	r6, r1
  u8_t base;
  char c;
  u32_t parts[4];
  u32_t *pp = parts;

  c = *cp;
 8032266:	2400      	movs	r4, #0
 * @param cp IP address in ascii represenation (e.g. "127.0.0.1")
 * @param addr pointer to which to save the ip address in network order
 * @return 1 if cp could be converted to addr, 0 on failure
 */
int
ipaddr_aton(const char *cp, ip_addr_t *addr)
 8032268:	aa00      	add	r2, sp, #0
 803226a:	18a7      	adds	r7, r4, r2
    /*
     * Collect number up to ``.''.
     * Values are specified as for C:
     * 0x=hex, 0=octal, 1-9=decimal.
     */
    if (!isdigit(c))
 803226c:	f1a3 0230 	sub.w	r2, r3, #48	; 0x30
 8032270:	2a09      	cmp	r2, #9
 8032272:	d86d      	bhi.n	8032350 <ipaddr_aton+0xf2>
      return (0);
    val = 0;
    base = 10;
    if (c == '0') {
 8032274:	2b30      	cmp	r3, #48	; 0x30
 8032276:	d10b      	bne.n	8032290 <ipaddr_aton+0x32>
      c = *++cp;
 8032278:	7843      	ldrb	r3, [r0, #1]
      if (c == 'x' || c == 'X') {
 803227a:	2b78      	cmp	r3, #120	; 0x78
 803227c:	d004      	beq.n	8032288 <ipaddr_aton+0x2a>
 803227e:	2b58      	cmp	r3, #88	; 0x58
 8032280:	d002      	beq.n	8032288 <ipaddr_aton+0x2a>
    if (!isdigit(c))
      return (0);
    val = 0;
    base = 10;
    if (c == '0') {
      c = *++cp;
 8032282:	3001      	adds	r0, #1
      if (c == 'x' || c == 'X') {
        base = 16;
        c = *++cp;
      } else
        base = 8;
 8032284:	2508      	movs	r5, #8
 8032286:	e004      	b.n	8032292 <ipaddr_aton+0x34>
    base = 10;
    if (c == '0') {
      c = *++cp;
      if (c == 'x' || c == 'X') {
        base = 16;
        c = *++cp;
 8032288:	7883      	ldrb	r3, [r0, #2]
    val = 0;
    base = 10;
    if (c == '0') {
      c = *++cp;
      if (c == 'x' || c == 'X') {
        base = 16;
 803228a:	2510      	movs	r5, #16
        c = *++cp;
 803228c:	3002      	adds	r0, #2
 803228e:	e000      	b.n	8032292 <ipaddr_aton+0x34>
     * 0x=hex, 0=octal, 1-9=decimal.
     */
    if (!isdigit(c))
      return (0);
    val = 0;
    base = 10;
 8032290:	250a      	movs	r5, #10
 8032292:	4602      	mov	r2, r0
    if (c == '0') {
      c = *++cp;
      if (c == 'x' || c == 'X') {
        base = 16;
 8032294:	2000      	movs	r0, #0
 8032296:	e000      	b.n	803229a <ipaddr_aton+0x3c>
 8032298:	3201      	adds	r2, #1
        c = *++cp;
      } else
        base = 8;
    }
    for (;;) {
      if (isdigit(c)) {
 803229a:	f1a3 0130 	sub.w	r1, r3, #48	; 0x30
 803229e:	2909      	cmp	r1, #9
 80322a0:	d803      	bhi.n	80322aa <ipaddr_aton+0x4c>
        val = (val * base) + (int)(c - '0');
 80322a2:	fb05 3000 	mla	r0, r5, r0, r3
 80322a6:	3830      	subs	r0, #48	; 0x30
 80322a8:	e013      	b.n	80322d2 <ipaddr_aton+0x74>
        c = *++cp;
      } else if (base == 16 && isxdigit(c)) {
 80322aa:	2d10      	cmp	r5, #16
 80322ac:	d113      	bne.n	80322d6 <ipaddr_aton+0x78>
 80322ae:	f1a3 0161 	sub.w	r1, r3, #97	; 0x61
 80322b2:	b2c9      	uxtb	r1, r1
 80322b4:	2905      	cmp	r1, #5
 80322b6:	d904      	bls.n	80322c2 <ipaddr_aton+0x64>
 80322b8:	f1a3 0c41 	sub.w	ip, r3, #65	; 0x41
 80322bc:	f1bc 0f05 	cmp.w	ip, #5
 80322c0:	d809      	bhi.n	80322d6 <ipaddr_aton+0x78>
        val = (val << 4) | (int)(c + 10 - (islower(c) ? 'a' : 'A'));
 80322c2:	330a      	adds	r3, #10
 80322c4:	2919      	cmp	r1, #25
 80322c6:	bf8c      	ite	hi
 80322c8:	2141      	movhi	r1, #65	; 0x41
 80322ca:	2161      	movls	r1, #97	; 0x61
 80322cc:	1a5b      	subs	r3, r3, r1
 80322ce:	ea43 1000 	orr.w	r0, r3, r0, lsl #4
        c = *++cp;
 80322d2:	7853      	ldrb	r3, [r2, #1]
 80322d4:	e7e0      	b.n	8032298 <ipaddr_aton+0x3a>
      } else
        break;
    }
    if (c == '.') {
 80322d6:	2b2e      	cmp	r3, #46	; 0x2e
 80322d8:	d107      	bne.n	80322ea <ipaddr_aton+0x8c>
       * Internet format:
       *  a.b.c.d
       *  a.b.c   (with c treated as 16 bits)
       *  a.b (with b treated as 24 bits)
       */
      if (pp >= parts + 3) {
 80322da:	2c0c      	cmp	r4, #12
 80322dc:	d038      	beq.n	8032350 <ipaddr_aton+0xf2>
        return (0);
      }
      *pp++ = val;
 80322de:	f84d 0004 	str.w	r0, [sp, r4]
      c = *++cp;
 80322e2:	7853      	ldrb	r3, [r2, #1]
 80322e4:	1c50      	adds	r0, r2, #1
 80322e6:	3404      	adds	r4, #4
    } else
      break;
  }
 80322e8:	e7be      	b.n	8032268 <ipaddr_aton+0xa>
 80322ea:	2b0d      	cmp	r3, #13
 80322ec:	d803      	bhi.n	80322f6 <ipaddr_aton+0x98>
 80322ee:	2b09      	cmp	r3, #9
 80322f0:	d203      	bcs.n	80322fa <ipaddr_aton+0x9c>
 80322f2:	b113      	cbz	r3, 80322fa <ipaddr_aton+0x9c>
 80322f4:	e02c      	b.n	8032350 <ipaddr_aton+0xf2>
 80322f6:	2b20      	cmp	r3, #32
 80322f8:	d12a      	bne.n	8032350 <ipaddr_aton+0xf2>
  }
  /*
   * Concoct the address according to
   * the number of parts specified.
   */
  switch (pp - parts + 1) {
 80322fa:	466b      	mov	r3, sp
 80322fc:	1afb      	subs	r3, r7, r3
 80322fe:	109b      	asrs	r3, r3, #2
 8032300:	3301      	adds	r3, #1
 8032302:	2b04      	cmp	r3, #4
 8032304:	d81f      	bhi.n	8032346 <ipaddr_aton+0xe8>
 8032306:	e8df f003 	tbb	[pc, r3]
 803230a:	1e23      	.short	0x1e23
 803230c:	0a03      	.short	0x0a03
 803230e:	13          	.byte	0x13
 803230f:	00          	.byte	0x00

  case 1:             /* a -- 32 bits */
    break;

  case 2:             /* a.b -- 8.24 bits */
    if (val > 0xffffffUL) {
 8032310:	f1b0 7f80 	cmp.w	r0, #16777216	; 0x1000000
 8032314:	d21c      	bcs.n	8032350 <ipaddr_aton+0xf2>
      return (0);
    }
    val |= parts[0] << 24;
 8032316:	9b00      	ldr	r3, [sp, #0]
 8032318:	ea40 6003 	orr.w	r0, r0, r3, lsl #24
    break;
 803231c:	e013      	b.n	8032346 <ipaddr_aton+0xe8>

  case 3:             /* a.b.c -- 8.8.16 bits */
    if (val > 0xffff) {
 803231e:	f5b0 3f80 	cmp.w	r0, #65536	; 0x10000
 8032322:	d215      	bcs.n	8032350 <ipaddr_aton+0xf2>
      return (0);
    }
    val |= (parts[0] << 24) | (parts[1] << 16);
 8032324:	9b00      	ldr	r3, [sp, #0]
 8032326:	061a      	lsls	r2, r3, #24
 8032328:	9b01      	ldr	r3, [sp, #4]
 803232a:	ea42 4303 	orr.w	r3, r2, r3, lsl #16
 803232e:	e009      	b.n	8032344 <ipaddr_aton+0xe6>
    break;

  case 4:             /* a.b.c.d -- 8.8.8.8 bits */
    if (val > 0xff) {
 8032330:	28ff      	cmp	r0, #255	; 0xff
 8032332:	d80d      	bhi.n	8032350 <ipaddr_aton+0xf2>
      return (0);
    }
    val |= (parts[0] << 24) | (parts[1] << 16) | (parts[2] << 8);
 8032334:	9b00      	ldr	r3, [sp, #0]
 8032336:	061a      	lsls	r2, r3, #24
 8032338:	9b01      	ldr	r3, [sp, #4]
 803233a:	ea42 4203 	orr.w	r2, r2, r3, lsl #16
 803233e:	9b02      	ldr	r3, [sp, #8]
 8032340:	ea42 2303 	orr.w	r3, r2, r3, lsl #8
 8032344:	4318      	orrs	r0, r3
    break;
  default:
    LWIP_ASSERT("unhandled", 0);
    break;
  }
  if (addr) {
 8032346:	b12e      	cbz	r6, 8032354 <ipaddr_aton+0xf6>
    ip4_addr_set_u32(addr, htonl(val));
 8032348:	f7fb ffa2 	bl	802e290 <lwip_htonl>
 803234c:	6030      	str	r0, [r6, #0]
 803234e:	e001      	b.n	8032354 <ipaddr_aton+0xf6>
     * Collect number up to ``.''.
     * Values are specified as for C:
     * 0x=hex, 0=octal, 1-9=decimal.
     */
    if (!isdigit(c))
      return (0);
 8032350:	2000      	movs	r0, #0
 8032352:	e000      	b.n	8032356 <ipaddr_aton+0xf8>
    break;
  }
  if (addr) {
    ip4_addr_set_u32(addr, htonl(val));
  }
  return (1);
 8032354:	2001      	movs	r0, #1
}
 8032356:	b005      	add	sp, #20
 8032358:	bdf0      	pop	{r4, r5, r6, r7, pc}

0803235a <ipaddr_addr>:
 * @param cp IP address in ascii represenation (e.g. "127.0.0.1")
 * @return ip address in network order
 */
u32_t
ipaddr_addr(const char *cp)
{
 803235a:	b507      	push	{r0, r1, r2, lr}
  ip_addr_t val;

  if (ipaddr_aton(cp, &val)) {
 803235c:	a901      	add	r1, sp, #4
 803235e:	f7ff ff7e 	bl	803225e <ipaddr_aton>
 8032362:	b108      	cbz	r0, 8032368 <ipaddr_addr+0xe>
    return ip4_addr_get_u32(&val);
 8032364:	9801      	ldr	r0, [sp, #4]
 8032366:	e001      	b.n	803236c <ipaddr_addr+0x12>
  }
  return (IPADDR_NONE);
 8032368:	f04f 30ff 	mov.w	r0, #4294967295
}
 803236c:	bd0e      	pop	{r1, r2, r3, pc}

0803236e <ipaddr_ntoa_r>:
 * @param buflen length of buf
 * @return either pointer to buf which now holds the ASCII
 *         representation of addr or NULL if buf was too small
 */
char *ipaddr_ntoa_r(const ip_addr_t *addr, char *buf, int buflen)
{
 803236e:	e92d 4ff7 	stmdb	sp!, {r0, r1, r2, r4, r5, r6, r7, r8, r9, sl, fp, lr}
  u8_t rem;
  u8_t n;
  u8_t i;
  int len = 0;

  s_addr = ip4_addr_get_u32(addr);
 8032372:	6803      	ldr	r3, [r0, #0]
 8032374:	a802      	add	r0, sp, #8
 * @param buf target buffer where the string is stored
 * @param buflen length of buf
 * @return either pointer to buf which now holds the ASCII
 *         representation of addr or NULL if buf was too small
 */
char *ipaddr_ntoa_r(const ip_addr_t *addr, char *buf, int buflen)
 8032376:	f10d 0807 	add.w	r8, sp, #7
  u8_t rem;
  u8_t n;
  u8_t i;
  int len = 0;

  s_addr = ip4_addr_get_u32(addr);
 803237a:	f840 3d04 	str.w	r3, [r0, #-4]!

  rp = buf;
 803237e:	460c      	mov	r4, r1
 * @param buf target buffer where the string is stored
 * @param buflen length of buf
 * @return either pointer to buf which now holds the ASCII
 *         representation of addr or NULL if buf was too small
 */
char *ipaddr_ntoa_r(const ip_addr_t *addr, char *buf, int buflen)
 8032380:	3801      	subs	r0, #1
  char *rp;
  u8_t *ap;
  u8_t rem;
  u8_t n;
  u8_t i;
  int len = 0;
 8032382:	2700      	movs	r7, #0
  rp = buf;
  ap = (u8_t *)&s_addr;
  for(n = 0; n < 4; n++) {
    i = 0;
    do {
      rem = *ap % (u8_t)10;
 8032384:	f04f 0c0a 	mov.w	ip, #10
      *rp++ = inv[i];
    }
    if (len++ >= buflen) {
      return NULL;
    }
    *rp++ = '.';
 8032388:	f04f 092e 	mov.w	r9, #46	; 0x2e
 803238c:	7843      	ldrb	r3, [r0, #1]
 * @param buf target buffer where the string is stored
 * @param buflen length of buf
 * @return either pointer to buf which now holds the ASCII
 *         representation of addr or NULL if buf was too small
 */
char *ipaddr_ntoa_r(const ip_addr_t *addr, char *buf, int buflen)
 803238e:	2500      	movs	r5, #0
  rp = buf;
  ap = (u8_t *)&s_addr;
  for(n = 0; n < 4; n++) {
    i = 0;
    do {
      rem = *ap % (u8_t)10;
 8032390:	fbb3 f6fc 	udiv	r6, r3, ip
      *ap /= (u8_t)10;
      inv[i++] = '0' + rem;
 8032394:	f10d 0b08 	add.w	fp, sp, #8
  rp = buf;
  ap = (u8_t *)&s_addr;
  for(n = 0; n < 4; n++) {
    i = 0;
    do {
      rem = *ap % (u8_t)10;
 8032398:	fb0c 3a16 	mls	sl, ip, r6, r3
      *ap /= (u8_t)10;
      inv[i++] = '0' + rem;
 803239c:	eb0b 0305 	add.w	r3, fp, r5
 80323a0:	f10a 0a30 	add.w	sl, sl, #48	; 0x30
 80323a4:	3501      	adds	r5, #1
 80323a6:	f803 ac08 	strb.w	sl, [r3, #-8]
    } while(*ap);
 80323aa:	f016 03ff 	ands.w	r3, r6, #255	; 0xff
  for(n = 0; n < 4; n++) {
    i = 0;
    do {
      rem = *ap % (u8_t)10;
      *ap /= (u8_t)10;
      inv[i++] = '0' + rem;
 80323ae:	b2ed      	uxtb	r5, r5
    } while(*ap);
 80323b0:	d1ee      	bne.n	8032390 <ipaddr_ntoa_r+0x22>
 80323b2:	3d01      	subs	r5, #1
 * @param buf target buffer where the string is stored
 * @param buflen length of buf
 * @return either pointer to buf which now holds the ASCII
 *         representation of addr or NULL if buf was too small
 */
char *ipaddr_ntoa_r(const ip_addr_t *addr, char *buf, int buflen)
 80323b4:	1be6      	subs	r6, r4, r7
 80323b6:	f800 3f01 	strb.w	r3, [r0, #1]!
 80323ba:	b2ed      	uxtb	r5, r5
 80323bc:	463b      	mov	r3, r7
 80323be:	4637      	mov	r7, r6
 80323c0:	e00b      	b.n	80323da <ipaddr_ntoa_r+0x6c>
 80323c2:	1e6c      	subs	r4, r5, #1
      rem = *ap % (u8_t)10;
      *ap /= (u8_t)10;
      inv[i++] = '0' + rem;
    } while(*ap);
    while(i--) {
      if (len++ >= buflen) {
 80323c4:	4293      	cmp	r3, r2
 80323c6:	b2e4      	uxtb	r4, r4
 80323c8:	da16      	bge.n	80323f8 <ipaddr_ntoa_r+0x8a>
        return NULL;
      }
      *rp++ = inv[i];
 80323ca:	f10d 0a08 	add.w	sl, sp, #8
 80323ce:	4455      	add	r5, sl
 80323d0:	f815 5c08 	ldrb.w	r5, [r5, #-8]
 80323d4:	54fd      	strb	r5, [r7, r3]
 80323d6:	3301      	adds	r3, #1
 80323d8:	4625      	mov	r5, r4
    do {
      rem = *ap % (u8_t)10;
      *ap /= (u8_t)10;
      inv[i++] = '0' + rem;
    } while(*ap);
    while(i--) {
 80323da:	2dff      	cmp	r5, #255	; 0xff
 * @param buf target buffer where the string is stored
 * @param buflen length of buf
 * @return either pointer to buf which now holds the ASCII
 *         representation of addr or NULL if buf was too small
 */
char *ipaddr_ntoa_r(const ip_addr_t *addr, char *buf, int buflen)
 80323dc:	eb06 0403 	add.w	r4, r6, r3
    do {
      rem = *ap % (u8_t)10;
      *ap /= (u8_t)10;
      inv[i++] = '0' + rem;
    } while(*ap);
    while(i--) {
 80323e0:	d1ef      	bne.n	80323c2 <ipaddr_ntoa_r+0x54>
      if (len++ >= buflen) {
        return NULL;
      }
      *rp++ = inv[i];
    }
    if (len++ >= buflen) {
 80323e2:	1c5f      	adds	r7, r3, #1
 80323e4:	4293      	cmp	r3, r2
 80323e6:	da07      	bge.n	80323f8 <ipaddr_ntoa_r+0x8a>

  s_addr = ip4_addr_get_u32(addr);

  rp = buf;
  ap = (u8_t *)&s_addr;
  for(n = 0; n < 4; n++) {
 80323e8:	4540      	cmp	r0, r8
      *rp++ = inv[i];
    }
    if (len++ >= buflen) {
      return NULL;
    }
    *rp++ = '.';
 80323ea:	f804 9b01 	strb.w	r9, [r4], #1

  s_addr = ip4_addr_get_u32(addr);

  rp = buf;
  ap = (u8_t *)&s_addr;
  for(n = 0; n < 4; n++) {
 80323ee:	d1cd      	bne.n	803238c <ipaddr_ntoa_r+0x1e>
      return NULL;
    }
    *rp++ = '.';
    ap++;
  }
  *--rp = 0;
 80323f0:	2300      	movs	r3, #0
 80323f2:	f804 3c01 	strb.w	r3, [r4, #-1]
 80323f6:	e000      	b.n	80323fa <ipaddr_ntoa_r+0x8c>
      *ap /= (u8_t)10;
      inv[i++] = '0' + rem;
    } while(*ap);
    while(i--) {
      if (len++ >= buflen) {
        return NULL;
 80323f8:	2100      	movs	r1, #0
    *rp++ = '.';
    ap++;
  }
  *--rp = 0;
  return buf;
}
 80323fa:	4608      	mov	r0, r1
 80323fc:	e8bd 8ffe 	ldmia.w	sp!, {r1, r2, r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}

08032400 <ipaddr_ntoa>:
 */
char *
ipaddr_ntoa(const ip_addr_t *addr)
{
  static char str[16];
  return ipaddr_ntoa_r(addr, str, 16);
 8032400:	4901      	ldr	r1, [pc, #4]	; (8032408 <ipaddr_ntoa+0x8>)
 8032402:	2210      	movs	r2, #16
 8032404:	f7ff bfb3 	b.w	803236e <ipaddr_ntoa_r>
 8032408:	2000c418 	.word	0x2000c418

0803240c <ip_route>:
    return netif;
  }
#endif

  /* iterate through netifs */
  for (netif = netif_list; netif != NULL; netif = netif->next) {
 803240c:	4b0f      	ldr	r3, [pc, #60]	; (803244c <ip_route+0x40>)
 * @param dest the destination IP address for which to find the route
 * @return the netif on which to send to reach dest
 */
struct netif *
ip_route(ip_addr_t *dest)
{
 803240e:	b510      	push	{r4, lr}
    return netif;
  }
#endif

  /* iterate through netifs */
  for (netif = netif_list; netif != NULL; netif = netif->next) {
 8032410:	681c      	ldr	r4, [r3, #0]
 8032412:	e00a      	b.n	803242a <ip_route+0x1e>
    /* network mask matches? */
    if (netif_is_up(netif)) {
 8032414:	f894 302d 	ldrb.w	r3, [r4, #45]	; 0x2d
 8032418:	07d9      	lsls	r1, r3, #31
 803241a:	d505      	bpl.n	8032428 <ip_route+0x1c>
      if (ip_addr_netcmp(dest, &(netif->ip_addr), &(netif->netmask))) {
 803241c:	6803      	ldr	r3, [r0, #0]
 803241e:	6862      	ldr	r2, [r4, #4]
 8032420:	405a      	eors	r2, r3
 8032422:	68a3      	ldr	r3, [r4, #8]
 8032424:	421a      	tst	r2, r3
 8032426:	d00e      	beq.n	8032446 <ip_route+0x3a>
    return netif;
  }
#endif

  /* iterate through netifs */
  for (netif = netif_list; netif != NULL; netif = netif->next) {
 8032428:	6824      	ldr	r4, [r4, #0]
 803242a:	2c00      	cmp	r4, #0
 803242c:	d1f2      	bne.n	8032414 <ip_route+0x8>
        /* return netif on which to forward IP packet */
        return netif;
      }
    }
  }
  if ((netif_default == NULL) || (!netif_is_up(netif_default))) {
 803242e:	4b08      	ldr	r3, [pc, #32]	; (8032450 <ip_route+0x44>)
 8032430:	681b      	ldr	r3, [r3, #0]
 8032432:	b12b      	cbz	r3, 8032440 <ip_route+0x34>
 8032434:	f893 202d 	ldrb.w	r2, [r3, #45]	; 0x2d
 8032438:	07d2      	lsls	r2, r2, #31
 803243a:	bf48      	it	mi
 803243c:	461c      	movmi	r4, r3
 803243e:	d402      	bmi.n	8032446 <ip_route+0x3a>
    LWIP_DEBUGF(IP_DEBUG | LWIP_DBG_LEVEL_SERIOUS, ("ip_route: No route to %"U16_F".%"U16_F".%"U16_F".%"U16_F"\n",
      ip4_addr1_16(dest), ip4_addr2_16(dest), ip4_addr3_16(dest), ip4_addr4_16(dest)));
    IP_STATS_INC(ip.rterr);
    snmp_inc_ipoutnoroutes();
 8032440:	f001 fcd8 	bl	8033df4 <snmp_inc_ipoutnoroutes>
    return NULL;
 8032444:	e7ff      	b.n	8032446 <ip_route+0x3a>
  }
  /* no matching netif found, use default netif */
  return netif_default;
}
 8032446:	4620      	mov	r0, r4
 8032448:	bd10      	pop	{r4, pc}
 803244a:	bf00      	nop
 803244c:	2000f6a0 	.word	0x2000f6a0
 8032450:	2000f6a4 	.word	0x2000f6a4

08032454 <ip_input>:
 * @return ERR_OK if the packet was processed (could return ERR_* if it wasn't
 *         processed, but currently always returns ERR_OK)
 */
err_t
ip_input(struct pbuf *p, struct netif *inp)
{
 8032454:	e92d 4ff8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8032458:	4604      	mov	r4, r0
 803245a:	460f      	mov	r7, r1
#if IP_ACCEPT_LINK_LAYER_ADDRESSING
  int check_ip_src=1;
#endif /* IP_ACCEPT_LINK_LAYER_ADDRESSING */

  IP_STATS_INC(ip.recv);
  snmp_inc_ipinreceives();
 803245c:	f001 fc8a 	bl	8033d74 <snmp_inc_ipinreceives>

  /* identify the IP header */
  iphdr = (struct ip_hdr *)p->payload;
 8032460:	6866      	ldr	r6, [r4, #4]
  if (IPH_V(iphdr) != 4) {
 8032462:	f896 8000 	ldrb.w	r8, [r6]
 8032466:	ea4f 1318 	mov.w	r3, r8, lsr #4
 803246a:	2b04      	cmp	r3, #4
 803246c:	d005      	beq.n	803247a <ip_input+0x26>
    LWIP_DEBUGF(IP_DEBUG | LWIP_DBG_LEVEL_WARNING, ("IP packet dropped due to bad version number %"U16_F"\n", IPH_V(iphdr)));
    ip_debug_print(p);
    pbuf_free(p);
 803246e:	4620      	mov	r0, r4
 8032470:	f7fd f842 	bl	802f4f8 <pbuf_free>
    IP_STATS_INC(ip.err);
    IP_STATS_INC(ip.drop);
    snmp_inc_ipinhdrerrors();
 8032474:	f001 fc86 	bl	8033d84 <snmp_inc_ipinhdrerrors>
    return ERR_OK;
 8032478:	e0be      	b.n	80325f8 <ip_input+0x1a4>
  /* obtain IP header length in number of 32-bit words */
  iphdr_hlen = IPH_HL(iphdr);
  /* calculate IP header length in bytes */
  iphdr_hlen *= 4;
  /* obtain ip length in bytes */
  iphdr_len = ntohs(IPH_LEN(iphdr));
 803247a:	8870      	ldrh	r0, [r6, #2]
 803247c:	f7fb ff03 	bl	802e286 <lwip_ntohs>
    return ERR_OK;
  }
#endif

  /* obtain IP header length in number of 32-bit words */
  iphdr_hlen = IPH_HL(iphdr);
 8032480:	f008 080f 	and.w	r8, r8, #15
  iphdr_hlen *= 4;
  /* obtain ip length in bytes */
  iphdr_len = ntohs(IPH_LEN(iphdr));

  /* header length exceeds first pbuf length, or ip length exceeds total pbuf length? */
  if ((iphdr_hlen > p->len) || (iphdr_len > p->tot_len)) {
 8032484:	8963      	ldrh	r3, [r4, #10]
#endif

  /* obtain IP header length in number of 32-bit words */
  iphdr_hlen = IPH_HL(iphdr);
  /* calculate IP header length in bytes */
  iphdr_hlen *= 4;
 8032486:	ea4f 0888 	mov.w	r8, r8, lsl #2
  /* obtain ip length in bytes */
  iphdr_len = ntohs(IPH_LEN(iphdr));

  /* header length exceeds first pbuf length, or ip length exceeds total pbuf length? */
  if ((iphdr_hlen > p->len) || (iphdr_len > p->tot_len)) {
 803248a:	4543      	cmp	r3, r8
  /* obtain IP header length in number of 32-bit words */
  iphdr_hlen = IPH_HL(iphdr);
  /* calculate IP header length in bytes */
  iphdr_hlen *= 4;
  /* obtain ip length in bytes */
  iphdr_len = ntohs(IPH_LEN(iphdr));
 803248c:	4601      	mov	r1, r0
      LWIP_DEBUGF(IP_DEBUG | LWIP_DBG_LEVEL_SERIOUS,
        ("IP (len %"U16_F") is longer than pbuf (len %"U16_F"), IP packet dropped.\n",
        iphdr_len, p->tot_len));
    }
    /* free (drop) packet pbufs */
    pbuf_free(p);
 803248e:	4620      	mov	r0, r4
  iphdr_hlen *= 4;
  /* obtain ip length in bytes */
  iphdr_len = ntohs(IPH_LEN(iphdr));

  /* header length exceeds first pbuf length, or ip length exceeds total pbuf length? */
  if ((iphdr_hlen > p->len) || (iphdr_len > p->tot_len)) {
 8032490:	d302      	bcc.n	8032498 <ip_input+0x44>
 8032492:	8923      	ldrh	r3, [r4, #8]
 8032494:	428b      	cmp	r3, r1
 8032496:	d202      	bcs.n	803249e <ip_input+0x4a>
      LWIP_DEBUGF(IP_DEBUG | LWIP_DBG_LEVEL_SERIOUS,
        ("IP (len %"U16_F") is longer than pbuf (len %"U16_F"), IP packet dropped.\n",
        iphdr_len, p->tot_len));
    }
    /* free (drop) packet pbufs */
    pbuf_free(p);
 8032498:	f7fd f82e 	bl	802f4f8 <pbuf_free>
 803249c:	e045      	b.n	803252a <ip_input+0xd6>
  }
#endif

  /* Trim pbuf. This should have been done at the netif layer,
   * but we'll do it anyway just to be sure that its done. */
  pbuf_realloc(p, iphdr_len);
 803249e:	f7fd f852 	bl	802f546 <pbuf_realloc>

  /* copy IP addresses to aligned ip_addr_t */
  ip_addr_copy(current_iphdr_dest, iphdr->dest);
 80324a2:	6932      	ldr	r2, [r6, #16]
 80324a4:	4b56      	ldr	r3, [pc, #344]	; (8032600 <ip_input+0x1ac>)
        }
#endif /* LWIP_AUTOIP */
      }
      if (first) {
        first = 0;
        netif = netif_list;
 80324a6:	f8df b168 	ldr.w	fp, [pc, #360]	; 8032610 <ip_input+0x1bc>
  /* Trim pbuf. This should have been done at the netif layer,
   * but we'll do it anyway just to be sure that its done. */
  pbuf_realloc(p, iphdr_len);

  /* copy IP addresses to aligned ip_addr_t */
  ip_addr_copy(current_iphdr_dest, iphdr->dest);
 80324aa:	601a      	str	r2, [r3, #0]
  ip_addr_copy(current_iphdr_src, iphdr->src);
 80324ac:	68f1      	ldr	r1, [r6, #12]
 80324ae:	4a55      	ldr	r2, [pc, #340]	; (8032604 <ip_input+0x1b0>)
 80324b0:	463d      	mov	r5, r7
 80324b2:	6011      	str	r1, [r2, #0]
#endif /* LWIP_IGMP */
  {
    /* start trying with inp. if that's not acceptable, start walking the
       list of configured netifs.
       'first' is used as a boolean to mark whether we started walking the list */
    int first = 1;
 80324b4:	f04f 0901 	mov.w	r9, #1
          ip4_addr_get_u32(&iphdr->dest) & ~ip4_addr_get_u32(&netif->netmask)));

      /* interface is up and configured? */
      if ((netif_is_up(netif)) && (!ip_addr_isany(&(netif->ip_addr)))) {
        /* unicast to this interface address? */
        if (ip_addr_cmp(&current_iphdr_dest, &(netif->ip_addr)) ||
 80324b8:	469a      	mov	sl, r3
          ip4_addr_get_u32(&iphdr->dest) & ip4_addr_get_u32(&netif->netmask),
          ip4_addr_get_u32(&netif->ip_addr) & ip4_addr_get_u32(&netif->netmask),
          ip4_addr_get_u32(&iphdr->dest) & ~ip4_addr_get_u32(&netif->netmask)));

      /* interface is up and configured? */
      if ((netif_is_up(netif)) && (!ip_addr_isany(&(netif->ip_addr)))) {
 80324ba:	f895 302d 	ldrb.w	r3, [r5, #45]	; 0x2d
 80324be:	07d8      	lsls	r0, r3, #31
 80324c0:	d403      	bmi.n	80324ca <ip_input+0x76>
          /* break out of for loop */
          break;
        }
#endif /* LWIP_AUTOIP */
      }
      if (first) {
 80324c2:	f1b9 0f00 	cmp.w	r9, #0
 80324c6:	d10e      	bne.n	80324e6 <ip_input+0x92>
 80324c8:	e010      	b.n	80324ec <ip_input+0x98>
          ip4_addr_get_u32(&iphdr->dest) & ip4_addr_get_u32(&netif->netmask),
          ip4_addr_get_u32(&netif->ip_addr) & ip4_addr_get_u32(&netif->netmask),
          ip4_addr_get_u32(&iphdr->dest) & ~ip4_addr_get_u32(&netif->netmask)));

      /* interface is up and configured? */
      if ((netif_is_up(netif)) && (!ip_addr_isany(&(netif->ip_addr)))) {
 80324ca:	686b      	ldr	r3, [r5, #4]
 80324cc:	2b00      	cmp	r3, #0
 80324ce:	d0f8      	beq.n	80324c2 <ip_input+0x6e>
        /* unicast to this interface address? */
        if (ip_addr_cmp(&current_iphdr_dest, &(netif->ip_addr)) ||
 80324d0:	f8da 0000 	ldr.w	r0, [sl]
 80324d4:	4298      	cmp	r0, r3
 80324d6:	f000 8088 	beq.w	80325ea <ip_input+0x196>
            /* or broadcast on this interface network address? */
            ip_addr_isbroadcast(&current_iphdr_dest, netif)) {
 80324da:	4629      	mov	r1, r5
 80324dc:	f7ff fea6 	bl	803222c <ip4_addr_isbroadcast>
          ip4_addr_get_u32(&iphdr->dest) & ~ip4_addr_get_u32(&netif->netmask)));

      /* interface is up and configured? */
      if ((netif_is_up(netif)) && (!ip_addr_isany(&(netif->ip_addr)))) {
        /* unicast to this interface address? */
        if (ip_addr_cmp(&current_iphdr_dest, &(netif->ip_addr)) ||
 80324e0:	2800      	cmp	r0, #0
 80324e2:	d0ee      	beq.n	80324c2 <ip_input+0x6e>
 80324e4:	e081      	b.n	80325ea <ip_input+0x196>
        }
#endif /* LWIP_AUTOIP */
      }
      if (first) {
        first = 0;
        netif = netif_list;
 80324e6:	f8db 5000 	ldr.w	r5, [fp]
 80324ea:	e000      	b.n	80324ee <ip_input+0x9a>
      } else {
        netif = netif->next;
 80324ec:	682d      	ldr	r5, [r5, #0]
      }
      if (netif == inp) {
 80324ee:	42bd      	cmp	r5, r7
        netif = netif->next;
 80324f0:	bf08      	it	eq
 80324f2:	682d      	ldreq	r5, [r5, #0]
 80324f4:	f04f 0900 	mov.w	r9, #0
      }
    } while(netif != NULL);
 80324f8:	2d00      	cmp	r5, #0
 80324fa:	d1de      	bne.n	80324ba <ip_input+0x66>
 80324fc:	e072      	b.n	80325e4 <ip_input+0x190>
    /* remote port is DHCP server? */
    if (IPH_PROTO(iphdr) == IP_PROTO_UDP) {
      struct udp_hdr *udphdr = (struct udp_hdr *)((u8_t *)iphdr + iphdr_hlen);
      LWIP_DEBUGF(IP_DEBUG | LWIP_DBG_TRACE, ("ip_input: UDP packet to DHCP client port %"U16_F"\n",
        ntohs(udphdr->dest)));
      if (IP_ACCEPT_LINK_LAYER_ADDRESSED_PORT(udphdr->dest)) {
 80324fe:	eb06 0308 	add.w	r3, r6, r8
 8032502:	885b      	ldrh	r3, [r3, #2]
 8032504:	f5b3 4f88 	cmp.w	r3, #17408	; 0x4400
 8032508:	d16f      	bne.n	80325ea <ip_input+0x196>
 803250a:	e011      	b.n	8032530 <ip_input+0xdc>
  /* broadcast or multicast packet source address? Compliant with RFC 1122: 3.2.1.3 */
#if IP_ACCEPT_LINK_LAYER_ADDRESSING
  /* DHCP servers need 0.0.0.0 to be allowed as source address (RFC 1.1.2.2: 3.2.1.3/a) */
  if (check_ip_src && !ip_addr_isany(&current_iphdr_src))
#endif /* IP_ACCEPT_LINK_LAYER_ADDRESSING */
  {  if ((ip_addr_isbroadcast(&current_iphdr_src, inp)) ||
 803250c:	4639      	mov	r1, r7
 803250e:	f7ff fe8d 	bl	803222c <ip4_addr_isbroadcast>
 8032512:	b928      	cbnz	r0, 8032520 <ip_input+0xcc>
         (ip_addr_ismulticast(&current_iphdr_src))) {
 8032514:	f8d8 3000 	ldr.w	r3, [r8]
 8032518:	f003 03f0 	and.w	r3, r3, #240	; 0xf0
  /* broadcast or multicast packet source address? Compliant with RFC 1122: 3.2.1.3 */
#if IP_ACCEPT_LINK_LAYER_ADDRESSING
  /* DHCP servers need 0.0.0.0 to be allowed as source address (RFC 1.1.2.2: 3.2.1.3/a) */
  if (check_ip_src && !ip_addr_isany(&current_iphdr_src))
#endif /* IP_ACCEPT_LINK_LAYER_ADDRESSING */
  {  if ((ip_addr_isbroadcast(&current_iphdr_src, inp)) ||
 803251c:	2be0      	cmp	r3, #224	; 0xe0
 803251e:	d108      	bne.n	8032532 <ip_input+0xde>
         (ip_addr_ismulticast(&current_iphdr_src))) {
      /* packet source is not valid */
      LWIP_DEBUGF(IP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_WARNING, ("ip_input: packet source is not valid.\n"));
      /* free (drop) packet pbufs */
      pbuf_free(p);
 8032520:	4620      	mov	r0, r4
 8032522:	f7fc ffe9 	bl	802f4f8 <pbuf_free>
      IP_STATS_INC(ip.drop);
      snmp_inc_ipinaddrerrors();
 8032526:	f001 fc35 	bl	8033d94 <snmp_inc_ipinaddrerrors>
      snmp_inc_ipindiscards();
 803252a:	f001 fc43 	bl	8033db4 <snmp_inc_ipindiscards>
      return ERR_OK;
 803252e:	e063      	b.n	80325f8 <ip_input+0x1a4>
    /* remote port is DHCP server? */
    if (IPH_PROTO(iphdr) == IP_PROTO_UDP) {
      struct udp_hdr *udphdr = (struct udp_hdr *)((u8_t *)iphdr + iphdr_hlen);
      LWIP_DEBUGF(IP_DEBUG | LWIP_DBG_TRACE, ("ip_input: UDP packet to DHCP client port %"U16_F"\n",
        ntohs(udphdr->dest)));
      if (IP_ACCEPT_LINK_LAYER_ADDRESSED_PORT(udphdr->dest)) {
 8032530:	463d      	mov	r5, r7
      return ERR_OK;
    }
  }

  /* packet not for us? */
  if (netif == NULL) {
 8032532:	b93d      	cbnz	r5, 8032544 <ip_input+0xf0>
      /* try to forward IP packet on (other) interfaces */
      ip_forward(p, iphdr, inp);
    } else
#endif /* IP_FORWARD */
    {
      snmp_inc_ipinaddrerrors();
 8032534:	f001 fc2e 	bl	8033d94 <snmp_inc_ipinaddrerrors>
      snmp_inc_ipindiscards();
 8032538:	f001 fc3c 	bl	8033db4 <snmp_inc_ipindiscards>
    }
    pbuf_free(p);
 803253c:	4620      	mov	r0, r4
 803253e:	f7fc ffdb 	bl	802f4f8 <pbuf_free>
    return ERR_OK;
 8032542:	e059      	b.n	80325f8 <ip_input+0x1a4>
  }
  /* packet consists of multiple fragments? */
  if ((IPH_OFFSET(iphdr) & PP_HTONS(IP_OFFMASK | IP_MF)) != 0) {
 8032544:	88f3      	ldrh	r3, [r6, #6]
 8032546:	f023 03c0 	bic.w	r3, r3, #192	; 0xc0
 803254a:	b29b      	uxth	r3, r3
 803254c:	b12b      	cbz	r3, 803255a <ip_input+0x106>
    if (p == NULL) {
      return ERR_OK;
    }
    iphdr = (struct ip_hdr *)p->payload;
#else /* IP_REASSEMBLY == 0, no packet fragment reassembly code present */
    pbuf_free(p);
 803254e:	4620      	mov	r0, r4
 8032550:	f7fc ffd2 	bl	802f4f8 <pbuf_free>
    LWIP_DEBUGF(IP_DEBUG | LWIP_DBG_LEVEL_SERIOUS, ("IP packet dropped since it was fragmented (0x%"X16_F") (while IP_REASSEMBLY == 0).\n",
      ntohs(IPH_OFFSET(iphdr))));
    IP_STATS_INC(ip.opterr);
    IP_STATS_INC(ip.drop);
    /* unsupported protocol feature */
    snmp_inc_ipinunknownprotos();
 8032554:	f001 fc26 	bl	8033da4 <snmp_inc_ipinunknownprotos>
    return ERR_OK;
 8032558:	e04e      	b.n	80325f8 <ip_input+0x1a4>
  /* send to upper layers */
  LWIP_DEBUGF(IP_DEBUG, ("ip_input: \n"));
  ip_debug_print(p);
  LWIP_DEBUGF(IP_DEBUG, ("ip_input: p->len %"U16_F" p->tot_len %"U16_F"\n", p->len, p->tot_len));

  current_netif = inp;
 803255a:	4b2b      	ldr	r3, [pc, #172]	; (8032608 <ip_input+0x1b4>)
 803255c:	601f      	str	r7, [r3, #0]
  current_header = iphdr;
 803255e:	4b2b      	ldr	r3, [pc, #172]	; (803260c <ip_input+0x1b8>)

#if LWIP_RAW
  /* raw input did not eat the packet? */
  if (raw_input(p, inp) == 0)
 8032560:	4620      	mov	r0, r4
 8032562:	4639      	mov	r1, r7
  LWIP_DEBUGF(IP_DEBUG, ("ip_input: \n"));
  ip_debug_print(p);
  LWIP_DEBUGF(IP_DEBUG, ("ip_input: p->len %"U16_F" p->tot_len %"U16_F"\n", p->len, p->tot_len));

  current_netif = inp;
  current_header = iphdr;
 8032564:	601e      	str	r6, [r3, #0]

#if LWIP_RAW
  /* raw input did not eat the packet? */
  if (raw_input(p, inp) == 0)
 8032566:	f7fd f947 	bl	802f7f8 <raw_input>
 803256a:	bb88      	cbnz	r0, 80325d0 <ip_input+0x17c>
#endif /* LWIP_RAW */
  {
    switch (IPH_PROTO(iphdr)) {
 803256c:	7a73      	ldrb	r3, [r6, #9]
 803256e:	2b06      	cmp	r3, #6
 8032570:	d00b      	beq.n	803258a <ip_input+0x136>
 8032572:	2b11      	cmp	r3, #17
 8032574:	d002      	beq.n	803257c <ip_input+0x128>
 8032576:	2b01      	cmp	r3, #1
 8032578:	d115      	bne.n	80325a6 <ip_input+0x152>
 803257a:	e00d      	b.n	8032598 <ip_input+0x144>
#if LWIP_UDP
    case IP_PROTO_UDP:
#if LWIP_UDPLITE
    case IP_PROTO_UDPLITE:
#endif /* LWIP_UDPLITE */
      snmp_inc_ipindelivers();
 803257c:	f001 fc22 	bl	8033dc4 <snmp_inc_ipindelivers>
      udp_input(p, inp);
 8032580:	4620      	mov	r0, r4
 8032582:	4639      	mov	r1, r7
 8032584:	f7ff fb44 	bl	8031c10 <udp_input>
      break;
 8032588:	e022      	b.n	80325d0 <ip_input+0x17c>
#endif /* LWIP_UDP */
#if LWIP_TCP
    case IP_PROTO_TCP:
      snmp_inc_ipindelivers();
 803258a:	f001 fc1b 	bl	8033dc4 <snmp_inc_ipindelivers>
      tcp_input(p, inp);
 803258e:	4620      	mov	r0, r4
 8032590:	4639      	mov	r1, r7
 8032592:	f7fe f8e7 	bl	8030764 <tcp_input>
      break;
 8032596:	e01b      	b.n	80325d0 <ip_input+0x17c>
#endif /* LWIP_TCP */
#if LWIP_ICMP
    case IP_PROTO_ICMP:
      snmp_inc_ipindelivers();
 8032598:	f001 fc14 	bl	8033dc4 <snmp_inc_ipindelivers>
      icmp_input(p, inp);
 803259c:	4620      	mov	r0, r4
 803259e:	4639      	mov	r1, r7
 80325a0:	f7ff fd20 	bl	8031fe4 <icmp_input>
      break;
 80325a4:	e014      	b.n	80325d0 <ip_input+0x17c>
      break;
#endif /* LWIP_IGMP */
    default:
#if LWIP_ICMP
      /* send ICMP destination protocol unreachable unless is was a broadcast */
      if (!ip_addr_isbroadcast(&current_iphdr_dest, inp) &&
 80325a6:	4d16      	ldr	r5, [pc, #88]	; (8032600 <ip_input+0x1ac>)
 80325a8:	4639      	mov	r1, r7
 80325aa:	6828      	ldr	r0, [r5, #0]
 80325ac:	f7ff fe3e 	bl	803222c <ip4_addr_isbroadcast>
 80325b0:	b948      	cbnz	r0, 80325c6 <ip_input+0x172>
          !ip_addr_ismulticast(&current_iphdr_dest)) {
 80325b2:	682b      	ldr	r3, [r5, #0]
 80325b4:	f003 03f0 	and.w	r3, r3, #240	; 0xf0
      break;
#endif /* LWIP_IGMP */
    default:
#if LWIP_ICMP
      /* send ICMP destination protocol unreachable unless is was a broadcast */
      if (!ip_addr_isbroadcast(&current_iphdr_dest, inp) &&
 80325b8:	2be0      	cmp	r3, #224	; 0xe0
 80325ba:	d004      	beq.n	80325c6 <ip_input+0x172>
          !ip_addr_ismulticast(&current_iphdr_dest)) {
        p->payload = iphdr;
 80325bc:	6066      	str	r6, [r4, #4]
        icmp_dest_unreach(p, ICMP_DUR_PROTO);
 80325be:	4620      	mov	r0, r4
 80325c0:	2102      	movs	r1, #2
 80325c2:	f7ff fda5 	bl	8032110 <icmp_dest_unreach>
      }
#endif /* LWIP_ICMP */
      pbuf_free(p);
 80325c6:	4620      	mov	r0, r4
 80325c8:	f7fc ff96 	bl	802f4f8 <pbuf_free>

      LWIP_DEBUGF(IP_DEBUG | LWIP_DBG_LEVEL_SERIOUS, ("Unsupported transport protocol %"U16_F"\n", IPH_PROTO(iphdr)));

      IP_STATS_INC(ip.proterr);
      IP_STATS_INC(ip.drop);
      snmp_inc_ipinunknownprotos();
 80325cc:	f001 fbea 	bl	8033da4 <snmp_inc_ipinunknownprotos>
    }
  }

  current_netif = NULL;
 80325d0:	4a0d      	ldr	r2, [pc, #52]	; (8032608 <ip_input+0x1b4>)
 80325d2:	2300      	movs	r3, #0
 80325d4:	6013      	str	r3, [r2, #0]
  current_header = NULL;
 80325d6:	4a0d      	ldr	r2, [pc, #52]	; (803260c <ip_input+0x1b8>)
 80325d8:	6013      	str	r3, [r2, #0]
  ip_addr_set_any(&current_iphdr_src);
 80325da:	4a0a      	ldr	r2, [pc, #40]	; (8032604 <ip_input+0x1b0>)
 80325dc:	6013      	str	r3, [r2, #0]
  ip_addr_set_any(&current_iphdr_dest);
 80325de:	4a08      	ldr	r2, [pc, #32]	; (8032600 <ip_input+0x1ac>)
 80325e0:	6013      	str	r3, [r2, #0]

  return ERR_OK;
 80325e2:	e009      	b.n	80325f8 <ip_input+0x1a4>
   *
   * #define LWIP_IP_ACCEPT_UDP_PORT(dst_port) ((dst_port) == PP_NTOHS(12345))
   */
  if (netif == NULL) {
    /* remote port is DHCP server? */
    if (IPH_PROTO(iphdr) == IP_PROTO_UDP) {
 80325e4:	7a73      	ldrb	r3, [r6, #9]
 80325e6:	2b11      	cmp	r3, #17
 80325e8:	d089      	beq.n	80324fe <ip_input+0xaa>
#endif /* IP_ACCEPT_LINK_LAYER_ADDRESSING */

  /* broadcast or multicast packet source address? Compliant with RFC 1122: 3.2.1.3 */
#if IP_ACCEPT_LINK_LAYER_ADDRESSING
  /* DHCP servers need 0.0.0.0 to be allowed as source address (RFC 1.1.2.2: 3.2.1.3/a) */
  if (check_ip_src && !ip_addr_isany(&current_iphdr_src))
 80325ea:	f8df 8018 	ldr.w	r8, [pc, #24]	; 8032604 <ip_input+0x1b0>
 80325ee:	f8d8 0000 	ldr.w	r0, [r8]
 80325f2:	2800      	cmp	r0, #0
 80325f4:	d09d      	beq.n	8032532 <ip_input+0xde>
 80325f6:	e789      	b.n	803250c <ip_input+0xb8>
  current_header = NULL;
  ip_addr_set_any(&current_iphdr_src);
  ip_addr_set_any(&current_iphdr_dest);

  return ERR_OK;
}
 80325f8:	2000      	movs	r0, #0
 80325fa:	e8bd 8ff8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}
 80325fe:	bf00      	nop
 8032600:	2000f6d4 	.word	0x2000f6d4
 8032604:	2000f6cc 	.word	0x2000f6cc
 8032608:	2000f6d0 	.word	0x2000f6d0
 803260c:	2000f6d8 	.word	0x2000f6d8
 8032610:	2000f6a0 	.word	0x2000f6a0

08032614 <ip_output_if>:
 */
err_t
ip_output_if(struct pbuf *p, ip_addr_t *src, ip_addr_t *dest,
             u8_t ttl, u8_t tos,
             u8_t proto, struct netif *netif)
{
 8032614:	e92d 47f3 	stmdb	sp!, {r0, r1, r4, r5, r6, r7, r8, r9, sl, lr}
 8032618:	4615      	mov	r5, r2
 803261a:	4606      	mov	r6, r0
 803261c:	4689      	mov	r9, r1
 803261e:	469a      	mov	sl, r3
 8032620:	9f0c      	ldr	r7, [sp, #48]	; 0x30

  /* pbufs passed to IP must have a ref-count of 1 as their payload pointer
     gets altered as the packet is passed down the stack */
  LWIP_ASSERT("p->ref == 1", p->ref == 1);

  snmp_inc_ipoutrequests();
 8032622:	f001 fbd7 	bl	8033dd4 <snmp_inc_ipoutrequests>

  /* Should the IP header be generated or is it already included in p? */
  if (dest != IP_HDRINCL) {
 8032626:	b3b5      	cbz	r5, 8032696 <ip_output_if+0x82>
      }
#endif /* CHECKSUM_GEN_IP_INLINE */
    }
#endif /* IP_OPTIONS_SEND */
    /* generate IP header */
    if (pbuf_header(p, IP_HLEN)) {
 8032628:	4630      	mov	r0, r6
 803262a:	2114      	movs	r1, #20
 803262c:	f7fc ff39 	bl	802f4a2 <pbuf_header>
 8032630:	4680      	mov	r8, r0
 8032632:	b118      	cbz	r0, 803263c <ip_output_if+0x28>
      LWIP_DEBUGF(IP_DEBUG | LWIP_DBG_LEVEL_SERIOUS, ("ip_output: not enough room for IP header in pbuf\n"));

      IP_STATS_INC(ip.err);
      snmp_inc_ipoutdiscards();
 8032634:	f001 fbd6 	bl	8033de4 <snmp_inc_ipoutdiscards>
      return ERR_BUF;
 8032638:	20fe      	movs	r0, #254	; 0xfe
 803263a:	e036      	b.n	80326aa <ip_output_if+0x96>
    }

    iphdr = (struct ip_hdr *)p->payload;
 803263c:	6874      	ldr	r4, [r6, #4]
    LWIP_ASSERT("check that first pbuf can hold struct ip_hdr",
               (p->len >= sizeof(struct ip_hdr)));

    IPH_TTL_SET(iphdr, ttl);
    IPH_PROTO_SET(iphdr, proto);
 803263e:	f89d 302c 	ldrb.w	r3, [sp, #44]	; 0x2c

    iphdr = (struct ip_hdr *)p->payload;
    LWIP_ASSERT("check that first pbuf can hold struct ip_hdr",
               (p->len >= sizeof(struct ip_hdr)));

    IPH_TTL_SET(iphdr, ttl);
 8032642:	f884 a008 	strb.w	sl, [r4, #8]
    IPH_PROTO_SET(iphdr, proto);
 8032646:	7263      	strb	r3, [r4, #9]
#if CHECKSUM_GEN_IP_INLINE
    chk_sum += LWIP_MAKE_U16(proto, ttl);
#endif /* CHECKSUM_GEN_IP_INLINE */

    /* dest cannot be NULL here */
    ip_addr_copy(iphdr->dest, *dest);
 8032648:	682b      	ldr	r3, [r5, #0]
 803264a:	6123      	str	r3, [r4, #16]
#if CHECKSUM_GEN_IP_INLINE
    chk_sum += ip4_addr_get_u32(&iphdr->dest) & 0xFFFF;
    chk_sum += ip4_addr_get_u32(&iphdr->dest) >> 16;
#endif /* CHECKSUM_GEN_IP_INLINE */

    IPH_VHL_SET(iphdr, 4, ip_hlen / 4);
 803264c:	2345      	movs	r3, #69	; 0x45
 803264e:	7023      	strb	r3, [r4, #0]
    IPH_TOS_SET(iphdr, tos);
 8032650:	f89d 3028 	ldrb.w	r3, [sp, #40]	; 0x28
 8032654:	7063      	strb	r3, [r4, #1]
#if CHECKSUM_GEN_IP_INLINE
    chk_sum += LWIP_MAKE_U16(tos, iphdr->_v_hl);
#endif /* CHECKSUM_GEN_IP_INLINE */
    IPH_LEN_SET(iphdr, htons(p->tot_len));
 8032656:	8930      	ldrh	r0, [r6, #8]
 8032658:	f7fb fe10 	bl	802e27c <lwip_htons>
#if CHECKSUM_GEN_IP_INLINE
    chk_sum += iphdr->_len;
#endif /* CHECKSUM_GEN_IP_INLINE */
    IPH_OFFSET_SET(iphdr, 0);
 803265c:	f884 8006 	strb.w	r8, [r4, #6]
 8032660:	f884 8007 	strb.w	r8, [r4, #7]
    IPH_ID_SET(iphdr, htons(ip_id));
 8032664:	f8df 8048 	ldr.w	r8, [pc, #72]	; 80326b0 <ip_output_if+0x9c>
    IPH_VHL_SET(iphdr, 4, ip_hlen / 4);
    IPH_TOS_SET(iphdr, tos);
#if CHECKSUM_GEN_IP_INLINE
    chk_sum += LWIP_MAKE_U16(tos, iphdr->_v_hl);
#endif /* CHECKSUM_GEN_IP_INLINE */
    IPH_LEN_SET(iphdr, htons(p->tot_len));
 8032668:	8060      	strh	r0, [r4, #2]
#if CHECKSUM_GEN_IP_INLINE
    chk_sum += iphdr->_len;
#endif /* CHECKSUM_GEN_IP_INLINE */
    IPH_OFFSET_SET(iphdr, 0);
    IPH_ID_SET(iphdr, htons(ip_id));
 803266a:	f8b8 0000 	ldrh.w	r0, [r8]
 803266e:	f7fb fe05 	bl	802e27c <lwip_htons>
 8032672:	80a0      	strh	r0, [r4, #4]
#if CHECKSUM_GEN_IP_INLINE
    chk_sum += iphdr->_id;
#endif /* CHECKSUM_GEN_IP_INLINE */
    ++ip_id;
 8032674:	f8b8 3000 	ldrh.w	r3, [r8]
 8032678:	3301      	adds	r3, #1
 803267a:	f8a8 3000 	strh.w	r3, [r8]

    if (ip_addr_isany(src)) {
 803267e:	f1b9 0f00 	cmp.w	r9, #0
 8032682:	d002      	beq.n	803268a <ip_output_if+0x76>
 8032684:	f8d9 3000 	ldr.w	r3, [r9]
 8032688:	b903      	cbnz	r3, 803268c <ip_output_if+0x78>
      ip_addr_copy(iphdr->src, netif->ip_addr);
 803268a:	687b      	ldr	r3, [r7, #4]
    } else {
      /* src cannot be NULL here */
      ip_addr_copy(iphdr->src, *src);
 803268c:	60e3      	str	r3, [r4, #12]
    chk_sum = (chk_sum >> 16) + (chk_sum & 0xFFFF);
    chk_sum = (chk_sum >> 16) + chk_sum;
    chk_sum = ~chk_sum;
    iphdr->_chksum = chk_sum; /* network order */
#else /* CHECKSUM_GEN_IP_INLINE */
    IPH_CHKSUM_SET(iphdr, 0);
 803268e:	2300      	movs	r3, #0
 8032690:	72a3      	strb	r3, [r4, #10]
 8032692:	72e3      	strb	r3, [r4, #11]
 8032694:	e004      	b.n	80326a0 <ip_output_if+0x8c>
#endif
#endif /* CHECKSUM_GEN_IP_INLINE */
  } else {
    /* IP header already included in p */
    iphdr = (struct ip_hdr *)p->payload;
    ip_addr_copy(dest_addr, iphdr->dest);
 8032696:	6873      	ldr	r3, [r6, #4]
 8032698:	ad02      	add	r5, sp, #8
 803269a:	691b      	ldr	r3, [r3, #16]
 803269c:	f845 3d04 	str.w	r3, [r5, #-4]!
    return ip_frag(p, netif, dest);
  }
#endif /* IP_FRAG */

  LWIP_DEBUGF(IP_DEBUG, ("netif->output()"));
  return netif->output(netif, p, dest);
 80326a0:	697b      	ldr	r3, [r7, #20]
 80326a2:	4638      	mov	r0, r7
 80326a4:	4631      	mov	r1, r6
 80326a6:	462a      	mov	r2, r5
 80326a8:	4798      	blx	r3
}
 80326aa:	b240      	sxtb	r0, r0
 80326ac:	e8bd 87fc 	ldmia.w	sp!, {r2, r3, r4, r5, r6, r7, r8, r9, sl, pc}
 80326b0:	2000c428 	.word	0x2000c428

080326b4 <ip_output>:
 *         see ip_output_if() for more return values
 */
err_t
ip_output(struct pbuf *p, ip_addr_t *src, ip_addr_t *dest,
          u8_t ttl, u8_t tos, u8_t proto)
{
 80326b4:	b5f0      	push	{r4, r5, r6, r7, lr}
 80326b6:	4605      	mov	r5, r0
 80326b8:	b085      	sub	sp, #20

  /* pbufs passed to IP must have a ref-count of 1 as their payload pointer
     gets altered as the packet is passed down the stack */
  LWIP_ASSERT("p->ref == 1", p->ref == 1);

  if ((netif = ip_route(dest)) == NULL) {
 80326ba:	4610      	mov	r0, r2
 *         see ip_output_if() for more return values
 */
err_t
ip_output(struct pbuf *p, ip_addr_t *src, ip_addr_t *dest,
          u8_t ttl, u8_t tos, u8_t proto)
{
 80326bc:	460f      	mov	r7, r1
 80326be:	4614      	mov	r4, r2
 80326c0:	461e      	mov	r6, r3

  /* pbufs passed to IP must have a ref-count of 1 as their payload pointer
     gets altered as the packet is passed down the stack */
  LWIP_ASSERT("p->ref == 1", p->ref == 1);

  if ((netif = ip_route(dest)) == NULL) {
 80326c2:	f7ff fea3 	bl	803240c <ip_route>
 80326c6:	b168      	cbz	r0, 80326e4 <ip_output+0x30>
      ip4_addr1_16(dest), ip4_addr2_16(dest), ip4_addr3_16(dest), ip4_addr4_16(dest)));
    IP_STATS_INC(ip.rterr);
    return ERR_RTE;
  }

  return ip_output_if(p, src, dest, ttl, tos, proto, netif);
 80326c8:	f89d 3028 	ldrb.w	r3, [sp, #40]	; 0x28
 80326cc:	9002      	str	r0, [sp, #8]
 80326ce:	9300      	str	r3, [sp, #0]
 80326d0:	f89d 302c 	ldrb.w	r3, [sp, #44]	; 0x2c
 80326d4:	4628      	mov	r0, r5
 80326d6:	9301      	str	r3, [sp, #4]
 80326d8:	4639      	mov	r1, r7
 80326da:	4622      	mov	r2, r4
 80326dc:	4633      	mov	r3, r6
 80326de:	f7ff ff99 	bl	8032614 <ip_output_if>
 80326e2:	e000      	b.n	80326e6 <ip_output+0x32>

  if ((netif = ip_route(dest)) == NULL) {
    LWIP_DEBUGF(IP_DEBUG, ("ip_output: No route to %"U16_F".%"U16_F".%"U16_F".%"U16_F"\n",
      ip4_addr1_16(dest), ip4_addr2_16(dest), ip4_addr3_16(dest), ip4_addr4_16(dest)));
    IP_STATS_INC(ip.rterr);
    return ERR_RTE;
 80326e4:	20fc      	movs	r0, #252	; 0xfc
  }

  return ip_output_if(p, src, dest, ttl, tos, proto, netif);
}
 80326e6:	b240      	sxtb	r0, r0
 80326e8:	b005      	add	sp, #20
 80326ea:	bdf0      	pop	{r4, r5, r6, r7, pc}

080326ec <snmp_asn1_dec_type>:
 * @param type return ASN1 type
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) decode
 */
err_t
snmp_asn1_dec_type(struct pbuf *p, u16_t ofs, u8_t *type)
{
 80326ec:	b510      	push	{r4, lr}
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
 80326ee:	2300      	movs	r3, #0
  while (p != NULL)
 80326f0:	e00c      	b.n	803270c <snmp_asn1_dec_type+0x20>
  {
    base = plen;
    plen += p->len;
 80326f2:	8944      	ldrh	r4, [r0, #10]
 80326f4:	191c      	adds	r4, r3, r4
 80326f6:	b2a4      	uxth	r4, r4
    if (ofs < plen)
 80326f8:	42a1      	cmp	r1, r4
 80326fa:	d205      	bcs.n	8032708 <snmp_asn1_dec_type+0x1c>
    {
      msg_ptr = (u8_t*)p->payload;
 80326fc:	6840      	ldr	r0, [r0, #4]
      msg_ptr += ofs - base;
 80326fe:	1acb      	subs	r3, r1, r3
      *type = *msg_ptr;
 8032700:	5cc3      	ldrb	r3, [r0, r3]
      return ERR_OK;
 8032702:	2000      	movs	r0, #0
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
      *type = *msg_ptr;
 8032704:	7013      	strb	r3, [r2, #0]
      return ERR_OK;
 8032706:	e004      	b.n	8032712 <snmp_asn1_dec_type+0x26>
    }
    p = p->next;
 8032708:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 803270a:	4623      	mov	r3, r4
{
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
  while (p != NULL)
 803270c:	2800      	cmp	r0, #0
 803270e:	d1f0      	bne.n	80326f2 <snmp_asn1_dec_type+0x6>
      return ERR_OK;
    }
    p = p->next;
  }
  /* p == NULL, ofs >= plen */
  return ERR_ARG;
 8032710:	20f2      	movs	r0, #242	; 0xf2
}
 8032712:	b240      	sxtb	r0, r0
 8032714:	bd10      	pop	{r4, pc}

08032716 <snmp_asn1_dec_length>:
 * @param length return host order length, upto 64k
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) decode
 */
err_t
snmp_asn1_dec_length(struct pbuf *p, u16_t ofs, u8_t *octets_used, u16_t *length)
{
 8032716:	b5f0      	push	{r4, r5, r6, r7, lr}
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
 8032718:	2500      	movs	r5, #0
  while (p != NULL)
 803271a:	e079      	b.n	8032810 <snmp_asn1_dec_length+0xfa>
  {
    base = plen;
    plen += p->len;
 803271c:	8944      	ldrh	r4, [r0, #10]
 803271e:	192c      	adds	r4, r5, r4
 8032720:	b2a4      	uxth	r4, r4
    if (ofs < plen)
 8032722:	42a1      	cmp	r1, r4
 8032724:	d272      	bcs.n	803280c <snmp_asn1_dec_length+0xf6>
    {
      msg_ptr = (u8_t*)p->payload;
 8032726:	f8d0 c004 	ldr.w	ip, [r0, #4]
      msg_ptr += ofs - base;
 803272a:	1b4f      	subs	r7, r1, r5
 803272c:	eb0c 0507 	add.w	r5, ip, r7

      if (*msg_ptr < 0x80)
 8032730:	f81c 6007 	ldrb.w	r6, [ip, r7]
 8032734:	f016 0f80 	tst.w	r6, #128	; 0x80
 8032738:	d105      	bne.n	8032746 <snmp_asn1_dec_length+0x30>
      {
        /* primitive definite length format */
        *octets_used = 1;
 803273a:	2101      	movs	r1, #1
 803273c:	7011      	strb	r1, [r2, #0]
        *length = *msg_ptr;
 803273e:	f81c 2007 	ldrb.w	r2, [ip, r7]
 8032742:	801a      	strh	r2, [r3, #0]
 8032744:	e05a      	b.n	80327fc <snmp_asn1_dec_length+0xe6>
        return ERR_OK;
      }
      else if (*msg_ptr == 0x80)
 8032746:	2e80      	cmp	r6, #128	; 0x80
 8032748:	d12a      	bne.n	80327a0 <snmp_asn1_dec_length+0x8a>
      {
        /* constructed indefinite length format, termination with two zero octets */
        u8_t zeros;
        u8_t i;

        *length = 0;
 803274a:	2600      	movs	r6, #0
 803274c:	801e      	strh	r6, [r3, #0]
 803274e:	e022      	b.n	8032796 <snmp_asn1_dec_length+0x80>
        {
          i = 2;
          while (i > 0)
          {
            i--;
            (*length) += 1;
 8032750:	f8b3 c000 	ldrh.w	ip, [r3]
            ofs += 1;
 8032754:	3101      	adds	r1, #1
 8032756:	b289      	uxth	r1, r1
        {
          i = 2;
          while (i > 0)
          {
            i--;
            (*length) += 1;
 8032758:	f10c 0c01 	add.w	ip, ip, #1
            ofs += 1;
            if (ofs >= plen)
 803275c:	42a1      	cmp	r1, r4
        {
          i = 2;
          while (i > 0)
          {
            i--;
            (*length) += 1;
 803275e:	f8a3 c000 	strh.w	ip, [r3]
            ofs += 1;
            if (ofs >= plen)
 8032762:	d308      	bcc.n	8032776 <snmp_asn1_dec_length+0x60>
            {
              /* next octet in next pbuf */
              p = p->next;
 8032764:	6800      	ldr	r0, [r0, #0]
              if (p == NULL) { return ERR_ARG; }
 8032766:	b900      	cbnz	r0, 803276a <snmp_asn1_dec_length+0x54>
 8032768:	e04e      	b.n	8032808 <snmp_asn1_dec_length+0xf2>
              msg_ptr = (u8_t*)p->payload;
              plen += p->len;
 803276a:	f8b0 c00a 	ldrh.w	ip, [r0, #10]
            if (ofs >= plen)
            {
              /* next octet in next pbuf */
              p = p->next;
              if (p == NULL) { return ERR_ARG; }
              msg_ptr = (u8_t*)p->payload;
 803276e:	6845      	ldr	r5, [r0, #4]
              plen += p->len;
 8032770:	4464      	add	r4, ip
 8032772:	b2a4      	uxth	r4, r4
 8032774:	e000      	b.n	8032778 <snmp_asn1_dec_length+0x62>
            }
            else
            {
              /* next octet in same pbuf */
              msg_ptr++;
 8032776:	3501      	adds	r5, #1
            }
            if (*msg_ptr == 0)
 8032778:	f895 c000 	ldrb.w	ip, [r5]
 803277c:	f1bc 0f00 	cmp.w	ip, #0
 8032780:	d104      	bne.n	803278c <snmp_asn1_dec_length+0x76>
            {
              zeros++;
 8032782:	3601      	adds	r6, #1
 8032784:	b2f6      	uxtb	r6, r6
              if (zeros == 2)
 8032786:	2e02      	cmp	r6, #2
 8032788:	d101      	bne.n	803278e <snmp_asn1_dec_length+0x78>
 803278a:	e007      	b.n	803279c <snmp_asn1_dec_length+0x86>
                i = 0;
              }
            }
            else
            {
              zeros = 0;
 803278c:	2600      	movs	r6, #0
        *length = 0;
        zeros = 0;
        while (zeros != 2)
        {
          i = 2;
          while (i > 0)
 803278e:	42b9      	cmp	r1, r7
 8032790:	d1de      	bne.n	8032750 <snmp_asn1_dec_length+0x3a>
        u8_t zeros;
        u8_t i;

        *length = 0;
        zeros = 0;
        while (zeros != 2)
 8032792:	2e02      	cmp	r6, #2
 8032794:	d002      	beq.n	803279c <snmp_asn1_dec_length+0x86>
 * @param octets_used returns number of octets used by the length code
 * @param length return host order length, upto 64k
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) decode
 */
err_t
snmp_asn1_dec_length(struct pbuf *p, u16_t ofs, u8_t *octets_used, u16_t *length)
 8032796:	1c8f      	adds	r7, r1, #2
 8032798:	b2bf      	uxth	r7, r7
 803279a:	e7d9      	b.n	8032750 <snmp_asn1_dec_length+0x3a>
            {
              zeros = 0;
            }
          }
        }
        *octets_used = 1;
 803279c:	2301      	movs	r3, #1
 803279e:	e02c      	b.n	80327fa <snmp_asn1_dec_length+0xe4>
        return ERR_OK;
      }
      else if (*msg_ptr == 0x81)
 80327a0:	2e81      	cmp	r6, #129	; 0x81
 80327a2:	d10c      	bne.n	80327be <snmp_asn1_dec_length+0xa8>
      {
        /* constructed definite length format, one octet */
        ofs += 1;
 80327a4:	3101      	adds	r1, #1
        if (ofs >= plen)
 80327a6:	b289      	uxth	r1, r1
 80327a8:	42a1      	cmp	r1, r4
 80327aa:	d303      	bcc.n	80327b4 <snmp_asn1_dec_length+0x9e>
        {
          /* next octet in next pbuf */
          p = p->next;
 80327ac:	6801      	ldr	r1, [r0, #0]
          if (p == NULL) { return ERR_ARG; }
 80327ae:	b359      	cbz	r1, 8032808 <snmp_asn1_dec_length+0xf2>
          msg_ptr = (u8_t*)p->payload;
 80327b0:	684d      	ldr	r5, [r1, #4]
 80327b2:	e000      	b.n	80327b6 <snmp_asn1_dec_length+0xa0>
        }
        else
        {
          /* next octet in same pbuf */
          msg_ptr++;
 80327b4:	3501      	adds	r5, #1
        }
        *length = *msg_ptr;
 80327b6:	7829      	ldrb	r1, [r5, #0]
 80327b8:	8019      	strh	r1, [r3, #0]
        *octets_used = 2;
 80327ba:	2302      	movs	r3, #2
 80327bc:	e01d      	b.n	80327fa <snmp_asn1_dec_length+0xe4>
        return ERR_OK;
      }
      else if (*msg_ptr == 0x82)
 80327be:	2e82      	cmp	r6, #130	; 0x82
 80327c0:	d11e      	bne.n	8032800 <snmp_asn1_dec_length+0xea>
        /* constructed definite length format, two octets */
        i = 2;
        while (i > 0)
        {
          i--;
          ofs += 1;
 80327c2:	1c4e      	adds	r6, r1, #1
          if (ofs >= plen)
 80327c4:	b2b6      	uxth	r6, r6
 80327c6:	42a6      	cmp	r6, r4
 80327c8:	d201      	bcs.n	80327ce <snmp_asn1_dec_length+0xb8>
            plen += p->len;
          }
          else
          {
            /* next octet in same pbuf */
            msg_ptr++;
 80327ca:	3501      	adds	r5, #1
 80327cc:	e005      	b.n	80327da <snmp_asn1_dec_length+0xc4>
          i--;
          ofs += 1;
          if (ofs >= plen)
          {
            /* next octet in next pbuf */
            p = p->next;
 80327ce:	6800      	ldr	r0, [r0, #0]
            if (p == NULL) { return ERR_ARG; }
 80327d0:	b1d0      	cbz	r0, 8032808 <snmp_asn1_dec_length+0xf2>
            msg_ptr = (u8_t*)p->payload;
            plen += p->len;
 80327d2:	8946      	ldrh	r6, [r0, #10]
          if (ofs >= plen)
          {
            /* next octet in next pbuf */
            p = p->next;
            if (p == NULL) { return ERR_ARG; }
            msg_ptr = (u8_t*)p->payload;
 80327d4:	6845      	ldr	r5, [r0, #4]
            plen += p->len;
 80327d6:	19a4      	adds	r4, r4, r6
 80327d8:	b2a4      	uxth	r4, r4
            *length |= *msg_ptr;
          }
          else
          {
            /* most significant length octet */
            *length = (*msg_ptr) << 8;
 80327da:	782e      	ldrb	r6, [r5, #0]
        /* constructed definite length format, two octets */
        i = 2;
        while (i > 0)
        {
          i--;
          ofs += 1;
 80327dc:	3102      	adds	r1, #2
          if (ofs >= plen)
 80327de:	b289      	uxth	r1, r1
            *length |= *msg_ptr;
          }
          else
          {
            /* most significant length octet */
            *length = (*msg_ptr) << 8;
 80327e0:	0236      	lsls	r6, r6, #8
        i = 2;
        while (i > 0)
        {
          i--;
          ofs += 1;
          if (ofs >= plen)
 80327e2:	42a1      	cmp	r1, r4
            *length |= *msg_ptr;
          }
          else
          {
            /* most significant length octet */
            *length = (*msg_ptr) << 8;
 80327e4:	801e      	strh	r6, [r3, #0]
        i = 2;
        while (i > 0)
        {
          i--;
          ofs += 1;
          if (ofs >= plen)
 80327e6:	d201      	bcs.n	80327ec <snmp_asn1_dec_length+0xd6>
            plen += p->len;
          }
          else
          {
            /* next octet in same pbuf */
            msg_ptr++;
 80327e8:	3501      	adds	r5, #1
 80327ea:	e002      	b.n	80327f2 <snmp_asn1_dec_length+0xdc>
          i--;
          ofs += 1;
          if (ofs >= plen)
          {
            /* next octet in next pbuf */
            p = p->next;
 80327ec:	6801      	ldr	r1, [r0, #0]
            if (p == NULL) { return ERR_ARG; }
 80327ee:	b159      	cbz	r1, 8032808 <snmp_asn1_dec_length+0xf2>
            msg_ptr = (u8_t*)p->payload;
 80327f0:	684d      	ldr	r5, [r1, #4]
            msg_ptr++;
          }
          if (i == 0)
          {
            /* least significant length octet */
            *length |= *msg_ptr;
 80327f2:	7829      	ldrb	r1, [r5, #0]
 80327f4:	430e      	orrs	r6, r1
 80327f6:	801e      	strh	r6, [r3, #0]
          {
            /* most significant length octet */
            *length = (*msg_ptr) << 8;
          }
        }
        *octets_used = 3;
 80327f8:	2303      	movs	r3, #3
 80327fa:	7013      	strb	r3, [r2, #0]
        return ERR_OK;
 80327fc:	2000      	movs	r0, #0
 80327fe:	e00a      	b.n	8032816 <snmp_asn1_dec_length+0x100>
      }
      else
      {
        /* constructed definite length format 3..127 octets, this is too big (>64k) */
        /**  @todo: do we need to accept inefficient codings with many leading zero's? */
        *octets_used = 1 + ((*msg_ptr) & 0x7f);
 8032800:	f006 067f 	and.w	r6, r6, #127	; 0x7f
 8032804:	3601      	adds	r6, #1
 8032806:	7016      	strb	r6, [r2, #0]
        return ERR_ARG;
 8032808:	20f2      	movs	r0, #242	; 0xf2
 803280a:	e004      	b.n	8032816 <snmp_asn1_dec_length+0x100>
      }
    }
    p = p->next;
 803280c:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 803280e:	4625      	mov	r5, r4
{
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
  while (p != NULL)
 8032810:	2800      	cmp	r0, #0
 8032812:	d183      	bne.n	803271c <snmp_asn1_dec_length+0x6>
 8032814:	e7f8      	b.n	8032808 <snmp_asn1_dec_length+0xf2>
    p = p->next;
  }

  /* p == NULL, ofs >= plen */
  return ERR_ARG;
}
 8032816:	b240      	sxtb	r0, r0
 8032818:	bdf0      	pop	{r4, r5, r6, r7, pc}

0803281a <snmp_asn1_dec_u32t>:
 * as 0x00,0xFF,0xFF. Note the leading sign octet. A positive value
 * of 0xFFFFFFFF is preceded with 0x00 and the length is 5 octets!!
 */
err_t
snmp_asn1_dec_u32t(struct pbuf *p, u16_t ofs, u16_t len, u32_t *value)
{
 803281a:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
 803281e:	2500      	movs	r5, #0
  while (p != NULL)
 8032820:	e049      	b.n	80328b6 <snmp_asn1_dec_u32t+0x9c>
  {
    base = plen;
    plen += p->len;
 8032822:	8944      	ldrh	r4, [r0, #10]
 8032824:	192c      	adds	r4, r5, r4
 8032826:	b2a4      	uxth	r4, r4
    if (ofs < plen)
 8032828:	42a1      	cmp	r1, r4
 803282a:	d242      	bcs.n	80328b2 <snmp_asn1_dec_u32t+0x98>
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
      if ((len > 0) && (len < 6))
 803282c:	1e56      	subs	r6, r2, #1
  {
    base = plen;
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
 803282e:	f8d0 c004 	ldr.w	ip, [r0, #4]
      msg_ptr += ofs - base;
      if ((len > 0) && (len < 6))
 8032832:	b2b6      	uxth	r6, r6
    base = plen;
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
 8032834:	1b4f      	subs	r7, r1, r5
      if ((len > 0) && (len < 6))
 8032836:	2e04      	cmp	r6, #4
    base = plen;
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
 8032838:	eb0c 0507 	add.w	r5, ip, r7
      if ((len > 0) && (len < 6))
 803283c:	d901      	bls.n	8032842 <snmp_asn1_dec_u32t+0x28>
        *value |= *msg_ptr;
        return ERR_OK;
      }
      else
      {
        return ERR_ARG;
 803283e:	20f2      	movs	r0, #242	; 0xf2
 8032840:	e03c      	b.n	80328bc <snmp_asn1_dec_u32t+0xa2>
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
      if ((len > 0) && (len < 6))
      {
        /* start from zero */
        *value = 0;
 8032842:	f04f 0800 	mov.w	r8, #0
 8032846:	f8c3 8000 	str.w	r8, [r3]
        if (*msg_ptr & 0x80)
 803284a:	f81c 7007 	ldrb.w	r7, [ip, r7]
 803284e:	f017 0f80 	tst.w	r7, #128	; 0x80
 8032852:	d1f4      	bne.n	803283e <snmp_asn1_dec_u32t+0x24>
          return ERR_ARG;
        }
        else
        {
          /* positive */
          if ((len > 1) && (*msg_ptr == 0))
 8032854:	2a01      	cmp	r2, #1
 8032856:	d00e      	beq.n	8032876 <snmp_asn1_dec_u32t+0x5c>
 8032858:	b96f      	cbnz	r7, 8032876 <snmp_asn1_dec_u32t+0x5c>
          {
            /* skip leading "sign byte" octet 0x00 */
            len--;
            ofs += 1;
 803285a:	3101      	adds	r1, #1
 803285c:	b289      	uxth	r1, r1
            if (ofs >= plen)
 803285e:	42a1      	cmp	r1, r4
        {
          /* positive */
          if ((len > 1) && (*msg_ptr == 0))
          {
            /* skip leading "sign byte" octet 0x00 */
            len--;
 8032860:	4632      	mov	r2, r6
            ofs += 1;
            if (ofs >= plen)
 8032862:	d307      	bcc.n	8032874 <snmp_asn1_dec_u32t+0x5a>
            {
              /* next octet in next pbuf */
              p = p->next;
 8032864:	6800      	ldr	r0, [r0, #0]
              if (p == NULL) { return ERR_ARG; }
 8032866:	2800      	cmp	r0, #0
 8032868:	d0e9      	beq.n	803283e <snmp_asn1_dec_u32t+0x24>
              msg_ptr = (u8_t*)p->payload;
              plen += p->len;
 803286a:	8946      	ldrh	r6, [r0, #10]
            if (ofs >= plen)
            {
              /* next octet in next pbuf */
              p = p->next;
              if (p == NULL) { return ERR_ARG; }
              msg_ptr = (u8_t*)p->payload;
 803286c:	6845      	ldr	r5, [r0, #4]
              plen += p->len;
 803286e:	19a4      	adds	r4, r4, r6
 8032870:	b2a4      	uxth	r4, r4
 8032872:	e000      	b.n	8032876 <snmp_asn1_dec_u32t+0x5c>
            }
            else
            {
              /* next octet in same pbuf */
              msg_ptr++;
 8032874:	3501      	adds	r5, #1
 8032876:	1c4e      	adds	r6, r1, #1
 * @note ASN coded integers are _always_ signed. E.g. +0xFFFF is coded
 * as 0x00,0xFF,0xFF. Note the leading sign octet. A positive value
 * of 0xFFFFFFFF is preceded with 0x00 and the length is 5 octets!!
 */
err_t
snmp_asn1_dec_u32t(struct pbuf *p, u16_t ofs, u16_t len, u32_t *value)
 8032878:	188a      	adds	r2, r1, r2
 803287a:	b2b6      	uxth	r6, r6
 803287c:	b292      	uxth	r2, r2
 803287e:	e010      	b.n	80328a2 <snmp_asn1_dec_u32t+0x88>
        }
        /* OR octets with value */
        while (len > 1)
        {
          len--;
          *value |= *msg_ptr;
 8032880:	7829      	ldrb	r1, [r5, #0]
 8032882:	430f      	orrs	r7, r1
          *value <<= 8;
 8032884:	023f      	lsls	r7, r7, #8
          ofs += 1;
          if (ofs >= plen)
 8032886:	42a6      	cmp	r6, r4
        /* OR octets with value */
        while (len > 1)
        {
          len--;
          *value |= *msg_ptr;
          *value <<= 8;
 8032888:	601f      	str	r7, [r3, #0]
          ofs += 1;
          if (ofs >= plen)
 803288a:	d307      	bcc.n	803289c <snmp_asn1_dec_u32t+0x82>
          {
            /* next octet in next pbuf */
            p = p->next;
 803288c:	6800      	ldr	r0, [r0, #0]
            if (p == NULL) { return ERR_ARG; }
 803288e:	2800      	cmp	r0, #0
 8032890:	d0d5      	beq.n	803283e <snmp_asn1_dec_u32t+0x24>
            msg_ptr = (u8_t*)p->payload;
            plen += p->len;
 8032892:	8941      	ldrh	r1, [r0, #10]
          if (ofs >= plen)
          {
            /* next octet in next pbuf */
            p = p->next;
            if (p == NULL) { return ERR_ARG; }
            msg_ptr = (u8_t*)p->payload;
 8032894:	6845      	ldr	r5, [r0, #4]
            plen += p->len;
 8032896:	1864      	adds	r4, r4, r1
 8032898:	b2a4      	uxth	r4, r4
 803289a:	e000      	b.n	803289e <snmp_asn1_dec_u32t+0x84>
          }
          else
          {
            /* next octet in same pbuf */
            msg_ptr++;
 803289c:	3501      	adds	r5, #1
 803289e:	3601      	adds	r6, #1
 80328a0:	b2b6      	uxth	r6, r6
              msg_ptr++;
            }
          }
        }
        /* OR octets with value */
        while (len > 1)
 80328a2:	4296      	cmp	r6, r2
 80328a4:	681f      	ldr	r7, [r3, #0]
 80328a6:	d1eb      	bne.n	8032880 <snmp_asn1_dec_u32t+0x66>
          {
            /* next octet in same pbuf */
            msg_ptr++;
          }
        }
        *value |= *msg_ptr;
 80328a8:	782a      	ldrb	r2, [r5, #0]
 80328aa:	4317      	orrs	r7, r2
 80328ac:	601f      	str	r7, [r3, #0]
        return ERR_OK;
 80328ae:	2000      	movs	r0, #0
 80328b0:	e004      	b.n	80328bc <snmp_asn1_dec_u32t+0xa2>
      else
      {
        return ERR_ARG;
      }
    }
    p = p->next;
 80328b2:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 80328b4:	4625      	mov	r5, r4
{
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
  while (p != NULL)
 80328b6:	2800      	cmp	r0, #0
 80328b8:	d1b3      	bne.n	8032822 <snmp_asn1_dec_u32t+0x8>
 80328ba:	e7c0      	b.n	803283e <snmp_asn1_dec_u32t+0x24>
    }
    p = p->next;
  }
  /* p == NULL, ofs >= plen */
  return ERR_ARG;
}
 80328bc:	b240      	sxtb	r0, r0
 80328be:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}

080328c2 <snmp_asn1_dec_s32t>:
 *
 * @note ASN coded integers are _always_ signed!
 */
err_t
snmp_asn1_dec_s32t(struct pbuf *p, u16_t ofs, u16_t len, s32_t *value)
{
 80328c2:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
#if BYTE_ORDER == BIG_ENDIAN
  u8_t *lsb_ptr = (u8_t*)value + sizeof(s32_t) - 1;
#endif
  u8_t sign;

  plen = 0;
 80328c6:	2500      	movs	r5, #0
  while (p != NULL)
 80328c8:	e04e      	b.n	8032968 <snmp_asn1_dec_s32t+0xa6>
  {
    base = plen;
    plen += p->len;
 80328ca:	8944      	ldrh	r4, [r0, #10]
 80328cc:	192c      	adds	r4, r5, r4
 80328ce:	b2a4      	uxth	r4, r4
    if (ofs < plen)
 80328d0:	42a1      	cmp	r1, r4
 80328d2:	d247      	bcs.n	8032964 <snmp_asn1_dec_s32t+0xa2>
    {
      msg_ptr = (u8_t*)p->payload;
 80328d4:	6847      	ldr	r7, [r0, #4]
      msg_ptr += ofs - base;
      if ((len > 0) && (len < 5))
 80328d6:	f102 3cff 	add.w	ip, r2, #4294967295
    base = plen;
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
 80328da:	1b4e      	subs	r6, r1, r5
      if ((len > 0) && (len < 5))
 80328dc:	f1bc 0f03 	cmp.w	ip, #3
    base = plen;
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
 80328e0:	eb07 0506 	add.w	r5, r7, r6
      if ((len > 0) && (len < 5))
 80328e4:	d901      	bls.n	80328ea <snmp_asn1_dec_s32t+0x28>
        }
        return ERR_OK;
      }
      else
      {
        return ERR_ARG;
 80328e6:	20f2      	movs	r0, #242	; 0xf2
 80328e8:	e041      	b.n	803296e <snmp_asn1_dec_s32t+0xac>
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
      if ((len > 0) && (len < 5))
      {
        if (*msg_ptr & 0x80)
 80328ea:	57be      	ldrsb	r6, [r7, r6]
 80328ec:	2e00      	cmp	r6, #0
 80328ee:	da0b      	bge.n	8032908 <snmp_asn1_dec_s32t+0x46>
        {
          /* negative, start from -1 */
          *value = -1;
 80328f0:	f04f 36ff 	mov.w	r6, #4294967295
 80328f4:	601e      	str	r6, [r3, #0]
          sign = 1;
 80328f6:	2601      	movs	r6, #1
 80328f8:	f101 0c01 	add.w	ip, r1, #1
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) decode
 *
 * @note ASN coded integers are _always_ signed!
 */
err_t
snmp_asn1_dec_s32t(struct pbuf *p, u16_t ofs, u16_t len, s32_t *value)
 80328fc:	1852      	adds	r2, r2, r1
 80328fe:	fa1f fc8c 	uxth.w	ip, ip
 8032902:	b292      	uxth	r2, r2
          len--;
          if (sign)
          {
            *lsb_ptr &= *msg_ptr;
            *value <<= 8;
            *lsb_ptr |= 255;
 8032904:	21ff      	movs	r1, #255	; 0xff
 8032906:	e022      	b.n	803294e <snmp_asn1_dec_s32t+0x8c>
          sign = 1;
        }
        else
        {
          /* positive, start from 0 */
          *value = 0;
 8032908:	2600      	movs	r6, #0
 803290a:	601e      	str	r6, [r3, #0]
 803290c:	e7f4      	b.n	80328f8 <snmp_asn1_dec_s32t+0x36>
 803290e:	f895 8000 	ldrb.w	r8, [r5]
        }
        /* OR/AND octets with value */
        while (len > 1)
        {
          len--;
          if (sign)
 8032912:	b13e      	cbz	r6, 8032924 <snmp_asn1_dec_s32t+0x62>
          {
            *lsb_ptr &= *msg_ptr;
 8032914:	ea08 0707 	and.w	r7, r8, r7
 8032918:	701f      	strb	r7, [r3, #0]
            *value <<= 8;
 803291a:	681f      	ldr	r7, [r3, #0]
 803291c:	023f      	lsls	r7, r7, #8
 803291e:	601f      	str	r7, [r3, #0]
            *lsb_ptr |= 255;
 8032920:	7019      	strb	r1, [r3, #0]
 8032922:	e005      	b.n	8032930 <snmp_asn1_dec_s32t+0x6e>
          }
          else
          {
            *lsb_ptr |= *msg_ptr;
 8032924:	ea48 0707 	orr.w	r7, r8, r7
 8032928:	701f      	strb	r7, [r3, #0]
            *value <<= 8;
 803292a:	681f      	ldr	r7, [r3, #0]
 803292c:	023f      	lsls	r7, r7, #8
 803292e:	601f      	str	r7, [r3, #0]
          }
          ofs += 1;
          if (ofs >= plen)
 8032930:	45a4      	cmp	ip, r4
 8032932:	d307      	bcc.n	8032944 <snmp_asn1_dec_s32t+0x82>
          {
            /* next octet in next pbuf */
            p = p->next;
 8032934:	6800      	ldr	r0, [r0, #0]
            if (p == NULL) { return ERR_ARG; }
 8032936:	2800      	cmp	r0, #0
 8032938:	d0d5      	beq.n	80328e6 <snmp_asn1_dec_s32t+0x24>
            msg_ptr = (u8_t*)p->payload;
            plen += p->len;
 803293a:	8947      	ldrh	r7, [r0, #10]
          if (ofs >= plen)
          {
            /* next octet in next pbuf */
            p = p->next;
            if (p == NULL) { return ERR_ARG; }
            msg_ptr = (u8_t*)p->payload;
 803293c:	6845      	ldr	r5, [r0, #4]
            plen += p->len;
 803293e:	19e4      	adds	r4, r4, r7
 8032940:	b2a4      	uxth	r4, r4
 8032942:	e000      	b.n	8032946 <snmp_asn1_dec_s32t+0x84>
          }
          else
          {
            /* next octet in same pbuf */
            msg_ptr++;
 8032944:	3501      	adds	r5, #1
 8032946:	f10c 0c01 	add.w	ip, ip, #1
 803294a:	fa1f fc8c 	uxth.w	ip, ip
          /* positive, start from 0 */
          *value = 0;
          sign = 0;
        }
        /* OR/AND octets with value */
        while (len > 1)
 803294e:	4594      	cmp	ip, r2
 8032950:	781f      	ldrb	r7, [r3, #0]
 8032952:	d1dc      	bne.n	803290e <snmp_asn1_dec_s32t+0x4c>
 8032954:	782a      	ldrb	r2, [r5, #0]
          {
            /* next octet in same pbuf */
            msg_ptr++;
          }
        }
        if (sign)
 8032956:	b11e      	cbz	r6, 8032960 <snmp_asn1_dec_s32t+0x9e>
        {
          *lsb_ptr &= *msg_ptr;
 8032958:	4017      	ands	r7, r2
 803295a:	701f      	strb	r7, [r3, #0]
        }
        else
        {
          *lsb_ptr |= *msg_ptr;
        }
        return ERR_OK;
 803295c:	2000      	movs	r0, #0
 803295e:	e006      	b.n	803296e <snmp_asn1_dec_s32t+0xac>
        {
          *lsb_ptr &= *msg_ptr;
        }
        else
        {
          *lsb_ptr |= *msg_ptr;
 8032960:	4317      	orrs	r7, r2
 8032962:	e7fa      	b.n	803295a <snmp_asn1_dec_s32t+0x98>
      else
      {
        return ERR_ARG;
      }
    }
    p = p->next;
 8032964:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 8032966:	4625      	mov	r5, r4
  u8_t *lsb_ptr = (u8_t*)value + sizeof(s32_t) - 1;
#endif
  u8_t sign;

  plen = 0;
  while (p != NULL)
 8032968:	2800      	cmp	r0, #0
 803296a:	d1ae      	bne.n	80328ca <snmp_asn1_dec_s32t+0x8>
 803296c:	e7bb      	b.n	80328e6 <snmp_asn1_dec_s32t+0x24>
    }
    p = p->next;
  }
  /* p == NULL, ofs >= plen */
  return ERR_ARG;
}
 803296e:	b240      	sxtb	r0, r0
 8032970:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}

08032974 <snmp_asn1_dec_oid>:
 * @param oid return object identifier struct
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) decode
 */
err_t
snmp_asn1_dec_oid(struct pbuf *p, u16_t ofs, u16_t len, struct snmp_obj_id *oid)
{
 8032974:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
  u16_t plen, base;
  u8_t *msg_ptr;
  s32_t *oid_ptr;

  plen = 0;
 8032978:	2600      	movs	r6, #0
  while (p != NULL)
 803297a:	e08d      	b.n	8032a98 <snmp_asn1_dec_oid+0x124>
  {
    base = plen;
    plen += p->len;
 803297c:	8944      	ldrh	r4, [r0, #10]
 803297e:	1934      	adds	r4, r6, r4
 8032980:	b2a4      	uxth	r4, r4
    if (ofs < plen)
 8032982:	42a1      	cmp	r1, r4
 8032984:	f080 8086 	bcs.w	8032a94 <snmp_asn1_dec_oid+0x120>
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;

      oid->len = 0;
 8032988:	f04f 0800 	mov.w	r8, #0
  {
    base = plen;
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
 803298c:	6847      	ldr	r7, [r0, #4]
      msg_ptr += ofs - base;

      oid->len = 0;
 803298e:	f883 8000 	strb.w	r8, [r3]
      oid_ptr = &oid->id[0];
      if (len > 0)
 8032992:	b90a      	cbnz	r2, 8032998 <snmp_asn1_dec_oid+0x24>
      }
      else
      {
        /* accepting zero length identifiers e.g. for
           getnext operation. uncommon but valid */
        return ERR_OK;
 8032994:	2000      	movs	r0, #0
 8032996:	e083      	b.n	8032aa0 <snmp_asn1_dec_oid+0x12c>
    base = plen;
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
 8032998:	1b8e      	subs	r6, r1, r6
 803299a:	19bd      	adds	r5, r7, r6
      oid->len = 0;
      oid_ptr = &oid->id[0];
      if (len > 0)
      {
        /* first compressed octet */
        if (*msg_ptr == 0x2B)
 803299c:	f817 c006 	ldrb.w	ip, [r7, r6]
 80329a0:	f1bc 0f2b 	cmp.w	ip, #43	; 0x2b
 80329a4:	d103      	bne.n	80329ae <snmp_asn1_dec_oid+0x3a>
        {
          /* (most) common case 1.3 (iso.org) */
          *oid_ptr = 1;
 80329a6:	2601      	movs	r6, #1
 80329a8:	605e      	str	r6, [r3, #4]
          oid_ptr++;
          *oid_ptr = 3;
 80329aa:	2603      	movs	r6, #3
 80329ac:	e016      	b.n	80329dc <snmp_asn1_dec_oid+0x68>
          oid_ptr++;
        }
        else if (*msg_ptr < 40)
 80329ae:	f1bc 0f27 	cmp.w	ip, #39	; 0x27
 80329b2:	d803      	bhi.n	80329bc <snmp_asn1_dec_oid+0x48>
        {
          *oid_ptr = 0;
 80329b4:	f8c3 8004 	str.w	r8, [r3, #4]
          oid_ptr++;
          *oid_ptr = *msg_ptr;
 80329b8:	5dbe      	ldrb	r6, [r7, r6]
 80329ba:	e00f      	b.n	80329dc <snmp_asn1_dec_oid+0x68>
          oid_ptr++;
        }
        else if (*msg_ptr < 80)
 80329bc:	f1bc 0f4f 	cmp.w	ip, #79	; 0x4f
 80329c0:	d806      	bhi.n	80329d0 <snmp_asn1_dec_oid+0x5c>
        {
          *oid_ptr = 1;
 80329c2:	f04f 0c01 	mov.w	ip, #1
 80329c6:	f8c3 c004 	str.w	ip, [r3, #4]
          oid_ptr++;
          *oid_ptr = (*msg_ptr) - 40;
 80329ca:	5dbe      	ldrb	r6, [r7, r6]
 80329cc:	3e28      	subs	r6, #40	; 0x28
 80329ce:	e005      	b.n	80329dc <snmp_asn1_dec_oid+0x68>
          oid_ptr++;
        }
        else
        {
          *oid_ptr = 2;
 80329d0:	f04f 0c02 	mov.w	ip, #2
 80329d4:	f8c3 c004 	str.w	ip, [r3, #4]
          oid_ptr++;
          *oid_ptr = (*msg_ptr) - 80;
 80329d8:	5dbe      	ldrb	r6, [r7, r6]
 80329da:	3e50      	subs	r6, #80	; 0x50
      {
        /* accepting zero length identifiers e.g. for
           getnext operation. uncommon but valid */
        return ERR_OK;
      }
      len--;
 80329dc:	3a01      	subs	r2, #1
          *oid_ptr = 2;
          oid_ptr++;
          *oid_ptr = (*msg_ptr) - 80;
          oid_ptr++;
        }
        oid->len = 2;
 80329de:	2702      	movs	r7, #2
      {
        /* accepting zero length identifiers e.g. for
           getnext operation. uncommon but valid */
        return ERR_OK;
      }
      len--;
 80329e0:	b292      	uxth	r2, r2
        }
        else
        {
          *oid_ptr = 2;
          oid_ptr++;
          *oid_ptr = (*msg_ptr) - 80;
 80329e2:	609e      	str	r6, [r3, #8]
          oid_ptr++;
        }
        oid->len = 2;
 80329e4:	701f      	strb	r7, [r3, #0]
        else
        {
          *oid_ptr = 2;
          oid_ptr++;
          *oid_ptr = (*msg_ptr) - 80;
          oid_ptr++;
 80329e6:	f103 060c 	add.w	r6, r3, #12
        /* accepting zero length identifiers e.g. for
           getnext operation. uncommon but valid */
        return ERR_OK;
      }
      len--;
      if (len > 0)
 80329ea:	2a00      	cmp	r2, #0
 80329ec:	d04b      	beq.n	8032a86 <snmp_asn1_dec_oid+0x112>
      {
        ofs += 1;
 80329ee:	3101      	adds	r1, #1
 80329f0:	b289      	uxth	r1, r1
        if (ofs >= plen)
 80329f2:	42a1      	cmp	r1, r4
 80329f4:	d308      	bcc.n	8032a08 <snmp_asn1_dec_oid+0x94>
        {
          /* next octet in next pbuf */
          p = p->next;
 80329f6:	6800      	ldr	r0, [r0, #0]
          if (p == NULL) { return ERR_ARG; }
 80329f8:	b908      	cbnz	r0, 80329fe <snmp_asn1_dec_oid+0x8a>
 80329fa:	20f2      	movs	r0, #242	; 0xf2
 80329fc:	e050      	b.n	8032aa0 <snmp_asn1_dec_oid+0x12c>
          msg_ptr = (u8_t*)p->payload;
          plen += p->len;
 80329fe:	8947      	ldrh	r7, [r0, #10]
        if (ofs >= plen)
        {
          /* next octet in next pbuf */
          p = p->next;
          if (p == NULL) { return ERR_ARG; }
          msg_ptr = (u8_t*)p->payload;
 8032a00:	6845      	ldr	r5, [r0, #4]
          plen += p->len;
 8032a02:	19e4      	adds	r4, r4, r7
 8032a04:	b2a4      	uxth	r4, r4
 8032a06:	e03e      	b.n	8032a86 <snmp_asn1_dec_oid+0x112>
        }
        else
        {
          /* next octet in same pbuf */
          msg_ptr++;
 8032a08:	3501      	adds	r5, #1
 8032a0a:	e03c      	b.n	8032a86 <snmp_asn1_dec_oid+0x112>
        }
      }
      while ((len > 0) && (oid->len < LWIP_SNMP_OBJ_ID_LEN))
      {
        /* sub-identifier uses multiple octets */
        if (*msg_ptr & 0x80)
 8032a0c:	782f      	ldrb	r7, [r5, #0]
 8032a0e:	f017 0f80 	tst.w	r7, #128	; 0x80
 8032a12:	d023      	beq.n	8032a5c <snmp_asn1_dec_oid+0xe8>
 8032a14:	e014      	b.n	8032a40 <snmp_asn1_dec_oid+0xcc>

          while ((*msg_ptr & 0x80) && (len > 1))
          {
            len--;
            sub_id = (sub_id << 7) + (*msg_ptr & ~0x80);
            ofs += 1;
 8032a16:	3101      	adds	r1, #1
 8032a18:	b289      	uxth	r1, r1
        {
          s32_t sub_id = 0;

          while ((*msg_ptr & 0x80) && (len > 1))
          {
            len--;
 8032a1a:	3a01      	subs	r2, #1
            sub_id = (sub_id << 7) + (*msg_ptr & ~0x80);
 8032a1c:	f02c 0c80 	bic.w	ip, ip, #128	; 0x80
            ofs += 1;
            if (ofs >= plen)
 8032a20:	42a1      	cmp	r1, r4
        {
          s32_t sub_id = 0;

          while ((*msg_ptr & 0x80) && (len > 1))
          {
            len--;
 8032a22:	b292      	uxth	r2, r2
            sub_id = (sub_id << 7) + (*msg_ptr & ~0x80);
 8032a24:	eb0c 17c7 	add.w	r7, ip, r7, lsl #7
            ofs += 1;
            if (ofs >= plen)
 8032a28:	d308      	bcc.n	8032a3c <snmp_asn1_dec_oid+0xc8>
            {
              /* next octet in next pbuf */
              p = p->next;
 8032a2a:	6800      	ldr	r0, [r0, #0]
              if (p == NULL) { return ERR_ARG; }
 8032a2c:	2800      	cmp	r0, #0
 8032a2e:	d0e4      	beq.n	80329fa <snmp_asn1_dec_oid+0x86>
              msg_ptr = (u8_t*)p->payload;
              plen += p->len;
 8032a30:	f8b0 c00a 	ldrh.w	ip, [r0, #10]
            if (ofs >= plen)
            {
              /* next octet in next pbuf */
              p = p->next;
              if (p == NULL) { return ERR_ARG; }
              msg_ptr = (u8_t*)p->payload;
 8032a34:	6845      	ldr	r5, [r0, #4]
              plen += p->len;
 8032a36:	4464      	add	r4, ip
 8032a38:	b2a4      	uxth	r4, r4
 8032a3a:	e002      	b.n	8032a42 <snmp_asn1_dec_oid+0xce>
            }
            else
            {
              /* next octet in same pbuf */
              msg_ptr++;
 8032a3c:	3501      	adds	r5, #1
 8032a3e:	e000      	b.n	8032a42 <snmp_asn1_dec_oid+0xce>
        }
      }
      while ((len > 0) && (oid->len < LWIP_SNMP_OBJ_ID_LEN))
      {
        /* sub-identifier uses multiple octets */
        if (*msg_ptr & 0x80)
 8032a40:	2700      	movs	r7, #0
        {
          s32_t sub_id = 0;

          while ((*msg_ptr & 0x80) && (len > 1))
 8032a42:	f895 c000 	ldrb.w	ip, [r5]
 8032a46:	f01c 0f80 	tst.w	ip, #128	; 0x80
 8032a4a:	d02c      	beq.n	8032aa6 <snmp_asn1_dec_oid+0x132>
 8032a4c:	2a01      	cmp	r2, #1
 8032a4e:	d1e2      	bne.n	8032a16 <snmp_asn1_dec_oid+0xa2>
 8032a50:	e009      	b.n	8032a66 <snmp_asn1_dec_oid+0xf2>
            }
          }
          if (!(*msg_ptr & 0x80) && (len > 0))
          {
            /* last octet sub-identifier */
            len--;
 8032a52:	3a01      	subs	r2, #1
 8032a54:	b292      	uxth	r2, r2
            sub_id = (sub_id << 7) + *msg_ptr;
 8032a56:	eb0c 17c7 	add.w	r7, ip, r7, lsl #7
 8032a5a:	e001      	b.n	8032a60 <snmp_asn1_dec_oid+0xec>
          }
        }
        else
        {
          /* !(*msg_ptr & 0x80) sub-identifier uses single octet */
          len--;
 8032a5c:	3a01      	subs	r2, #1
 8032a5e:	b292      	uxth	r2, r2
          *oid_ptr = *msg_ptr;
 8032a60:	f846 7c04 	str.w	r7, [r6, #-4]
        }
        if (len > 0)
 8032a64:	b162      	cbz	r2, 8032a80 <snmp_asn1_dec_oid+0x10c>
        {
          /* remaining oid bytes available ... */
          ofs += 1;
 8032a66:	3101      	adds	r1, #1
 8032a68:	b289      	uxth	r1, r1
          if (ofs >= plen)
 8032a6a:	42a1      	cmp	r1, r4
 8032a6c:	d307      	bcc.n	8032a7e <snmp_asn1_dec_oid+0x10a>
          {
            /* next octet in next pbuf */
            p = p->next;
 8032a6e:	6800      	ldr	r0, [r0, #0]
            if (p == NULL) { return ERR_ARG; }
 8032a70:	2800      	cmp	r0, #0
 8032a72:	d0c2      	beq.n	80329fa <snmp_asn1_dec_oid+0x86>
            msg_ptr = (u8_t*)p->payload;
            plen += p->len;
 8032a74:	8947      	ldrh	r7, [r0, #10]
          if (ofs >= plen)
          {
            /* next octet in next pbuf */
            p = p->next;
            if (p == NULL) { return ERR_ARG; }
            msg_ptr = (u8_t*)p->payload;
 8032a76:	6845      	ldr	r5, [r0, #4]
            plen += p->len;
 8032a78:	19e4      	adds	r4, r4, r7
 8032a7a:	b2a4      	uxth	r4, r4
 8032a7c:	e000      	b.n	8032a80 <snmp_asn1_dec_oid+0x10c>
          }
          else
          {
            /* next octet in same pbuf */
            msg_ptr++;
 8032a7e:	3501      	adds	r5, #1
          }
        }
        oid_ptr++;
        oid->len++;
 8032a80:	781f      	ldrb	r7, [r3, #0]
 8032a82:	3701      	adds	r7, #1
 8032a84:	701f      	strb	r7, [r3, #0]
 8032a86:	3604      	adds	r6, #4
        {
          /* next octet in same pbuf */
          msg_ptr++;
        }
      }
      while ((len > 0) && (oid->len < LWIP_SNMP_OBJ_ID_LEN))
 8032a88:	2a00      	cmp	r2, #0
 8032a8a:	d083      	beq.n	8032994 <snmp_asn1_dec_oid+0x20>
 8032a8c:	781f      	ldrb	r7, [r3, #0]
 8032a8e:	2f1f      	cmp	r7, #31
 8032a90:	d9bc      	bls.n	8032a0c <snmp_asn1_dec_oid+0x98>
 8032a92:	e7b2      	b.n	80329fa <snmp_asn1_dec_oid+0x86>
        /* len > 0, oid->len == LWIP_SNMP_OBJ_ID_LEN or malformed encoding */
        return ERR_ARG;
      }

    }
    p = p->next;
 8032a94:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 8032a96:	4626      	mov	r6, r4
  u16_t plen, base;
  u8_t *msg_ptr;
  s32_t *oid_ptr;

  plen = 0;
  while (p != NULL)
 8032a98:	2800      	cmp	r0, #0
 8032a9a:	f47f af6f 	bne.w	803297c <snmp_asn1_dec_oid+0x8>
 8032a9e:	e7ac      	b.n	80329fa <snmp_asn1_dec_oid+0x86>
 8032aa0:	b240      	sxtb	r0, r0
 8032aa2:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
            {
              /* next octet in same pbuf */
              msg_ptr++;
            }
          }
          if (!(*msg_ptr & 0x80) && (len > 0))
 8032aa6:	2a00      	cmp	r2, #0
 8032aa8:	d1d3      	bne.n	8032a52 <snmp_asn1_dec_oid+0xde>
 8032aaa:	e7e9      	b.n	8032a80 <snmp_asn1_dec_oid+0x10c>

08032aac <snmp_asn1_dec_raw>:
 * @param raw return raw bytes
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) decode
 */
err_t
snmp_asn1_dec_raw(struct pbuf *p, u16_t ofs, u16_t len, u16_t raw_len, u8_t *raw)
{
 8032aac:	b5f0      	push	{r4, r5, r6, r7, lr}
  u16_t plen, base;
  u8_t *msg_ptr;

  if (len > 0)
 8032aae:	2a00      	cmp	r2, #0
 8032ab0:	d12d      	bne.n	8032b0e <snmp_asn1_dec_raw+0x62>
 8032ab2:	e027      	b.n	8032b04 <snmp_asn1_dec_raw+0x58>
  {
    plen = 0;
    while (p != NULL)
    {
      base = plen;
      plen += p->len;
 8032ab4:	8944      	ldrh	r4, [r0, #10]
 8032ab6:	1934      	adds	r4, r6, r4
 8032ab8:	b2a4      	uxth	r4, r4
      if (ofs < plen)
 8032aba:	42a1      	cmp	r1, r4
 8032abc:	d224      	bcs.n	8032b08 <snmp_asn1_dec_raw+0x5c>
      {
        msg_ptr = (u8_t*)p->payload;
 8032abe:	6847      	ldr	r7, [r0, #4]
        msg_ptr += ofs - base;
 8032ac0:	1b8d      	subs	r5, r1, r6
        if (raw_len >= len)
 8032ac2:	4293      	cmp	r3, r2
      base = plen;
      plen += p->len;
      if (ofs < plen)
      {
        msg_ptr = (u8_t*)p->payload;
        msg_ptr += ofs - base;
 8032ac4:	443d      	add	r5, r7
        if (raw_len >= len)
 8032ac6:	d305      	bcc.n	8032ad4 <snmp_asn1_dec_raw+0x28>
 8032ac8:	9b05      	ldr	r3, [sp, #20]
 * @param raw_len length of the raw return value
 * @param raw return raw bytes
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) decode
 */
err_t
snmp_asn1_dec_raw(struct pbuf *p, u16_t ofs, u16_t len, u16_t raw_len, u8_t *raw)
 8032aca:	b29e      	uxth	r6, r3
 8032acc:	18b2      	adds	r2, r6, r2
 8032ace:	b292      	uxth	r2, r2
 8032ad0:	1b89      	subs	r1, r1, r6
 8032ad2:	e011      	b.n	8032af8 <snmp_asn1_dec_raw+0x4c>
          return ERR_OK;
        }
        else
        {
          /* raw_len < len, not enough dst space */
          return ERR_ARG;
 8032ad4:	20f2      	movs	r0, #242	; 0xf2
 8032ad6:	e01e      	b.n	8032b16 <snmp_asn1_dec_raw+0x6a>
        {
          while (len > 1)
          {
            /* copy len - 1 octets */
            len--;
            *raw = *msg_ptr;
 8032ad8:	782e      	ldrb	r6, [r5, #0]
 8032ada:	f803 6b01 	strb.w	r6, [r3], #1
 * @param raw_len length of the raw return value
 * @param raw return raw bytes
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) decode
 */
err_t
snmp_asn1_dec_raw(struct pbuf *p, u16_t ofs, u16_t len, u16_t raw_len, u8_t *raw)
 8032ade:	18ce      	adds	r6, r1, r3
            /* copy len - 1 octets */
            len--;
            *raw = *msg_ptr;
            raw++;
            ofs += 1;
            if (ofs >= plen)
 8032ae0:	b2b6      	uxth	r6, r6
 8032ae2:	42a6      	cmp	r6, r4
 8032ae4:	d307      	bcc.n	8032af6 <snmp_asn1_dec_raw+0x4a>
            {
              /* next octet in next pbuf */
              p = p->next;
 8032ae6:	6800      	ldr	r0, [r0, #0]
              if (p == NULL) { return ERR_ARG; }
 8032ae8:	2800      	cmp	r0, #0
 8032aea:	d0f3      	beq.n	8032ad4 <snmp_asn1_dec_raw+0x28>
              msg_ptr = (u8_t*)p->payload;
              plen += p->len;
 8032aec:	8946      	ldrh	r6, [r0, #10]
            if (ofs >= plen)
            {
              /* next octet in next pbuf */
              p = p->next;
              if (p == NULL) { return ERR_ARG; }
              msg_ptr = (u8_t*)p->payload;
 8032aee:	6845      	ldr	r5, [r0, #4]
              plen += p->len;
 8032af0:	19a4      	adds	r4, r4, r6
 8032af2:	b2a4      	uxth	r4, r4
 8032af4:	e000      	b.n	8032af8 <snmp_asn1_dec_raw+0x4c>
            }
            else
            {
              /* next octet in same pbuf */
              msg_ptr++;
 8032af6:	3501      	adds	r5, #1
      {
        msg_ptr = (u8_t*)p->payload;
        msg_ptr += ofs - base;
        if (raw_len >= len)
        {
          while (len > 1)
 8032af8:	1ad7      	subs	r7, r2, r3
 8032afa:	b2bf      	uxth	r7, r7
 8032afc:	2f01      	cmp	r7, #1
 8032afe:	d8eb      	bhi.n	8032ad8 <snmp_asn1_dec_raw+0x2c>
              /* next octet in same pbuf */
              msg_ptr++;
            }
          }
          /* copy last octet */
          *raw = *msg_ptr;
 8032b00:	782a      	ldrb	r2, [r5, #0]
 8032b02:	701a      	strb	r2, [r3, #0]
          return ERR_OK;
 8032b04:	2000      	movs	r0, #0
 8032b06:	e006      	b.n	8032b16 <snmp_asn1_dec_raw+0x6a>
        {
          /* raw_len < len, not enough dst space */
          return ERR_ARG;
        }
      }
      p = p->next;
 8032b08:	6800      	ldr	r0, [r0, #0]
  {
    plen = 0;
    while (p != NULL)
    {
      base = plen;
      plen += p->len;
 8032b0a:	4626      	mov	r6, r4
 8032b0c:	e000      	b.n	8032b10 <snmp_asn1_dec_raw+0x64>
snmp_asn1_dec_raw(struct pbuf *p, u16_t ofs, u16_t len, u16_t raw_len, u8_t *raw)
{
  u16_t plen, base;
  u8_t *msg_ptr;

  if (len > 0)
 8032b0e:	2600      	movs	r6, #0
  {
    plen = 0;
    while (p != NULL)
 8032b10:	2800      	cmp	r0, #0
 8032b12:	d1cf      	bne.n	8032ab4 <snmp_asn1_dec_raw+0x8>
 8032b14:	e7de      	b.n	8032ad4 <snmp_asn1_dec_raw+0x28>
  else
  {
    /* len == 0, empty string */
    return ERR_OK;
  }
}
 8032b16:	b240      	sxtb	r0, r0
 8032b18:	bdf0      	pop	{r4, r5, r6, r7, pc}

08032b1a <snmp_asn1_enc_length_cnt>:
 * @param octets_needed points to the return value
 */
void
snmp_asn1_enc_length_cnt(u16_t length, u8_t *octets_needed)
{
  if (length < 0x80U)
 8032b1a:	287f      	cmp	r0, #127	; 0x7f
 8032b1c:	d801      	bhi.n	8032b22 <snmp_asn1_enc_length_cnt+0x8>
  {
    *octets_needed = 1;
 8032b1e:	2301      	movs	r3, #1
 8032b20:	e004      	b.n	8032b2c <snmp_asn1_enc_length_cnt+0x12>
  }
  else if (length < 0x100U)
 8032b22:	28ff      	cmp	r0, #255	; 0xff
 8032b24:	d801      	bhi.n	8032b2a <snmp_asn1_enc_length_cnt+0x10>
  {
    *octets_needed = 2;
 8032b26:	2302      	movs	r3, #2
 8032b28:	e000      	b.n	8032b2c <snmp_asn1_enc_length_cnt+0x12>
  }
  else
  {
    *octets_needed = 3;
 8032b2a:	2303      	movs	r3, #3
 8032b2c:	700b      	strb	r3, [r1, #0]
 8032b2e:	4770      	bx	lr

08032b30 <snmp_asn1_enc_u32t_cnt>:
 * of 0xFFFFFFFF is preceded with 0x00 and the length is 5 octets!!
 */
void
snmp_asn1_enc_u32t_cnt(u32_t value, u16_t *octets_needed)
{
  if (value < 0x80UL)
 8032b30:	287f      	cmp	r0, #127	; 0x7f
 8032b32:	d801      	bhi.n	8032b38 <snmp_asn1_enc_u32t_cnt+0x8>
  {
    *octets_needed = 1;
 8032b34:	2301      	movs	r3, #1
 8032b36:	e00e      	b.n	8032b56 <snmp_asn1_enc_u32t_cnt+0x26>
  }
  else if (value < 0x8000UL)
 8032b38:	f5b0 4f00 	cmp.w	r0, #32768	; 0x8000
 8032b3c:	d201      	bcs.n	8032b42 <snmp_asn1_enc_u32t_cnt+0x12>
  {
    *octets_needed = 2;
 8032b3e:	2302      	movs	r3, #2
 8032b40:	e009      	b.n	8032b56 <snmp_asn1_enc_u32t_cnt+0x26>
  }
  else if (value < 0x800000UL)
 8032b42:	f5b0 0f00 	cmp.w	r0, #8388608	; 0x800000
 8032b46:	d201      	bcs.n	8032b4c <snmp_asn1_enc_u32t_cnt+0x1c>
  {
    *octets_needed = 3;
 8032b48:	2303      	movs	r3, #3
 8032b4a:	e004      	b.n	8032b56 <snmp_asn1_enc_u32t_cnt+0x26>
  }
  else if (value < 0x80000000UL)
 8032b4c:	2800      	cmp	r0, #0
 8032b4e:	db01      	blt.n	8032b54 <snmp_asn1_enc_u32t_cnt+0x24>
  {
    *octets_needed = 4;
 8032b50:	2304      	movs	r3, #4
 8032b52:	e000      	b.n	8032b56 <snmp_asn1_enc_u32t_cnt+0x26>
  }
  else
  {
    *octets_needed = 5;
 8032b54:	2305      	movs	r3, #5
 8032b56:	800b      	strh	r3, [r1, #0]
 8032b58:	4770      	bx	lr

08032b5a <snmp_asn1_enc_s32t_cnt>:
void
snmp_asn1_enc_s32t_cnt(s32_t value, u16_t *octets_needed)
{
  if (value < 0)
  {
    value = ~value;
 8032b5a:	43c3      	mvns	r3, r0
 8032b5c:	4283      	cmp	r3, r0
 8032b5e:	bfa8      	it	ge
 8032b60:	4618      	movge	r0, r3
  }
  if (value < 0x80L)
 8032b62:	287f      	cmp	r0, #127	; 0x7f
 8032b64:	dc01      	bgt.n	8032b6a <snmp_asn1_enc_s32t_cnt+0x10>
  {
    *octets_needed = 1;
 8032b66:	2301      	movs	r3, #1
 8032b68:	e00a      	b.n	8032b80 <snmp_asn1_enc_s32t_cnt+0x26>
  }
  else if (value < 0x8000L)
 8032b6a:	f5b0 4f00 	cmp.w	r0, #32768	; 0x8000
 8032b6e:	da01      	bge.n	8032b74 <snmp_asn1_enc_s32t_cnt+0x1a>
  {
    *octets_needed = 2;
 8032b70:	2302      	movs	r3, #2
 8032b72:	e005      	b.n	8032b80 <snmp_asn1_enc_s32t_cnt+0x26>
  }
  else if (value < 0x800000L)
 8032b74:	f5b0 0f00 	cmp.w	r0, #8388608	; 0x800000
 8032b78:	da01      	bge.n	8032b7e <snmp_asn1_enc_s32t_cnt+0x24>
  {
    *octets_needed = 3;
 8032b7a:	2303      	movs	r3, #3
 8032b7c:	e000      	b.n	8032b80 <snmp_asn1_enc_s32t_cnt+0x26>
  }
  else
  {
    *octets_needed = 4;
 8032b7e:	2304      	movs	r3, #4
 8032b80:	800b      	strh	r3, [r1, #0]
 8032b82:	4770      	bx	lr

08032b84 <snmp_asn1_enc_oid_cnt>:
{
  s32_t sub_id;
  u8_t cnt;

  cnt = 0;
  if (ident_len > 1)
 8032b84:	2801      	cmp	r0, #1
 * @param ident points to object identifier array
 * @param octets_needed points to the return value
 */
void
snmp_asn1_enc_oid_cnt(u8_t ident_len, s32_t *ident, u16_t *octets_needed)
{
 8032b86:	b510      	push	{r4, lr}
  s32_t sub_id;
  u8_t cnt;

  cnt = 0;
  if (ident_len > 1)
 8032b88:	d904      	bls.n	8032b94 <snmp_asn1_enc_oid_cnt+0x10>
  {
    /* compressed prefix in one octet */
    cnt++;
    ident_len -= 2;
 8032b8a:	3802      	subs	r0, #2
 8032b8c:	b2c0      	uxtb	r0, r0
    ident += 2;
 8032b8e:	3108      	adds	r1, #8

  cnt = 0;
  if (ident_len > 1)
  {
    /* compressed prefix in one octet */
    cnt++;
 8032b90:	2301      	movs	r3, #1
 8032b92:	e000      	b.n	8032b96 <snmp_asn1_enc_oid_cnt+0x12>
snmp_asn1_enc_oid_cnt(u8_t ident_len, s32_t *ident, u16_t *octets_needed)
{
  s32_t sub_id;
  u8_t cnt;

  cnt = 0;
 8032b94:	2300      	movs	r3, #0
 * @param ident_len object identifier array length
 * @param ident points to object identifier array
 * @param octets_needed points to the return value
 */
void
snmp_asn1_enc_oid_cnt(u8_t ident_len, s32_t *ident, u16_t *octets_needed)
 8032b96:	3904      	subs	r1, #4
 8032b98:	e008      	b.n	8032bac <snmp_asn1_enc_oid_cnt+0x28>
    ident_len -= 2;
    ident += 2;
  }
  while(ident_len > 0)
  {
    ident_len--;
 8032b9a:	3801      	subs	r0, #1
    sub_id = *ident;
 8032b9c:	f851 4f04 	ldr.w	r4, [r1, #4]!
    ident_len -= 2;
    ident += 2;
  }
  while(ident_len > 0)
  {
    ident_len--;
 8032ba0:	b2c0      	uxtb	r0, r0

    sub_id >>= 7;
    cnt++;
    while(sub_id > 0)
    {
      sub_id >>= 7;
 8032ba2:	11e4      	asrs	r4, r4, #7
      cnt++;
 8032ba4:	3301      	adds	r3, #1
    ident_len--;
    sub_id = *ident;

    sub_id >>= 7;
    cnt++;
    while(sub_id > 0)
 8032ba6:	2c00      	cmp	r4, #0
    {
      sub_id >>= 7;
      cnt++;
 8032ba8:	b2db      	uxtb	r3, r3
    ident_len--;
    sub_id = *ident;

    sub_id >>= 7;
    cnt++;
    while(sub_id > 0)
 8032baa:	dcfa      	bgt.n	8032ba2 <snmp_asn1_enc_oid_cnt+0x1e>
    /* compressed prefix in one octet */
    cnt++;
    ident_len -= 2;
    ident += 2;
  }
  while(ident_len > 0)
 8032bac:	2800      	cmp	r0, #0
 8032bae:	d1f4      	bne.n	8032b9a <snmp_asn1_enc_oid_cnt+0x16>
      sub_id >>= 7;
      cnt++;
    }
    ident++;
  }
  *octets_needed = cnt;
 8032bb0:	8013      	strh	r3, [r2, #0]
 8032bb2:	bd10      	pop	{r4, pc}

08032bb4 <snmp_asn1_enc_type>:
 * @param type input ASN1 type
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 */
err_t
snmp_asn1_enc_type(struct pbuf *p, u16_t ofs, u8_t type)
{
 8032bb4:	b510      	push	{r4, lr}
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
 8032bb6:	2300      	movs	r3, #0
  while (p != NULL)
 8032bb8:	e00b      	b.n	8032bd2 <snmp_asn1_enc_type+0x1e>
  {
    base = plen;
    plen += p->len;
 8032bba:	8944      	ldrh	r4, [r0, #10]
 8032bbc:	191c      	adds	r4, r3, r4
 8032bbe:	b2a4      	uxth	r4, r4
    if (ofs < plen)
 8032bc0:	42a1      	cmp	r1, r4
 8032bc2:	d204      	bcs.n	8032bce <snmp_asn1_enc_type+0x1a>
    {
      msg_ptr = (u8_t*)p->payload;
 8032bc4:	6840      	ldr	r0, [r0, #4]
      msg_ptr += ofs - base;
 8032bc6:	1acb      	subs	r3, r1, r3
      *msg_ptr = type;
 8032bc8:	54c2      	strb	r2, [r0, r3]
      return ERR_OK;
 8032bca:	2000      	movs	r0, #0
 8032bcc:	e004      	b.n	8032bd8 <snmp_asn1_enc_type+0x24>
    }
    p = p->next;
 8032bce:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 8032bd0:	4623      	mov	r3, r4
{
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
  while (p != NULL)
 8032bd2:	2800      	cmp	r0, #0
 8032bd4:	d1f1      	bne.n	8032bba <snmp_asn1_enc_type+0x6>
      return ERR_OK;
    }
    p = p->next;
  }
  /* p == NULL, ofs >= plen */
  return ERR_ARG;
 8032bd6:	20f2      	movs	r0, #242	; 0xf2
}
 8032bd8:	b240      	sxtb	r0, r0
 8032bda:	bd10      	pop	{r4, pc}

08032bdc <snmp_asn1_enc_length>:
 * @param length is the host order length to be encoded
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 */
err_t
snmp_asn1_enc_length(struct pbuf *p, u16_t ofs, u16_t length)
{
 8032bdc:	b5f0      	push	{r4, r5, r6, r7, lr}
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
 8032bde:	2400      	movs	r4, #0
  while (p != NULL)
 8032be0:	e03f      	b.n	8032c62 <snmp_asn1_enc_length+0x86>
  {
    base = plen;
    plen += p->len;
 8032be2:	8943      	ldrh	r3, [r0, #10]
 8032be4:	18e3      	adds	r3, r4, r3
 8032be6:	b29b      	uxth	r3, r3
    if (ofs < plen)
 8032be8:	4299      	cmp	r1, r3
 8032bea:	d238      	bcs.n	8032c5e <snmp_asn1_enc_length+0x82>
    {
      msg_ptr = (u8_t*)p->payload;
 8032bec:	6845      	ldr	r5, [r0, #4]
      msg_ptr += ofs - base;
 8032bee:	1b0c      	subs	r4, r1, r4

      if (length < 0x80)
 8032bf0:	2a7f      	cmp	r2, #127	; 0x7f
    base = plen;
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
 8032bf2:	eb05 0604 	add.w	r6, r5, r4

      if (length < 0x80)
 8032bf6:	d801      	bhi.n	8032bfc <snmp_asn1_enc_length+0x20>
      {
        *msg_ptr = (u8_t)length;
 8032bf8:	552a      	strb	r2, [r5, r4]
 8032bfa:	e02e      	b.n	8032c5a <snmp_asn1_enc_length+0x7e>
        return ERR_OK;
      }
      else if (length < 0x100)
 8032bfc:	2aff      	cmp	r2, #255	; 0xff
 8032bfe:	f101 0701 	add.w	r7, r1, #1
 8032c02:	d80d      	bhi.n	8032c20 <snmp_asn1_enc_length+0x44>
      {
        *msg_ptr = 0x81;
        ofs += 1;
        if (ofs >= plen)
 8032c04:	b2bf      	uxth	r7, r7
        *msg_ptr = (u8_t)length;
        return ERR_OK;
      }
      else if (length < 0x100)
      {
        *msg_ptr = 0x81;
 8032c06:	2181      	movs	r1, #129	; 0x81
        ofs += 1;
        if (ofs >= plen)
 8032c08:	429f      	cmp	r7, r3
        *msg_ptr = (u8_t)length;
        return ERR_OK;
      }
      else if (length < 0x100)
      {
        *msg_ptr = 0x81;
 8032c0a:	5529      	strb	r1, [r5, r4]
        ofs += 1;
        if (ofs >= plen)
 8032c0c:	d305      	bcc.n	8032c1a <snmp_asn1_enc_length+0x3e>
        {
          /* next octet in next pbuf */
          p = p->next;
 8032c0e:	6803      	ldr	r3, [r0, #0]
          if (p == NULL) { return ERR_ARG; }
 8032c10:	b90b      	cbnz	r3, 8032c16 <snmp_asn1_enc_length+0x3a>
 8032c12:	20f2      	movs	r0, #242	; 0xf2
 8032c14:	e028      	b.n	8032c68 <snmp_asn1_enc_length+0x8c>
          msg_ptr = (u8_t*)p->payload;
 8032c16:	685e      	ldr	r6, [r3, #4]
 8032c18:	e000      	b.n	8032c1c <snmp_asn1_enc_length+0x40>
        }
        else
        {
          /* next octet in same pbuf */
          msg_ptr++;
 8032c1a:	3601      	adds	r6, #1
        }
        *msg_ptr = (u8_t)length;
 8032c1c:	7032      	strb	r2, [r6, #0]
 8032c1e:	e01c      	b.n	8032c5a <snmp_asn1_enc_length+0x7e>
        i = 2;
        while (i > 0)
        {
          i--;
          ofs += 1;
          if (ofs >= plen)
 8032c20:	b2bf      	uxth	r7, r7
      else
      {
        u8_t i;

        /* length >= 0x100 && length <= 0xFFFF */
        *msg_ptr = 0x82;
 8032c22:	f04f 0c82 	mov.w	ip, #130	; 0x82
        i = 2;
        while (i > 0)
        {
          i--;
          ofs += 1;
          if (ofs >= plen)
 8032c26:	429f      	cmp	r7, r3
      else
      {
        u8_t i;

        /* length >= 0x100 && length <= 0xFFFF */
        *msg_ptr = 0x82;
 8032c28:	f805 c004 	strb.w	ip, [r5, r4]
        i = 2;
        while (i > 0)
        {
          i--;
          ofs += 1;
          if (ofs >= plen)
 8032c2c:	d201      	bcs.n	8032c32 <snmp_asn1_enc_length+0x56>
            plen += p->len;
          }
          else
          {
            /* next octet in same pbuf */
            msg_ptr++;
 8032c2e:	1c74      	adds	r4, r6, #1
 8032c30:	e006      	b.n	8032c40 <snmp_asn1_enc_length+0x64>
          i--;
          ofs += 1;
          if (ofs >= plen)
          {
            /* next octet in next pbuf */
            p = p->next;
 8032c32:	6800      	ldr	r0, [r0, #0]
            if (p == NULL) { return ERR_ARG; }
 8032c34:	2800      	cmp	r0, #0
 8032c36:	d0ec      	beq.n	8032c12 <snmp_asn1_enc_length+0x36>
            msg_ptr = (u8_t*)p->payload;
            plen += p->len;
 8032c38:	8945      	ldrh	r5, [r0, #10]
          if (ofs >= plen)
          {
            /* next octet in next pbuf */
            p = p->next;
            if (p == NULL) { return ERR_ARG; }
            msg_ptr = (u8_t*)p->payload;
 8032c3a:	6844      	ldr	r4, [r0, #4]
            plen += p->len;
 8032c3c:	195b      	adds	r3, r3, r5
 8032c3e:	b29b      	uxth	r3, r3
        *msg_ptr = 0x82;
        i = 2;
        while (i > 0)
        {
          i--;
          ofs += 1;
 8032c40:	3102      	adds	r1, #2
          if (ofs >= plen)
 8032c42:	b289      	uxth	r1, r1
            *msg_ptr = (u8_t)length;
          }
          else
          {
            /* most significant length octet */
            *msg_ptr = (u8_t)(length >> 8);
 8032c44:	0a15      	lsrs	r5, r2, #8
        i = 2;
        while (i > 0)
        {
          i--;
          ofs += 1;
          if (ofs >= plen)
 8032c46:	4299      	cmp	r1, r3
            *msg_ptr = (u8_t)length;
          }
          else
          {
            /* most significant length octet */
            *msg_ptr = (u8_t)(length >> 8);
 8032c48:	7025      	strb	r5, [r4, #0]
        i = 2;
        while (i > 0)
        {
          i--;
          ofs += 1;
          if (ofs >= plen)
 8032c4a:	d201      	bcs.n	8032c50 <snmp_asn1_enc_length+0x74>
            plen += p->len;
          }
          else
          {
            /* next octet in same pbuf */
            msg_ptr++;
 8032c4c:	3401      	adds	r4, #1
 8032c4e:	e003      	b.n	8032c58 <snmp_asn1_enc_length+0x7c>
          i--;
          ofs += 1;
          if (ofs >= plen)
          {
            /* next octet in next pbuf */
            p = p->next;
 8032c50:	6803      	ldr	r3, [r0, #0]
            if (p == NULL) { return ERR_ARG; }
 8032c52:	2b00      	cmp	r3, #0
 8032c54:	d0dd      	beq.n	8032c12 <snmp_asn1_enc_length+0x36>
            msg_ptr = (u8_t*)p->payload;
 8032c56:	685c      	ldr	r4, [r3, #4]
            msg_ptr++;
          }
          if (i == 0)
          {
            /* least significant length octet */
            *msg_ptr = (u8_t)length;
 8032c58:	7022      	strb	r2, [r4, #0]
          {
            /* most significant length octet */
            *msg_ptr = (u8_t)(length >> 8);
          }
        }
        return ERR_OK;
 8032c5a:	2000      	movs	r0, #0
 8032c5c:	e004      	b.n	8032c68 <snmp_asn1_enc_length+0x8c>
      }
    }
    p = p->next;
 8032c5e:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 8032c60:	461c      	mov	r4, r3
{
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
  while (p != NULL)
 8032c62:	2800      	cmp	r0, #0
 8032c64:	d1bd      	bne.n	8032be2 <snmp_asn1_enc_length+0x6>
 8032c66:	e7d4      	b.n	8032c12 <snmp_asn1_enc_length+0x36>
    }
    p = p->next;
  }
  /* p == NULL, ofs >= plen */
  return ERR_ARG;
}
 8032c68:	b240      	sxtb	r0, r0
 8032c6a:	bdf0      	pop	{r4, r5, r6, r7, pc}

08032c6c <snmp_asn1_enc_u32t>:
 *
 * @see snmp_asn1_enc_u32t_cnt()
 */
err_t
snmp_asn1_enc_u32t(struct pbuf *p, u16_t ofs, u16_t octets_needed, u32_t value)
{
 8032c6c:	b5f0      	push	{r4, r5, r6, r7, lr}
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
 8032c6e:	2500      	movs	r5, #0
  while (p != NULL)
 8032c70:	e037      	b.n	8032ce2 <snmp_asn1_enc_u32t+0x76>
  {
    base = plen;
    plen += p->len;
 8032c72:	8944      	ldrh	r4, [r0, #10]
 8032c74:	192c      	adds	r4, r5, r4
 8032c76:	b2a4      	uxth	r4, r4
    if (ofs < plen)
 8032c78:	42a1      	cmp	r1, r4
 8032c7a:	d230      	bcs.n	8032cde <snmp_asn1_enc_u32t+0x72>
    {
      msg_ptr = (u8_t*)p->payload;
 8032c7c:	6847      	ldr	r7, [r0, #4]
      msg_ptr += ofs - base;
 8032c7e:	1b4e      	subs	r6, r1, r5

      if (octets_needed == 5)
 8032c80:	2a05      	cmp	r2, #5
    base = plen;
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
 8032c82:	eb07 0506 	add.w	r5, r7, r6

      if (octets_needed == 5)
 8032c86:	d110      	bne.n	8032caa <snmp_asn1_enc_u32t+0x3e>
      {
        /* not enough bits in 'value' add leading 0x00 */
        octets_needed--;
        *msg_ptr = 0x00;
        ofs += 1;
 8032c88:	3101      	adds	r1, #1
 8032c8a:	b289      	uxth	r1, r1

      if (octets_needed == 5)
      {
        /* not enough bits in 'value' add leading 0x00 */
        octets_needed--;
        *msg_ptr = 0x00;
 8032c8c:	2200      	movs	r2, #0
        ofs += 1;
        if (ofs >= plen)
 8032c8e:	42a1      	cmp	r1, r4

      if (octets_needed == 5)
      {
        /* not enough bits in 'value' add leading 0x00 */
        octets_needed--;
        *msg_ptr = 0x00;
 8032c90:	55ba      	strb	r2, [r7, r6]
        ofs += 1;
        if (ofs >= plen)
 8032c92:	d308      	bcc.n	8032ca6 <snmp_asn1_enc_u32t+0x3a>
        {
          /* next octet in next pbuf */
          p = p->next;
 8032c94:	6800      	ldr	r0, [r0, #0]
          if (p == NULL) { return ERR_ARG; }
 8032c96:	b908      	cbnz	r0, 8032c9c <snmp_asn1_enc_u32t+0x30>
 8032c98:	20f2      	movs	r0, #242	; 0xf2
 8032c9a:	e025      	b.n	8032ce8 <snmp_asn1_enc_u32t+0x7c>
          msg_ptr = (u8_t*)p->payload;
          plen += p->len;
 8032c9c:	8942      	ldrh	r2, [r0, #10]
        if (ofs >= plen)
        {
          /* next octet in next pbuf */
          p = p->next;
          if (p == NULL) { return ERR_ARG; }
          msg_ptr = (u8_t*)p->payload;
 8032c9e:	6845      	ldr	r5, [r0, #4]
          plen += p->len;
 8032ca0:	18a4      	adds	r4, r4, r2
 8032ca2:	b2a4      	uxth	r4, r4
 8032ca4:	e000      	b.n	8032ca8 <snmp_asn1_enc_u32t+0x3c>
        }
        else
        {
          /* next octet in same pbuf */
          msg_ptr++;
 8032ca6:	3501      	adds	r5, #1
      msg_ptr += ofs - base;

      if (octets_needed == 5)
      {
        /* not enough bits in 'value' add leading 0x00 */
        octets_needed--;
 8032ca8:	2204      	movs	r2, #4
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 *
 * @see snmp_asn1_enc_u32t_cnt()
 */
err_t
snmp_asn1_enc_u32t(struct pbuf *p, u16_t ofs, u16_t octets_needed, u32_t value)
 8032caa:	1851      	adds	r1, r2, r1
 8032cac:	e012      	b.n	8032cd4 <snmp_asn1_enc_u32t+0x68>
          msg_ptr++;
        }
      }
      while (octets_needed > 1)
      {
        octets_needed--;
 8032cae:	3a01      	subs	r2, #1
 8032cb0:	b292      	uxth	r2, r2
        *msg_ptr = (u8_t)(value >> (octets_needed << 3));
 8032cb2:	00d6      	lsls	r6, r2, #3
 8032cb4:	fa23 f606 	lsr.w	r6, r3, r6
 8032cb8:	702e      	strb	r6, [r5, #0]
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 *
 * @see snmp_asn1_enc_u32t_cnt()
 */
err_t
snmp_asn1_enc_u32t(struct pbuf *p, u16_t ofs, u16_t octets_needed, u32_t value)
 8032cba:	1a8e      	subs	r6, r1, r2
      while (octets_needed > 1)
      {
        octets_needed--;
        *msg_ptr = (u8_t)(value >> (octets_needed << 3));
        ofs += 1;
        if (ofs >= plen)
 8032cbc:	b2b6      	uxth	r6, r6
 8032cbe:	42a6      	cmp	r6, r4
 8032cc0:	d307      	bcc.n	8032cd2 <snmp_asn1_enc_u32t+0x66>
        {
          /* next octet in next pbuf */
          p = p->next;
 8032cc2:	6800      	ldr	r0, [r0, #0]
          if (p == NULL) { return ERR_ARG; }
 8032cc4:	2800      	cmp	r0, #0
 8032cc6:	d0e7      	beq.n	8032c98 <snmp_asn1_enc_u32t+0x2c>
          msg_ptr = (u8_t*)p->payload;
          plen += p->len;
 8032cc8:	8946      	ldrh	r6, [r0, #10]
        if (ofs >= plen)
        {
          /* next octet in next pbuf */
          p = p->next;
          if (p == NULL) { return ERR_ARG; }
          msg_ptr = (u8_t*)p->payload;
 8032cca:	6845      	ldr	r5, [r0, #4]
          plen += p->len;
 8032ccc:	19a4      	adds	r4, r4, r6
 8032cce:	b2a4      	uxth	r4, r4
 8032cd0:	e000      	b.n	8032cd4 <snmp_asn1_enc_u32t+0x68>
        }
        else
        {
          /* next octet in same pbuf */
          msg_ptr++;
 8032cd2:	3501      	adds	r5, #1
        {
          /* next octet in same pbuf */
          msg_ptr++;
        }
      }
      while (octets_needed > 1)
 8032cd4:	2a01      	cmp	r2, #1
 8032cd6:	d8ea      	bhi.n	8032cae <snmp_asn1_enc_u32t+0x42>
          /* next octet in same pbuf */
          msg_ptr++;
        }
      }
      /* (only) one least significant octet */
      *msg_ptr = (u8_t)value;
 8032cd8:	702b      	strb	r3, [r5, #0]
      return ERR_OK;
 8032cda:	2000      	movs	r0, #0
 8032cdc:	e004      	b.n	8032ce8 <snmp_asn1_enc_u32t+0x7c>
    }
    p = p->next;
 8032cde:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 8032ce0:	4625      	mov	r5, r4
{
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
  while (p != NULL)
 8032ce2:	2800      	cmp	r0, #0
 8032ce4:	d1c5      	bne.n	8032c72 <snmp_asn1_enc_u32t+0x6>
 8032ce6:	e7d7      	b.n	8032c98 <snmp_asn1_enc_u32t+0x2c>
    }
    p = p->next;
  }
  /* p == NULL, ofs >= plen */
  return ERR_ARG;
}
 8032ce8:	b240      	sxtb	r0, r0
 8032cea:	bdf0      	pop	{r4, r5, r6, r7, pc}

08032cec <snmp_asn1_enc_s32t>:
 *
 * @see snmp_asn1_enc_s32t_cnt()
 */
err_t
snmp_asn1_enc_s32t(struct pbuf *p, u16_t ofs, u16_t octets_needed, s32_t value)
{
 8032cec:	b5f0      	push	{r4, r5, r6, r7, lr}
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
 8032cee:	2600      	movs	r6, #0
  while (p != NULL)
 8032cf0:	e024      	b.n	8032d3c <snmp_asn1_enc_s32t+0x50>
  {
    base = plen;
    plen += p->len;
 8032cf2:	8944      	ldrh	r4, [r0, #10]
 8032cf4:	1934      	adds	r4, r6, r4
 8032cf6:	b2a4      	uxth	r4, r4
    if (ofs < plen)
 8032cf8:	42a1      	cmp	r1, r4
 8032cfa:	d21d      	bcs.n	8032d38 <snmp_asn1_enc_s32t+0x4c>
    {
      msg_ptr = (u8_t*)p->payload;
 8032cfc:	6847      	ldr	r7, [r0, #4]
      msg_ptr += ofs - base;
 8032cfe:	1b8d      	subs	r5, r1, r6
 8032d00:	197d      	adds	r5, r7, r5
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 *
 * @see snmp_asn1_enc_s32t_cnt()
 */
err_t
snmp_asn1_enc_s32t(struct pbuf *p, u16_t ofs, u16_t octets_needed, s32_t value)
 8032d02:	1851      	adds	r1, r2, r1
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;

      while (octets_needed > 1)
 8032d04:	e013      	b.n	8032d2e <snmp_asn1_enc_s32t+0x42>
      {
        octets_needed--;
 8032d06:	3a01      	subs	r2, #1
 8032d08:	b292      	uxth	r2, r2
        *msg_ptr = (u8_t)(value >> (octets_needed << 3));
 8032d0a:	00d6      	lsls	r6, r2, #3
 8032d0c:	fa43 f606 	asr.w	r6, r3, r6
 8032d10:	702e      	strb	r6, [r5, #0]
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 *
 * @see snmp_asn1_enc_s32t_cnt()
 */
err_t
snmp_asn1_enc_s32t(struct pbuf *p, u16_t ofs, u16_t octets_needed, s32_t value)
 8032d12:	1a8e      	subs	r6, r1, r2
      while (octets_needed > 1)
      {
        octets_needed--;
        *msg_ptr = (u8_t)(value >> (octets_needed << 3));
        ofs += 1;
        if (ofs >= plen)
 8032d14:	b2b6      	uxth	r6, r6
 8032d16:	42a6      	cmp	r6, r4
 8032d18:	d308      	bcc.n	8032d2c <snmp_asn1_enc_s32t+0x40>
        {
          /* next octet in next pbuf */
          p = p->next;
 8032d1a:	6800      	ldr	r0, [r0, #0]
          if (p == NULL) { return ERR_ARG; }
 8032d1c:	b908      	cbnz	r0, 8032d22 <snmp_asn1_enc_s32t+0x36>
 8032d1e:	20f2      	movs	r0, #242	; 0xf2
 8032d20:	e00f      	b.n	8032d42 <snmp_asn1_enc_s32t+0x56>
          msg_ptr = (u8_t*)p->payload;
          plen += p->len;
 8032d22:	8946      	ldrh	r6, [r0, #10]
        if (ofs >= plen)
        {
          /* next octet in next pbuf */
          p = p->next;
          if (p == NULL) { return ERR_ARG; }
          msg_ptr = (u8_t*)p->payload;
 8032d24:	6845      	ldr	r5, [r0, #4]
          plen += p->len;
 8032d26:	19a4      	adds	r4, r4, r6
 8032d28:	b2a4      	uxth	r4, r4
 8032d2a:	e000      	b.n	8032d2e <snmp_asn1_enc_s32t+0x42>
        }
        else
        {
          /* next octet in same pbuf */
          msg_ptr++;
 8032d2c:	3501      	adds	r5, #1
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;

      while (octets_needed > 1)
 8032d2e:	2a01      	cmp	r2, #1
 8032d30:	d8e9      	bhi.n	8032d06 <snmp_asn1_enc_s32t+0x1a>
          /* next octet in same pbuf */
          msg_ptr++;
        }
      }
      /* (only) one least significant octet */
      *msg_ptr = (u8_t)value;
 8032d32:	702b      	strb	r3, [r5, #0]
      return ERR_OK;
 8032d34:	2000      	movs	r0, #0
 8032d36:	e004      	b.n	8032d42 <snmp_asn1_enc_s32t+0x56>
    }
    p = p->next;
 8032d38:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 8032d3a:	4626      	mov	r6, r4
{
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
  while (p != NULL)
 8032d3c:	2800      	cmp	r0, #0
 8032d3e:	d1d8      	bne.n	8032cf2 <snmp_asn1_enc_s32t+0x6>
 8032d40:	e7ed      	b.n	8032d1e <snmp_asn1_enc_s32t+0x32>
    }
    p = p->next;
  }
  /* p == NULL, ofs >= plen */
  return ERR_ARG;
}
 8032d42:	b240      	sxtb	r0, r0
 8032d44:	bdf0      	pop	{r4, r5, r6, r7, pc}

08032d46 <snmp_asn1_enc_oid>:
 * @param ident points to object identifier array
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 */
err_t
snmp_asn1_enc_oid(struct pbuf *p, u16_t ofs, u8_t ident_len, s32_t *ident)
{
 8032d46:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
 8032d4a:	2500      	movs	r5, #0
  while (p != NULL)
 8032d4c:	e068      	b.n	8032e20 <snmp_asn1_enc_oid+0xda>
  {
    base = plen;
    plen += p->len;
 8032d4e:	8944      	ldrh	r4, [r0, #10]
 8032d50:	192c      	adds	r4, r5, r4
 8032d52:	b2a4      	uxth	r4, r4
    if (ofs < plen)
 8032d54:	42a1      	cmp	r1, r4
 8032d56:	d261      	bcs.n	8032e1c <snmp_asn1_enc_oid+0xd6>
    {
      msg_ptr = (u8_t*)p->payload;
 8032d58:	6846      	ldr	r6, [r0, #4]
      msg_ptr += ofs - base;
 8032d5a:	1b4d      	subs	r5, r1, r5

      if (ident_len > 1)
 8032d5c:	2a01      	cmp	r2, #1
    base = plen;
    plen += p->len;
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;
 8032d5e:	eb06 0805 	add.w	r8, r6, r5

      if (ident_len > 1)
 8032d62:	d801      	bhi.n	8032d68 <snmp_asn1_enc_oid+0x22>
      }
      else
      {
/* @bug:  allow empty varbinds for symmetry (we must decode them for getnext), allow partial compression??  */
        /* ident_len <= 1, at least we need zeroDotZero (0.0) (ident_len == 2) */
        return ERR_ARG;
 8032d64:	20f2      	movs	r0, #242	; 0xf2
 8032d66:	e05e      	b.n	8032e26 <snmp_asn1_enc_oid+0xe0>
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;

      if (ident_len > 1)
      {
        if ((ident[0] == 1) && (ident[1] == 3))
 8032d68:	f8d3 c000 	ldr.w	ip, [r3]
 8032d6c:	f1bc 0f01 	cmp.w	ip, #1
 8032d70:	d105      	bne.n	8032d7e <snmp_asn1_enc_oid+0x38>
 8032d72:	685f      	ldr	r7, [r3, #4]
 8032d74:	2f03      	cmp	r7, #3
 8032d76:	d102      	bne.n	8032d7e <snmp_asn1_enc_oid+0x38>
        {
          /* compressed (most common) prefix .iso.org */
          *msg_ptr = 0x2b;
 8032d78:	272b      	movs	r7, #43	; 0x2b
 8032d7a:	5577      	strb	r7, [r6, r5]
 8032d7c:	e006      	b.n	8032d8c <snmp_asn1_enc_oid+0x46>
        }
        else
        {
          /* calculate prefix */
          *msg_ptr = (u8_t)((ident[0] * 40) + ident[1]);
 8032d7e:	685f      	ldr	r7, [r3, #4]
 8032d80:	f04f 0928 	mov.w	r9, #40	; 0x28
 8032d84:	fb09 7c0c 	mla	ip, r9, ip, r7
 8032d88:	f806 c005 	strb.w	ip, [r6, r5]
        }
        ofs += 1;
 8032d8c:	3101      	adds	r1, #1
 8032d8e:	b289      	uxth	r1, r1
        if (ofs >= plen)
 8032d90:	42a1      	cmp	r1, r4
 8032d92:	d307      	bcc.n	8032da4 <snmp_asn1_enc_oid+0x5e>
        {
          /* next octet in next pbuf */
          p = p->next;
 8032d94:	6800      	ldr	r0, [r0, #0]
          if (p == NULL) { return ERR_ARG; }
 8032d96:	2800      	cmp	r0, #0
 8032d98:	d0e4      	beq.n	8032d64 <snmp_asn1_enc_oid+0x1e>
          msg_ptr = (u8_t*)p->payload;
          plen += p->len;
 8032d9a:	8946      	ldrh	r6, [r0, #10]
        if (ofs >= plen)
        {
          /* next octet in next pbuf */
          p = p->next;
          if (p == NULL) { return ERR_ARG; }
          msg_ptr = (u8_t*)p->payload;
 8032d9c:	6845      	ldr	r5, [r0, #4]
          plen += p->len;
 8032d9e:	19a4      	adds	r4, r4, r6
 8032da0:	b2a4      	uxth	r4, r4
 8032da2:	e001      	b.n	8032da8 <snmp_asn1_enc_oid+0x62>
        }
        else
        {
          /* next octet in same pbuf */
          msg_ptr++;
 8032da4:	f108 0501 	add.w	r5, r8, #1
        }
        ident_len -= 2;
 8032da8:	3a02      	subs	r2, #2
 8032daa:	b2d2      	uxtb	r2, r2
 * @param ident_len object identifier array length
 * @param ident points to object identifier array
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 */
err_t
snmp_asn1_enc_oid(struct pbuf *p, u16_t ofs, u8_t ident_len, s32_t *ident)
 8032dac:	3304      	adds	r3, #4
      {
/* @bug:  allow empty varbinds for symmetry (we must decode them for getnext), allow partial compression??  */
        /* ident_len <= 1, at least we need zeroDotZero (0.0) (ident_len == 2) */
        return ERR_ARG;
      }
      while (ident_len > 0)
 8032dae:	e031      	b.n	8032e14 <snmp_asn1_enc_oid+0xce>
      {
        s32_t sub_id;
        u8_t shift, tail;

        ident_len--;
 8032db0:	3a01      	subs	r2, #1
        sub_id = *ident;
 8032db2:	f853 cf04 	ldr.w	ip, [r3, #4]!
      while (ident_len > 0)
      {
        s32_t sub_id;
        u8_t shift, tail;

        ident_len--;
 8032db6:	b2d2      	uxtb	r2, r2
        sub_id = *ident;
 8032db8:	261c      	movs	r6, #28
        tail = 0;
 8032dba:	2700      	movs	r7, #0
        shift = 28;
        while(shift > 0)
        {
          u8_t code;

          code = (u8_t)(sub_id >> shift);
 8032dbc:	fa4c f806 	asr.w	r8, ip, r6
          if ((code != 0) || (tail != 0))
 8032dc0:	f018 0fff 	tst.w	r8, #255	; 0xff
 8032dc4:	d100      	bne.n	8032dc8 <snmp_asn1_enc_oid+0x82>
 8032dc6:	b18f      	cbz	r7, 8032dec <snmp_asn1_enc_oid+0xa6>
          {
            tail = 1;
            *msg_ptr = code | 0x80;
            ofs += 1;
 8032dc8:	3101      	adds	r1, #1
 8032dca:	b289      	uxth	r1, r1

          code = (u8_t)(sub_id >> shift);
          if ((code != 0) || (tail != 0))
          {
            tail = 1;
            *msg_ptr = code | 0x80;
 8032dcc:	f048 0880 	orr.w	r8, r8, #128	; 0x80
            ofs += 1;
            if (ofs >= plen)
 8032dd0:	42a1      	cmp	r1, r4

          code = (u8_t)(sub_id >> shift);
          if ((code != 0) || (tail != 0))
          {
            tail = 1;
            *msg_ptr = code | 0x80;
 8032dd2:	f885 8000 	strb.w	r8, [r5]
            ofs += 1;
            if (ofs >= plen)
 8032dd6:	d307      	bcc.n	8032de8 <snmp_asn1_enc_oid+0xa2>
            {
              /* next octet in next pbuf */
              p = p->next;
 8032dd8:	6800      	ldr	r0, [r0, #0]
              if (p == NULL) { return ERR_ARG; }
 8032dda:	2800      	cmp	r0, #0
 8032ddc:	d0c2      	beq.n	8032d64 <snmp_asn1_enc_oid+0x1e>
              msg_ptr = (u8_t*)p->payload;
              plen += p->len;
 8032dde:	8947      	ldrh	r7, [r0, #10]
            if (ofs >= plen)
            {
              /* next octet in next pbuf */
              p = p->next;
              if (p == NULL) { return ERR_ARG; }
              msg_ptr = (u8_t*)p->payload;
 8032de0:	6845      	ldr	r5, [r0, #4]
              plen += p->len;
 8032de2:	19e4      	adds	r4, r4, r7
 8032de4:	b2a4      	uxth	r4, r4
 8032de6:	e000      	b.n	8032dea <snmp_asn1_enc_oid+0xa4>
            }
            else
            {
              /* next octet in same pbuf */
              msg_ptr++;
 8032de8:	3501      	adds	r5, #1
          u8_t code;

          code = (u8_t)(sub_id >> shift);
          if ((code != 0) || (tail != 0))
          {
            tail = 1;
 8032dea:	2701      	movs	r7, #1

        ident_len--;
        sub_id = *ident;
        tail = 0;
        shift = 28;
        while(shift > 0)
 8032dec:	3e07      	subs	r6, #7
 8032dee:	d1e5      	bne.n	8032dbc <snmp_asn1_enc_oid+0x76>
              msg_ptr++;
            }
          }
          shift -= 7;
        }
        *msg_ptr = (u8_t)sub_id & 0x7F;
 8032df0:	f00c 0c7f 	and.w	ip, ip, #127	; 0x7f
 8032df4:	f885 c000 	strb.w	ip, [r5]
        if (ident_len > 0)
 8032df8:	b172      	cbz	r2, 8032e18 <snmp_asn1_enc_oid+0xd2>
        {
          ofs += 1;
 8032dfa:	3101      	adds	r1, #1
 8032dfc:	b289      	uxth	r1, r1
          if (ofs >= plen)
 8032dfe:	42a1      	cmp	r1, r4
 8032e00:	d307      	bcc.n	8032e12 <snmp_asn1_enc_oid+0xcc>
          {
            /* next octet in next pbuf */
            p = p->next;
 8032e02:	6800      	ldr	r0, [r0, #0]
            if (p == NULL) { return ERR_ARG; }
 8032e04:	2800      	cmp	r0, #0
 8032e06:	d0ad      	beq.n	8032d64 <snmp_asn1_enc_oid+0x1e>
            msg_ptr = (u8_t*)p->payload;
            plen += p->len;
 8032e08:	8946      	ldrh	r6, [r0, #10]
          if (ofs >= plen)
          {
            /* next octet in next pbuf */
            p = p->next;
            if (p == NULL) { return ERR_ARG; }
            msg_ptr = (u8_t*)p->payload;
 8032e0a:	6845      	ldr	r5, [r0, #4]
            plen += p->len;
 8032e0c:	19a4      	adds	r4, r4, r6
 8032e0e:	b2a4      	uxth	r4, r4
 8032e10:	e000      	b.n	8032e14 <snmp_asn1_enc_oid+0xce>
          }
          else
          {
            /* next octet in same pbuf */
            msg_ptr++;
 8032e12:	3501      	adds	r5, #1
      {
/* @bug:  allow empty varbinds for symmetry (we must decode them for getnext), allow partial compression??  */
        /* ident_len <= 1, at least we need zeroDotZero (0.0) (ident_len == 2) */
        return ERR_ARG;
      }
      while (ident_len > 0)
 8032e14:	2a00      	cmp	r2, #0
 8032e16:	d1cb      	bne.n	8032db0 <snmp_asn1_enc_oid+0x6a>
          }
        }
        /* proceed to next sub-identifier */
        ident++;
      }
      return ERR_OK;
 8032e18:	2000      	movs	r0, #0
 8032e1a:	e004      	b.n	8032e26 <snmp_asn1_enc_oid+0xe0>
    }
    p = p->next;
 8032e1c:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 8032e1e:	4625      	mov	r5, r4
{
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
  while (p != NULL)
 8032e20:	2800      	cmp	r0, #0
 8032e22:	d194      	bne.n	8032d4e <snmp_asn1_enc_oid+0x8>
 8032e24:	e79e      	b.n	8032d64 <snmp_asn1_enc_oid+0x1e>
    }
    p = p->next;
  }
  /* p == NULL, ofs >= plen */
  return ERR_ARG;
}
 8032e26:	b240      	sxtb	r0, r0
 8032e28:	e8bd 83f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, pc}

08032e2c <snmp_asn1_enc_raw>:
 * @param raw points raw data
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 */
err_t
snmp_asn1_enc_raw(struct pbuf *p, u16_t ofs, u16_t raw_len, u8_t *raw)
{
 8032e2c:	b5f0      	push	{r4, r5, r6, r7, lr}
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
 8032e2e:	2600      	movs	r6, #0
  while (p != NULL)
 8032e30:	e025      	b.n	8032e7e <snmp_asn1_enc_raw+0x52>
  {
    base = plen;
    plen += p->len;
 8032e32:	8944      	ldrh	r4, [r0, #10]
 8032e34:	1934      	adds	r4, r6, r4
 8032e36:	b2a4      	uxth	r4, r4
    if (ofs < plen)
 8032e38:	42a1      	cmp	r1, r4
 8032e3a:	d21e      	bcs.n	8032e7a <snmp_asn1_enc_raw+0x4e>
    {
      msg_ptr = (u8_t*)p->payload;
 8032e3c:	6847      	ldr	r7, [r0, #4]
      msg_ptr += ofs - base;
 8032e3e:	1b8d      	subs	r5, r1, r6
 8032e40:	197d      	adds	r5, r7, r5
 * @param raw_len raw data length
 * @param raw points raw data
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 */
err_t
snmp_asn1_enc_raw(struct pbuf *p, u16_t ofs, u16_t raw_len, u8_t *raw)
 8032e42:	1851      	adds	r1, r2, r1
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;

      while (raw_len > 1)
 8032e44:	e012      	b.n	8032e6c <snmp_asn1_enc_raw+0x40>
      {
        /* copy raw_len - 1 octets */
        raw_len--;
 8032e46:	3a01      	subs	r2, #1
        *msg_ptr = *raw;
 8032e48:	f813 6b01 	ldrb.w	r6, [r3], #1
      msg_ptr += ofs - base;

      while (raw_len > 1)
      {
        /* copy raw_len - 1 octets */
        raw_len--;
 8032e4c:	b292      	uxth	r2, r2
        *msg_ptr = *raw;
 8032e4e:	702e      	strb	r6, [r5, #0]
 * @param raw_len raw data length
 * @param raw points raw data
 * @return ERR_OK if successfull, ERR_ARG if we can't (or won't) encode
 */
err_t
snmp_asn1_enc_raw(struct pbuf *p, u16_t ofs, u16_t raw_len, u8_t *raw)
 8032e50:	1a8e      	subs	r6, r1, r2
        /* copy raw_len - 1 octets */
        raw_len--;
        *msg_ptr = *raw;
        raw++;
        ofs += 1;
        if (ofs >= plen)
 8032e52:	b2b6      	uxth	r6, r6
 8032e54:	42a6      	cmp	r6, r4
 8032e56:	d308      	bcc.n	8032e6a <snmp_asn1_enc_raw+0x3e>
        {
          /* next octet in next pbuf */
          p = p->next;
 8032e58:	6800      	ldr	r0, [r0, #0]
          if (p == NULL) { return ERR_ARG; }
 8032e5a:	b908      	cbnz	r0, 8032e60 <snmp_asn1_enc_raw+0x34>
 8032e5c:	20f2      	movs	r0, #242	; 0xf2
 8032e5e:	e012      	b.n	8032e86 <snmp_asn1_enc_raw+0x5a>
          msg_ptr = (u8_t*)p->payload;
          plen += p->len;
 8032e60:	8946      	ldrh	r6, [r0, #10]
        if (ofs >= plen)
        {
          /* next octet in next pbuf */
          p = p->next;
          if (p == NULL) { return ERR_ARG; }
          msg_ptr = (u8_t*)p->payload;
 8032e62:	6845      	ldr	r5, [r0, #4]
          plen += p->len;
 8032e64:	19a4      	adds	r4, r4, r6
 8032e66:	b2a4      	uxth	r4, r4
 8032e68:	e000      	b.n	8032e6c <snmp_asn1_enc_raw+0x40>
        }
        else
        {
          /* next octet in same pbuf */
          msg_ptr++;
 8032e6a:	3501      	adds	r5, #1
    if (ofs < plen)
    {
      msg_ptr = (u8_t*)p->payload;
      msg_ptr += ofs - base;

      while (raw_len > 1)
 8032e6c:	2a01      	cmp	r2, #1
 8032e6e:	d8ea      	bhi.n	8032e46 <snmp_asn1_enc_raw+0x1a>
        {
          /* next octet in same pbuf */
          msg_ptr++;
        }
      }
      if (raw_len > 0)
 8032e70:	b142      	cbz	r2, 8032e84 <snmp_asn1_enc_raw+0x58>
      {
        /* copy last or single octet */
        *msg_ptr = *raw;
 8032e72:	781b      	ldrb	r3, [r3, #0]
      }
      return ERR_OK;
 8032e74:	2000      	movs	r0, #0
        }
      }
      if (raw_len > 0)
      {
        /* copy last or single octet */
        *msg_ptr = *raw;
 8032e76:	702b      	strb	r3, [r5, #0]
 8032e78:	e005      	b.n	8032e86 <snmp_asn1_enc_raw+0x5a>
      }
      return ERR_OK;
    }
    p = p->next;
 8032e7a:	6800      	ldr	r0, [r0, #0]

  plen = 0;
  while (p != NULL)
  {
    base = plen;
    plen += p->len;
 8032e7c:	4626      	mov	r6, r4
{
  u16_t plen, base;
  u8_t *msg_ptr;

  plen = 0;
  while (p != NULL)
 8032e7e:	2800      	cmp	r0, #0
 8032e80:	d1d7      	bne.n	8032e32 <snmp_asn1_enc_raw+0x6>
 8032e82:	e7eb      	b.n	8032e5c <snmp_asn1_enc_raw+0x30>
      if (raw_len > 0)
      {
        /* copy last or single octet */
        *msg_ptr = *raw;
      }
      return ERR_OK;
 8032e84:	4610      	mov	r0, r2
    }
    p = p->next;
  }
  /* p == NULL, ofs >= plen */
  return ERR_ARG;
}
 8032e86:	b240      	sxtb	r0, r0
 8032e88:	bdf0      	pop	{r4, r5, r6, r7, pc}

08032e8a <noleafs_get_object_def>:
void
noleafs_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  LWIP_UNUSED_ARG(ident_len);
  LWIP_UNUSED_ARG(ident);
  od->instance = MIB_OBJECT_NONE;
 8032e8a:	2300      	movs	r3, #0
 8032e8c:	7013      	strb	r3, [r2, #0]
 8032e8e:	4770      	bx	lr

08032e90 <noleafs_get_value>:
}

void
noleafs_get_value(struct obj_def *od, u16_t len, void *value)
{
 8032e90:	4770      	bx	lr

08032e92 <noleafs_set_test>:
  LWIP_UNUSED_ARG(od);
  LWIP_UNUSED_ARG(len);
  LWIP_UNUSED_ARG(value);
  /* can't set */
  return 0;
}
 8032e92:	2000      	movs	r0, #0
 8032e94:	4770      	bx	lr

08032e96 <noleafs_set_value>:

void
noleafs_set_value(struct obj_def *od, u16_t len, void *value)
{
 8032e96:	4770      	bx	lr

08032e98 <system_get_object_def>:
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 8032e98:	2801      	cmp	r0, #1
 8032e9a:	d145      	bne.n	8032f28 <system_get_object_def+0x90>
  {
    od->id_inst_len = ident_len;
 8032e9c:	2002      	movs	r0, #2
{
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
 8032e9e:	1f0b      	subs	r3, r1, #4
  if (ident_len == 2)
  {
    od->id_inst_len = ident_len;
 8032ea0:	7190      	strb	r0, [r2, #6]
    od->id_inst_ptr = ident;
 8032ea2:	6093      	str	r3, [r2, #8]

    LWIP_ASSERT("invalid id", (ident[0] >= 0) && (ident[0] <= 0xff));
    id = (u8_t)ident[0];
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("get_object_def system.%"U16_F".0\n",(u16_t)id));
    switch (id)
 8032ea4:	f811 3c04 	ldrb.w	r3, [r1, #-4]
 8032ea8:	3b01      	subs	r3, #1
 8032eaa:	2b06      	cmp	r3, #6
 8032eac:	d83c      	bhi.n	8032f28 <system_get_object_def+0x90>
 8032eae:	e8df f003 	tbb	[pc, r3]
 8032eb2:	0b04      	.short	0x0b04
 8032eb4:	2a221a14 	.word	0x2a221a14
 8032eb8:	34          	.byte	0x34
 8032eb9:	00          	.byte	0x00
    {
      case 1: /* sysDescr */
        od->instance = MIB_OBJECT_SCALAR;
 8032eba:	2301      	movs	r3, #1
 8032ebc:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8032ebe:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR);
 8032ec0:	2304      	movs	r3, #4
 8032ec2:	7093      	strb	r3, [r2, #2]
        od->v_len = *sysdescr_len_ptr;
 8032ec4:	4b1a      	ldr	r3, [pc, #104]	; (8032f30 <system_get_object_def+0x98>)
 8032ec6:	e025      	b.n	8032f14 <system_get_object_def+0x7c>
        break;
      case 2: /* sysObjectID */
        od->instance = MIB_OBJECT_SCALAR;
 8032ec8:	2301      	movs	r3, #1
 8032eca:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8032ecc:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID);
 8032ece:	2306      	movs	r3, #6
 8032ed0:	7093      	strb	r3, [r2, #2]
        od->v_len = sysobjid.len * sizeof(s32_t);
 8032ed2:	4b18      	ldr	r3, [pc, #96]	; (8032f34 <system_get_object_def+0x9c>)
 8032ed4:	781b      	ldrb	r3, [r3, #0]
 8032ed6:	009b      	lsls	r3, r3, #2
 8032ed8:	e024      	b.n	8032f24 <system_get_object_def+0x8c>
        break;
      case 3: /* sysUpTime */
        od->instance = MIB_OBJECT_SCALAR;
 8032eda:	2301      	movs	r3, #1
 8032edc:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8032ede:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_TIMETICKS);
 8032ee0:	2343      	movs	r3, #67	; 0x43
 8032ee2:	7093      	strb	r3, [r2, #2]
 8032ee4:	e01d      	b.n	8032f22 <system_get_object_def+0x8a>
        od->v_len = sizeof(u32_t);
        break;
      case 4: /* sysContact */
        od->instance = MIB_OBJECT_SCALAR;
 8032ee6:	2301      	movs	r3, #1
 8032ee8:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 8032eea:	2303      	movs	r3, #3
 8032eec:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR);
 8032eee:	2304      	movs	r3, #4
 8032ef0:	7093      	strb	r3, [r2, #2]
        od->v_len = *syscontact_len_ptr;
 8032ef2:	4b11      	ldr	r3, [pc, #68]	; (8032f38 <system_get_object_def+0xa0>)
 8032ef4:	e00e      	b.n	8032f14 <system_get_object_def+0x7c>
        break;
      case 5: /* sysName */
        od->instance = MIB_OBJECT_SCALAR;
 8032ef6:	2301      	movs	r3, #1
 8032ef8:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 8032efa:	2303      	movs	r3, #3
 8032efc:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR);
 8032efe:	2304      	movs	r3, #4
 8032f00:	7093      	strb	r3, [r2, #2]
        od->v_len = *sysname_len_ptr;
 8032f02:	4b0e      	ldr	r3, [pc, #56]	; (8032f3c <system_get_object_def+0xa4>)
 8032f04:	e006      	b.n	8032f14 <system_get_object_def+0x7c>
        break;
      case 6: /* sysLocation */
        od->instance = MIB_OBJECT_SCALAR;
 8032f06:	2301      	movs	r3, #1
 8032f08:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 8032f0a:	2303      	movs	r3, #3
 8032f0c:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR);
 8032f0e:	2304      	movs	r3, #4
 8032f10:	7093      	strb	r3, [r2, #2]
        od->v_len = *syslocation_len_ptr;
 8032f12:	4b0b      	ldr	r3, [pc, #44]	; (8032f40 <system_get_object_def+0xa8>)
 8032f14:	681b      	ldr	r3, [r3, #0]
 8032f16:	781b      	ldrb	r3, [r3, #0]
 8032f18:	e004      	b.n	8032f24 <system_get_object_def+0x8c>
        break;
      case 7: /* sysServices */
        od->instance = MIB_OBJECT_SCALAR;
 8032f1a:	2301      	movs	r3, #1
 8032f1c:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8032f1e:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
 8032f20:	7090      	strb	r0, [r2, #2]
        od->v_len = sizeof(s32_t);
 8032f22:	2304      	movs	r3, #4
 8032f24:	8093      	strh	r3, [r2, #4]
        break;
 8032f26:	4770      	bx	lr
    };
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("system_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 8032f28:	2300      	movs	r3, #0
 8032f2a:	7013      	strb	r3, [r2, #0]
 8032f2c:	4770      	bx	lr
 8032f2e:	bf00      	nop
 8032f30:	2000093c 	.word	0x2000093c
 8032f34:	200007ec 	.word	0x200007ec
 8032f38:	20000798 	.word	0x20000798
 8032f3c:	20000794 	.word	0x20000794
 8032f40:	20000980 	.word	0x20000980

08032f44 <interfaces_get_object_def>:
interfaces_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 8032f44:	2801      	cmp	r0, #1
 8032f46:	d109      	bne.n	8032f5c <interfaces_get_object_def+0x18>
  {
    od->id_inst_len = ident_len;
 8032f48:	2302      	movs	r3, #2
 8032f4a:	7193      	strb	r3, [r2, #6]
static void
interfaces_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
 8032f4c:	3904      	subs	r1, #4
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;

    od->instance = MIB_OBJECT_SCALAR;
    od->access = MIB_OBJECT_READ_ONLY;
    od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
 8032f4e:	7093      	strb	r3, [r2, #2]
    od->v_len = sizeof(s32_t);
 8032f50:	2304      	movs	r3, #4
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
  {
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;
 8032f52:	6091      	str	r1, [r2, #8]

    od->instance = MIB_OBJECT_SCALAR;
 8032f54:	7010      	strb	r0, [r2, #0]
    od->access = MIB_OBJECT_READ_ONLY;
 8032f56:	7050      	strb	r0, [r2, #1]
    od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
    od->v_len = sizeof(s32_t);
 8032f58:	8093      	strh	r3, [r2, #4]
 8032f5a:	4770      	bx	lr
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("interfaces_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 8032f5c:	2300      	movs	r3, #0
 8032f5e:	7013      	strb	r3, [r2, #0]
 8032f60:	4770      	bx	lr
 8032f62:	0000      	movs	r0, r0

08032f64 <interfaces_get_value>:
 */
static void
interfaces_get_value(struct obj_def *od, u16_t len, void *value)
{
  LWIP_UNUSED_ARG(len);
  if (od->id_inst_ptr[0] == 1)
 8032f64:	6883      	ldr	r3, [r0, #8]
 8032f66:	681b      	ldr	r3, [r3, #0]
 8032f68:	2b01      	cmp	r3, #1
 8032f6a:	d102      	bne.n	8032f72 <interfaces_get_value+0xe>
  {
    s32_t *sint_ptr = (s32_t*)value;
    *sint_ptr = iflist_root.count;
 8032f6c:	4b01      	ldr	r3, [pc, #4]	; (8032f74 <interfaces_get_value+0x10>)
 8032f6e:	8b9b      	ldrh	r3, [r3, #28]
 8032f70:	6013      	str	r3, [r2, #0]
 8032f72:	4770      	bx	lr
 8032f74:	200007cc 	.word	0x200007cc

08032f78 <ip_get_value>:
{
  u8_t id;

  LWIP_UNUSED_ARG(len);
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 8032f78:	6883      	ldr	r3, [r0, #8]
  switch (id)
 8032f7a:	781b      	ldrb	r3, [r3, #0]
 8032f7c:	3b01      	subs	r3, #1
 8032f7e:	2b16      	cmp	r3, #22
 8032f80:	d836      	bhi.n	8032ff0 <ip_get_value+0x78>
 8032f82:	e8df f003 	tbb	[pc, r3]
 8032f86:	0e0c      	.short	0x0e0c
 8032f88:	16141210 	.word	0x16141210
 8032f8c:	1e1c1a18 	.word	0x1e1c1a18
 8032f90:	26242220 	.word	0x26242220
 8032f94:	2e2c2a28 	.word	0x2e2c2a28
 8032f98:	35353530 	.word	0x35353530
 8032f9c:	32          	.byte	0x32
 8032f9d:	00          	.byte	0x00
#if IP_FORWARD
        /* forwarding */
        *sint_ptr = 1;
#else
        /* not-forwarding */
        *sint_ptr = 2;
 8032f9e:	2302      	movs	r3, #2
 8032fa0:	e025      	b.n	8032fee <ip_get_value+0x76>
      }
      break;
    case 2: /* ipDefaultTTL */
      {
        s32_t *sint_ptr = (s32_t*)value;
        *sint_ptr = IP_DEFAULT_TTL;
 8032fa2:	23ff      	movs	r3, #255	; 0xff
 8032fa4:	e023      	b.n	8032fee <ip_get_value+0x76>
      }
      break;
    case 3: /* ipInReceives */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipinreceives;
 8032fa6:	4b13      	ldr	r3, [pc, #76]	; (8032ff4 <ip_get_value+0x7c>)
 8032fa8:	e020      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 4: /* ipInHdrErrors */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipinhdrerrors;
 8032faa:	4b13      	ldr	r3, [pc, #76]	; (8032ff8 <ip_get_value+0x80>)
 8032fac:	e01e      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 5: /* ipInAddrErrors */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipinaddrerrors;
 8032fae:	4b13      	ldr	r3, [pc, #76]	; (8032ffc <ip_get_value+0x84>)
 8032fb0:	e01c      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 6: /* ipForwDatagrams */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipforwdatagrams;
 8032fb2:	4b13      	ldr	r3, [pc, #76]	; (8033000 <ip_get_value+0x88>)
 8032fb4:	e01a      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 7: /* ipInUnknownProtos */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipinunknownprotos;
 8032fb6:	4b13      	ldr	r3, [pc, #76]	; (8033004 <ip_get_value+0x8c>)
 8032fb8:	e018      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 8: /* ipInDiscards */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipindiscards;
 8032fba:	4b13      	ldr	r3, [pc, #76]	; (8033008 <ip_get_value+0x90>)
 8032fbc:	e016      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 9: /* ipInDelivers */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipindelivers;
 8032fbe:	4b13      	ldr	r3, [pc, #76]	; (803300c <ip_get_value+0x94>)
 8032fc0:	e014      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 10: /* ipOutRequests */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipoutrequests;
 8032fc2:	4b13      	ldr	r3, [pc, #76]	; (8033010 <ip_get_value+0x98>)
 8032fc4:	e012      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 11: /* ipOutDiscards */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipoutdiscards;
 8032fc6:	4b13      	ldr	r3, [pc, #76]	; (8033014 <ip_get_value+0x9c>)
 8032fc8:	e010      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 12: /* ipOutNoRoutes */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipoutnoroutes;
 8032fca:	4b13      	ldr	r3, [pc, #76]	; (8033018 <ip_get_value+0xa0>)
 8032fcc:	e00e      	b.n	8032fec <ip_get_value+0x74>
      {
        s32_t *sint_ptr = (s32_t*)value;
#if IP_REASSEMBLY
        *sint_ptr = IP_REASS_MAXAGE;
#else
        *sint_ptr = 0;
 8032fce:	2300      	movs	r3, #0
 8032fd0:	e00d      	b.n	8032fee <ip_get_value+0x76>
      }
      break;
    case 14: /* ipReasmReqds */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipreasmreqds;
 8032fd2:	4b12      	ldr	r3, [pc, #72]	; (803301c <ip_get_value+0xa4>)
 8032fd4:	e00a      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 15: /* ipReasmOKs */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipreasmoks;
 8032fd6:	4b12      	ldr	r3, [pc, #72]	; (8033020 <ip_get_value+0xa8>)
 8032fd8:	e008      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 16: /* ipReasmFails */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipreasmfails;
 8032fda:	4b12      	ldr	r3, [pc, #72]	; (8033024 <ip_get_value+0xac>)
 8032fdc:	e006      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 17: /* ipFragOKs */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipfragoks;
 8032fde:	4b12      	ldr	r3, [pc, #72]	; (8033028 <ip_get_value+0xb0>)
 8032fe0:	e004      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 18: /* ipFragFails */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipfragfails;
 8032fe2:	4b12      	ldr	r3, [pc, #72]	; (803302c <ip_get_value+0xb4>)
 8032fe4:	e002      	b.n	8032fec <ip_get_value+0x74>
      }
      break;
    case 19: /* ipFragCreates */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = ipfragcreates;
 8032fe6:	4b12      	ldr	r3, [pc, #72]	; (8033030 <ip_get_value+0xb8>)
 8032fe8:	e000      	b.n	8032fec <ip_get_value+0x74>
      break;
    case 23: /* ipRoutingDiscards */
      /** @todo can lwIP discard routes at all?? hardwire this to 0?? */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = iproutingdiscards;
 8032fea:	4b12      	ldr	r3, [pc, #72]	; (8033034 <ip_get_value+0xbc>)
 8032fec:	681b      	ldr	r3, [r3, #0]
 8032fee:	6013      	str	r3, [r2, #0]
 8032ff0:	4770      	bx	lr
 8032ff2:	bf00      	nop
 8032ff4:	2000c4d8 	.word	0x2000c4d8
 8032ff8:	2000c460 	.word	0x2000c460
 8032ffc:	2000c444 	.word	0x2000c444
 8033000:	2000c560 	.word	0x2000c560
 8033004:	2000c4a0 	.word	0x2000c4a0
 8033008:	2000c52c 	.word	0x2000c52c
 803300c:	2000c564 	.word	0x2000c564
 8033010:	2000c54c 	.word	0x2000c54c
 8033014:	2000c4f0 	.word	0x2000c4f0
 8033018:	2000c570 	.word	0x2000c570
 803301c:	2000c4c0 	.word	0x2000c4c0
 8033020:	2000c46c 	.word	0x2000c46c
 8033024:	2000c520 	.word	0x2000c520
 8033028:	2000c430 	.word	0x2000c430
 803302c:	2000c49c 	.word	0x2000c49c
 8033030:	2000c53c 	.word	0x2000c53c
 8033034:	2000c528 	.word	0x2000c528

08033038 <ip_set_test>:
  s32_t *sint_ptr = (s32_t*)value;

  LWIP_UNUSED_ARG(len);
  set_ok = 0;
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 8033038:	6883      	ldr	r3, [r0, #8]
  switch (id)
 803303a:	781b      	ldrb	r3, [r3, #0]
 803303c:	2b01      	cmp	r3, #1
 803303e:	d002      	beq.n	8033046 <ip_set_test+0xe>
 8033040:	2b02      	cmp	r3, #2
 8033042:	d109      	bne.n	8033058 <ip_set_test+0x20>
 8033044:	e002      	b.n	803304c <ip_set_test+0x14>
#if IP_FORWARD
      /* forwarding */
      if (*sint_ptr == 1)
#else
      /* not-forwarding */
      if (*sint_ptr == 2)
 8033046:	6810      	ldr	r0, [r2, #0]
{
  u8_t id, set_ok;
  s32_t *sint_ptr = (s32_t*)value;

  LWIP_UNUSED_ARG(len);
  set_ok = 0;
 8033048:	2802      	cmp	r0, #2
 803304a:	e001      	b.n	8033050 <ip_set_test+0x18>
      {
        set_ok = 1;
      }
      break;
    case 2: /* ipDefaultTTL */
      if (*sint_ptr == IP_DEFAULT_TTL)
 803304c:	6810      	ldr	r0, [r2, #0]
{
  u8_t id, set_ok;
  s32_t *sint_ptr = (s32_t*)value;

  LWIP_UNUSED_ARG(len);
  set_ok = 0;
 803304e:	28ff      	cmp	r0, #255	; 0xff
 8033050:	bf14      	ite	ne
 8033052:	2000      	movne	r0, #0
 8033054:	2001      	moveq	r0, #1
 8033056:	4770      	bx	lr
 8033058:	2000      	movs	r0, #0
        set_ok = 1;
      }
      break;
  };
  return set_ok;
}
 803305a:	4770      	bx	lr

0803305c <ip_rteentry_get_object_def>:

  /* return to object name, adding index depth (4) */
  ident_len += 4;
  ident -= 4;

  if (ident_len == 5)
 803305c:	2801      	cmp	r0, #1
 803305e:	d12c      	bne.n	80330ba <ip_rteentry_get_object_def+0x5e>
  {
    od->id_inst_len = ident_len;
 8033060:	2305      	movs	r3, #5
 8033062:	7193      	strb	r3, [r2, #6]
{
  u8_t id;

  /* return to object name, adding index depth (4) */
  ident_len += 4;
  ident -= 4;
 8033064:	f1a1 0310 	sub.w	r3, r1, #16

  if (ident_len == 5)
  {
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;
 8033068:	6093      	str	r3, [r2, #8]

    LWIP_ASSERT("invalid id", (ident[0] >= 0) && (ident[0] <= 0xff));
    id = (u8_t)ident[0];
    switch (id)
 803306a:	f811 3c10 	ldrb.w	r3, [r1, #-16]
 803306e:	3b01      	subs	r3, #1
 8033070:	2b0c      	cmp	r3, #12
 8033072:	d822      	bhi.n	80330ba <ip_rteentry_get_object_def+0x5e>
 8033074:	e8df f003 	tbb	[pc, r3]
 8033078:	0d0d0d07 	.word	0x0d0d0d07
 803307c:	0d070d0d 	.word	0x0d070d0d
 8033080:	0d070d11 	.word	0x0d070d11
 8033084:	18          	.byte	0x18
 8033085:	00          	.byte	0x00
    {
      case 1: /* ipRouteDest */
      case 7: /* ipRouteNextHop */
      case 11: /* ipRouteMask */
        od->instance = MIB_OBJECT_TAB;
 8033086:	2302      	movs	r3, #2
 8033088:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 803308a:	2303      	movs	r3, #3
 803308c:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR);
 803308e:	2340      	movs	r3, #64	; 0x40
 8033090:	e007      	b.n	80330a2 <ip_rteentry_get_object_def+0x46>
      case 5: /* ipRouteMetric3 */
      case 6: /* ipRouteMetric4 */
      case 8: /* ipRouteType */
      case 10: /* ipRouteAge */
      case 12: /* ipRouteMetric5 */
        od->instance = MIB_OBJECT_TAB;
 8033092:	2302      	movs	r3, #2
 8033094:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 8033096:	2103      	movs	r1, #3
 8033098:	e002      	b.n	80330a0 <ip_rteentry_get_object_def+0x44>
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
        od->v_len = sizeof(s32_t);
        break;
      case 9: /* ipRouteProto */
        od->instance = MIB_OBJECT_TAB;
 803309a:	2302      	movs	r3, #2
 803309c:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 803309e:	2101      	movs	r1, #1
 80330a0:	7051      	strb	r1, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
 80330a2:	7093      	strb	r3, [r2, #2]
        od->v_len = sizeof(s32_t);
 80330a4:	2304      	movs	r3, #4
 80330a6:	e006      	b.n	80330b6 <ip_rteentry_get_object_def+0x5a>
        break;
      case 13: /* ipRouteInfo */
        /** @note returning zeroDotZero (0.0) no routing protocol specific MIB */
        od->instance = MIB_OBJECT_TAB;
 80330a8:	2302      	movs	r3, #2
 80330aa:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 80330ac:	2301      	movs	r3, #1
 80330ae:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID);
 80330b0:	2306      	movs	r3, #6
 80330b2:	7093      	strb	r3, [r2, #2]
        od->v_len = iprouteinfo.len * sizeof(s32_t);
 80330b4:	2308      	movs	r3, #8
 80330b6:	8093      	strh	r3, [r2, #4]
        break;
 80330b8:	4770      	bx	lr
    }
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("ip_rteentry_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 80330ba:	2300      	movs	r3, #0
 80330bc:	7013      	strb	r3, [r2, #0]
 80330be:	4770      	bx	lr

080330c0 <icmp_get_object_def>:
icmp_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if ((ident_len == 2) &&
 80330c0:	2801      	cmp	r0, #1
 80330c2:	d110      	bne.n	80330e6 <icmp_get_object_def+0x26>
      (ident[0] > 0) && (ident[0] < 27))
 80330c4:	f851 3c04 	ldr.w	r3, [r1, #-4]
icmp_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if ((ident_len == 2) &&
 80330c8:	2b00      	cmp	r3, #0
 80330ca:	dd0c      	ble.n	80330e6 <icmp_get_object_def+0x26>
      (ident[0] > 0) && (ident[0] < 27))
 80330cc:	2b1a      	cmp	r3, #26
 80330ce:	dc0a      	bgt.n	80330e6 <icmp_get_object_def+0x26>
  {
    od->id_inst_len = ident_len;
 80330d0:	2302      	movs	r3, #2
 80330d2:	7193      	strb	r3, [r2, #6]
    od->id_inst_ptr = ident;

    od->instance = MIB_OBJECT_SCALAR;
    od->access = MIB_OBJECT_READ_ONLY;
    od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
 80330d4:	2341      	movs	r3, #65	; 0x41
static void
icmp_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
 80330d6:	3904      	subs	r1, #4
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;

    od->instance = MIB_OBJECT_SCALAR;
    od->access = MIB_OBJECT_READ_ONLY;
    od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
 80330d8:	7093      	strb	r3, [r2, #2]
    od->v_len = sizeof(u32_t);
 80330da:	2304      	movs	r3, #4
  ident -= 1;
  if ((ident_len == 2) &&
      (ident[0] > 0) && (ident[0] < 27))
  {
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;
 80330dc:	6091      	str	r1, [r2, #8]

    od->instance = MIB_OBJECT_SCALAR;
 80330de:	7010      	strb	r0, [r2, #0]
    od->access = MIB_OBJECT_READ_ONLY;
 80330e0:	7050      	strb	r0, [r2, #1]
    od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
    od->v_len = sizeof(u32_t);
 80330e2:	8093      	strh	r3, [r2, #4]
 80330e4:	4770      	bx	lr
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("icmp_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 80330e6:	2300      	movs	r3, #0
 80330e8:	7013      	strb	r3, [r2, #0]
 80330ea:	4770      	bx	lr

080330ec <icmp_get_value>:
  u32_t *uint_ptr = (u32_t*)value;
  u8_t id;

  LWIP_UNUSED_ARG(len);
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 80330ec:	6883      	ldr	r3, [r0, #8]
  switch (id)
 80330ee:	781b      	ldrb	r3, [r3, #0]
 80330f0:	3b01      	subs	r3, #1
 80330f2:	2b19      	cmp	r3, #25
 80330f4:	d843      	bhi.n	803317e <icmp_get_value+0x92>
 80330f6:	e8df f003 	tbb	[pc, r3]
 80330fa:	0f0d      	.short	0x0f0d
 80330fc:	17151311 	.word	0x17151311
 8033100:	1f1d1b19 	.word	0x1f1d1b19
 8033104:	27252321 	.word	0x27252321
 8033108:	2f2d2b29 	.word	0x2f2d2b29
 803310c:	37353331 	.word	0x37353331
 8033110:	3f3d3b39 	.word	0x3f3d3b39
  {
    case 1: /* icmpInMsgs */
      *uint_ptr = icmpinmsgs;
 8033114:	4b1a      	ldr	r3, [pc, #104]	; (8033180 <icmp_get_value+0x94>)
 8033116:	e030      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 2: /* icmpInErrors */
      *uint_ptr = icmpinerrors;
 8033118:	4b1a      	ldr	r3, [pc, #104]	; (8033184 <icmp_get_value+0x98>)
 803311a:	e02e      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 3: /* icmpInDestUnreachs */
      *uint_ptr = icmpindestunreachs;
 803311c:	4b1a      	ldr	r3, [pc, #104]	; (8033188 <icmp_get_value+0x9c>)
 803311e:	e02c      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 4: /* icmpInTimeExcds */
      *uint_ptr = icmpintimeexcds;
 8033120:	4b1a      	ldr	r3, [pc, #104]	; (803318c <icmp_get_value+0xa0>)
 8033122:	e02a      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 5: /* icmpInParmProbs */
      *uint_ptr = icmpinparmprobs;
 8033124:	4b1a      	ldr	r3, [pc, #104]	; (8033190 <icmp_get_value+0xa4>)
 8033126:	e028      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 6: /* icmpInSrcQuenchs */
      *uint_ptr = icmpinsrcquenchs;
 8033128:	4b1a      	ldr	r3, [pc, #104]	; (8033194 <icmp_get_value+0xa8>)
 803312a:	e026      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 7: /* icmpInRedirects */
      *uint_ptr = icmpinredirects;
 803312c:	4b1a      	ldr	r3, [pc, #104]	; (8033198 <icmp_get_value+0xac>)
 803312e:	e024      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 8: /* icmpInEchos */
      *uint_ptr = icmpinechos;
 8033130:	4b1a      	ldr	r3, [pc, #104]	; (803319c <icmp_get_value+0xb0>)
 8033132:	e022      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 9: /* icmpInEchoReps */
      *uint_ptr = icmpinechoreps;
 8033134:	4b1a      	ldr	r3, [pc, #104]	; (80331a0 <icmp_get_value+0xb4>)
 8033136:	e020      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 10: /* icmpInTimestamps */
      *uint_ptr = icmpintimestamps;
 8033138:	4b1a      	ldr	r3, [pc, #104]	; (80331a4 <icmp_get_value+0xb8>)
 803313a:	e01e      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 11: /* icmpInTimestampReps */
      *uint_ptr = icmpintimestampreps;
 803313c:	4b1a      	ldr	r3, [pc, #104]	; (80331a8 <icmp_get_value+0xbc>)
 803313e:	e01c      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 12: /* icmpInAddrMasks */
      *uint_ptr = icmpinaddrmasks;
 8033140:	4b1a      	ldr	r3, [pc, #104]	; (80331ac <icmp_get_value+0xc0>)
 8033142:	e01a      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 13: /* icmpInAddrMaskReps */
      *uint_ptr = icmpinaddrmaskreps;
 8033144:	4b1a      	ldr	r3, [pc, #104]	; (80331b0 <icmp_get_value+0xc4>)
 8033146:	e018      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 14: /* icmpOutMsgs */
      *uint_ptr = icmpoutmsgs;
 8033148:	4b1a      	ldr	r3, [pc, #104]	; (80331b4 <icmp_get_value+0xc8>)
 803314a:	e016      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 15: /* icmpOutErrors */
      *uint_ptr = icmpouterrors;
 803314c:	4b1a      	ldr	r3, [pc, #104]	; (80331b8 <icmp_get_value+0xcc>)
 803314e:	e014      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 16: /* icmpOutDestUnreachs */
      *uint_ptr = icmpoutdestunreachs;
 8033150:	4b1a      	ldr	r3, [pc, #104]	; (80331bc <icmp_get_value+0xd0>)
 8033152:	e012      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 17: /* icmpOutTimeExcds */
      *uint_ptr = icmpouttimeexcds;
 8033154:	4b1a      	ldr	r3, [pc, #104]	; (80331c0 <icmp_get_value+0xd4>)
 8033156:	e010      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 18: /* icmpOutParmProbs */
      *uint_ptr = icmpoutparmprobs;
 8033158:	4b1a      	ldr	r3, [pc, #104]	; (80331c4 <icmp_get_value+0xd8>)
 803315a:	e00e      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 19: /* icmpOutSrcQuenchs */
      *uint_ptr = icmpoutsrcquenchs;
 803315c:	4b1a      	ldr	r3, [pc, #104]	; (80331c8 <icmp_get_value+0xdc>)
 803315e:	e00c      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 20: /* icmpOutRedirects */
      *uint_ptr = icmpoutredirects;
 8033160:	4b1a      	ldr	r3, [pc, #104]	; (80331cc <icmp_get_value+0xe0>)
 8033162:	e00a      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 21: /* icmpOutEchos */
      *uint_ptr = icmpoutechos;
 8033164:	4b1a      	ldr	r3, [pc, #104]	; (80331d0 <icmp_get_value+0xe4>)
 8033166:	e008      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 22: /* icmpOutEchoReps */
      *uint_ptr = icmpoutechoreps;
 8033168:	4b1a      	ldr	r3, [pc, #104]	; (80331d4 <icmp_get_value+0xe8>)
 803316a:	e006      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 23: /* icmpOutTimestamps */
      *uint_ptr = icmpouttimestamps;
 803316c:	4b1a      	ldr	r3, [pc, #104]	; (80331d8 <icmp_get_value+0xec>)
 803316e:	e004      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 24: /* icmpOutTimestampReps */
      *uint_ptr = icmpouttimestampreps;
 8033170:	4b1a      	ldr	r3, [pc, #104]	; (80331dc <icmp_get_value+0xf0>)
 8033172:	e002      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 25: /* icmpOutAddrMasks */
      *uint_ptr = icmpoutaddrmasks;
 8033174:	4b1a      	ldr	r3, [pc, #104]	; (80331e0 <icmp_get_value+0xf4>)
 8033176:	e000      	b.n	803317a <icmp_get_value+0x8e>
      break;
    case 26: /* icmpOutAddrMaskReps */
      *uint_ptr = icmpoutaddrmaskreps;
 8033178:	4b1a      	ldr	r3, [pc, #104]	; (80331e4 <icmp_get_value+0xf8>)
 803317a:	681b      	ldr	r3, [r3, #0]
 803317c:	6013      	str	r3, [r2, #0]
 803317e:	4770      	bx	lr
 8033180:	2000c468 	.word	0x2000c468
 8033184:	2000c464 	.word	0x2000c464
 8033188:	2000c440 	.word	0x2000c440
 803318c:	2000c524 	.word	0x2000c524
 8033190:	2000c558 	.word	0x2000c558
 8033194:	2000c450 	.word	0x2000c450
 8033198:	2000c47c 	.word	0x2000c47c
 803319c:	2000c51c 	.word	0x2000c51c
 80331a0:	2000c494 	.word	0x2000c494
 80331a4:	2000c484 	.word	0x2000c484
 80331a8:	2000c4c4 	.word	0x2000c4c4
 80331ac:	2000c55c 	.word	0x2000c55c
 80331b0:	2000c4f8 	.word	0x2000c4f8
 80331b4:	2000c4e8 	.word	0x2000c4e8
 80331b8:	2000c56c 	.word	0x2000c56c
 80331bc:	2000c500 	.word	0x2000c500
 80331c0:	2000c4b4 	.word	0x2000c4b4
 80331c4:	2000c478 	.word	0x2000c478
 80331c8:	2000c4cc 	.word	0x2000c4cc
 80331cc:	2000c488 	.word	0x2000c488
 80331d0:	2000c568 	.word	0x2000c568
 80331d4:	2000c508 	.word	0x2000c508
 80331d8:	2000c4d4 	.word	0x2000c4d4
 80331dc:	2000c4b8 	.word	0x2000c4b8
 80331e0:	2000c480 	.word	0x2000c480
 80331e4:	2000c4e0 	.word	0x2000c4e0

080331e8 <tcp_get_value>:
  s32_t *sint_ptr = (s32_t*)value;
  u8_t id;

  LWIP_UNUSED_ARG(len);
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 80331e8:	6883      	ldr	r3, [r0, #8]
  switch (id)
 80331ea:	781b      	ldrb	r3, [r3, #0]
 80331ec:	3b01      	subs	r3, #1
 80331ee:	2b0e      	cmp	r3, #14
 80331f0:	d836      	bhi.n	8033260 <tcp_get_value+0x78>
 80331f2:	e8df f003 	tbb	[pc, r3]
 80331f6:	0a08      	.short	0x0a08
 80331f8:	1412100d 	.word	0x1412100d
 80331fc:	2a1a1816 	.word	0x2a1a1816
 8033200:	30352e2c 	.word	0x30352e2c
 8033204:	32          	.byte	0x32
 8033205:	00          	.byte	0x00
  {
    case 1: /* tcpRtoAlgorithm, vanj(4) */
      *sint_ptr = 4;
 8033206:	2304      	movs	r3, #4
 8033208:	e029      	b.n	803325e <tcp_get_value+0x76>
      break;
    case 2: /* tcpRtoMin */
      /* @todo not the actual value, a guess,
          needs to be calculated */
      *sint_ptr = 1000;
 803320a:	f44f 737a 	mov.w	r3, #1000	; 0x3e8
 803320e:	e026      	b.n	803325e <tcp_get_value+0x76>
      break;
    case 3: /* tcpRtoMax */
      /* @todo not the actual value, a guess,
         needs to be calculated */
      *sint_ptr = 60000;
 8033210:	f64e 2360 	movw	r3, #60000	; 0xea60
 8033214:	e023      	b.n	803325e <tcp_get_value+0x76>
      break;
    case 4: /* tcpMaxConn */
      *sint_ptr = MEMP_NUM_TCP_PCB;
 8033216:	230c      	movs	r3, #12
 8033218:	e021      	b.n	803325e <tcp_get_value+0x76>
      break;
    case 5: /* tcpActiveOpens */
      *uint_ptr = tcpactiveopens;
 803321a:	4b12      	ldr	r3, [pc, #72]	; (8033264 <tcp_get_value+0x7c>)
 803321c:	e01e      	b.n	803325c <tcp_get_value+0x74>
      break;
    case 6: /* tcpPassiveOpens */
      *uint_ptr = tcppassiveopens;
 803321e:	4b12      	ldr	r3, [pc, #72]	; (8033268 <tcp_get_value+0x80>)
 8033220:	e01c      	b.n	803325c <tcp_get_value+0x74>
      break;
    case 7: /* tcpAttemptFails */
      *uint_ptr = tcpattemptfails;
 8033222:	4b12      	ldr	r3, [pc, #72]	; (803326c <tcp_get_value+0x84>)
 8033224:	e01a      	b.n	803325c <tcp_get_value+0x74>
      break;
    case 8: /* tcpEstabResets */
      *uint_ptr = tcpestabresets;
 8033226:	4b12      	ldr	r3, [pc, #72]	; (8033270 <tcp_get_value+0x88>)
 8033228:	e018      	b.n	803325c <tcp_get_value+0x74>
      break;
    case 9: /* tcpCurrEstab */
      {
        u16_t tcpcurrestab = 0;
        struct tcp_pcb *pcb = tcp_active_pcbs;
 803322a:	4b12      	ldr	r3, [pc, #72]	; (8033274 <tcp_get_value+0x8c>)
    case 8: /* tcpEstabResets */
      *uint_ptr = tcpestabresets;
      break;
    case 9: /* tcpCurrEstab */
      {
        u16_t tcpcurrestab = 0;
 803322c:	2100      	movs	r1, #0
        struct tcp_pcb *pcb = tcp_active_pcbs;
 803322e:	681b      	ldr	r3, [r3, #0]
        while (pcb != NULL)
 8033230:	e007      	b.n	8033242 <tcp_get_value+0x5a>
        {
          if ((pcb->state == ESTABLISHED) ||
 8033232:	7e18      	ldrb	r0, [r3, #24]
 8033234:	2804      	cmp	r0, #4
 8033236:	d001      	beq.n	803323c <tcp_get_value+0x54>
 8033238:	2807      	cmp	r0, #7
 803323a:	d101      	bne.n	8033240 <tcp_get_value+0x58>
              (pcb->state == CLOSE_WAIT))
          {
            tcpcurrestab++;
 803323c:	3101      	adds	r1, #1
 803323e:	b289      	uxth	r1, r1
          }
          pcb = pcb->next;
 8033240:	68db      	ldr	r3, [r3, #12]
      break;
    case 9: /* tcpCurrEstab */
      {
        u16_t tcpcurrestab = 0;
        struct tcp_pcb *pcb = tcp_active_pcbs;
        while (pcb != NULL)
 8033242:	2b00      	cmp	r3, #0
 8033244:	d1f5      	bne.n	8033232 <tcp_get_value+0x4a>
          {
            tcpcurrestab++;
          }
          pcb = pcb->next;
        }
        *uint_ptr = tcpcurrestab;
 8033246:	6011      	str	r1, [r2, #0]
      }
      break;
 8033248:	4770      	bx	lr
    case 10: /* tcpInSegs */
      *uint_ptr = tcpinsegs;
 803324a:	4b0b      	ldr	r3, [pc, #44]	; (8033278 <tcp_get_value+0x90>)
 803324c:	e006      	b.n	803325c <tcp_get_value+0x74>
      break;
    case 11: /* tcpOutSegs */
      *uint_ptr = tcpoutsegs;
 803324e:	4b0b      	ldr	r3, [pc, #44]	; (803327c <tcp_get_value+0x94>)
 8033250:	e004      	b.n	803325c <tcp_get_value+0x74>
      break;
    case 12: /* tcpRetransSegs */
      *uint_ptr = tcpretranssegs;
 8033252:	4b0b      	ldr	r3, [pc, #44]	; (8033280 <tcp_get_value+0x98>)
 8033254:	e002      	b.n	803325c <tcp_get_value+0x74>
      break;
    case 14: /* tcpInErrs */
      *uint_ptr = tcpinerrs;
 8033256:	4b0b      	ldr	r3, [pc, #44]	; (8033284 <tcp_get_value+0x9c>)
 8033258:	e000      	b.n	803325c <tcp_get_value+0x74>
      break;
    case 15: /* tcpOutRsts */
      *uint_ptr = tcpoutrsts;
 803325a:	4b0b      	ldr	r3, [pc, #44]	; (8033288 <tcp_get_value+0xa0>)
 803325c:	681b      	ldr	r3, [r3, #0]
 803325e:	6013      	str	r3, [r2, #0]
 8033260:	4770      	bx	lr
 8033262:	bf00      	nop
 8033264:	2000c45c 	.word	0x2000c45c
 8033268:	2000c490 	.word	0x2000c490
 803326c:	2000c4dc 	.word	0x2000c4dc
 8033270:	2000c470 	.word	0x2000c470
 8033274:	2000f6ac 	.word	0x2000f6ac
 8033278:	2000c4ec 	.word	0x2000c4ec
 803327c:	2000c538 	.word	0x2000c538
 8033280:	2000c50c 	.word	0x2000c50c
 8033284:	2000c498 	.word	0x2000c498
 8033288:	2000c4fc 	.word	0x2000c4fc

0803328c <udp_get_object_def>:
udp_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if ((ident_len == 2) &&
 803328c:	2801      	cmp	r0, #1
 803328e:	d110      	bne.n	80332b2 <udp_get_object_def+0x26>
      (ident[0] > 0) && (ident[0] < 6))
 8033290:	f851 3c04 	ldr.w	r3, [r1, #-4]
udp_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if ((ident_len == 2) &&
 8033294:	2b00      	cmp	r3, #0
 8033296:	dd0c      	ble.n	80332b2 <udp_get_object_def+0x26>
      (ident[0] > 0) && (ident[0] < 6))
 8033298:	2b05      	cmp	r3, #5
 803329a:	dc0a      	bgt.n	80332b2 <udp_get_object_def+0x26>
  {
    od->id_inst_len = ident_len;
 803329c:	2302      	movs	r3, #2
 803329e:	7193      	strb	r3, [r2, #6]
    od->id_inst_ptr = ident;

    od->instance = MIB_OBJECT_SCALAR;
    od->access = MIB_OBJECT_READ_ONLY;
    od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
 80332a0:	2341      	movs	r3, #65	; 0x41
static void
udp_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
 80332a2:	3904      	subs	r1, #4
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;

    od->instance = MIB_OBJECT_SCALAR;
    od->access = MIB_OBJECT_READ_ONLY;
    od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
 80332a4:	7093      	strb	r3, [r2, #2]
    od->v_len = sizeof(u32_t);
 80332a6:	2304      	movs	r3, #4
  ident -= 1;
  if ((ident_len == 2) &&
      (ident[0] > 0) && (ident[0] < 6))
  {
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;
 80332a8:	6091      	str	r1, [r2, #8]

    od->instance = MIB_OBJECT_SCALAR;
 80332aa:	7010      	strb	r0, [r2, #0]
    od->access = MIB_OBJECT_READ_ONLY;
 80332ac:	7050      	strb	r0, [r2, #1]
    od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
    od->v_len = sizeof(u32_t);
 80332ae:	8093      	strh	r3, [r2, #4]
 80332b0:	4770      	bx	lr
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("udp_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 80332b2:	2300      	movs	r3, #0
 80332b4:	7013      	strb	r3, [r2, #0]
 80332b6:	4770      	bx	lr

080332b8 <udp_get_value>:
  u32_t *uint_ptr = (u32_t*)value;
  u8_t id;

  LWIP_UNUSED_ARG(len);
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 80332b8:	6883      	ldr	r3, [r0, #8]
  switch (id)
 80332ba:	781b      	ldrb	r3, [r3, #0]
 80332bc:	3b01      	subs	r3, #1
 80332be:	2b03      	cmp	r3, #3
 80332c0:	d80c      	bhi.n	80332dc <udp_get_value+0x24>
 80332c2:	e8df f003 	tbb	[pc, r3]
 80332c6:	0402      	.short	0x0402
 80332c8:	0806      	.short	0x0806
  {
    case 1: /* udpInDatagrams */
      *uint_ptr = udpindatagrams;
 80332ca:	4b05      	ldr	r3, [pc, #20]	; (80332e0 <udp_get_value+0x28>)
 80332cc:	e004      	b.n	80332d8 <udp_get_value+0x20>
      break;
    case 2: /* udpNoPorts */
      *uint_ptr = udpnoports;
 80332ce:	4b05      	ldr	r3, [pc, #20]	; (80332e4 <udp_get_value+0x2c>)
 80332d0:	e002      	b.n	80332d8 <udp_get_value+0x20>
      break;
    case 3: /* udpInErrors */
      *uint_ptr = udpinerrors;
 80332d2:	4b05      	ldr	r3, [pc, #20]	; (80332e8 <udp_get_value+0x30>)
 80332d4:	e000      	b.n	80332d8 <udp_get_value+0x20>
      break;
    case 4: /* udpOutDatagrams */
      *uint_ptr = udpoutdatagrams;
 80332d6:	4b05      	ldr	r3, [pc, #20]	; (80332ec <udp_get_value+0x34>)
 80332d8:	681b      	ldr	r3, [r3, #0]
 80332da:	6013      	str	r3, [r2, #0]
 80332dc:	4770      	bx	lr
 80332de:	bf00      	nop
 80332e0:	2000c518 	.word	0x2000c518
 80332e4:	2000c4d0 	.word	0x2000c4d0
 80332e8:	2000c540 	.word	0x2000c540
 80332ec:	2000c4c8 	.word	0x2000c4c8

080332f0 <snmp_get_value>:
  u32_t *uint_ptr = (u32_t*)value;
  u8_t id;

  LWIP_UNUSED_ARG(len);
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 80332f0:	6883      	ldr	r3, [r0, #8]
  switch (id)
 80332f2:	781b      	ldrb	r3, [r3, #0]
 80332f4:	3b01      	subs	r3, #1
 80332f6:	2b1d      	cmp	r3, #29
 80332f8:	d84b      	bhi.n	8033392 <snmp_get_value+0xa2>
 80332fa:	e8df f003 	tbb	[pc, r3]
 80332fe:	110f      	.short	0x110f
 8033300:	19171513 	.word	0x19171513
 8033304:	1f1d1b4a 	.word	0x1f1d1b4a
 8033308:	27252321 	.word	0x27252321
 803330c:	2f2d2b29 	.word	0x2f2d2b29
 8033310:	37353331 	.word	0x37353331
 8033314:	3d3b394a 	.word	0x3d3b394a
 8033318:	4643413f 	.word	0x4643413f
  {
      case 1: /* snmpInPkts */
        *uint_ptr = snmpinpkts;
 803331c:	4b1d      	ldr	r3, [pc, #116]	; (8033394 <snmp_get_value+0xa4>)
 803331e:	e032      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 2: /* snmpOutPkts */
        *uint_ptr = snmpoutpkts;
 8033320:	4b1d      	ldr	r3, [pc, #116]	; (8033398 <snmp_get_value+0xa8>)
 8033322:	e030      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 3: /* snmpInBadVersions */
        *uint_ptr = snmpinbadversions;
 8033324:	4b1d      	ldr	r3, [pc, #116]	; (803339c <snmp_get_value+0xac>)
 8033326:	e02e      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 4: /* snmpInBadCommunityNames */
        *uint_ptr = snmpinbadcommunitynames;
 8033328:	4b1d      	ldr	r3, [pc, #116]	; (80333a0 <snmp_get_value+0xb0>)
 803332a:	e02c      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 5: /* snmpInBadCommunityUses */
        *uint_ptr = snmpinbadcommunityuses;
 803332c:	4b1d      	ldr	r3, [pc, #116]	; (80333a4 <snmp_get_value+0xb4>)
 803332e:	e02a      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 6: /* snmpInASNParseErrs */
        *uint_ptr = snmpinasnparseerrs;
 8033330:	4b1d      	ldr	r3, [pc, #116]	; (80333a8 <snmp_get_value+0xb8>)
 8033332:	e028      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 8: /* snmpInTooBigs */
        *uint_ptr = snmpintoobigs;
 8033334:	4b1d      	ldr	r3, [pc, #116]	; (80333ac <snmp_get_value+0xbc>)
 8033336:	e026      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 9: /* snmpInNoSuchNames */
        *uint_ptr = snmpinnosuchnames;
 8033338:	4b1d      	ldr	r3, [pc, #116]	; (80333b0 <snmp_get_value+0xc0>)
 803333a:	e024      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 10: /* snmpInBadValues */
        *uint_ptr = snmpinbadvalues;
 803333c:	4b1d      	ldr	r3, [pc, #116]	; (80333b4 <snmp_get_value+0xc4>)
 803333e:	e022      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 11: /* snmpInReadOnlys */
        *uint_ptr = snmpinreadonlys;
 8033340:	4b1d      	ldr	r3, [pc, #116]	; (80333b8 <snmp_get_value+0xc8>)
 8033342:	e020      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 12: /* snmpInGenErrs */
        *uint_ptr = snmpingenerrs;
 8033344:	4b1d      	ldr	r3, [pc, #116]	; (80333bc <snmp_get_value+0xcc>)
 8033346:	e01e      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 13: /* snmpInTotalReqVars */
        *uint_ptr = snmpintotalreqvars;
 8033348:	4b1d      	ldr	r3, [pc, #116]	; (80333c0 <snmp_get_value+0xd0>)
 803334a:	e01c      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 14: /* snmpInTotalSetVars */
        *uint_ptr = snmpintotalsetvars;
 803334c:	4b1d      	ldr	r3, [pc, #116]	; (80333c4 <snmp_get_value+0xd4>)
 803334e:	e01a      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 15: /* snmpInGetRequests */
        *uint_ptr = snmpingetrequests;
 8033350:	4b1d      	ldr	r3, [pc, #116]	; (80333c8 <snmp_get_value+0xd8>)
 8033352:	e018      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 16: /* snmpInGetNexts */
        *uint_ptr = snmpingetnexts;
 8033354:	4b1d      	ldr	r3, [pc, #116]	; (80333cc <snmp_get_value+0xdc>)
 8033356:	e016      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 17: /* snmpInSetRequests */
        *uint_ptr = snmpinsetrequests;
 8033358:	4b1d      	ldr	r3, [pc, #116]	; (80333d0 <snmp_get_value+0xe0>)
 803335a:	e014      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 18: /* snmpInGetResponses */
        *uint_ptr = snmpingetresponses;
 803335c:	4b1d      	ldr	r3, [pc, #116]	; (80333d4 <snmp_get_value+0xe4>)
 803335e:	e012      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 19: /* snmpInTraps */
        *uint_ptr = snmpintraps;
 8033360:	4b1d      	ldr	r3, [pc, #116]	; (80333d8 <snmp_get_value+0xe8>)
 8033362:	e010      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 20: /* snmpOutTooBigs */
        *uint_ptr = snmpouttoobigs;
 8033364:	4b1d      	ldr	r3, [pc, #116]	; (80333dc <snmp_get_value+0xec>)
 8033366:	e00e      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 21: /* snmpOutNoSuchNames */
        *uint_ptr = snmpoutnosuchnames;
 8033368:	4b1d      	ldr	r3, [pc, #116]	; (80333e0 <snmp_get_value+0xf0>)
 803336a:	e00c      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 22: /* snmpOutBadValues */
        *uint_ptr = snmpoutbadvalues;
 803336c:	4b1d      	ldr	r3, [pc, #116]	; (80333e4 <snmp_get_value+0xf4>)
 803336e:	e00a      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 24: /* snmpOutGenErrs */
        *uint_ptr = snmpoutgenerrs;
 8033370:	4b1d      	ldr	r3, [pc, #116]	; (80333e8 <snmp_get_value+0xf8>)
 8033372:	e008      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 25: /* snmpOutGetRequests */
        *uint_ptr = snmpoutgetrequests;
 8033374:	4b1d      	ldr	r3, [pc, #116]	; (80333ec <snmp_get_value+0xfc>)
 8033376:	e006      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 26: /* snmpOutGetNexts */
        *uint_ptr = snmpoutgetnexts;
 8033378:	4b1d      	ldr	r3, [pc, #116]	; (80333f0 <snmp_get_value+0x100>)
 803337a:	e004      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 27: /* snmpOutSetRequests */
        *uint_ptr = snmpoutsetrequests;
 803337c:	4b1d      	ldr	r3, [pc, #116]	; (80333f4 <snmp_get_value+0x104>)
 803337e:	e002      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 28: /* snmpOutGetResponses */
        *uint_ptr = snmpoutgetresponses;
 8033380:	4b1d      	ldr	r3, [pc, #116]	; (80333f8 <snmp_get_value+0x108>)
 8033382:	e000      	b.n	8033386 <snmp_get_value+0x96>
        break;
      case 29: /* snmpOutTraps */
        *uint_ptr = snmpouttraps;
 8033384:	4b1d      	ldr	r3, [pc, #116]	; (80333fc <snmp_get_value+0x10c>)
 8033386:	681b      	ldr	r3, [r3, #0]
 8033388:	e002      	b.n	8033390 <snmp_get_value+0xa0>
        break;
      case 30: /* snmpEnableAuthenTraps */
        *uint_ptr = *snmpenableauthentraps_ptr;
 803338a:	4b1d      	ldr	r3, [pc, #116]	; (8033400 <snmp_get_value+0x110>)
 803338c:	681b      	ldr	r3, [r3, #0]
 803338e:	781b      	ldrb	r3, [r3, #0]
 8033390:	6013      	str	r3, [r2, #0]
 8033392:	4770      	bx	lr
 8033394:	2000c474 	.word	0x2000c474
 8033398:	2000c544 	.word	0x2000c544
 803339c:	2000c530 	.word	0x2000c530
 80333a0:	2000c448 	.word	0x2000c448
 80333a4:	2000c44c 	.word	0x2000c44c
 80333a8:	2000c534 	.word	0x2000c534
 80333ac:	2000c4f4 	.word	0x2000c4f4
 80333b0:	2000c574 	.word	0x2000c574
 80333b4:	2000c510 	.word	0x2000c510
 80333b8:	2000c4e4 	.word	0x2000c4e4
 80333bc:	2000c4bc 	.word	0x2000c4bc
 80333c0:	2000c514 	.word	0x2000c514
 80333c4:	2000c454 	.word	0x2000c454
 80333c8:	2000c4a8 	.word	0x2000c4a8
 80333cc:	2000c42c 	.word	0x2000c42c
 80333d0:	2000c550 	.word	0x2000c550
 80333d4:	2000c4a4 	.word	0x2000c4a4
 80333d8:	2000c43c 	.word	0x2000c43c
 80333dc:	2000c48c 	.word	0x2000c48c
 80333e0:	2000c458 	.word	0x2000c458
 80333e4:	2000c438 	.word	0x2000c438
 80333e8:	2000c578 	.word	0x2000c578
 80333ec:	2000c4b0 	.word	0x2000c4b0
 80333f0:	2000c548 	.word	0x2000c548
 80333f4:	2000c554 	.word	0x2000c554
 80333f8:	2000c434 	.word	0x2000c434
 80333fc:	2000c4ac 	.word	0x2000c4ac
 8033400:	20000898 	.word	0x20000898

08033404 <snmp_set_value>:
{
  u8_t id;

  LWIP_UNUSED_ARG(len);
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 8033404:	6883      	ldr	r3, [r0, #8]
  if (id == 30)
 8033406:	781b      	ldrb	r3, [r3, #0]
 8033408:	2b1e      	cmp	r3, #30
 803340a:	d103      	bne.n	8033414 <snmp_set_value+0x10>
  {
    /* snmpEnableAuthenTraps */
    /* @todo @fixme: which kind of pointer is 'value'? s32_t or u8_t??? */
    u8_t *ptr = (u8_t*)value;
    *snmpenableauthentraps_ptr = *ptr;
 803340c:	4b02      	ldr	r3, [pc, #8]	; (8033418 <snmp_set_value+0x14>)
 803340e:	7812      	ldrb	r2, [r2, #0]
 8033410:	681b      	ldr	r3, [r3, #0]
 8033412:	701a      	strb	r2, [r3, #0]
 8033414:	4770      	bx	lr
 8033416:	bf00      	nop
 8033418:	20000898 	.word	0x20000898

0803341c <ifentry_get_object_def>:
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 803341c:	2801      	cmp	r0, #1
 * @param ident points to objectname.index
 * @param od points to object definition.
 */
static void
ifentry_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
 803341e:	b513      	push	{r0, r1, r4, lr}
 8033420:	4614      	mov	r4, r2
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 8033422:	d149      	bne.n	80334b8 <ifentry_get_object_def+0x9c>
  {
    od->id_inst_len = ident_len;
 8033424:	2302      	movs	r3, #2
 8033426:	7193      	strb	r3, [r2, #6]
{
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
 8033428:	1f0a      	subs	r2, r1, #4
  if (ident_len == 2)
  {
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;
 803342a:	60a2      	str	r2, [r4, #8]

    LWIP_ASSERT("invalid id", (ident[0] >= 0) && (ident[0] <= 0xff));
    id = (u8_t)ident[0];
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("get_object_def ifentry.%"U16_F"\n",(u16_t)id));
    switch (id)
 803342c:	f811 2c04 	ldrb.w	r2, [r1, #-4]
 8033430:	3a01      	subs	r2, #1
 8033432:	2a15      	cmp	r2, #21
 8033434:	d840      	bhi.n	80334b8 <ifentry_get_object_def+0x9c>
 8033436:	e8df f002 	tbb	[pc, r2]
 803343a:	0e0b      	.short	0x0e0b
 803343c:	19140b0b 	.word	0x19140b0b
 8033440:	302b0b27 	.word	0x302b0b27
 8033444:	30303030 	.word	0x30303030
 8033448:	30303030 	.word	0x30303030
 803344c:	37143030 	.word	0x37143030
    {
      case 1: /* ifIndex */
      case 3: /* ifType */
      case 4: /* ifMtu */
      case 8: /* ifOperStatus */
        od->instance = MIB_OBJECT_TAB;
 8033450:	7023      	strb	r3, [r4, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8033452:	2201      	movs	r2, #1
 8033454:	e01a      	b.n	803348c <ifentry_get_object_def+0x70>
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
        od->v_len = sizeof(s32_t);
        break;
      case 2: /* ifDescr */
        od->instance = MIB_OBJECT_TAB;
        od->access = MIB_OBJECT_READ_ONLY;
 8033456:	2201      	movs	r2, #1
 8033458:	7062      	strb	r2, [r4, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR);
 803345a:	2204      	movs	r2, #4
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
        od->v_len = sizeof(s32_t);
        break;
      case 2: /* ifDescr */
        od->instance = MIB_OBJECT_TAB;
 803345c:	7023      	strb	r3, [r4, #0]
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR);
 803345e:	70a2      	strb	r2, [r4, #2]
 8033460:	e028      	b.n	80334b4 <ifentry_get_object_def+0x98>
        /** @todo this should be some sort of sizeof(struct netif.name) */
        od->v_len = 2;
        break;
      case 5: /* ifSpeed */
      case 21: /* ifOutQLen */
        od->instance = MIB_OBJECT_TAB;
 8033462:	7023      	strb	r3, [r4, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8033464:	2301      	movs	r3, #1
 8033466:	7063      	strb	r3, [r4, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_GAUGE);
 8033468:	2342      	movs	r3, #66	; 0x42
 803346a:	e01a      	b.n	80334a2 <ifentry_get_object_def+0x86>
        break;
      case 6: /* ifPhysAddress */
        {
          struct netif *netif;

          snmp_ifindextonetif(ident[1], &netif);
 803346c:	6808      	ldr	r0, [r1, #0]
 803346e:	a901      	add	r1, sp, #4
 8033470:	f001 f81c 	bl	80344ac <snmp_ifindextonetif>
          od->instance = MIB_OBJECT_TAB;
 8033474:	2302      	movs	r3, #2
 8033476:	7023      	strb	r3, [r4, #0]
          od->access = MIB_OBJECT_READ_ONLY;
 8033478:	2301      	movs	r3, #1
 803347a:	7063      	strb	r3, [r4, #1]
          od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR);
 803347c:	2304      	movs	r3, #4
 803347e:	70a3      	strb	r3, [r4, #2]
          od->v_len = netif->hwaddr_len;
 8033480:	9b01      	ldr	r3, [sp, #4]
 8033482:	f893 3026 	ldrb.w	r3, [r3, #38]	; 0x26
 8033486:	e015      	b.n	80334b4 <ifentry_get_object_def+0x98>
        }
        break;
      case 7: /* ifAdminStatus */
        od->instance = MIB_OBJECT_TAB;
 8033488:	7023      	strb	r3, [r4, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 803348a:	2203      	movs	r2, #3
 803348c:	7062      	strb	r2, [r4, #1]
 803348e:	e008      	b.n	80334a2 <ifentry_get_object_def+0x86>
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
        od->v_len = sizeof(s32_t);
        break;
      case 9: /* ifLastChange */
        od->instance = MIB_OBJECT_TAB;
 8033490:	7023      	strb	r3, [r4, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8033492:	2301      	movs	r3, #1
 8033494:	7063      	strb	r3, [r4, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_TIMETICKS);
 8033496:	2343      	movs	r3, #67	; 0x43
 8033498:	e003      	b.n	80334a2 <ifentry_get_object_def+0x86>
      case 16: /* ifOutOctets */
      case 17: /* ifOutUcastPkts */
      case 18: /* ifOutNUcastPkts */
      case 19: /* ifOutDiscarts */
      case 20: /* ifOutErrors */
        od->instance = MIB_OBJECT_TAB;
 803349a:	7023      	strb	r3, [r4, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 803349c:	2301      	movs	r3, #1
 803349e:	7063      	strb	r3, [r4, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
 80334a0:	2341      	movs	r3, #65	; 0x41
 80334a2:	70a3      	strb	r3, [r4, #2]
        od->v_len = sizeof(u32_t);
 80334a4:	2304      	movs	r3, #4
 80334a6:	e005      	b.n	80334b4 <ifentry_get_object_def+0x98>
        break;
      case 22: /* ifSpecific */
        /** @note returning zeroDotZero (0.0) no media specific MIB support */
        od->instance = MIB_OBJECT_TAB;
 80334a8:	7023      	strb	r3, [r4, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 80334aa:	2301      	movs	r3, #1
 80334ac:	7063      	strb	r3, [r4, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID);
 80334ae:	2306      	movs	r3, #6
 80334b0:	70a3      	strb	r3, [r4, #2]
        od->v_len = ifspecific.len * sizeof(s32_t);
 80334b2:	2308      	movs	r3, #8
 80334b4:	80a3      	strh	r3, [r4, #4]
        break;
 80334b6:	e001      	b.n	80334bc <ifentry_get_object_def+0xa0>
    };
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("ifentry_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 80334b8:	2300      	movs	r3, #0
 80334ba:	7023      	strb	r3, [r4, #0]
  }
}
 80334bc:	bd1c      	pop	{r2, r3, r4, pc}
 80334be:	0000      	movs	r0, r0

080334c0 <udpentry_get_value>:
  }
}

static void
udpentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 80334c0:	b537      	push	{r0, r1, r2, r4, r5, lr}
 80334c2:	4604      	mov	r4, r0
  struct udp_pcb *pcb;
  ip_addr_t ip;
  u16_t port;

  LWIP_UNUSED_ARG(len);
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
 80334c4:	6880      	ldr	r0, [r0, #8]
 80334c6:	a901      	add	r1, sp, #4
 80334c8:	3004      	adds	r0, #4
  }
}

static void
udpentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 80334ca:	4615      	mov	r5, r2
  struct udp_pcb *pcb;
  ip_addr_t ip;
  u16_t port;

  LWIP_UNUSED_ARG(len);
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
 80334cc:	f001 f80c 	bl	80344e8 <snmp_oidtoip>
  LWIP_ASSERT("invalid port", (od->id_inst_ptr[5] >= 0) && (od->id_inst_ptr[5] <= 0xffff));
  port = (u16_t)od->id_inst_ptr[5];
 80334d0:	68a1      	ldr	r1, [r4, #8]

  pcb = udp_pcbs;
 80334d2:	4b0c      	ldr	r3, [pc, #48]	; (8033504 <udpentry_get_value+0x44>)
  u16_t port;

  LWIP_UNUSED_ARG(len);
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
  LWIP_ASSERT("invalid port", (od->id_inst_ptr[5] >= 0) && (od->id_inst_ptr[5] <= 0xffff));
  port = (u16_t)od->id_inst_ptr[5];
 80334d4:	8a8a      	ldrh	r2, [r1, #20]

  pcb = udp_pcbs;
 80334d6:	681b      	ldr	r3, [r3, #0]
  while ((pcb != NULL) &&
         !(ip_addr_cmp(&pcb->local_ip, &ip) &&
 80334d8:	9801      	ldr	r0, [sp, #4]
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
  LWIP_ASSERT("invalid port", (od->id_inst_ptr[5] >= 0) && (od->id_inst_ptr[5] <= 0xffff));
  port = (u16_t)od->id_inst_ptr[5];

  pcb = udp_pcbs;
  while ((pcb != NULL) &&
 80334da:	e000      	b.n	80334de <udpentry_get_value+0x1e>
         !(ip_addr_cmp(&pcb->local_ip, &ip) &&
           (pcb->local_port == port)))
  {
    pcb = pcb->next;
 80334dc:	68db      	ldr	r3, [r3, #12]
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
  LWIP_ASSERT("invalid port", (od->id_inst_ptr[5] >= 0) && (od->id_inst_ptr[5] <= 0xffff));
  port = (u16_t)od->id_inst_ptr[5];

  pcb = udp_pcbs;
  while ((pcb != NULL) &&
 80334de:	b17b      	cbz	r3, 8033500 <udpentry_get_value+0x40>
 80334e0:	681c      	ldr	r4, [r3, #0]
 80334e2:	4284      	cmp	r4, r0
 80334e4:	d1fa      	bne.n	80334dc <udpentry_get_value+0x1c>
         !(ip_addr_cmp(&pcb->local_ip, &ip) &&
           (pcb->local_port == port)))
 80334e6:	8a5c      	ldrh	r4, [r3, #18]
  LWIP_ASSERT("invalid port", (od->id_inst_ptr[5] >= 0) && (od->id_inst_ptr[5] <= 0xffff));
  port = (u16_t)od->id_inst_ptr[5];

  pcb = udp_pcbs;
  while ((pcb != NULL) &&
         !(ip_addr_cmp(&pcb->local_ip, &ip) &&
 80334e8:	4294      	cmp	r4, r2
 80334ea:	d1f7      	bne.n	80334dc <udpentry_get_value+0x1c>
 80334ec:	e003      	b.n	80334f6 <udpentry_get_value+0x36>
    switch (id)
    {
      case 1: /* udpLocalAddress */
        {
          ip_addr_t *dst = (ip_addr_t*)value;
          *dst = pcb->local_ip;
 80334ee:	6028      	str	r0, [r5, #0]
        }
        break;
 80334f0:	e006      	b.n	8033500 <udpentry_get_value+0x40>
      case 2: /* udpLocalPort */
        {
          s32_t *sint_ptr = (s32_t*)value;
          *sint_ptr = pcb->local_port;
 80334f2:	602a      	str	r2, [r5, #0]
        }
        break;
 80334f4:	e004      	b.n	8033500 <udpentry_get_value+0x40>

  if (pcb != NULL)
  {
    LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
    id = (u8_t)od->id_inst_ptr[0];
    switch (id)
 80334f6:	780b      	ldrb	r3, [r1, #0]
 80334f8:	2b01      	cmp	r3, #1
 80334fa:	d0f8      	beq.n	80334ee <udpentry_get_value+0x2e>
 80334fc:	2b02      	cmp	r3, #2
 80334fe:	d0f8      	beq.n	80334f2 <udpentry_get_value+0x32>
          *sint_ptr = pcb->local_port;
        }
        break;
    }
  }
}
 8033500:	bd3e      	pop	{r1, r2, r3, r4, r5, pc}
 8033502:	bf00      	nop
 8033504:	2000f6c8 	.word	0x2000f6c8

08033508 <ip_addrentry_get_value>:
  }
}

static void
ip_addrentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033508:	b573      	push	{r0, r1, r4, r5, r6, lr}
 803350a:	4606      	mov	r6, r0
  u16_t ifidx;
  ip_addr_t ip;
  struct netif *netif = netif_list;

  LWIP_UNUSED_ARG(len);
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
 803350c:	6880      	ldr	r0, [r0, #8]
ip_addrentry_get_value(struct obj_def *od, u16_t len, void *value)
{
  u8_t id;
  u16_t ifidx;
  ip_addr_t ip;
  struct netif *netif = netif_list;
 803350e:	4b18      	ldr	r3, [pc, #96]	; (8033570 <ip_addrentry_get_value+0x68>)

  LWIP_UNUSED_ARG(len);
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
 8033510:	a901      	add	r1, sp, #4
 8033512:	3004      	adds	r0, #4
ip_addrentry_get_value(struct obj_def *od, u16_t len, void *value)
{
  u8_t id;
  u16_t ifidx;
  ip_addr_t ip;
  struct netif *netif = netif_list;
 8033514:	681c      	ldr	r4, [r3, #0]
  }
}

static void
ip_addrentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033516:	4615      	mov	r5, r2
  u16_t ifidx;
  ip_addr_t ip;
  struct netif *netif = netif_list;

  LWIP_UNUSED_ARG(len);
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
 8033518:	f000 ffe6 	bl	80344e8 <snmp_oidtoip>
  ifidx = 0;
  while ((netif != NULL) && !ip_addr_cmp(&ip, &netif->ip_addr))
 803351c:	9901      	ldr	r1, [sp, #4]
  ip_addr_t ip;
  struct netif *netif = netif_list;

  LWIP_UNUSED_ARG(len);
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
  ifidx = 0;
 803351e:	2300      	movs	r3, #0
  while ((netif != NULL) && !ip_addr_cmp(&ip, &netif->ip_addr))
 8033520:	e002      	b.n	8033528 <ip_addrentry_get_value+0x20>
  {
    netif = netif->next;
    ifidx++;
 8033522:	3301      	adds	r3, #1
  LWIP_UNUSED_ARG(len);
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
  ifidx = 0;
  while ((netif != NULL) && !ip_addr_cmp(&ip, &netif->ip_addr))
  {
    netif = netif->next;
 8033524:	6824      	ldr	r4, [r4, #0]
    ifidx++;
 8033526:	b29b      	uxth	r3, r3
  struct netif *netif = netif_list;

  LWIP_UNUSED_ARG(len);
  snmp_oidtoip(&od->id_inst_ptr[1], &ip);
  ifidx = 0;
  while ((netif != NULL) && !ip_addr_cmp(&ip, &netif->ip_addr))
 8033528:	b304      	cbz	r4, 803356c <ip_addrentry_get_value+0x64>
 803352a:	6862      	ldr	r2, [r4, #4]
 803352c:	4291      	cmp	r1, r2
 803352e:	d1f8      	bne.n	8033522 <ip_addrentry_get_value+0x1a>
 8033530:	e00a      	b.n	8033548 <ip_addrentry_get_value+0x40>
    switch (id)
    {
      case 1: /* ipAdEntAddr */
        {
          ip_addr_t *dst = (ip_addr_t*)value;
          *dst = netif->ip_addr;
 8033532:	6863      	ldr	r3, [r4, #4]
 8033534:	e006      	b.n	8033544 <ip_addrentry_get_value+0x3c>
        }
        break;
      case 2: /* ipAdEntIfIndex */
        {
          s32_t *sint_ptr = (s32_t*)value;
          *sint_ptr = ifidx + 1;
 8033536:	3301      	adds	r3, #1
 8033538:	e004      	b.n	8033544 <ip_addrentry_get_value+0x3c>
        }
        break;
      case 3: /* ipAdEntNetMask */
        {
          ip_addr_t *dst = (ip_addr_t*)value;
          *dst = netif->netmask;
 803353a:	68a3      	ldr	r3, [r4, #8]
 803353c:	e002      	b.n	8033544 <ip_addrentry_get_value+0x3c>
        {
          s32_t *sint_ptr = (s32_t*)value;

          /* lwIP oddity, there's no broadcast
            address in the netif we can rely on */
          *sint_ptr = IPADDR_BROADCAST & 1;
 803353e:	2301      	movs	r3, #1
 8033540:	e000      	b.n	8033544 <ip_addrentry_get_value+0x3c>
          *sint_ptr = (IP_HLEN + ((IP_REASS_MAX_PBUFS/2) *
            (PBUF_POOL_BUFSIZE - PBUF_LINK_HLEN - IP_HLEN)));
#else
          /** @todo returning MTU would be a bad thing and
             returning a wild guess like '576' isn't good either */
          *sint_ptr = 0;
 8033542:	2300      	movs	r3, #0
 8033544:	602b      	str	r3, [r5, #0]
#endif
        }
        break;
 8033546:	e011      	b.n	803356c <ip_addrentry_get_value+0x64>
  }

  if (netif != NULL)
  {
    LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
    id = (u8_t)od->id_inst_ptr[0];
 8033548:	68b2      	ldr	r2, [r6, #8]
    switch (id)
 803354a:	7812      	ldrb	r2, [r2, #0]
 803354c:	3a01      	subs	r2, #1
 803354e:	2a04      	cmp	r2, #4
 8033550:	d80c      	bhi.n	803356c <ip_addrentry_get_value+0x64>
 8033552:	a101      	add	r1, pc, #4	; (adr r1, 8033558 <ip_addrentry_get_value+0x50>)
 8033554:	f851 f022 	ldr.w	pc, [r1, r2, lsl #2]
 8033558:	08033533 	.word	0x08033533
 803355c:	08033537 	.word	0x08033537
 8033560:	0803353b 	.word	0x0803353b
 8033564:	0803353f 	.word	0x0803353f
 8033568:	08033543 	.word	0x08033543
#endif
        }
        break;
    }
  }
}
 803356c:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}
 803356e:	bf00      	nop
 8033570:	2000f6a0 	.word	0x2000f6a0

08033574 <ip_ntomentry_get_value>:
  }
}

static void
ip_ntomentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033574:	b530      	push	{r4, r5, lr}
  struct netif *netif;

  LWIP_UNUSED_ARG(len);
  LWIP_UNUSED_ARG(value);/* if !LWIP_ARP */

  snmp_ifindextonetif(od->id_inst_ptr[1], &netif);
 8033576:	6883      	ldr	r3, [r0, #8]
  }
}

static void
ip_ntomentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033578:	b085      	sub	sp, #20
 803357a:	4605      	mov	r5, r0
  struct netif *netif;

  LWIP_UNUSED_ARG(len);
  LWIP_UNUSED_ARG(value);/* if !LWIP_ARP */

  snmp_ifindextonetif(od->id_inst_ptr[1], &netif);
 803357c:	a903      	add	r1, sp, #12
 803357e:	6858      	ldr	r0, [r3, #4]
  }
}

static void
ip_ntomentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033580:	4614      	mov	r4, r2
  struct netif *netif;

  LWIP_UNUSED_ARG(len);
  LWIP_UNUSED_ARG(value);/* if !LWIP_ARP */

  snmp_ifindextonetif(od->id_inst_ptr[1], &netif);
 8033582:	f000 ff93 	bl	80344ac <snmp_ifindextonetif>
  snmp_oidtoip(&od->id_inst_ptr[2], &ip);
 8033586:	68a8      	ldr	r0, [r5, #8]
 8033588:	a902      	add	r1, sp, #8
 803358a:	3008      	adds	r0, #8
 803358c:	f000 ffac 	bl	80344e8 <snmp_oidtoip>

#if LWIP_ARP /** @todo implement a netif_find_addr */
  if (etharp_find_addr(netif, &ip, &ethaddr_ret, &ipaddr_ret) > -1)
 8033590:	9803      	ldr	r0, [sp, #12]
 8033592:	a902      	add	r1, sp, #8
 8033594:	466a      	mov	r2, sp
 8033596:	ab01      	add	r3, sp, #4
 8033598:	f002 ffea 	bl	8036570 <etharp_find_addr>
 803359c:	2800      	cmp	r0, #0
 803359e:	db15      	blt.n	80335cc <ip_ntomentry_get_value+0x58>
  {
    LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
    id = (u8_t)od->id_inst_ptr[0];
 80335a0:	68ab      	ldr	r3, [r5, #8]
    switch (id)
 80335a2:	781a      	ldrb	r2, [r3, #0]
 80335a4:	3a01      	subs	r2, #1
 80335a6:	2a03      	cmp	r2, #3
 80335a8:	d810      	bhi.n	80335cc <ip_ntomentry_get_value+0x58>
 80335aa:	e8df f002 	tbb	[pc, r2]
 80335ae:	0402      	.short	0x0402
 80335b0:	0d0a      	.short	0x0d0a
    {
      case 1: /* ipNetToMediaIfIndex */
        {
          s32_t *sint_ptr = (s32_t*)value;
          *sint_ptr = od->id_inst_ptr[1];
 80335b2:	685b      	ldr	r3, [r3, #4]
 80335b4:	e009      	b.n	80335ca <ip_ntomentry_get_value+0x56>
        break;
      case 2: /* ipNetToMediaPhysAddress */
        {
          struct eth_addr *dst = (struct eth_addr*)value;

          *dst = *ethaddr_ret;
 80335b6:	9b00      	ldr	r3, [sp, #0]
 80335b8:	681a      	ldr	r2, [r3, #0]
 80335ba:	6022      	str	r2, [r4, #0]
 80335bc:	889b      	ldrh	r3, [r3, #4]
 80335be:	80a3      	strh	r3, [r4, #4]
        }
        break;
 80335c0:	e004      	b.n	80335cc <ip_ntomentry_get_value+0x58>
      case 3: /* ipNetToMediaNetAddress */
        {
          ip_addr_t *dst = (ip_addr_t*)value;

          *dst = *ipaddr_ret;
 80335c2:	9b01      	ldr	r3, [sp, #4]
 80335c4:	681b      	ldr	r3, [r3, #0]
 80335c6:	e000      	b.n	80335ca <ip_ntomentry_get_value+0x56>
        break;
      case 4: /* ipNetToMediaType */
        {
          s32_t *sint_ptr = (s32_t*)value;
          /* dynamic (?) */
          *sint_ptr = 3;
 80335c8:	2303      	movs	r3, #3
 80335ca:	6023      	str	r3, [r4, #0]
        }
        break;
    }
  }
#endif /* LWIP_ARP */
}
 80335cc:	b005      	add	sp, #20
 80335ce:	bd30      	pop	{r4, r5, pc}

080335d0 <atentry_get_value>:
  }
}

static void
atentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 80335d0:	b530      	push	{r4, r5, lr}
  struct netif *netif;

  LWIP_UNUSED_ARG(len);
  LWIP_UNUSED_ARG(value);/* if !LWIP_ARP */

  snmp_ifindextonetif(od->id_inst_ptr[1], &netif);
 80335d2:	6883      	ldr	r3, [r0, #8]
  }
}

static void
atentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 80335d4:	b085      	sub	sp, #20
 80335d6:	4605      	mov	r5, r0
  struct netif *netif;

  LWIP_UNUSED_ARG(len);
  LWIP_UNUSED_ARG(value);/* if !LWIP_ARP */

  snmp_ifindextonetif(od->id_inst_ptr[1], &netif);
 80335d8:	a903      	add	r1, sp, #12
 80335da:	6858      	ldr	r0, [r3, #4]
  }
}

static void
atentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 80335dc:	4614      	mov	r4, r2
  struct netif *netif;

  LWIP_UNUSED_ARG(len);
  LWIP_UNUSED_ARG(value);/* if !LWIP_ARP */

  snmp_ifindextonetif(od->id_inst_ptr[1], &netif);
 80335de:	f000 ff65 	bl	80344ac <snmp_ifindextonetif>
  snmp_oidtoip(&od->id_inst_ptr[2], &ip);
 80335e2:	68a8      	ldr	r0, [r5, #8]
 80335e4:	a902      	add	r1, sp, #8
 80335e6:	3008      	adds	r0, #8
 80335e8:	f000 ff7e 	bl	80344e8 <snmp_oidtoip>

#if LWIP_ARP /** @todo implement a netif_find_addr */
  if (etharp_find_addr(netif, &ip, &ethaddr_ret, &ipaddr_ret) > -1)
 80335ec:	9803      	ldr	r0, [sp, #12]
 80335ee:	a902      	add	r1, sp, #8
 80335f0:	466a      	mov	r2, sp
 80335f2:	ab01      	add	r3, sp, #4
 80335f4:	f002 ffbc 	bl	8036570 <etharp_find_addr>
 80335f8:	2800      	cmp	r0, #0
 80335fa:	db12      	blt.n	8033622 <atentry_get_value+0x52>
  {
    LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
    id = (u8_t)od->id_inst_ptr[0];
 80335fc:	68aa      	ldr	r2, [r5, #8]
    switch (id)
 80335fe:	7813      	ldrb	r3, [r2, #0]
 8033600:	2b02      	cmp	r3, #2
 8033602:	d005      	beq.n	8033610 <atentry_get_value+0x40>
 8033604:	2b03      	cmp	r3, #3
 8033606:	d009      	beq.n	803361c <atentry_get_value+0x4c>
 8033608:	2b01      	cmp	r3, #1
 803360a:	d10a      	bne.n	8033622 <atentry_get_value+0x52>
    {
      case 1: /* atIfIndex */
        {
          s32_t *sint_ptr = (s32_t*)value;
          *sint_ptr = od->id_inst_ptr[1];
 803360c:	6853      	ldr	r3, [r2, #4]
 803360e:	e007      	b.n	8033620 <atentry_get_value+0x50>
        break;
      case 2: /* atPhysAddress */
        {
          struct eth_addr *dst = (struct eth_addr*)value;

          *dst = *ethaddr_ret;
 8033610:	9b00      	ldr	r3, [sp, #0]
 8033612:	681a      	ldr	r2, [r3, #0]
 8033614:	6022      	str	r2, [r4, #0]
 8033616:	889b      	ldrh	r3, [r3, #4]
 8033618:	80a3      	strh	r3, [r4, #4]
        }
        break;
 803361a:	e002      	b.n	8033622 <atentry_get_value+0x52>
      case 3: /* atNetAddress */
        {
          ip_addr_t *dst = (ip_addr_t*)value;

          *dst = *ipaddr_ret;
 803361c:	9b01      	ldr	r3, [sp, #4]
 803361e:	681b      	ldr	r3, [r3, #0]
 8033620:	6023      	str	r3, [r4, #0]
        }
        break;
    }
  }
#endif /* LWIP_ARP */
}
 8033622:	b005      	add	sp, #20
 8033624:	bd30      	pop	{r4, r5, pc}
 8033626:	0000      	movs	r0, r0

08033628 <system_set_test>:
  u8_t id, set_ok;

  LWIP_UNUSED_ARG(value);
  set_ok = 0;
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 8033628:	6883      	ldr	r3, [r0, #8]
  switch (id)
 803362a:	781b      	ldrb	r3, [r3, #0]
 803362c:	2b05      	cmp	r3, #5
 803362e:	d007      	beq.n	8033640 <system_set_test+0x18>
 8033630:	2b06      	cmp	r3, #6
 8033632:	d00f      	beq.n	8033654 <system_set_test+0x2c>
 8033634:	2b04      	cmp	r3, #4
 8033636:	d111      	bne.n	803365c <system_set_test+0x34>
  {
    case 4: /* sysContact */
      if ((syscontact_ptr != syscontact_default) &&
 8033638:	4b09      	ldr	r3, [pc, #36]	; (8033660 <system_set_test+0x38>)
 803363a:	681a      	ldr	r2, [r3, #0]
 803363c:	4b09      	ldr	r3, [pc, #36]	; (8033664 <system_set_test+0x3c>)
 803363e:	e002      	b.n	8033646 <system_set_test+0x1e>
      {
        set_ok = 1;
      }
      break;
    case 5: /* sysName */
      if ((sysname_ptr != sysname_default) &&
 8033640:	4b09      	ldr	r3, [pc, #36]	; (8033668 <system_set_test+0x40>)
 8033642:	681a      	ldr	r2, [r3, #0]
 8033644:	4b09      	ldr	r3, [pc, #36]	; (803366c <system_set_test+0x44>)
 8033646:	429a      	cmp	r2, r3
 8033648:	d008      	beq.n	803365c <system_set_test+0x34>
system_set_test(struct obj_def *od, u16_t len, void *value)
{
  u8_t id, set_ok;

  LWIP_UNUSED_ARG(value);
  set_ok = 0;
 803364a:	29ff      	cmp	r1, #255	; 0xff
 803364c:	bf8c      	ite	hi
 803364e:	2000      	movhi	r0, #0
 8033650:	2001      	movls	r0, #1
 8033652:	4770      	bx	lr
      {
        set_ok = 1;
      }
      break;
    case 6: /* sysLocation */
      if ((syslocation_ptr != syslocation_default) &&
 8033654:	4b06      	ldr	r3, [pc, #24]	; (8033670 <system_set_test+0x48>)
 8033656:	681a      	ldr	r2, [r3, #0]
 8033658:	4b06      	ldr	r3, [pc, #24]	; (8033674 <system_set_test+0x4c>)
 803365a:	e7f4      	b.n	8033646 <system_set_test+0x1e>
system_set_test(struct obj_def *od, u16_t len, void *value)
{
  u8_t id, set_ok;

  LWIP_UNUSED_ARG(value);
  set_ok = 0;
 803365c:	2000      	movs	r0, #0
        set_ok = 1;
      }
      break;
  };
  return set_ok;
}
 803365e:	4770      	bx	lr
 8033660:	20000914 	.word	0x20000914
 8033664:	080443e4 	.word	0x080443e4
 8033668:	200008a0 	.word	0x200008a0
 803366c:	080440fc 	.word	0x080440fc
 8033670:	20000a2c 	.word	0x20000a2c
 8033674:	0804412c 	.word	0x0804412c

08033678 <atentry_get_object_def>:
{
  /* return to object name, adding index depth (5) */
  ident_len += 5;
  ident -= 5;

  if (ident_len == 6)
 8033678:	2801      	cmp	r0, #1
 803367a:	d120      	bne.n	80336be <atentry_get_object_def+0x46>
  {
    od->id_inst_len = ident_len;
 803367c:	2006      	movs	r0, #6
static void
atentry_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (5) */
  ident_len += 5;
  ident -= 5;
 803367e:	f1a1 0314 	sub.w	r3, r1, #20

  if (ident_len == 6)
  {
    od->id_inst_len = ident_len;
 8033682:	7190      	strb	r0, [r2, #6]
    od->id_inst_ptr = ident;
 8033684:	6093      	str	r3, [r2, #8]

    switch (ident[0])
 8033686:	f851 3c14 	ldr.w	r3, [r1, #-20]
 803368a:	2b02      	cmp	r3, #2
 803368c:	d008      	beq.n	80336a0 <atentry_get_object_def+0x28>
 803368e:	2b03      	cmp	r3, #3
 8033690:	d00d      	beq.n	80336ae <atentry_get_object_def+0x36>
 8033692:	2b01      	cmp	r3, #1
 8033694:	d113      	bne.n	80336be <atentry_get_object_def+0x46>
    {
      case 1: /* atIfIndex */
        od->instance = MIB_OBJECT_TAB;
 8033696:	2302      	movs	r3, #2
        od->access = MIB_OBJECT_READ_WRITE;
 8033698:	2103      	movs	r1, #3
    od->id_inst_ptr = ident;

    switch (ident[0])
    {
      case 1: /* atIfIndex */
        od->instance = MIB_OBJECT_TAB;
 803369a:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 803369c:	7051      	strb	r1, [r2, #1]
 803369e:	e00a      	b.n	80336b6 <atentry_get_object_def+0x3e>
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
        od->v_len = sizeof(s32_t);
        break;
      case 2: /* atPhysAddress */
        od->instance = MIB_OBJECT_TAB;
 80336a0:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 80336a2:	2303      	movs	r3, #3
 80336a4:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR);
 80336a6:	2304      	movs	r3, #4
 80336a8:	7093      	strb	r3, [r2, #2]
        od->v_len = 6; /** @todo try to use netif::hwaddr_len */
 80336aa:	8090      	strh	r0, [r2, #4]
        break;
 80336ac:	4770      	bx	lr
      case 3: /* atNetAddress */
        od->instance = MIB_OBJECT_TAB;
 80336ae:	2102      	movs	r1, #2
        od->access = MIB_OBJECT_READ_WRITE;
 80336b0:	7053      	strb	r3, [r2, #1]
        od->access = MIB_OBJECT_READ_WRITE;
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR);
        od->v_len = 6; /** @todo try to use netif::hwaddr_len */
        break;
      case 3: /* atNetAddress */
        od->instance = MIB_OBJECT_TAB;
 80336b2:	7011      	strb	r1, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR);
 80336b4:	2340      	movs	r3, #64	; 0x40
 80336b6:	7093      	strb	r3, [r2, #2]
        od->v_len = 4;
 80336b8:	2304      	movs	r3, #4
 80336ba:	8093      	strh	r3, [r2, #4]
        break;
 80336bc:	4770      	bx	lr
    }
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("atentry_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 80336be:	2300      	movs	r3, #0
 80336c0:	7013      	strb	r3, [r2, #0]
 80336c2:	4770      	bx	lr

080336c4 <ip_get_object_def>:
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 80336c4:	2801      	cmp	r0, #1
#endif /* LWIP_ARP */
}

static void
ip_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
 80336c6:	b510      	push	{r4, lr}
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 80336c8:	d121      	bne.n	803370e <ip_get_object_def+0x4a>
  {
    od->id_inst_len = ident_len;
 80336ca:	2402      	movs	r4, #2
{
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
 80336cc:	1f0b      	subs	r3, r1, #4
  if (ident_len == 2)
  {
    od->id_inst_len = ident_len;
 80336ce:	7194      	strb	r4, [r2, #6]
    od->id_inst_ptr = ident;
 80336d0:	6093      	str	r3, [r2, #8]

    LWIP_ASSERT("invalid id", (ident[0] >= 0) && (ident[0] <= 0xff));
    id = (u8_t)ident[0];
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("get_object_def ip.%"U16_F".0\n",(u16_t)id));
    switch (id)
 80336d2:	f811 3c04 	ldrb.w	r3, [r1, #-4]
 80336d6:	2b17      	cmp	r3, #23
 80336d8:	d819      	bhi.n	803370e <ip_get_object_def+0x4a>
 80336da:	490e      	ldr	r1, [pc, #56]	; (8033714 <ip_get_object_def+0x50>)
 80336dc:	4099      	lsls	r1, r3
 80336de:	d40b      	bmi.n	80336f8 <ip_get_object_def+0x34>
 80336e0:	f44f 2180 	mov.w	r1, #262144	; 0x40000
 80336e4:	4099      	lsls	r1, r3
 80336e6:	d40c      	bmi.n	8033702 <ip_get_object_def+0x3e>
 80336e8:	f04f 41c0 	mov.w	r1, #1610612736	; 0x60000000
 80336ec:	4099      	lsls	r1, r3
 80336ee:	d50e      	bpl.n	803370e <ip_get_object_def+0x4a>
    {
      case 1: /* ipForwarding */
      case 2: /* ipDefaultTTL */
        od->instance = MIB_OBJECT_SCALAR;
        od->access = MIB_OBJECT_READ_WRITE;
 80336f0:	2303      	movs	r3, #3
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("get_object_def ip.%"U16_F".0\n",(u16_t)id));
    switch (id)
    {
      case 1: /* ipForwarding */
      case 2: /* ipDefaultTTL */
        od->instance = MIB_OBJECT_SCALAR;
 80336f2:	7010      	strb	r0, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 80336f4:	7053      	strb	r3, [r2, #1]
 80336f6:	e006      	b.n	8033706 <ip_get_object_def+0x42>
      case 18: /* ipFragFails */
      case 19: /* ipFragCreates */
      case 23: /* ipRoutingDiscards */
        od->instance = MIB_OBJECT_SCALAR;
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
 80336f8:	2341      	movs	r3, #65	; 0x41
      case 16: /* ipReasmFails */
      case 17: /* ipFragOKs */
      case 18: /* ipFragFails */
      case 19: /* ipFragCreates */
      case 23: /* ipRoutingDiscards */
        od->instance = MIB_OBJECT_SCALAR;
 80336fa:	7010      	strb	r0, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 80336fc:	7050      	strb	r0, [r2, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
 80336fe:	7093      	strb	r3, [r2, #2]
 8033700:	e002      	b.n	8033708 <ip_get_object_def+0x44>
        od->v_len = sizeof(u32_t);
        break;
      case 13: /* ipReasmTimeout */
        od->instance = MIB_OBJECT_SCALAR;
 8033702:	7010      	strb	r0, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8033704:	7050      	strb	r0, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
 8033706:	7094      	strb	r4, [r2, #2]
        od->v_len = sizeof(s32_t);
 8033708:	2304      	movs	r3, #4
 803370a:	8093      	strh	r3, [r2, #4]
        break;
 803370c:	bd10      	pop	{r4, pc}
    };
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("ip_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 803370e:	2300      	movs	r3, #0
 8033710:	7013      	strb	r3, [r2, #0]
 8033712:	bd10      	pop	{r4, pc}
 8033714:	1ffbf100 	.word	0x1ffbf100

08033718 <ip_addrentry_get_object_def>:
{
  /* return to object name, adding index depth (4) */
  ident_len += 4;
  ident -= 4;

  if (ident_len == 5)
 8033718:	2801      	cmp	r0, #1
 803371a:	d11c      	bne.n	8033756 <ip_addrentry_get_object_def+0x3e>
  {
    u8_t id;

    od->id_inst_len = ident_len;
 803371c:	2305      	movs	r3, #5
 803371e:	7193      	strb	r3, [r2, #6]
static void
ip_addrentry_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (4) */
  ident_len += 4;
  ident -= 4;
 8033720:	f1a1 0310 	sub.w	r3, r1, #16
  if (ident_len == 5)
  {
    u8_t id;

    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;
 8033724:	6093      	str	r3, [r2, #8]

    LWIP_ASSERT("invalid id", (ident[0] >= 0) && (ident[0] <= 0xff));
    id = (u8_t)ident[0];
    switch (id)
 8033726:	f811 3c10 	ldrb.w	r3, [r1, #-16]
 803372a:	2b05      	cmp	r3, #5
 803372c:	d813      	bhi.n	8033756 <ip_addrentry_get_object_def+0x3e>
 803372e:	f04f 5130 	mov.w	r1, #738197504	; 0x2c000000
 8033732:	4099      	lsls	r1, r3
 8033734:	d408      	bmi.n	8033748 <ip_addrentry_get_object_def+0x30>
 8033736:	f04f 41a0 	mov.w	r1, #1342177280	; 0x50000000
 803373a:	4099      	lsls	r1, r3
 803373c:	d50b      	bpl.n	8033756 <ip_addrentry_get_object_def+0x3e>
    {
      case 1: /* ipAdEntAddr */
      case 3: /* ipAdEntNetMask */
        od->instance = MIB_OBJECT_TAB;
 803373e:	2302      	movs	r3, #2
 8033740:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8033742:	7050      	strb	r0, [r2, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR);
 8033744:	2340      	movs	r3, #64	; 0x40
 8033746:	e002      	b.n	803374e <ip_addrentry_get_object_def+0x36>
        od->v_len = 4;
        break;
      case 2: /* ipAdEntIfIndex */
      case 4: /* ipAdEntBcastAddr */
      case 5: /* ipAdEntReasmMaxSize */
        od->instance = MIB_OBJECT_TAB;
 8033748:	2302      	movs	r3, #2
 803374a:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 803374c:	7050      	strb	r0, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
 803374e:	7093      	strb	r3, [r2, #2]
        od->v_len = sizeof(s32_t);
 8033750:	2304      	movs	r3, #4
 8033752:	8093      	strh	r3, [r2, #4]
        break;
 8033754:	4770      	bx	lr
    }
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("ip_addrentry_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 8033756:	2300      	movs	r3, #0
 8033758:	7013      	strb	r3, [r2, #0]
 803375a:	4770      	bx	lr

0803375c <ip_ntomentry_get_object_def>:
{
  /* return to object name, adding index depth (5) */
  ident_len += 5;
  ident -= 5;

  if (ident_len == 6)
 803375c:	2801      	cmp	r0, #1
 803375e:	d123      	bne.n	80337a8 <ip_ntomentry_get_object_def+0x4c>
  {
    u8_t id;

    od->id_inst_len = ident_len;
 8033760:	2306      	movs	r3, #6
 8033762:	7193      	strb	r3, [r2, #6]
static void
ip_ntomentry_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (5) */
  ident_len += 5;
  ident -= 5;
 8033764:	f1a1 0314 	sub.w	r3, r1, #20
  if (ident_len == 6)
  {
    u8_t id;

    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;
 8033768:	6093      	str	r3, [r2, #8]

    LWIP_ASSERT("invalid id", (ident[0] >= 0) && (ident[0] <= 0xff));
    id = (u8_t)ident[0];
    switch (id)
 803376a:	f811 3c14 	ldrb.w	r3, [r1, #-20]
 803376e:	3b01      	subs	r3, #1
 8033770:	2b03      	cmp	r3, #3
 8033772:	d819      	bhi.n	80337a8 <ip_ntomentry_get_object_def+0x4c>
 8033774:	e8df f003 	tbb	[pc, r3]
 8033778:	020f0702 	.word	0x020f0702
    {
      case 1: /* ipNetToMediaIfIndex */
      case 4: /* ipNetToMediaType */
        od->instance = MIB_OBJECT_TAB;
 803377c:	2302      	movs	r3, #2
        od->access = MIB_OBJECT_READ_WRITE;
 803377e:	2103      	movs	r1, #3
    id = (u8_t)ident[0];
    switch (id)
    {
      case 1: /* ipNetToMediaIfIndex */
      case 4: /* ipNetToMediaType */
        od->instance = MIB_OBJECT_TAB;
 8033780:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 8033782:	7051      	strb	r1, [r2, #1]
 8033784:	e00c      	b.n	80337a0 <ip_ntomentry_get_object_def+0x44>
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
        od->v_len = sizeof(s32_t);
        break;
      case 2: /* ipNetToMediaPhysAddress */
        od->instance = MIB_OBJECT_TAB;
 8033786:	2302      	movs	r3, #2
 8033788:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 803378a:	2303      	movs	r3, #3
 803378c:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR);
 803378e:	2304      	movs	r3, #4
 8033790:	7093      	strb	r3, [r2, #2]
        od->v_len = 6; /** @todo try to use netif::hwaddr_len */
 8033792:	2306      	movs	r3, #6
 8033794:	e006      	b.n	80337a4 <ip_ntomentry_get_object_def+0x48>
        break;
      case 3: /* ipNetToMediaNetAddress */
        od->instance = MIB_OBJECT_TAB;
 8033796:	2302      	movs	r3, #2
 8033798:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 803379a:	2303      	movs	r3, #3
 803379c:	7053      	strb	r3, [r2, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR);
 803379e:	2340      	movs	r3, #64	; 0x40
 80337a0:	7093      	strb	r3, [r2, #2]
        od->v_len = 4;
 80337a2:	2304      	movs	r3, #4
 80337a4:	8093      	strh	r3, [r2, #4]
        break;
 80337a6:	4770      	bx	lr
    }
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("ip_ntomentry_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 80337a8:	2300      	movs	r3, #0
 80337aa:	7013      	strb	r3, [r2, #0]
 80337ac:	4770      	bx	lr
 80337ae:	0000      	movs	r0, r0

080337b0 <tcp_get_object_def>:
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 80337b0:	2801      	cmp	r0, #1

#if LWIP_TCP
/** @todo tcp grp */
static void
tcp_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
 80337b2:	b510      	push	{r4, lr}
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 80337b4:	d121      	bne.n	80337fa <tcp_get_object_def+0x4a>
  {
    od->id_inst_len = ident_len;
 80337b6:	2402      	movs	r4, #2
{
  u8_t id;

  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
 80337b8:	1f0b      	subs	r3, r1, #4
  if (ident_len == 2)
  {
    od->id_inst_len = ident_len;
 80337ba:	7194      	strb	r4, [r2, #6]
    od->id_inst_ptr = ident;
 80337bc:	6093      	str	r3, [r2, #8]

    LWIP_ASSERT("invalid id", (ident[0] >= 0) && (ident[0] <= 0xff));
    id = (u8_t)ident[0];
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("get_object_def tcp.%"U16_F".0\n",(u16_t)id));

    switch (id)
 80337be:	f811 3c04 	ldrb.w	r3, [r1, #-4]
 80337c2:	2b0f      	cmp	r3, #15
 80337c4:	d819      	bhi.n	80337fa <tcp_get_object_def+0x4a>
 80337c6:	490e      	ldr	r1, [pc, #56]	; (8033800 <tcp_get_object_def+0x50>)
 80337c8:	4099      	lsls	r1, r3
 80337ca:	d40b      	bmi.n	80337e4 <tcp_get_object_def+0x34>
 80337cc:	f44f 0180 	mov.w	r1, #4194304	; 0x400000
 80337d0:	4099      	lsls	r1, r3
 80337d2:	d40b      	bmi.n	80337ec <tcp_get_object_def+0x3c>
 80337d4:	f04f 41f0 	mov.w	r1, #2013265920	; 0x78000000
 80337d8:	4099      	lsls	r1, r3
 80337da:	d50e      	bpl.n	80337fa <tcp_get_object_def+0x4a>
    {
      case 1: /* tcpRtoAlgorithm */
      case 2: /* tcpRtoMin */
      case 3: /* tcpRtoMax */
      case 4: /* tcpMaxConn */
        od->instance = MIB_OBJECT_SCALAR;
 80337dc:	7010      	strb	r0, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 80337de:	7050      	strb	r0, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
 80337e0:	7094      	strb	r4, [r2, #2]
 80337e2:	e007      	b.n	80337f4 <tcp_get_object_def+0x44>
      case 10: /* tcpInSegs */
      case 11: /* tcpOutSegs */
      case 12: /* tcpRetransSegs */
      case 14: /* tcpInErrs */
      case 15: /* tcpOutRsts */
        od->instance = MIB_OBJECT_SCALAR;
 80337e4:	7010      	strb	r0, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 80337e6:	7050      	strb	r0, [r2, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
 80337e8:	2341      	movs	r3, #65	; 0x41
 80337ea:	e002      	b.n	80337f2 <tcp_get_object_def+0x42>
        od->v_len = sizeof(u32_t);
        break;
      case 9: /* tcpCurrEstab */
        od->instance = MIB_OBJECT_TAB;
 80337ec:	7014      	strb	r4, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 80337ee:	7050      	strb	r0, [r2, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_GAUGE);
 80337f0:	2342      	movs	r3, #66	; 0x42
 80337f2:	7093      	strb	r3, [r2, #2]
        od->v_len = sizeof(u32_t);
 80337f4:	2304      	movs	r3, #4
 80337f6:	8093      	strh	r3, [r2, #4]
        break;
 80337f8:	bd10      	pop	{r4, pc}
    };
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("tcp_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 80337fa:	2300      	movs	r3, #0
 80337fc:	7013      	strb	r3, [r2, #0]
 80337fe:	bd10      	pop	{r4, pc}
 8033800:	07bb0000 	.word	0x07bb0000

08033804 <udpentry_get_object_def>:
{
  /* return to object name, adding index depth (5) */
  ident_len += 5;
  ident -= 5;

  if (ident_len == 6)
 8033804:	2801      	cmp	r0, #1
 8033806:	d116      	bne.n	8033836 <udpentry_get_object_def+0x32>
  {
    od->id_inst_len = ident_len;
 8033808:	2306      	movs	r3, #6
 803380a:	7193      	strb	r3, [r2, #6]
static void
udpentry_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (5) */
  ident_len += 5;
  ident -= 5;
 803380c:	f1a1 0314 	sub.w	r3, r1, #20

  if (ident_len == 6)
  {
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;
 8033810:	6093      	str	r3, [r2, #8]

    switch (ident[0])
 8033812:	f851 3c14 	ldr.w	r3, [r1, #-20]
 8033816:	2b01      	cmp	r3, #1
 8033818:	d002      	beq.n	8033820 <udpentry_get_object_def+0x1c>
 803381a:	2b02      	cmp	r3, #2
 803381c:	d10b      	bne.n	8033836 <udpentry_get_object_def+0x32>
 803381e:	e004      	b.n	803382a <udpentry_get_object_def+0x26>
    {
      case 1: /* udpLocalAddress */
        od->instance = MIB_OBJECT_TAB;
 8033820:	2102      	movs	r1, #2
        od->access = MIB_OBJECT_READ_ONLY;
 8033822:	7053      	strb	r3, [r2, #1]
    od->id_inst_ptr = ident;

    switch (ident[0])
    {
      case 1: /* udpLocalAddress */
        od->instance = MIB_OBJECT_TAB;
 8033824:	7011      	strb	r1, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR);
 8033826:	2340      	movs	r3, #64	; 0x40
 8033828:	e001      	b.n	803382e <udpentry_get_object_def+0x2a>
        od->v_len = 4;
        break;
      case 2: /* udpLocalPort */
        od->instance = MIB_OBJECT_TAB;
 803382a:	7013      	strb	r3, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 803382c:	7050      	strb	r0, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
 803382e:	7093      	strb	r3, [r2, #2]
        od->v_len = sizeof(s32_t);
 8033830:	2304      	movs	r3, #4
 8033832:	8093      	strh	r3, [r2, #4]
        break;
 8033834:	4770      	bx	lr
    }
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("udpentry_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 8033836:	2300      	movs	r3, #0
 8033838:	7013      	strb	r3, [r2, #0]
 803383a:	4770      	bx	lr

0803383c <snmp_get_object_def>:
snmp_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 803383c:	2801      	cmp	r0, #1
  }
}

static void
snmp_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
 803383e:	b510      	push	{r4, lr}
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 8033840:	d119      	bne.n	8033876 <snmp_get_object_def+0x3a>
  {
    u8_t id;

    od->id_inst_len = ident_len;
 8033842:	2302      	movs	r3, #2
 8033844:	7193      	strb	r3, [r2, #6]
static void
snmp_get_object_def(u8_t ident_len, s32_t *ident, struct obj_def *od)
{
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
 8033846:	1f0c      	subs	r4, r1, #4
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;

    LWIP_ASSERT("invalid id", (ident[0] >= 0) && (ident[0] <= 0xff));
    id = (u8_t)ident[0];
    switch (id)
 8033848:	f811 1c04 	ldrb.w	r1, [r1, #-4]
  if (ident_len == 2)
  {
    u8_t id;

    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;
 803384c:	6094      	str	r4, [r2, #8]

    LWIP_ASSERT("invalid id", (ident[0] >= 0) && (ident[0] <= 0xff));
    id = (u8_t)ident[0];
    switch (id)
 803384e:	291e      	cmp	r1, #30
 8033850:	d811      	bhi.n	8033876 <snmp_get_object_def+0x3a>
 8033852:	4c0a      	ldr	r4, [pc, #40]	; (803387c <snmp_get_object_def+0x40>)
 8033854:	408c      	lsls	r4, r1
 8033856:	d403      	bmi.n	8033860 <snmp_get_object_def+0x24>
 8033858:	fa13 f101 	lsls.w	r1, r3, r1
 803385c:	d404      	bmi.n	8033868 <snmp_get_object_def+0x2c>
 803385e:	e00a      	b.n	8033876 <snmp_get_object_def+0x3a>
      case 25: /* snmpOutGetRequests */
      case 26: /* snmpOutGetNexts */
      case 27: /* snmpOutSetRequests */
      case 28: /* snmpOutGetResponses */
      case 29: /* snmpOutTraps */
        od->instance = MIB_OBJECT_SCALAR;
 8033860:	7010      	strb	r0, [r2, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8033862:	7050      	strb	r0, [r2, #1]
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
 8033864:	2341      	movs	r3, #65	; 0x41
 8033866:	e002      	b.n	803386e <snmp_get_object_def+0x32>
        od->v_len = sizeof(u32_t);
        break;
      case 30: /* snmpEnableAuthenTraps */
        od->instance = MIB_OBJECT_SCALAR;
        od->access = MIB_OBJECT_READ_WRITE;
 8033868:	2103      	movs	r1, #3
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER);
        od->v_len = sizeof(u32_t);
        break;
      case 30: /* snmpEnableAuthenTraps */
        od->instance = MIB_OBJECT_SCALAR;
 803386a:	7010      	strb	r0, [r2, #0]
        od->access = MIB_OBJECT_READ_WRITE;
 803386c:	7051      	strb	r1, [r2, #1]
        od->asn_type = (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG);
 803386e:	7093      	strb	r3, [r2, #2]
        od->v_len = sizeof(s32_t);
 8033870:	2304      	movs	r3, #4
 8033872:	8093      	strh	r3, [r2, #4]
        break;
 8033874:	bd10      	pop	{r4, pc}
    };
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("snmp_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 8033876:	2300      	movs	r3, #0
 8033878:	7013      	strb	r3, [r2, #0]
 803387a:	bd10      	pop	{r4, pc}
 803387c:	7efffefc 	.word	0x7efffefc

08033880 <snmp_set_test>:
  u8_t id, set_ok;

  LWIP_UNUSED_ARG(len);
  set_ok = 0;
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 8033880:	6883      	ldr	r3, [r0, #8]
  if (id == 30)
 8033882:	781b      	ldrb	r3, [r3, #0]
 8033884:	2b1e      	cmp	r3, #30
 8033886:	d10f      	bne.n	80338a8 <snmp_set_test+0x28>
  {
    /* snmpEnableAuthenTraps */
    s32_t *sint_ptr = (s32_t*)value;

    if (snmpenableauthentraps_ptr != &snmpenableauthentraps_default)
 8033888:	4b08      	ldr	r3, [pc, #32]	; (80338ac <snmp_set_test+0x2c>)
 803388a:	6810      	ldr	r0, [r2, #0]
 803388c:	6819      	ldr	r1, [r3, #0]
 803388e:	4b08      	ldr	r3, [pc, #32]	; (80338b0 <snmp_set_test+0x30>)
 8033890:	4299      	cmp	r1, r3
 8033892:	d005      	beq.n	80338a0 <snmp_set_test+0x20>
    {
      /* we should have writable non-volatile mem here */
      if ((*sint_ptr == 1) || (*sint_ptr == 2))
 8033894:	3801      	subs	r0, #1
snmp_set_test(struct obj_def *od, u16_t len, void *value)
{
  u8_t id, set_ok;

  LWIP_UNUSED_ARG(len);
  set_ok = 0;
 8033896:	2801      	cmp	r0, #1
 8033898:	bf8c      	ite	hi
 803389a:	2000      	movhi	r0, #0
 803389c:	2001      	movls	r0, #1
 803389e:	4770      	bx	lr
 80338a0:	1e83      	subs	r3, r0, #2
 80338a2:	4258      	negs	r0, r3
 80338a4:	4158      	adcs	r0, r3
 80338a6:	4770      	bx	lr
 80338a8:	2000      	movs	r0, #0
        set_ok = 1;
      }
    }
  }
  return set_ok;
}
 80338aa:	4770      	bx	lr
 80338ac:	20000898 	.word	0x20000898
 80338b0:	080441e0 	.word	0x080441e0

080338b4 <ocstrncpy>:
 * @param dst points to destination
 * @param src points to source
 * @param n number of octets to copy.
 */
void ocstrncpy(u8_t *dst, u8_t *src, u16_t n)
{
 80338b4:	b510      	push	{r4, lr}
  u16_t i = n;
  while (i > 0) {
 80338b6:	2300      	movs	r3, #0
 80338b8:	e002      	b.n	80338c0 <ocstrncpy+0xc>
    i--;
    *dst++ = *src++;
 80338ba:	5ccc      	ldrb	r4, [r1, r3]
 80338bc:	54c4      	strb	r4, [r0, r3]
 80338be:	3301      	adds	r3, #1
 * @param n number of octets to copy.
 */
void ocstrncpy(u8_t *dst, u8_t *src, u16_t n)
{
  u16_t i = n;
  while (i > 0) {
 80338c0:	b29c      	uxth	r4, r3
 80338c2:	42a2      	cmp	r2, r4
 80338c4:	d1f9      	bne.n	80338ba <ocstrncpy+0x6>
    i--;
    *dst++ = *src++;
  }
}
 80338c6:	bd10      	pop	{r4, pc}

080338c8 <system_set_value>:
{
  u8_t id;

  LWIP_ASSERT("invalid len", len <= 0xff);
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 80338c8:	6883      	ldr	r3, [r0, #8]
  switch (id)
 80338ca:	781b      	ldrb	r3, [r3, #0]
 80338cc:	2b05      	cmp	r3, #5
  return set_ok;
}

static void
system_set_value(struct obj_def *od, u16_t len, void *value)
{
 80338ce:	b510      	push	{r4, lr}
 80338d0:	460c      	mov	r4, r1
 80338d2:	4611      	mov	r1, r2
  u8_t id;

  LWIP_ASSERT("invalid len", len <= 0xff);
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
  switch (id)
 80338d4:	d00a      	beq.n	80338ec <system_set_value+0x24>
 80338d6:	2b06      	cmp	r3, #6
 80338d8:	d00f      	beq.n	80338fa <system_set_value+0x32>
 80338da:	2b04      	cmp	r3, #4
 80338dc:	d115      	bne.n	803390a <system_set_value+0x42>
  {
    case 4: /* sysContact */
      ocstrncpy(syscontact_ptr, (u8_t*)value, len);
 80338de:	4b0b      	ldr	r3, [pc, #44]	; (803390c <system_set_value+0x44>)
 80338e0:	4622      	mov	r2, r4
 80338e2:	6818      	ldr	r0, [r3, #0]
 80338e4:	f7ff ffe6 	bl	80338b4 <ocstrncpy>
      *syscontact_len_ptr = (u8_t)len;
 80338e8:	4b09      	ldr	r3, [pc, #36]	; (8033910 <system_set_value+0x48>)
 80338ea:	e00c      	b.n	8033906 <system_set_value+0x3e>
      break;
    case 5: /* sysName */
      ocstrncpy(sysname_ptr, (u8_t*)value, len);
 80338ec:	4b09      	ldr	r3, [pc, #36]	; (8033914 <system_set_value+0x4c>)
 80338ee:	4622      	mov	r2, r4
 80338f0:	6818      	ldr	r0, [r3, #0]
 80338f2:	f7ff ffdf 	bl	80338b4 <ocstrncpy>
      *sysname_len_ptr = (u8_t)len;
 80338f6:	4b08      	ldr	r3, [pc, #32]	; (8033918 <system_set_value+0x50>)
 80338f8:	e005      	b.n	8033906 <system_set_value+0x3e>
      break;
    case 6: /* sysLocation */
      ocstrncpy(syslocation_ptr, (u8_t*)value, len);
 80338fa:	4b08      	ldr	r3, [pc, #32]	; (803391c <system_set_value+0x54>)
 80338fc:	4622      	mov	r2, r4
 80338fe:	6818      	ldr	r0, [r3, #0]
 8033900:	f7ff ffd8 	bl	80338b4 <ocstrncpy>
      *syslocation_len_ptr = (u8_t)len;
 8033904:	4b06      	ldr	r3, [pc, #24]	; (8033920 <system_set_value+0x58>)
 8033906:	681b      	ldr	r3, [r3, #0]
 8033908:	701c      	strb	r4, [r3, #0]
 803390a:	bd10      	pop	{r4, pc}
 803390c:	20000914 	.word	0x20000914
 8033910:	20000798 	.word	0x20000798
 8033914:	200008a0 	.word	0x200008a0
 8033918:	20000794 	.word	0x20000794
 803391c:	20000a2c 	.word	0x20000a2c
 8033920:	20000980 	.word	0x20000980

08033924 <objectidncpy>:
 *
 * @param dst points to destination
 * @param src points to source
 * @param n number of sub identifiers to copy.
 */
void objectidncpy(s32_t *dst, s32_t *src, u8_t n)
 8033924:	3904      	subs	r1, #4
{
  u8_t i = n;
  while(i > 0) {
 8033926:	e005      	b.n	8033934 <objectidncpy+0x10>
    i--;
    *dst++ = *src++;
 8033928:	f851 3f04 	ldr.w	r3, [r1, #4]!
 */
void objectidncpy(s32_t *dst, s32_t *src, u8_t n)
{
  u8_t i = n;
  while(i > 0) {
    i--;
 803392c:	3a01      	subs	r2, #1
    *dst++ = *src++;
 803392e:	f840 3b04 	str.w	r3, [r0], #4
 */
void objectidncpy(s32_t *dst, s32_t *src, u8_t n)
{
  u8_t i = n;
  while(i > 0) {
    i--;
 8033932:	b2d2      	uxtb	r2, r2
 * @param n number of sub identifiers to copy.
 */
void objectidncpy(s32_t *dst, s32_t *src, u8_t n)
{
  u8_t i = n;
  while(i > 0) {
 8033934:	2a00      	cmp	r2, #0
 8033936:	d1f7      	bne.n	8033928 <objectidncpy+0x4>
    i--;
    *dst++ = *src++;
  }
}
 8033938:	4770      	bx	lr
 803393a:	0000      	movs	r0, r0

0803393c <ifentry_get_value>:
 * @param len return value space (in bytes)
 * @param value points to (varbind) space to copy value into.
 */
static void
ifentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 803393c:	b573      	push	{r0, r1, r4, r5, r6, lr}
  struct netif *netif;
  u8_t id;

  snmp_ifindextonetif(od->id_inst_ptr[1], &netif);
 803393e:	6883      	ldr	r3, [r0, #8]
 * @param len return value space (in bytes)
 * @param value points to (varbind) space to copy value into.
 */
static void
ifentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033940:	4606      	mov	r6, r0
 8033942:	460d      	mov	r5, r1
  struct netif *netif;
  u8_t id;

  snmp_ifindextonetif(od->id_inst_ptr[1], &netif);
 8033944:	6858      	ldr	r0, [r3, #4]
 8033946:	a901      	add	r1, sp, #4
 * @param len return value space (in bytes)
 * @param value points to (varbind) space to copy value into.
 */
static void
ifentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033948:	4614      	mov	r4, r2
  struct netif *netif;
  u8_t id;

  snmp_ifindextonetif(od->id_inst_ptr[1], &netif);
 803394a:	f000 fdaf 	bl	80344ac <snmp_ifindextonetif>
  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 803394e:	68b3      	ldr	r3, [r6, #8]
  switch (id)
 8033950:	781a      	ldrb	r2, [r3, #0]
 8033952:	3a01      	subs	r2, #1
 8033954:	2a15      	cmp	r2, #21
 8033956:	d85c      	bhi.n	8033a12 <ifentry_get_value+0xd6>
 8033958:	e8df f002 	tbb	[pc, r2]
 803395c:	15110d0b 	.word	0x15110d0b
 8033960:	2e221b18 	.word	0x2e221b18
 8033964:	403d3a37 	.word	0x403d3a37
 8033968:	46525243 	.word	0x46525243
 803396c:	524f4c49 	.word	0x524f4c49
 8033970:	5552      	.short	0x5552
  {
    case 1: /* ifIndex */
      {
        s32_t *sint_ptr = (s32_t*)value;
        *sint_ptr = od->id_inst_ptr[1];
 8033972:	685b      	ldr	r3, [r3, #4]
 8033974:	e045      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 2: /* ifDescr */
      ocstrncpy((u8_t*)value, (u8_t*)netif->name, len);
 8033976:	9901      	ldr	r1, [sp, #4]
 8033978:	4620      	mov	r0, r4
 803397a:	312e      	adds	r1, #46	; 0x2e
 803397c:	e00c      	b.n	8033998 <ifentry_get_value+0x5c>
      break;
    case 3: /* ifType */
      {
        s32_t *sint_ptr = (s32_t*)value;
        *sint_ptr = netif->link_type;
 803397e:	9b01      	ldr	r3, [sp, #4]
 8033980:	f893 3031 	ldrb.w	r3, [r3, #49]	; 0x31
 8033984:	e03d      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 4: /* ifMtu */
      {
        s32_t *sint_ptr = (s32_t*)value;
        *sint_ptr = netif->mtu;
 8033986:	9b01      	ldr	r3, [sp, #4]
 8033988:	8c9b      	ldrh	r3, [r3, #36]	; 0x24
 803398a:	e03a      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 5: /* ifSpeed */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = netif->link_speed;
 803398c:	9b01      	ldr	r3, [sp, #4]
 803398e:	6b5b      	ldr	r3, [r3, #52]	; 0x34
 8033990:	e037      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 6: /* ifPhysAddress */
      ocstrncpy((u8_t*)value, netif->hwaddr, len);
 8033992:	9901      	ldr	r1, [sp, #4]
 8033994:	4620      	mov	r0, r4
 8033996:	3127      	adds	r1, #39	; 0x27
 8033998:	462a      	mov	r2, r5
 803399a:	f7ff ff8b 	bl	80338b4 <ocstrncpy>
      break;
 803399e:	e038      	b.n	8033a12 <ifentry_get_value+0xd6>
    case 7: /* ifAdminStatus */
      {
        s32_t *sint_ptr = (s32_t*)value;
        if (netif_is_up(netif))
 80339a0:	9b01      	ldr	r3, [sp, #4]
 80339a2:	f893 302d 	ldrb.w	r3, [r3, #45]	; 0x2d
 80339a6:	07d9      	lsls	r1, r3, #31
 80339a8:	d50d      	bpl.n	80339c6 <ifentry_get_value+0x8a>
        {
          if (netif_is_link_up(netif))
 80339aa:	f003 0310 	and.w	r3, r3, #16
 80339ae:	b2db      	uxtb	r3, r3
 80339b0:	b103      	cbz	r3, 80339b4 <ifentry_get_value+0x78>
 80339b2:	e006      	b.n	80339c2 <ifentry_get_value+0x86>
          {
            *sint_ptr = 1; /* up */
          }
          else
          {
            *sint_ptr = 7; /* lowerLayerDown */
 80339b4:	2307      	movs	r3, #7
 80339b6:	e024      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 8: /* ifOperStatus */
      {
        s32_t *sint_ptr = (s32_t*)value;
        if (netif_is_up(netif))
 80339b8:	9b01      	ldr	r3, [sp, #4]
 80339ba:	f893 302d 	ldrb.w	r3, [r3, #45]	; 0x2d
 80339be:	07da      	lsls	r2, r3, #31
 80339c0:	d501      	bpl.n	80339c6 <ifentry_get_value+0x8a>
        {
          *sint_ptr = 1;
 80339c2:	2301      	movs	r3, #1
 80339c4:	e01d      	b.n	8033a02 <ifentry_get_value+0xc6>
        }
        else
        {
          *sint_ptr = 2;
 80339c6:	2302      	movs	r3, #2
 80339c8:	e01b      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 9: /* ifLastChange */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = netif->ts;
 80339ca:	9b01      	ldr	r3, [sp, #4]
 80339cc:	6b9b      	ldr	r3, [r3, #56]	; 0x38
 80339ce:	e018      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 10: /* ifInOctets */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = netif->ifinoctets;
 80339d0:	9b01      	ldr	r3, [sp, #4]
 80339d2:	6bdb      	ldr	r3, [r3, #60]	; 0x3c
 80339d4:	e015      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 11: /* ifInUcastPkts */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = netif->ifinucastpkts;
 80339d6:	9b01      	ldr	r3, [sp, #4]
 80339d8:	6c1b      	ldr	r3, [r3, #64]	; 0x40
 80339da:	e012      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 12: /* ifInNUcastPkts */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = netif->ifinnucastpkts;
 80339dc:	9b01      	ldr	r3, [sp, #4]
 80339de:	6c5b      	ldr	r3, [r3, #68]	; 0x44
 80339e0:	e00f      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 13: /* ifInDiscarts */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = netif->ifindiscards;
 80339e2:	9b01      	ldr	r3, [sp, #4]
 80339e4:	6c9b      	ldr	r3, [r3, #72]	; 0x48
 80339e6:	e00c      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 16: /* ifOutOctets */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = netif->ifoutoctets;
 80339e8:	9b01      	ldr	r3, [sp, #4]
 80339ea:	6cdb      	ldr	r3, [r3, #76]	; 0x4c
 80339ec:	e009      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 17: /* ifOutUcastPkts */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = netif->ifoutucastpkts;
 80339ee:	9b01      	ldr	r3, [sp, #4]
 80339f0:	6d1b      	ldr	r3, [r3, #80]	; 0x50
 80339f2:	e006      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 18: /* ifOutNUcastPkts */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = netif->ifoutnucastpkts;
 80339f4:	9b01      	ldr	r3, [sp, #4]
 80339f6:	6d5b      	ldr	r3, [r3, #84]	; 0x54
 80339f8:	e003      	b.n	8033a02 <ifentry_get_value+0xc6>
      }
      break;
    case 19: /* ifOutDiscarts */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = netif->ifoutdiscards;
 80339fa:	9b01      	ldr	r3, [sp, #4]
 80339fc:	6d9b      	ldr	r3, [r3, #88]	; 0x58
 80339fe:	e000      	b.n	8033a02 <ifentry_get_value+0xc6>
      break;
    case 21: /* ifOutQLen */
      /** @todo figure out if this must be 0 (no queue) or 1? */
      {
        u32_t *uint_ptr = (u32_t*)value;
        *uint_ptr = 0;
 8033a00:	2300      	movs	r3, #0
 8033a02:	6023      	str	r3, [r4, #0]
      }
      break;
 8033a04:	e005      	b.n	8033a12 <ifentry_get_value+0xd6>
    case 22: /* ifSpecific */
      objectidncpy((s32_t*)value, (s32_t*)ifspecific.id, (u8_t)(len / sizeof(s32_t)));
 8033a06:	4620      	mov	r0, r4
 8033a08:	4902      	ldr	r1, [pc, #8]	; (8033a14 <ifentry_get_value+0xd8>)
 8033a0a:	f3c5 0287 	ubfx	r2, r5, #2, #8
 8033a0e:	f7ff ff89 	bl	8033924 <objectidncpy>
      break;
  };
}
 8033a12:	bd7c      	pop	{r2, r3, r4, r5, r6, pc}
 8033a14:	08044268 	.word	0x08044268

08033a18 <ip_rteentry_get_value>:
  }
}

static void
ip_rteentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033a18:	b5f7      	push	{r0, r1, r2, r4, r5, r6, r7, lr}
  struct netif *netif;
  ip_addr_t dest;
  s32_t *ident;
  u8_t id;

  ident = od->id_inst_ptr;
 8033a1a:	6885      	ldr	r5, [r0, #8]
  }
}

static void
ip_rteentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033a1c:	460f      	mov	r7, r1
  ip_addr_t dest;
  s32_t *ident;
  u8_t id;

  ident = od->id_inst_ptr;
  snmp_oidtoip(&ident[1], &dest);
 8033a1e:	1d28      	adds	r0, r5, #4
 8033a20:	a901      	add	r1, sp, #4
  }
}

static void
ip_rteentry_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033a22:	4614      	mov	r4, r2
  ip_addr_t dest;
  s32_t *ident;
  u8_t id;

  ident = od->id_inst_ptr;
  snmp_oidtoip(&ident[1], &dest);
 8033a24:	f000 fd60 	bl	80344e8 <snmp_oidtoip>

  if (ip_addr_isany(&dest))
 8033a28:	9b01      	ldr	r3, [sp, #4]
 8033a2a:	b91b      	cbnz	r3, 8033a34 <ip_rteentry_get_value+0x1c>
  {
    /* ip_route() uses default netif for default route */
    netif = netif_default;
 8033a2c:	4a23      	ldr	r2, [pc, #140]	; (8033abc <ip_rteentry_get_value+0xa4>)
 8033a2e:	6810      	ldr	r0, [r2, #0]
            !ip_addr_netcmp(&dest, &(netif->ip_addr), &(netif->netmask)) )
    {
      netif = netif->next;
    }
  }
  if (netif != NULL)
 8033a30:	b960      	cbnz	r0, 8033a4c <ip_rteentry_get_value+0x34>
 8033a32:	e041      	b.n	8033ab8 <ip_rteentry_get_value+0xa0>
    netif = netif_default;
  }
  else
  {
    /* not using ip_route(), need exact match! */
    netif = netif_list;
 8033a34:	4a22      	ldr	r2, [pc, #136]	; (8033ac0 <ip_rteentry_get_value+0xa8>)
 8033a36:	6810      	ldr	r0, [r2, #0]
    while ((netif != NULL) &&
 8033a38:	e000      	b.n	8033a3c <ip_rteentry_get_value+0x24>
            !ip_addr_netcmp(&dest, &(netif->ip_addr), &(netif->netmask)) )
    {
      netif = netif->next;
 8033a3a:	6800      	ldr	r0, [r0, #0]
  }
  else
  {
    /* not using ip_route(), need exact match! */
    netif = netif_list;
    while ((netif != NULL) &&
 8033a3c:	2800      	cmp	r0, #0
 8033a3e:	d03b      	beq.n	8033ab8 <ip_rteentry_get_value+0xa0>
            !ip_addr_netcmp(&dest, &(netif->ip_addr), &(netif->netmask)) )
 8033a40:	6846      	ldr	r6, [r0, #4]
 8033a42:	ea83 0206 	eor.w	r2, r3, r6
 8033a46:	6886      	ldr	r6, [r0, #8]
  }
  else
  {
    /* not using ip_route(), need exact match! */
    netif = netif_list;
    while ((netif != NULL) &&
 8033a48:	4232      	tst	r2, r6
 8033a4a:	d1f6      	bne.n	8033a3a <ip_rteentry_get_value+0x22>
  }
  if (netif != NULL)
  {
    LWIP_ASSERT("invalid id", (ident[0] >= 0) && (ident[0] <= 0xff));
    id = (u8_t)ident[0];
    switch (id)
 8033a4c:	782d      	ldrb	r5, [r5, #0]
 8033a4e:	3d01      	subs	r5, #1
 8033a50:	2d0c      	cmp	r5, #12
 8033a52:	d831      	bhi.n	8033ab8 <ip_rteentry_get_value+0xa0>
 8033a54:	e8df f005 	tbb	[pc, r5]
 8033a58:	14110d07 	.word	0x14110d07
 8033a5c:	1c171414 	.word	0x1c171414
 8033a60:	14252321 	.word	0x14252321
 8033a64:	2a          	.byte	0x2a
 8033a65:	00          	.byte	0x00
    {
      case 1: /* ipRouteDest */
        {
          ip_addr_t *dst = (ip_addr_t*)value;

          if (ip_addr_isany(&dest))
 8033a66:	b903      	cbnz	r3, 8033a6a <ip_rteentry_get_value+0x52>
 8033a68:	e01e      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
            ip_addr_set_zero(dst);
          }
          else
          {
            /* netifs have netaddress dest */
            ip_addr_get_network(dst, &netif->ip_addr, &netif->netmask);
 8033a6a:	6882      	ldr	r2, [r0, #8]
 8033a6c:	6843      	ldr	r3, [r0, #4]
 8033a6e:	4013      	ands	r3, r2
 8033a70:	e01a      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
        break;
      case 2: /* ipRouteIfIndex */
        {
          s32_t *sint_ptr = (s32_t*)value;

          snmp_netiftoifindex(netif, sint_ptr);
 8033a72:	4621      	mov	r1, r4
 8033a74:	f000 fd28 	bl	80344c8 <snmp_netiftoifindex>
        }
        break;
 8033a78:	e01e      	b.n	8033ab8 <ip_rteentry_get_value+0xa0>
      case 3: /* ipRouteMetric1 */
        {
          s32_t *sint_ptr = (s32_t*)value;

          if (ip_addr_isany(&dest))
 8033a7a:	b983      	cbnz	r3, 8033a9e <ip_rteentry_get_value+0x86>
          {
            /* default rte has metric 1 */
            *sint_ptr = 1;
 8033a7c:	2301      	movs	r3, #1
 8033a7e:	e013      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
      case 6: /* ipRouteMetric4 */
      case 12: /* ipRouteMetric5 */
        {
          s32_t *sint_ptr = (s32_t*)value;
          /* not used */
          *sint_ptr = -1;
 8033a80:	f04f 33ff 	mov.w	r3, #4294967295
 8033a84:	e010      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
        break;
      case 7: /* ipRouteNextHop */
        {
          ip_addr_t *dst = (ip_addr_t*)value;

          if (ip_addr_isany(&dest))
 8033a86:	b90b      	cbnz	r3, 8033a8c <ip_rteentry_get_value+0x74>
          {
            /* default rte: gateway */
            *dst = netif->gw;
 8033a88:	68c3      	ldr	r3, [r0, #12]
 8033a8a:	e00d      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
          }
          else
          {
            /* other rtes: netif ip_addr  */
            *dst = netif->ip_addr;
 8033a8c:	6843      	ldr	r3, [r0, #4]
 8033a8e:	e00b      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
        break;
      case 8: /* ipRouteType */
        {
          s32_t *sint_ptr = (s32_t*)value;

          if (ip_addr_isany(&dest))
 8033a90:	b90b      	cbnz	r3, 8033a96 <ip_rteentry_get_value+0x7e>
          {
            /* default rte is indirect */
            *sint_ptr = 4;
 8033a92:	2304      	movs	r3, #4
 8033a94:	e008      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
          }
          else
          {
            /* other rtes are direct */
            *sint_ptr = 3;
 8033a96:	2303      	movs	r3, #3
 8033a98:	e006      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
        break;
      case 9: /* ipRouteProto */
        {
          s32_t *sint_ptr = (s32_t*)value;
          /* locally defined routes */
          *sint_ptr = 2;
 8033a9a:	2302      	movs	r3, #2
 8033a9c:	e004      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
      case 10: /* ipRouteAge */
        {
          s32_t *sint_ptr = (s32_t*)value;
          /** @todo (sysuptime - timestamp last change) / 100
              @see snmp_insert_iprteidx_tree() */
          *sint_ptr = 0;
 8033a9e:	2300      	movs	r3, #0
 8033aa0:	e002      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
        break;
      case 11: /* ipRouteMask */
        {
          ip_addr_t *dst = (ip_addr_t*)value;

          if (ip_addr_isany(&dest))
 8033aa2:	b903      	cbnz	r3, 8033aa6 <ip_rteentry_get_value+0x8e>
 8033aa4:	e000      	b.n	8033aa8 <ip_rteentry_get_value+0x90>
            ip_addr_set_zero(dst);
          }
          else
          {
            /* other rtes use netmask */
            *dst = netif->netmask;
 8033aa6:	6883      	ldr	r3, [r0, #8]
 8033aa8:	6023      	str	r3, [r4, #0]
 8033aaa:	e005      	b.n	8033ab8 <ip_rteentry_get_value+0xa0>
          }
        }
        break;
      case 13: /* ipRouteInfo */
        objectidncpy((s32_t*)value, (s32_t*)iprouteinfo.id, (u8_t)(len / sizeof(s32_t)));
 8033aac:	4620      	mov	r0, r4
 8033aae:	4905      	ldr	r1, [pc, #20]	; (8033ac4 <ip_rteentry_get_value+0xac>)
 8033ab0:	f3c7 0287 	ubfx	r2, r7, #2, #8
 8033ab4:	f7ff ff36 	bl	8033924 <objectidncpy>
        break;
    }
  }
}
 8033ab8:	bdfe      	pop	{r1, r2, r3, r4, r5, r6, r7, pc}
 8033aba:	bf00      	nop
 8033abc:	2000f6a4 	.word	0x2000f6a4
 8033ac0:	2000f6a0 	.word	0x2000f6a0
 8033ac4:	0804407c 	.word	0x0804407c

08033ac8 <snmp_set_sysdesr>:
 * @param str if non-NULL then copy str pointer
 * @param len points to string length, excluding zero terminator
 */
void snmp_set_sysdesr(u8_t *str, u8_t *len)
{
  if (str != NULL)
 8033ac8:	b118      	cbz	r0, 8033ad2 <snmp_set_sysdesr+0xa>
  {
    sysdescr_ptr = str;
 8033aca:	4b02      	ldr	r3, [pc, #8]	; (8033ad4 <snmp_set_sysdesr+0xc>)
 8033acc:	6018      	str	r0, [r3, #0]
    sysdescr_len_ptr = len;
 8033ace:	4b02      	ldr	r3, [pc, #8]	; (8033ad8 <snmp_set_sysdesr+0x10>)
 8033ad0:	6019      	str	r1, [r3, #0]
 8033ad2:	4770      	bx	lr
 8033ad4:	200008c0 	.word	0x200008c0
 8033ad8:	2000093c 	.word	0x2000093c

08033adc <snmp_set_sysobjid>:
 * Initializes sysObjectID value.
 *
 * @param oid points to stuct snmp_obj_id to copy
 */
void snmp_set_sysobjid(struct snmp_obj_id *oid)
{
 8033adc:	4601      	mov	r1, r0
 8033ade:	b508      	push	{r3, lr}
  sysobjid = *oid;
 8033ae0:	2284      	movs	r2, #132	; 0x84
 8033ae2:	4802      	ldr	r0, [pc, #8]	; (8033aec <snmp_set_sysobjid+0x10>)
 8033ae4:	f7ee f8a2 	bl	8021c2c <memcpy>
 8033ae8:	bd08      	pop	{r3, pc}
 8033aea:	bf00      	nop
 8033aec:	200007ec 	.word	0x200007ec

08033af0 <snmp_inc_sysuptime>:
 * Must be called at regular 10 msec interval from a timer interrupt
 * or signal handler depending on your runtime environment.
 */
void snmp_inc_sysuptime(void)
{
  sysuptime++;
 8033af0:	4b02      	ldr	r3, [pc, #8]	; (8033afc <snmp_inc_sysuptime+0xc>)
 8033af2:	681a      	ldr	r2, [r3, #0]
 8033af4:	3201      	adds	r2, #1
 8033af6:	601a      	str	r2, [r3, #0]
 8033af8:	4770      	bx	lr
 8033afa:	bf00      	nop
 8033afc:	2000c504 	.word	0x2000c504

08033b00 <snmp_get_sysuptime>:
{
  sysuptime+=value;
}

void snmp_get_sysuptime(u32_t *value)
{
 8033b00:	b510      	push	{r4, lr}
 8033b02:	4604      	mov	r4, r0
  SNMP_GET_SYSUPTIME(sysuptime);
 8033b04:	f003 f983 	bl	8036e0e <sys_now>
 8033b08:	230a      	movs	r3, #10
 8033b0a:	4a03      	ldr	r2, [pc, #12]	; (8033b18 <snmp_get_sysuptime+0x18>)
 8033b0c:	fbb0 f0f3 	udiv	r0, r0, r3
 8033b10:	6010      	str	r0, [r2, #0]
  *value = sysuptime;
 8033b12:	6020      	str	r0, [r4, #0]
 8033b14:	bd10      	pop	{r4, pc}
 8033b16:	bf00      	nop
 8033b18:	2000c504 	.word	0x2000c504

08033b1c <system_get_value>:
 * @param len return value space (in bytes)
 * @param value points to (varbind) space to copy value into.
 */
static void
system_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033b1c:	4613      	mov	r3, r2
  u8_t id;

  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
 8033b1e:	6882      	ldr	r2, [r0, #8]
  switch (id)
 8033b20:	7812      	ldrb	r2, [r2, #0]
 8033b22:	3a01      	subs	r2, #1
 * @param len return value space (in bytes)
 * @param value points to (varbind) space to copy value into.
 */
static void
system_get_value(struct obj_def *od, u16_t len, void *value)
{
 8033b24:	b510      	push	{r4, lr}
 8033b26:	460c      	mov	r4, r1
  u8_t id;

  LWIP_ASSERT("invalid id", (od->id_inst_ptr[0] >= 0) && (od->id_inst_ptr[0] <= 0xff));
  id = (u8_t)od->id_inst_ptr[0];
  switch (id)
 8033b28:	2a06      	cmp	r2, #6
 8033b2a:	d825      	bhi.n	8033b78 <system_get_value+0x5c>
 8033b2c:	e8df f002 	tbb	[pc, r2]
 8033b30:	140f0704 	.word	0x140f0704
 8033b34:	1a17      	.short	0x1a17
 8033b36:	22          	.byte	0x22
 8033b37:	00          	.byte	0x00
  {
    case 1: /* sysDescr */
      ocstrncpy((u8_t*)value, sysdescr_ptr, len);
 8033b38:	4618      	mov	r0, r3
 8033b3a:	4b10      	ldr	r3, [pc, #64]	; (8033b7c <system_get_value+0x60>)
 8033b3c:	e014      	b.n	8033b68 <system_get_value+0x4c>
      break;
    case 2: /* sysObjectID */
      objectidncpy((s32_t*)value, (s32_t*)sysobjid.id, (u8_t)(len / sizeof(s32_t)));
 8033b3e:	4910      	ldr	r1, [pc, #64]	; (8033b80 <system_get_value+0x64>)
 8033b40:	4618      	mov	r0, r3
 8033b42:	f3c4 0287 	ubfx	r2, r4, #2, #8
        s32_t *sint_ptr = (s32_t*)value;
        *sint_ptr = sysservices;
      }
      break;
  };
}
 8033b46:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  {
    case 1: /* sysDescr */
      ocstrncpy((u8_t*)value, sysdescr_ptr, len);
      break;
    case 2: /* sysObjectID */
      objectidncpy((s32_t*)value, (s32_t*)sysobjid.id, (u8_t)(len / sizeof(s32_t)));
 8033b4a:	f7ff beeb 	b.w	8033924 <objectidncpy>
      break;
    case 3: /* sysUpTime */
      {
        snmp_get_sysuptime((u32_t*)value);
 8033b4e:	4618      	mov	r0, r3
        s32_t *sint_ptr = (s32_t*)value;
        *sint_ptr = sysservices;
      }
      break;
  };
}
 8033b50:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
    case 2: /* sysObjectID */
      objectidncpy((s32_t*)value, (s32_t*)sysobjid.id, (u8_t)(len / sizeof(s32_t)));
      break;
    case 3: /* sysUpTime */
      {
        snmp_get_sysuptime((u32_t*)value);
 8033b54:	f7ff bfd4 	b.w	8033b00 <snmp_get_sysuptime>
      }
      break;
    case 4: /* sysContact */
      ocstrncpy((u8_t*)value, syscontact_ptr, len);
 8033b58:	4618      	mov	r0, r3
 8033b5a:	4b0a      	ldr	r3, [pc, #40]	; (8033b84 <system_get_value+0x68>)
 8033b5c:	e004      	b.n	8033b68 <system_get_value+0x4c>
      break;
    case 5: /* sysName */
      ocstrncpy((u8_t*)value, sysname_ptr, len);
 8033b5e:	4618      	mov	r0, r3
 8033b60:	4b09      	ldr	r3, [pc, #36]	; (8033b88 <system_get_value+0x6c>)
 8033b62:	e001      	b.n	8033b68 <system_get_value+0x4c>
      break;
    case 6: /* sysLocation */
      ocstrncpy((u8_t*)value, syslocation_ptr, len);
 8033b64:	4618      	mov	r0, r3
 8033b66:	4b09      	ldr	r3, [pc, #36]	; (8033b8c <system_get_value+0x70>)
 8033b68:	6819      	ldr	r1, [r3, #0]
 8033b6a:	4622      	mov	r2, r4
        s32_t *sint_ptr = (s32_t*)value;
        *sint_ptr = sysservices;
      }
      break;
  };
}
 8033b6c:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
      break;
    case 5: /* sysName */
      ocstrncpy((u8_t*)value, sysname_ptr, len);
      break;
    case 6: /* sysLocation */
      ocstrncpy((u8_t*)value, syslocation_ptr, len);
 8033b70:	f7ff bea0 	b.w	80338b4 <ocstrncpy>
      break;
    case 7: /* sysServices */
      {
        s32_t *sint_ptr = (s32_t*)value;
        *sint_ptr = sysservices;
 8033b74:	2248      	movs	r2, #72	; 0x48
 8033b76:	601a      	str	r2, [r3, #0]
 8033b78:	bd10      	pop	{r4, pc}
 8033b7a:	bf00      	nop
 8033b7c:	200008c0 	.word	0x200008c0
 8033b80:	200007f0 	.word	0x200007f0
 8033b84:	20000914 	.word	0x20000914
 8033b88:	200008a0 	.word	0x200008a0
 8033b8c:	20000a2c 	.word	0x20000a2c

08033b90 <snmp_set_syscontact>:
 * @param ocstr if non-NULL then copy str pointer
 * @param ocstrlen points to string length, excluding zero terminator
 */
void snmp_set_syscontact(u8_t *ocstr, u8_t *ocstrlen)
{
  if (ocstr != NULL)
 8033b90:	b118      	cbz	r0, 8033b9a <snmp_set_syscontact+0xa>
  {
    syscontact_ptr = ocstr;
 8033b92:	4b02      	ldr	r3, [pc, #8]	; (8033b9c <snmp_set_syscontact+0xc>)
 8033b94:	6018      	str	r0, [r3, #0]
    syscontact_len_ptr = ocstrlen;
 8033b96:	4b02      	ldr	r3, [pc, #8]	; (8033ba0 <snmp_set_syscontact+0x10>)
 8033b98:	6019      	str	r1, [r3, #0]
 8033b9a:	4770      	bx	lr
 8033b9c:	20000914 	.word	0x20000914
 8033ba0:	20000798 	.word	0x20000798

08033ba4 <snmp_set_sysname>:
 * @param ocstr if non-NULL then copy str pointer
 * @param ocstrlen points to string length, excluding zero terminator
 */
void snmp_set_sysname(u8_t *ocstr, u8_t *ocstrlen)
{
  if (ocstr != NULL)
 8033ba4:	b118      	cbz	r0, 8033bae <snmp_set_sysname+0xa>
  {
    sysname_ptr = ocstr;
 8033ba6:	4b02      	ldr	r3, [pc, #8]	; (8033bb0 <snmp_set_sysname+0xc>)
 8033ba8:	6018      	str	r0, [r3, #0]
    sysname_len_ptr = ocstrlen;
 8033baa:	4b02      	ldr	r3, [pc, #8]	; (8033bb4 <snmp_set_sysname+0x10>)
 8033bac:	6019      	str	r1, [r3, #0]
 8033bae:	4770      	bx	lr
 8033bb0:	200008a0 	.word	0x200008a0
 8033bb4:	20000794 	.word	0x20000794

08033bb8 <snmp_set_syslocation>:
 * @param ocstr if non-NULL then copy str pointer
 * @param ocstrlen points to string length, excluding zero terminator
 */
void snmp_set_syslocation(u8_t *ocstr, u8_t *ocstrlen)
{
  if (ocstr != NULL)
 8033bb8:	b118      	cbz	r0, 8033bc2 <snmp_set_syslocation+0xa>
  {
    syslocation_ptr = ocstr;
 8033bba:	4b02      	ldr	r3, [pc, #8]	; (8033bc4 <snmp_set_syslocation+0xc>)
 8033bbc:	6018      	str	r0, [r3, #0]
    syslocation_len_ptr = ocstrlen;
 8033bbe:	4b02      	ldr	r3, [pc, #8]	; (8033bc8 <snmp_set_syslocation+0x10>)
 8033bc0:	6019      	str	r1, [r3, #0]
 8033bc2:	4770      	bx	lr
 8033bc4:	20000a2c 	.word	0x20000a2c
 8033bc8:	20000980 	.word	0x20000980

08033bcc <snmp_inc_iflist>:
{
  (ni->ifoutdiscards)++;
}

void snmp_inc_iflist(void)
{
 8033bcc:	b507      	push	{r0, r1, r2, lr}
  struct mib_list_node *if_node = NULL;

  snmp_mib_node_insert(&iflist_root, iflist_root.count + 1, &if_node);
 8033bce:	4806      	ldr	r0, [pc, #24]	; (8033be8 <snmp_inc_iflist+0x1c>)
  (ni->ifoutdiscards)++;
}

void snmp_inc_iflist(void)
{
  struct mib_list_node *if_node = NULL;
 8033bd0:	aa02      	add	r2, sp, #8

  snmp_mib_node_insert(&iflist_root, iflist_root.count + 1, &if_node);
 8033bd2:	8b81      	ldrh	r1, [r0, #28]
  (ni->ifoutdiscards)++;
}

void snmp_inc_iflist(void)
{
  struct mib_list_node *if_node = NULL;
 8033bd4:	2300      	movs	r3, #0
 8033bd6:	f842 3d04 	str.w	r3, [r2, #-4]!

  snmp_mib_node_insert(&iflist_root, iflist_root.count + 1, &if_node);
 8033bda:	3101      	adds	r1, #1
 8033bdc:	f000 fccc 	bl	8034578 <snmp_mib_node_insert>
  /* enable getnext traversal on filled table */
  iftable.maxlength = 1;
 8033be0:	4b02      	ldr	r3, [pc, #8]	; (8033bec <snmp_inc_iflist+0x20>)
 8033be2:	2201      	movs	r2, #1
 8033be4:	825a      	strh	r2, [r3, #18]
}
 8033be6:	bd0e      	pop	{r1, r2, r3, pc}
 8033be8:	200007cc 	.word	0x200007cc
 8033bec:	20000944 	.word	0x20000944

08033bf0 <snmp_insert_arpidx_tree>:
/**
 * Inserts ARP table indexes (.xIfIndex.xNetAddress)
 * into arp table index trees (both atTable and ipNetToMediaTable).
 */
void snmp_insert_arpidx_tree(struct netif *ni, ip_addr_t *ip)
{
 8033bf0:	e92d 47f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, lr}
 8033bf4:	b086      	sub	sp, #24
 8033bf6:	460c      	mov	r4, r1
  struct mib_list_node *at_node;
  s32_t arpidx[5];
  u8_t level, tree;

  LWIP_ASSERT("ni != NULL", ni != NULL);
  snmp_netiftoifindex(ni, &arpidx[0]);
 8033bf8:	a901      	add	r1, sp, #4
 8033bfa:	f000 fc65 	bl	80344c8 <snmp_netiftoifindex>
  snmp_iptooid(ip, &arpidx[1]);
 8033bfe:	4620      	mov	r0, r4
 8033c00:	a902      	add	r1, sp, #8
 8033c02:	f000 fc7e 	bl	8034502 <snmp_iptooid>

  for (tree = 0; tree < 2; tree++)
  {
    if (tree == 0)
    {
      at_rn = &arptree_root;
 8033c06:	f8df 80a0 	ldr.w	r8, [pc, #160]	; 8033ca8 <snmp_insert_arpidx_tree+0xb8>

  LWIP_ASSERT("ni != NULL", ni != NULL);
  snmp_netiftoifindex(ni, &arpidx[0]);
  snmp_iptooid(ip, &arpidx[1]);

  for (tree = 0; tree < 2; tree++)
 8033c0a:	2500      	movs	r5, #0
  {
    if (tree == 0)
    {
      at_rn = &arptree_root;
 8033c0c:	4c1f      	ldr	r4, [pc, #124]	; (8033c8c <snmp_insert_arpidx_tree+0x9c>)
              else
              {
                at_rn->get_object_def = ip_ntomentry_get_object_def;
                at_rn->get_value = ip_ntomentry_get_value;
              }
              at_rn->set_test = noleafs_set_test;
 8033c0e:	f8df 909c 	ldr.w	r9, [pc, #156]	; 8033cac <snmp_insert_arpidx_tree+0xbc>
              at_rn->set_value = noleafs_set_value;
 8033c12:	f8df a09c 	ldr.w	sl, [pc, #156]	; 8033cb0 <snmp_insert_arpidx_tree+0xc0>

  for (tree = 0; tree < 2; tree++)
  {
    if (tree == 0)
    {
      at_rn = &arptree_root;
 8033c16:	2d00      	cmp	r5, #0
 8033c18:	bf18      	it	ne
 8033c1a:	4644      	movne	r4, r8
    }
    else
    {
      at_rn = &ipntomtree_root;
 8033c1c:	2600      	movs	r6, #0
    }
    for (level = 0; level < 5; level++)
    {
      at_node = NULL;
 8033c1e:	2300      	movs	r3, #0
 8033c20:	9300      	str	r3, [sp, #0]
      snmp_mib_node_insert(at_rn, arpidx[level], &at_node);
 8033c22:	ab01      	add	r3, sp, #4
 8033c24:	4620      	mov	r0, r4
 8033c26:	f853 1026 	ldr.w	r1, [r3, r6, lsl #2]
 8033c2a:	aa00      	add	r2, sp, #0
 8033c2c:	b2f7      	uxtb	r7, r6
 8033c2e:	f000 fca3 	bl	8034578 <snmp_mib_node_insert>
      if ((level != 4) && (at_node != NULL))
 8033c32:	2f04      	cmp	r7, #4
 8033c34:	d01d      	beq.n	8033c72 <snmp_insert_arpidx_tree+0x82>
 8033c36:	9b00      	ldr	r3, [sp, #0]
 8033c38:	b1db      	cbz	r3, 8033c72 <snmp_insert_arpidx_tree+0x82>
      {
        if (at_node->nptr == NULL)
 8033c3a:	68dc      	ldr	r4, [r3, #12]
 8033c3c:	b9cc      	cbnz	r4, 8033c72 <snmp_insert_arpidx_tree+0x82>
        {
          at_rn = snmp_mib_lrn_alloc();
 8033c3e:	f000 fc79 	bl	8034534 <snmp_mib_lrn_alloc>
          at_node->nptr = (struct mib_node*)at_rn;
 8033c42:	9b00      	ldr	r3, [sp, #0]
      snmp_mib_node_insert(at_rn, arpidx[level], &at_node);
      if ((level != 4) && (at_node != NULL))
      {
        if (at_node->nptr == NULL)
        {
          at_rn = snmp_mib_lrn_alloc();
 8033c44:	4604      	mov	r4, r0
          at_node->nptr = (struct mib_node*)at_rn;
 8033c46:	60d8      	str	r0, [r3, #12]
          if (at_rn != NULL)
 8033c48:	b920      	cbnz	r0, 8033c54 <snmp_insert_arpidx_tree+0x64>

  LWIP_ASSERT("ni != NULL", ni != NULL);
  snmp_netiftoifindex(ni, &arpidx[0]);
  snmp_iptooid(ip, &arpidx[1]);

  for (tree = 0; tree < 2; tree++)
 8033c4a:	3501      	adds	r5, #1
 8033c4c:	b2ed      	uxtb	r5, r5
 8033c4e:	2d02      	cmp	r5, #2
 8033c50:	d1dc      	bne.n	8033c0c <snmp_insert_arpidx_tree+0x1c>
 8033c52:	e012      	b.n	8033c7a <snmp_insert_arpidx_tree+0x8a>
        {
          at_rn = snmp_mib_lrn_alloc();
          at_node->nptr = (struct mib_node*)at_rn;
          if (at_rn != NULL)
          {
            if (level == 3)
 8033c54:	2f03      	cmp	r7, #3
 8033c56:	d10c      	bne.n	8033c72 <snmp_insert_arpidx_tree+0x82>
            {
              if (tree == 0)
 8033c58:	b91d      	cbnz	r5, 8033c62 <snmp_insert_arpidx_tree+0x72>
              {
                at_rn->get_object_def = atentry_get_object_def;
 8033c5a:	4b0d      	ldr	r3, [pc, #52]	; (8033c90 <snmp_insert_arpidx_tree+0xa0>)
 8033c5c:	6003      	str	r3, [r0, #0]
                at_rn->get_value = atentry_get_value;
 8033c5e:	4b0d      	ldr	r3, [pc, #52]	; (8033c94 <snmp_insert_arpidx_tree+0xa4>)
 8033c60:	e002      	b.n	8033c68 <snmp_insert_arpidx_tree+0x78>
              }
              else
              {
                at_rn->get_object_def = ip_ntomentry_get_object_def;
 8033c62:	4b0d      	ldr	r3, [pc, #52]	; (8033c98 <snmp_insert_arpidx_tree+0xa8>)
 8033c64:	6003      	str	r3, [r0, #0]
                at_rn->get_value = ip_ntomentry_get_value;
 8033c66:	4b0d      	ldr	r3, [pc, #52]	; (8033c9c <snmp_insert_arpidx_tree+0xac>)
 8033c68:	6063      	str	r3, [r4, #4]
              }
              at_rn->set_test = noleafs_set_test;
 8033c6a:	f8c4 9008 	str.w	r9, [r4, #8]
              at_rn->set_value = noleafs_set_value;
 8033c6e:	f8c4 a00c 	str.w	sl, [r4, #12]
 8033c72:	3601      	adds	r6, #1
    }
    else
    {
      at_rn = &ipntomtree_root;
    }
    for (level = 0; level < 5; level++)
 8033c74:	2e05      	cmp	r6, #5
 8033c76:	d1d2      	bne.n	8033c1e <snmp_insert_arpidx_tree+0x2e>
 8033c78:	e7e7      	b.n	8033c4a <snmp_insert_arpidx_tree+0x5a>
        }
      }
    }
  }
  /* enable getnext traversal on filled tables */
  at.maxlength = 1;
 8033c7a:	4a09      	ldr	r2, [pc, #36]	; (8033ca0 <snmp_insert_arpidx_tree+0xb0>)
 8033c7c:	2301      	movs	r3, #1
 8033c7e:	8253      	strh	r3, [r2, #18]
  ipntomtable.maxlength = 1;
 8033c80:	4a08      	ldr	r2, [pc, #32]	; (8033ca4 <snmp_insert_arpidx_tree+0xb4>)
 8033c82:	8253      	strh	r3, [r2, #18]
}
 8033c84:	b006      	add	sp, #24
 8033c86:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}
 8033c8a:	bf00      	nop
 8033c8c:	20000918 	.word	0x20000918
 8033c90:	08033679 	.word	0x08033679
 8033c94:	080335d1 	.word	0x080335d1
 8033c98:	0803375d 	.word	0x0803375d
 8033c9c:	08033575 	.word	0x08033575
 8033ca0:	2000073c 	.word	0x2000073c
 8033ca4:	20000720 	.word	0x20000720
 8033ca8:	20000a08 	.word	0x20000a08
 8033cac:	08032e93 	.word	0x08032e93
 8033cb0:	08032e97 	.word	0x08032e97

08033cb4 <snmp_delete_arpidx_tree>:
/**
 * Removes ARP table indexes (.xIfIndex.xNetAddress)
 * from arp table index trees.
 */
void snmp_delete_arpidx_tree(struct netif *ni, ip_addr_t *ip)
{
 8033cb4:	b5f0      	push	{r4, r5, r6, r7, lr}
 8033cb6:	b091      	sub	sp, #68	; 0x44
 8033cb8:	460c      	mov	r4, r1
  struct mib_list_rootnode *at_rn, *next, *del_rn[5];
  struct mib_list_node *at_n, *del_n[5];
  s32_t arpidx[5];
  u8_t fc, tree, level, del_cnt;

  snmp_netiftoifindex(ni, &arpidx[0]);
 8033cba:	a90b      	add	r1, sp, #44	; 0x2c
 8033cbc:	f000 fc04 	bl	80344c8 <snmp_netiftoifindex>
  snmp_iptooid(ip, &arpidx[1]);
 8033cc0:	4620      	mov	r0, r4
 8033cc2:	a90c      	add	r1, sp, #48	; 0x30
 8033cc4:	f000 fc1d 	bl	8034502 <snmp_iptooid>

  for (tree = 0; tree < 2; tree++)
 8033cc8:	2700      	movs	r7, #0
  {
    /* mark nodes for deletion */
    if (tree == 0)
    {
      at_rn = &arptree_root;
 8033cca:	4b26      	ldr	r3, [pc, #152]	; (8033d64 <snmp_delete_arpidx_tree+0xb0>)
 8033ccc:	4d26      	ldr	r5, [pc, #152]	; (8033d68 <snmp_delete_arpidx_tree+0xb4>)
    }
    else
    {
      at_rn = &ipntomtree_root;
 8033cce:	2600      	movs	r6, #0
  for (tree = 0; tree < 2; tree++)
  {
    /* mark nodes for deletion */
    if (tree == 0)
    {
      at_rn = &arptree_root;
 8033cd0:	2f00      	cmp	r7, #0
 8033cd2:	bf08      	it	eq
 8033cd4:	461d      	moveq	r5, r3
    }
    else
    {
      at_rn = &ipntomtree_root;
 8033cd6:	4634      	mov	r4, r6
    }
    level = 0;
    del_cnt = 0;
    while ((level < 5) && (at_rn != NULL))
    {
      fc = snmp_mib_node_find(at_rn, arpidx[level], &at_n);
 8033cd8:	ab0b      	add	r3, sp, #44	; 0x2c
 8033cda:	4628      	mov	r0, r5
 8033cdc:	58f1      	ldr	r1, [r6, r3]
 8033cde:	aa00      	add	r2, sp, #0
 8033ce0:	f000 fc85 	bl	80345ee <snmp_mib_node_find>
 8033ce4:	b2c0      	uxtb	r0, r0
      if (fc == 0)
 8033ce6:	b198      	cbz	r0, 8033d10 <snmp_delete_arpidx_tree+0x5c>
      {
        /* arpidx[level] does not exist */
        del_cnt = 0;
        at_rn = NULL;
      }
      else if (fc == 1)
 8033ce8:	2801      	cmp	r0, #1
 8033cea:	d10b      	bne.n	8033d04 <snmp_delete_arpidx_tree+0x50>
      {
        del_rn[del_cnt] = at_rn;
 8033cec:	ab10      	add	r3, sp, #64	; 0x40
 8033cee:	eb03 0284 	add.w	r2, r3, r4, lsl #2
        del_n[del_cnt] = at_n;
 8033cf2:	9b00      	ldr	r3, [sp, #0]
        del_cnt = 0;
        at_rn = NULL;
      }
      else if (fc == 1)
      {
        del_rn[del_cnt] = at_rn;
 8033cf4:	f842 5c3c 	str.w	r5, [r2, #-60]
        del_n[del_cnt] = at_n;
        del_cnt++;
 8033cf8:	3401      	adds	r4, #1
        at_rn = NULL;
      }
      else if (fc == 1)
      {
        del_rn[del_cnt] = at_rn;
        del_n[del_cnt] = at_n;
 8033cfa:	f842 3c28 	str.w	r3, [r2, #-40]
        del_cnt++;
 8033cfe:	b2e4      	uxtb	r4, r4
        at_rn = (struct mib_list_rootnode*)(at_n->nptr);
 8033d00:	68dd      	ldr	r5, [r3, #12]
 8033d02:	e007      	b.n	8033d14 <snmp_delete_arpidx_tree+0x60>
      }
      else if (fc == 2)
 8033d04:	2802      	cmp	r0, #2
 8033d06:	d105      	bne.n	8033d14 <snmp_delete_arpidx_tree+0x60>
      {
        /* reset delete (2 or more childs) */
        del_cnt = 0;
        at_rn = (struct mib_list_rootnode*)(at_n->nptr);
 8033d08:	9b00      	ldr	r3, [sp, #0]
        at_rn = (struct mib_list_rootnode*)(at_n->nptr);
      }
      else if (fc == 2)
      {
        /* reset delete (2 or more childs) */
        del_cnt = 0;
 8033d0a:	2400      	movs	r4, #0
        at_rn = (struct mib_list_rootnode*)(at_n->nptr);
 8033d0c:	68dd      	ldr	r5, [r3, #12]
 8033d0e:	e001      	b.n	8033d14 <snmp_delete_arpidx_tree+0x60>
    {
      fc = snmp_mib_node_find(at_rn, arpidx[level], &at_n);
      if (fc == 0)
      {
        /* arpidx[level] does not exist */
        del_cnt = 0;
 8033d10:	4604      	mov	r4, r0
        at_rn = NULL;
 8033d12:	4605      	mov	r5, r0
 8033d14:	3604      	adds	r6, #4
    {
      at_rn = &ipntomtree_root;
    }
    level = 0;
    del_cnt = 0;
    while ((level < 5) && (at_rn != NULL))
 8033d16:	2e14      	cmp	r6, #20
 8033d18:	d011      	beq.n	8033d3e <snmp_delete_arpidx_tree+0x8a>
 8033d1a:	2d00      	cmp	r5, #0
 8033d1c:	d1dc      	bne.n	8033cd8 <snmp_delete_arpidx_tree+0x24>
 8033d1e:	e00e      	b.n	8033d3e <snmp_delete_arpidx_tree+0x8a>
      level++;
    }
    /* delete marked index nodes */
    while (del_cnt > 0)
    {
      del_cnt--;
 8033d20:	3c01      	subs	r4, #1
 8033d22:	b2e4      	uxtb	r4, r4

      at_rn = del_rn[del_cnt];
 8033d24:	aa10      	add	r2, sp, #64	; 0x40
 8033d26:	eb02 0384 	add.w	r3, r2, r4, lsl #2
      at_n = del_n[del_cnt];
 8033d2a:	f853 1c28 	ldr.w	r1, [r3, #-40]
    /* delete marked index nodes */
    while (del_cnt > 0)
    {
      del_cnt--;

      at_rn = del_rn[del_cnt];
 8033d2e:	f853 0c3c 	ldr.w	r0, [r3, #-60]
      at_n = del_n[del_cnt];
 8033d32:	9100      	str	r1, [sp, #0]

      next = snmp_mib_node_delete(at_rn, at_n);
 8033d34:	f000 fc75 	bl	8034622 <snmp_mib_node_delete>
      if (next != NULL)
 8033d38:	b108      	cbz	r0, 8033d3e <snmp_delete_arpidx_tree+0x8a>
      {
        LWIP_ASSERT("next_count == 0",next->count == 0);
        snmp_mib_lrn_free(next);
 8033d3a:	f000 fc19 	bl	8034570 <snmp_mib_lrn_free>
        at_rn = (struct mib_list_rootnode*)(at_n->nptr);
      }
      level++;
    }
    /* delete marked index nodes */
    while (del_cnt > 0)
 8033d3e:	2c00      	cmp	r4, #0
 8033d40:	d1ee      	bne.n	8033d20 <snmp_delete_arpidx_tree+0x6c>
  u8_t fc, tree, level, del_cnt;

  snmp_netiftoifindex(ni, &arpidx[0]);
  snmp_iptooid(ip, &arpidx[1]);

  for (tree = 0; tree < 2; tree++)
 8033d42:	3701      	adds	r7, #1
 8033d44:	b2ff      	uxtb	r7, r7
 8033d46:	2f02      	cmp	r7, #2
 8033d48:	d1bf      	bne.n	8033cca <snmp_delete_arpidx_tree+0x16>
        snmp_mib_lrn_free(next);
      }
    }
  }
  /* disable getnext traversal on empty tables */
  if(arptree_root.count == 0) at.maxlength = 0;
 8033d4a:	4b06      	ldr	r3, [pc, #24]	; (8033d64 <snmp_delete_arpidx_tree+0xb0>)
 8033d4c:	8b9b      	ldrh	r3, [r3, #28]
 8033d4e:	b90b      	cbnz	r3, 8033d54 <snmp_delete_arpidx_tree+0xa0>
 8033d50:	4b06      	ldr	r3, [pc, #24]	; (8033d6c <snmp_delete_arpidx_tree+0xb8>)
 8033d52:	825c      	strh	r4, [r3, #18]
  if(ipntomtree_root.count == 0) ipntomtable.maxlength = 0;
 8033d54:	4b04      	ldr	r3, [pc, #16]	; (8033d68 <snmp_delete_arpidx_tree+0xb4>)
 8033d56:	8b9b      	ldrh	r3, [r3, #28]
 8033d58:	b90b      	cbnz	r3, 8033d5e <snmp_delete_arpidx_tree+0xaa>
 8033d5a:	4a05      	ldr	r2, [pc, #20]	; (8033d70 <snmp_delete_arpidx_tree+0xbc>)
 8033d5c:	8253      	strh	r3, [r2, #18]
}
 8033d5e:	b011      	add	sp, #68	; 0x44
 8033d60:	bdf0      	pop	{r4, r5, r6, r7, pc}
 8033d62:	bf00      	nop
 8033d64:	20000918 	.word	0x20000918
 8033d68:	20000a08 	.word	0x20000a08
 8033d6c:	2000073c 	.word	0x2000073c
 8033d70:	20000720 	.word	0x20000720

08033d74 <snmp_inc_ipinreceives>:

void snmp_inc_ipinreceives(void)
{
  ipinreceives++;
 8033d74:	4b02      	ldr	r3, [pc, #8]	; (8033d80 <snmp_inc_ipinreceives+0xc>)
 8033d76:	681a      	ldr	r2, [r3, #0]
 8033d78:	3201      	adds	r2, #1
 8033d7a:	601a      	str	r2, [r3, #0]
 8033d7c:	4770      	bx	lr
 8033d7e:	bf00      	nop
 8033d80:	2000c4d8 	.word	0x2000c4d8

08033d84 <snmp_inc_ipinhdrerrors>:
}

void snmp_inc_ipinhdrerrors(void)
{
  ipinhdrerrors++;
 8033d84:	4b02      	ldr	r3, [pc, #8]	; (8033d90 <snmp_inc_ipinhdrerrors+0xc>)
 8033d86:	681a      	ldr	r2, [r3, #0]
 8033d88:	3201      	adds	r2, #1
 8033d8a:	601a      	str	r2, [r3, #0]
 8033d8c:	4770      	bx	lr
 8033d8e:	bf00      	nop
 8033d90:	2000c460 	.word	0x2000c460

08033d94 <snmp_inc_ipinaddrerrors>:
}

void snmp_inc_ipinaddrerrors(void)
{
  ipinaddrerrors++;
 8033d94:	4b02      	ldr	r3, [pc, #8]	; (8033da0 <snmp_inc_ipinaddrerrors+0xc>)
 8033d96:	681a      	ldr	r2, [r3, #0]
 8033d98:	3201      	adds	r2, #1
 8033d9a:	601a      	str	r2, [r3, #0]
 8033d9c:	4770      	bx	lr
 8033d9e:	bf00      	nop
 8033da0:	2000c444 	.word	0x2000c444

08033da4 <snmp_inc_ipinunknownprotos>:
  ipforwdatagrams++;
}

void snmp_inc_ipinunknownprotos(void)
{
  ipinunknownprotos++;
 8033da4:	4b02      	ldr	r3, [pc, #8]	; (8033db0 <snmp_inc_ipinunknownprotos+0xc>)
 8033da6:	681a      	ldr	r2, [r3, #0]
 8033da8:	3201      	adds	r2, #1
 8033daa:	601a      	str	r2, [r3, #0]
 8033dac:	4770      	bx	lr
 8033dae:	bf00      	nop
 8033db0:	2000c4a0 	.word	0x2000c4a0

08033db4 <snmp_inc_ipindiscards>:
}

void snmp_inc_ipindiscards(void)
{
  ipindiscards++;
 8033db4:	4b02      	ldr	r3, [pc, #8]	; (8033dc0 <snmp_inc_ipindiscards+0xc>)
 8033db6:	681a      	ldr	r2, [r3, #0]
 8033db8:	3201      	adds	r2, #1
 8033dba:	601a      	str	r2, [r3, #0]
 8033dbc:	4770      	bx	lr
 8033dbe:	bf00      	nop
 8033dc0:	2000c52c 	.word	0x2000c52c

08033dc4 <snmp_inc_ipindelivers>:
}

void snmp_inc_ipindelivers(void)
{
  ipindelivers++;
 8033dc4:	4b02      	ldr	r3, [pc, #8]	; (8033dd0 <snmp_inc_ipindelivers+0xc>)
 8033dc6:	681a      	ldr	r2, [r3, #0]
 8033dc8:	3201      	adds	r2, #1
 8033dca:	601a      	str	r2, [r3, #0]
 8033dcc:	4770      	bx	lr
 8033dce:	bf00      	nop
 8033dd0:	2000c564 	.word	0x2000c564

08033dd4 <snmp_inc_ipoutrequests>:
}

void snmp_inc_ipoutrequests(void)
{
  ipoutrequests++;
 8033dd4:	4b02      	ldr	r3, [pc, #8]	; (8033de0 <snmp_inc_ipoutrequests+0xc>)
 8033dd6:	681a      	ldr	r2, [r3, #0]
 8033dd8:	3201      	adds	r2, #1
 8033dda:	601a      	str	r2, [r3, #0]
 8033ddc:	4770      	bx	lr
 8033dde:	bf00      	nop
 8033de0:	2000c54c 	.word	0x2000c54c

08033de4 <snmp_inc_ipoutdiscards>:
}

void snmp_inc_ipoutdiscards(void)
{
  ipoutdiscards++;
 8033de4:	4b02      	ldr	r3, [pc, #8]	; (8033df0 <snmp_inc_ipoutdiscards+0xc>)
 8033de6:	681a      	ldr	r2, [r3, #0]
 8033de8:	3201      	adds	r2, #1
 8033dea:	601a      	str	r2, [r3, #0]
 8033dec:	4770      	bx	lr
 8033dee:	bf00      	nop
 8033df0:	2000c4f0 	.word	0x2000c4f0

08033df4 <snmp_inc_ipoutnoroutes>:
}

void snmp_inc_ipoutnoroutes(void)
{
  ipoutnoroutes++;
 8033df4:	4b02      	ldr	r3, [pc, #8]	; (8033e00 <snmp_inc_ipoutnoroutes+0xc>)
 8033df6:	681a      	ldr	r2, [r3, #0]
 8033df8:	3201      	adds	r2, #1
 8033dfa:	601a      	str	r2, [r3, #0]
 8033dfc:	4770      	bx	lr
 8033dfe:	bf00      	nop
 8033e00:	2000c570 	.word	0x2000c570

08033e04 <snmp_insert_ipaddridx_tree>:
/**
 * Inserts ipAddrTable indexes (.ipAdEntAddr)
 * into index tree.
 */
void snmp_insert_ipaddridx_tree(struct netif *ni)
{
 8033e04:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 8033e08:	b086      	sub	sp, #24
  struct mib_list_node *ipa_node;
  s32_t ipaddridx[4];
  u8_t level;

  LWIP_ASSERT("ni != NULL", ni != NULL);
  snmp_iptooid(&ni->ip_addr, &ipaddridx[0]);
 8033e0a:	3004      	adds	r0, #4
 8033e0c:	a902      	add	r1, sp, #8
 8033e0e:	f000 fb78 	bl	8034502 <snmp_iptooid>

  level = 0;
  ipa_rn = &ipaddrtree_root;
 8033e12:	4c17      	ldr	r4, [pc, #92]	; (8033e70 <snmp_insert_ipaddridx_tree+0x6c>)
        ipa_node->nptr = (struct mib_node*)ipa_rn;
        if (ipa_rn != NULL)
        {
          if (level == 2)
          {
            ipa_rn->get_object_def = ip_addrentry_get_object_def;
 8033e14:	4f17      	ldr	r7, [pc, #92]	; (8033e74 <snmp_insert_ipaddridx_tree+0x70>)
            ipa_rn->get_value = ip_addrentry_get_value;
 8033e16:	f8df 806c 	ldr.w	r8, [pc, #108]	; 8033e84 <snmp_insert_ipaddridx_tree+0x80>
  struct mib_list_node *ipa_node;
  s32_t ipaddridx[4];
  u8_t level;

  LWIP_ASSERT("ni != NULL", ni != NULL);
  snmp_iptooid(&ni->ip_addr, &ipaddridx[0]);
 8033e1a:	2500      	movs	r5, #0

  level = 0;
  ipa_rn = &ipaddrtree_root;
  while (level < 4)
  {
    ipa_node = NULL;
 8033e1c:	2300      	movs	r3, #0
 8033e1e:	9301      	str	r3, [sp, #4]
    snmp_mib_node_insert(ipa_rn, ipaddridx[level], &ipa_node);
 8033e20:	ab02      	add	r3, sp, #8
 8033e22:	4620      	mov	r0, r4
 8033e24:	f853 1025 	ldr.w	r1, [r3, r5, lsl #2]
 8033e28:	aa01      	add	r2, sp, #4
 8033e2a:	b2ee      	uxtb	r6, r5
 8033e2c:	f000 fba4 	bl	8034578 <snmp_mib_node_insert>
    if ((level != 3) && (ipa_node != NULL))
 8033e30:	2e03      	cmp	r6, #3
 8033e32:	d015      	beq.n	8033e60 <snmp_insert_ipaddridx_tree+0x5c>
 8033e34:	9b01      	ldr	r3, [sp, #4]
 8033e36:	b19b      	cbz	r3, 8033e60 <snmp_insert_ipaddridx_tree+0x5c>
    {
      if (ipa_node->nptr == NULL)
 8033e38:	68dc      	ldr	r4, [r3, #12]
 8033e3a:	b98c      	cbnz	r4, 8033e60 <snmp_insert_ipaddridx_tree+0x5c>
      {
        ipa_rn = snmp_mib_lrn_alloc();
 8033e3c:	f000 fb7a 	bl	8034534 <snmp_mib_lrn_alloc>
        ipa_node->nptr = (struct mib_node*)ipa_rn;
 8033e40:	9b01      	ldr	r3, [sp, #4]
    snmp_mib_node_insert(ipa_rn, ipaddridx[level], &ipa_node);
    if ((level != 3) && (ipa_node != NULL))
    {
      if (ipa_node->nptr == NULL)
      {
        ipa_rn = snmp_mib_lrn_alloc();
 8033e42:	4604      	mov	r4, r0
        ipa_node->nptr = (struct mib_node*)ipa_rn;
 8033e44:	60d8      	str	r0, [r3, #12]
        if (ipa_rn != NULL)
 8033e46:	b918      	cbnz	r0, 8033e50 <snmp_insert_ipaddridx_tree+0x4c>
      }
    }
    level++;
  }
  /* enable getnext traversal on filled table */
  ipaddrtable.maxlength = 1;
 8033e48:	4b0b      	ldr	r3, [pc, #44]	; (8033e78 <snmp_insert_ipaddridx_tree+0x74>)
 8033e4a:	2201      	movs	r2, #1
 8033e4c:	825a      	strh	r2, [r3, #18]
 8033e4e:	e00b      	b.n	8033e68 <snmp_insert_ipaddridx_tree+0x64>
      {
        ipa_rn = snmp_mib_lrn_alloc();
        ipa_node->nptr = (struct mib_node*)ipa_rn;
        if (ipa_rn != NULL)
        {
          if (level == 2)
 8033e50:	2e02      	cmp	r6, #2
 8033e52:	d105      	bne.n	8033e60 <snmp_insert_ipaddridx_tree+0x5c>
          {
            ipa_rn->get_object_def = ip_addrentry_get_object_def;
            ipa_rn->get_value = ip_addrentry_get_value;
            ipa_rn->set_test = noleafs_set_test;
 8033e54:	4b09      	ldr	r3, [pc, #36]	; (8033e7c <snmp_insert_ipaddridx_tree+0x78>)
        if (ipa_rn != NULL)
        {
          if (level == 2)
          {
            ipa_rn->get_object_def = ip_addrentry_get_object_def;
            ipa_rn->get_value = ip_addrentry_get_value;
 8033e56:	e880 0180 	stmia.w	r0, {r7, r8}
            ipa_rn->set_test = noleafs_set_test;
 8033e5a:	6083      	str	r3, [r0, #8]
            ipa_rn->set_value = noleafs_set_value;
 8033e5c:	4b08      	ldr	r3, [pc, #32]	; (8033e80 <snmp_insert_ipaddridx_tree+0x7c>)
 8033e5e:	60c3      	str	r3, [r0, #12]
 8033e60:	3501      	adds	r5, #1
  LWIP_ASSERT("ni != NULL", ni != NULL);
  snmp_iptooid(&ni->ip_addr, &ipaddridx[0]);

  level = 0;
  ipa_rn = &ipaddrtree_root;
  while (level < 4)
 8033e62:	2d04      	cmp	r5, #4
 8033e64:	d1da      	bne.n	8033e1c <snmp_insert_ipaddridx_tree+0x18>
 8033e66:	e7ef      	b.n	8033e48 <snmp_insert_ipaddridx_tree+0x44>
    }
    level++;
  }
  /* enable getnext traversal on filled table */
  ipaddrtable.maxlength = 1;
}
 8033e68:	b006      	add	sp, #24
 8033e6a:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 8033e6e:	bf00      	nop
 8033e70:	20000874 	.word	0x20000874
 8033e74:	08033719 	.word	0x08033719
 8033e78:	200008f8 	.word	0x200008f8
 8033e7c:	08032e93 	.word	0x08032e93
 8033e80:	08032e97 	.word	0x08032e97
 8033e84:	08033509 	.word	0x08033509

08033e88 <snmp_delete_ipaddridx_tree>:
/**
 * Removes ipAddrTable indexes (.ipAdEntAddr)
 * from index tree.
 */
void snmp_delete_ipaddridx_tree(struct netif *ni)
{
 8033e88:	b570      	push	{r4, r5, r6, lr}
 8033e8a:	b08e      	sub	sp, #56	; 0x38
  struct mib_list_node *ipa_n, *del_n[4];
  s32_t ipaddridx[4];
  u8_t fc, level, del_cnt;

  LWIP_ASSERT("ni != NULL", ni != NULL);
  snmp_iptooid(&ni->ip_addr, &ipaddridx[0]);
 8033e8c:	3004      	adds	r0, #4
 8033e8e:	a90a      	add	r1, sp, #40	; 0x28
 8033e90:	f000 fb37 	bl	8034502 <snmp_iptooid>
 8033e94:	2600      	movs	r6, #0

  /* mark nodes for deletion */
  level = 0;
  del_cnt = 0;
  ipa_rn = &ipaddrtree_root;
 8033e96:	4d1f      	ldr	r5, [pc, #124]	; (8033f14 <snmp_delete_ipaddridx_tree+0x8c>)
  LWIP_ASSERT("ni != NULL", ni != NULL);
  snmp_iptooid(&ni->ip_addr, &ipaddridx[0]);

  /* mark nodes for deletion */
  level = 0;
  del_cnt = 0;
 8033e98:	4634      	mov	r4, r6
  ipa_rn = &ipaddrtree_root;
  while ((level < 4) && (ipa_rn != NULL))
  {
    fc = snmp_mib_node_find(ipa_rn, ipaddridx[level], &ipa_n);
 8033e9a:	ab0a      	add	r3, sp, #40	; 0x28
 8033e9c:	4628      	mov	r0, r5
 8033e9e:	58f1      	ldr	r1, [r6, r3]
 8033ea0:	aa01      	add	r2, sp, #4
 8033ea2:	f000 fba4 	bl	80345ee <snmp_mib_node_find>
 8033ea6:	b2c0      	uxtb	r0, r0
    if (fc == 0)
 8033ea8:	b198      	cbz	r0, 8033ed2 <snmp_delete_ipaddridx_tree+0x4a>
    {
      /* ipaddridx[level] does not exist */
      del_cnt = 0;
      ipa_rn = NULL;
    }
    else if (fc == 1)
 8033eaa:	2801      	cmp	r0, #1
 8033eac:	d10b      	bne.n	8033ec6 <snmp_delete_ipaddridx_tree+0x3e>
    {
      del_rn[del_cnt] = ipa_rn;
 8033eae:	ab0e      	add	r3, sp, #56	; 0x38
 8033eb0:	eb03 0284 	add.w	r2, r3, r4, lsl #2
      del_n[del_cnt] = ipa_n;
 8033eb4:	9b01      	ldr	r3, [sp, #4]
      del_cnt = 0;
      ipa_rn = NULL;
    }
    else if (fc == 1)
    {
      del_rn[del_cnt] = ipa_rn;
 8033eb6:	f842 5c30 	str.w	r5, [r2, #-48]
      del_n[del_cnt] = ipa_n;
      del_cnt++;
 8033eba:	3401      	adds	r4, #1
      ipa_rn = NULL;
    }
    else if (fc == 1)
    {
      del_rn[del_cnt] = ipa_rn;
      del_n[del_cnt] = ipa_n;
 8033ebc:	f842 3c20 	str.w	r3, [r2, #-32]
      del_cnt++;
 8033ec0:	b2e4      	uxtb	r4, r4
      ipa_rn = (struct mib_list_rootnode*)(ipa_n->nptr);
 8033ec2:	68dd      	ldr	r5, [r3, #12]
 8033ec4:	e007      	b.n	8033ed6 <snmp_delete_ipaddridx_tree+0x4e>
    }
    else if (fc == 2)
 8033ec6:	2802      	cmp	r0, #2
 8033ec8:	d105      	bne.n	8033ed6 <snmp_delete_ipaddridx_tree+0x4e>
    {
      /* reset delete (2 or more childs) */
      del_cnt = 0;
      ipa_rn = (struct mib_list_rootnode*)(ipa_n->nptr);
 8033eca:	9b01      	ldr	r3, [sp, #4]
      ipa_rn = (struct mib_list_rootnode*)(ipa_n->nptr);
    }
    else if (fc == 2)
    {
      /* reset delete (2 or more childs) */
      del_cnt = 0;
 8033ecc:	2400      	movs	r4, #0
      ipa_rn = (struct mib_list_rootnode*)(ipa_n->nptr);
 8033ece:	68dd      	ldr	r5, [r3, #12]
 8033ed0:	e001      	b.n	8033ed6 <snmp_delete_ipaddridx_tree+0x4e>
  {
    fc = snmp_mib_node_find(ipa_rn, ipaddridx[level], &ipa_n);
    if (fc == 0)
    {
      /* ipaddridx[level] does not exist */
      del_cnt = 0;
 8033ed2:	4604      	mov	r4, r0
      ipa_rn = NULL;
 8033ed4:	4605      	mov	r5, r0

  /* mark nodes for deletion */
  level = 0;
  del_cnt = 0;
  ipa_rn = &ipaddrtree_root;
  while ((level < 4) && (ipa_rn != NULL))
 8033ed6:	2e0c      	cmp	r6, #12
 8033ed8:	d012      	beq.n	8033f00 <snmp_delete_ipaddridx_tree+0x78>
 8033eda:	3604      	adds	r6, #4
 8033edc:	2d00      	cmp	r5, #0
 8033ede:	d1dc      	bne.n	8033e9a <snmp_delete_ipaddridx_tree+0x12>
 8033ee0:	e00e      	b.n	8033f00 <snmp_delete_ipaddridx_tree+0x78>
    level++;
  }
  /* delete marked index nodes */
  while (del_cnt > 0)
  {
    del_cnt--;
 8033ee2:	3c01      	subs	r4, #1
 8033ee4:	b2e4      	uxtb	r4, r4

    ipa_rn = del_rn[del_cnt];
 8033ee6:	aa0e      	add	r2, sp, #56	; 0x38
 8033ee8:	eb02 0384 	add.w	r3, r2, r4, lsl #2
    ipa_n = del_n[del_cnt];
 8033eec:	f853 1c20 	ldr.w	r1, [r3, #-32]
  /* delete marked index nodes */
  while (del_cnt > 0)
  {
    del_cnt--;

    ipa_rn = del_rn[del_cnt];
 8033ef0:	f853 0c30 	ldr.w	r0, [r3, #-48]
    ipa_n = del_n[del_cnt];
 8033ef4:	9101      	str	r1, [sp, #4]

    next = snmp_mib_node_delete(ipa_rn, ipa_n);
 8033ef6:	f000 fb94 	bl	8034622 <snmp_mib_node_delete>
    if (next != NULL)
 8033efa:	b108      	cbz	r0, 8033f00 <snmp_delete_ipaddridx_tree+0x78>
    {
      LWIP_ASSERT("next_count == 0",next->count == 0);
      snmp_mib_lrn_free(next);
 8033efc:	f000 fb38 	bl	8034570 <snmp_mib_lrn_free>
      ipa_rn = (struct mib_list_rootnode*)(ipa_n->nptr);
    }
    level++;
  }
  /* delete marked index nodes */
  while (del_cnt > 0)
 8033f00:	2c00      	cmp	r4, #0
 8033f02:	d1ee      	bne.n	8033ee2 <snmp_delete_ipaddridx_tree+0x5a>
      LWIP_ASSERT("next_count == 0",next->count == 0);
      snmp_mib_lrn_free(next);
    }
  }
  /* disable getnext traversal on empty table */
  if (ipaddrtree_root.count == 0) ipaddrtable.maxlength = 0;
 8033f04:	4b03      	ldr	r3, [pc, #12]	; (8033f14 <snmp_delete_ipaddridx_tree+0x8c>)
 8033f06:	8b9b      	ldrh	r3, [r3, #28]
 8033f08:	b90b      	cbnz	r3, 8033f0e <snmp_delete_ipaddridx_tree+0x86>
 8033f0a:	4b03      	ldr	r3, [pc, #12]	; (8033f18 <snmp_delete_ipaddridx_tree+0x90>)
 8033f0c:	825c      	strh	r4, [r3, #18]
}
 8033f0e:	b00e      	add	sp, #56	; 0x38
 8033f10:	bd70      	pop	{r4, r5, r6, pc}
 8033f12:	bf00      	nop
 8033f14:	20000874 	.word	0x20000874
 8033f18:	200008f8 	.word	0x200008f8

08033f1c <snmp_insert_iprteidx_tree>:
 *
 * @todo record sysuptime for _this_ route when it is installed
 *   (needed for ipRouteAge) in the netif.
 */
void snmp_insert_iprteidx_tree(u8_t dflt, struct netif *ni)
{
 8033f1c:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 8033f20:	b086      	sub	sp, #24
  u8_t insert = 0;
  ip_addr_t dst;

  if (dflt != 0)
 8033f22:	b110      	cbz	r0, 8033f2a <snmp_insert_iprteidx_tree+0xe>
  {
    /* the default route 0.0.0.0 */
    ip_addr_set_any(&dst);
 8033f24:	2300      	movs	r3, #0
 8033f26:	9300      	str	r3, [sp, #0]
 8033f28:	e02b      	b.n	8033f82 <snmp_insert_iprteidx_tree+0x66>
    insert = 1;
  }
  else
  {
    /* route to the network address */
    ip_addr_get_network(&dst, &ni->ip_addr, &ni->netmask);
 8033f2a:	688a      	ldr	r2, [r1, #8]
 8033f2c:	684b      	ldr	r3, [r1, #4]
 8033f2e:	4013      	ands	r3, r2
 8033f30:	9300      	str	r3, [sp, #0]
    /* exclude 0.0.0.0 network (reserved for default rte) */
    if (!ip_addr_isany(&dst)) {
 8033f32:	bb33      	cbnz	r3, 8033f82 <snmp_insert_iprteidx_tree+0x66>
 8033f34:	e021      	b.n	8033f7a <snmp_insert_iprteidx_tree+0x5e>
    snmp_iptooid(&dst, &iprteidx[0]);
    level = 0;
    iprte_rn = &iprtetree_root;
    while (level < 4)
    {
      iprte_node = NULL;
 8033f36:	2300      	movs	r3, #0
 8033f38:	9301      	str	r3, [sp, #4]
      snmp_mib_node_insert(iprte_rn, iprteidx[level], &iprte_node);
 8033f3a:	ab02      	add	r3, sp, #8
 8033f3c:	4620      	mov	r0, r4
 8033f3e:	f853 1025 	ldr.w	r1, [r3, r5, lsl #2]
 8033f42:	aa01      	add	r2, sp, #4
 8033f44:	b2ee      	uxtb	r6, r5
 8033f46:	f000 fb17 	bl	8034578 <snmp_mib_node_insert>
      if ((level != 3) && (iprte_node != NULL))
 8033f4a:	2e03      	cmp	r6, #3
 8033f4c:	d012      	beq.n	8033f74 <snmp_insert_iprteidx_tree+0x58>
 8033f4e:	9b01      	ldr	r3, [sp, #4]
 8033f50:	b183      	cbz	r3, 8033f74 <snmp_insert_iprteidx_tree+0x58>
      {
        if (iprte_node->nptr == NULL)
 8033f52:	68dc      	ldr	r4, [r3, #12]
 8033f54:	b974      	cbnz	r4, 8033f74 <snmp_insert_iprteidx_tree+0x58>
        {
          iprte_rn = snmp_mib_lrn_alloc();
 8033f56:	f000 faed 	bl	8034534 <snmp_mib_lrn_alloc>
          iprte_node->nptr = (struct mib_node*)iprte_rn;
 8033f5a:	9b01      	ldr	r3, [sp, #4]
      snmp_mib_node_insert(iprte_rn, iprteidx[level], &iprte_node);
      if ((level != 3) && (iprte_node != NULL))
      {
        if (iprte_node->nptr == NULL)
        {
          iprte_rn = snmp_mib_lrn_alloc();
 8033f5c:	4604      	mov	r4, r0
          iprte_node->nptr = (struct mib_node*)iprte_rn;
 8033f5e:	60d8      	str	r0, [r3, #12]
          if (iprte_rn != NULL)
 8033f60:	b158      	cbz	r0, 8033f7a <snmp_insert_iprteidx_tree+0x5e>
          {
            if (level == 2)
 8033f62:	2e02      	cmp	r6, #2
 8033f64:	d106      	bne.n	8033f74 <snmp_insert_iprteidx_tree+0x58>
            {
              iprte_rn->get_object_def = ip_rteentry_get_object_def;
              iprte_rn->get_value = ip_rteentry_get_value;
              iprte_rn->set_test = noleafs_set_test;
 8033f66:	4b0d      	ldr	r3, [pc, #52]	; (8033f9c <snmp_insert_iprteidx_tree+0x80>)
          iprte_node->nptr = (struct mib_node*)iprte_rn;
          if (iprte_rn != NULL)
          {
            if (level == 2)
            {
              iprte_rn->get_object_def = ip_rteentry_get_object_def;
 8033f68:	f8c0 8000 	str.w	r8, [r0]
              iprte_rn->get_value = ip_rteentry_get_value;
              iprte_rn->set_test = noleafs_set_test;
 8033f6c:	6083      	str	r3, [r0, #8]
              iprte_rn->set_value = noleafs_set_value;
 8033f6e:	4b0c      	ldr	r3, [pc, #48]	; (8033fa0 <snmp_insert_iprteidx_tree+0x84>)
          if (iprte_rn != NULL)
          {
            if (level == 2)
            {
              iprte_rn->get_object_def = ip_rteentry_get_object_def;
              iprte_rn->get_value = ip_rteentry_get_value;
 8033f70:	6047      	str	r7, [r0, #4]
              iprte_rn->set_test = noleafs_set_test;
              iprte_rn->set_value = noleafs_set_value;
 8033f72:	60c3      	str	r3, [r0, #12]
 8033f74:	3501      	adds	r5, #1
    u8_t level;

    snmp_iptooid(&dst, &iprteidx[0]);
    level = 0;
    iprte_rn = &iprtetree_root;
    while (level < 4)
 8033f76:	2d04      	cmp	r5, #4
 8033f78:	d1dd      	bne.n	8033f36 <snmp_insert_iprteidx_tree+0x1a>
      }
      level++;
    }
  }
  /* enable getnext traversal on filled table */
  iprtetable.maxlength = 1;
 8033f7a:	4b0a      	ldr	r3, [pc, #40]	; (8033fa4 <snmp_insert_iprteidx_tree+0x88>)
 8033f7c:	2201      	movs	r2, #1
 8033f7e:	825a      	strh	r2, [r3, #18]
 8033f80:	e009      	b.n	8033f96 <snmp_insert_iprteidx_tree+0x7a>
    struct mib_list_rootnode *iprte_rn;
    struct mib_list_node *iprte_node;
    s32_t iprteidx[4];
    u8_t level;

    snmp_iptooid(&dst, &iprteidx[0]);
 8033f82:	4668      	mov	r0, sp
 8033f84:	a902      	add	r1, sp, #8
 8033f86:	f000 fabc 	bl	8034502 <snmp_iptooid>
 8033f8a:	2500      	movs	r5, #0
    level = 0;
    iprte_rn = &iprtetree_root;
 8033f8c:	4c06      	ldr	r4, [pc, #24]	; (8033fa8 <snmp_insert_iprteidx_tree+0x8c>)
          iprte_node->nptr = (struct mib_node*)iprte_rn;
          if (iprte_rn != NULL)
          {
            if (level == 2)
            {
              iprte_rn->get_object_def = ip_rteentry_get_object_def;
 8033f8e:	f8df 8020 	ldr.w	r8, [pc, #32]	; 8033fb0 <snmp_insert_iprteidx_tree+0x94>
              iprte_rn->get_value = ip_rteentry_get_value;
 8033f92:	4f06      	ldr	r7, [pc, #24]	; (8033fac <snmp_insert_iprteidx_tree+0x90>)
 8033f94:	e7cf      	b.n	8033f36 <snmp_insert_iprteidx_tree+0x1a>
      level++;
    }
  }
  /* enable getnext traversal on filled table */
  iprtetable.maxlength = 1;
}
 8033f96:	b006      	add	sp, #24
 8033f98:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 8033f9c:	08032e93 	.word	0x08032e93
 8033fa0:	08032e97 	.word	0x08032e97
 8033fa4:	20000960 	.word	0x20000960
 8033fa8:	200007a4 	.word	0x200007a4
 8033fac:	08033a19 	.word	0x08033a19
 8033fb0:	0803305d 	.word	0x0803305d

08033fb4 <snmp_delete_iprteidx_tree>:
 * @param dflt non-zero for the default rte, zero for network rte
 * @param ni points to network interface for this rte or NULL
 *   for default route to be removed.
 */
void snmp_delete_iprteidx_tree(u8_t dflt, struct netif *ni)
{
 8033fb4:	b570      	push	{r4, r5, r6, lr}
 8033fb6:	b08e      	sub	sp, #56	; 0x38
  u8_t del = 0;
  ip_addr_t dst;

  if (dflt != 0)
 8033fb8:	b110      	cbz	r0, 8033fc0 <snmp_delete_iprteidx_tree+0xc>
  {
    /* the default route 0.0.0.0 */
    ip_addr_set_any(&dst);
 8033fba:	2300      	movs	r3, #0
 8033fbc:	9300      	str	r3, [sp, #0]
 8033fbe:	e041      	b.n	8034044 <snmp_delete_iprteidx_tree+0x90>
    del = 1;
  }
  else
  {
    /* route to the network address */
    ip_addr_get_network(&dst, &ni->ip_addr, &ni->netmask);
 8033fc0:	688a      	ldr	r2, [r1, #8]
 8033fc2:	684b      	ldr	r3, [r1, #4]
 8033fc4:	4013      	ands	r3, r2
 8033fc6:	9300      	str	r3, [sp, #0]
    /* exclude 0.0.0.0 network (reserved for default rte) */
    if (!ip_addr_isany(&dst)) {
 8033fc8:	2b00      	cmp	r3, #0
 8033fca:	d13b      	bne.n	8034044 <snmp_delete_iprteidx_tree+0x90>
 8033fcc:	e034      	b.n	8034038 <snmp_delete_iprteidx_tree+0x84>
    level = 0;
    del_cnt = 0;
    iprte_rn = &iprtetree_root;
    while ((level < 4) && (iprte_rn != NULL))
    {
      fc = snmp_mib_node_find(iprte_rn, iprteidx[level], &iprte_n);
 8033fce:	ab0a      	add	r3, sp, #40	; 0x28
 8033fd0:	4628      	mov	r0, r5
 8033fd2:	58f1      	ldr	r1, [r6, r3]
 8033fd4:	aa01      	add	r2, sp, #4
 8033fd6:	f000 fb0a 	bl	80345ee <snmp_mib_node_find>
 8033fda:	b2c0      	uxtb	r0, r0
      if (fc == 0)
 8033fdc:	b198      	cbz	r0, 8034006 <snmp_delete_iprteidx_tree+0x52>
      {
        /* iprteidx[level] does not exist */
        del_cnt = 0;
        iprte_rn = NULL;
      }
      else if (fc == 1)
 8033fde:	2801      	cmp	r0, #1
 8033fe0:	d10b      	bne.n	8033ffa <snmp_delete_iprteidx_tree+0x46>
      {
        del_rn[del_cnt] = iprte_rn;
 8033fe2:	ab0e      	add	r3, sp, #56	; 0x38
 8033fe4:	eb03 0284 	add.w	r2, r3, r4, lsl #2
        del_n[del_cnt] = iprte_n;
 8033fe8:	9b01      	ldr	r3, [sp, #4]
        del_cnt = 0;
        iprte_rn = NULL;
      }
      else if (fc == 1)
      {
        del_rn[del_cnt] = iprte_rn;
 8033fea:	f842 5c30 	str.w	r5, [r2, #-48]
        del_n[del_cnt] = iprte_n;
        del_cnt++;
 8033fee:	3401      	adds	r4, #1
        iprte_rn = NULL;
      }
      else if (fc == 1)
      {
        del_rn[del_cnt] = iprte_rn;
        del_n[del_cnt] = iprte_n;
 8033ff0:	f842 3c20 	str.w	r3, [r2, #-32]
        del_cnt++;
 8033ff4:	b2e4      	uxtb	r4, r4
        iprte_rn = (struct mib_list_rootnode*)(iprte_n->nptr);
 8033ff6:	68dd      	ldr	r5, [r3, #12]
 8033ff8:	e007      	b.n	803400a <snmp_delete_iprteidx_tree+0x56>
      }
      else if (fc == 2)
 8033ffa:	2802      	cmp	r0, #2
 8033ffc:	d105      	bne.n	803400a <snmp_delete_iprteidx_tree+0x56>
      {
        /* reset delete (2 or more childs) */
        del_cnt = 0;
        iprte_rn = (struct mib_list_rootnode*)(iprte_n->nptr);
 8033ffe:	9b01      	ldr	r3, [sp, #4]
        iprte_rn = (struct mib_list_rootnode*)(iprte_n->nptr);
      }
      else if (fc == 2)
      {
        /* reset delete (2 or more childs) */
        del_cnt = 0;
 8034000:	2400      	movs	r4, #0
        iprte_rn = (struct mib_list_rootnode*)(iprte_n->nptr);
 8034002:	68dd      	ldr	r5, [r3, #12]
 8034004:	e001      	b.n	803400a <snmp_delete_iprteidx_tree+0x56>
    {
      fc = snmp_mib_node_find(iprte_rn, iprteidx[level], &iprte_n);
      if (fc == 0)
      {
        /* iprteidx[level] does not exist */
        del_cnt = 0;
 8034006:	4604      	mov	r4, r0
        iprte_rn = NULL;
 8034008:	4605      	mov	r5, r0
    snmp_iptooid(&dst, &iprteidx[0]);
    /* mark nodes for deletion */
    level = 0;
    del_cnt = 0;
    iprte_rn = &iprtetree_root;
    while ((level < 4) && (iprte_rn != NULL))
 803400a:	2e0c      	cmp	r6, #12
 803400c:	d012      	beq.n	8034034 <snmp_delete_iprteidx_tree+0x80>
 803400e:	3604      	adds	r6, #4
 8034010:	2d00      	cmp	r5, #0
 8034012:	d1dc      	bne.n	8033fce <snmp_delete_iprteidx_tree+0x1a>
 8034014:	e00e      	b.n	8034034 <snmp_delete_iprteidx_tree+0x80>
      level++;
    }
    /* delete marked index nodes */
    while (del_cnt > 0)
    {
      del_cnt--;
 8034016:	3c01      	subs	r4, #1
 8034018:	b2e4      	uxtb	r4, r4

      iprte_rn = del_rn[del_cnt];
 803401a:	aa0e      	add	r2, sp, #56	; 0x38
 803401c:	eb02 0384 	add.w	r3, r2, r4, lsl #2
      iprte_n = del_n[del_cnt];
 8034020:	f853 1c20 	ldr.w	r1, [r3, #-32]
    /* delete marked index nodes */
    while (del_cnt > 0)
    {
      del_cnt--;

      iprte_rn = del_rn[del_cnt];
 8034024:	f853 0c30 	ldr.w	r0, [r3, #-48]
      iprte_n = del_n[del_cnt];
 8034028:	9101      	str	r1, [sp, #4]

      next = snmp_mib_node_delete(iprte_rn, iprte_n);
 803402a:	f000 fafa 	bl	8034622 <snmp_mib_node_delete>
      if (next != NULL)
 803402e:	b108      	cbz	r0, 8034034 <snmp_delete_iprteidx_tree+0x80>
      {
        LWIP_ASSERT("next_count == 0",next->count == 0);
        snmp_mib_lrn_free(next);
 8034030:	f000 fa9e 	bl	8034570 <snmp_mib_lrn_free>
        iprte_rn = (struct mib_list_rootnode*)(iprte_n->nptr);
      }
      level++;
    }
    /* delete marked index nodes */
    while (del_cnt > 0)
 8034034:	2c00      	cmp	r4, #0
 8034036:	d1ee      	bne.n	8034016 <snmp_delete_iprteidx_tree+0x62>
        snmp_mib_lrn_free(next);
      }
    }
  }
  /* disable getnext traversal on empty table */
  if (iprtetree_root.count == 0) iprtetable.maxlength = 0;
 8034038:	4b07      	ldr	r3, [pc, #28]	; (8034058 <snmp_delete_iprteidx_tree+0xa4>)
 803403a:	8b9b      	ldrh	r3, [r3, #28]
 803403c:	b953      	cbnz	r3, 8034054 <snmp_delete_iprteidx_tree+0xa0>
 803403e:	4a07      	ldr	r2, [pc, #28]	; (803405c <snmp_delete_iprteidx_tree+0xa8>)
 8034040:	8253      	strh	r3, [r2, #18]
 8034042:	e007      	b.n	8034054 <snmp_delete_iprteidx_tree+0xa0>
    struct mib_list_rootnode *iprte_rn, *next, *del_rn[4];
    struct mib_list_node *iprte_n, *del_n[4];
    s32_t iprteidx[4];
    u8_t fc, level, del_cnt;

    snmp_iptooid(&dst, &iprteidx[0]);
 8034044:	4668      	mov	r0, sp
 8034046:	a90a      	add	r1, sp, #40	; 0x28
 8034048:	2600      	movs	r6, #0
 803404a:	f000 fa5a 	bl	8034502 <snmp_iptooid>
    /* mark nodes for deletion */
    level = 0;
    del_cnt = 0;
 803404e:	4634      	mov	r4, r6
    iprte_rn = &iprtetree_root;
 8034050:	4d01      	ldr	r5, [pc, #4]	; (8034058 <snmp_delete_iprteidx_tree+0xa4>)
 8034052:	e7bc      	b.n	8033fce <snmp_delete_iprteidx_tree+0x1a>
      }
    }
  }
  /* disable getnext traversal on empty table */
  if (iprtetree_root.count == 0) iprtetable.maxlength = 0;
}
 8034054:	b00e      	add	sp, #56	; 0x38
 8034056:	bd70      	pop	{r4, r5, r6, pc}
 8034058:	200007a4 	.word	0x200007a4
 803405c:	20000960 	.word	0x20000960

08034060 <snmp_inc_icmpinmsgs>:


void snmp_inc_icmpinmsgs(void)
{
  icmpinmsgs++;
 8034060:	4b02      	ldr	r3, [pc, #8]	; (803406c <snmp_inc_icmpinmsgs+0xc>)
 8034062:	681a      	ldr	r2, [r3, #0]
 8034064:	3201      	adds	r2, #1
 8034066:	601a      	str	r2, [r3, #0]
 8034068:	4770      	bx	lr
 803406a:	bf00      	nop
 803406c:	2000c468 	.word	0x2000c468

08034070 <snmp_inc_icmpinerrors>:
}

void snmp_inc_icmpinerrors(void)
{
  icmpinerrors++;
 8034070:	4b02      	ldr	r3, [pc, #8]	; (803407c <snmp_inc_icmpinerrors+0xc>)
 8034072:	681a      	ldr	r2, [r3, #0]
 8034074:	3201      	adds	r2, #1
 8034076:	601a      	str	r2, [r3, #0]
 8034078:	4770      	bx	lr
 803407a:	bf00      	nop
 803407c:	2000c464 	.word	0x2000c464

08034080 <snmp_inc_icmpoutmsgs>:
  icmpinaddrmaskreps++;
}

void snmp_inc_icmpoutmsgs(void)
{
  icmpoutmsgs++;
 8034080:	4b02      	ldr	r3, [pc, #8]	; (803408c <snmp_inc_icmpoutmsgs+0xc>)
 8034082:	681a      	ldr	r2, [r3, #0]
 8034084:	3201      	adds	r2, #1
 8034086:	601a      	str	r2, [r3, #0]
 8034088:	4770      	bx	lr
 803408a:	bf00      	nop
 803408c:	2000c4e8 	.word	0x2000c4e8

08034090 <snmp_inc_icmpouttimeexcds>:
  icmpoutdestunreachs++;
}

void snmp_inc_icmpouttimeexcds(void)
{
  icmpouttimeexcds++;
 8034090:	4b02      	ldr	r3, [pc, #8]	; (803409c <snmp_inc_icmpouttimeexcds+0xc>)
 8034092:	681a      	ldr	r2, [r3, #0]
 8034094:	3201      	adds	r2, #1
 8034096:	601a      	str	r2, [r3, #0]
 8034098:	4770      	bx	lr
 803409a:	bf00      	nop
 803409c:	2000c4b4 	.word	0x2000c4b4

080340a0 <snmp_inc_icmpoutechoreps>:
  icmpoutechos++;
}

void snmp_inc_icmpoutechoreps(void)
{
  icmpoutechoreps++;
 80340a0:	4b02      	ldr	r3, [pc, #8]	; (80340ac <snmp_inc_icmpoutechoreps+0xc>)
 80340a2:	681a      	ldr	r2, [r3, #0]
 80340a4:	3201      	adds	r2, #1
 80340a6:	601a      	str	r2, [r3, #0]
 80340a8:	4770      	bx	lr
 80340aa:	bf00      	nop
 80340ac:	2000c508 	.word	0x2000c508

080340b0 <snmp_inc_tcppassiveopens>:
  tcpactiveopens++;
}

void snmp_inc_tcppassiveopens(void)
{
  tcppassiveopens++;
 80340b0:	4b02      	ldr	r3, [pc, #8]	; (80340bc <snmp_inc_tcppassiveopens+0xc>)
 80340b2:	681a      	ldr	r2, [r3, #0]
 80340b4:	3201      	adds	r2, #1
 80340b6:	601a      	str	r2, [r3, #0]
 80340b8:	4770      	bx	lr
 80340ba:	bf00      	nop
 80340bc:	2000c490 	.word	0x2000c490

080340c0 <snmp_inc_tcpattemptfails>:
}

void snmp_inc_tcpattemptfails(void)
{
  tcpattemptfails++;
 80340c0:	4b02      	ldr	r3, [pc, #8]	; (80340cc <snmp_inc_tcpattemptfails+0xc>)
 80340c2:	681a      	ldr	r2, [r3, #0]
 80340c4:	3201      	adds	r2, #1
 80340c6:	601a      	str	r2, [r3, #0]
 80340c8:	4770      	bx	lr
 80340ca:	bf00      	nop
 80340cc:	2000c4dc 	.word	0x2000c4dc

080340d0 <snmp_inc_tcpestabresets>:
}

void snmp_inc_tcpestabresets(void)
{
  tcpestabresets++;
 80340d0:	4b02      	ldr	r3, [pc, #8]	; (80340dc <snmp_inc_tcpestabresets+0xc>)
 80340d2:	681a      	ldr	r2, [r3, #0]
 80340d4:	3201      	adds	r2, #1
 80340d6:	601a      	str	r2, [r3, #0]
 80340d8:	4770      	bx	lr
 80340da:	bf00      	nop
 80340dc:	2000c470 	.word	0x2000c470

080340e0 <snmp_inc_tcpinsegs>:
}

void snmp_inc_tcpinsegs(void)
{
  tcpinsegs++;
 80340e0:	4b02      	ldr	r3, [pc, #8]	; (80340ec <snmp_inc_tcpinsegs+0xc>)
 80340e2:	681a      	ldr	r2, [r3, #0]
 80340e4:	3201      	adds	r2, #1
 80340e6:	601a      	str	r2, [r3, #0]
 80340e8:	4770      	bx	lr
 80340ea:	bf00      	nop
 80340ec:	2000c4ec 	.word	0x2000c4ec

080340f0 <snmp_inc_tcpoutsegs>:
}

void snmp_inc_tcpoutsegs(void)
{
  tcpoutsegs++;
 80340f0:	4b02      	ldr	r3, [pc, #8]	; (80340fc <snmp_inc_tcpoutsegs+0xc>)
 80340f2:	681a      	ldr	r2, [r3, #0]
 80340f4:	3201      	adds	r2, #1
 80340f6:	601a      	str	r2, [r3, #0]
 80340f8:	4770      	bx	lr
 80340fa:	bf00      	nop
 80340fc:	2000c538 	.word	0x2000c538

08034100 <snmp_inc_tcpretranssegs>:
}

void snmp_inc_tcpretranssegs(void)
{
  tcpretranssegs++;
 8034100:	4b02      	ldr	r3, [pc, #8]	; (803410c <snmp_inc_tcpretranssegs+0xc>)
 8034102:	681a      	ldr	r2, [r3, #0]
 8034104:	3201      	adds	r2, #1
 8034106:	601a      	str	r2, [r3, #0]
 8034108:	4770      	bx	lr
 803410a:	bf00      	nop
 803410c:	2000c50c 	.word	0x2000c50c

08034110 <snmp_inc_tcpinerrs>:
}

void snmp_inc_tcpinerrs(void)
{
  tcpinerrs++;
 8034110:	4b02      	ldr	r3, [pc, #8]	; (803411c <snmp_inc_tcpinerrs+0xc>)
 8034112:	681a      	ldr	r2, [r3, #0]
 8034114:	3201      	adds	r2, #1
 8034116:	601a      	str	r2, [r3, #0]
 8034118:	4770      	bx	lr
 803411a:	bf00      	nop
 803411c:	2000c498 	.word	0x2000c498

08034120 <snmp_inc_tcpoutrsts>:
}

void snmp_inc_tcpoutrsts(void)
{
  tcpoutrsts++;
 8034120:	4b02      	ldr	r3, [pc, #8]	; (803412c <snmp_inc_tcpoutrsts+0xc>)
 8034122:	681a      	ldr	r2, [r3, #0]
 8034124:	3201      	adds	r2, #1
 8034126:	601a      	str	r2, [r3, #0]
 8034128:	4770      	bx	lr
 803412a:	bf00      	nop
 803412c:	2000c4fc 	.word	0x2000c4fc

08034130 <snmp_inc_udpindatagrams>:
}

void snmp_inc_udpindatagrams(void)
{
  udpindatagrams++;
 8034130:	4b02      	ldr	r3, [pc, #8]	; (803413c <snmp_inc_udpindatagrams+0xc>)
 8034132:	681a      	ldr	r2, [r3, #0]
 8034134:	3201      	adds	r2, #1
 8034136:	601a      	str	r2, [r3, #0]
 8034138:	4770      	bx	lr
 803413a:	bf00      	nop
 803413c:	2000c518 	.word	0x2000c518

08034140 <snmp_inc_udpnoports>:
}

void snmp_inc_udpnoports(void)
{
  udpnoports++;
 8034140:	4b02      	ldr	r3, [pc, #8]	; (803414c <snmp_inc_udpnoports+0xc>)
 8034142:	681a      	ldr	r2, [r3, #0]
 8034144:	3201      	adds	r2, #1
 8034146:	601a      	str	r2, [r3, #0]
 8034148:	4770      	bx	lr
 803414a:	bf00      	nop
 803414c:	2000c4d0 	.word	0x2000c4d0

08034150 <snmp_inc_udpinerrors>:
}

void snmp_inc_udpinerrors(void)
{
  udpinerrors++;
 8034150:	4b02      	ldr	r3, [pc, #8]	; (803415c <snmp_inc_udpinerrors+0xc>)
 8034152:	681a      	ldr	r2, [r3, #0]
 8034154:	3201      	adds	r2, #1
 8034156:	601a      	str	r2, [r3, #0]
 8034158:	4770      	bx	lr
 803415a:	bf00      	nop
 803415c:	2000c540 	.word	0x2000c540

08034160 <snmp_inc_udpoutdatagrams>:
}

void snmp_inc_udpoutdatagrams(void)
{
  udpoutdatagrams++;
 8034160:	4b02      	ldr	r3, [pc, #8]	; (803416c <snmp_inc_udpoutdatagrams+0xc>)
 8034162:	681a      	ldr	r2, [r3, #0]
 8034164:	3201      	adds	r2, #1
 8034166:	601a      	str	r2, [r3, #0]
 8034168:	4770      	bx	lr
 803416a:	bf00      	nop
 803416c:	2000c4c8 	.word	0x2000c4c8

08034170 <snmp_insert_udpidx_tree>:
/**
 * Inserts udpTable indexes (.udpLocalAddress.udpLocalPort)
 * into index tree.
 */
void snmp_insert_udpidx_tree(struct udp_pcb *pcb)
{
 8034170:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 8034174:	4604      	mov	r4, r0
 8034176:	b086      	sub	sp, #24
  struct mib_list_node *udp_node;
  s32_t udpidx[5];
  u8_t level;

  LWIP_ASSERT("pcb != NULL", pcb != NULL);
  snmp_iptooid(&pcb->local_ip, &udpidx[0]);
 8034178:	a901      	add	r1, sp, #4
 803417a:	f000 f9c2 	bl	8034502 <snmp_iptooid>
  udpidx[4] = pcb->local_port;
 803417e:	8a63      	ldrh	r3, [r4, #18]
        udp_node->nptr = (struct mib_node*)udp_rn;
        if (udp_rn != NULL)
        {
          if (level == 3)
          {
            udp_rn->get_object_def = udpentry_get_object_def;
 8034180:	4f17      	ldr	r7, [pc, #92]	; (80341e0 <snmp_insert_udpidx_tree+0x70>)

  LWIP_ASSERT("pcb != NULL", pcb != NULL);
  snmp_iptooid(&pcb->local_ip, &udpidx[0]);
  udpidx[4] = pcb->local_port;

  udp_rn = &udp_root;
 8034182:	4c18      	ldr	r4, [pc, #96]	; (80341e4 <snmp_insert_udpidx_tree+0x74>)
        if (udp_rn != NULL)
        {
          if (level == 3)
          {
            udp_rn->get_object_def = udpentry_get_object_def;
            udp_rn->get_value = udpentry_get_value;
 8034184:	f8df 806c 	ldr.w	r8, [pc, #108]	; 80341f4 <snmp_insert_udpidx_tree+0x84>
  s32_t udpidx[5];
  u8_t level;

  LWIP_ASSERT("pcb != NULL", pcb != NULL);
  snmp_iptooid(&pcb->local_ip, &udpidx[0]);
  udpidx[4] = pcb->local_port;
 8034188:	9305      	str	r3, [sp, #20]
 803418a:	2500      	movs	r5, #0

  udp_rn = &udp_root;
  for (level = 0; level < 5; level++)
  {
    udp_node = NULL;
 803418c:	2300      	movs	r3, #0
 803418e:	9300      	str	r3, [sp, #0]
    snmp_mib_node_insert(udp_rn, udpidx[level], &udp_node);
 8034190:	ab01      	add	r3, sp, #4
 8034192:	4620      	mov	r0, r4
 8034194:	f853 1025 	ldr.w	r1, [r3, r5, lsl #2]
 8034198:	466a      	mov	r2, sp
 803419a:	b2ee      	uxtb	r6, r5
 803419c:	f000 f9ec 	bl	8034578 <snmp_mib_node_insert>
    if ((level != 4) && (udp_node != NULL))
 80341a0:	2e04      	cmp	r6, #4
 80341a2:	d015      	beq.n	80341d0 <snmp_insert_udpidx_tree+0x60>
 80341a4:	9b00      	ldr	r3, [sp, #0]
 80341a6:	b19b      	cbz	r3, 80341d0 <snmp_insert_udpidx_tree+0x60>
    {
      if (udp_node->nptr == NULL)
 80341a8:	68dc      	ldr	r4, [r3, #12]
 80341aa:	b98c      	cbnz	r4, 80341d0 <snmp_insert_udpidx_tree+0x60>
      {
        udp_rn = snmp_mib_lrn_alloc();
 80341ac:	f000 f9c2 	bl	8034534 <snmp_mib_lrn_alloc>
        udp_node->nptr = (struct mib_node*)udp_rn;
 80341b0:	9b00      	ldr	r3, [sp, #0]
    snmp_mib_node_insert(udp_rn, udpidx[level], &udp_node);
    if ((level != 4) && (udp_node != NULL))
    {
      if (udp_node->nptr == NULL)
      {
        udp_rn = snmp_mib_lrn_alloc();
 80341b2:	4604      	mov	r4, r0
        udp_node->nptr = (struct mib_node*)udp_rn;
 80341b4:	60d8      	str	r0, [r3, #12]
        if (udp_rn != NULL)
 80341b6:	b918      	cbnz	r0, 80341c0 <snmp_insert_udpidx_tree+0x50>
      {
        udp_rn = (struct mib_list_rootnode*)udp_node->nptr;
      }
    }
  }
  udptable.maxlength = 1;
 80341b8:	4b0b      	ldr	r3, [pc, #44]	; (80341e8 <snmp_insert_udpidx_tree+0x78>)
 80341ba:	2201      	movs	r2, #1
 80341bc:	825a      	strh	r2, [r3, #18]
 80341be:	e00b      	b.n	80341d8 <snmp_insert_udpidx_tree+0x68>
      {
        udp_rn = snmp_mib_lrn_alloc();
        udp_node->nptr = (struct mib_node*)udp_rn;
        if (udp_rn != NULL)
        {
          if (level == 3)
 80341c0:	2e03      	cmp	r6, #3
 80341c2:	d105      	bne.n	80341d0 <snmp_insert_udpidx_tree+0x60>
          {
            udp_rn->get_object_def = udpentry_get_object_def;
            udp_rn->get_value = udpentry_get_value;
            udp_rn->set_test = noleafs_set_test;
 80341c4:	4b09      	ldr	r3, [pc, #36]	; (80341ec <snmp_insert_udpidx_tree+0x7c>)
        if (udp_rn != NULL)
        {
          if (level == 3)
          {
            udp_rn->get_object_def = udpentry_get_object_def;
            udp_rn->get_value = udpentry_get_value;
 80341c6:	e880 0180 	stmia.w	r0, {r7, r8}
            udp_rn->set_test = noleafs_set_test;
 80341ca:	6083      	str	r3, [r0, #8]
            udp_rn->set_value = noleafs_set_value;
 80341cc:	4b08      	ldr	r3, [pc, #32]	; (80341f0 <snmp_insert_udpidx_tree+0x80>)
 80341ce:	60c3      	str	r3, [r0, #12]
 80341d0:	3501      	adds	r5, #1
  LWIP_ASSERT("pcb != NULL", pcb != NULL);
  snmp_iptooid(&pcb->local_ip, &udpidx[0]);
  udpidx[4] = pcb->local_port;

  udp_rn = &udp_root;
  for (level = 0; level < 5; level++)
 80341d2:	2d05      	cmp	r5, #5
 80341d4:	d1da      	bne.n	803418c <snmp_insert_udpidx_tree+0x1c>
 80341d6:	e7ef      	b.n	80341b8 <snmp_insert_udpidx_tree+0x48>
        udp_rn = (struct mib_list_rootnode*)udp_node->nptr;
      }
    }
  }
  udptable.maxlength = 1;
}
 80341d8:	b006      	add	sp, #24
 80341da:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 80341de:	bf00      	nop
 80341e0:	08033805 	.word	0x08033805
 80341e4:	20000774 	.word	0x20000774
 80341e8:	20000758 	.word	0x20000758
 80341ec:	08032e93 	.word	0x08032e93
 80341f0:	08032e97 	.word	0x08032e97
 80341f4:	080334c1 	.word	0x080334c1

080341f8 <snmp_delete_udpidx_tree>:
/**
 * Removes udpTable indexes (.udpLocalAddress.udpLocalPort)
 * from index tree.
 */
void snmp_delete_udpidx_tree(struct udp_pcb *pcb)
{
 80341f8:	b570      	push	{r4, r5, r6, lr}
 80341fa:	4604      	mov	r4, r0
 80341fc:	b090      	sub	sp, #64	; 0x40
  struct mib_list_node *udp_n, *del_n[5];
  s32_t udpidx[5];
  u8_t bindings, fc, level, del_cnt;

  LWIP_ASSERT("pcb != NULL", pcb != NULL);
  snmp_iptooid(&pcb->local_ip, &udpidx[0]);
 80341fe:	a90b      	add	r1, sp, #44	; 0x2c
 8034200:	f000 f97f 	bl	8034502 <snmp_iptooid>
  udpidx[4] = pcb->local_port;
 8034204:	8a61      	ldrh	r1, [r4, #18]

  /* count PCBs for a given binding
     (e.g. when reusing ports or for temp output PCBs) */
  bindings = 0;
  npcb = udp_pcbs;
 8034206:	4b2a      	ldr	r3, [pc, #168]	; (80342b0 <snmp_delete_udpidx_tree+0xb8>)
  s32_t udpidx[5];
  u8_t bindings, fc, level, del_cnt;

  LWIP_ASSERT("pcb != NULL", pcb != NULL);
  snmp_iptooid(&pcb->local_ip, &udpidx[0]);
  udpidx[4] = pcb->local_port;
 8034208:	910f      	str	r1, [sp, #60]	; 0x3c

  /* count PCBs for a given binding
     (e.g. when reusing ports or for temp output PCBs) */
  bindings = 0;
  npcb = udp_pcbs;
 803420a:	681b      	ldr	r3, [r3, #0]
  snmp_iptooid(&pcb->local_ip, &udpidx[0]);
  udpidx[4] = pcb->local_port;

  /* count PCBs for a given binding
     (e.g. when reusing ports or for temp output PCBs) */
  bindings = 0;
 803420c:	2200      	movs	r2, #0
  npcb = udp_pcbs;
  while ((npcb != NULL))
 803420e:	e009      	b.n	8034224 <snmp_delete_udpidx_tree+0x2c>
  {
    if (ip_addr_cmp(&npcb->local_ip, &pcb->local_ip) &&
 8034210:	681d      	ldr	r5, [r3, #0]
 8034212:	6820      	ldr	r0, [r4, #0]
 8034214:	4285      	cmp	r5, r0
 8034216:	d104      	bne.n	8034222 <snmp_delete_udpidx_tree+0x2a>
        (npcb->local_port == udpidx[4]))
 8034218:	8a58      	ldrh	r0, [r3, #18]
     (e.g. when reusing ports or for temp output PCBs) */
  bindings = 0;
  npcb = udp_pcbs;
  while ((npcb != NULL))
  {
    if (ip_addr_cmp(&npcb->local_ip, &pcb->local_ip) &&
 803421a:	4288      	cmp	r0, r1
 803421c:	d101      	bne.n	8034222 <snmp_delete_udpidx_tree+0x2a>
        (npcb->local_port == udpidx[4]))
    {
      bindings++;
 803421e:	3201      	adds	r2, #1
 8034220:	b2d2      	uxtb	r2, r2
    }
    npcb = npcb->next;
 8034222:	68db      	ldr	r3, [r3, #12]

  /* count PCBs for a given binding
     (e.g. when reusing ports or for temp output PCBs) */
  bindings = 0;
  npcb = udp_pcbs;
  while ((npcb != NULL))
 8034224:	2b00      	cmp	r3, #0
 8034226:	d1f3      	bne.n	8034210 <snmp_delete_udpidx_tree+0x18>
    {
      bindings++;
    }
    npcb = npcb->next;
  }
  if (bindings == 1)
 8034228:	2a01      	cmp	r2, #1
 803422a:	d004      	beq.n	8034236 <snmp_delete_udpidx_tree+0x3e>
        snmp_mib_lrn_free(next);
      }
    }
  }
  /* disable getnext traversal on empty table */
  if (udp_root.count == 0) udptable.maxlength = 0;
 803422c:	4b21      	ldr	r3, [pc, #132]	; (80342b4 <snmp_delete_udpidx_tree+0xbc>)
 803422e:	8b9b      	ldrh	r3, [r3, #28]
 8034230:	2b00      	cmp	r3, #0
 8034232:	d039      	beq.n	80342a8 <snmp_delete_udpidx_tree+0xb0>
 8034234:	e03a      	b.n	80342ac <snmp_delete_udpidx_tree+0xb4>
  {
    /* selectively remove */
    /* mark nodes for deletion */
    level = 0;
    del_cnt = 0;
    udp_rn = &udp_root;
 8034236:	4d1f      	ldr	r5, [pc, #124]	; (80342b4 <snmp_delete_udpidx_tree+0xbc>)
    {
      bindings++;
    }
    npcb = npcb->next;
  }
  if (bindings == 1)
 8034238:	461e      	mov	r6, r3
 803423a:	461c      	mov	r4, r3
    level = 0;
    del_cnt = 0;
    udp_rn = &udp_root;
    while ((level < 5) && (udp_rn != NULL))
    {
      fc = snmp_mib_node_find(udp_rn, udpidx[level], &udp_n);
 803423c:	ab0b      	add	r3, sp, #44	; 0x2c
 803423e:	4628      	mov	r0, r5
 8034240:	58f1      	ldr	r1, [r6, r3]
 8034242:	466a      	mov	r2, sp
 8034244:	f000 f9d3 	bl	80345ee <snmp_mib_node_find>
 8034248:	b2c0      	uxtb	r0, r0
      if (fc == 0)
 803424a:	b198      	cbz	r0, 8034274 <snmp_delete_udpidx_tree+0x7c>
      {
        /* udpidx[level] does not exist */
        del_cnt = 0;
        udp_rn = NULL;
      }
      else if (fc == 1)
 803424c:	2801      	cmp	r0, #1
 803424e:	d10b      	bne.n	8034268 <snmp_delete_udpidx_tree+0x70>
      {
        del_rn[del_cnt] = udp_rn;
 8034250:	ab10      	add	r3, sp, #64	; 0x40
 8034252:	eb03 0284 	add.w	r2, r3, r4, lsl #2
        del_n[del_cnt] = udp_n;
 8034256:	9b00      	ldr	r3, [sp, #0]
        del_cnt = 0;
        udp_rn = NULL;
      }
      else if (fc == 1)
      {
        del_rn[del_cnt] = udp_rn;
 8034258:	f842 5c3c 	str.w	r5, [r2, #-60]
        del_n[del_cnt] = udp_n;
        del_cnt++;
 803425c:	3401      	adds	r4, #1
        udp_rn = NULL;
      }
      else if (fc == 1)
      {
        del_rn[del_cnt] = udp_rn;
        del_n[del_cnt] = udp_n;
 803425e:	f842 3c28 	str.w	r3, [r2, #-40]
        del_cnt++;
 8034262:	b2e4      	uxtb	r4, r4
        udp_rn = (struct mib_list_rootnode*)(udp_n->nptr);
 8034264:	68dd      	ldr	r5, [r3, #12]
 8034266:	e007      	b.n	8034278 <snmp_delete_udpidx_tree+0x80>
      }
      else if (fc == 2)
 8034268:	2802      	cmp	r0, #2
 803426a:	d105      	bne.n	8034278 <snmp_delete_udpidx_tree+0x80>
      {
        /* reset delete (2 or more childs) */
        del_cnt = 0;
        udp_rn = (struct mib_list_rootnode*)(udp_n->nptr);
 803426c:	9b00      	ldr	r3, [sp, #0]
        udp_rn = (struct mib_list_rootnode*)(udp_n->nptr);
      }
      else if (fc == 2)
      {
        /* reset delete (2 or more childs) */
        del_cnt = 0;
 803426e:	2400      	movs	r4, #0
        udp_rn = (struct mib_list_rootnode*)(udp_n->nptr);
 8034270:	68dd      	ldr	r5, [r3, #12]
 8034272:	e001      	b.n	8034278 <snmp_delete_udpidx_tree+0x80>
    {
      fc = snmp_mib_node_find(udp_rn, udpidx[level], &udp_n);
      if (fc == 0)
      {
        /* udpidx[level] does not exist */
        del_cnt = 0;
 8034274:	4604      	mov	r4, r0
        udp_rn = NULL;
 8034276:	4605      	mov	r5, r0
    /* selectively remove */
    /* mark nodes for deletion */
    level = 0;
    del_cnt = 0;
    udp_rn = &udp_root;
    while ((level < 5) && (udp_rn != NULL))
 8034278:	2e10      	cmp	r6, #16
 803427a:	d012      	beq.n	80342a2 <snmp_delete_udpidx_tree+0xaa>
 803427c:	3604      	adds	r6, #4
 803427e:	2d00      	cmp	r5, #0
 8034280:	d1dc      	bne.n	803423c <snmp_delete_udpidx_tree+0x44>
 8034282:	e00e      	b.n	80342a2 <snmp_delete_udpidx_tree+0xaa>
      level++;
    }
    /* delete marked index nodes */
    while (del_cnt > 0)
    {
      del_cnt--;
 8034284:	3c01      	subs	r4, #1
 8034286:	b2e4      	uxtb	r4, r4

      udp_rn = del_rn[del_cnt];
 8034288:	aa10      	add	r2, sp, #64	; 0x40
 803428a:	eb02 0384 	add.w	r3, r2, r4, lsl #2
      udp_n = del_n[del_cnt];
 803428e:	f853 1c28 	ldr.w	r1, [r3, #-40]
    /* delete marked index nodes */
    while (del_cnt > 0)
    {
      del_cnt--;

      udp_rn = del_rn[del_cnt];
 8034292:	f853 0c3c 	ldr.w	r0, [r3, #-60]
      udp_n = del_n[del_cnt];
 8034296:	9100      	str	r1, [sp, #0]

      next = snmp_mib_node_delete(udp_rn, udp_n);
 8034298:	f000 f9c3 	bl	8034622 <snmp_mib_node_delete>
      if (next != NULL)
 803429c:	b108      	cbz	r0, 80342a2 <snmp_delete_udpidx_tree+0xaa>
      {
        LWIP_ASSERT("next_count == 0",next->count == 0);
        snmp_mib_lrn_free(next);
 803429e:	f000 f967 	bl	8034570 <snmp_mib_lrn_free>
        udp_rn = (struct mib_list_rootnode*)(udp_n->nptr);
      }
      level++;
    }
    /* delete marked index nodes */
    while (del_cnt > 0)
 80342a2:	2c00      	cmp	r4, #0
 80342a4:	d1ee      	bne.n	8034284 <snmp_delete_udpidx_tree+0x8c>
 80342a6:	e7c1      	b.n	803422c <snmp_delete_udpidx_tree+0x34>
        snmp_mib_lrn_free(next);
      }
    }
  }
  /* disable getnext traversal on empty table */
  if (udp_root.count == 0) udptable.maxlength = 0;
 80342a8:	4a03      	ldr	r2, [pc, #12]	; (80342b8 <snmp_delete_udpidx_tree+0xc0>)
 80342aa:	8253      	strh	r3, [r2, #18]
}
 80342ac:	b010      	add	sp, #64	; 0x40
 80342ae:	bd70      	pop	{r4, r5, r6, pc}
 80342b0:	2000f6c8 	.word	0x2000f6c8
 80342b4:	20000774 	.word	0x20000774
 80342b8:	20000758 	.word	0x20000758

080342bc <snmp_inc_snmpinpkts>:


void snmp_inc_snmpinpkts(void)
{
  snmpinpkts++;
 80342bc:	4b02      	ldr	r3, [pc, #8]	; (80342c8 <snmp_inc_snmpinpkts+0xc>)
 80342be:	681a      	ldr	r2, [r3, #0]
 80342c0:	3201      	adds	r2, #1
 80342c2:	601a      	str	r2, [r3, #0]
 80342c4:	4770      	bx	lr
 80342c6:	bf00      	nop
 80342c8:	2000c474 	.word	0x2000c474

080342cc <snmp_inc_snmpoutpkts>:
}

void snmp_inc_snmpoutpkts(void)
{
  snmpoutpkts++;
 80342cc:	4b02      	ldr	r3, [pc, #8]	; (80342d8 <snmp_inc_snmpoutpkts+0xc>)
 80342ce:	681a      	ldr	r2, [r3, #0]
 80342d0:	3201      	adds	r2, #1
 80342d2:	601a      	str	r2, [r3, #0]
 80342d4:	4770      	bx	lr
 80342d6:	bf00      	nop
 80342d8:	2000c544 	.word	0x2000c544

080342dc <snmp_inc_snmpinbadversions>:
}

void snmp_inc_snmpinbadversions(void)
{
  snmpinbadversions++;
 80342dc:	4b02      	ldr	r3, [pc, #8]	; (80342e8 <snmp_inc_snmpinbadversions+0xc>)
 80342de:	681a      	ldr	r2, [r3, #0]
 80342e0:	3201      	adds	r2, #1
 80342e2:	601a      	str	r2, [r3, #0]
 80342e4:	4770      	bx	lr
 80342e6:	bf00      	nop
 80342e8:	2000c530 	.word	0x2000c530

080342ec <snmp_inc_snmpinbadcommunitynames>:
}

void snmp_inc_snmpinbadcommunitynames(void)
{
  snmpinbadcommunitynames++;
 80342ec:	4b02      	ldr	r3, [pc, #8]	; (80342f8 <snmp_inc_snmpinbadcommunitynames+0xc>)
 80342ee:	681a      	ldr	r2, [r3, #0]
 80342f0:	3201      	adds	r2, #1
 80342f2:	601a      	str	r2, [r3, #0]
 80342f4:	4770      	bx	lr
 80342f6:	bf00      	nop
 80342f8:	2000c448 	.word	0x2000c448

080342fc <snmp_inc_snmpinasnparseerrs>:
  snmpinbadcommunityuses++;
}

void snmp_inc_snmpinasnparseerrs(void)
{
  snmpinasnparseerrs++;
 80342fc:	4b02      	ldr	r3, [pc, #8]	; (8034308 <snmp_inc_snmpinasnparseerrs+0xc>)
 80342fe:	681a      	ldr	r2, [r3, #0]
 8034300:	3201      	adds	r2, #1
 8034302:	601a      	str	r2, [r3, #0]
 8034304:	4770      	bx	lr
 8034306:	bf00      	nop
 8034308:	2000c534 	.word	0x2000c534

0803430c <snmp_inc_snmpintoobigs>:
}

void snmp_inc_snmpintoobigs(void)
{
  snmpintoobigs++;
 803430c:	4b02      	ldr	r3, [pc, #8]	; (8034318 <snmp_inc_snmpintoobigs+0xc>)
 803430e:	681a      	ldr	r2, [r3, #0]
 8034310:	3201      	adds	r2, #1
 8034312:	601a      	str	r2, [r3, #0]
 8034314:	4770      	bx	lr
 8034316:	bf00      	nop
 8034318:	2000c4f4 	.word	0x2000c4f4

0803431c <snmp_inc_snmpinnosuchnames>:
}

void snmp_inc_snmpinnosuchnames(void)
{
  snmpinnosuchnames++;
 803431c:	4b02      	ldr	r3, [pc, #8]	; (8034328 <snmp_inc_snmpinnosuchnames+0xc>)
 803431e:	681a      	ldr	r2, [r3, #0]
 8034320:	3201      	adds	r2, #1
 8034322:	601a      	str	r2, [r3, #0]
 8034324:	4770      	bx	lr
 8034326:	bf00      	nop
 8034328:	2000c574 	.word	0x2000c574

0803432c <snmp_inc_snmpinbadvalues>:
}

void snmp_inc_snmpinbadvalues(void)
{
  snmpinbadvalues++;
 803432c:	4b02      	ldr	r3, [pc, #8]	; (8034338 <snmp_inc_snmpinbadvalues+0xc>)
 803432e:	681a      	ldr	r2, [r3, #0]
 8034330:	3201      	adds	r2, #1
 8034332:	601a      	str	r2, [r3, #0]
 8034334:	4770      	bx	lr
 8034336:	bf00      	nop
 8034338:	2000c510 	.word	0x2000c510

0803433c <snmp_inc_snmpinreadonlys>:
}

void snmp_inc_snmpinreadonlys(void)
{
  snmpinreadonlys++;
 803433c:	4b02      	ldr	r3, [pc, #8]	; (8034348 <snmp_inc_snmpinreadonlys+0xc>)
 803433e:	681a      	ldr	r2, [r3, #0]
 8034340:	3201      	adds	r2, #1
 8034342:	601a      	str	r2, [r3, #0]
 8034344:	4770      	bx	lr
 8034346:	bf00      	nop
 8034348:	2000c4e4 	.word	0x2000c4e4

0803434c <snmp_inc_snmpingenerrs>:
}

void snmp_inc_snmpingenerrs(void)
{
  snmpingenerrs++;
 803434c:	4b02      	ldr	r3, [pc, #8]	; (8034358 <snmp_inc_snmpingenerrs+0xc>)
 803434e:	681a      	ldr	r2, [r3, #0]
 8034350:	3201      	adds	r2, #1
 8034352:	601a      	str	r2, [r3, #0]
 8034354:	4770      	bx	lr
 8034356:	bf00      	nop
 8034358:	2000c4bc 	.word	0x2000c4bc

0803435c <snmp_add_snmpintotalreqvars>:
}

void snmp_add_snmpintotalreqvars(u8_t value)
{
  snmpintotalreqvars += value;
 803435c:	4b02      	ldr	r3, [pc, #8]	; (8034368 <snmp_add_snmpintotalreqvars+0xc>)
 803435e:	681a      	ldr	r2, [r3, #0]
 8034360:	1880      	adds	r0, r0, r2
 8034362:	6018      	str	r0, [r3, #0]
 8034364:	4770      	bx	lr
 8034366:	bf00      	nop
 8034368:	2000c514 	.word	0x2000c514

0803436c <snmp_add_snmpintotalsetvars>:
}

void snmp_add_snmpintotalsetvars(u8_t value)
{
  snmpintotalsetvars += value;
 803436c:	4b02      	ldr	r3, [pc, #8]	; (8034378 <snmp_add_snmpintotalsetvars+0xc>)
 803436e:	681a      	ldr	r2, [r3, #0]
 8034370:	1880      	adds	r0, r0, r2
 8034372:	6018      	str	r0, [r3, #0]
 8034374:	4770      	bx	lr
 8034376:	bf00      	nop
 8034378:	2000c454 	.word	0x2000c454

0803437c <snmp_inc_snmpingetrequests>:
}

void snmp_inc_snmpingetrequests(void)
{
  snmpingetrequests++;
 803437c:	4b02      	ldr	r3, [pc, #8]	; (8034388 <snmp_inc_snmpingetrequests+0xc>)
 803437e:	681a      	ldr	r2, [r3, #0]
 8034380:	3201      	adds	r2, #1
 8034382:	601a      	str	r2, [r3, #0]
 8034384:	4770      	bx	lr
 8034386:	bf00      	nop
 8034388:	2000c4a8 	.word	0x2000c4a8

0803438c <snmp_inc_snmpingetnexts>:
}

void snmp_inc_snmpingetnexts(void)
{
  snmpingetnexts++;
 803438c:	4b02      	ldr	r3, [pc, #8]	; (8034398 <snmp_inc_snmpingetnexts+0xc>)
 803438e:	681a      	ldr	r2, [r3, #0]
 8034390:	3201      	adds	r2, #1
 8034392:	601a      	str	r2, [r3, #0]
 8034394:	4770      	bx	lr
 8034396:	bf00      	nop
 8034398:	2000c42c 	.word	0x2000c42c

0803439c <snmp_inc_snmpinsetrequests>:
}

void snmp_inc_snmpinsetrequests(void)
{
  snmpinsetrequests++;
 803439c:	4b02      	ldr	r3, [pc, #8]	; (80343a8 <snmp_inc_snmpinsetrequests+0xc>)
 803439e:	681a      	ldr	r2, [r3, #0]
 80343a0:	3201      	adds	r2, #1
 80343a2:	601a      	str	r2, [r3, #0]
 80343a4:	4770      	bx	lr
 80343a6:	bf00      	nop
 80343a8:	2000c550 	.word	0x2000c550

080343ac <snmp_inc_snmpingetresponses>:
}

void snmp_inc_snmpingetresponses(void)
{
  snmpingetresponses++;
 80343ac:	4b02      	ldr	r3, [pc, #8]	; (80343b8 <snmp_inc_snmpingetresponses+0xc>)
 80343ae:	681a      	ldr	r2, [r3, #0]
 80343b0:	3201      	adds	r2, #1
 80343b2:	601a      	str	r2, [r3, #0]
 80343b4:	4770      	bx	lr
 80343b6:	bf00      	nop
 80343b8:	2000c4a4 	.word	0x2000c4a4

080343bc <snmp_inc_snmpintraps>:
}

void snmp_inc_snmpintraps(void)
{
  snmpintraps++;
 80343bc:	4b02      	ldr	r3, [pc, #8]	; (80343c8 <snmp_inc_snmpintraps+0xc>)
 80343be:	681a      	ldr	r2, [r3, #0]
 80343c0:	3201      	adds	r2, #1
 80343c2:	601a      	str	r2, [r3, #0]
 80343c4:	4770      	bx	lr
 80343c6:	bf00      	nop
 80343c8:	2000c43c 	.word	0x2000c43c

080343cc <snmp_inc_snmpouttoobigs>:
}

void snmp_inc_snmpouttoobigs(void)
{
  snmpouttoobigs++;
 80343cc:	4b02      	ldr	r3, [pc, #8]	; (80343d8 <snmp_inc_snmpouttoobigs+0xc>)
 80343ce:	681a      	ldr	r2, [r3, #0]
 80343d0:	3201      	adds	r2, #1
 80343d2:	601a      	str	r2, [r3, #0]
 80343d4:	4770      	bx	lr
 80343d6:	bf00      	nop
 80343d8:	2000c48c 	.word	0x2000c48c

080343dc <snmp_inc_snmpoutnosuchnames>:
}

void snmp_inc_snmpoutnosuchnames(void)
{
  snmpoutnosuchnames++;
 80343dc:	4b02      	ldr	r3, [pc, #8]	; (80343e8 <snmp_inc_snmpoutnosuchnames+0xc>)
 80343de:	681a      	ldr	r2, [r3, #0]
 80343e0:	3201      	adds	r2, #1
 80343e2:	601a      	str	r2, [r3, #0]
 80343e4:	4770      	bx	lr
 80343e6:	bf00      	nop
 80343e8:	2000c458 	.word	0x2000c458

080343ec <snmp_inc_snmpoutbadvalues>:
}

void snmp_inc_snmpoutbadvalues(void)
{
  snmpoutbadvalues++;
 80343ec:	4b02      	ldr	r3, [pc, #8]	; (80343f8 <snmp_inc_snmpoutbadvalues+0xc>)
 80343ee:	681a      	ldr	r2, [r3, #0]
 80343f0:	3201      	adds	r2, #1
 80343f2:	601a      	str	r2, [r3, #0]
 80343f4:	4770      	bx	lr
 80343f6:	bf00      	nop
 80343f8:	2000c438 	.word	0x2000c438

080343fc <snmp_inc_snmpoutgenerrs>:
}

void snmp_inc_snmpoutgenerrs(void)
{
  snmpoutgenerrs++;
 80343fc:	4b02      	ldr	r3, [pc, #8]	; (8034408 <snmp_inc_snmpoutgenerrs+0xc>)
 80343fe:	681a      	ldr	r2, [r3, #0]
 8034400:	3201      	adds	r2, #1
 8034402:	601a      	str	r2, [r3, #0]
 8034404:	4770      	bx	lr
 8034406:	bf00      	nop
 8034408:	2000c578 	.word	0x2000c578

0803440c <snmp_inc_snmpoutgetresponses>:
  snmpoutsetrequests++;
}

void snmp_inc_snmpoutgetresponses(void)
{
  snmpoutgetresponses++;
 803440c:	4b02      	ldr	r3, [pc, #8]	; (8034418 <snmp_inc_snmpoutgetresponses+0xc>)
 803440e:	681a      	ldr	r2, [r3, #0]
 8034410:	3201      	adds	r2, #1
 8034412:	601a      	str	r2, [r3, #0]
 8034414:	4770      	bx	lr
 8034416:	bf00      	nop
 8034418:	2000c434 	.word	0x2000c434

0803441c <snmp_inc_snmpouttraps>:
}

void snmp_inc_snmpouttraps(void)
{
  snmpouttraps++;
 803441c:	4b02      	ldr	r3, [pc, #8]	; (8034428 <snmp_inc_snmpouttraps+0xc>)
 803441e:	681a      	ldr	r2, [r3, #0]
 8034420:	3201      	adds	r2, #1
 8034422:	601a      	str	r2, [r3, #0]
 8034424:	4770      	bx	lr
 8034426:	bf00      	nop
 8034428:	2000c4ac 	.word	0x2000c4ac

0803442c <snmp_get_snmpgrpid_ptr>:
}

void snmp_get_snmpgrpid_ptr(struct snmp_obj_id **oid)
{
  *oid = &snmpgrp_id;
 803442c:	4b01      	ldr	r3, [pc, #4]	; (8034434 <snmp_get_snmpgrpid_ptr+0x8>)
 803442e:	6003      	str	r3, [r0, #0]
 8034430:	4770      	bx	lr
 8034432:	bf00      	nop
 8034434:	20000984 	.word	0x20000984

08034438 <snmp_get_snmpenableauthentraps>:
  }
}

void snmp_get_snmpenableauthentraps(u8_t *value)
{
  *value = *snmpenableauthentraps_ptr;
 8034438:	4b02      	ldr	r3, [pc, #8]	; (8034444 <snmp_get_snmpenableauthentraps+0xc>)
 803443a:	681b      	ldr	r3, [r3, #0]
 803443c:	781b      	ldrb	r3, [r3, #0]
 803443e:	7003      	strb	r3, [r0, #0]
 8034440:	4770      	bx	lr
 8034442:	bf00      	nop
 8034444:	20000898 	.word	0x20000898

08034448 <push_node>:
/**
 * Pushes nse struct onto stack.
 */
static void
push_node(struct nse* node)
{
 8034448:	b530      	push	{r4, r5, lr}
  LWIP_ASSERT("node_stack_cnt < NODE_STACK_SIZE",node_stack_cnt < NODE_STACK_SIZE);
  LWIP_DEBUGF(SNMP_MIB_DEBUG,("push_node() node=%p id=%"S32_F"\n",(void*)(node->r_ptr),node->r_id));
  if (node_stack_cnt < NODE_STACK_SIZE)
 803444a:	4d07      	ldr	r5, [pc, #28]	; (8034468 <push_node+0x20>)
 803444c:	782b      	ldrb	r3, [r5, #0]
 803444e:	2b1f      	cmp	r3, #31
 8034450:	d808      	bhi.n	8034464 <push_node+0x1c>
  {
    node_stack[node_stack_cnt] = *node;
 8034452:	4a06      	ldr	r2, [pc, #24]	; (803446c <push_node+0x24>)
 8034454:	240c      	movs	r4, #12
 8034456:	fb04 2403 	mla	r4, r4, r3, r2
 803445a:	c807      	ldmia	r0, {r0, r1, r2}
 803445c:	e884 0007 	stmia.w	r4, {r0, r1, r2}
    node_stack_cnt++;
 8034460:	3301      	adds	r3, #1
 8034462:	702b      	strb	r3, [r5, #0]
 8034464:	bd30      	pop	{r4, r5, pc}
 8034466:	bf00      	nop
 8034468:	2000c57c 	.word	0x2000c57c
 803446c:	2000c580 	.word	0x2000c580

08034470 <empty_table>:
empty_table(struct mib_node *node)
{
  u8_t node_type;
  u8_t empty = 0;

  if (node != NULL)
 8034470:	b1d0      	cbz	r0, 80344a8 <empty_table+0x38>
  {
    node_type = node->node_type;
 8034472:	7c03      	ldrb	r3, [r0, #16]
    if (node_type == MIB_NODE_LR)
 8034474:	2b04      	cmp	r3, #4
 8034476:	d105      	bne.n	8034484 <empty_table+0x14>
    {
      struct mib_list_rootnode *lrn;
      lrn = (struct mib_list_rootnode *)node;
      if ((lrn->count == 0) || (lrn->head == NULL))
 8034478:	8b83      	ldrh	r3, [r0, #28]
 803447a:	b903      	cbnz	r3, 803447e <empty_table+0xe>
 803447c:	e009      	b.n	8034492 <empty_table+0x22>
 803447e:	6943      	ldr	r3, [r0, #20]
 8034480:	b13b      	cbz	r3, 8034492 <empty_table+0x22>
 8034482:	e010      	b.n	80344a6 <empty_table+0x36>
      {
        empty = 1;
      }
    }
    else if ((node_type == MIB_NODE_AR) || (node_type == MIB_NODE_RA))
 8034484:	1e9a      	subs	r2, r3, #2
 8034486:	2a01      	cmp	r2, #1
 8034488:	d805      	bhi.n	8034496 <empty_table+0x26>
    {
      struct mib_array_node *an;
      an = (struct mib_array_node *)node;
      if ((an->maxlength == 0) || (an->nptr == NULL))
 803448a:	8a43      	ldrh	r3, [r0, #18]
 803448c:	b10b      	cbz	r3, 8034492 <empty_table+0x22>
 803448e:	6980      	ldr	r0, [r0, #24]
 8034490:	e004      	b.n	803449c <empty_table+0x2c>
      {
        empty = 1;
 8034492:	2001      	movs	r0, #1
 8034494:	4770      	bx	lr
      }
    }
    else if (node_type == MIB_NODE_EX)
 8034496:	2b05      	cmp	r3, #5
 8034498:	d105      	bne.n	80344a6 <empty_table+0x36>
    {
      struct mib_external_node *en;
      en = (struct mib_external_node *)node;
      if (en->tree_levels == 0)
 803449a:	7e00      	ldrb	r0, [r0, #24]
 */
static u8_t
empty_table(struct mib_node *node)
{
  u8_t node_type;
  u8_t empty = 0;
 803449c:	f1d0 0001 	rsbs	r0, r0, #1
 80344a0:	bf38      	it	cc
 80344a2:	2000      	movcc	r0, #0
 80344a4:	4770      	bx	lr
 80344a6:	2000      	movs	r0, #0
        empty = 1;
      }
    }
  }
  return empty;
}
 80344a8:	4770      	bx	lr
 80344aa:	0000      	movs	r0, r0

080344ac <snmp_ifindextonetif>:
 * @param netif points to returned netif struct pointer
 */
void
snmp_ifindextonetif(s32_t ifindex, struct netif **netif)
{
  struct netif *nif = netif_list;
 80344ac:	4b05      	ldr	r3, [pc, #20]	; (80344c4 <snmp_ifindextonetif+0x18>)
  s32_t i, ifidx;

  ifidx = ifindex - 1;
 80344ae:	3801      	subs	r0, #1
 * @param netif points to returned netif struct pointer
 */
void
snmp_ifindextonetif(s32_t ifindex, struct netif **netif)
{
  struct netif *nif = netif_list;
 80344b0:	681b      	ldr	r3, [r3, #0]
  s32_t i, ifidx;

  ifidx = ifindex - 1;
  i = 0;
 80344b2:	2200      	movs	r2, #0
  while ((nif != NULL) && (i < ifidx))
 80344b4:	e001      	b.n	80344ba <snmp_ifindextonetif+0xe>
  {
    nif = nif->next;
 80344b6:	681b      	ldr	r3, [r3, #0]
    i++;
 80344b8:	3201      	adds	r2, #1
  struct netif *nif = netif_list;
  s32_t i, ifidx;

  ifidx = ifindex - 1;
  i = 0;
  while ((nif != NULL) && (i < ifidx))
 80344ba:	b10b      	cbz	r3, 80344c0 <snmp_ifindextonetif+0x14>
 80344bc:	4282      	cmp	r2, r0
 80344be:	dbfa      	blt.n	80344b6 <snmp_ifindextonetif+0xa>
  {
    nif = nif->next;
    i++;
  }
  *netif = nif;
 80344c0:	600b      	str	r3, [r1, #0]
 80344c2:	4770      	bx	lr
 80344c4:	2000f6a0 	.word	0x2000f6a0

080344c8 <snmp_netiftoifindex>:
 * @param ifidx points to s32_t object sub-identifier
 */
void
snmp_netiftoifindex(struct netif *netif, s32_t *ifidx)
{
  struct netif *nif = netif_list;
 80344c8:	4b06      	ldr	r3, [pc, #24]	; (80344e4 <snmp_netiftoifindex+0x1c>)
  u16_t i;

  i = 0;
 80344ca:	2200      	movs	r2, #0
 * @param ifidx points to s32_t object sub-identifier
 */
void
snmp_netiftoifindex(struct netif *netif, s32_t *ifidx)
{
  struct netif *nif = netif_list;
 80344cc:	681b      	ldr	r3, [r3, #0]
  u16_t i;

  i = 0;
  while ((nif != NULL) && (nif != netif))
 80344ce:	e001      	b.n	80344d4 <snmp_netiftoifindex+0xc>
  {
    nif = nif->next;
 80344d0:	681b      	ldr	r3, [r3, #0]
    i++;
 80344d2:	b292      	uxth	r2, r2
 80344d4:	3201      	adds	r2, #1
{
  struct netif *nif = netif_list;
  u16_t i;

  i = 0;
  while ((nif != NULL) && (nif != netif))
 80344d6:	b90b      	cbnz	r3, 80344dc <snmp_netiftoifindex+0x14>
  {
    nif = nif->next;
    i++;
  }
  *ifidx = i+1;
 80344d8:	600a      	str	r2, [r1, #0]
 80344da:	4770      	bx	lr
{
  struct netif *nif = netif_list;
  u16_t i;

  i = 0;
  while ((nif != NULL) && (nif != netif))
 80344dc:	4283      	cmp	r3, r0
 80344de:	d1f7      	bne.n	80344d0 <snmp_netiftoifindex+0x8>
 80344e0:	e7fa      	b.n	80344d8 <snmp_netiftoifindex+0x10>
 80344e2:	bf00      	nop
 80344e4:	2000f6a0 	.word	0x2000f6a0

080344e8 <snmp_oidtoip>:
 * @param ip points to output struct
 */
void
snmp_oidtoip(s32_t *ident, ip_addr_t *ip)
{
  IP4_ADDR(ip, ident[0], ident[1], ident[2], ident[3]);
 80344e8:	7802      	ldrb	r2, [r0, #0]
 80344ea:	68c3      	ldr	r3, [r0, #12]
 80344ec:	ea42 6303 	orr.w	r3, r2, r3, lsl #24
 80344f0:	7a02      	ldrb	r2, [r0, #8]
 80344f2:	ea43 4302 	orr.w	r3, r3, r2, lsl #16
 80344f6:	6842      	ldr	r2, [r0, #4]
 80344f8:	0612      	lsls	r2, r2, #24
 80344fa:	ea43 4312 	orr.w	r3, r3, r2, lsr #16
 80344fe:	600b      	str	r3, [r1, #0]
 8034500:	4770      	bx	lr

08034502 <snmp_iptooid>:
 * @param ident points to s32_t ident[4] output
 */
void
snmp_iptooid(ip_addr_t *ip, s32_t *ident)
{
  ident[0] = ip4_addr1(ip);
 8034502:	7803      	ldrb	r3, [r0, #0]
 8034504:	600b      	str	r3, [r1, #0]
  ident[1] = ip4_addr2(ip);
 8034506:	7843      	ldrb	r3, [r0, #1]
 8034508:	604b      	str	r3, [r1, #4]
  ident[2] = ip4_addr3(ip);
 803450a:	7883      	ldrb	r3, [r0, #2]
 803450c:	608b      	str	r3, [r1, #8]
  ident[3] = ip4_addr4(ip);
 803450e:	78c3      	ldrb	r3, [r0, #3]
 8034510:	60cb      	str	r3, [r1, #12]
 8034512:	4770      	bx	lr

08034514 <snmp_mib_ln_alloc>:
}

struct mib_list_node *
snmp_mib_ln_alloc(s32_t id)
{
 8034514:	b510      	push	{r4, lr}
 8034516:	4604      	mov	r4, r0
  struct mib_list_node *ln;

  ln = (struct mib_list_node *)memp_malloc(MEMP_SNMP_NODE);
 8034518:	200b      	movs	r0, #11
 803451a:	f7fa fecd 	bl	802f2b8 <memp_malloc>
  if (ln != NULL)
 803451e:	b120      	cbz	r0, 803452a <snmp_mib_ln_alloc+0x16>
  {
    ln->prev = NULL;
 8034520:	2300      	movs	r3, #0
 8034522:	6003      	str	r3, [r0, #0]
    ln->next = NULL;
 8034524:	6043      	str	r3, [r0, #4]
    ln->objid = id;
 8034526:	6084      	str	r4, [r0, #8]
    ln->nptr = NULL;
 8034528:	60c3      	str	r3, [r0, #12]
  }
  return ln;
}
 803452a:	bd10      	pop	{r4, pc}

0803452c <snmp_mib_ln_free>:

void
snmp_mib_ln_free(struct mib_list_node *ln)
{
 803452c:	4601      	mov	r1, r0
  memp_free(MEMP_SNMP_NODE, ln);
 803452e:	200b      	movs	r0, #11
 8034530:	f7fa bed8 	b.w	802f2e4 <memp_free>

08034534 <snmp_mib_lrn_alloc>:
}

struct mib_list_rootnode *
snmp_mib_lrn_alloc(void)
{
 8034534:	b508      	push	{r3, lr}
  struct mib_list_rootnode *lrn;

  lrn = (struct mib_list_rootnode*)memp_malloc(MEMP_SNMP_ROOTNODE);
 8034536:	200a      	movs	r0, #10
 8034538:	f7fa febe 	bl	802f2b8 <memp_malloc>
  if (lrn != NULL)
 803453c:	b170      	cbz	r0, 803455c <snmp_mib_lrn_alloc+0x28>
  {
    lrn->get_object_def = noleafs_get_object_def;
 803453e:	4b08      	ldr	r3, [pc, #32]	; (8034560 <snmp_mib_lrn_alloc+0x2c>)
 8034540:	6003      	str	r3, [r0, #0]
    lrn->get_value = noleafs_get_value;
 8034542:	4b08      	ldr	r3, [pc, #32]	; (8034564 <snmp_mib_lrn_alloc+0x30>)
 8034544:	6043      	str	r3, [r0, #4]
    lrn->set_test = noleafs_set_test;
 8034546:	4b08      	ldr	r3, [pc, #32]	; (8034568 <snmp_mib_lrn_alloc+0x34>)
 8034548:	6083      	str	r3, [r0, #8]
    lrn->set_value = noleafs_set_value;
 803454a:	4b08      	ldr	r3, [pc, #32]	; (803456c <snmp_mib_lrn_alloc+0x38>)
 803454c:	60c3      	str	r3, [r0, #12]
    lrn->node_type = MIB_NODE_LR;
 803454e:	2304      	movs	r3, #4
 8034550:	7403      	strb	r3, [r0, #16]
    lrn->maxlength = 0;
 8034552:	2300      	movs	r3, #0
 8034554:	8243      	strh	r3, [r0, #18]
    lrn->head = NULL;
 8034556:	6143      	str	r3, [r0, #20]
    lrn->tail = NULL;
 8034558:	6183      	str	r3, [r0, #24]
    lrn->count = 0;
 803455a:	8383      	strh	r3, [r0, #28]
  }
  return lrn;
}
 803455c:	bd08      	pop	{r3, pc}
 803455e:	bf00      	nop
 8034560:	08032e8b 	.word	0x08032e8b
 8034564:	08032e91 	.word	0x08032e91
 8034568:	08032e93 	.word	0x08032e93
 803456c:	08032e97 	.word	0x08032e97

08034570 <snmp_mib_lrn_free>:

void
snmp_mib_lrn_free(struct mib_list_rootnode *lrn)
{
 8034570:	4601      	mov	r1, r0
  memp_free(MEMP_SNMP_ROOTNODE, lrn);
 8034572:	200a      	movs	r0, #10
 8034574:	f7fa beb6 	b.w	802f2e4 <memp_free>

08034578 <snmp_mib_node_insert>:
 *   used for constructing the tree.
 * @return -1 if failed, 1 if inserted, 2 if present.
 */
s8_t
snmp_mib_node_insert(struct mib_list_rootnode *rn, s32_t objid, struct mib_list_node **insn)
{
 8034578:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 803457a:	4605      	mov	r5, r0
 803457c:	4616      	mov	r6, r2

  LWIP_ASSERT("rn != NULL",rn != NULL);

  /* -1 = malloc failure, 0 = not inserted, 1 = inserted, 2 = was present */
  insert = 0;
  if (rn->head == NULL)
 803457e:	696c      	ldr	r4, [r5, #20]
 *   used for constructing the tree.
 * @return -1 if failed, 1 if inserted, 2 if present.
 */
s8_t
snmp_mib_node_insert(struct mib_list_rootnode *rn, s32_t objid, struct mib_list_node **insn)
{
 8034580:	4608      	mov	r0, r1

  LWIP_ASSERT("rn != NULL",rn != NULL);

  /* -1 = malloc failure, 0 = not inserted, 1 = inserted, 2 = was present */
  insert = 0;
  if (rn->head == NULL)
 8034582:	b93c      	cbnz	r4, 8034594 <snmp_mib_node_insert+0x1c>
  {
    /* empty list, add first node */
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("alloc empty list objid==%"S32_F"\n",objid));
    nn = snmp_mib_ln_alloc(objid);
 8034584:	f7ff ffc6 	bl	8034514 <snmp_mib_ln_alloc>
    if (nn != NULL)
 8034588:	b350      	cbz	r0, 80345e0 <snmp_mib_node_insert+0x68>
    {
      rn->head = nn;
 803458a:	6168      	str	r0, [r5, #20]
      rn->tail = nn;
 803458c:	61a8      	str	r0, [r5, #24]
      *insn = nn;
 803458e:	6030      	str	r0, [r6, #0]
 8034590:	e021      	b.n	80345d6 <snmp_mib_node_insert+0x5e>
        *insn = n;
        insert = 2;
      }
      else if (n->objid < objid)
      {
        if (n->next == NULL)
 8034592:	463c      	mov	r4, r7
    struct mib_list_node *n;
    /* at least one node is present */
    n = rn->head;
    while ((n != NULL) && (insert == 0))
    {
      if (n->objid == objid)
 8034594:	68a3      	ldr	r3, [r4, #8]
 8034596:	4283      	cmp	r3, r0
 8034598:	d102      	bne.n	80345a0 <snmp_mib_node_insert+0x28>
      {
        /* node is already there */
        LWIP_DEBUGF(SNMP_MIB_DEBUG,("node already there objid==%"S32_F"\n",objid));
        *insn = n;
 803459a:	6034      	str	r4, [r6, #0]
        insert = 2;
 803459c:	2302      	movs	r3, #2
 803459e:	e023      	b.n	80345e8 <snmp_mib_node_insert+0x70>
      }
      else if (n->objid < objid)
 80345a0:	da0a      	bge.n	80345b8 <snmp_mib_node_insert+0x40>
      {
        if (n->next == NULL)
 80345a2:	6867      	ldr	r7, [r4, #4]
 80345a4:	2f00      	cmp	r7, #0
 80345a6:	d1f4      	bne.n	8034592 <snmp_mib_node_insert+0x1a>
        {
          /* alloc and insert at the tail */
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("alloc ins tail objid==%"S32_F"\n",objid));
          nn = snmp_mib_ln_alloc(objid);
 80345a8:	f7ff ffb4 	bl	8034514 <snmp_mib_ln_alloc>
          if (nn != NULL)
 80345ac:	b1d8      	cbz	r0, 80345e6 <snmp_mib_node_insert+0x6e>
          {
            nn->next = NULL;
            nn->prev = n;
 80345ae:	e880 0090 	stmia.w	r0, {r4, r7}
            n->next = nn;
 80345b2:	6060      	str	r0, [r4, #4]
            rn->tail = nn;
 80345b4:	61a8      	str	r0, [r5, #24]
 80345b6:	e00b      	b.n	80345d0 <snmp_mib_node_insert+0x58>
      else
      {
        /* n->objid > objid */
        /* alloc and insert between n->prev and n */
        LWIP_DEBUGF(SNMP_MIB_DEBUG,("alloc ins n->prev, objid==%"S32_F", n\n",objid));
        nn = snmp_mib_ln_alloc(objid);
 80345b8:	f7ff ffac 	bl	8034514 <snmp_mib_ln_alloc>
        if (nn != NULL)
 80345bc:	b198      	cbz	r0, 80345e6 <snmp_mib_node_insert+0x6e>
        {
          if (n->prev == NULL)
 80345be:	6822      	ldr	r2, [r4, #0]
          {
            /* insert at the head */
            nn->next = n;
            nn->prev = NULL;
 80345c0:	e880 0014 	stmia.w	r0, {r2, r4}
        /* alloc and insert between n->prev and n */
        LWIP_DEBUGF(SNMP_MIB_DEBUG,("alloc ins n->prev, objid==%"S32_F", n\n",objid));
        nn = snmp_mib_ln_alloc(objid);
        if (nn != NULL)
        {
          if (n->prev == NULL)
 80345c4:	b90a      	cbnz	r2, 80345ca <snmp_mib_node_insert+0x52>
          {
            /* insert at the head */
            nn->next = n;
            nn->prev = NULL;
            rn->head = nn;
 80345c6:	6168      	str	r0, [r5, #20]
 80345c8:	e001      	b.n	80345ce <snmp_mib_node_insert+0x56>
          else
          {
            /* insert in the middle */
            nn->next = n;
            nn->prev = n->prev;
            n->prev->next = nn;
 80345ca:	6822      	ldr	r2, [r4, #0]
 80345cc:	6050      	str	r0, [r2, #4]
            n->prev = nn;
 80345ce:	6020      	str	r0, [r4, #0]
          }
          *insn = nn;
 80345d0:	6030      	str	r0, [r6, #0]
          insert = 1;
 80345d2:	2301      	movs	r3, #1
 80345d4:	e008      	b.n	80345e8 <snmp_mib_node_insert+0x70>
      }
    }
  }
  if (insert == 1)
  {
    rn->count += 1;
 80345d6:	8bab      	ldrh	r3, [r5, #28]
 80345d8:	3301      	adds	r3, #1
 80345da:	83ab      	strh	r3, [r5, #28]
 80345dc:	2301      	movs	r3, #1
 80345de:	e000      	b.n	80345e2 <snmp_mib_node_insert+0x6a>
      *insn = nn;
      insert = 1;
    }
    else
    {
      insert = -1;
 80345e0:	23ff      	movs	r3, #255	; 0xff
  if (insert == 1)
  {
    rn->count += 1;
  }
  LWIP_ASSERT("insert != 0",insert != 0);
  return insert;
 80345e2:	b258      	sxtb	r0, r3
 80345e4:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
          insert = 1;
        }
        else
        {
          /* insertion failure */
          insert = -1;
 80345e6:	23ff      	movs	r3, #255	; 0xff
        }
      }
    }
  }
  if (insert == 1)
 80345e8:	2b01      	cmp	r3, #1
 80345ea:	d1fa      	bne.n	80345e2 <snmp_mib_node_insert+0x6a>
 80345ec:	e7f3      	b.n	80345d6 <snmp_mib_node_insert+0x5e>

080345ee <snmp_mib_node_find>:
{
  s8_t fc;
  struct mib_list_node *n;

  LWIP_ASSERT("rn != NULL",rn != NULL);
  n = rn->head;
 80345ee:	6943      	ldr	r3, [r0, #20]
  while ((n != NULL) && (n->objid != objid))
 80345f0:	e000      	b.n	80345f4 <snmp_mib_node_find+0x6>
  {
    n = n->next;
 80345f2:	685b      	ldr	r3, [r3, #4]
  s8_t fc;
  struct mib_list_node *n;

  LWIP_ASSERT("rn != NULL",rn != NULL);
  n = rn->head;
  while ((n != NULL) && (n->objid != objid))
 80345f4:	b16b      	cbz	r3, 8034612 <snmp_mib_node_find+0x24>
 80345f6:	6898      	ldr	r0, [r3, #8]
 80345f8:	4288      	cmp	r0, r1
 80345fa:	d1fa      	bne.n	80345f2 <snmp_mib_node_find+0x4>
  }
  if (n == NULL)
  {
    fc = 0;
  }
  else if (n->nptr == NULL)
 80345fc:	68d9      	ldr	r1, [r3, #12]
 80345fe:	b161      	cbz	r1, 803461a <snmp_mib_node_find+0x2c>
  }
  else
  {
    struct mib_list_rootnode *r;

    if (n->nptr->node_type == MIB_NODE_LR)
 8034600:	7c08      	ldrb	r0, [r1, #16]
 8034602:	2804      	cmp	r0, #4
 8034604:	d107      	bne.n	8034616 <snmp_mib_node_find+0x28>
    {
      r = (struct mib_list_rootnode *)n->nptr;
      if (r->count > 1)
 8034606:	8b88      	ldrh	r0, [r1, #28]
      {
        /* can't delete node */
        fc = 2;
 8034608:	2801      	cmp	r0, #1
 803460a:	bf94      	ite	ls
 803460c:	2001      	movls	r0, #1
 803460e:	2002      	movhi	r0, #2
 8034610:	e004      	b.n	803461c <snmp_mib_node_find+0x2e>
  {
    n = n->next;
  }
  if (n == NULL)
  {
    fc = 0;
 8034612:	4618      	mov	r0, r3
 8034614:	e002      	b.n	803461c <snmp_mib_node_find+0x2e>
      }
    }
    else
    {
      /* other node type */
      fc = 3;
 8034616:	2003      	movs	r0, #3
 8034618:	e000      	b.n	803461c <snmp_mib_node_find+0x2e>
    fc = 0;
  }
  else if (n->nptr == NULL)
  {
    /* leaf, can delete node */
    fc = 1;
 803461a:	2001      	movs	r0, #1
    {
      /* other node type */
      fc = 3;
    }
  }
  *fn = n;
 803461c:	6013      	str	r3, [r2, #0]
  return fc;
}
 803461e:	b240      	sxtb	r0, r0
 8034620:	4770      	bx	lr

08034622 <snmp_mib_node_delete>:
 * @param n points to the node to delete
 * @return the nptr to be freed by caller
 */
struct mib_list_rootnode *
snmp_mib_node_delete(struct mib_list_rootnode *rn, struct mib_list_node *n)
{
 8034622:	b538      	push	{r3, r4, r5, lr}
  LWIP_ASSERT("rn != NULL",rn != NULL);
  LWIP_ASSERT("n != NULL",n != NULL);

  /* caller must remove this sub-tree */
  next = (struct mib_list_rootnode*)(n->nptr);
  rn->count -= 1;
 8034624:	8b83      	ldrh	r3, [r0, #28]

  LWIP_ASSERT("rn != NULL",rn != NULL);
  LWIP_ASSERT("n != NULL",n != NULL);

  /* caller must remove this sub-tree */
  next = (struct mib_list_rootnode*)(n->nptr);
 8034626:	68cd      	ldr	r5, [r1, #12]
  rn->count -= 1;
 8034628:	3b01      	subs	r3, #1
 803462a:	8383      	strh	r3, [r0, #28]

  if (n == rn->head)
 803462c:	6943      	ldr	r3, [r0, #20]
 803462e:	4299      	cmp	r1, r3
 * @param n points to the node to delete
 * @return the nptr to be freed by caller
 */
struct mib_list_rootnode *
snmp_mib_node_delete(struct mib_list_rootnode *rn, struct mib_list_node *n)
{
 8034630:	4604      	mov	r4, r0

  /* caller must remove this sub-tree */
  next = (struct mib_list_rootnode*)(n->nptr);
  rn->count -= 1;

  if (n == rn->head)
 8034632:	d105      	bne.n	8034640 <snmp_mib_node_delete+0x1e>
  {
    rn->head = n->next;
 8034634:	684b      	ldr	r3, [r1, #4]
 8034636:	6143      	str	r3, [r0, #20]
    if (n->next != NULL)
 8034638:	b17b      	cbz	r3, 803465a <snmp_mib_node_delete+0x38>
    {
      /* not last node, new list begin */
      n->next->prev = NULL;
 803463a:	2200      	movs	r2, #0
 803463c:	601a      	str	r2, [r3, #0]
 803463e:	e00c      	b.n	803465a <snmp_mib_node_delete+0x38>
    }
  }
  else if (n == rn->tail)
 8034640:	6983      	ldr	r3, [r0, #24]
 8034642:	4299      	cmp	r1, r3
 8034644:	680b      	ldr	r3, [r1, #0]
 8034646:	d104      	bne.n	8034652 <snmp_mib_node_delete+0x30>
  {
    rn->tail = n->prev;
 8034648:	6183      	str	r3, [r0, #24]
    if (n->prev != NULL)
 803464a:	b133      	cbz	r3, 803465a <snmp_mib_node_delete+0x38>
    {
      /* not last node, new list end */
      n->prev->next = NULL;
 803464c:	2200      	movs	r2, #0
 803464e:	605a      	str	r2, [r3, #4]
 8034650:	e003      	b.n	803465a <snmp_mib_node_delete+0x38>
    }
  }
  else
  {
    /* node must be in the middle */
    n->prev->next = n->next;
 8034652:	684a      	ldr	r2, [r1, #4]
 8034654:	605a      	str	r2, [r3, #4]
    n->next->prev = n->prev;
 8034656:	684a      	ldr	r2, [r1, #4]
 8034658:	6013      	str	r3, [r2, #0]
  }
  LWIP_DEBUGF(SNMP_MIB_DEBUG,("free list objid==%"S32_F"\n",n->objid));
  snmp_mib_ln_free(n);
 803465a:	4608      	mov	r0, r1
 803465c:	f7ff ff66 	bl	803452c <snmp_mib_ln_free>
  if (rn->count == 0)
 8034660:	8ba3      	ldrh	r3, [r4, #28]
 8034662:	b90b      	cbnz	r3, 8034668 <snmp_mib_node_delete+0x46>
  {
    rn->head = NULL;
 8034664:	6163      	str	r3, [r4, #20]
    rn->tail = NULL;
 8034666:	61a3      	str	r3, [r4, #24]
  }
  return next;
}
 8034668:	4628      	mov	r0, r5
 803466a:	bd38      	pop	{r3, r4, r5, pc}

0803466c <snmp_search_tree>:
 * @param np points to the found object instance (return)
 * @return pointer to the requested parent (!) node if success, NULL otherwise
 */
struct mib_node *
snmp_search_tree(struct mib_node *node, u8_t ident_len, s32_t *ident, struct snmp_name_ptr *np)
{
 803466c:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8034670:	4604      	mov	r4, r0
 8034672:	b085      	sub	sp, #20
 8034674:	460d      	mov	r5, r1
 8034676:	461e      	mov	r6, r3
 * @param ident points to the array of sub identifiers
 * @param np points to the found object instance (return)
 * @return pointer to the requested parent (!) node if success, NULL otherwise
 */
struct mib_node *
snmp_search_tree(struct mib_node *node, u8_t ident_len, s32_t *ident, struct snmp_name_ptr *np)
 8034678:	f102 0804 	add.w	r8, r2, #4
{
  u8_t node_type, ext_level;

  ext_level = 0;
 803467c:	f04f 0b00 	mov.w	fp, #0
  LWIP_DEBUGF(SNMP_MIB_DEBUG,("node==%p *ident==%"S32_F"\n",(void*)node,*ident));
  while (node != NULL)
 8034680:	e068      	b.n	8034754 <snmp_search_tree+0xe8>
  {
    node_type = node->node_type;
 8034682:	7c23      	ldrb	r3, [r4, #16]
    if ((node_type == MIB_NODE_AR) || (node_type == MIB_NODE_RA))
 8034684:	1e9a      	subs	r2, r3, #2
 8034686:	2a01      	cmp	r2, #1
 8034688:	d812      	bhi.n	80346b0 <snmp_search_tree+0x44>
    {
      struct mib_array_node *an;
      u16_t i;

      if (ident_len > 0)
 803468a:	b90d      	cbnz	r5, 8034690 <snmp_search_tree+0x24>
      }
      else
      {
        /* search failed, short object identifier (nosuchname) */
        LWIP_DEBUGF(SNMP_MIB_DEBUG,("an search failed, short object identifier\n"));
        return NULL;
 803468c:	2000      	movs	r0, #0
 803468e:	e06a      	b.n	8034766 <snmp_search_tree+0xfa>
      if (ident_len > 0)
      {
        /* array node (internal ROM or RAM, fixed length) */
        an = (struct mib_array_node *)node;
        i = 0;
        while ((i < an->maxlength) && (an->objid[i] != *ident))
 8034690:	8a67      	ldrh	r7, [r4, #18]
 8034692:	2300      	movs	r3, #0
 8034694:	b29a      	uxth	r2, r3
 8034696:	42ba      	cmp	r2, r7
 8034698:	d2f8      	bcs.n	803468c <snmp_search_tree+0x20>
 803469a:	009a      	lsls	r2, r3, #2
 803469c:	6961      	ldr	r1, [r4, #20]
 803469e:	5888      	ldr	r0, [r1, r2]
 80346a0:	f858 1c04 	ldr.w	r1, [r8, #-4]
 80346a4:	3301      	adds	r3, #1
 80346a6:	4288      	cmp	r0, r1
 80346a8:	d1f4      	bne.n	8034694 <snmp_search_tree+0x28>
        }
        if (i < an->maxlength)
        {
          /* found it, if available proceed to child, otherwise inspect leaf */
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("an->objid[%"U16_F"]==%"S32_F" *ident==%"S32_F"\n",i,an->objid[i],*ident));
          if (an->nptr[i] == NULL)
 80346aa:	69a3      	ldr	r3, [r4, #24]
 80346ac:	589b      	ldr	r3, [r3, r2]
 80346ae:	e057      	b.n	8034760 <snmp_search_tree+0xf4>
        /* search failed, short object identifier (nosuchname) */
        LWIP_DEBUGF(SNMP_MIB_DEBUG,("an search failed, short object identifier\n"));
        return NULL;
      }
    }
    else if(node_type == MIB_NODE_LR)
 80346b0:	2b04      	cmp	r3, #4
 80346b2:	d10c      	bne.n	80346ce <snmp_search_tree+0x62>
    {
      struct mib_list_rootnode *lrn;
      struct mib_list_node *ln;

      if (ident_len > 0)
 80346b4:	2d00      	cmp	r5, #0
 80346b6:	d0e9      	beq.n	803468c <snmp_search_tree+0x20>
      {
        /* list root node (internal 'RAM', variable length) */
        lrn = (struct mib_list_rootnode *)node;
        ln = lrn->head;
 80346b8:	6963      	ldr	r3, [r4, #20]
        /* iterate over list, head to tail */
        while ((ln != NULL) && (ln->objid != *ident))
 80346ba:	e000      	b.n	80346be <snmp_search_tree+0x52>
        {
          ln = ln->next;
 80346bc:	685b      	ldr	r3, [r3, #4]
      {
        /* list root node (internal 'RAM', variable length) */
        lrn = (struct mib_list_rootnode *)node;
        ln = lrn->head;
        /* iterate over list, head to tail */
        while ((ln != NULL) && (ln->objid != *ident))
 80346be:	2b00      	cmp	r3, #0
 80346c0:	d0e4      	beq.n	803468c <snmp_search_tree+0x20>
 80346c2:	6899      	ldr	r1, [r3, #8]
 80346c4:	f858 2c04 	ldr.w	r2, [r8, #-4]
 80346c8:	4291      	cmp	r1, r2
 80346ca:	d1f7      	bne.n	80346bc <snmp_search_tree+0x50>
 80346cc:	e047      	b.n	803475e <snmp_search_tree+0xf2>
        /* search failed, short object identifier (nosuchname) */
        LWIP_DEBUGF(SNMP_MIB_DEBUG,("ln search failed, short object identifier\n"));
        return NULL;
      }
    }
    else if(node_type == MIB_NODE_EX)
 80346ce:	2b05      	cmp	r3, #5
 80346d0:	d12e      	bne.n	8034730 <snmp_search_tree+0xc4>
    {
      struct mib_external_node *en;
      u16_t i, len;

      if (ident_len > 0)
 80346d2:	2d00      	cmp	r5, #0
 80346d4:	d0da      	beq.n	803468c <snmp_search_tree+0x20>
      {
        /* external node (addressing and access via functions) */
        en = (struct mib_external_node *)node;

        i = 0;
        len = en->level_length(en->addr_inf,ext_level);
 80346d6:	69e3      	ldr	r3, [r4, #28]
 80346d8:	6960      	ldr	r0, [r4, #20]
 80346da:	4659      	mov	r1, fp
 80346dc:	4798      	blx	r3
      if (ident_len > 0)
      {
        /* external node (addressing and access via functions) */
        en = (struct mib_external_node *)node;

        i = 0;
 80346de:	f04f 0900 	mov.w	r9, #0
        len = en->level_length(en->addr_inf,ext_level);
 80346e2:	4684      	mov	ip, r0
        while ((i < len) && (en->ident_cmp(en->addr_inf,ext_level,i,*ident) != 0))
 80346e4:	e003      	b.n	80346ee <snmp_search_tree+0x82>
        {
          i++;
 80346e6:	f109 0901 	add.w	r9, r9, #1
 80346ea:	fa1f f989 	uxth.w	r9, r9
        /* external node (addressing and access via functions) */
        en = (struct mib_external_node *)node;

        i = 0;
        len = en->level_length(en->addr_inf,ext_level);
        while ((i < len) && (en->ident_cmp(en->addr_inf,ext_level,i,*ident) != 0))
 80346ee:	45e1      	cmp	r9, ip
 80346f0:	d0cc      	beq.n	803468c <snmp_search_tree+0x20>
 80346f2:	6960      	ldr	r0, [r4, #20]
 80346f4:	f858 3c04 	ldr.w	r3, [r8, #-4]
 80346f8:	6a27      	ldr	r7, [r4, #32]
 80346fa:	f8cd c004 	str.w	ip, [sp, #4]
 80346fe:	4659      	mov	r1, fp
 8034700:	464a      	mov	r2, r9
 8034702:	47b8      	blx	r7
 8034704:	f8dd c004 	ldr.w	ip, [sp, #4]
 8034708:	2800      	cmp	r0, #0
 803470a:	d1ec      	bne.n	80346e6 <snmp_search_tree+0x7a>
        {
          i++;
        }
        if (i < len)
 803470c:	45e1      	cmp	r9, ip
 803470e:	d2bd      	bcs.n	803468c <snmp_search_tree+0x20>
        {
          s32_t debug_id;

          en->get_objid(en->addr_inf,ext_level,i,&debug_id);
 8034710:	4659      	mov	r1, fp
 8034712:	ab03      	add	r3, sp, #12
 8034714:	6a67      	ldr	r7, [r4, #36]	; 0x24
 8034716:	6960      	ldr	r0, [r4, #20]
 8034718:	464a      	mov	r2, r9
 803471a:	47b8      	blx	r7
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("en->objid==%"S32_F" *ident==%"S32_F"\n",debug_id,*ident));
          if ((ext_level + 1) == en->tree_levels)
 803471c:	7e23      	ldrb	r3, [r4, #24]
 803471e:	f10b 0b01 	add.w	fp, fp, #1
 8034722:	459b      	cmp	fp, r3
 8034724:	d100      	bne.n	8034728 <snmp_search_tree+0xbc>
 8034726:	e00b      	b.n	8034740 <snmp_search_tree+0xd4>
          else
          {
            /* found it, proceed to child */
            ident_len--;
            ident++;
            ext_level++;
 8034728:	fa5f fb8b 	uxtb.w	fp, fp
 803472c:	4623      	mov	r3, r4
 803472e:	e00c      	b.n	803474a <snmp_search_tree+0xde>
        /* search failed, short object identifier (nosuchname) */
        LWIP_DEBUGF(SNMP_MIB_DEBUG,("en search failed, short object identifier\n"));
        return NULL;
      }
    }
    else if (node_type == MIB_NODE_SC)
 8034730:	2b01      	cmp	r3, #1
 8034732:	d1ab      	bne.n	803468c <snmp_search_tree+0x20>
    {
      mib_scalar_node *sn;

      sn = (mib_scalar_node *)node;
      if ((ident_len == 1) && (*ident == 0))
 8034734:	2d01      	cmp	r5, #1
 8034736:	d1a9      	bne.n	803468c <snmp_search_tree+0x20>
 8034738:	f8da 3000 	ldr.w	r3, [sl]
 803473c:	2b00      	cmp	r3, #0
 803473e:	d1a5      	bne.n	803468c <snmp_search_tree+0x20>
      {
        np->ident_len = ident_len;
 8034740:	7035      	strb	r5, [r6, #0]
        np->ident = ident;
 8034742:	f8c6 a004 	str.w	sl, [r6, #4]
        return (struct mib_node*)sn;
 8034746:	4620      	mov	r0, r4
 8034748:	e00d      	b.n	8034766 <snmp_search_tree+0xfa>
 803474a:	3d01      	subs	r5, #1
 803474c:	b2ed      	uxtb	r5, r5
 803474e:	f108 0804 	add.w	r8, r8, #4
 8034752:	461c      	mov	r4, r3
 * @param ident points to the array of sub identifiers
 * @param np points to the found object instance (return)
 * @return pointer to the requested parent (!) node if success, NULL otherwise
 */
struct mib_node *
snmp_search_tree(struct mib_node *node, u8_t ident_len, s32_t *ident, struct snmp_name_ptr *np)
 8034754:	f1a8 0a04 	sub.w	sl, r8, #4
{
  u8_t node_type, ext_level;

  ext_level = 0;
  LWIP_DEBUGF(SNMP_MIB_DEBUG,("node==%p *ident==%"S32_F"\n",(void*)node,*ident));
  while (node != NULL)
 8034758:	2c00      	cmp	r4, #0
 803475a:	d192      	bne.n	8034682 <snmp_search_tree+0x16>
 803475c:	e796      	b.n	803468c <snmp_search_tree+0x20>
        }
        if (ln != NULL)
        {
          /* found it, proceed to child */;
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("ln->objid==%"S32_F" *ident==%"S32_F"\n",ln->objid,*ident));
          if (ln->nptr == NULL)
 803475e:	68db      	ldr	r3, [r3, #12]
 8034760:	2b00      	cmp	r3, #0
 8034762:	d1f2      	bne.n	803474a <snmp_search_tree+0xde>
 8034764:	e7ec      	b.n	8034740 <snmp_search_tree+0xd4>
    }
  }
  /* done, found nothing */
  LWIP_DEBUGF(SNMP_MIB_DEBUG,("search failed node==%p\n",(void*)node));
  return NULL;
}
 8034766:	b005      	add	sp, #20
 8034768:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}

0803476c <snmp_expand_tree>:
/**
 * Tree expansion.
 */
struct mib_node *
snmp_expand_tree(struct mib_node *node, u8_t ident_len, s32_t *ident, struct snmp_obj_id *oidret)
{
 803476c:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8034770:	461d      	mov	r5, r3
 8034772:	b08b      	sub	sp, #44	; 0x2c
  u8_t node_type, ext_level, climb_tree;

  ext_level = 0;
  /* reset node stack */
  node_stack_cnt = 0;
 8034774:	4ba4      	ldr	r3, [pc, #656]	; (8034a08 <snmp_expand_tree+0x29c>)
 8034776:	f04f 0a00 	mov.w	sl, #0
            j = (u8_t)i + 1;
            if (j < len)
            {
              /* right node is the current external node */
              cur_node.r_ptr = node;
              en->get_objid(en->addr_inf,ext_level,j,&cur_node.r_id);
 803477a:	af08      	add	r7, sp, #32
/**
 * Tree expansion.
 */
struct mib_node *
snmp_expand_tree(struct mib_node *node, u8_t ident_len, s32_t *ident, struct snmp_obj_id *oidret)
{
 803477c:	4604      	mov	r4, r0
 803477e:	460e      	mov	r6, r1
 8034780:	4690      	mov	r8, r2
  u8_t node_type, ext_level, climb_tree;

  ext_level = 0;
  /* reset node stack */
  node_stack_cnt = 0;
 8034782:	f883 a000 	strb.w	sl, [r3]
            j = (u8_t)i + 1;
            if (j < len)
            {
              /* right node is the current external node */
              cur_node.r_ptr = node;
              en->get_objid(en->addr_inf,ext_level,j,&cur_node.r_id);
 8034786:	9705      	str	r7, [sp, #20]
  u8_t node_type, ext_level, climb_tree;

  ext_level = 0;
  /* reset node stack */
  node_stack_cnt = 0;
  while (node != NULL)
 8034788:	e19c      	b.n	8034ac4 <snmp_expand_tree+0x358>
  {
    climb_tree = 0;
    node_type = node->node_type;
 803478a:	7c23      	ldrb	r3, [r4, #16]
    if ((node_type == MIB_NODE_AR) || (node_type == MIB_NODE_RA))
 803478c:	1e9a      	subs	r2, r3, #2
 803478e:	2a01      	cmp	r2, #1
 8034790:	f200 808f 	bhi.w	80348b2 <snmp_expand_tree+0x146>
 8034794:	8a67      	ldrh	r7, [r4, #18]
      struct mib_array_node *an;
      u16_t i;

      /* array node (internal ROM or RAM, fixed length) */
      an = (struct mib_array_node *)node;
      if (ident_len > 0)
 8034796:	b90e      	cbnz	r6, 803479c <snmp_expand_tree+0x30>
      else
      {
        u8_t j;
        /* ident_len == 0, complete with leftmost '.thing' */
        j = 0;
        while ((j < an->maxlength) && empty_table(an->nptr[j]))
 8034798:	46b1      	mov	r9, r6
 803479a:	e06f      	b.n	803487c <snmp_expand_tree+0x110>
      /* array node (internal ROM or RAM, fixed length) */
      an = (struct mib_array_node *)node;
      if (ident_len > 0)
      {
        i = 0;
        while ((i < an->maxlength) && (an->objid[i] < *ident))
 803479c:	f04f 0c00 	mov.w	ip, #0
 80347a0:	fa1f f28c 	uxth.w	r2, ip
 80347a4:	42ba      	cmp	r2, r7
 80347a6:	f080 8168 	bcs.w	8034a7a <snmp_expand_tree+0x30e>
 80347aa:	6963      	ldr	r3, [r4, #20]
 80347ac:	f853 102c 	ldr.w	r1, [r3, ip, lsl #2]
 80347b0:	f8d8 3000 	ldr.w	r3, [r8]
 80347b4:	4299      	cmp	r1, r3
 80347b6:	ea4f 098c 	mov.w	r9, ip, lsl #2
 80347ba:	f10c 0c01 	add.w	ip, ip, #1
 80347be:	dbef      	blt.n	80347a0 <snmp_expand_tree+0x34>
        }
        if (i < an->maxlength)
        {
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("an->objid[%"U16_F"]==%"S32_F" *ident==%"S32_F"\n",i,an->objid[i],*ident));
          /* add identifier to oidret */
          oidret->id[oidret->len] = an->objid[i];
 80347c0:	782b      	ldrb	r3, [r5, #0]
 80347c2:	eb05 0783 	add.w	r7, r5, r3, lsl #2
 80347c6:	6079      	str	r1, [r7, #4]
          (oidret->len)++;
 80347c8:	1c59      	adds	r1, r3, #1
 80347ca:	7029      	strb	r1, [r5, #0]

          if (an->nptr[i] == NULL)
 80347cc:	f8d4 b018 	ldr.w	fp, [r4, #24]
 80347d0:	f85b 0009 	ldr.w	r0, [fp, r9]
 80347d4:	b998      	cbnz	r0, 80347fe <snmp_expand_tree+0x92>
          {
            LWIP_DEBUGF(SNMP_MIB_DEBUG,("leaf node\n"));
            /* leaf node (e.g. in a fixed size table) */
            if (an->objid[i] > *ident)
 80347d6:	6960      	ldr	r0, [r4, #20]
 80347d8:	f850 6009 	ldr.w	r6, [r0, r9]
 80347dc:	f8d8 0000 	ldr.w	r0, [r8]
 80347e0:	4286      	cmp	r6, r0
 80347e2:	f300 8173 	bgt.w	8034acc <snmp_expand_tree+0x360>
            {
              return (struct mib_node*)an;
            }
            else if ((i + 1) < an->maxlength)
 80347e6:	8a60      	ldrh	r0, [r4, #18]
            {
              /* an->objid[i] == *ident */
              (oidret->len)--;
 80347e8:	702b      	strb	r3, [r5, #0]
            /* leaf node (e.g. in a fixed size table) */
            if (an->objid[i] > *ident)
            {
              return (struct mib_node*)an;
            }
            else if ((i + 1) < an->maxlength)
 80347ea:	3201      	adds	r2, #1
 80347ec:	4282      	cmp	r2, r0
 80347ee:	f280 8144 	bge.w	8034a7a <snmp_expand_tree+0x30e>
            {
              /* an->objid[i] == *ident */
              (oidret->len)--;
              oidret->id[oidret->len] = an->objid[i + 1];
 80347f2:	6963      	ldr	r3, [r4, #20]
 80347f4:	f853 302c 	ldr.w	r3, [r3, ip, lsl #2]
              (oidret->len)++;
 80347f8:	7029      	strb	r1, [r5, #0]
            }
            else if ((i + 1) < an->maxlength)
            {
              /* an->objid[i] == *ident */
              (oidret->len)--;
              oidret->id[oidret->len] = an->objid[i + 1];
 80347fa:	607b      	str	r3, [r7, #4]
 80347fc:	e166      	b.n	8034acc <snmp_expand_tree+0x360>
            struct nse cur_node;

            LWIP_DEBUGF(SNMP_MIB_DEBUG,("non-leaf node\n"));
            /* non-leaf, store right child ptr and id */
            LWIP_ASSERT("i < 0xff", i < 0xff);
            j = (u8_t)i + 1;
 80347fe:	3201      	adds	r2, #1
            while ((j < an->maxlength) && (empty_table(an->nptr[j])))
 8034800:	8a61      	ldrh	r1, [r4, #18]
            struct nse cur_node;

            LWIP_DEBUGF(SNMP_MIB_DEBUG,("non-leaf node\n"));
            /* non-leaf, store right child ptr and id */
            LWIP_ASSERT("i < 0xff", i < 0xff);
            j = (u8_t)i + 1;
 8034802:	fa5f fc82 	uxtb.w	ip, r2
            while ((j < an->maxlength) && (empty_table(an->nptr[j])))
 8034806:	2700      	movs	r7, #0

/**
 * Tree expansion.
 */
struct mib_node *
snmp_expand_tree(struct mib_node *node, u8_t ident_len, s32_t *ident, struct snmp_obj_id *oidret)
 8034808:	eb0c 0307 	add.w	r3, ip, r7
 803480c:	b2db      	uxtb	r3, r3

            LWIP_DEBUGF(SNMP_MIB_DEBUG,("non-leaf node\n"));
            /* non-leaf, store right child ptr and id */
            LWIP_ASSERT("i < 0xff", i < 0xff);
            j = (u8_t)i + 1;
            while ((j < an->maxlength) && (empty_table(an->nptr[j])))
 803480e:	428b      	cmp	r3, r1
 8034810:	d21a      	bcs.n	8034848 <snmp_expand_tree+0xdc>
 8034812:	b21b      	sxth	r3, r3
 8034814:	009a      	lsls	r2, r3, #2
 8034816:	f85b 3023 	ldr.w	r3, [fp, r3, lsl #2]
 803481a:	9104      	str	r1, [sp, #16]
 803481c:	4618      	mov	r0, r3
 803481e:	9203      	str	r2, [sp, #12]
 8034820:	9302      	str	r3, [sp, #8]
 8034822:	f8cd c004 	str.w	ip, [sp, #4]
 8034826:	f7ff fe23 	bl	8034470 <empty_table>
 803482a:	3701      	adds	r7, #1
 803482c:	9904      	ldr	r1, [sp, #16]
 803482e:	9a03      	ldr	r2, [sp, #12]
 8034830:	9b02      	ldr	r3, [sp, #8]
 8034832:	f8dd c004 	ldr.w	ip, [sp, #4]
 8034836:	2800      	cmp	r0, #0
 8034838:	d1e6      	bne.n	8034808 <snmp_expand_tree+0x9c>
            {
              j++;
            }
            if (j < an->maxlength)
            {
              cur_node.r_ptr = an->nptr[j];
 803483a:	9307      	str	r3, [sp, #28]
              cur_node.r_id = an->objid[j];
 803483c:	6963      	ldr	r3, [r4, #20]
 803483e:	589b      	ldr	r3, [r3, r2]
              cur_node.r_nl = 0;
 8034840:	f88d 0024 	strb.w	r0, [sp, #36]	; 0x24
              j++;
            }
            if (j < an->maxlength)
            {
              cur_node.r_ptr = an->nptr[j];
              cur_node.r_id = an->objid[j];
 8034844:	9308      	str	r3, [sp, #32]
 8034846:	e001      	b.n	803484c <snmp_expand_tree+0xe0>
              cur_node.r_nl = 0;
            }
            else
            {
              cur_node.r_ptr = NULL;
 8034848:	2300      	movs	r3, #0
 803484a:	9307      	str	r3, [sp, #28]
            }
            push_node(&cur_node);
 803484c:	a807      	add	r0, sp, #28
 803484e:	f7ff fdfb 	bl	8034448 <push_node>
            if (an->objid[i] == *ident)
 8034852:	6963      	ldr	r3, [r4, #20]
 8034854:	f853 2009 	ldr.w	r2, [r3, r9]
 8034858:	f8d8 3000 	ldr.w	r3, [r8]
 803485c:	429a      	cmp	r2, r3
 803485e:	d104      	bne.n	803486a <snmp_expand_tree+0xfe>
            {
              ident_len--;
 8034860:	3e01      	subs	r6, #1
 8034862:	b2f6      	uxtb	r6, r6
              ident++;
 8034864:	f108 0804 	add.w	r8, r8, #4
 8034868:	e000      	b.n	803486c <snmp_expand_tree+0x100>
            }
            else
            {
              /* an->objid[i] < *ident */
              ident_len = 0;
 803486a:	2600      	movs	r6, #0
            }
            /* follow next child pointer */
            node = an->nptr[i];
 803486c:	69a3      	ldr	r3, [r4, #24]
 803486e:	f853 3009 	ldr.w	r3, [r3, r9]
 8034872:	e140      	b.n	8034af6 <snmp_expand_tree+0x38a>
        u8_t j;
        /* ident_len == 0, complete with leftmost '.thing' */
        j = 0;
        while ((j < an->maxlength) && empty_table(an->nptr[j]))
        {
          j++;
 8034874:	f109 0901 	add.w	r9, r9, #1
 8034878:	fa5f f989 	uxtb.w	r9, r9
      else
      {
        u8_t j;
        /* ident_len == 0, complete with leftmost '.thing' */
        j = 0;
        while ((j < an->maxlength) && empty_table(an->nptr[j]))
 803487c:	45b9      	cmp	r9, r7
 803487e:	f080 80fc 	bcs.w	8034a7a <snmp_expand_tree+0x30e>
 8034882:	fa0f f289 	sxth.w	r2, r9
 8034886:	69a3      	ldr	r3, [r4, #24]
 8034888:	f853 0022 	ldr.w	r0, [r3, r2, lsl #2]
 803488c:	ea4f 0b82 	mov.w	fp, r2, lsl #2
 8034890:	f7ff fdee 	bl	8034470 <empty_table>
 8034894:	2800      	cmp	r0, #0
 8034896:	d1ed      	bne.n	8034874 <snmp_expand_tree+0x108>
          j++;
        }
        if (j < an->maxlength)
        {
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("left an->objid[j]==%"S32_F"\n",an->objid[j]));
          oidret->id[oidret->len] = an->objid[j];
 8034898:	6962      	ldr	r2, [r4, #20]
 803489a:	782b      	ldrb	r3, [r5, #0]
 803489c:	f852 100b 	ldr.w	r1, [r2, fp]
 80348a0:	eb05 0283 	add.w	r2, r5, r3, lsl #2
          (oidret->len)++;
 80348a4:	3301      	adds	r3, #1
 80348a6:	702b      	strb	r3, [r5, #0]
          if (an->nptr[j] == NULL)
 80348a8:	69a3      	ldr	r3, [r4, #24]
          j++;
        }
        if (j < an->maxlength)
        {
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("left an->objid[j]==%"S32_F"\n",an->objid[j]));
          oidret->id[oidret->len] = an->objid[j];
 80348aa:	6051      	str	r1, [r2, #4]
          (oidret->len)++;
          if (an->nptr[j] == NULL)
 80348ac:	f853 300b 	ldr.w	r3, [r3, fp]
 80348b0:	e11f      	b.n	8034af2 <snmp_expand_tree+0x386>
          /* j == an->maxlength */
          climb_tree = 1;
        }
      }
    }
    else if(node_type == MIB_NODE_LR)
 80348b2:	2b04      	cmp	r3, #4
 80348b4:	d14c      	bne.n	8034950 <snmp_expand_tree+0x1e4>
 80348b6:	6967      	ldr	r7, [r4, #20]
      struct mib_list_rootnode *lrn;
      struct mib_list_node *ln;

      /* list root node (internal 'RAM', variable length) */
      lrn = (struct mib_list_rootnode *)node;
      if (ident_len > 0)
 80348b8:	2e00      	cmp	r6, #0
 80348ba:	d040      	beq.n	803493e <snmp_expand_tree+0x1d2>
      {
        ln = lrn->head;
        /* iterate over list, head to tail */
        while ((ln != NULL) && (ln->objid < *ident))
 80348bc:	e000      	b.n	80348c0 <snmp_expand_tree+0x154>
        {
          ln = ln->next;
 80348be:	687f      	ldr	r7, [r7, #4]
      lrn = (struct mib_list_rootnode *)node;
      if (ident_len > 0)
      {
        ln = lrn->head;
        /* iterate over list, head to tail */
        while ((ln != NULL) && (ln->objid < *ident))
 80348c0:	2f00      	cmp	r7, #0
 80348c2:	f000 80da 	beq.w	8034a7a <snmp_expand_tree+0x30e>
 80348c6:	68ba      	ldr	r2, [r7, #8]
 80348c8:	f8d8 3000 	ldr.w	r3, [r8]
 80348cc:	429a      	cmp	r2, r3
 80348ce:	dbf6      	blt.n	80348be <snmp_expand_tree+0x152>
          ln = ln->next;
        }
        if (ln != NULL)
        {
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("ln->objid==%"S32_F" *ident==%"S32_F"\n",ln->objid,*ident));
          oidret->id[oidret->len] = ln->objid;
 80348d0:	782b      	ldrb	r3, [r5, #0]
 80348d2:	eb05 0183 	add.w	r1, r5, r3, lsl #2
 80348d6:	604a      	str	r2, [r1, #4]
          (oidret->len)++;
 80348d8:	1c5a      	adds	r2, r3, #1
 80348da:	702a      	strb	r2, [r5, #0]
          if (ln->nptr == NULL)
 80348dc:	68f8      	ldr	r0, [r7, #12]
 80348de:	b978      	cbnz	r0, 8034900 <snmp_expand_tree+0x194>
          {
            /* leaf node */
            if (ln->objid > *ident)
 80348e0:	68b8      	ldr	r0, [r7, #8]
 80348e2:	f8d8 6000 	ldr.w	r6, [r8]
 80348e6:	42b0      	cmp	r0, r6
 80348e8:	f300 80f0 	bgt.w	8034acc <snmp_expand_tree+0x360>
            {
              return (struct mib_node*)lrn;
            }
            else if (ln->next != NULL)
 80348ec:	6878      	ldr	r0, [r7, #4]
            {
              /* ln->objid == *ident */
              (oidret->len)--;
 80348ee:	702b      	strb	r3, [r5, #0]
            /* leaf node */
            if (ln->objid > *ident)
            {
              return (struct mib_node*)lrn;
            }
            else if (ln->next != NULL)
 80348f0:	2800      	cmp	r0, #0
 80348f2:	f000 80c2 	beq.w	8034a7a <snmp_expand_tree+0x30e>
            {
              /* ln->objid == *ident */
              (oidret->len)--;
              oidret->id[oidret->len] = ln->next->objid;
 80348f6:	687b      	ldr	r3, [r7, #4]
 80348f8:	689b      	ldr	r3, [r3, #8]
              (oidret->len)++;
 80348fa:	702a      	strb	r2, [r5, #0]
            }
            else if (ln->next != NULL)
            {
              /* ln->objid == *ident */
              (oidret->len)--;
              oidret->id[oidret->len] = ln->next->objid;
 80348fc:	604b      	str	r3, [r1, #4]
 80348fe:	e0e5      	b.n	8034acc <snmp_expand_tree+0x360>
          {
            struct mib_list_node *jn;
            struct nse cur_node;

            /* non-leaf, store right child ptr and id */
            jn = ln->next;
 8034900:	687c      	ldr	r4, [r7, #4]
            while ((jn != NULL) && empty_table(jn->nptr))
 8034902:	e000      	b.n	8034906 <snmp_expand_tree+0x19a>
            {
              jn = jn->next;
 8034904:	6864      	ldr	r4, [r4, #4]
            struct mib_list_node *jn;
            struct nse cur_node;

            /* non-leaf, store right child ptr and id */
            jn = ln->next;
            while ((jn != NULL) && empty_table(jn->nptr))
 8034906:	2c00      	cmp	r4, #0
 8034908:	f000 80e9 	beq.w	8034ade <snmp_expand_tree+0x372>
 803490c:	f8d4 900c 	ldr.w	r9, [r4, #12]
 8034910:	4648      	mov	r0, r9
 8034912:	f7ff fdad 	bl	8034470 <empty_table>
 8034916:	2800      	cmp	r0, #0
 8034918:	d1f4      	bne.n	8034904 <snmp_expand_tree+0x198>
 803491a:	e0d9      	b.n	8034ad0 <snmp_expand_tree+0x364>
            }
            else
            {
              cur_node.r_ptr = NULL;
            }
            push_node(&cur_node);
 803491c:	a807      	add	r0, sp, #28
 803491e:	f7ff fd93 	bl	8034448 <push_node>
            if (ln->objid == *ident)
 8034922:	68ba      	ldr	r2, [r7, #8]
 8034924:	f8d8 3000 	ldr.w	r3, [r8]
 8034928:	429a      	cmp	r2, r3
 803492a:	d104      	bne.n	8034936 <snmp_expand_tree+0x1ca>
            {
              ident_len--;
 803492c:	3e01      	subs	r6, #1
 803492e:	b2f6      	uxtb	r6, r6
              ident++;
 8034930:	f108 0804 	add.w	r8, r8, #4
 8034934:	e000      	b.n	8034938 <snmp_expand_tree+0x1cc>
            }
            else
            {
              /* ln->objid < *ident */
              ident_len = 0;
 8034936:	2600      	movs	r6, #0
            }
            /* follow next child pointer */
            node = ln->nptr;
 8034938:	68fb      	ldr	r3, [r7, #12]
 803493a:	e0dc      	b.n	8034af6 <snmp_expand_tree+0x38a>
        struct mib_list_node *jn;
        /* ident_len == 0, complete with leftmost '.thing' */
        jn = lrn->head;
        while ((jn != NULL) && empty_table(jn->nptr))
        {
          jn = jn->next;
 803493c:	687f      	ldr	r7, [r7, #4]
      else
      {
        struct mib_list_node *jn;
        /* ident_len == 0, complete with leftmost '.thing' */
        jn = lrn->head;
        while ((jn != NULL) && empty_table(jn->nptr))
 803493e:	2f00      	cmp	r7, #0
 8034940:	f000 809b 	beq.w	8034a7a <snmp_expand_tree+0x30e>
 8034944:	68f8      	ldr	r0, [r7, #12]
 8034946:	f7ff fd93 	bl	8034470 <empty_table>
 803494a:	2800      	cmp	r0, #0
 803494c:	d1f6      	bne.n	803493c <snmp_expand_tree+0x1d0>
 803494e:	e0c8      	b.n	8034ae2 <snmp_expand_tree+0x376>
          /* jn == NULL */
          climb_tree = 1;
        }
      }
    }
    else if(node_type == MIB_NODE_EX)
 8034950:	2b05      	cmp	r3, #5
 8034952:	f040 8086 	bne.w	8034a62 <snmp_expand_tree+0x2f6>
      struct mib_external_node *en;
      s32_t ex_id;

      /* external node (addressing and access via functions) */
      en = (struct mib_external_node *)node;
      if (ident_len > 0)
 8034956:	2e00      	cmp	r6, #0
 8034958:	d06e      	beq.n	8034a38 <snmp_expand_tree+0x2cc>
      {
        u16_t i, len;

        i = 0;
        len = en->level_length(en->addr_inf,ext_level);
 803495a:	69e3      	ldr	r3, [r4, #28]
 803495c:	6960      	ldr	r0, [r4, #20]
 803495e:	4651      	mov	r1, sl
 8034960:	4798      	blx	r3
      en = (struct mib_external_node *)node;
      if (ident_len > 0)
      {
        u16_t i, len;

        i = 0;
 8034962:	f04f 0900 	mov.w	r9, #0
        len = en->level_length(en->addr_inf,ext_level);
 8034966:	4683      	mov	fp, r0
        while ((i < len) && (en->ident_cmp(en->addr_inf,ext_level,i,*ident) < 0))
 8034968:	e003      	b.n	8034972 <snmp_expand_tree+0x206>
        {
          i++;
 803496a:	f109 0901 	add.w	r9, r9, #1
 803496e:	fa1f f989 	uxth.w	r9, r9
      {
        u16_t i, len;

        i = 0;
        len = en->level_length(en->addr_inf,ext_level);
        while ((i < len) && (en->ident_cmp(en->addr_inf,ext_level,i,*ident) < 0))
 8034972:	45d9      	cmp	r9, fp
 8034974:	f000 8081 	beq.w	8034a7a <snmp_expand_tree+0x30e>
 8034978:	6a27      	ldr	r7, [r4, #32]
 803497a:	6960      	ldr	r0, [r4, #20]
 803497c:	f8d8 3000 	ldr.w	r3, [r8]
 8034980:	4651      	mov	r1, sl
 8034982:	464a      	mov	r2, r9
 8034984:	47b8      	blx	r7
 8034986:	2800      	cmp	r0, #0
 8034988:	dbef      	blt.n	803496a <snmp_expand_tree+0x1fe>
        {
          i++;
        }
        if (i < len)
 803498a:	45d9      	cmp	r9, fp
 803498c:	d275      	bcs.n	8034a7a <snmp_expand_tree+0x30e>
        {
          /* add identifier to oidret */
          en->get_objid(en->addr_inf,ext_level,i,&ex_id);
 803498e:	4651      	mov	r1, sl
 8034990:	464a      	mov	r2, r9
 8034992:	ab06      	add	r3, sp, #24
 8034994:	6a67      	ldr	r7, [r4, #36]	; 0x24
 8034996:	6960      	ldr	r0, [r4, #20]
 8034998:	47b8      	blx	r7
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("en->objid[%"U16_F"]==%"S32_F" *ident==%"S32_F"\n",i,ex_id,*ident));
          oidret->id[oidret->len] = ex_id;
 803499a:	782b      	ldrb	r3, [r5, #0]
 803499c:	9a06      	ldr	r2, [sp, #24]
 803499e:	eb05 0183 	add.w	r1, r5, r3, lsl #2
          (oidret->len)++;

          if ((ext_level + 1) == en->tree_levels)
 80349a2:	f10a 0c01 	add.w	ip, sl, #1
        if (i < len)
        {
          /* add identifier to oidret */
          en->get_objid(en->addr_inf,ext_level,i,&ex_id);
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("en->objid[%"U16_F"]==%"S32_F" *ident==%"S32_F"\n",i,ex_id,*ident));
          oidret->id[oidret->len] = ex_id;
 80349a6:	604a      	str	r2, [r1, #4]
          (oidret->len)++;
 80349a8:	1c59      	adds	r1, r3, #1
 80349aa:	7029      	strb	r1, [r5, #0]

          if ((ext_level + 1) == en->tree_levels)
 80349ac:	7e21      	ldrb	r1, [r4, #24]
 80349ae:	458c      	cmp	ip, r1
 80349b0:	d118      	bne.n	80349e4 <snmp_expand_tree+0x278>
          {
            LWIP_DEBUGF(SNMP_MIB_DEBUG,("leaf node\n"));
            /* leaf node */
            if (ex_id > *ident)
 80349b2:	f8d8 1000 	ldr.w	r1, [r8]
 80349b6:	428a      	cmp	r2, r1
 80349b8:	f300 8088 	bgt.w	8034acc <snmp_expand_tree+0x360>
            {
              return (struct mib_node*)en;
            }
            else if ((i + 1) < len)
 80349bc:	f109 0201 	add.w	r2, r9, #1
 80349c0:	455a      	cmp	r2, fp
 80349c2:	da0d      	bge.n	80349e0 <snmp_expand_tree+0x274>
            {
              /* ex_id == *ident */
              en->get_objid(en->addr_inf,ext_level,i + 1,&ex_id);
 80349c4:	ab06      	add	r3, sp, #24
 80349c6:	6a66      	ldr	r6, [r4, #36]	; 0x24
 80349c8:	6960      	ldr	r0, [r4, #20]
 80349ca:	4651      	mov	r1, sl
 80349cc:	b292      	uxth	r2, r2
 80349ce:	47b0      	blx	r6
              (oidret->len)--;
 80349d0:	782b      	ldrb	r3, [r5, #0]
 80349d2:	3b01      	subs	r3, #1
              oidret->id[oidret->len] = ex_id;
 80349d4:	b2db      	uxtb	r3, r3
 80349d6:	eb05 0583 	add.w	r5, r5, r3, lsl #2
 80349da:	9b06      	ldr	r3, [sp, #24]
 80349dc:	606b      	str	r3, [r5, #4]
 80349de:	e075      	b.n	8034acc <snmp_expand_tree+0x360>
              return (struct mib_node*)en;
            }
            else
            {
              /* (i + 1) == len */
              (oidret->len)--;
 80349e0:	702b      	strb	r3, [r5, #0]
 80349e2:	e04a      	b.n	8034a7a <snmp_expand_tree+0x30e>
            struct nse cur_node;

            LWIP_DEBUGF(SNMP_MIB_DEBUG,("non-leaf node\n"));
            /* non-leaf, store right child ptr and id */
            LWIP_ASSERT("i < 0xff", i < 0xff);
            j = (u8_t)i + 1;
 80349e4:	f109 0201 	add.w	r2, r9, #1
            if (j < len)
 80349e8:	b2d2      	uxtb	r2, r2
 80349ea:	455a      	cmp	r2, fp
 80349ec:	d20e      	bcs.n	8034a0c <snmp_expand_tree+0x2a0>
            {
              /* right node is the current external node */
              cur_node.r_ptr = node;
 80349ee:	9407      	str	r4, [sp, #28]
              en->get_objid(en->addr_inf,ext_level,j,&cur_node.r_id);
 80349f0:	6960      	ldr	r0, [r4, #20]
 80349f2:	9b05      	ldr	r3, [sp, #20]
 80349f4:	f8cd c004 	str.w	ip, [sp, #4]
 80349f8:	4651      	mov	r1, sl
 80349fa:	6a67      	ldr	r7, [r4, #36]	; 0x24
 80349fc:	47b8      	blx	r7
              cur_node.r_nl = ext_level + 1;
 80349fe:	f8dd c004 	ldr.w	ip, [sp, #4]
 8034a02:	f88d c024 	strb.w	ip, [sp, #36]	; 0x24
 8034a06:	e003      	b.n	8034a10 <snmp_expand_tree+0x2a4>
 8034a08:	2000c57c 	.word	0x2000c57c
            }
            else
            {
              cur_node.r_ptr = NULL;
 8034a0c:	2300      	movs	r3, #0
 8034a0e:	9307      	str	r3, [sp, #28]
            }
            push_node(&cur_node);
 8034a10:	a807      	add	r0, sp, #28
 8034a12:	f7ff fd19 	bl	8034448 <push_node>
            if (en->ident_cmp(en->addr_inf,ext_level,i,*ident) == 0)
 8034a16:	6a27      	ldr	r7, [r4, #32]
 8034a18:	6960      	ldr	r0, [r4, #20]
 8034a1a:	f8d8 3000 	ldr.w	r3, [r8]
 8034a1e:	4651      	mov	r1, sl
 8034a20:	464a      	mov	r2, r9
 8034a22:	47b8      	blx	r7
 8034a24:	b920      	cbnz	r0, 8034a30 <snmp_expand_tree+0x2c4>
            {
              ident_len--;
 8034a26:	3e01      	subs	r6, #1
 8034a28:	b2f6      	uxtb	r6, r6
              ident++;
 8034a2a:	f108 0804 	add.w	r8, r8, #4
 8034a2e:	e000      	b.n	8034a32 <snmp_expand_tree+0x2c6>
            }
            else
            {
              /* external id < *ident */
              ident_len = 0;
 8034a30:	2600      	movs	r6, #0
            }
            /* proceed to child */
            ext_level++;
 8034a32:	f10a 0a01 	add.w	sl, sl, #1
 8034a36:	e011      	b.n	8034a5c <snmp_expand_tree+0x2f0>
        }
      }
      else
      {
        /* ident_len == 0, complete with leftmost '.thing' */
        en->get_objid(en->addr_inf,ext_level,0,&ex_id);
 8034a38:	4651      	mov	r1, sl
 8034a3a:	4632      	mov	r2, r6
 8034a3c:	ab06      	add	r3, sp, #24
 8034a3e:	6a67      	ldr	r7, [r4, #36]	; 0x24
 8034a40:	6960      	ldr	r0, [r4, #20]
 8034a42:	47b8      	blx	r7
        LWIP_DEBUGF(SNMP_MIB_DEBUG,("left en->objid==%"S32_F"\n",ex_id));
        oidret->id[oidret->len] = ex_id;
 8034a44:	782b      	ldrb	r3, [r5, #0]
 8034a46:	9a06      	ldr	r2, [sp, #24]
 8034a48:	eb05 0183 	add.w	r1, r5, r3, lsl #2
        (oidret->len)++;
 8034a4c:	3301      	adds	r3, #1
      else
      {
        /* ident_len == 0, complete with leftmost '.thing' */
        en->get_objid(en->addr_inf,ext_level,0,&ex_id);
        LWIP_DEBUGF(SNMP_MIB_DEBUG,("left en->objid==%"S32_F"\n",ex_id));
        oidret->id[oidret->len] = ex_id;
 8034a4e:	604a      	str	r2, [r1, #4]
        (oidret->len)++;
 8034a50:	702b      	strb	r3, [r5, #0]
        if ((ext_level + 1) == en->tree_levels)
 8034a52:	7e23      	ldrb	r3, [r4, #24]
 8034a54:	f10a 0a01 	add.w	sl, sl, #1
 8034a58:	459a      	cmp	sl, r3
 8034a5a:	d037      	beq.n	8034acc <snmp_expand_tree+0x360>
          return (struct mib_node*)en;
        }
        else
        {
          /* no leaf, proceed to child */
          ext_level++;
 8034a5c:	fa5f fa8a 	uxtb.w	sl, sl
 8034a60:	e030      	b.n	8034ac4 <snmp_expand_tree+0x358>
        }
      }
    }
    else if(node_type == MIB_NODE_SC)
 8034a62:	2b01      	cmp	r3, #1
 8034a64:	d001      	beq.n	8034a6a <snmp_expand_tree+0x2fe>
    }
    else
    {
      /* unknown/unhandled node_type */
      LWIP_DEBUGF(SNMP_MIB_DEBUG,("expand failed node_type %"U16_F" unkown\n",(u16_t)node_type));
      return NULL;
 8034a66:	2000      	movs	r0, #0
 8034a68:	e047      	b.n	8034afa <snmp_expand_tree+0x38e>
    {
      mib_scalar_node *sn;

      /* scalar node  */
      sn = (mib_scalar_node *)node;
      if (ident_len > 0)
 8034a6a:	b936      	cbnz	r6, 8034a7a <snmp_expand_tree+0x30e>
        climb_tree = 1;
      }
      else
      {
        /* ident_len == 0, complete object identifier */
        oidret->id[oidret->len] = 0;
 8034a6c:	782b      	ldrb	r3, [r5, #0]
 8034a6e:	eb05 0283 	add.w	r2, r5, r3, lsl #2
        (oidret->len)++;
 8034a72:	3301      	adds	r3, #1
        climb_tree = 1;
      }
      else
      {
        /* ident_len == 0, complete object identifier */
        oidret->id[oidret->len] = 0;
 8034a74:	6056      	str	r6, [r2, #4]
        (oidret->len)++;
 8034a76:	702b      	strb	r3, [r5, #0]
 8034a78:	e028      	b.n	8034acc <snmp_expand_tree+0x360>
 8034a7a:	4921      	ldr	r1, [pc, #132]	; (8034b00 <snmp_expand_tree+0x394>)
      struct nse child;

      /* find right child ptr */
      child.r_ptr = NULL;
      child.r_id = 0;
      child.r_nl = 0;
 8034a7c:	f04f 0a00 	mov.w	sl, #0
 8034a80:	780b      	ldrb	r3, [r1, #0]
pop_node(struct nse* node)
{
  if (node_stack_cnt > 0)
  {
    node_stack_cnt--;
    *node = node_stack[node_stack_cnt];
 8034a82:	4920      	ldr	r1, [pc, #128]	; (8034b04 <snmp_expand_tree+0x398>)
    {
      struct nse child;

      /* find right child ptr */
      child.r_ptr = NULL;
      child.r_id = 0;
 8034a84:	4652      	mov	r2, sl
    if (climb_tree)
    {
      struct nse child;

      /* find right child ptr */
      child.r_ptr = NULL;
 8034a86:	4654      	mov	r4, sl
pop_node(struct nse* node)
{
  if (node_stack_cnt > 0)
  {
    node_stack_cnt--;
    *node = node_stack[node_stack_cnt];
 8034a88:	260c      	movs	r6, #12

      /* find right child ptr */
      child.r_ptr = NULL;
      child.r_id = 0;
      child.r_nl = 0;
      while ((node_stack_cnt > 0) && (child.r_ptr == NULL))
 8034a8a:	e00b      	b.n	8034aa4 <snmp_expand_tree+0x338>
static void
pop_node(struct nse* node)
{
  if (node_stack_cnt > 0)
  {
    node_stack_cnt--;
 8034a8c:	3b01      	subs	r3, #1
 8034a8e:	b2db      	uxtb	r3, r3
    *node = node_stack[node_stack_cnt];
 8034a90:	fb06 f203 	mul.w	r2, r6, r3
 8034a94:	1888      	adds	r0, r1, r2
 8034a96:	588c      	ldr	r4, [r1, r2]
 8034a98:	f890 a008 	ldrb.w	sl, [r0, #8]
 8034a9c:	6842      	ldr	r2, [r0, #4]
      child.r_nl = 0;
      while ((node_stack_cnt > 0) && (child.r_ptr == NULL))
      {
        pop_node(&child);
        /* trim returned oid */
        (oidret->len)--;
 8034a9e:	7828      	ldrb	r0, [r5, #0]
 8034aa0:	3801      	subs	r0, #1
 8034aa2:	7028      	strb	r0, [r5, #0]

      /* find right child ptr */
      child.r_ptr = NULL;
      child.r_id = 0;
      child.r_nl = 0;
      while ((node_stack_cnt > 0) && (child.r_ptr == NULL))
 8034aa4:	b91b      	cbnz	r3, 8034aae <snmp_expand_tree+0x342>
 8034aa6:	4f16      	ldr	r7, [pc, #88]	; (8034b00 <snmp_expand_tree+0x394>)
 8034aa8:	703b      	strb	r3, [r7, #0]
      {
        pop_node(&child);
        /* trim returned oid */
        (oidret->len)--;
      }
      if (child.r_ptr != NULL)
 8034aaa:	b924      	cbnz	r4, 8034ab6 <snmp_expand_tree+0x34a>
 8034aac:	e7db      	b.n	8034a66 <snmp_expand_tree+0x2fa>

      /* find right child ptr */
      child.r_ptr = NULL;
      child.r_id = 0;
      child.r_nl = 0;
      while ((node_stack_cnt > 0) && (child.r_ptr == NULL))
 8034aae:	2c00      	cmp	r4, #0
 8034ab0:	d0ec      	beq.n	8034a8c <snmp_expand_tree+0x320>
 8034ab2:	4913      	ldr	r1, [pc, #76]	; (8034b00 <snmp_expand_tree+0x394>)
 8034ab4:	700b      	strb	r3, [r1, #0]
      }
      if (child.r_ptr != NULL)
      {
        /* incoming ident is useless beyond this point */
        ident_len = 0;
        oidret->id[oidret->len] = child.r_id;
 8034ab6:	782b      	ldrb	r3, [r5, #0]
 8034ab8:	eb05 0183 	add.w	r1, r5, r3, lsl #2
        oidret->len++;
 8034abc:	3301      	adds	r3, #1
      }
      if (child.r_ptr != NULL)
      {
        /* incoming ident is useless beyond this point */
        ident_len = 0;
        oidret->id[oidret->len] = child.r_id;
 8034abe:	604a      	str	r2, [r1, #4]
        oidret->len++;
 8034ac0:	702b      	strb	r3, [r5, #0]
        (oidret->len)--;
      }
      if (child.r_ptr != NULL)
      {
        /* incoming ident is useless beyond this point */
        ident_len = 0;
 8034ac2:	2600      	movs	r6, #0
  u8_t node_type, ext_level, climb_tree;

  ext_level = 0;
  /* reset node stack */
  node_stack_cnt = 0;
  while (node != NULL)
 8034ac4:	2c00      	cmp	r4, #0
 8034ac6:	f47f ae60 	bne.w	803478a <snmp_expand_tree+0x1e>
 8034aca:	e7cc      	b.n	8034a66 <snmp_expand_tree+0x2fa>
        if (jn != NULL)
        {
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("left jn->objid==%"S32_F"\n",jn->objid));
          oidret->id[oidret->len] = jn->objid;
          (oidret->len)++;
          if (jn->nptr == NULL)
 8034acc:	4620      	mov	r0, r4
 8034ace:	e014      	b.n	8034afa <snmp_expand_tree+0x38e>
              jn = jn->next;
            }
            if (jn != NULL)
            {
              cur_node.r_ptr = jn->nptr;
              cur_node.r_id = jn->objid;
 8034ad0:	68a3      	ldr	r3, [r4, #8]
            {
              jn = jn->next;
            }
            if (jn != NULL)
            {
              cur_node.r_ptr = jn->nptr;
 8034ad2:	f8cd 901c 	str.w	r9, [sp, #28]
              cur_node.r_id = jn->objid;
 8034ad6:	9308      	str	r3, [sp, #32]
              cur_node.r_nl = 0;
 8034ad8:	f88d 0024 	strb.w	r0, [sp, #36]	; 0x24
 8034adc:	e71e      	b.n	803491c <snmp_expand_tree+0x1b0>
            }
            else
            {
              cur_node.r_ptr = NULL;
 8034ade:	9407      	str	r4, [sp, #28]
 8034ae0:	e71c      	b.n	803491c <snmp_expand_tree+0x1b0>
          jn = jn->next;
        }
        if (jn != NULL)
        {
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("left jn->objid==%"S32_F"\n",jn->objid));
          oidret->id[oidret->len] = jn->objid;
 8034ae2:	782b      	ldrb	r3, [r5, #0]
 8034ae4:	68ba      	ldr	r2, [r7, #8]
 8034ae6:	eb05 0183 	add.w	r1, r5, r3, lsl #2
          (oidret->len)++;
 8034aea:	3301      	adds	r3, #1
 8034aec:	702b      	strb	r3, [r5, #0]
          if (jn->nptr == NULL)
 8034aee:	68fb      	ldr	r3, [r7, #12]
          jn = jn->next;
        }
        if (jn != NULL)
        {
          LWIP_DEBUGF(SNMP_MIB_DEBUG,("left jn->objid==%"S32_F"\n",jn->objid));
          oidret->id[oidret->len] = jn->objid;
 8034af0:	604a      	str	r2, [r1, #4]
          (oidret->len)++;
          if (jn->nptr == NULL)
 8034af2:	2b00      	cmp	r3, #0
 8034af4:	d0ea      	beq.n	8034acc <snmp_expand_tree+0x360>
        (oidret->len)--;
      }
      if (child.r_ptr != NULL)
      {
        /* incoming ident is useless beyond this point */
        ident_len = 0;
 8034af6:	461c      	mov	r4, r3
 8034af8:	e7e4      	b.n	8034ac4 <snmp_expand_tree+0x358>
    }
  }
  /* done, found nothing */
  LWIP_DEBUGF(SNMP_MIB_DEBUG,("expand failed node==%p\n",(void*)node));
  return NULL;
}
 8034afa:	b00b      	add	sp, #44	; 0x2c
 8034afc:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8034b00:	2000c57c 	.word	0x2000c57c
 8034b04:	2000c580 	.word	0x2000c580

08034b08 <snmp_iso_prefix_tst>:
 * @return 1 if it matches, 0 otherwise
 */
u8_t
snmp_iso_prefix_tst(u8_t ident_len, s32_t *ident)
{
  if ((ident_len > 3) &&
 8034b08:	2803      	cmp	r0, #3
 8034b0a:	d90d      	bls.n	8034b28 <snmp_iso_prefix_tst+0x20>
 8034b0c:	680b      	ldr	r3, [r1, #0]
 8034b0e:	2b01      	cmp	r3, #1
 8034b10:	d10a      	bne.n	8034b28 <snmp_iso_prefix_tst+0x20>
      (ident[0] == 1) && (ident[1] == 3) &&
 8034b12:	684b      	ldr	r3, [r1, #4]
 8034b14:	2b03      	cmp	r3, #3
 8034b16:	d107      	bne.n	8034b28 <snmp_iso_prefix_tst+0x20>
 8034b18:	688b      	ldr	r3, [r1, #8]
 8034b1a:	2b06      	cmp	r3, #6
 8034b1c:	d104      	bne.n	8034b28 <snmp_iso_prefix_tst+0x20>
      (ident[2] == 6) && (ident[3] == 1))
 8034b1e:	68c8      	ldr	r0, [r1, #12]
  {
    return 1;
 8034b20:	1e43      	subs	r3, r0, #1
 8034b22:	4258      	negs	r0, r3
 8034b24:	4158      	adcs	r0, r3
 8034b26:	4770      	bx	lr
  }
  else
  {
    return 0;
 8034b28:	2000      	movs	r0, #0
  }
}
 8034b2a:	4770      	bx	lr

08034b2c <snmp_iso_prefix_expand>:

  i = 0;
  prefix_ptr = &prefix[0];
  ret_ptr = &oidret->id[0];
  ident_len = ((ident_len < 4)?ident_len:4);
  while ((i < ident_len) && ((*ident) <= (*prefix_ptr)))
 8034b2c:	2300      	movs	r3, #0
 *
 * @note ident_len 0 is allowed, expanding to the first known object id!!
 */
u8_t
snmp_iso_prefix_expand(u8_t ident_len, s32_t *ident, struct snmp_obj_id *oidret)
{
 8034b2e:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
  s32_t *ret_ptr;
  u8_t i;

  i = 0;
  prefix_ptr = &prefix[0];
  ret_ptr = &oidret->id[0];
 8034b32:	1d15      	adds	r5, r2, #4
  ident_len = ((ident_len < 4)?ident_len:4);
 8034b34:	2804      	cmp	r0, #4
 8034b36:	bf34      	ite	cc
 8034b38:	4680      	movcc	r8, r0
 8034b3a:	f04f 0804 	movcs.w	r8, #4
{
  const s32_t *prefix_ptr;
  s32_t *ret_ptr;
  u8_t i;

  i = 0;
 8034b3e:	461c      	mov	r4, r3
 * @return 1 if it matches, 0 otherwise
 *
 * @note ident_len 0 is allowed, expanding to the first known object id!!
 */
u8_t
snmp_iso_prefix_expand(u8_t ident_len, s32_t *ident, struct snmp_obj_id *oidret)
 8034b40:	4f10      	ldr	r7, [pc, #64]	; (8034b84 <snmp_iso_prefix_expand+0x58>)

  i = 0;
  prefix_ptr = &prefix[0];
  ret_ptr = &oidret->id[0];
  ident_len = ((ident_len < 4)?ident_len:4);
  while ((i < ident_len) && ((*ident) <= (*prefix_ptr)))
 8034b42:	e003      	b.n	8034b4c <snmp_iso_prefix_expand+0x20>
  {
    *ret_ptr++ = *prefix_ptr++;
    ident++;
    i++;
 8034b44:	3401      	adds	r4, #1
  prefix_ptr = &prefix[0];
  ret_ptr = &oidret->id[0];
  ident_len = ((ident_len < 4)?ident_len:4);
  while ((i < ident_len) && ((*ident) <= (*prefix_ptr)))
  {
    *ret_ptr++ = *prefix_ptr++;
 8034b46:	50ee      	str	r6, [r5, r3]
    ident++;
    i++;
 8034b48:	b2e4      	uxtb	r4, r4
 8034b4a:	3304      	adds	r3, #4

  i = 0;
  prefix_ptr = &prefix[0];
  ret_ptr = &oidret->id[0];
  ident_len = ((ident_len < 4)?ident_len:4);
  while ((i < ident_len) && ((*ident) <= (*prefix_ptr)))
 8034b4c:	4544      	cmp	r4, r8
 * @return 1 if it matches, 0 otherwise
 *
 * @note ident_len 0 is allowed, expanding to the first known object id!!
 */
u8_t
snmp_iso_prefix_expand(u8_t ident_len, s32_t *ident, struct snmp_obj_id *oidret)
 8034b4e:	eb05 0c03 	add.w	ip, r5, r3
 8034b52:	eb07 0603 	add.w	r6, r7, r3

  i = 0;
  prefix_ptr = &prefix[0];
  ret_ptr = &oidret->id[0];
  ident_len = ((ident_len < 4)?ident_len:4);
  while ((i < ident_len) && ((*ident) <= (*prefix_ptr)))
 8034b56:	d101      	bne.n	8034b5c <snmp_iso_prefix_expand+0x30>
 8034b58:	2300      	movs	r3, #0
 8034b5a:	e00c      	b.n	8034b76 <snmp_iso_prefix_expand+0x4a>
 8034b5c:	59de      	ldr	r6, [r3, r7]
 8034b5e:	58c8      	ldr	r0, [r1, r3]
 8034b60:	42b0      	cmp	r0, r6
 8034b62:	ddef      	ble.n	8034b44 <snmp_iso_prefix_expand+0x18>
    return 1;
  }
  else
  {
    /* i != ident_len */
    return 0;
 8034b64:	2000      	movs	r0, #0
 8034b66:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
  if (i == ident_len)
  {
    /* match, complete missing bits */
    while (i < 4)
    {
      *ret_ptr++ = *prefix_ptr++;
 8034b6a:	58f1      	ldr	r1, [r6, r3]
      i++;
 8034b6c:	3401      	adds	r4, #1
  if (i == ident_len)
  {
    /* match, complete missing bits */
    while (i < 4)
    {
      *ret_ptr++ = *prefix_ptr++;
 8034b6e:	f84c 1003 	str.w	r1, [ip, r3]
      i++;
 8034b72:	b2e4      	uxtb	r4, r4
 8034b74:	3304      	adds	r3, #4
    i++;
  }
  if (i == ident_len)
  {
    /* match, complete missing bits */
    while (i < 4)
 8034b76:	2c03      	cmp	r4, #3
 8034b78:	d9f7      	bls.n	8034b6a <snmp_iso_prefix_expand+0x3e>
    {
      *ret_ptr++ = *prefix_ptr++;
      i++;
    }
    oidret->len = i;
 8034b7a:	7014      	strb	r4, [r2, #0]
    return 1;
 8034b7c:	2001      	movs	r0, #1
  else
  {
    /* i != ident_len */
    return 0;
  }
}
 8034b7e:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
 8034b82:	bf00      	nop
 8034b84:	080448f8 	.word	0x080448f8

08034b88 <snmp_init>:
 * Starts SNMP Agent.
 * Allocates UDP pcb and binds it to IP_ADDR_ANY port 161.
 */
void
snmp_init(void)
{
 8034b88:	b510      	push	{r4, lr}
  struct snmp_msg_pstat *msg_ps;
  u8_t i;

  snmp1_pcb = udp_new();
 8034b8a:	f7fd fa1d 	bl	8031fc8 <udp_new>
 8034b8e:	4c0b      	ldr	r4, [pc, #44]	; (8034bbc <snmp_init+0x34>)
 8034b90:	6020      	str	r0, [r4, #0]
  if (snmp1_pcb != NULL)
 8034b92:	b140      	cbz	r0, 8034ba6 <snmp_init+0x1e>
  {
    udp_recv(snmp1_pcb, snmp_recv, (void *)SNMP_IN_PORT);
 8034b94:	490a      	ldr	r1, [pc, #40]	; (8034bc0 <snmp_init+0x38>)
 8034b96:	22a1      	movs	r2, #161	; 0xa1
 8034b98:	f7fd f9f6 	bl	8031f88 <udp_recv>
    udp_bind(snmp1_pcb, IP_ADDR_ANY, SNMP_IN_PORT);
 8034b9c:	6820      	ldr	r0, [r4, #0]
 8034b9e:	4909      	ldr	r1, [pc, #36]	; (8034bc4 <snmp_init+0x3c>)
 8034ba0:	22a1      	movs	r2, #161	; 0xa1
 8034ba2:	f7fd f8f9 	bl	8031d98 <udp_bind>
  }
  msg_ps = &msg_input_list[0];
  for (i=0; i<SNMP_CONCURRENT_REQUESTS; i++)
  {
    msg_ps->state = SNMP_MSG_EMPTY;
 8034ba6:	4b08      	ldr	r3, [pc, #32]	; (8034bc8 <snmp_init+0x40>)
 8034ba8:	2200      	movs	r2, #0
 8034baa:	f883 205a 	strb.w	r2, [r3, #90]	; 0x5a
    msg_ps->error_index = 0;
 8034bae:	615a      	str	r2, [r3, #20]
    msg_ps->error_status = SNMP_ES_NOERROR;
 8034bb0:	611a      	str	r2, [r3, #16]
    msg_ps++;
  }
  trap_msg.pcb = snmp1_pcb;
 8034bb2:	4b02      	ldr	r3, [pc, #8]	; (8034bbc <snmp_init+0x34>)
 8034bb4:	681a      	ldr	r2, [r3, #0]
 8034bb6:	4b05      	ldr	r3, [pc, #20]	; (8034bcc <snmp_init+0x44>)
 8034bb8:	601a      	str	r2, [r3, #0]
 8034bba:	bd10      	pop	{r4, pc}
 8034bbc:	2000f6dc 	.word	0x2000f6dc
 8034bc0:	08035735 	.word	0x08035735
 8034bc4:	08043fe4 	.word	0x08043fe4
 8034bc8:	2000f6e0 	.word	0x2000f6e0
 8034bcc:	2000f818 	.word	0x2000f818

08034bd0 <snmp_varbind_alloc>:
  return ERR_OK;
}

struct snmp_varbind*
snmp_varbind_alloc(struct snmp_obj_id *oid, u8_t type, u8_t len)
{
 8034bd0:	e92d 43f8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
 8034bd4:	4680      	mov	r8, r0
  struct snmp_varbind *vb;

  vb = (struct snmp_varbind *)memp_malloc(MEMP_SNMP_VARBIND);
 8034bd6:	200c      	movs	r0, #12
  return ERR_OK;
}

struct snmp_varbind*
snmp_varbind_alloc(struct snmp_obj_id *oid, u8_t type, u8_t len)
{
 8034bd8:	4689      	mov	r9, r1
 8034bda:	4617      	mov	r7, r2
  struct snmp_varbind *vb;

  vb = (struct snmp_varbind *)memp_malloc(MEMP_SNMP_VARBIND);
 8034bdc:	f7fa fb6c 	bl	802f2b8 <memp_malloc>
  if (vb != NULL)
 8034be0:	4604      	mov	r4, r0
 8034be2:	2800      	cmp	r0, #0
 8034be4:	d032      	beq.n	8034c4c <snmp_varbind_alloc+0x7c>
  {
    u8_t i;

    vb->next = NULL;
 8034be6:	2300      	movs	r3, #0
 8034be8:	6003      	str	r3, [r0, #0]
    vb->prev = NULL;
 8034bea:	6043      	str	r3, [r0, #4]
    i = oid->len;
 8034bec:	f898 5000 	ldrb.w	r5, [r8]
    vb->ident_len = i;
 8034bf0:	7205      	strb	r5, [r0, #8]
    if (i > 0)
 8034bf2:	b1ad      	cbz	r5, 8034c20 <snmp_varbind_alloc+0x50>
    {
      LWIP_ASSERT("SNMP_MAX_TREE_DEPTH is configured too low", i <= SNMP_MAX_TREE_DEPTH);
      /* allocate array of s32_t for our object identifier */
      vb->ident = (s32_t*)memp_malloc(MEMP_SNMP_VALUE);
 8034bf4:	200d      	movs	r0, #13
 8034bf6:	f7fa fb5f 	bl	802f2b8 <memp_malloc>
 8034bfa:	4606      	mov	r6, r0
 8034bfc:	60e0      	str	r0, [r4, #12]
      if (vb->ident == NULL)
 8034bfe:	b928      	cbnz	r0, 8034c0c <snmp_varbind_alloc+0x3c>
      {
        LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_varbind_alloc: couldn't allocate ident value space\n"));
        memp_free(MEMP_SNMP_VARBIND, vb);
 8034c00:	4621      	mov	r1, r4
 8034c02:	200c      	movs	r0, #12
 8034c04:	f7fa fb6e 	bl	802f2e4 <memp_free>
        return NULL;
 8034c08:	4634      	mov	r4, r6
 8034c0a:	e01f      	b.n	8034c4c <snmp_varbind_alloc+0x7c>
      }
      while(i > 0)
      {
        i--;
 8034c0c:	3d01      	subs	r5, #1
 8034c0e:	b2ed      	uxtb	r5, r5
        vb->ident[i] = oid->id[i];
 8034c10:	eb08 0385 	add.w	r3, r8, r5, lsl #2
 8034c14:	685b      	ldr	r3, [r3, #4]
 8034c16:	f846 3025 	str.w	r3, [r6, r5, lsl #2]
      {
        LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_varbind_alloc: couldn't allocate ident value space\n"));
        memp_free(MEMP_SNMP_VARBIND, vb);
        return NULL;
      }
      while(i > 0)
 8034c1a:	2d00      	cmp	r5, #0
 8034c1c:	d1f6      	bne.n	8034c0c <snmp_varbind_alloc+0x3c>
 8034c1e:	e000      	b.n	8034c22 <snmp_varbind_alloc+0x52>
      }
    }
    else
    {
      /* i == 0, pass zero length object identifier */
      vb->ident = NULL;
 8034c20:	60c5      	str	r5, [r0, #12]
    }
    vb->value_type = type;
 8034c22:	f884 9010 	strb.w	r9, [r4, #16]
    vb->value_len = len;
 8034c26:	7467      	strb	r7, [r4, #17]
    if (len > 0)
 8034c28:	b17f      	cbz	r7, 8034c4a <snmp_varbind_alloc+0x7a>
    {
      LWIP_ASSERT("SNMP_MAX_OCTET_STRING_LEN is configured too low", vb->value_len <= SNMP_MAX_VALUE_SIZE);
      /* allocate raw bytes for our object value */
      vb->value = memp_malloc(MEMP_SNMP_VALUE);
 8034c2a:	200d      	movs	r0, #13
 8034c2c:	f7fa fb44 	bl	802f2b8 <memp_malloc>
 8034c30:	6160      	str	r0, [r4, #20]
      if (vb->value == NULL)
 8034c32:	b958      	cbnz	r0, 8034c4c <snmp_varbind_alloc+0x7c>
      {
        LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_varbind_alloc: couldn't allocate value space\n"));
        if (vb->ident != NULL)
 8034c34:	68e1      	ldr	r1, [r4, #12]
 8034c36:	b111      	cbz	r1, 8034c3e <snmp_varbind_alloc+0x6e>
        {
          memp_free(MEMP_SNMP_VALUE, vb->ident);
 8034c38:	200d      	movs	r0, #13
 8034c3a:	f7fa fb53 	bl	802f2e4 <memp_free>
        }
        memp_free(MEMP_SNMP_VARBIND, vb);
 8034c3e:	4621      	mov	r1, r4
 8034c40:	200c      	movs	r0, #12
 8034c42:	f7fa fb4f 	bl	802f2e4 <memp_free>
        return NULL;
 8034c46:	2400      	movs	r4, #0
 8034c48:	e000      	b.n	8034c4c <snmp_varbind_alloc+0x7c>
      }
    }
    else
    {
      /* ASN1_NUL type, or zero length ASN1_OC_STR */
      vb->value = NULL;
 8034c4a:	6167      	str	r7, [r4, #20]
  else
  {
    LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_varbind_alloc: couldn't allocate varbind space\n"));
  }
  return vb;
}
 8034c4c:	4620      	mov	r0, r4
 8034c4e:	e8bd 83f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, pc}

08034c52 <snmp_varbind_free>:

void
snmp_varbind_free(struct snmp_varbind *vb)
{
  if (vb->value != NULL )
 8034c52:	6941      	ldr	r1, [r0, #20]
  return vb;
}

void
snmp_varbind_free(struct snmp_varbind *vb)
{
 8034c54:	b510      	push	{r4, lr}
 8034c56:	4604      	mov	r4, r0
  if (vb->value != NULL )
 8034c58:	b111      	cbz	r1, 8034c60 <snmp_varbind_free+0xe>
  {
    memp_free(MEMP_SNMP_VALUE, vb->value);
 8034c5a:	200d      	movs	r0, #13
 8034c5c:	f7fa fb42 	bl	802f2e4 <memp_free>
  }
  if (vb->ident != NULL )
 8034c60:	68e1      	ldr	r1, [r4, #12]
 8034c62:	b111      	cbz	r1, 8034c6a <snmp_varbind_free+0x18>
  {
    memp_free(MEMP_SNMP_VALUE, vb->ident);
 8034c64:	200d      	movs	r0, #13
 8034c66:	f7fa fb3d 	bl	802f2e4 <memp_free>
  }
  memp_free(MEMP_SNMP_VARBIND, vb);
 8034c6a:	200c      	movs	r0, #12
 8034c6c:	4621      	mov	r1, r4
}
 8034c6e:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
  }
  if (vb->ident != NULL )
  {
    memp_free(MEMP_SNMP_VALUE, vb->ident);
  }
  memp_free(MEMP_SNMP_VARBIND, vb);
 8034c72:	f7fa bb37 	b.w	802f2e4 <memp_free>

08034c76 <snmp_varbind_list_free>:
}

void
snmp_varbind_list_free(struct snmp_varbind_root *root)
{
 8034c76:	b538      	push	{r3, r4, r5, lr}
 8034c78:	4604      	mov	r4, r0
  struct snmp_varbind *vb, *prev;

  vb = root->tail;
 8034c7a:	6840      	ldr	r0, [r0, #4]
  while ( vb != NULL )
 8034c7c:	e003      	b.n	8034c86 <snmp_varbind_list_free+0x10>
  {
    prev = vb->prev;
 8034c7e:	6845      	ldr	r5, [r0, #4]
    snmp_varbind_free(vb);
 8034c80:	f7ff ffe7 	bl	8034c52 <snmp_varbind_free>
    vb = prev;
 8034c84:	4628      	mov	r0, r5
snmp_varbind_list_free(struct snmp_varbind_root *root)
{
  struct snmp_varbind *vb, *prev;

  vb = root->tail;
  while ( vb != NULL )
 8034c86:	2800      	cmp	r0, #0
 8034c88:	d1f9      	bne.n	8034c7e <snmp_varbind_list_free+0x8>
  {
    prev = vb->prev;
    snmp_varbind_free(vb);
    vb = prev;
  }
  root->count = 0;
 8034c8a:	7220      	strb	r0, [r4, #8]
  root->head = NULL;
 8034c8c:	6020      	str	r0, [r4, #0]
  root->tail = NULL;
 8034c8e:	6060      	str	r0, [r4, #4]
 8034c90:	bd38      	pop	{r3, r4, r5, pc}

08034c92 <snmp_error_response>:
  //snmp_coldstart_trap();
}

static void
snmp_error_response(struct snmp_msg_pstat *msg_ps, u8_t error)
{
 8034c92:	b570      	push	{r4, r5, r6, lr}
 8034c94:	4604      	mov	r4, r0
  /* move names back from outvb to invb */
  int v;
  struct snmp_varbind *vbi = msg_ps->invb.head;
  struct snmp_varbind *vbo = msg_ps->outvb.head;
  for (v=0; v<msg_ps->vb_idx; v++) {
 8034c96:	2200      	movs	r2, #0
  //snmp_coldstart_trap();
}

static void
snmp_error_response(struct snmp_msg_pstat *msg_ps, u8_t error)
{
 8034c98:	460e      	mov	r6, r1
  /* move names back from outvb to invb */
  int v;
  struct snmp_varbind *vbi = msg_ps->invb.head;
 8034c9a:	f8d0 0100 	ldr.w	r0, [r0, #256]	; 0x100
  struct snmp_varbind *vbo = msg_ps->outvb.head;
 8034c9e:	f8d4 310c 	ldr.w	r3, [r4, #268]	; 0x10c
  for (v=0; v<msg_ps->vb_idx; v++) {
    vbi->ident_len = vbo->ident_len;
    vbo->ident_len = 0;
 8034ca2:	4611      	mov	r1, r2
{
  /* move names back from outvb to invb */
  int v;
  struct snmp_varbind *vbi = msg_ps->invb.head;
  struct snmp_varbind *vbo = msg_ps->outvb.head;
  for (v=0; v<msg_ps->vb_idx; v++) {
 8034ca4:	e008      	b.n	8034cb8 <snmp_error_response+0x26>
    vbi->ident_len = vbo->ident_len;
 8034ca6:	7a1d      	ldrb	r5, [r3, #8]
 8034ca8:	7205      	strb	r5, [r0, #8]
    vbo->ident_len = 0;
    vbi->ident = vbo->ident;
 8034caa:	68dd      	ldr	r5, [r3, #12]
  int v;
  struct snmp_varbind *vbi = msg_ps->invb.head;
  struct snmp_varbind *vbo = msg_ps->outvb.head;
  for (v=0; v<msg_ps->vb_idx; v++) {
    vbi->ident_len = vbo->ident_len;
    vbo->ident_len = 0;
 8034cac:	7219      	strb	r1, [r3, #8]
    vbi->ident = vbo->ident;
 8034cae:	60c5      	str	r5, [r0, #12]
    vbo->ident = NULL;
 8034cb0:	60d9      	str	r1, [r3, #12]
    vbi = vbi->next;
 8034cb2:	6800      	ldr	r0, [r0, #0]
    vbo = vbo->next;
 8034cb4:	681b      	ldr	r3, [r3, #0]
{
  /* move names back from outvb to invb */
  int v;
  struct snmp_varbind *vbi = msg_ps->invb.head;
  struct snmp_varbind *vbo = msg_ps->outvb.head;
  for (v=0; v<msg_ps->vb_idx; v++) {
 8034cb6:	3201      	adds	r2, #1
 8034cb8:	f894 50f8 	ldrb.w	r5, [r4, #248]	; 0xf8
 8034cbc:	42aa      	cmp	r2, r5
 8034cbe:	dbf2      	blt.n	8034ca6 <snmp_error_response+0x14>
    vbo->ident = NULL;
    vbi = vbi->next;
    vbo = vbo->next;
  }
  /* free outvb */
  snmp_varbind_list_free(&msg_ps->outvb);
 8034cc0:	f504 7586 	add.w	r5, r4, #268	; 0x10c
 8034cc4:	4628      	mov	r0, r5
 8034cc6:	f7ff ffd6 	bl	8034c76 <snmp_varbind_list_free>
  /* we send invb back */
  msg_ps->outvb = msg_ps->invb;
 8034cca:	f504 7380 	add.w	r3, r4, #256	; 0x100
 8034cce:	e893 0007 	ldmia.w	r3, {r0, r1, r2}
  msg_ps->invb.head = NULL;
 8034cd2:	2300      	movs	r3, #0
  msg_ps->invb.tail = NULL;
  msg_ps->invb.count = 0;
  msg_ps->error_status = error;
  /* error index must be 0 for error too big */
  msg_ps->error_index = (error != SNMP_ES_TOOBIG) ? (1 + msg_ps->vb_idx) : 0;
 8034cd4:	2e01      	cmp	r6, #1
  }
  /* free outvb */
  snmp_varbind_list_free(&msg_ps->outvb);
  /* we send invb back */
  msg_ps->outvb = msg_ps->invb;
  msg_ps->invb.head = NULL;
 8034cd6:	f8c4 3100 	str.w	r3, [r4, #256]	; 0x100
  msg_ps->invb.tail = NULL;
 8034cda:	f8c4 3104 	str.w	r3, [r4, #260]	; 0x104
  msg_ps->invb.count = 0;
 8034cde:	f884 3108 	strb.w	r3, [r4, #264]	; 0x108
  msg_ps->error_status = error;
  /* error index must be 0 for error too big */
  msg_ps->error_index = (error != SNMP_ES_TOOBIG) ? (1 + msg_ps->vb_idx) : 0;
 8034ce2:	bf18      	it	ne
 8034ce4:	f894 30f8 	ldrbne.w	r3, [r4, #248]	; 0xf8
  /* we send invb back */
  msg_ps->outvb = msg_ps->invb;
  msg_ps->invb.head = NULL;
  msg_ps->invb.tail = NULL;
  msg_ps->invb.count = 0;
  msg_ps->error_status = error;
 8034ce8:	6126      	str	r6, [r4, #16]
  /* error index must be 0 for error too big */
  msg_ps->error_index = (error != SNMP_ES_TOOBIG) ? (1 + msg_ps->vb_idx) : 0;
 8034cea:	bf18      	it	ne
 8034cec:	3301      	addne	r3, #1
    vbo = vbo->next;
  }
  /* free outvb */
  snmp_varbind_list_free(&msg_ps->outvb);
  /* we send invb back */
  msg_ps->outvb = msg_ps->invb;
 8034cee:	e885 0007 	stmia.w	r5, {r0, r1, r2}
  msg_ps->invb.head = NULL;
  msg_ps->invb.tail = NULL;
  msg_ps->invb.count = 0;
  msg_ps->error_status = error;
  /* error index must be 0 for error too big */
  msg_ps->error_index = (error != SNMP_ES_TOOBIG) ? (1 + msg_ps->vb_idx) : 0;
 8034cf2:	6163      	str	r3, [r4, #20]
  snmp_send_response(msg_ps);
 8034cf4:	4620      	mov	r0, r4
 8034cf6:	f001 f877 	bl	8035de8 <snmp_send_response>
  snmp_varbind_list_free(&msg_ps->outvb);
 8034cfa:	4628      	mov	r0, r5
 8034cfc:	f7ff ffbb 	bl	8034c76 <snmp_varbind_list_free>
  msg_ps->state = SNMP_MSG_EMPTY;
 8034d00:	2300      	movs	r3, #0
 8034d02:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
 8034d06:	bd70      	pop	{r4, r5, r6, pc}

08034d08 <snmp_ok_response>:
}

static void
snmp_ok_response(struct snmp_msg_pstat *msg_ps)
{
 8034d08:	b510      	push	{r4, lr}
 8034d0a:	4604      	mov	r4, r0
  err_t err_ret;

  err_ret = snmp_send_response(msg_ps);
 8034d0c:	f001 f86c 	bl	8035de8 <snmp_send_response>
  else
  {
    LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_event = %"S32_F"\n",msg_ps->error_status));
  }
  /* free varbinds (if available) */
  snmp_varbind_list_free(&msg_ps->invb);
 8034d10:	f504 7080 	add.w	r0, r4, #256	; 0x100
 8034d14:	f7ff ffaf 	bl	8034c76 <snmp_varbind_list_free>
  snmp_varbind_list_free(&msg_ps->outvb);
 8034d18:	f504 7086 	add.w	r0, r4, #268	; 0x10c
 8034d1c:	f7ff ffab 	bl	8034c76 <snmp_varbind_list_free>
  msg_ps->state = SNMP_MSG_EMPTY;
 8034d20:	2300      	movs	r3, #0
 8034d22:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
 8034d26:	bd10      	pop	{r4, pc}

08034d28 <snmp_varbind_tail_add>:
}

void
snmp_varbind_tail_add(struct snmp_varbind_root *root, struct snmp_varbind *vb)
{
  if (root->count == 0)
 8034d28:	7a03      	ldrb	r3, [r0, #8]
 8034d2a:	b90b      	cbnz	r3, 8034d30 <snmp_varbind_tail_add+0x8>
  {
    /* add first varbind to list */
    root->head = vb;
 8034d2c:	6001      	str	r1, [r0, #0]
 8034d2e:	e002      	b.n	8034d36 <snmp_varbind_tail_add+0xe>
    root->tail = vb;
  }
  else
  {
    /* add nth varbind to list tail */
    root->tail->next = vb;
 8034d30:	6843      	ldr	r3, [r0, #4]
 8034d32:	6019      	str	r1, [r3, #0]
    vb->prev = root->tail;
 8034d34:	604b      	str	r3, [r1, #4]
    root->tail = vb;
  }
  root->count += 1;
 8034d36:	7a03      	ldrb	r3, [r0, #8]
  else
  {
    /* add nth varbind to list tail */
    root->tail->next = vb;
    vb->prev = root->tail;
    root->tail = vb;
 8034d38:	6041      	str	r1, [r0, #4]
  }
  root->count += 1;
 8034d3a:	3301      	adds	r3, #1
 8034d3c:	7203      	strb	r3, [r0, #8]
 8034d3e:	4770      	bx	lr

08034d40 <snmp_msg_event>:
 *
 * @param request_id identifies requests from 0 to (SNMP_CONCURRENT_REQUESTS-1)
 */
void
snmp_msg_event(u8_t request_id)
{
 8034d40:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
  struct snmp_msg_pstat *msg_ps;

  if (request_id < SNMP_CONCURRENT_REQUESTS)
 8034d44:	4605      	mov	r5, r0
 *
 * @param request_id identifies requests from 0 to (SNMP_CONCURRENT_REQUESTS-1)
 */
void
snmp_msg_event(u8_t request_id)
{
 8034d46:	b0a7      	sub	sp, #156	; 0x9c
  struct snmp_msg_pstat *msg_ps;

  if (request_id < SNMP_CONCURRENT_REQUESTS)
 8034d48:	2800      	cmp	r0, #0
 8034d4a:	f040 8390 	bne.w	803546e <snmp_msg_event+0x72e>
  {
    msg_ps = &msg_input_list[request_id];
    if (msg_ps->rt == SNMP_ASN1_PDU_GET_NEXT_REQ)
 8034d4e:	4cb2      	ldr	r4, [pc, #712]	; (8035018 <snmp_msg_event+0x2d8>)
 8034d50:	7aa6      	ldrb	r6, [r4, #10]
 8034d52:	2e01      	cmp	r6, #1
 8034d54:	f040 80d4 	bne.w	8034f00 <snmp_msg_event+0x1c0>
static void
snmp_msg_getnext_event(u8_t request_id, struct snmp_msg_pstat *msg_ps)
{
  LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_getnext_event: msg_ps->state==%"U16_F"\n",(u16_t)msg_ps->state));

  if (msg_ps->state == SNMP_MSG_EXTERNAL_GET_OBJDEF)
 8034d58:	f894 305a 	ldrb.w	r3, [r4, #90]	; 0x5a
 8034d5c:	2b07      	cmp	r3, #7
 8034d5e:	d125      	bne.n	8034dac <snmp_msg_event+0x6c>

    /* get_object_def() answer*/
    en = msg_ps->ext_mib_node;

    /* translate answer into a known lifeform */
    en->get_object_def_a(request_id, 1, &msg_ps->ext_oid.id[msg_ps->ext_oid.len - 1], &msg_ps->ext_object_def);
 8034d60:	f894 2074 	ldrb.w	r2, [r4, #116]	; 0x74
  if (msg_ps->state == SNMP_MSG_EXTERNAL_GET_OBJDEF)
  {
    struct mib_external_node *en;

    /* get_object_def() answer*/
    en = msg_ps->ext_mib_node;
 8034d64:	f8d4 805c 	ldr.w	r8, [r4, #92]	; 0x5c

    /* translate answer into a known lifeform */
    en->get_object_def_a(request_id, 1, &msg_ps->ext_oid.id[msg_ps->ext_oid.len - 1], &msg_ps->ext_object_def);
 8034d68:	eb04 0282 	add.w	r2, r4, r2, lsl #2
 8034d6c:	4631      	mov	r1, r6
 8034d6e:	3274      	adds	r2, #116	; 0x74
 8034d70:	f104 0368 	add.w	r3, r4, #104	; 0x68
 8034d74:	f8d8 7038 	ldr.w	r7, [r8, #56]	; 0x38
 8034d78:	47b8      	blx	r7
    if (msg_ps->ext_object_def.instance != MIB_OBJECT_NONE)
 8034d7a:	f894 0068 	ldrb.w	r0, [r4, #104]	; 0x68
 8034d7e:	b148      	cbz	r0, 8034d94 <snmp_msg_event+0x54>
    {
      msg_ps->state = SNMP_MSG_EXTERNAL_GET_VALUE;
 8034d80:	2308      	movs	r3, #8
 8034d82:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
      en->get_value_q(request_id, &msg_ps->ext_object_def);
 8034d86:	f8d8 302c 	ldr.w	r3, [r8, #44]	; 0x2c
 8034d8a:	4628      	mov	r0, r5
 8034d8c:	f104 0168 	add.w	r1, r4, #104	; 0x68
 8034d90:	4798      	blx	r3
 8034d92:	e0a6      	b.n	8034ee2 <snmp_msg_event+0x1a2>
    }
    else
    {
      en->get_object_def_pc(request_id, 1, &msg_ps->ext_oid.id[msg_ps->ext_oid.len - 1]);
 8034d94:	f894 2074 	ldrb.w	r2, [r4, #116]	; 0x74
 8034d98:	f8d8 3048 	ldr.w	r3, [r8, #72]	; 0x48
 8034d9c:	eb04 0282 	add.w	r2, r4, r2, lsl #2
 8034da0:	4631      	mov	r1, r6
 8034da2:	3274      	adds	r2, #116	; 0x74
 8034da4:	4798      	blx	r3
      /* search failed, object id points to unknown object (nosuchname) */
      snmp_error_response(msg_ps,SNMP_ES_NOSUCHNAME);
 8034da6:	4620      	mov	r0, r4
 8034da8:	2102      	movs	r1, #2
 8034daa:	e02a      	b.n	8034e02 <snmp_msg_event+0xc2>
    }
  }
  else if (msg_ps->state == SNMP_MSG_EXTERNAL_GET_VALUE)
 8034dac:	2b08      	cmp	r3, #8
 8034dae:	f040 8098 	bne.w	8034ee2 <snmp_msg_event+0x1a2>

    /* get_value() answer */
    en = msg_ps->ext_mib_node;

    LWIP_ASSERT("invalid length", msg_ps->ext_object_def.v_len <= 0xff);
    vb = snmp_varbind_alloc(&msg_ps->ext_oid,
 8034db2:	f104 0074 	add.w	r0, r4, #116	; 0x74
 8034db6:	f894 106a 	ldrb.w	r1, [r4, #106]	; 0x6a
 8034dba:	f894 206c 	ldrb.w	r2, [r4, #108]	; 0x6c
  {
    struct mib_external_node *en;
    struct snmp_varbind *vb;

    /* get_value() answer */
    en = msg_ps->ext_mib_node;
 8034dbe:	f8d4 805c 	ldr.w	r8, [r4, #92]	; 0x5c

    LWIP_ASSERT("invalid length", msg_ps->ext_object_def.v_len <= 0xff);
    vb = snmp_varbind_alloc(&msg_ps->ext_oid,
 8034dc2:	f7ff ff05 	bl	8034bd0 <snmp_varbind_alloc>
                            msg_ps->ext_object_def.asn_type,
                            (u8_t)msg_ps->ext_object_def.v_len);
    if (vb != NULL)
 8034dc6:	4607      	mov	r7, r0
 8034dc8:	b1a0      	cbz	r0, 8034df4 <snmp_msg_event+0xb4>
    {
      en->get_value_a(request_id, &msg_ps->ext_object_def, vb->value_len, vb->value);
 8034dca:	697b      	ldr	r3, [r7, #20]
 8034dcc:	f8d8 c03c 	ldr.w	ip, [r8, #60]	; 0x3c
 8034dd0:	7c7a      	ldrb	r2, [r7, #17]
 8034dd2:	4628      	mov	r0, r5
 8034dd4:	f104 0168 	add.w	r1, r4, #104	; 0x68
 8034dd8:	47e0      	blx	ip
      snmp_varbind_tail_add(&msg_ps->outvb, vb);
 8034dda:	f504 7086 	add.w	r0, r4, #268	; 0x10c
 8034dde:	4639      	mov	r1, r7
 8034de0:	f7ff ffa2 	bl	8034d28 <snmp_varbind_tail_add>
      msg_ps->state = SNMP_MSG_SEARCH_OBJ;
      msg_ps->vb_idx += 1;
 8034de4:	f894 30f8 	ldrb.w	r3, [r4, #248]	; 0xf8
                            (u8_t)msg_ps->ext_object_def.v_len);
    if (vb != NULL)
    {
      en->get_value_a(request_id, &msg_ps->ext_object_def, vb->value_len, vb->value);
      snmp_varbind_tail_add(&msg_ps->outvb, vb);
      msg_ps->state = SNMP_MSG_SEARCH_OBJ;
 8034de8:	f884 605a 	strb.w	r6, [r4, #90]	; 0x5a
      msg_ps->vb_idx += 1;
 8034dec:	3301      	adds	r3, #1
 8034dee:	f884 30f8 	strb.w	r3, [r4, #248]	; 0xf8
 8034df2:	e076      	b.n	8034ee2 <snmp_msg_event+0x1a2>
    }
    else
    {
      en->get_value_pc(request_id, &msg_ps->ext_object_def);
 8034df4:	f104 0168 	add.w	r1, r4, #104	; 0x68
 8034df8:	f8d8 304c 	ldr.w	r3, [r8, #76]	; 0x4c
 8034dfc:	4798      	blx	r3
      LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_getnext_event: couldn't allocate outvb space\n"));
      snmp_error_response(msg_ps,SNMP_ES_TOOBIG);
 8034dfe:	4620      	mov	r0, r4
 8034e00:	4631      	mov	r1, r6
 8034e02:	f7ff ff46 	bl	8034c92 <snmp_error_response>
 8034e06:	e06c      	b.n	8034ee2 <snmp_msg_event+0x1a2>
         (msg_ps->vb_idx < msg_ps->invb.count))
  {
    struct mib_node *mn;
    struct snmp_obj_id oid;

    if (msg_ps->vb_idx == 0)
 8034e08:	b913      	cbnz	r3, 8034e10 <snmp_msg_event+0xd0>
    {
      msg_ps->vb_ptr = msg_ps->invb.head;
 8034e0a:	f8d4 3100 	ldr.w	r3, [r4, #256]	; 0x100
 8034e0e:	e002      	b.n	8034e16 <snmp_msg_event+0xd6>
    }
    else
    {
      msg_ps->vb_ptr = msg_ps->vb_ptr->next;
 8034e10:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8034e14:	681b      	ldr	r3, [r3, #0]
 8034e16:	f8c4 30fc 	str.w	r3, [r4, #252]	; 0xfc
    }
    if (snmp_iso_prefix_expand(msg_ps->vb_ptr->ident_len, msg_ps->vb_ptr->ident, &oid))
 8034e1a:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8034e1e:	aa05      	add	r2, sp, #20
 8034e20:	7a18      	ldrb	r0, [r3, #8]
 8034e22:	68d9      	ldr	r1, [r3, #12]
 8034e24:	f7ff fe82 	bl	8034b2c <snmp_iso_prefix_expand>
 8034e28:	2800      	cmp	r0, #0
 8034e2a:	f000 82ff 	beq.w	803542c <snmp_msg_event+0x6ec>
    {
      if (msg_ps->vb_ptr->ident_len > 3)
 8034e2e:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8034e32:	7a19      	ldrb	r1, [r3, #8]
 8034e34:	2903      	cmp	r1, #3
 8034e36:	d905      	bls.n	8034e44 <snmp_msg_event+0x104>
      {
        /* can offset ident_len and ident */
        mn = snmp_expand_tree((struct mib_node*)&internet,
 8034e38:	68da      	ldr	r2, [r3, #12]
 8034e3a:	4878      	ldr	r0, [pc, #480]	; (803501c <snmp_msg_event+0x2dc>)
 8034e3c:	3904      	subs	r1, #4
 8034e3e:	b2c9      	uxtb	r1, r1
 8034e40:	3210      	adds	r2, #16
 8034e42:	e002      	b.n	8034e4a <snmp_msg_event+0x10a>
                              msg_ps->vb_ptr->ident + 4, &oid);
      }
      else
      {
        /* can't offset ident_len -4, ident + 4 */
        mn = snmp_expand_tree((struct mib_node*)&internet, 0, NULL, &oid);
 8034e44:	2100      	movs	r1, #0
 8034e46:	4875      	ldr	r0, [pc, #468]	; (803501c <snmp_msg_event+0x2dc>)
 8034e48:	460a      	mov	r2, r1
 8034e4a:	ab05      	add	r3, sp, #20
 8034e4c:	f7ff fc8e 	bl	803476c <snmp_expand_tree>
 8034e50:	4605      	mov	r5, r0
    }
    else
    {
      mn = NULL;
    }
    if (mn != NULL)
 8034e52:	2800      	cmp	r0, #0
 8034e54:	f000 82ea 	beq.w	803542c <snmp_msg_event+0x6ec>
    {
      if (mn->node_type == MIB_NODE_EX)
 8034e58:	7c03      	ldrb	r3, [r0, #16]
 8034e5a:	2b05      	cmp	r3, #5
 8034e5c:	d113      	bne.n	8034e86 <snmp_msg_event+0x146>
      {
        /* external object */
        struct mib_external_node *en = (struct mib_external_node*)mn;

        msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF;
 8034e5e:	2307      	movs	r3, #7
        /* save en && args in msg_ps!! */
        msg_ps->ext_mib_node = en;
 8034e60:	65e0      	str	r0, [r4, #92]	; 0x5c
        msg_ps->ext_oid = oid;
 8034e62:	a905      	add	r1, sp, #20
 8034e64:	2284      	movs	r2, #132	; 0x84
 8034e66:	486e      	ldr	r0, [pc, #440]	; (8035020 <snmp_msg_event+0x2e0>)
      if (mn->node_type == MIB_NODE_EX)
      {
        /* external object */
        struct mib_external_node *en = (struct mib_external_node*)mn;

        msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF;
 8034e68:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
        /* save en && args in msg_ps!! */
        msg_ps->ext_mib_node = en;
        msg_ps->ext_oid = oid;
 8034e6c:	f7ec fede 	bl	8021c2c <memcpy>

        en->get_object_def_q(en->addr_inf, request_id, 1, &oid.id[oid.len - 1]);
 8034e70:	f89d 3014 	ldrb.w	r3, [sp, #20]
 8034e74:	6aae      	ldr	r6, [r5, #40]	; 0x28
 8034e76:	6968      	ldr	r0, [r5, #20]
 8034e78:	ad05      	add	r5, sp, #20
 8034e7a:	2100      	movs	r1, #0
 8034e7c:	2201      	movs	r2, #1
 8034e7e:	eb05 0383 	add.w	r3, r5, r3, lsl #2
 8034e82:	47b0      	blx	r6
 8034e84:	e02e      	b.n	8034ee4 <snmp_msg_event+0x1a4>
      {
        /* internal object */
        struct obj_def object_def;
        struct snmp_varbind *vb;

        msg_ps->state = SNMP_MSG_INTERNAL_GET_OBJDEF;
 8034e86:	2302      	movs	r3, #2
        mn->get_object_def(1, &oid.id[oid.len - 1], &object_def);
 8034e88:	f89d 1014 	ldrb.w	r1, [sp, #20]
      {
        /* internal object */
        struct obj_def object_def;
        struct snmp_varbind *vb;

        msg_ps->state = SNMP_MSG_INTERNAL_GET_OBJDEF;
 8034e8c:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
        mn->get_object_def(1, &oid.id[oid.len - 1], &object_def);
 8034e90:	af05      	add	r7, sp, #20
 8034e92:	6803      	ldr	r3, [r0, #0]
 8034e94:	eb07 0181 	add.w	r1, r7, r1, lsl #2
 8034e98:	2001      	movs	r0, #1
 8034e9a:	aa02      	add	r2, sp, #8
 8034e9c:	4798      	blx	r3

        LWIP_ASSERT("invalid length", object_def.v_len <= 0xff);
        vb = snmp_varbind_alloc(&oid, object_def.asn_type, (u8_t)object_def.v_len);
 8034e9e:	a805      	add	r0, sp, #20
 8034ea0:	f89d 100a 	ldrb.w	r1, [sp, #10]
 8034ea4:	f89d 200c 	ldrb.w	r2, [sp, #12]
 8034ea8:	f7ff fe92 	bl	8034bd0 <snmp_varbind_alloc>
        if (vb != NULL)
 8034eac:	4606      	mov	r6, r0
 8034eae:	b1a8      	cbz	r0, 8034edc <snmp_msg_event+0x19c>
        {
          msg_ps->state = SNMP_MSG_INTERNAL_GET_VALUE;
 8034eb0:	2303      	movs	r3, #3
 8034eb2:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
          mn->get_value(&object_def, object_def.v_len, vb->value);
 8034eb6:	686b      	ldr	r3, [r5, #4]
 8034eb8:	f8bd 100c 	ldrh.w	r1, [sp, #12]
 8034ebc:	6972      	ldr	r2, [r6, #20]
 8034ebe:	a802      	add	r0, sp, #8
 8034ec0:	4798      	blx	r3
          snmp_varbind_tail_add(&msg_ps->outvb, vb);
 8034ec2:	4858      	ldr	r0, [pc, #352]	; (8035024 <snmp_msg_event+0x2e4>)
 8034ec4:	4631      	mov	r1, r6
 8034ec6:	f7ff ff2f 	bl	8034d28 <snmp_varbind_tail_add>
          msg_ps->state = SNMP_MSG_SEARCH_OBJ;
 8034eca:	2301      	movs	r3, #1
 8034ecc:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
          msg_ps->vb_idx += 1;
 8034ed0:	f894 30f8 	ldrb.w	r3, [r4, #248]	; 0xf8
 8034ed4:	3301      	adds	r3, #1
 8034ed6:	f884 30f8 	strb.w	r3, [r4, #248]	; 0xf8
 8034eda:	e003      	b.n	8034ee4 <snmp_msg_event+0x1a4>
        }
        else
        {
          LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_recv couldn't allocate outvb space\n"));
          snmp_error_response(msg_ps,SNMP_ES_TOOBIG);
 8034edc:	484e      	ldr	r0, [pc, #312]	; (8035018 <snmp_msg_event+0x2d8>)
 8034ede:	2101      	movs	r1, #1
 8034ee0:	e2a6      	b.n	8035430 <snmp_msg_event+0x6f0>
      LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_getnext_event: couldn't allocate outvb space\n"));
      snmp_error_response(msg_ps,SNMP_ES_TOOBIG);
    }
  }

  while ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
 8034ee2:	4c4d      	ldr	r4, [pc, #308]	; (8035018 <snmp_msg_event+0x2d8>)
 8034ee4:	f894 305a 	ldrb.w	r3, [r4, #90]	; 0x5a
 8034ee8:	2b01      	cmp	r3, #1
 8034eea:	f040 82c0 	bne.w	803546e <snmp_msg_event+0x72e>
         (msg_ps->vb_idx < msg_ps->invb.count))
 8034eee:	f894 30f8 	ldrb.w	r3, [r4, #248]	; 0xf8
 8034ef2:	f894 2108 	ldrb.w	r2, [r4, #264]	; 0x108
      LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_getnext_event: couldn't allocate outvb space\n"));
      snmp_error_response(msg_ps,SNMP_ES_TOOBIG);
    }
  }

  while ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
 8034ef6:	4293      	cmp	r3, r2
 8034ef8:	d386      	bcc.n	8034e08 <snmp_msg_event+0xc8>
 8034efa:	e2a7      	b.n	803544c <snmp_msg_event+0x70c>
    }
  }
  if ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
      (msg_ps->vb_idx == msg_ps->invb.count))
  {
    snmp_ok_response(msg_ps);
 8034efc:	4846      	ldr	r0, [pc, #280]	; (8035018 <snmp_msg_event+0x2d8>)
 8034efe:	e292      	b.n	8035426 <snmp_msg_event+0x6e6>
    msg_ps = &msg_input_list[request_id];
    if (msg_ps->rt == SNMP_ASN1_PDU_GET_NEXT_REQ)
    {
      snmp_msg_getnext_event(request_id, msg_ps);
    }
    else if (msg_ps->rt == SNMP_ASN1_PDU_GET_REQ)
 8034f00:	2e00      	cmp	r6, #0
 8034f02:	f040 8126 	bne.w	8035152 <snmp_msg_event+0x412>
static void
snmp_msg_get_event(u8_t request_id, struct snmp_msg_pstat *msg_ps)
{
  LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_get_event: msg_ps->state==%"U16_F"\n",(u16_t)msg_ps->state));

  if (msg_ps->state == SNMP_MSG_EXTERNAL_GET_OBJDEF)
 8034f06:	f894 305a 	ldrb.w	r3, [r4, #90]	; 0x5a
 8034f0a:	2b07      	cmp	r3, #7
 8034f0c:	d122      	bne.n	8034f54 <snmp_msg_event+0x214>
  {
    struct mib_external_node *en;
    struct snmp_name_ptr np;

    /* get_object_def() answer*/
    en = msg_ps->ext_mib_node;
 8034f0e:	6de5      	ldr	r5, [r4, #92]	; 0x5c
    np = msg_ps->ext_name_ptr;
 8034f10:	f894 9060 	ldrb.w	r9, [r4, #96]	; 0x60
 8034f14:	f8d4 8064 	ldr.w	r8, [r4, #100]	; 0x64

    /* translate answer into a known lifeform */
    en->get_object_def_a(request_id, np.ident_len, np.ident, &msg_ps->ext_object_def);
 8034f18:	6baf      	ldr	r7, [r5, #56]	; 0x38
 8034f1a:	f104 0368 	add.w	r3, r4, #104	; 0x68
 8034f1e:	4649      	mov	r1, r9
 8034f20:	4642      	mov	r2, r8
 8034f22:	47b8      	blx	r7
    if ((msg_ps->ext_object_def.instance != MIB_OBJECT_NONE) &&
 8034f24:	f894 3068 	ldrb.w	r3, [r4, #104]	; 0x68
 8034f28:	b163      	cbz	r3, 8034f44 <snmp_msg_event+0x204>
        (msg_ps->ext_object_def.access & MIB_ACCESS_READ))
 8034f2a:	f894 3069 	ldrb.w	r3, [r4, #105]	; 0x69
    en = msg_ps->ext_mib_node;
    np = msg_ps->ext_name_ptr;

    /* translate answer into a known lifeform */
    en->get_object_def_a(request_id, np.ident_len, np.ident, &msg_ps->ext_object_def);
    if ((msg_ps->ext_object_def.instance != MIB_OBJECT_NONE) &&
 8034f2e:	07da      	lsls	r2, r3, #31
 8034f30:	d508      	bpl.n	8034f44 <snmp_msg_event+0x204>
        (msg_ps->ext_object_def.access & MIB_ACCESS_READ))
    {
      msg_ps->state = SNMP_MSG_EXTERNAL_GET_VALUE;
 8034f32:	2308      	movs	r3, #8
 8034f34:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
      en->get_value_q(request_id, &msg_ps->ext_object_def);
 8034f38:	6aeb      	ldr	r3, [r5, #44]	; 0x2c
 8034f3a:	4630      	mov	r0, r6
 8034f3c:	f104 0168 	add.w	r1, r4, #104	; 0x68
 8034f40:	4798      	blx	r3
 8034f42:	e0f7      	b.n	8035134 <snmp_msg_event+0x3f4>
    }
    else
    {
      en->get_object_def_pc(request_id, np.ident_len, np.ident);
 8034f44:	2000      	movs	r0, #0
 8034f46:	4649      	mov	r1, r9
 8034f48:	6cab      	ldr	r3, [r5, #72]	; 0x48
 8034f4a:	4642      	mov	r2, r8
 8034f4c:	4798      	blx	r3
      /* search failed, object id points to unknown object (nosuchname) */
      snmp_error_response(msg_ps,SNMP_ES_NOSUCHNAME);
 8034f4e:	4832      	ldr	r0, [pc, #200]	; (8035018 <snmp_msg_event+0x2d8>)
 8034f50:	2102      	movs	r1, #2
 8034f52:	e059      	b.n	8035008 <snmp_msg_event+0x2c8>
    }
  }
  else if (msg_ps->state == SNMP_MSG_EXTERNAL_GET_VALUE)
 8034f54:	2b08      	cmp	r3, #8
 8034f56:	f040 80ed 	bne.w	8035134 <snmp_msg_event+0x3f4>

    /* get_value() answer */
    en = msg_ps->ext_mib_node;

    /* allocate output varbind */
    vb = (struct snmp_varbind *)memp_malloc(MEMP_SNMP_VARBIND);
 8034f5a:	200c      	movs	r0, #12
  {
    struct mib_external_node *en;
    struct snmp_varbind *vb;

    /* get_value() answer */
    en = msg_ps->ext_mib_node;
 8034f5c:	f8d4 805c 	ldr.w	r8, [r4, #92]	; 0x5c

    /* allocate output varbind */
    vb = (struct snmp_varbind *)memp_malloc(MEMP_SNMP_VARBIND);
 8034f60:	f7fa f9aa 	bl	802f2b8 <memp_malloc>
    if (vb != NULL)
 8034f64:	4605      	mov	r5, r0
 8034f66:	2800      	cmp	r0, #0
 8034f68:	d047      	beq.n	8034ffa <snmp_msg_event+0x2ba>
    {
      vb->next = NULL;
 8034f6a:	6006      	str	r6, [r0, #0]
      vb->prev = NULL;
 8034f6c:	6046      	str	r6, [r0, #4]

      /* move name from invb to outvb */
      vb->ident = msg_ps->vb_ptr->ident;
 8034f6e:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8034f72:	68da      	ldr	r2, [r3, #12]
      vb->ident_len = msg_ps->vb_ptr->ident_len;
 8034f74:	7a1b      	ldrb	r3, [r3, #8]
    {
      vb->next = NULL;
      vb->prev = NULL;

      /* move name from invb to outvb */
      vb->ident = msg_ps->vb_ptr->ident;
 8034f76:	60c2      	str	r2, [r0, #12]
      vb->ident_len = msg_ps->vb_ptr->ident_len;
 8034f78:	7203      	strb	r3, [r0, #8]
      /* ensure this memory is refereced once only */
      msg_ps->vb_ptr->ident = NULL;
 8034f7a:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
      msg_ps->vb_ptr->ident_len = 0;
 8034f7e:	721e      	strb	r6, [r3, #8]

      /* move name from invb to outvb */
      vb->ident = msg_ps->vb_ptr->ident;
      vb->ident_len = msg_ps->vb_ptr->ident_len;
      /* ensure this memory is refereced once only */
      msg_ps->vb_ptr->ident = NULL;
 8034f80:	60de      	str	r6, [r3, #12]
      msg_ps->vb_ptr->ident_len = 0;

      vb->value_type = msg_ps->ext_object_def.asn_type;
 8034f82:	f894 306a 	ldrb.w	r3, [r4, #106]	; 0x6a
 8034f86:	7403      	strb	r3, [r0, #16]
      LWIP_ASSERT("invalid length", msg_ps->ext_object_def.v_len <= 0xff);
      vb->value_len = (u8_t)msg_ps->ext_object_def.v_len;
 8034f88:	f894 706c 	ldrb.w	r7, [r4, #108]	; 0x6c
 8034f8c:	7447      	strb	r7, [r0, #17]
      if (vb->value_len > 0)
 8034f8e:	b1ef      	cbz	r7, 8034fcc <snmp_msg_event+0x28c>
      {
        LWIP_ASSERT("SNMP_MAX_OCTET_STRING_LEN is configured too low", vb->value_len <= SNMP_MAX_VALUE_SIZE);
        vb->value = memp_malloc(MEMP_SNMP_VALUE);
 8034f90:	200d      	movs	r0, #13
 8034f92:	f7fa f991 	bl	802f2b8 <memp_malloc>
 8034f96:	4603      	mov	r3, r0
 8034f98:	6168      	str	r0, [r5, #20]
        if (vb->value != NULL)
 8034f9a:	b138      	cbz	r0, 8034fac <snmp_msg_event+0x26c>
        {
          en->get_value_a(request_id, &msg_ps->ext_object_def, vb->value_len, vb->value);
 8034f9c:	f8d8 703c 	ldr.w	r7, [r8, #60]	; 0x3c
 8034fa0:	7c6a      	ldrb	r2, [r5, #17]
 8034fa2:	4630      	mov	r0, r6
 8034fa4:	f104 0168 	add.w	r1, r4, #104	; 0x68
 8034fa8:	47b8      	blx	r7
 8034faa:	e018      	b.n	8034fde <snmp_msg_event+0x29e>
          msg_ps->state = SNMP_MSG_SEARCH_OBJ;
          msg_ps->vb_idx += 1;
        }
        else
        {
          en->get_value_pc(request_id, &msg_ps->ext_object_def);
 8034fac:	f8d8 304c 	ldr.w	r3, [r8, #76]	; 0x4c
 8034fb0:	f104 0168 	add.w	r1, r4, #104	; 0x68
 8034fb4:	4798      	blx	r3
          LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_event: no variable space\n"));
          msg_ps->vb_ptr->ident = vb->ident;
 8034fb6:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8034fba:	68ea      	ldr	r2, [r5, #12]
 8034fbc:	60da      	str	r2, [r3, #12]
          msg_ps->vb_ptr->ident_len = vb->ident_len;
 8034fbe:	7a2a      	ldrb	r2, [r5, #8]
          memp_free(MEMP_SNMP_VARBIND, vb);
 8034fc0:	200c      	movs	r0, #12
        else
        {
          en->get_value_pc(request_id, &msg_ps->ext_object_def);
          LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_event: no variable space\n"));
          msg_ps->vb_ptr->ident = vb->ident;
          msg_ps->vb_ptr->ident_len = vb->ident_len;
 8034fc2:	721a      	strb	r2, [r3, #8]
          memp_free(MEMP_SNMP_VARBIND, vb);
 8034fc4:	4629      	mov	r1, r5
 8034fc6:	f7fa f98d 	bl	802f2e4 <memp_free>
 8034fca:	e01b      	b.n	8035004 <snmp_msg_event+0x2c4>
        }
      }
      else
      {
        /* vb->value_len == 0, empty value (e.g. empty string) */
        en->get_value_a(request_id, &msg_ps->ext_object_def, 0, NULL);
 8034fcc:	f8d8 603c 	ldr.w	r6, [r8, #60]	; 0x3c
 8034fd0:	4638      	mov	r0, r7
 8034fd2:	f104 0168 	add.w	r1, r4, #104	; 0x68
 8034fd6:	463a      	mov	r2, r7
 8034fd8:	463b      	mov	r3, r7
 8034fda:	47b0      	blx	r6
        vb->value = NULL;
 8034fdc:	616f      	str	r7, [r5, #20]
        snmp_varbind_tail_add(&msg_ps->outvb, vb);
 8034fde:	f504 7086 	add.w	r0, r4, #268	; 0x10c
 8034fe2:	4629      	mov	r1, r5
 8034fe4:	f7ff fea0 	bl	8034d28 <snmp_varbind_tail_add>
        /* search again (if vb_idx < msg_ps->invb.count) */
        msg_ps->state = SNMP_MSG_SEARCH_OBJ;
 8034fe8:	2301      	movs	r3, #1
 8034fea:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
        msg_ps->vb_idx += 1;
 8034fee:	f894 30f8 	ldrb.w	r3, [r4, #248]	; 0xf8
 8034ff2:	3301      	adds	r3, #1
 8034ff4:	f884 30f8 	strb.w	r3, [r4, #248]	; 0xf8
 8034ff8:	e09c      	b.n	8035134 <snmp_msg_event+0x3f4>
      }
    }
    else
    {
      en->get_value_pc(request_id, &msg_ps->ext_object_def);
 8034ffa:	f8d8 304c 	ldr.w	r3, [r8, #76]	; 0x4c
 8034ffe:	f104 0168 	add.w	r1, r4, #104	; 0x68
 8035002:	4798      	blx	r3
      LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_event: no outvb space\n"));
      snmp_error_response(msg_ps,SNMP_ES_TOOBIG);
 8035004:	4620      	mov	r0, r4
 8035006:	2101      	movs	r1, #1
 8035008:	f7ff fe43 	bl	8034c92 <snmp_error_response>
 803500c:	e092      	b.n	8035134 <snmp_msg_event+0x3f4>
         (msg_ps->vb_idx < msg_ps->invb.count))
  {
    struct mib_node *mn;
    struct snmp_name_ptr np;

    if (msg_ps->vb_idx == 0)
 803500e:	b95b      	cbnz	r3, 8035028 <snmp_msg_event+0x2e8>
    {
      msg_ps->vb_ptr = msg_ps->invb.head;
 8035010:	f8d4 3100 	ldr.w	r3, [r4, #256]	; 0x100
 8035014:	e00b      	b.n	803502e <snmp_msg_event+0x2ee>
 8035016:	bf00      	nop
 8035018:	2000f6e0 	.word	0x2000f6e0
 803501c:	08044810 	.word	0x08044810
 8035020:	2000f754 	.word	0x2000f754
 8035024:	2000f7ec 	.word	0x2000f7ec
    }
    else
    {
      msg_ps->vb_ptr = msg_ps->vb_ptr->next;
 8035028:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 803502c:	681b      	ldr	r3, [r3, #0]
 803502e:	f8c4 30fc 	str.w	r3, [r4, #252]	; 0xfc
    }
    /** test object identifier for .iso.org.dod.internet prefix */
    if (snmp_iso_prefix_tst(msg_ps->vb_ptr->ident_len,  msg_ps->vb_ptr->ident))
 8035032:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8035036:	7a18      	ldrb	r0, [r3, #8]
 8035038:	68d9      	ldr	r1, [r3, #12]
 803503a:	f7ff fd65 	bl	8034b08 <snmp_iso_prefix_tst>
 803503e:	2800      	cmp	r0, #0
 8035040:	d073      	beq.n	803512a <snmp_msg_event+0x3ea>
    {
      mn = snmp_search_tree((struct mib_node*)&internet, msg_ps->vb_ptr->ident_len - 4,
 8035042:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8035046:	48a6      	ldr	r0, [pc, #664]	; (80352e0 <snmp_msg_event+0x5a0>)
 8035048:	7a19      	ldrb	r1, [r3, #8]
 803504a:	68da      	ldr	r2, [r3, #12]
 803504c:	3904      	subs	r1, #4
 803504e:	b2c9      	uxtb	r1, r1
 8035050:	3210      	adds	r2, #16
 8035052:	466b      	mov	r3, sp
 8035054:	f7ff fb0a 	bl	803466c <snmp_search_tree>
                             msg_ps->vb_ptr->ident + 4, &np);
      if (mn != NULL)
 8035058:	4606      	mov	r6, r0
 803505a:	2800      	cmp	r0, #0
 803505c:	d065      	beq.n	803512a <snmp_msg_event+0x3ea>
      {
        if (mn->node_type == MIB_NODE_EX)
 803505e:	7c03      	ldrb	r3, [r0, #16]
 8035060:	2b05      	cmp	r3, #5
 8035062:	d110      	bne.n	8035086 <snmp_msg_event+0x346>
          /* external object */
          struct mib_external_node *en = (struct mib_external_node*)mn;

          msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF;
          /* save en && args in msg_ps!! */
          msg_ps->ext_mib_node = en;
 8035064:	65e0      	str	r0, [r4, #92]	; 0x5c
        if (mn->node_type == MIB_NODE_EX)
        {
          /* external object */
          struct mib_external_node *en = (struct mib_external_node*)mn;

          msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF;
 8035066:	2307      	movs	r3, #7
          /* save en && args in msg_ps!! */
          msg_ps->ext_mib_node = en;
          msg_ps->ext_name_ptr = np;
 8035068:	e898 0003 	ldmia.w	r8, {r0, r1}
        if (mn->node_type == MIB_NODE_EX)
        {
          /* external object */
          struct mib_external_node *en = (struct mib_external_node*)mn;

          msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF;
 803506c:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
          /* save en && args in msg_ps!! */
          msg_ps->ext_mib_node = en;
          msg_ps->ext_name_ptr = np;
 8035070:	4b9c      	ldr	r3, [pc, #624]	; (80352e4 <snmp_msg_event+0x5a4>)

          en->get_object_def_q(en->addr_inf, request_id, np.ident_len, np.ident);
 8035072:	f89d 2000 	ldrb.w	r2, [sp]
          struct mib_external_node *en = (struct mib_external_node*)mn;

          msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF;
          /* save en && args in msg_ps!! */
          msg_ps->ext_mib_node = en;
          msg_ps->ext_name_ptr = np;
 8035076:	e883 0003 	stmia.w	r3, {r0, r1}

          en->get_object_def_q(en->addr_inf, request_id, np.ident_len, np.ident);
 803507a:	2100      	movs	r1, #0
 803507c:	6ab5      	ldr	r5, [r6, #40]	; 0x28
 803507e:	6970      	ldr	r0, [r6, #20]
 8035080:	9b01      	ldr	r3, [sp, #4]
 8035082:	47a8      	blx	r5
 8035084:	e058      	b.n	8035138 <snmp_msg_event+0x3f8>
        else
        {
          /* internal object */
          struct obj_def object_def;

          msg_ps->state = SNMP_MSG_INTERNAL_GET_OBJDEF;
 8035086:	2302      	movs	r3, #2
 8035088:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
          mn->get_object_def(np.ident_len, np.ident, &object_def);
 803508c:	6803      	ldr	r3, [r0, #0]
 803508e:	9901      	ldr	r1, [sp, #4]
 8035090:	f89d 0000 	ldrb.w	r0, [sp]
 8035094:	aa02      	add	r2, sp, #8
 8035096:	4798      	blx	r3
          if ((object_def.instance != MIB_OBJECT_NONE) &&
 8035098:	f89d 3008 	ldrb.w	r3, [sp, #8]
 803509c:	2b00      	cmp	r3, #0
 803509e:	d044      	beq.n	803512a <snmp_msg_event+0x3ea>
            (object_def.access & MIB_ACCESS_READ))
 80350a0:	f89d 3009 	ldrb.w	r3, [sp, #9]
          /* internal object */
          struct obj_def object_def;

          msg_ps->state = SNMP_MSG_INTERNAL_GET_OBJDEF;
          mn->get_object_def(np.ident_len, np.ident, &object_def);
          if ((object_def.instance != MIB_OBJECT_NONE) &&
 80350a4:	07db      	lsls	r3, r3, #31
 80350a6:	f100 81c6 	bmi.w	8035436 <snmp_msg_event+0x6f6>
 80350aa:	e03e      	b.n	803512a <snmp_msg_event+0x3ea>
            msg_ps->state = SNMP_MSG_INTERNAL_GET_VALUE;
            /* allocate output varbind */
            vb = (struct snmp_varbind *)memp_malloc(MEMP_SNMP_VARBIND);
            if (vb != NULL)
            {
              vb->next = NULL;
 80350ac:	2200      	movs	r2, #0
 80350ae:	602a      	str	r2, [r5, #0]
              vb->prev = NULL;
 80350b0:	606a      	str	r2, [r5, #4]

              /* move name from invb to outvb */
              vb->ident = msg_ps->vb_ptr->ident;
 80350b2:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 80350b6:	68d9      	ldr	r1, [r3, #12]
              vb->ident_len = msg_ps->vb_ptr->ident_len;
 80350b8:	7a1b      	ldrb	r3, [r3, #8]
            {
              vb->next = NULL;
              vb->prev = NULL;

              /* move name from invb to outvb */
              vb->ident = msg_ps->vb_ptr->ident;
 80350ba:	60e9      	str	r1, [r5, #12]
              vb->ident_len = msg_ps->vb_ptr->ident_len;
 80350bc:	722b      	strb	r3, [r5, #8]
              /* ensure this memory is refereced once only */
              msg_ps->vb_ptr->ident = NULL;
 80350be:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
              msg_ps->vb_ptr->ident_len = 0;
 80350c2:	721a      	strb	r2, [r3, #8]

              /* move name from invb to outvb */
              vb->ident = msg_ps->vb_ptr->ident;
              vb->ident_len = msg_ps->vb_ptr->ident_len;
              /* ensure this memory is refereced once only */
              msg_ps->vb_ptr->ident = NULL;
 80350c4:	60da      	str	r2, [r3, #12]
              msg_ps->vb_ptr->ident_len = 0;

              vb->value_type = object_def.asn_type;
 80350c6:	f89d 300a 	ldrb.w	r3, [sp, #10]
 80350ca:	742b      	strb	r3, [r5, #16]
              LWIP_ASSERT("invalid length", object_def.v_len <= 0xff);
              vb->value_len = (u8_t)object_def.v_len;
 80350cc:	f89d 300c 	ldrb.w	r3, [sp, #12]
 80350d0:	746b      	strb	r3, [r5, #17]
              if (vb->value_len > 0)
 80350d2:	b1bb      	cbz	r3, 8035104 <snmp_msg_event+0x3c4>
              {
                LWIP_ASSERT("SNMP_MAX_OCTET_STRING_LEN is configured too low",
                  vb->value_len <= SNMP_MAX_VALUE_SIZE);
                vb->value = memp_malloc(MEMP_SNMP_VALUE);
 80350d4:	200d      	movs	r0, #13
 80350d6:	f7fa f8ef 	bl	802f2b8 <memp_malloc>
 80350da:	4602      	mov	r2, r0
 80350dc:	6168      	str	r0, [r5, #20]
                if (vb->value != NULL)
 80350de:	b120      	cbz	r0, 80350ea <snmp_msg_event+0x3aa>
                {
                  mn->get_value(&object_def, vb->value_len, vb->value);
 80350e0:	6877      	ldr	r7, [r6, #4]
 80350e2:	7c69      	ldrb	r1, [r5, #17]
 80350e4:	a802      	add	r0, sp, #8
 80350e6:	47b8      	blx	r7
 80350e8:	e00d      	b.n	8035106 <snmp_msg_event+0x3c6>
                  msg_ps->vb_idx += 1;
                }
                else
                {
                  LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_event: couldn't allocate variable space\n"));
                  msg_ps->vb_ptr->ident = vb->ident;
 80350ea:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 80350ee:	68e9      	ldr	r1, [r5, #12]
 80350f0:	60d9      	str	r1, [r3, #12]
                  msg_ps->vb_ptr->ident_len = vb->ident_len;
 80350f2:	7a29      	ldrb	r1, [r5, #8]
                  vb->ident = NULL;
 80350f4:	60e8      	str	r0, [r5, #12]
                }
                else
                {
                  LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_event: couldn't allocate variable space\n"));
                  msg_ps->vb_ptr->ident = vb->ident;
                  msg_ps->vb_ptr->ident_len = vb->ident_len;
 80350f6:	7219      	strb	r1, [r3, #8]
                  vb->ident = NULL;
                  vb->ident_len = 0;
 80350f8:	7228      	strb	r0, [r5, #8]
                  memp_free(MEMP_SNMP_VARBIND, vb);
 80350fa:	4629      	mov	r1, r5
 80350fc:	200c      	movs	r0, #12
 80350fe:	f7fa f8f1 	bl	802f2e4 <memp_free>
 8035102:	e00d      	b.n	8035120 <snmp_msg_event+0x3e0>
                }
              }
              else
              {
                /* vb->value_len == 0, empty value (e.g. empty string) */
                vb->value = NULL;
 8035104:	616b      	str	r3, [r5, #20]
                snmp_varbind_tail_add(&msg_ps->outvb, vb);
 8035106:	4878      	ldr	r0, [pc, #480]	; (80352e8 <snmp_msg_event+0x5a8>)
 8035108:	4629      	mov	r1, r5
 803510a:	f7ff fe0d 	bl	8034d28 <snmp_varbind_tail_add>
                msg_ps->state = SNMP_MSG_SEARCH_OBJ;
 803510e:	2301      	movs	r3, #1
 8035110:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
                msg_ps->vb_idx += 1;
 8035114:	f894 30f8 	ldrb.w	r3, [r4, #248]	; 0xf8
 8035118:	3301      	adds	r3, #1
 803511a:	f884 30f8 	strb.w	r3, [r4, #248]	; 0xf8
 803511e:	e003      	b.n	8035128 <snmp_msg_event+0x3e8>
              }
            }
            else
            {
              LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_event: couldn't allocate outvb space\n"));
              snmp_error_response(msg_ps,SNMP_ES_TOOBIG);
 8035120:	4872      	ldr	r0, [pc, #456]	; (80352ec <snmp_msg_event+0x5ac>)
 8035122:	2101      	movs	r1, #1
 8035124:	f7ff fdb5 	bl	8034c92 <snmp_error_response>
    }
    else
    {
      mn = NULL;
    }
    if (mn == NULL)
 8035128:	b936      	cbnz	r6, 8035138 <snmp_msg_event+0x3f8>
    {
      /* mn == NULL, noSuchName */
      snmp_error_response(msg_ps,SNMP_ES_NOSUCHNAME);
 803512a:	4870      	ldr	r0, [pc, #448]	; (80352ec <snmp_msg_event+0x5ac>)
 803512c:	2102      	movs	r1, #2
 803512e:	f7ff fdb0 	bl	8034c92 <snmp_error_response>
 8035132:	e001      	b.n	8035138 <snmp_msg_event+0x3f8>
      LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_event: no outvb space\n"));
      snmp_error_response(msg_ps,SNMP_ES_TOOBIG);
    }
  }

  while ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
 8035134:	4c6d      	ldr	r4, [pc, #436]	; (80352ec <snmp_msg_event+0x5ac>)
      msg_ps->vb_ptr = msg_ps->vb_ptr->next;
    }
    /** test object identifier for .iso.org.dod.internet prefix */
    if (snmp_iso_prefix_tst(msg_ps->vb_ptr->ident_len,  msg_ps->vb_ptr->ident))
    {
      mn = snmp_search_tree((struct mib_node*)&internet, msg_ps->vb_ptr->ident_len - 4,
 8035136:	46e8      	mov	r8, sp
      LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_event: no outvb space\n"));
      snmp_error_response(msg_ps,SNMP_ES_TOOBIG);
    }
  }

  while ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
 8035138:	f894 305a 	ldrb.w	r3, [r4, #90]	; 0x5a
 803513c:	2b01      	cmp	r3, #1
 803513e:	f040 8196 	bne.w	803546e <snmp_msg_event+0x72e>
         (msg_ps->vb_idx < msg_ps->invb.count))
 8035142:	f894 30f8 	ldrb.w	r3, [r4, #248]	; 0xf8
 8035146:	f894 2108 	ldrb.w	r2, [r4, #264]	; 0x108
      LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_event: no outvb space\n"));
      snmp_error_response(msg_ps,SNMP_ES_TOOBIG);
    }
  }

  while ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
 803514a:	4293      	cmp	r3, r2
 803514c:	f4ff af5f 	bcc.w	803500e <snmp_msg_event+0x2ce>
 8035150:	e17c      	b.n	803544c <snmp_msg_event+0x70c>
    }
    else if (msg_ps->rt == SNMP_ASN1_PDU_GET_REQ)
    {
      snmp_msg_get_event(request_id, msg_ps);
    }
    else if(msg_ps->rt == SNMP_ASN1_PDU_SET_REQ)
 8035152:	2e03      	cmp	r6, #3
 8035154:	f040 818b 	bne.w	803546e <snmp_msg_event+0x72e>
static void
snmp_msg_set_event(u8_t request_id, struct snmp_msg_pstat *msg_ps)
{
  LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_msg_set_event: msg_ps->state==%"U16_F"\n",(u16_t)msg_ps->state));

  if (msg_ps->state == SNMP_MSG_EXTERNAL_GET_OBJDEF)
 8035158:	f894 305a 	ldrb.w	r3, [r4, #90]	; 0x5a
 803515c:	2b07      	cmp	r3, #7
 803515e:	d11b      	bne.n	8035198 <snmp_msg_event+0x458>
  {
    struct mib_external_node *en;
    struct snmp_name_ptr np;

    /* get_object_def() answer*/
    en = msg_ps->ext_mib_node;
 8035160:	6de6      	ldr	r6, [r4, #92]	; 0x5c
    np = msg_ps->ext_name_ptr;
 8035162:	f894 9060 	ldrb.w	r9, [r4, #96]	; 0x60
 8035166:	f8d4 8064 	ldr.w	r8, [r4, #100]	; 0x64

    /* translate answer into a known lifeform */
    en->get_object_def_a(request_id, np.ident_len, np.ident, &msg_ps->ext_object_def);
 803516a:	6bb7      	ldr	r7, [r6, #56]	; 0x38
 803516c:	4649      	mov	r1, r9
 803516e:	4642      	mov	r2, r8
 8035170:	f104 0368 	add.w	r3, r4, #104	; 0x68
 8035174:	47b8      	blx	r7
    if (msg_ps->ext_object_def.instance != MIB_OBJECT_NONE)
 8035176:	f894 0068 	ldrb.w	r0, [r4, #104]	; 0x68
 803517a:	b140      	cbz	r0, 803518e <snmp_msg_event+0x44e>
    {
      msg_ps->state = SNMP_MSG_EXTERNAL_SET_TEST;
 803517c:	2309      	movs	r3, #9
 803517e:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
      en->set_test_q(request_id, &msg_ps->ext_object_def);
 8035182:	6b33      	ldr	r3, [r6, #48]	; 0x30
 8035184:	4628      	mov	r0, r5
 8035186:	f104 0168 	add.w	r1, r4, #104	; 0x68
 803518a:	4798      	blx	r3
 803518c:	e0d5      	b.n	803533a <snmp_msg_event+0x5fa>
    }
    else
    {
      en->get_object_def_pc(request_id, np.ident_len, np.ident);
 803518e:	6cb3      	ldr	r3, [r6, #72]	; 0x48
 8035190:	4649      	mov	r1, r9
 8035192:	4642      	mov	r2, r8
 8035194:	4798      	blx	r3
 8035196:	e023      	b.n	80351e0 <snmp_msg_event+0x4a0>
      /* search failed, object id points to unknown object (nosuchname) */
      snmp_error_response(msg_ps,SNMP_ES_NOSUCHNAME);
    }
  }
  else if (msg_ps->state == SNMP_MSG_EXTERNAL_SET_TEST)
 8035198:	2b09      	cmp	r3, #9
 803519a:	d124      	bne.n	80351e6 <snmp_msg_event+0x4a6>
    struct mib_external_node *en;

    /* set_test() answer*/
    en = msg_ps->ext_mib_node;

    if (msg_ps->ext_object_def.access & MIB_ACCESS_WRITE)
 803519c:	f894 3069 	ldrb.w	r3, [r4, #105]	; 0x69
  else if (msg_ps->state == SNMP_MSG_EXTERNAL_SET_TEST)
  {
    struct mib_external_node *en;

    /* set_test() answer*/
    en = msg_ps->ext_mib_node;
 80351a0:	6de5      	ldr	r5, [r4, #92]	; 0x5c

    if (msg_ps->ext_object_def.access & MIB_ACCESS_WRITE)
 80351a2:	f003 0302 	and.w	r3, r3, #2
 80351a6:	b2db      	uxtb	r3, r3
 80351a8:	b1b3      	cbz	r3, 80351d8 <snmp_msg_event+0x498>
    {
       if ((msg_ps->ext_object_def.asn_type == msg_ps->vb_ptr->value_type) &&
 80351aa:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 80351ae:	f894 106a 	ldrb.w	r1, [r4, #106]	; 0x6a
 80351b2:	7c1a      	ldrb	r2, [r3, #16]
 80351b4:	4291      	cmp	r1, r2
 80351b6:	d108      	bne.n	80351ca <snmp_msg_event+0x48a>
           (en->set_test_a(request_id,&msg_ps->ext_object_def,
 80351b8:	7c5a      	ldrb	r2, [r3, #17]
 80351ba:	6c2e      	ldr	r6, [r5, #64]	; 0x40
 80351bc:	695b      	ldr	r3, [r3, #20]
 80351be:	f104 0168 	add.w	r1, r4, #104	; 0x68
 80351c2:	47b0      	blx	r6
    /* set_test() answer*/
    en = msg_ps->ext_mib_node;

    if (msg_ps->ext_object_def.access & MIB_ACCESS_WRITE)
    {
       if ((msg_ps->ext_object_def.asn_type == msg_ps->vb_ptr->value_type) &&
 80351c4:	b108      	cbz	r0, 80351ca <snmp_msg_event+0x48a>
           (en->set_test_a(request_id,&msg_ps->ext_object_def,
                           msg_ps->vb_ptr->value_len,msg_ps->vb_ptr->value) != 0))
      {
        msg_ps->state = SNMP_MSG_SEARCH_OBJ;
 80351c6:	2301      	movs	r3, #1
 80351c8:	e040      	b.n	803524c <snmp_msg_event+0x50c>
        msg_ps->vb_idx += 1;
      }
      else
      {
        en->set_test_pc(request_id,&msg_ps->ext_object_def);
 80351ca:	2000      	movs	r0, #0
 80351cc:	4948      	ldr	r1, [pc, #288]	; (80352f0 <snmp_msg_event+0x5b0>)
 80351ce:	6d2b      	ldr	r3, [r5, #80]	; 0x50
 80351d0:	4798      	blx	r3
        /* bad value */
        snmp_error_response(msg_ps,SNMP_ES_BADVALUE);
 80351d2:	4846      	ldr	r0, [pc, #280]	; (80352ec <snmp_msg_event+0x5ac>)
 80351d4:	2103      	movs	r1, #3
 80351d6:	e029      	b.n	803522c <snmp_msg_event+0x4ec>
      }
    }
    else
    {
      en->set_test_pc(request_id,&msg_ps->ext_object_def);
 80351d8:	6d2b      	ldr	r3, [r5, #80]	; 0x50
 80351da:	f104 0168 	add.w	r1, r4, #104	; 0x68
 80351de:	4798      	blx	r3
      /* object not available for set */
      snmp_error_response(msg_ps,SNMP_ES_NOSUCHNAME);
 80351e0:	4620      	mov	r0, r4
 80351e2:	2102      	movs	r1, #2
 80351e4:	e022      	b.n	803522c <snmp_msg_event+0x4ec>
    }
  }
  else if (msg_ps->state == SNMP_MSG_EXTERNAL_GET_OBJDEF_S)
 80351e6:	2b0a      	cmp	r3, #10
 80351e8:	d123      	bne.n	8035232 <snmp_msg_event+0x4f2>
  {
    struct mib_external_node *en;
    struct snmp_name_ptr np;

    /* get_object_def() answer*/
    en = msg_ps->ext_mib_node;
 80351ea:	6de6      	ldr	r6, [r4, #92]	; 0x5c
    np = msg_ps->ext_name_ptr;
 80351ec:	f894 9060 	ldrb.w	r9, [r4, #96]	; 0x60
 80351f0:	f8d4 8064 	ldr.w	r8, [r4, #100]	; 0x64

    /* translate answer into a known lifeform */
    en->get_object_def_a(request_id, np.ident_len, np.ident, &msg_ps->ext_object_def);
 80351f4:	6bb7      	ldr	r7, [r6, #56]	; 0x38
 80351f6:	4649      	mov	r1, r9
 80351f8:	4642      	mov	r2, r8
 80351fa:	f104 0368 	add.w	r3, r4, #104	; 0x68
 80351fe:	47b8      	blx	r7
    if (msg_ps->ext_object_def.instance != MIB_OBJECT_NONE)
 8035200:	f894 0068 	ldrb.w	r0, [r4, #104]	; 0x68
 8035204:	b160      	cbz	r0, 8035220 <snmp_msg_event+0x4e0>
    {
      msg_ps->state = SNMP_MSG_EXTERNAL_SET_VALUE;
 8035206:	230b      	movs	r3, #11
 8035208:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
      en->set_value_q(request_id, &msg_ps->ext_object_def,
                      msg_ps->vb_ptr->value_len,msg_ps->vb_ptr->value);
 803520c:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
    /* translate answer into a known lifeform */
    en->get_object_def_a(request_id, np.ident_len, np.ident, &msg_ps->ext_object_def);
    if (msg_ps->ext_object_def.instance != MIB_OBJECT_NONE)
    {
      msg_ps->state = SNMP_MSG_EXTERNAL_SET_VALUE;
      en->set_value_q(request_id, &msg_ps->ext_object_def,
 8035210:	6b76      	ldr	r6, [r6, #52]	; 0x34
 8035212:	7c5a      	ldrb	r2, [r3, #17]
 8035214:	695b      	ldr	r3, [r3, #20]
 8035216:	4628      	mov	r0, r5
 8035218:	f104 0168 	add.w	r1, r4, #104	; 0x68
 803521c:	47b0      	blx	r6
 803521e:	e08c      	b.n	803533a <snmp_msg_event+0x5fa>
                      msg_ps->vb_ptr->value_len,msg_ps->vb_ptr->value);
    }
    else
    {
      en->get_object_def_pc(request_id, np.ident_len, np.ident);
 8035220:	4649      	mov	r1, r9
 8035222:	6cb3      	ldr	r3, [r6, #72]	; 0x48
 8035224:	4642      	mov	r2, r8
 8035226:	4798      	blx	r3
      /* set_value failed, object has disappeared for some odd reason?? */
      snmp_error_response(msg_ps,SNMP_ES_GENERROR);
 8035228:	4620      	mov	r0, r4
 803522a:	2105      	movs	r1, #5
 803522c:	f7ff fd31 	bl	8034c92 <snmp_error_response>
 8035230:	e083      	b.n	803533a <snmp_msg_event+0x5fa>
    }
  }
  else if (msg_ps->state == SNMP_MSG_EXTERNAL_SET_VALUE)
 8035232:	2b0b      	cmp	r3, #11
 8035234:	f040 8081 	bne.w	803533a <snmp_msg_event+0x5fa>
    struct mib_external_node *en;

    /** set_value_a() */
    en = msg_ps->ext_mib_node;
    en->set_value_a(request_id, &msg_ps->ext_object_def,
      msg_ps->vb_ptr->value_len, msg_ps->vb_ptr->value);
 8035238:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
  {
    struct mib_external_node *en;

    /** set_value_a() */
    en = msg_ps->ext_mib_node;
    en->set_value_a(request_id, &msg_ps->ext_object_def,
 803523c:	6de2      	ldr	r2, [r4, #92]	; 0x5c
 803523e:	f104 0168 	add.w	r1, r4, #104	; 0x68
 8035242:	6c55      	ldr	r5, [r2, #68]	; 0x44
 8035244:	7c5a      	ldrb	r2, [r3, #17]
 8035246:	695b      	ldr	r3, [r3, #20]
 8035248:	47a8      	blx	r5
      msg_ps->vb_ptr->value_len, msg_ps->vb_ptr->value);

    /** @todo use set_value_pc() if toobig */
    msg_ps->state = SNMP_MSG_INTERNAL_SET_VALUE;
 803524a:	2306      	movs	r3, #6
 803524c:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
    msg_ps->vb_idx += 1;
 8035250:	f894 30f8 	ldrb.w	r3, [r4, #248]	; 0xf8
 8035254:	3301      	adds	r3, #1
 8035256:	f884 30f8 	strb.w	r3, [r4, #248]	; 0xf8
 803525a:	e06e      	b.n	803533a <snmp_msg_event+0x5fa>
         (msg_ps->vb_idx < msg_ps->invb.count))
  {
    struct mib_node *mn;
    struct snmp_name_ptr np;

    if (msg_ps->vb_idx == 0)
 803525c:	b912      	cbnz	r2, 8035264 <snmp_msg_event+0x524>
    {
      msg_ps->vb_ptr = msg_ps->invb.head;
 803525e:	f8d4 3100 	ldr.w	r3, [r4, #256]	; 0x100
 8035262:	e002      	b.n	803526a <snmp_msg_event+0x52a>
    }
    else
    {
      msg_ps->vb_ptr = msg_ps->vb_ptr->next;
 8035264:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8035268:	681b      	ldr	r3, [r3, #0]
 803526a:	f8c4 30fc 	str.w	r3, [r4, #252]	; 0xfc
    }
    /** test object identifier for .iso.org.dod.internet prefix */
    if (snmp_iso_prefix_tst(msg_ps->vb_ptr->ident_len,  msg_ps->vb_ptr->ident))
 803526e:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8035272:	7a18      	ldrb	r0, [r3, #8]
 8035274:	68d9      	ldr	r1, [r3, #12]
 8035276:	f7ff fc47 	bl	8034b08 <snmp_iso_prefix_tst>
 803527a:	2800      	cmp	r0, #0
 803527c:	d058      	beq.n	8035330 <snmp_msg_event+0x5f0>
    {
      mn = snmp_search_tree((struct mib_node*)&internet, msg_ps->vb_ptr->ident_len - 4,
 803527e:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8035282:	4817      	ldr	r0, [pc, #92]	; (80352e0 <snmp_msg_event+0x5a0>)
 8035284:	7a19      	ldrb	r1, [r3, #8]
 8035286:	68da      	ldr	r2, [r3, #12]
 8035288:	3904      	subs	r1, #4
 803528a:	b2c9      	uxtb	r1, r1
 803528c:	3210      	adds	r2, #16
 803528e:	466b      	mov	r3, sp
 8035290:	f7ff f9ec 	bl	803466c <snmp_search_tree>
                             msg_ps->vb_ptr->ident + 4, &np);
      if (mn != NULL)
 8035294:	4605      	mov	r5, r0
 8035296:	2800      	cmp	r0, #0
 8035298:	d04a      	beq.n	8035330 <snmp_msg_event+0x5f0>
      {
        if (mn->node_type == MIB_NODE_EX)
 803529a:	7c03      	ldrb	r3, [r0, #16]
 803529c:	2b05      	cmp	r3, #5
 803529e:	d110      	bne.n	80352c2 <snmp_msg_event+0x582>
          /* external object */
          struct mib_external_node *en = (struct mib_external_node*)mn;

          msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF;
          /* save en && args in msg_ps!! */
          msg_ps->ext_mib_node = en;
 80352a0:	65e0      	str	r0, [r4, #92]	; 0x5c
        if (mn->node_type == MIB_NODE_EX)
        {
          /* external object */
          struct mib_external_node *en = (struct mib_external_node*)mn;

          msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF;
 80352a2:	2307      	movs	r3, #7
          /* save en && args in msg_ps!! */
          msg_ps->ext_mib_node = en;
          msg_ps->ext_name_ptr = np;
 80352a4:	e896 0003 	ldmia.w	r6, {r0, r1}
        if (mn->node_type == MIB_NODE_EX)
        {
          /* external object */
          struct mib_external_node *en = (struct mib_external_node*)mn;

          msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF;
 80352a8:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
          /* save en && args in msg_ps!! */
          msg_ps->ext_mib_node = en;
          msg_ps->ext_name_ptr = np;
 80352ac:	4b0d      	ldr	r3, [pc, #52]	; (80352e4 <snmp_msg_event+0x5a4>)

          en->get_object_def_q(en->addr_inf, request_id, np.ident_len, np.ident);
 80352ae:	f89d 2000 	ldrb.w	r2, [sp]
          struct mib_external_node *en = (struct mib_external_node*)mn;

          msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF;
          /* save en && args in msg_ps!! */
          msg_ps->ext_mib_node = en;
          msg_ps->ext_name_ptr = np;
 80352b2:	e883 0003 	stmia.w	r3, {r0, r1}

          en->get_object_def_q(en->addr_inf, request_id, np.ident_len, np.ident);
 80352b6:	2100      	movs	r1, #0
 80352b8:	6aaf      	ldr	r7, [r5, #40]	; 0x28
 80352ba:	6968      	ldr	r0, [r5, #20]
 80352bc:	9b01      	ldr	r3, [sp, #4]
 80352be:	47b8      	blx	r7
 80352c0:	e03d      	b.n	803533e <snmp_msg_event+0x5fe>
        else
        {
          /* internal object */
          struct obj_def object_def;

          msg_ps->state = SNMP_MSG_INTERNAL_GET_OBJDEF;
 80352c2:	2702      	movs	r7, #2
 80352c4:	f884 705a 	strb.w	r7, [r4, #90]	; 0x5a
          mn->get_object_def(np.ident_len, np.ident, &object_def);
 80352c8:	6803      	ldr	r3, [r0, #0]
 80352ca:	9901      	ldr	r1, [sp, #4]
 80352cc:	f89d 0000 	ldrb.w	r0, [sp]
 80352d0:	aa02      	add	r2, sp, #8
 80352d2:	4798      	blx	r3
          if (object_def.instance != MIB_OBJECT_NONE)
 80352d4:	f89d 3008 	ldrb.w	r3, [sp, #8]
 80352d8:	2b00      	cmp	r3, #0
 80352da:	f040 80b9 	bne.w	8035450 <snmp_msg_event+0x710>
 80352de:	e027      	b.n	8035330 <snmp_msg_event+0x5f0>
 80352e0:	08044810 	.word	0x08044810
 80352e4:	2000f740 	.word	0x2000f740
 80352e8:	2000f7ec 	.word	0x2000f7ec
 80352ec:	2000f6e0 	.word	0x2000f6e0
 80352f0:	2000f748 	.word	0x2000f748
          {
            msg_ps->state = SNMP_MSG_INTERNAL_SET_TEST;

            if (object_def.access & MIB_ACCESS_WRITE)
            {
              if ((object_def.asn_type == msg_ps->vb_ptr->value_type) &&
 80352f4:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 80352f8:	f89d 100a 	ldrb.w	r1, [sp, #10]
 80352fc:	7c1a      	ldrb	r2, [r3, #16]
 80352fe:	4291      	cmp	r1, r2
 8035300:	d10e      	bne.n	8035320 <snmp_msg_event+0x5e0>
                  (mn->set_test(&object_def,msg_ps->vb_ptr->value_len,msg_ps->vb_ptr->value) != 0))
 8035302:	68af      	ldr	r7, [r5, #8]
 8035304:	7c59      	ldrb	r1, [r3, #17]
 8035306:	695a      	ldr	r2, [r3, #20]
 8035308:	a802      	add	r0, sp, #8
 803530a:	47b8      	blx	r7
          {
            msg_ps->state = SNMP_MSG_INTERNAL_SET_TEST;

            if (object_def.access & MIB_ACCESS_WRITE)
            {
              if ((object_def.asn_type == msg_ps->vb_ptr->value_type) &&
 803530c:	b140      	cbz	r0, 8035320 <snmp_msg_event+0x5e0>
                  (mn->set_test(&object_def,msg_ps->vb_ptr->value_len,msg_ps->vb_ptr->value) != 0))
              {
                msg_ps->state = SNMP_MSG_SEARCH_OBJ;
 803530e:	2301      	movs	r3, #1
 8035310:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
                msg_ps->vb_idx += 1;
 8035314:	f894 30f8 	ldrb.w	r3, [r4, #248]	; 0xf8
 8035318:	3301      	adds	r3, #1
 803531a:	f884 30f8 	strb.w	r3, [r4, #248]	; 0xf8
 803531e:	e006      	b.n	803532e <snmp_msg_event+0x5ee>
              }
              else
              {
                /* bad value */
                snmp_error_response(msg_ps,SNMP_ES_BADVALUE);
 8035320:	4854      	ldr	r0, [pc, #336]	; (8035474 <snmp_msg_event+0x734>)
 8035322:	2103      	movs	r1, #3
 8035324:	e001      	b.n	803532a <snmp_msg_event+0x5ea>
              }
            }
            else
            {
              /* object not available for set */
              snmp_error_response(msg_ps,SNMP_ES_NOSUCHNAME);
 8035326:	4853      	ldr	r0, [pc, #332]	; (8035474 <snmp_msg_event+0x734>)
 8035328:	4639      	mov	r1, r7
 803532a:	f7ff fcb2 	bl	8034c92 <snmp_error_response>
    }
    else
    {
      mn = NULL;
    }
    if (mn == NULL)
 803532e:	b935      	cbnz	r5, 803533e <snmp_msg_event+0x5fe>
    {
      /* mn == NULL, noSuchName */
      snmp_error_response(msg_ps,SNMP_ES_NOSUCHNAME);
 8035330:	4850      	ldr	r0, [pc, #320]	; (8035474 <snmp_msg_event+0x734>)
 8035332:	2102      	movs	r1, #2
 8035334:	f7ff fcad 	bl	8034c92 <snmp_error_response>
 8035338:	e001      	b.n	803533e <snmp_msg_event+0x5fe>
    msg_ps->state = SNMP_MSG_INTERNAL_SET_VALUE;
    msg_ps->vb_idx += 1;
  }

  /* test all values before setting */
  while ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
 803533a:	4c4e      	ldr	r4, [pc, #312]	; (8035474 <snmp_msg_event+0x734>)
      msg_ps->vb_ptr = msg_ps->vb_ptr->next;
    }
    /** test object identifier for .iso.org.dod.internet prefix */
    if (snmp_iso_prefix_tst(msg_ps->vb_ptr->ident_len,  msg_ps->vb_ptr->ident))
    {
      mn = snmp_search_tree((struct mib_node*)&internet, msg_ps->vb_ptr->ident_len - 4,
 803533c:	466e      	mov	r6, sp
    msg_ps->state = SNMP_MSG_INTERNAL_SET_VALUE;
    msg_ps->vb_idx += 1;
  }

  /* test all values before setting */
  while ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
 803533e:	f894 205a 	ldrb.w	r2, [r4, #90]	; 0x5a
 8035342:	4b4c      	ldr	r3, [pc, #304]	; (8035474 <snmp_msg_event+0x734>)
 8035344:	2a01      	cmp	r2, #1
 8035346:	d151      	bne.n	80353ec <snmp_msg_event+0x6ac>
         (msg_ps->vb_idx < msg_ps->invb.count))
 8035348:	f894 20f8 	ldrb.w	r2, [r4, #248]	; 0xf8
 803534c:	f894 1108 	ldrb.w	r1, [r4, #264]	; 0x108
    msg_ps->state = SNMP_MSG_INTERNAL_SET_VALUE;
    msg_ps->vb_idx += 1;
  }

  /* test all values before setting */
  while ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
 8035350:	428a      	cmp	r2, r1
 8035352:	d383      	bcc.n	803525c <snmp_msg_event+0x51c>
 8035354:	e088      	b.n	8035468 <snmp_msg_event+0x728>
  }

  if ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
      (msg_ps->vb_idx == msg_ps->invb.count))
  {
    msg_ps->vb_idx = 0;
 8035356:	2200      	movs	r2, #0
 8035358:	f883 20f8 	strb.w	r2, [r3, #248]	; 0xf8
    msg_ps->state = SNMP_MSG_INTERNAL_SET_VALUE;
 803535c:	2206      	movs	r2, #6
 803535e:	f883 205a 	strb.w	r2, [r3, #90]	; 0x5a
 8035362:	e043      	b.n	80353ec <snmp_msg_event+0x6ac>
         (msg_ps->vb_idx < msg_ps->invb.count))
  {
    struct mib_node *mn;
    struct snmp_name_ptr np;

    if (msg_ps->vb_idx == 0)
 8035364:	b913      	cbnz	r3, 803536c <snmp_msg_event+0x62c>
    {
      msg_ps->vb_ptr = msg_ps->invb.head;
 8035366:	f8d4 3100 	ldr.w	r3, [r4, #256]	; 0x100
 803536a:	e002      	b.n	8035372 <snmp_msg_event+0x632>
    }
    else
    {
      msg_ps->vb_ptr = msg_ps->vb_ptr->next;
 803536c:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 8035370:	681b      	ldr	r3, [r3, #0]
 8035372:	f8c4 30fc 	str.w	r3, [r4, #252]	; 0xfc
    }
    /* skip iso prefix test, was done previously while settesting() */
    mn = snmp_search_tree((struct mib_node*)&internet, msg_ps->vb_ptr->ident_len - 4,
 8035376:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 803537a:	483f      	ldr	r0, [pc, #252]	; (8035478 <snmp_msg_event+0x738>)
 803537c:	7a19      	ldrb	r1, [r3, #8]
 803537e:	68da      	ldr	r2, [r3, #12]
 8035380:	3904      	subs	r1, #4
 8035382:	b2c9      	uxtb	r1, r1
 8035384:	3210      	adds	r2, #16
 8035386:	466b      	mov	r3, sp
 8035388:	f7ff f970 	bl	803466c <snmp_search_tree>
                           msg_ps->vb_ptr->ident + 4, &np);
    /* check if object is still available
       (e.g. external hot-plug thingy present?) */
    if (mn != NULL)
 803538c:	4605      	mov	r5, r0
 803538e:	2800      	cmp	r0, #0
 8035390:	d02e      	beq.n	80353f0 <snmp_msg_event+0x6b0>
    {
      if (mn->node_type == MIB_NODE_EX)
 8035392:	7c03      	ldrb	r3, [r0, #16]
 8035394:	2b05      	cmp	r3, #5
 8035396:	d110      	bne.n	80353ba <snmp_msg_event+0x67a>
        /* external object */
        struct mib_external_node *en = (struct mib_external_node*)mn;

        msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF_S;
        /* save en && args in msg_ps!! */
        msg_ps->ext_mib_node = en;
 8035398:	65e0      	str	r0, [r4, #92]	; 0x5c
      if (mn->node_type == MIB_NODE_EX)
      {
        /* external object */
        struct mib_external_node *en = (struct mib_external_node*)mn;

        msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF_S;
 803539a:	230a      	movs	r3, #10
        /* save en && args in msg_ps!! */
        msg_ps->ext_mib_node = en;
        msg_ps->ext_name_ptr = np;
 803539c:	e896 0003 	ldmia.w	r6, {r0, r1}
      if (mn->node_type == MIB_NODE_EX)
      {
        /* external object */
        struct mib_external_node *en = (struct mib_external_node*)mn;

        msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF_S;
 80353a0:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
        /* save en && args in msg_ps!! */
        msg_ps->ext_mib_node = en;
        msg_ps->ext_name_ptr = np;
 80353a4:	4b35      	ldr	r3, [pc, #212]	; (803547c <snmp_msg_event+0x73c>)

        en->get_object_def_q(en->addr_inf, request_id, np.ident_len, np.ident);
 80353a6:	f89d 2000 	ldrb.w	r2, [sp]
        struct mib_external_node *en = (struct mib_external_node*)mn;

        msg_ps->state = SNMP_MSG_EXTERNAL_GET_OBJDEF_S;
        /* save en && args in msg_ps!! */
        msg_ps->ext_mib_node = en;
        msg_ps->ext_name_ptr = np;
 80353aa:	e883 0003 	stmia.w	r3, {r0, r1}

        en->get_object_def_q(en->addr_inf, request_id, np.ident_len, np.ident);
 80353ae:	2100      	movs	r1, #0
 80353b0:	6aaf      	ldr	r7, [r5, #40]	; 0x28
 80353b2:	6968      	ldr	r0, [r5, #20]
 80353b4:	9b01      	ldr	r3, [sp, #4]
 80353b6:	47b8      	blx	r7
 80353b8:	e01a      	b.n	80353f0 <snmp_msg_event+0x6b0>
      else
      {
        /* internal object */
        struct obj_def object_def;

        msg_ps->state = SNMP_MSG_INTERNAL_GET_OBJDEF_S;
 80353ba:	2305      	movs	r3, #5
 80353bc:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
        mn->get_object_def(np.ident_len, np.ident, &object_def);
 80353c0:	6803      	ldr	r3, [r0, #0]
 80353c2:	9901      	ldr	r1, [sp, #4]
 80353c4:	f89d 0000 	ldrb.w	r0, [sp]
 80353c8:	aa02      	add	r2, sp, #8
 80353ca:	4798      	blx	r3
        msg_ps->state = SNMP_MSG_INTERNAL_SET_VALUE;
 80353cc:	2306      	movs	r3, #6
 80353ce:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
        mn->set_value(&object_def,msg_ps->vb_ptr->value_len,msg_ps->vb_ptr->value);
 80353d2:	f8d4 30fc 	ldr.w	r3, [r4, #252]	; 0xfc
 80353d6:	68ed      	ldr	r5, [r5, #12]
 80353d8:	7c59      	ldrb	r1, [r3, #17]
 80353da:	695a      	ldr	r2, [r3, #20]
 80353dc:	a802      	add	r0, sp, #8
 80353de:	47a8      	blx	r5
        msg_ps->vb_idx += 1;
 80353e0:	f894 30f8 	ldrb.w	r3, [r4, #248]	; 0xf8
 80353e4:	3301      	adds	r3, #1
 80353e6:	f884 30f8 	strb.w	r3, [r4, #248]	; 0xf8
 80353ea:	e001      	b.n	80353f0 <snmp_msg_event+0x6b0>
    msg_ps->vb_idx = 0;
    msg_ps->state = SNMP_MSG_INTERNAL_SET_VALUE;
  }

  /* set all values "atomically" (be as "atomic" as possible) */
  while ((msg_ps->state == SNMP_MSG_INTERNAL_SET_VALUE) &&
 80353ec:	4c21      	ldr	r4, [pc, #132]	; (8035474 <snmp_msg_event+0x734>)
    else
    {
      msg_ps->vb_ptr = msg_ps->vb_ptr->next;
    }
    /* skip iso prefix test, was done previously while settesting() */
    mn = snmp_search_tree((struct mib_node*)&internet, msg_ps->vb_ptr->ident_len - 4,
 80353ee:	466e      	mov	r6, sp
    msg_ps->vb_idx = 0;
    msg_ps->state = SNMP_MSG_INTERNAL_SET_VALUE;
  }

  /* set all values "atomically" (be as "atomic" as possible) */
  while ((msg_ps->state == SNMP_MSG_INTERNAL_SET_VALUE) &&
 80353f0:	f894 305a 	ldrb.w	r3, [r4, #90]	; 0x5a
 80353f4:	4d1f      	ldr	r5, [pc, #124]	; (8035474 <snmp_msg_event+0x734>)
 80353f6:	2b06      	cmp	r3, #6
 80353f8:	d139      	bne.n	803546e <snmp_msg_event+0x72e>
         (msg_ps->vb_idx < msg_ps->invb.count))
 80353fa:	f894 30f8 	ldrb.w	r3, [r4, #248]	; 0xf8
 80353fe:	f894 2108 	ldrb.w	r2, [r4, #264]	; 0x108
    msg_ps->vb_idx = 0;
    msg_ps->state = SNMP_MSG_INTERNAL_SET_VALUE;
  }

  /* set all values "atomically" (be as "atomic" as possible) */
  while ((msg_ps->state == SNMP_MSG_INTERNAL_SET_VALUE) &&
 8035402:	4293      	cmp	r3, r2
 8035404:	d3ae      	bcc.n	8035364 <snmp_msg_event+0x624>
 8035406:	e031      	b.n	803546c <snmp_msg_event+0x72c>
      (msg_ps->vb_idx == msg_ps->invb.count))
  {
    /* simply echo the input if we can set it
       @todo do we need to return the actual value?
       e.g. if value is silently modified or behaves sticky? */
    msg_ps->outvb = msg_ps->invb;
 8035408:	f505 7280 	add.w	r2, r5, #256	; 0x100
 803540c:	ca07      	ldmia	r2, {r0, r1, r2}
 803540e:	f505 7386 	add.w	r3, r5, #268	; 0x10c
 8035412:	e883 0007 	stmia.w	r3, {r0, r1, r2}
    msg_ps->invb.head = NULL;
 8035416:	2300      	movs	r3, #0
 8035418:	f8c5 3100 	str.w	r3, [r5, #256]	; 0x100
    msg_ps->invb.tail = NULL;
 803541c:	f8c5 3104 	str.w	r3, [r5, #260]	; 0x104
    msg_ps->invb.count = 0;
 8035420:	f885 3108 	strb.w	r3, [r5, #264]	; 0x108
    snmp_ok_response(msg_ps);
 8035424:	4628      	mov	r0, r5
 8035426:	f7ff fc6f 	bl	8034d08 <snmp_ok_response>
 803542a:	e020      	b.n	803546e <snmp_msg_event+0x72e>
      }
    }
    if (mn == NULL)
    {
      /* mn == NULL, noSuchName */
      snmp_error_response(msg_ps,SNMP_ES_NOSUCHNAME);
 803542c:	4811      	ldr	r0, [pc, #68]	; (8035474 <snmp_msg_event+0x734>)
 803542e:	2102      	movs	r1, #2
 8035430:	f7ff fc2f 	bl	8034c92 <snmp_error_response>
 8035434:	e556      	b.n	8034ee4 <snmp_msg_event+0x1a4>
          }
          if (mn != NULL)
          {
            struct snmp_varbind *vb;

            msg_ps->state = SNMP_MSG_INTERNAL_GET_VALUE;
 8035436:	2303      	movs	r3, #3
            /* allocate output varbind */
            vb = (struct snmp_varbind *)memp_malloc(MEMP_SNMP_VARBIND);
 8035438:	200c      	movs	r0, #12
          }
          if (mn != NULL)
          {
            struct snmp_varbind *vb;

            msg_ps->state = SNMP_MSG_INTERNAL_GET_VALUE;
 803543a:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a
            /* allocate output varbind */
            vb = (struct snmp_varbind *)memp_malloc(MEMP_SNMP_VARBIND);
 803543e:	f7f9 ff3b 	bl	802f2b8 <memp_malloc>
            if (vb != NULL)
 8035442:	4605      	mov	r5, r0
 8035444:	2800      	cmp	r0, #0
 8035446:	f47f ae31 	bne.w	80350ac <snmp_msg_event+0x36c>
 803544a:	e669      	b.n	8035120 <snmp_msg_event+0x3e0>
    {
      /* mn == NULL, noSuchName */
      snmp_error_response(msg_ps,SNMP_ES_NOSUCHNAME);
    }
  }
  if ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
 803544c:	d10f      	bne.n	803546e <snmp_msg_event+0x72e>
 803544e:	e555      	b.n	8034efc <snmp_msg_event+0x1bc>
            /* search failed, object id points to unknown object (nosuchname) */
            mn = NULL;
          }
          if (mn != NULL)
          {
            msg_ps->state = SNMP_MSG_INTERNAL_SET_TEST;
 8035450:	2304      	movs	r3, #4
 8035452:	f884 305a 	strb.w	r3, [r4, #90]	; 0x5a

            if (object_def.access & MIB_ACCESS_WRITE)
 8035456:	f89d 3009 	ldrb.w	r3, [sp, #9]
 803545a:	f003 0302 	and.w	r3, r3, #2
 803545e:	b2db      	uxtb	r3, r3
 8035460:	2b00      	cmp	r3, #0
 8035462:	f47f af47 	bne.w	80352f4 <snmp_msg_event+0x5b4>
 8035466:	e75e      	b.n	8035326 <snmp_msg_event+0x5e6>
      /* mn == NULL, noSuchName */
      snmp_error_response(msg_ps,SNMP_ES_NOSUCHNAME);
    }
  }

  if ((msg_ps->state == SNMP_MSG_SEARCH_OBJ) &&
 8035468:	d1c0      	bne.n	80353ec <snmp_msg_event+0x6ac>
 803546a:	e774      	b.n	8035356 <snmp_msg_event+0x616>
        mn->set_value(&object_def,msg_ps->vb_ptr->value_len,msg_ps->vb_ptr->value);
        msg_ps->vb_idx += 1;
      }
    }
  }
  if ((msg_ps->state == SNMP_MSG_INTERNAL_SET_VALUE) &&
 803546c:	d0cc      	beq.n	8035408 <snmp_msg_event+0x6c8>
    else if(msg_ps->rt == SNMP_ASN1_PDU_SET_REQ)
    {
      snmp_msg_set_event(request_id, msg_ps);
    }
  }
}
 803546e:	b027      	add	sp, #156	; 0x9c
 8035470:	e8bd 83f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, pc}
 8035474:	2000f6e0 	.word	0x2000f6e0
 8035478:	08044810 	.word	0x08044810
 803547c:	2000f740 	.word	0x2000f740

08035480 <snmp_pdu_dec_varbindlist>:
  return ERR_OK;
}

static err_t
snmp_pdu_dec_varbindlist(struct pbuf *p, u16_t ofs, u16_t *ofs_ret, struct snmp_msg_pstat *m_stat)
{
 8035480:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
 8035484:	b0c7      	sub	sp, #284	; 0x11c
  u16_t len, vb_len;
  u8_t  len_octets;
  u8_t type;

  /* variable binding list */
  snmp_asn1_dec_type(p, ofs, &type);
 8035486:	f10d 070b 	add.w	r7, sp, #11
  return ERR_OK;
}

static err_t
snmp_pdu_dec_varbindlist(struct pbuf *p, u16_t ofs, u16_t *ofs_ret, struct snmp_msg_pstat *m_stat)
{
 803548a:	468a      	mov	sl, r1
 803548c:	4691      	mov	r9, r2
  u16_t len, vb_len;
  u8_t  len_octets;
  u8_t type;

  /* variable binding list */
  snmp_asn1_dec_type(p, ofs, &type);
 803548e:	463a      	mov	r2, r7
  return ERR_OK;
}

static err_t
snmp_pdu_dec_varbindlist(struct pbuf *p, u16_t ofs, u16_t *ofs_ret, struct snmp_msg_pstat *m_stat)
{
 8035490:	4604      	mov	r4, r0
 8035492:	461d      	mov	r5, r3
  u8_t  len_octets;
  u8_t type;

  /* variable binding list */
  snmp_asn1_dec_type(p, ofs, &type);
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &vb_len);
 8035494:	f10d 060e 	add.w	r6, sp, #14
  u16_t len, vb_len;
  u8_t  len_octets;
  u8_t type;

  /* variable binding list */
  snmp_asn1_dec_type(p, ofs, &type);
 8035498:	f7fd f928 	bl	80326ec <snmp_asn1_dec_type>
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &vb_len);
 803549c:	f10a 0101 	add.w	r1, sl, #1
 80354a0:	4620      	mov	r0, r4
 80354a2:	b289      	uxth	r1, r1
 80354a4:	f10d 020a 	add.w	r2, sp, #10
 80354a8:	4633      	mov	r3, r6
 80354aa:	f7fd f934 	bl	8032716 <snmp_asn1_dec_length>
  if ((derr != ERR_OK) ||
 80354ae:	b910      	cbnz	r0, 80354b6 <snmp_pdu_dec_varbindlist+0x36>
 80354b0:	783b      	ldrb	r3, [r7, #0]
 80354b2:	2b30      	cmp	r3, #48	; 0x30
 80354b4:	d002      	beq.n	80354bc <snmp_pdu_dec_varbindlist+0x3c>
      (type != (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ)))
  {
    snmp_inc_snmpinasnparseerrs();
 80354b6:	f7fe ff21 	bl	80342fc <snmp_inc_snmpinasnparseerrs>
 80354ba:	e02b      	b.n	8035514 <snmp_pdu_dec_varbindlist+0x94>
    return ERR_ARG;
  }
  ofs += (1 + len_octets);
 80354bc:	f89d 800a 	ldrb.w	r8, [sp, #10]

  /* start with empty list */
  m_stat->invb.count = 0;
 80354c0:	f885 0108 	strb.w	r0, [r5, #264]	; 0x108
      (type != (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ)))
  {
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  ofs += (1 + len_octets);
 80354c4:	f108 0801 	add.w	r8, r8, #1
 80354c8:	44d0      	add	r8, sl
 80354ca:	fa1f f888 	uxth.w	r8, r8

  /* start with empty list */
  m_stat->invb.count = 0;
  m_stat->invb.head = NULL;
 80354ce:	f8c5 0100 	str.w	r0, [r5, #256]	; 0x100
  m_stat->invb.tail = NULL;
 80354d2:	f8c5 0104 	str.w	r0, [r5, #260]	; 0x104

  while (vb_len > 0)
 80354d6:	e118      	b.n	803570a <snmp_pdu_dec_varbindlist+0x28a>
  {
    struct snmp_obj_id oid, oid_value;
    struct snmp_varbind *vb;

    snmp_asn1_dec_type(p, ofs, &type);
 80354d8:	4641      	mov	r1, r8
 80354da:	463a      	mov	r2, r7
 80354dc:	4620      	mov	r0, r4
 80354de:	f7fd f905 	bl	80326ec <snmp_asn1_dec_type>
    derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
 80354e2:	f108 0101 	add.w	r1, r8, #1
 80354e6:	4620      	mov	r0, r4
 80354e8:	b289      	uxth	r1, r1
 80354ea:	f10d 020a 	add.w	r2, sp, #10
 80354ee:	ab03      	add	r3, sp, #12
 80354f0:	f7fd f911 	bl	8032716 <snmp_asn1_dec_length>
    if ((derr != ERR_OK) ||
 80354f4:	b940      	cbnz	r0, 8035508 <snmp_pdu_dec_varbindlist+0x88>
 80354f6:	783b      	ldrb	r3, [r7, #0]
 80354f8:	2b30      	cmp	r3, #48	; 0x30
 80354fa:	d105      	bne.n	8035508 <snmp_pdu_dec_varbindlist+0x88>
        (type != (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ)) ||
        (len == 0) || (len > vb_len))
 80354fc:	f8bd 200c 	ldrh.w	r2, [sp, #12]
    struct snmp_varbind *vb;

    snmp_asn1_dec_type(p, ofs, &type);
    derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
    if ((derr != ERR_OK) ||
        (type != (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ)) ||
 8035500:	b112      	cbz	r2, 8035508 <snmp_pdu_dec_varbindlist+0x88>
        (len == 0) || (len > vb_len))
 8035502:	8833      	ldrh	r3, [r6, #0]
 8035504:	429a      	cmp	r2, r3
 8035506:	d907      	bls.n	8035518 <snmp_pdu_dec_varbindlist+0x98>
    {
      snmp_inc_snmpinasnparseerrs();
 8035508:	f7fe fef8 	bl	80342fc <snmp_inc_snmpinasnparseerrs>
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
 803550c:	f505 7080 	add.w	r0, r5, #256	; 0x100
 8035510:	f7ff fbb1 	bl	8034c76 <snmp_varbind_list_free>
 8035514:	20f2      	movs	r0, #242	; 0xf2
 8035516:	e109      	b.n	803572c <snmp_pdu_dec_varbindlist+0x2ac>
      return ERR_ARG;
    }
    ofs += (1 + len_octets);
 8035518:	f89d 200a 	ldrb.w	r2, [sp, #10]
 803551c:	4490      	add	r8, r2
 803551e:	fa1f f888 	uxth.w	r8, r8
 8035522:	f108 0a01 	add.w	sl, r8, #1
    vb_len -= (1 + len_octets);
 8035526:	43d2      	mvns	r2, r2
      snmp_inc_snmpinasnparseerrs();
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
      return ERR_ARG;
    }
    ofs += (1 + len_octets);
 8035528:	fa1f fa8a 	uxth.w	sl, sl
    vb_len -= (1 + len_octets);
 803552c:	189b      	adds	r3, r3, r2

    snmp_asn1_dec_type(p, ofs, &type);
 803552e:	4651      	mov	r1, sl
 8035530:	463a      	mov	r2, r7
 8035532:	4620      	mov	r0, r4
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
      return ERR_ARG;
    }
    ofs += (1 + len_octets);
    vb_len -= (1 + len_octets);
 8035534:	8033      	strh	r3, [r6, #0]

    snmp_asn1_dec_type(p, ofs, &type);
 8035536:	f7fd f8d9 	bl	80326ec <snmp_asn1_dec_type>
    derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
 803553a:	f108 0102 	add.w	r1, r8, #2
 803553e:	4620      	mov	r0, r4
 8035540:	b289      	uxth	r1, r1
 8035542:	f10d 020a 	add.w	r2, sp, #10
 8035546:	ab03      	add	r3, sp, #12
 8035548:	f7fd f8e5 	bl	8032716 <snmp_asn1_dec_length>
    if ((derr != ERR_OK) || (type != (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID)))
 803554c:	2800      	cmp	r0, #0
 803554e:	d1db      	bne.n	8035508 <snmp_pdu_dec_varbindlist+0x88>
 8035550:	783b      	ldrb	r3, [r7, #0]
 8035552:	2b06      	cmp	r3, #6
 8035554:	d1d8      	bne.n	8035508 <snmp_pdu_dec_varbindlist+0x88>
      snmp_inc_snmpinasnparseerrs();
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
      return ERR_ARG;
    }
    derr = snmp_asn1_dec_oid(p, ofs + 1 + len_octets, len, &oid);
 8035556:	f89d 100a 	ldrb.w	r1, [sp, #10]
 803555a:	f8bd 200c 	ldrh.w	r2, [sp, #12]
 803555e:	3101      	adds	r1, #1
 8035560:	4451      	add	r1, sl
 8035562:	4620      	mov	r0, r4
 8035564:	b289      	uxth	r1, r1
 8035566:	ab04      	add	r3, sp, #16
 8035568:	f7fd fa04 	bl	8032974 <snmp_asn1_dec_oid>
    if (derr != ERR_OK)
 803556c:	2800      	cmp	r0, #0
 803556e:	d1cb      	bne.n	8035508 <snmp_pdu_dec_varbindlist+0x88>
      snmp_inc_snmpinasnparseerrs();
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
      return ERR_ARG;
    }
    ofs += (1 + len_octets + len);
 8035570:	f89d 300a 	ldrb.w	r3, [sp, #10]
 8035574:	f8bd 200c 	ldrh.w	r2, [sp, #12]
 8035578:	1899      	adds	r1, r3, r2
 803557a:	448a      	add	sl, r1
 803557c:	fa1f fa8a 	uxth.w	sl, sl
    vb_len -= (1 + len_octets + len);
 8035580:	8831      	ldrh	r1, [r6, #0]
      snmp_inc_snmpinasnparseerrs();
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
      return ERR_ARG;
    }
    ofs += (1 + len_octets + len);
 8035582:	f10a 0801 	add.w	r8, sl, #1
    vb_len -= (1 + len_octets + len);
 8035586:	1a8a      	subs	r2, r1, r2
      snmp_inc_snmpinasnparseerrs();
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
      return ERR_ARG;
    }
    ofs += (1 + len_octets + len);
 8035588:	fa1f f888 	uxth.w	r8, r8
    vb_len -= (1 + len_octets + len);
 803558c:	43db      	mvns	r3, r3
 803558e:	18d3      	adds	r3, r2, r3

    snmp_asn1_dec_type(p, ofs, &type);
 8035590:	4641      	mov	r1, r8
 8035592:	463a      	mov	r2, r7
 8035594:	4620      	mov	r0, r4
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
      return ERR_ARG;
    }
    ofs += (1 + len_octets + len);
    vb_len -= (1 + len_octets + len);
 8035596:	8033      	strh	r3, [r6, #0]

    snmp_asn1_dec_type(p, ofs, &type);
 8035598:	f7fd f8a8 	bl	80326ec <snmp_asn1_dec_type>
    derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
 803559c:	f10a 0102 	add.w	r1, sl, #2
 80355a0:	4620      	mov	r0, r4
 80355a2:	b289      	uxth	r1, r1
 80355a4:	f10d 020a 	add.w	r2, sp, #10
 80355a8:	ab03      	add	r3, sp, #12
 80355aa:	f7fd f8b4 	bl	8032716 <snmp_asn1_dec_length>
    if (derr != ERR_OK)
 80355ae:	2800      	cmp	r0, #0
 80355b0:	d1aa      	bne.n	8035508 <snmp_pdu_dec_varbindlist+0x88>
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
      return ERR_ARG;
    }

    switch (type)
 80355b2:	7839      	ldrb	r1, [r7, #0]
 80355b4:	2906      	cmp	r1, #6
 80355b6:	d047      	beq.n	8035648 <snmp_pdu_dec_varbindlist+0x1c8>
 80355b8:	d805      	bhi.n	80355c6 <snmp_pdu_dec_varbindlist+0x146>
 80355ba:	2904      	cmp	r1, #4
 80355bc:	d036      	beq.n	803562c <snmp_pdu_dec_varbindlist+0x1ac>
 80355be:	d839      	bhi.n	8035634 <snmp_pdu_dec_varbindlist+0x1b4>
 80355c0:	2902      	cmp	r1, #2
 80355c2:	d1a1      	bne.n	8035508 <snmp_pdu_dec_varbindlist+0x88>
 80355c4:	e009      	b.n	80355da <snmp_pdu_dec_varbindlist+0x15a>
 80355c6:	2943      	cmp	r1, #67	; 0x43
 80355c8:	d804      	bhi.n	80355d4 <snmp_pdu_dec_varbindlist+0x154>
 80355ca:	2941      	cmp	r1, #65	; 0x41
 80355cc:	d219      	bcs.n	8035602 <snmp_pdu_dec_varbindlist+0x182>
 80355ce:	2940      	cmp	r1, #64	; 0x40
 80355d0:	d19a      	bne.n	8035508 <snmp_pdu_dec_varbindlist+0x88>
 80355d2:	e069      	b.n	80356a8 <snmp_pdu_dec_varbindlist+0x228>
 80355d4:	2944      	cmp	r1, #68	; 0x44
 80355d6:	d197      	bne.n	8035508 <snmp_pdu_dec_varbindlist+0x88>
 80355d8:	e028      	b.n	803562c <snmp_pdu_dec_varbindlist+0x1ac>
    {
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG):
        vb = snmp_varbind_alloc(&oid, type, sizeof(s32_t));
 80355da:	a804      	add	r0, sp, #16
 80355dc:	2204      	movs	r2, #4
 80355de:	f7ff faf7 	bl	8034bd0 <snmp_varbind_alloc>
        if (vb != NULL)
 80355e2:	4683      	mov	fp, r0
 80355e4:	2800      	cmp	r0, #0
 80355e6:	d08f      	beq.n	8035508 <snmp_pdu_dec_varbindlist+0x88>
        {
          s32_t *vptr = (s32_t*)vb->value;

          derr = snmp_asn1_dec_s32t(p, ofs + 1 + len_octets, len, vptr);
 80355e8:	f89d 100a 	ldrb.w	r1, [sp, #10]
 80355ec:	f8bd 200c 	ldrh.w	r2, [sp, #12]
 80355f0:	f8db 3014 	ldr.w	r3, [fp, #20]
 80355f4:	3101      	adds	r1, #1
 80355f6:	4441      	add	r1, r8
 80355f8:	4620      	mov	r0, r4
 80355fa:	b289      	uxth	r1, r1
 80355fc:	f7fd f961 	bl	80328c2 <snmp_asn1_dec_s32t>
 8035600:	e06b      	b.n	80356da <snmp_pdu_dec_varbindlist+0x25a>
        }
        break;
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_GAUGE):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_TIMETICKS):
        vb = snmp_varbind_alloc(&oid, type, sizeof(u32_t));
 8035602:	a804      	add	r0, sp, #16
 8035604:	2204      	movs	r2, #4
 8035606:	f7ff fae3 	bl	8034bd0 <snmp_varbind_alloc>
        if (vb != NULL)
 803560a:	4683      	mov	fp, r0
 803560c:	2800      	cmp	r0, #0
 803560e:	f43f af7b 	beq.w	8035508 <snmp_pdu_dec_varbindlist+0x88>
        {
          u32_t *vptr = (u32_t*)vb->value;

          derr = snmp_asn1_dec_u32t(p, ofs + 1 + len_octets, len, vptr);
 8035612:	f89d 100a 	ldrb.w	r1, [sp, #10]
 8035616:	f8bd 200c 	ldrh.w	r2, [sp, #12]
 803561a:	f8db 3014 	ldr.w	r3, [fp, #20]
 803561e:	3101      	adds	r1, #1
 8035620:	4441      	add	r1, r8
 8035622:	4620      	mov	r0, r4
 8035624:	b289      	uxth	r1, r1
 8035626:	f7fd f8f8 	bl	803281a <snmp_asn1_dec_u32t>
 803562a:	e056      	b.n	80356da <snmp_pdu_dec_varbindlist+0x25a>
        }
        break;
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_OPAQUE):
        LWIP_ASSERT("invalid length", len <= 0xff);
        vb = snmp_varbind_alloc(&oid, type, (u8_t)len);
 803562c:	a804      	add	r0, sp, #16
 803562e:	f89d 200c 	ldrb.w	r2, [sp, #12]
 8035632:	e03f      	b.n	80356b4 <snmp_pdu_dec_varbindlist+0x234>
        {
          derr = ERR_ARG;
        }
        break;
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_NUL):
        vb = snmp_varbind_alloc(&oid, type, 0);
 8035634:	2105      	movs	r1, #5
 8035636:	a804      	add	r0, sp, #16
 8035638:	2200      	movs	r2, #0
 803563a:	f7ff fac9 	bl	8034bd0 <snmp_varbind_alloc>
        if (vb != NULL)
 803563e:	4601      	mov	r1, r0
 8035640:	2800      	cmp	r0, #0
 8035642:	f43f af61 	beq.w	8035508 <snmp_pdu_dec_varbindlist+0x88>
 8035646:	e02a      	b.n	803569e <snmp_pdu_dec_varbindlist+0x21e>
        {
          derr = ERR_ARG;
        }
        break;
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID):
        derr = snmp_asn1_dec_oid(p, ofs + 1 + len_octets, len, &oid_value);
 8035648:	f89d 100a 	ldrb.w	r1, [sp, #10]
 803564c:	f8bd 200c 	ldrh.w	r2, [sp, #12]
 8035650:	3101      	adds	r1, #1
 8035652:	4441      	add	r1, r8
 8035654:	4620      	mov	r0, r4
 8035656:	b289      	uxth	r1, r1
 8035658:	ab25      	add	r3, sp, #148	; 0x94
 803565a:	f7fd f98b 	bl	8032974 <snmp_asn1_dec_oid>
        if (derr == ERR_OK)
 803565e:	2800      	cmp	r0, #0
 8035660:	f47f af52 	bne.w	8035508 <snmp_pdu_dec_varbindlist+0x88>
        {
          vb = snmp_varbind_alloc(&oid, type, oid_value.len * sizeof(s32_t));
 8035664:	f89d 2094 	ldrb.w	r2, [sp, #148]	; 0x94
 8035668:	7839      	ldrb	r1, [r7, #0]
 803566a:	0092      	lsls	r2, r2, #2
 803566c:	a804      	add	r0, sp, #16
 803566e:	f002 02fc 	and.w	r2, r2, #252	; 0xfc
 8035672:	f7ff faad 	bl	8034bd0 <snmp_varbind_alloc>
          if (vb != NULL)
 8035676:	4601      	mov	r1, r0
 8035678:	2800      	cmp	r0, #0
 803567a:	f43f af45 	beq.w	8035508 <snmp_pdu_dec_varbindlist+0x88>
          {
            u8_t i = oid_value.len;
 803567e:	f89d 3094 	ldrb.w	r3, [sp, #148]	; 0x94
            s32_t *vptr = (s32_t*)vb->value;
 8035682:	6940      	ldr	r0, [r0, #20]

            while(i > 0)
 8035684:	e009      	b.n	803569a <snmp_pdu_dec_varbindlist+0x21a>
            {
              i--;
 8035686:	3b01      	subs	r3, #1
 8035688:	b2db      	uxtb	r3, r3
              vptr[i] = oid_value.id[i];
 803568a:	f50d 7e8c 	add.w	lr, sp, #280	; 0x118
 803568e:	eb0e 0283 	add.w	r2, lr, r3, lsl #2
 8035692:	f852 2c80 	ldr.w	r2, [r2, #-128]
 8035696:	f840 2023 	str.w	r2, [r0, r3, lsl #2]
          if (vb != NULL)
          {
            u8_t i = oid_value.len;
            s32_t *vptr = (s32_t*)vb->value;

            while(i > 0)
 803569a:	2b00      	cmp	r3, #0
 803569c:	d1f3      	bne.n	8035686 <snmp_pdu_dec_varbindlist+0x206>
            {
              i--;
              vptr[i] = oid_value.id[i];
            }
            snmp_varbind_tail_add(&m_stat->invb, vb);
 803569e:	f505 7080 	add.w	r0, r5, #256	; 0x100
 80356a2:	f7ff fb41 	bl	8034d28 <snmp_varbind_tail_add>
 80356a6:	e022      	b.n	80356ee <snmp_pdu_dec_varbindlist+0x26e>
            derr = ERR_ARG;
          }
        }
        break;
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR):
        if (len == 4)
 80356a8:	f8bd 200c 	ldrh.w	r2, [sp, #12]
 80356ac:	2a04      	cmp	r2, #4
 80356ae:	f47f af2b 	bne.w	8035508 <snmp_pdu_dec_varbindlist+0x88>
        {
          /* must be exactly 4 octets! */
          vb = snmp_varbind_alloc(&oid, type, 4);
 80356b2:	a804      	add	r0, sp, #16
 80356b4:	f7ff fa8c 	bl	8034bd0 <snmp_varbind_alloc>
          if (vb != NULL)
 80356b8:	4683      	mov	fp, r0
 80356ba:	2800      	cmp	r0, #0
 80356bc:	f43f af24 	beq.w	8035508 <snmp_pdu_dec_varbindlist+0x88>
          {
            derr = snmp_asn1_dec_raw(p, ofs + 1 + len_octets, len, vb->value_len, (u8_t*)vb->value);
 80356c0:	f89d 100a 	ldrb.w	r1, [sp, #10]
 80356c4:	7c43      	ldrb	r3, [r0, #17]
 80356c6:	6940      	ldr	r0, [r0, #20]
 80356c8:	f8bd 200c 	ldrh.w	r2, [sp, #12]
 80356cc:	9000      	str	r0, [sp, #0]
 80356ce:	3101      	adds	r1, #1
 80356d0:	4441      	add	r1, r8
 80356d2:	4620      	mov	r0, r4
 80356d4:	b289      	uxth	r1, r1
 80356d6:	f7fd f9e9 	bl	8032aac <snmp_asn1_dec_raw>
 80356da:	4682      	mov	sl, r0
            snmp_varbind_tail_add(&m_stat->invb, vb);
 80356dc:	4659      	mov	r1, fp
 80356de:	f505 7080 	add.w	r0, r5, #256	; 0x100
 80356e2:	f7ff fb21 	bl	8034d28 <snmp_varbind_tail_add>
        break;
      default:
        derr = ERR_ARG;
        break;
    }
    if (derr != ERR_OK)
 80356e6:	f1ba 0f00 	cmp.w	sl, #0
 80356ea:	f47f af0d 	bne.w	8035508 <snmp_pdu_dec_varbindlist+0x88>
      snmp_inc_snmpinasnparseerrs();
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
      return ERR_ARG;
    }
    ofs += (1 + len_octets + len);
 80356ee:	f8bd 200c 	ldrh.w	r2, [sp, #12]
 80356f2:	f89d 300a 	ldrb.w	r3, [sp, #10]
 80356f6:	1c51      	adds	r1, r2, #1
 80356f8:	1859      	adds	r1, r3, r1
 80356fa:	4488      	add	r8, r1
    vb_len -= (1 + len_octets + len);
 80356fc:	8831      	ldrh	r1, [r6, #0]
 80356fe:	43db      	mvns	r3, r3
 8035700:	1a8a      	subs	r2, r1, r2
 8035702:	18d3      	adds	r3, r2, r3
      snmp_inc_snmpinasnparseerrs();
      /* free varbinds (if available) */
      snmp_varbind_list_free(&m_stat->invb);
      return ERR_ARG;
    }
    ofs += (1 + len_octets + len);
 8035704:	fa1f f888 	uxth.w	r8, r8
    vb_len -= (1 + len_octets + len);
 8035708:	8033      	strh	r3, [r6, #0]
  /* start with empty list */
  m_stat->invb.count = 0;
  m_stat->invb.head = NULL;
  m_stat->invb.tail = NULL;

  while (vb_len > 0)
 803570a:	8833      	ldrh	r3, [r6, #0]
 803570c:	2b00      	cmp	r3, #0
 803570e:	f47f aee3 	bne.w	80354d8 <snmp_pdu_dec_varbindlist+0x58>
    }
    ofs += (1 + len_octets + len);
    vb_len -= (1 + len_octets + len);
  }

  if (m_stat->rt == SNMP_ASN1_PDU_SET_REQ)
 8035712:	7aab      	ldrb	r3, [r5, #10]
 8035714:	f895 0108 	ldrb.w	r0, [r5, #264]	; 0x108
 8035718:	2b03      	cmp	r3, #3
 803571a:	d102      	bne.n	8035722 <snmp_pdu_dec_varbindlist+0x2a2>
  {
    snmp_add_snmpintotalsetvars(m_stat->invb.count);
 803571c:	f7fe fe26 	bl	803436c <snmp_add_snmpintotalsetvars>
 8035720:	e001      	b.n	8035726 <snmp_pdu_dec_varbindlist+0x2a6>
  }
  else
  {
    snmp_add_snmpintotalreqvars(m_stat->invb.count);
 8035722:	f7fe fe1b 	bl	803435c <snmp_add_snmpintotalreqvars>
  }

  *ofs_ret = ofs;
 8035726:	f8a9 8000 	strh.w	r8, [r9]
  return ERR_OK;
 803572a:	2000      	movs	r0, #0
}
 803572c:	b240      	sxtb	r0, r0
 803572e:	b047      	add	sp, #284	; 0x11c
 8035730:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}

08035734 <snmp_recv>:


/* lwIP UDP receive callback function */
static void
snmp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
{
 8035734:	e92d 43f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, lr}
  LWIP_UNUSED_ARG(arg);

  /* traverse input message process list, look for SNMP_MSG_EMPTY */
  msg_ps = &msg_input_list[0];
  req_idx = 0;
  while ((req_idx < SNMP_CONCURRENT_REQUESTS) && (msg_ps->state != SNMP_MSG_EMPTY))
 8035738:	4da3      	ldr	r5, [pc, #652]	; (80359c8 <snmp_recv+0x294>)
{
  //volatile struct snmp_msg_pstat *msg_ps;
  struct snmp_msg_pstat *msg_ps;
  u8_t req_idx;
  err_t err_ret;
  u16_t payload_len = p->tot_len;
 803573a:	8917      	ldrh	r7, [r2, #8]
  LWIP_UNUSED_ARG(arg);

  /* traverse input message process list, look for SNMP_MSG_EMPTY */
  msg_ps = &msg_input_list[0];
  req_idx = 0;
  while ((req_idx < SNMP_CONCURRENT_REQUESTS) && (msg_ps->state != SNMP_MSG_EMPTY))
 803573c:	f895 605a 	ldrb.w	r6, [r5, #90]	; 0x5a


/* lwIP UDP receive callback function */
static void
snmp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
{
 8035740:	b087      	sub	sp, #28
 8035742:	4699      	mov	r9, r3
  struct snmp_msg_pstat *msg_ps;
  u8_t req_idx;
  err_t err_ret;
  u16_t payload_len = p->tot_len;
  u16_t payload_ofs = 0;
  u16_t varbind_ofs = 0;
 8035744:	2300      	movs	r3, #0


/* lwIP UDP receive callback function */
static void
snmp_recv(void *arg, struct udp_pcb *pcb, struct pbuf *p, ip_addr_t *addr, u16_t port)
{
 8035746:	4688      	mov	r8, r1
 8035748:	4614      	mov	r4, r2
  struct snmp_msg_pstat *msg_ps;
  u8_t req_idx;
  err_t err_ret;
  u16_t payload_len = p->tot_len;
  u16_t payload_ofs = 0;
  u16_t varbind_ofs = 0;
 803574a:	f8ad 3010 	strh.w	r3, [sp, #16]
  LWIP_UNUSED_ARG(arg);

  /* traverse input message process list, look for SNMP_MSG_EMPTY */
  msg_ps = &msg_input_list[0];
  req_idx = 0;
  while ((req_idx < SNMP_CONCURRENT_REQUESTS) && (msg_ps->state != SNMP_MSG_EMPTY))
 803574e:	2e00      	cmp	r6, #0
 8035750:	f000 81a7 	beq.w	8035aa2 <snmp_recv+0x36e>
    msg_ps++;
  }
  if (req_idx == SNMP_CONCURRENT_REQUESTS)
  {
    /* exceeding number of concurrent requests */
    pbuf_free(p);
 8035754:	4620      	mov	r0, r4
 8035756:	f7f9 fecf 	bl	802f4f8 <pbuf_free>
 803575a:	e1d3      	b.n	8035b04 <snmp_recv+0x3d0>

  ofs_base = ofs;
  snmp_asn1_dec_type(p, ofs, &type);
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
  if ((derr != ERR_OK) ||
      (pdu_len != (1 + len_octets + len)) ||
 803575c:	f89d 600e 	ldrb.w	r6, [sp, #14]
 8035760:	f8bd 3012 	ldrh.w	r3, [sp, #18]
 8035764:	1c75      	adds	r5, r6, #1
 8035766:	18eb      	adds	r3, r5, r3
  s32_t version;

  ofs_base = ofs;
  snmp_asn1_dec_type(p, ofs, &type);
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
  if ((derr != ERR_OK) ||
 8035768:	429f      	cmp	r7, r3
 803576a:	f040 80c4 	bne.w	80358f6 <snmp_recv+0x1c2>
      (pdu_len != (1 + len_octets + len)) ||
 803576e:	f89d 300f 	ldrb.w	r3, [sp, #15]
 8035772:	2b30      	cmp	r3, #48	; 0x30
 8035774:	d000      	beq.n	8035778 <snmp_recv+0x44>
 8035776:	e0be      	b.n	80358f6 <snmp_recv+0x1c2>
      (type != (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ)))
  {
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  ofs += (1 + len_octets);
 8035778:	b2ad      	uxth	r5, r5
  snmp_asn1_dec_type(p, ofs, &type);
 803577a:	4629      	mov	r1, r5
 803577c:	f10d 020f 	add.w	r2, sp, #15
 8035780:	4620      	mov	r0, r4
 8035782:	f7fc ffb3 	bl	80326ec <snmp_asn1_dec_type>
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
 8035786:	4620      	mov	r0, r4
 8035788:	1cb1      	adds	r1, r6, #2
 803578a:	f10d 020e 	add.w	r2, sp, #14
 803578e:	f10d 0312 	add.w	r3, sp, #18
 8035792:	f7fc ffc0 	bl	8032716 <snmp_asn1_dec_length>
  if ((derr != ERR_OK) || (type != (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG)))
 8035796:	2800      	cmp	r0, #0
 8035798:	f040 80ad 	bne.w	80358f6 <snmp_recv+0x1c2>
 803579c:	f89d 300f 	ldrb.w	r3, [sp, #15]
 80357a0:	2b02      	cmp	r3, #2
 80357a2:	f040 80a8 	bne.w	80358f6 <snmp_recv+0x1c2>
  {
    /* can't decode or no integer (version) */
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  derr = snmp_asn1_dec_s32t(p, ofs + 1 + len_octets, len, &version);
 80357a6:	f89d 100e 	ldrb.w	r1, [sp, #14]
 80357aa:	f8bd 2012 	ldrh.w	r2, [sp, #18]
 80357ae:	3101      	adds	r1, #1
 80357b0:	4620      	mov	r0, r4
 80357b2:	1869      	adds	r1, r5, r1
 80357b4:	ab05      	add	r3, sp, #20
 80357b6:	f7fd f884 	bl	80328c2 <snmp_asn1_dec_s32t>
  if (derr != ERR_OK)
 80357ba:	2800      	cmp	r0, #0
 80357bc:	f040 809b 	bne.w	80358f6 <snmp_recv+0x1c2>
  {
    /* can't decode */
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  if (version != 0)
 80357c0:	9b05      	ldr	r3, [sp, #20]
 80357c2:	b113      	cbz	r3, 80357ca <snmp_recv+0x96>
  {
    /* not version 1 */
    snmp_inc_snmpinbadversions();
 80357c4:	f7fe fd8a 	bl	80342dc <snmp_inc_snmpinbadversions>
 80357c8:	e7c4      	b.n	8035754 <snmp_recv+0x20>
    return ERR_ARG;
  }
  ofs += (1 + len_octets + len);
 80357ca:	f89d 200e 	ldrb.w	r2, [sp, #14]
 80357ce:	f8bd 3012 	ldrh.w	r3, [sp, #18]
 80357d2:	18d3      	adds	r3, r2, r3
 80357d4:	18ed      	adds	r5, r5, r3
 80357d6:	b2ad      	uxth	r5, r5
 80357d8:	1c6e      	adds	r6, r5, #1
 80357da:	b2b6      	uxth	r6, r6
  snmp_asn1_dec_type(p, ofs, &type);
 80357dc:	4631      	mov	r1, r6
 80357de:	f10d 020f 	add.w	r2, sp, #15
 80357e2:	4620      	mov	r0, r4
 80357e4:	f7fc ff82 	bl	80326ec <snmp_asn1_dec_type>
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
 80357e8:	1ca9      	adds	r1, r5, #2
 80357ea:	4620      	mov	r0, r4
 80357ec:	b289      	uxth	r1, r1
 80357ee:	f10d 020e 	add.w	r2, sp, #14
 80357f2:	f10d 0312 	add.w	r3, sp, #18
 80357f6:	f7fc ff8e 	bl	8032716 <snmp_asn1_dec_length>
  if ((derr != ERR_OK) || (type != (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR)))
 80357fa:	2800      	cmp	r0, #0
 80357fc:	d17b      	bne.n	80358f6 <snmp_recv+0x1c2>
 80357fe:	f89d 300f 	ldrb.w	r3, [sp, #15]
 8035802:	2b04      	cmp	r3, #4
 8035804:	d177      	bne.n	80358f6 <snmp_recv+0x1c2>
  {
    /* can't decode or no octet string (community) */
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  derr = snmp_asn1_dec_raw(p, ofs + 1 + len_octets, len, SNMP_COMMUNITY_STR_LEN, m_stat->community);
 8035806:	f89d 100e 	ldrb.w	r1, [sp, #14]
 803580a:	4d70      	ldr	r5, [pc, #448]	; (80359cc <snmp_recv+0x298>)
 803580c:	f8bd 2012 	ldrh.w	r2, [sp, #18]
 8035810:	9500      	str	r5, [sp, #0]
 8035812:	3101      	adds	r1, #1
 8035814:	1871      	adds	r1, r6, r1
 8035816:	4620      	mov	r0, r4
 8035818:	b289      	uxth	r1, r1
 803581a:	2340      	movs	r3, #64	; 0x40
 803581c:	f7fd f946 	bl	8032aac <snmp_asn1_dec_raw>
  if (derr != ERR_OK)
 8035820:	2800      	cmp	r0, #0
 8035822:	d168      	bne.n	80358f6 <snmp_recv+0x1c2>
  {
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  /* add zero terminator */
  len = ((len < (SNMP_COMMUNITY_STR_LEN))?(len):(SNMP_COMMUNITY_STR_LEN));
 8035824:	f8bd 3012 	ldrh.w	r3, [sp, #18]
  m_stat->community[len] = 0;
 8035828:	f1a5 0218 	sub.w	r2, r5, #24
  {
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  /* add zero terminator */
  len = ((len < (SNMP_COMMUNITY_STR_LEN))?(len):(SNMP_COMMUNITY_STR_LEN));
 803582c:	2b40      	cmp	r3, #64	; 0x40
 803582e:	bf28      	it	cs
 8035830:	2340      	movcs	r3, #64	; 0x40
  m_stat->community[len] = 0;
 8035832:	18d1      	adds	r1, r2, r3
    snmp_inc_snmpinbadcommunitynames();
    snmp_authfail_trap();
    return ERR_ARG;
  }*/
  
  ofs += (1 + len_octets + len);
 8035834:	f89d 200e 	ldrb.w	r2, [sp, #14]
  {
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  /* add zero terminator */
  len = ((len < (SNMP_COMMUNITY_STR_LEN))?(len):(SNMP_COMMUNITY_STR_LEN));
 8035838:	f8ad 3012 	strh.w	r3, [sp, #18]
  m_stat->community[len] = 0;
  m_stat->com_strlen = (u8_t)len;
 803583c:	f885 3041 	strb.w	r3, [r5, #65]	; 0x41
    snmp_inc_snmpinbadcommunitynames();
    snmp_authfail_trap();
    return ERR_ARG;
  }*/
  
  ofs += (1 + len_octets + len);
 8035840:	189b      	adds	r3, r3, r2
 8035842:	18f6      	adds	r6, r6, r3
 8035844:	b2b6      	uxth	r6, r6
 8035846:	f106 0801 	add.w	r8, r6, #1
 803584a:	fa1f f888 	uxth.w	r8, r8
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  /* add zero terminator */
  len = ((len < (SNMP_COMMUNITY_STR_LEN))?(len):(SNMP_COMMUNITY_STR_LEN));
  m_stat->community[len] = 0;
 803584e:	7608      	strb	r0, [r1, #24]
    snmp_authfail_trap();
    return ERR_ARG;
  }*/
  
  ofs += (1 + len_octets + len);
  snmp_asn1_dec_type(p, ofs, &type);
 8035850:	f10d 020f 	add.w	r2, sp, #15
 8035854:	4641      	mov	r1, r8
 8035856:	4620      	mov	r0, r4
 8035858:	f7fc ff48 	bl	80326ec <snmp_asn1_dec_type>
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
 803585c:	1cb1      	adds	r1, r6, #2
 803585e:	4620      	mov	r0, r4
 8035860:	b289      	uxth	r1, r1
 8035862:	f10d 020e 	add.w	r2, sp, #14
 8035866:	f10d 0312 	add.w	r3, sp, #18
 803586a:	f7fc ff54 	bl	8032716 <snmp_asn1_dec_length>
  if (derr != ERR_OK)
 803586e:	2800      	cmp	r0, #0
 8035870:	d141      	bne.n	80358f6 <snmp_recv+0x1c2>
    return ERR_ARG;
  }
  
  /* FIX for write/read communuty */
  /* GetRequest PDU */
  if (type == (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_GET_REQ)) 
 8035872:	f89d 300f 	ldrb.w	r3, [sp, #15]
 8035876:	2ba0      	cmp	r3, #160	; 0xa0
 8035878:	d10f      	bne.n	803589a <snmp_recv+0x166>
  {	
  	if (strncmp(sSettings.sSnmp.readCommunity, (const char*)m_stat->community, strlen(sSettings.sSnmp.readCommunity)) != 0
 803587a:	4855      	ldr	r0, [pc, #340]	; (80359d0 <snmp_recv+0x29c>)
 803587c:	f7ec fc68 	bl	8022150 <strlen>
 8035880:	4629      	mov	r1, r5
 8035882:	4602      	mov	r2, r0
 8035884:	4852      	ldr	r0, [pc, #328]	; (80359d0 <snmp_recv+0x29c>)
 8035886:	f7ec fcc5 	bl	8022214 <strncmp>
 803588a:	b120      	cbz	r0, 8035896 <snmp_recv+0x162>
		|| (strlen(sSettings.sSnmp.readCommunity) != strlen((const char*)m_stat->community)) )
    {
      snmp_inc_snmpinbadcommunitynames();
 803588c:	f7fe fd2e 	bl	80342ec <snmp_inc_snmpinbadcommunitynames>
      snmp_authfail_trap();
 8035890:	f000 fd82 	bl	8036398 <snmp_authfail_trap>
 8035894:	e75e      	b.n	8035754 <snmp_recv+0x20>
  /* FIX for write/read communuty */
  /* GetRequest PDU */
  if (type == (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_GET_REQ)) 
  {	
  	if (strncmp(sSettings.sSnmp.readCommunity, (const char*)m_stat->community, strlen(sSettings.sSnmp.readCommunity)) != 0
		|| (strlen(sSettings.sSnmp.readCommunity) != strlen((const char*)m_stat->community)) )
 8035896:	484e      	ldr	r0, [pc, #312]	; (80359d0 <snmp_recv+0x29c>)
 8035898:	e00c      	b.n	80358b4 <snmp_recv+0x180>
      snmp_authfail_trap();
      return ERR_ARG;
    }
  }	
  /* SetRequest PDU */
  else if (type == (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_SET_REQ)) 	
 803589a:	2ba3      	cmp	r3, #163	; 0xa3
 803589c:	d112      	bne.n	80358c4 <snmp_recv+0x190>
  {
    if (strncmp(sSettings.sSnmp.writeCommunity, (const char*)m_stat->community, strlen(sSettings.sSnmp.writeCommunity)) != 0
 803589e:	484d      	ldr	r0, [pc, #308]	; (80359d4 <snmp_recv+0x2a0>)
 80358a0:	f7ec fc56 	bl	8022150 <strlen>
 80358a4:	4629      	mov	r1, r5
 80358a6:	4602      	mov	r2, r0
 80358a8:	484a      	ldr	r0, [pc, #296]	; (80359d4 <snmp_recv+0x2a0>)
 80358aa:	f7ec fcb3 	bl	8022214 <strncmp>
 80358ae:	2800      	cmp	r0, #0
 80358b0:	d1ec      	bne.n	803588c <snmp_recv+0x158>
		|| (strlen(sSettings.sSnmp.writeCommunity) != strlen((const char*)m_stat->community)) )
 80358b2:	4848      	ldr	r0, [pc, #288]	; (80359d4 <snmp_recv+0x2a0>)
 80358b4:	f7ec fc4c 	bl	8022150 <strlen>
 80358b8:	4606      	mov	r6, r0
 80358ba:	4628      	mov	r0, r5
 80358bc:	f7ec fc48 	bl	8022150 <strlen>
 80358c0:	4286      	cmp	r6, r0
 80358c2:	d1e3      	bne.n	803588c <snmp_recv+0x158>
      snmp_authfail_trap();
      return ERR_ARG;
    }
  }	
  
  switch(type)
 80358c4:	f89d 300f 	ldrb.w	r3, [sp, #15]
 80358c8:	3ba0      	subs	r3, #160	; 0xa0
 80358ca:	2b04      	cmp	r3, #4
 80358cc:	d813      	bhi.n	80358f6 <snmp_recv+0x1c2>
 80358ce:	e8df f003 	tbb	[pc, r3]
 80358d2:	0603      	.short	0x0603
 80358d4:	0c09      	.short	0x0c09
 80358d6:	0f          	.byte	0x0f
 80358d7:	00          	.byte	0x00
  {
    case (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_GET_REQ):
      // GetRequest PDU 
      snmp_inc_snmpingetrequests();
 80358d8:	f7fe fd50 	bl	803437c <snmp_inc_snmpingetrequests>
 80358dc:	e0fd      	b.n	8035ada <snmp_recv+0x3a6>
      derr = ERR_OK;
      break;

    case (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_GET_NEXT_REQ):
      // GetNextRequest PDU 
      snmp_inc_snmpingetnexts();
 80358de:	f7fe fd55 	bl	803438c <snmp_inc_snmpingetnexts>
 80358e2:	e0fa      	b.n	8035ada <snmp_recv+0x3a6>
      derr = ERR_OK;
      break;

    case (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_GET_RESP):
      // GetResponse PDU 
      snmp_inc_snmpingetresponses();
 80358e4:	f7fe fd62 	bl	80343ac <snmp_inc_snmpingetresponses>
 80358e8:	e734      	b.n	8035754 <snmp_recv+0x20>
      derr = ERR_ARG;
      break;
    case (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_SET_REQ):
      // SetRequest PDU 
      snmp_inc_snmpinsetrequests();
 80358ea:	f7fe fd57 	bl	803439c <snmp_inc_snmpinsetrequests>
 80358ee:	e0f4      	b.n	8035ada <snmp_recv+0x3a6>
      derr = ERR_OK;
      break;
    case (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_TRAP):
      // Trap PDU 
      snmp_inc_snmpintraps();
 80358f0:	f7fe fd64 	bl	80343bc <snmp_inc_snmpintraps>
 80358f4:	e72e      	b.n	8035754 <snmp_recv+0x20>
      derr = ERR_ARG;
      break;
    default:
      snmp_inc_snmpinasnparseerrs();
 80358f6:	f7fe fd01 	bl	80342fc <snmp_inc_snmpinasnparseerrs>
 80358fa:	e72b      	b.n	8035754 <snmp_recv+0x20>
  {
    /* decoded PDU length does not equal actual payload length */
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  snmp_asn1_dec_type(p, ofs, &type);
 80358fc:	4631      	mov	r1, r6
 80358fe:	f10d 020f 	add.w	r2, sp, #15
 8035902:	4620      	mov	r0, r4
 8035904:	f7fc fef2 	bl	80326ec <snmp_asn1_dec_type>
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
 8035908:	f108 0102 	add.w	r1, r8, #2
 803590c:	4620      	mov	r0, r4
 803590e:	b289      	uxth	r1, r1
 8035910:	f10d 020e 	add.w	r2, sp, #14
 8035914:	f10d 0312 	add.w	r3, sp, #18
 8035918:	f7fc fefd 	bl	8032716 <snmp_asn1_dec_length>
  if ((derr != ERR_OK) || (type != (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG)))
 803591c:	2800      	cmp	r0, #0
 803591e:	d1ea      	bne.n	80358f6 <snmp_recv+0x1c2>
 8035920:	f89d 300f 	ldrb.w	r3, [sp, #15]
 8035924:	2b02      	cmp	r3, #2
 8035926:	d1e6      	bne.n	80358f6 <snmp_recv+0x1c2>
  {
    /* can't decode or no integer (request ID) */
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  derr = snmp_asn1_dec_s32t(p, ofs + 1 + len_octets, len, &m_stat->rid);
 8035928:	f89d 100e 	ldrb.w	r1, [sp, #14]
 803592c:	f8bd 2012 	ldrh.w	r2, [sp, #18]
 8035930:	3101      	adds	r1, #1
 8035932:	1871      	adds	r1, r6, r1
 8035934:	4620      	mov	r0, r4
 8035936:	b289      	uxth	r1, r1
 8035938:	f105 030c 	add.w	r3, r5, #12
 803593c:	f7fc ffc1 	bl	80328c2 <snmp_asn1_dec_s32t>
  if (derr != ERR_OK)
 8035940:	2800      	cmp	r0, #0
 8035942:	d1d8      	bne.n	80358f6 <snmp_recv+0x1c2>
  {
    /* can't decode */
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  ofs += (1 + len_octets + len);
 8035944:	f89d 200e 	ldrb.w	r2, [sp, #14]
 8035948:	f8bd 3012 	ldrh.w	r3, [sp, #18]
 803594c:	18d3      	adds	r3, r2, r3
 803594e:	18f6      	adds	r6, r6, r3
 8035950:	b2b6      	uxth	r6, r6
 8035952:	1c77      	adds	r7, r6, #1
 8035954:	b2bf      	uxth	r7, r7
  snmp_asn1_dec_type(p, ofs, &type);
 8035956:	4639      	mov	r1, r7
 8035958:	f10d 020f 	add.w	r2, sp, #15
 803595c:	4620      	mov	r0, r4
 803595e:	f7fc fec5 	bl	80326ec <snmp_asn1_dec_type>
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
 8035962:	1cb1      	adds	r1, r6, #2
 8035964:	4620      	mov	r0, r4
 8035966:	b289      	uxth	r1, r1
 8035968:	f10d 020e 	add.w	r2, sp, #14
 803596c:	f10d 0312 	add.w	r3, sp, #18
 8035970:	f7fc fed1 	bl	8032716 <snmp_asn1_dec_length>
  if ((derr != ERR_OK) || (type != (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG)))
 8035974:	2800      	cmp	r0, #0
 8035976:	d1be      	bne.n	80358f6 <snmp_recv+0x1c2>
 8035978:	f89d 300f 	ldrb.w	r3, [sp, #15]
 803597c:	2b02      	cmp	r3, #2
 803597e:	d1ba      	bne.n	80358f6 <snmp_recv+0x1c2>
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  /* must be noError (0) for incoming requests.
     log errors for mib-2 completeness and for debug purposes */
  derr = snmp_asn1_dec_s32t(p, ofs + 1 + len_octets, len, &m_stat->error_status);
 8035980:	f89d 100e 	ldrb.w	r1, [sp, #14]
 8035984:	f8bd 2012 	ldrh.w	r2, [sp, #18]
 8035988:	3101      	adds	r1, #1
 803598a:	1879      	adds	r1, r7, r1
 803598c:	4620      	mov	r0, r4
 803598e:	b289      	uxth	r1, r1
 8035990:	f105 0310 	add.w	r3, r5, #16
 8035994:	f7fc ff95 	bl	80328c2 <snmp_asn1_dec_s32t>
  if (derr != ERR_OK)
 8035998:	2800      	cmp	r0, #0
 803599a:	d1ac      	bne.n	80358f6 <snmp_recv+0x1c2>
  {
    /* can't decode */
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  switch (m_stat->error_status)
 803599c:	692b      	ldr	r3, [r5, #16]
 803599e:	3b01      	subs	r3, #1
 80359a0:	2b04      	cmp	r3, #4
 80359a2:	d81b      	bhi.n	80359dc <snmp_recv+0x2a8>
 80359a4:	e8df f003 	tbb	[pc, r3]
 80359a8:	0c090603 	.word	0x0c090603
 80359ac:	18          	.byte	0x18
 80359ad:	00          	.byte	0x00
  {
    case SNMP_ES_TOOBIG:
      snmp_inc_snmpintoobigs();
 80359ae:	f7fe fcad 	bl	803430c <snmp_inc_snmpintoobigs>
 80359b2:	e013      	b.n	80359dc <snmp_recv+0x2a8>
      break;
    case SNMP_ES_NOSUCHNAME:
      snmp_inc_snmpinnosuchnames();
 80359b4:	f7fe fcb2 	bl	803431c <snmp_inc_snmpinnosuchnames>
 80359b8:	e010      	b.n	80359dc <snmp_recv+0x2a8>
      break;
    case SNMP_ES_BADVALUE:
      snmp_inc_snmpinbadvalues();
 80359ba:	f7fe fcb7 	bl	803432c <snmp_inc_snmpinbadvalues>
 80359be:	e00d      	b.n	80359dc <snmp_recv+0x2a8>
      break;
    case SNMP_ES_READONLY:
      snmp_inc_snmpinreadonlys();
 80359c0:	f7fe fcbc 	bl	803433c <snmp_inc_snmpinreadonlys>
 80359c4:	e00a      	b.n	80359dc <snmp_recv+0x2a8>
 80359c6:	bf00      	nop
 80359c8:	2000f6e0 	.word	0x2000f6e0
 80359cc:	2000f6f8 	.word	0x2000f6f8
 80359d0:	2000cd71 	.word	0x2000cd71
 80359d4:	2000cd85 	.word	0x2000cd85
      break;
    case SNMP_ES_GENERROR:
      snmp_inc_snmpingenerrs();
 80359d8:	f7fe fcb8 	bl	803434c <snmp_inc_snmpingenerrs>
      break;
  }
  ofs += (1 + len_octets + len);
 80359dc:	f89d 200e 	ldrb.w	r2, [sp, #14]
 80359e0:	f8bd 3012 	ldrh.w	r3, [sp, #18]
 80359e4:	18d3      	adds	r3, r2, r3
 80359e6:	18ff      	adds	r7, r7, r3
 80359e8:	b2bf      	uxth	r7, r7
 80359ea:	1c7d      	adds	r5, r7, #1
 80359ec:	b2ad      	uxth	r5, r5
  snmp_asn1_dec_type(p, ofs, &type);
 80359ee:	4629      	mov	r1, r5
 80359f0:	f10d 020f 	add.w	r2, sp, #15
 80359f4:	4620      	mov	r0, r4
 80359f6:	f7fc fe79 	bl	80326ec <snmp_asn1_dec_type>
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
 80359fa:	1cb9      	adds	r1, r7, #2
 80359fc:	4620      	mov	r0, r4
 80359fe:	b289      	uxth	r1, r1
 8035a00:	f10d 020e 	add.w	r2, sp, #14
 8035a04:	f10d 0312 	add.w	r3, sp, #18
 8035a08:	f7fc fe85 	bl	8032716 <snmp_asn1_dec_length>
  if ((derr != ERR_OK) || (type != (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG)))
 8035a0c:	2800      	cmp	r0, #0
 8035a0e:	f47f af72 	bne.w	80358f6 <snmp_recv+0x1c2>
 8035a12:	f89d 300f 	ldrb.w	r3, [sp, #15]
 8035a16:	2b02      	cmp	r3, #2
 8035a18:	f47f af6d 	bne.w	80358f6 <snmp_recv+0x1c2>
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  /* must be 0 for incoming requests.
     decode anyway to catch bad integers (and dirty tricks) */
  derr = snmp_asn1_dec_s32t(p, ofs + 1 + len_octets, len, &m_stat->error_index);
 8035a1c:	f89d 100e 	ldrb.w	r1, [sp, #14]
 8035a20:	f8bd 2012 	ldrh.w	r2, [sp, #18]
 8035a24:	4b39      	ldr	r3, [pc, #228]	; (8035b0c <snmp_recv+0x3d8>)
 8035a26:	3101      	adds	r1, #1
 8035a28:	1869      	adds	r1, r5, r1
 8035a2a:	4620      	mov	r0, r4
 8035a2c:	b289      	uxth	r1, r1
 8035a2e:	f7fc ff48 	bl	80328c2 <snmp_asn1_dec_s32t>
  if (derr != ERR_OK)
 8035a32:	2800      	cmp	r0, #0
 8035a34:	f47f af5f 	bne.w	80358f6 <snmp_recv+0x1c2>
  {
    /* can't decode */
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  ofs += (1 + len_octets + len);
 8035a38:	f8bd 3012 	ldrh.w	r3, [sp, #18]
 8035a3c:	f89d 200e 	ldrb.w	r2, [sp, #14]
 8035a40:	3301      	adds	r3, #1
 8035a42:	189b      	adds	r3, r3, r2
  /* check total length, version, community, pdu type */
  err_ret = snmp_pdu_header_check(p, payload_ofs, payload_len, &varbind_ofs, msg_ps);
  /* Only accept requests and requests without error (be robust) */
  /* Reject response and trap headers or error requests as input! */
  if ((err_ret != ERR_OK) ||
      ((msg_ps->rt != SNMP_ASN1_PDU_GET_REQ) &&
 8035a44:	4a32      	ldr	r2, [pc, #200]	; (8035b10 <snmp_recv+0x3dc>)
  {
    /* can't decode */
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  ofs += (1 + len_octets + len);
 8035a46:	18ed      	adds	r5, r5, r3
  /* check total length, version, community, pdu type */
  err_ret = snmp_pdu_header_check(p, payload_ofs, payload_len, &varbind_ofs, msg_ps);
  /* Only accept requests and requests without error (be robust) */
  /* Reject response and trap headers or error requests as input! */
  if ((err_ret != ERR_OK) ||
      ((msg_ps->rt != SNMP_ASN1_PDU_GET_REQ) &&
 8035a48:	7a93      	ldrb	r3, [r2, #10]
    /* can't decode */
    snmp_inc_snmpinasnparseerrs();
    return ERR_ARG;
  }
  ofs += (1 + len_octets + len);
  *ofs_ret = ofs;
 8035a4a:	f8ad 5010 	strh.w	r5, [sp, #16]

  /* check total length, version, community, pdu type */
  err_ret = snmp_pdu_header_check(p, payload_ofs, payload_len, &varbind_ofs, msg_ps);
  /* Only accept requests and requests without error (be robust) */
  /* Reject response and trap headers or error requests as input! */
  if ((err_ret != ERR_OK) ||
 8035a4e:	2b01      	cmp	r3, #1
 8035a50:	d902      	bls.n	8035a58 <snmp_recv+0x324>
      ((msg_ps->rt != SNMP_ASN1_PDU_GET_REQ) &&
       (msg_ps->rt != SNMP_ASN1_PDU_GET_NEXT_REQ) &&
 8035a52:	2b03      	cmp	r3, #3
 8035a54:	f47f ae7e 	bne.w	8035754 <snmp_recv+0x20>
       (msg_ps->rt != SNMP_ASN1_PDU_SET_REQ)) ||
 8035a58:	6913      	ldr	r3, [r2, #16]
      ((msg_ps->error_status != SNMP_ES_NOERROR) ||
 8035a5a:	4d2d      	ldr	r5, [pc, #180]	; (8035b10 <snmp_recv+0x3dc>)
  /* Only accept requests and requests without error (be robust) */
  /* Reject response and trap headers or error requests as input! */
  if ((err_ret != ERR_OK) ||
      ((msg_ps->rt != SNMP_ASN1_PDU_GET_REQ) &&
       (msg_ps->rt != SNMP_ASN1_PDU_GET_NEXT_REQ) &&
       (msg_ps->rt != SNMP_ASN1_PDU_SET_REQ)) ||
 8035a5c:	2b00      	cmp	r3, #0
 8035a5e:	f47f ae79 	bne.w	8035754 <snmp_recv+0x20>
      ((msg_ps->error_status != SNMP_ES_NOERROR) ||
 8035a62:	696b      	ldr	r3, [r5, #20]
 8035a64:	2b00      	cmp	r3, #0
 8035a66:	f47f ae75 	bne.w	8035754 <snmp_recv+0x20>
  }
  LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_recv ok, community %s\n", msg_ps->community));

  /* Builds a list of variable bindings. Copy the varbinds from the pbuf
    chain to glue them when these are divided over two or more pbuf's. */
  err_ret = snmp_pdu_dec_varbindlist(p, varbind_ofs, &varbind_ofs, msg_ps);
 8035a6a:	aa06      	add	r2, sp, #24
 8035a6c:	4620      	mov	r0, r4
 8035a6e:	f832 1d08 	ldrh.w	r1, [r2, #-8]!
 8035a72:	462b      	mov	r3, r5
 8035a74:	f7ff fd04 	bl	8035480 <snmp_pdu_dec_varbindlist>
 8035a78:	4606      	mov	r6, r0
  /* we've decoded the incoming message, release input msg now */
  pbuf_free(p);
 8035a7a:	4620      	mov	r0, r4
 8035a7c:	f7f9 fd3c 	bl	802f4f8 <pbuf_free>
  if ((err_ret != ERR_OK) || (msg_ps->invb.count == 0))
 8035a80:	2e00      	cmp	r6, #0
 8035a82:	d13f      	bne.n	8035b04 <snmp_recv+0x3d0>
 8035a84:	f895 3108 	ldrb.w	r3, [r5, #264]	; 0x108
 8035a88:	2b00      	cmp	r3, #0
 8035a8a:	d03b      	beq.n	8035b04 <snmp_recv+0x3d0>
  }

  msg_ps->error_status = SNMP_ES_NOERROR;
  msg_ps->error_index = 0;
  /* find object for each variable binding */
  msg_ps->state = SNMP_MSG_SEARCH_OBJ;
 8035a8c:	2301      	movs	r3, #1
       (errors are only returned for a specific varbind failure) */
    LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_pdu_dec_varbindlist() failed\n"));
    return;
  }

  msg_ps->error_status = SNMP_ES_NOERROR;
 8035a8e:	612e      	str	r6, [r5, #16]
  msg_ps->error_index = 0;
 8035a90:	616e      	str	r6, [r5, #20]
  /* find object for each variable binding */
  msg_ps->state = SNMP_MSG_SEARCH_OBJ;
 8035a92:	f885 305a 	strb.w	r3, [r5, #90]	; 0x5a
  /* first variable binding from list to inspect */
  msg_ps->vb_idx = 0;
 8035a96:	f885 60f8 	strb.w	r6, [r5, #248]	; 0xf8

  LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_recv varbind cnt=%"U16_F"\n",(u16_t)msg_ps->invb.count));

  /* handle input event and as much objects as possible in one go */
  snmp_msg_event(req_idx);
 8035a9a:	4630      	mov	r0, r6
 8035a9c:	f7ff f950 	bl	8034d40 <snmp_msg_event>
 8035aa0:	e030      	b.n	8035b04 <snmp_recv+0x3d0>
    pbuf_free(p);
    return;
  }

  /* accepting request */
  snmp_inc_snmpinpkts();
 8035aa2:	f7fe fc0b 	bl	80342bc <snmp_inc_snmpinpkts>
  /* record used 'protocol control block' */
  msg_ps->pcb = pcb;
  /* source address (network order) */
  msg_ps->sip = *addr;
 8035aa6:	f8d9 3000 	ldr.w	r3, [r9]
  }

  /* accepting request */
  snmp_inc_snmpinpkts();
  /* record used 'protocol control block' */
  msg_ps->pcb = pcb;
 8035aaa:	f8c5 8000 	str.w	r8, [r5]
  /* source address (network order) */
  msg_ps->sip = *addr;
 8035aae:	606b      	str	r3, [r5, #4]
  /* source port (host order (lwIP oddity)) */
  msg_ps->sp = port;
 8035ab0:	f8bd 3038 	ldrh.w	r3, [sp, #56]	; 0x38
  u8_t  len_octets;
  u8_t  type;
  s32_t version;

  ofs_base = ofs;
  snmp_asn1_dec_type(p, ofs, &type);
 8035ab4:	4631      	mov	r1, r6
  /* record used 'protocol control block' */
  msg_ps->pcb = pcb;
  /* source address (network order) */
  msg_ps->sip = *addr;
  /* source port (host order (lwIP oddity)) */
  msg_ps->sp = port;
 8035ab6:	812b      	strh	r3, [r5, #8]
  u8_t  len_octets;
  u8_t  type;
  s32_t version;

  ofs_base = ofs;
  snmp_asn1_dec_type(p, ofs, &type);
 8035ab8:	f10d 020f 	add.w	r2, sp, #15
 8035abc:	4620      	mov	r0, r4
 8035abe:	f7fc fe15 	bl	80326ec <snmp_asn1_dec_type>
  derr = snmp_asn1_dec_length(p, ofs+1, &len_octets, &len);
 8035ac2:	4620      	mov	r0, r4
 8035ac4:	2101      	movs	r1, #1
 8035ac6:	f10d 020e 	add.w	r2, sp, #14
 8035aca:	f10d 0312 	add.w	r3, sp, #18
 8035ace:	f7fc fe22 	bl	8032716 <snmp_asn1_dec_length>
  if ((derr != ERR_OK) ||
 8035ad2:	2800      	cmp	r0, #0
 8035ad4:	f43f ae42 	beq.w	803575c <snmp_recv+0x28>
 8035ad8:	e70d      	b.n	80358f6 <snmp_recv+0x1c2>
  if (derr != ERR_OK)
  {
    /* unsupported input PDU for this agent (no parse error) */
    return ERR_ARG;
  }
  m_stat->rt = type & 0x1F;
 8035ada:	f89d 300f 	ldrb.w	r3, [sp, #15]
 8035ade:	4d0c      	ldr	r5, [pc, #48]	; (8035b10 <snmp_recv+0x3dc>)
 8035ae0:	f003 031f 	and.w	r3, r3, #31
 8035ae4:	72ab      	strb	r3, [r5, #10]
  ofs += (1 + len_octets);
 8035ae6:	f89d 300e 	ldrb.w	r3, [sp, #14]
 8035aea:	4498      	add	r8, r3
 8035aec:	fa1f f888 	uxth.w	r8, r8
 8035af0:	f108 0601 	add.w	r6, r8, #1
 8035af4:	b2b6      	uxth	r6, r6
  if (len != (pdu_len - (ofs - ofs_base)))
 8035af6:	f8bd 3012 	ldrh.w	r3, [sp, #18]
 8035afa:	1bbf      	subs	r7, r7, r6
 8035afc:	42bb      	cmp	r3, r7
 8035afe:	f43f aefd 	beq.w	80358fc <snmp_recv+0x1c8>
 8035b02:	e6f8      	b.n	80358f6 <snmp_recv+0x1c2>

  LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_recv varbind cnt=%"U16_F"\n",(u16_t)msg_ps->invb.count));

  /* handle input event and as much objects as possible in one go */
  snmp_msg_event(req_idx);
}
 8035b04:	b007      	add	sp, #28
 8035b06:	e8bd 83f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, pc}
 8035b0a:	bf00      	nop
 8035b0c:	2000f6f4 	.word	0x2000f6f4
 8035b10:	2000f6e0 	.word	0x2000f6e0

08035b14 <snmp_varbind_list_sum>:
 * @param root points to the root of the variable binding list
 * @return the required lenght for encoding the variable bindings
 */
static u16_t
snmp_varbind_list_sum(struct snmp_varbind_root *root)
{
 8035b14:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  struct snmp_varbind *vb;
  u32_t *uint_ptr;
  s32_t *sint_ptr;
  u16_t tot_len;

  tot_len = 0;
 8035b16:	2500      	movs	r5, #0
 * @param root points to the root of the variable binding list
 * @return the required lenght for encoding the variable bindings
 */
static u16_t
snmp_varbind_list_sum(struct snmp_varbind_root *root)
{
 8035b18:	4606      	mov	r6, r0
  u32_t *uint_ptr;
  s32_t *sint_ptr;
  u16_t tot_len;

  tot_len = 0;
  vb = root->tail;
 8035b1a:	6844      	ldr	r4, [r0, #4]
        sint_ptr = (s32_t*)vb->value;
        snmp_asn1_enc_oid_cnt(vb->value_len / sizeof(s32_t), sint_ptr, &vb->vlen);
        break;
      default:
        /* unsupported type */
        vb->vlen = 0;
 8035b1c:	462f      	mov	r7, r5
  s32_t *sint_ptr;
  u16_t tot_len;

  tot_len = 0;
  vb = root->tail;
  while ( vb != NULL )
 8035b1e:	e051      	b.n	8035bc4 <snmp_varbind_list_sum+0xb0>
  {
    /* encoded value lenght depends on type */
    switch (vb->value_type)
 8035b20:	7c23      	ldrb	r3, [r4, #16]
 8035b22:	2b06      	cmp	r3, #6
 8035b24:	d020      	beq.n	8035b68 <snmp_varbind_list_sum+0x54>
 8035b26:	d805      	bhi.n	8035b34 <snmp_varbind_list_sum+0x20>
 8035b28:	2b02      	cmp	r3, #2
 8035b2a:	d00c      	beq.n	8035b46 <snmp_varbind_list_sum+0x32>
 8035b2c:	d324      	bcc.n	8035b78 <snmp_varbind_list_sum+0x64>
 8035b2e:	2b04      	cmp	r3, #4
 8035b30:	d322      	bcc.n	8035b78 <snmp_varbind_list_sum+0x64>
 8035b32:	e016      	b.n	8035b62 <snmp_varbind_list_sum+0x4e>
 8035b34:	2b43      	cmp	r3, #67	; 0x43
 8035b36:	d803      	bhi.n	8035b40 <snmp_varbind_list_sum+0x2c>
 8035b38:	2b41      	cmp	r3, #65	; 0x41
 8035b3a:	d20b      	bcs.n	8035b54 <snmp_varbind_list_sum+0x40>
 8035b3c:	2b40      	cmp	r3, #64	; 0x40
 8035b3e:	e000      	b.n	8035b42 <snmp_varbind_list_sum+0x2e>
 8035b40:	2b44      	cmp	r3, #68	; 0x44
 8035b42:	d119      	bne.n	8035b78 <snmp_varbind_list_sum+0x64>
 8035b44:	e00d      	b.n	8035b62 <snmp_varbind_list_sum+0x4e>
    {
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG):
        sint_ptr = (s32_t*)vb->value;
        snmp_asn1_enc_s32t_cnt(*sint_ptr, &vb->vlen);
 8035b46:	6963      	ldr	r3, [r4, #20]
 8035b48:	f104 0120 	add.w	r1, r4, #32
 8035b4c:	6818      	ldr	r0, [r3, #0]
 8035b4e:	f7fd f804 	bl	8032b5a <snmp_asn1_enc_s32t_cnt>
        break;
 8035b52:	e012      	b.n	8035b7a <snmp_varbind_list_sum+0x66>
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_GAUGE):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_TIMETICKS):
        uint_ptr = (u32_t*)vb->value;
        snmp_asn1_enc_u32t_cnt(*uint_ptr, &vb->vlen);
 8035b54:	6963      	ldr	r3, [r4, #20]
 8035b56:	f104 0120 	add.w	r1, r4, #32
 8035b5a:	6818      	ldr	r0, [r3, #0]
 8035b5c:	f7fc ffe8 	bl	8032b30 <snmp_asn1_enc_u32t_cnt>
        break;
 8035b60:	e00b      	b.n	8035b7a <snmp_varbind_list_sum+0x66>
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR):
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_NUL):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_OPAQUE):
        vb->vlen = vb->value_len;
 8035b62:	7c63      	ldrb	r3, [r4, #17]
 8035b64:	8423      	strh	r3, [r4, #32]
        break;
 8035b66:	e008      	b.n	8035b7a <snmp_varbind_list_sum+0x66>
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID):
        sint_ptr = (s32_t*)vb->value;
        snmp_asn1_enc_oid_cnt(vb->value_len / sizeof(s32_t), sint_ptr, &vb->vlen);
 8035b68:	7c60      	ldrb	r0, [r4, #17]
 8035b6a:	6961      	ldr	r1, [r4, #20]
 8035b6c:	0880      	lsrs	r0, r0, #2
 8035b6e:	f104 0220 	add.w	r2, r4, #32
 8035b72:	f7fd f807 	bl	8032b84 <snmp_asn1_enc_oid_cnt>
        break;
 8035b76:	e000      	b.n	8035b7a <snmp_varbind_list_sum+0x66>
      default:
        /* unsupported type */
        vb->vlen = 0;
 8035b78:	8427      	strh	r7, [r4, #32]
        break;
    };
    /* encoding length of value length field */
    snmp_asn1_enc_length_cnt(vb->vlen, &vb->vlenlen);
 8035b7a:	8c20      	ldrh	r0, [r4, #32]
 8035b7c:	f104 011a 	add.w	r1, r4, #26
 8035b80:	f7fc ffcb 	bl	8032b1a <snmp_asn1_enc_length_cnt>
    snmp_asn1_enc_oid_cnt(vb->ident_len, vb->ident, &vb->olen);
 8035b84:	f104 021e 	add.w	r2, r4, #30
 8035b88:	7a20      	ldrb	r0, [r4, #8]
 8035b8a:	68e1      	ldr	r1, [r4, #12]
 8035b8c:	f7fc fffa 	bl	8032b84 <snmp_asn1_enc_oid_cnt>
    snmp_asn1_enc_length_cnt(vb->olen, &vb->olenlen);
 8035b90:	8be0      	ldrh	r0, [r4, #30]
 8035b92:	f104 0119 	add.w	r1, r4, #25
 8035b96:	f7fc ffc0 	bl	8032b1a <snmp_asn1_enc_length_cnt>

    vb->seqlen = 1 + vb->vlenlen + vb->vlen;
 8035b9a:	8be3      	ldrh	r3, [r4, #30]
 8035b9c:	8c20      	ldrh	r0, [r4, #32]
 8035b9e:	18c0      	adds	r0, r0, r3
 8035ba0:	7ea3      	ldrb	r3, [r4, #26]
    vb->seqlen += 1 + vb->olenlen + vb->olen;
 8035ba2:	3002      	adds	r0, #2
 8035ba4:	18c0      	adds	r0, r0, r3
 8035ba6:	7e63      	ldrb	r3, [r4, #25]
 8035ba8:	18c0      	adds	r0, r0, r3
 8035baa:	b280      	uxth	r0, r0
 8035bac:	83a0      	strh	r0, [r4, #28]
    snmp_asn1_enc_length_cnt(vb->seqlen, &vb->seqlenlen);
 8035bae:	f104 0118 	add.w	r1, r4, #24
 8035bb2:	f7fc ffb2 	bl	8032b1a <snmp_asn1_enc_length_cnt>

    /* varbind seq */
    tot_len += 1 + vb->seqlenlen + vb->seqlen;
 8035bb6:	8ba3      	ldrh	r3, [r4, #28]
 8035bb8:	7e22      	ldrb	r2, [r4, #24]

    vb = vb->prev;
 8035bba:	6864      	ldr	r4, [r4, #4]
    vb->seqlen = 1 + vb->vlenlen + vb->vlen;
    vb->seqlen += 1 + vb->olenlen + vb->olen;
    snmp_asn1_enc_length_cnt(vb->seqlen, &vb->seqlenlen);

    /* varbind seq */
    tot_len += 1 + vb->seqlenlen + vb->seqlen;
 8035bbc:	3301      	adds	r3, #1
 8035bbe:	189b      	adds	r3, r3, r2
 8035bc0:	18ed      	adds	r5, r5, r3
 8035bc2:	b2ad      	uxth	r5, r5
  s32_t *sint_ptr;
  u16_t tot_len;

  tot_len = 0;
  vb = root->tail;
  while ( vb != NULL )
 8035bc4:	2c00      	cmp	r4, #0
 8035bc6:	d1ab      	bne.n	8035b20 <snmp_varbind_list_sum+0xc>
    vb = vb->prev;
  }

  /* varbind-list seq */
  root->seqlen = tot_len;
  snmp_asn1_enc_length_cnt(root->seqlen, &root->seqlenlen);
 8035bc8:	4628      	mov	r0, r5

    vb = vb->prev;
  }

  /* varbind-list seq */
  root->seqlen = tot_len;
 8035bca:	8175      	strh	r5, [r6, #10]
  snmp_asn1_enc_length_cnt(root->seqlen, &root->seqlenlen);
 8035bcc:	f106 0109 	add.w	r1, r6, #9
 8035bd0:	f7fc ffa3 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + root->seqlenlen;
 8035bd4:	7a73      	ldrb	r3, [r6, #9]
 8035bd6:	3301      	adds	r3, #1
 8035bd8:	18e8      	adds	r0, r5, r3

  return tot_len;
}
 8035bda:	b280      	uxth	r0, r0
 8035bdc:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 8035bde:	0000      	movs	r0, r0

08035be0 <snmp_resp_header_sum>:
 * @param rhl points to returned header lengths
 * @return the required lenght for encoding the response header
 */
static u16_t
snmp_resp_header_sum(struct snmp_msg_pstat *m_stat, u16_t vb_len)
{
 8035be0:	e92d 47f0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, lr}
 8035be4:	4604      	mov	r4, r0
  u16_t tot_len;
  struct snmp_resp_header_lengths *rhl;

  rhl = &m_stat->rhl;
  tot_len = vb_len;
  snmp_asn1_enc_s32t_cnt(m_stat->error_index, &rhl->erridxlen);
 8035be6:	f500 758c 	add.w	r5, r0, #280	; 0x118
 * @param rhl points to returned header lengths
 * @return the required lenght for encoding the response header
 */
static u16_t
snmp_resp_header_sum(struct snmp_msg_pstat *m_stat, u16_t vb_len)
{
 8035bea:	460f      	mov	r7, r1
  u16_t tot_len;
  struct snmp_resp_header_lengths *rhl;

  rhl = &m_stat->rhl;
  tot_len = vb_len;
  snmp_asn1_enc_s32t_cnt(m_stat->error_index, &rhl->erridxlen);
 8035bec:	6940      	ldr	r0, [r0, #20]
 8035bee:	f504 7190 	add.w	r1, r4, #288	; 0x120
 8035bf2:	f7fc ffb2 	bl	8032b5a <snmp_asn1_enc_s32t_cnt>
  snmp_asn1_enc_length_cnt(rhl->erridxlen, &rhl->erridxlenlen);
 8035bf6:	f8b4 0120 	ldrh.w	r0, [r4, #288]	; 0x120
 8035bfa:	4629      	mov	r1, r5
 8035bfc:	f7fc ff8d 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + rhl->erridxlenlen + rhl->erridxlen;

  snmp_asn1_enc_s32t_cnt(m_stat->error_status, &rhl->errstatlen);
 8035c00:	6920      	ldr	r0, [r4, #16]

  rhl = &m_stat->rhl;
  tot_len = vb_len;
  snmp_asn1_enc_s32t_cnt(m_stat->error_index, &rhl->erridxlen);
  snmp_asn1_enc_length_cnt(rhl->erridxlen, &rhl->erridxlenlen);
  tot_len += 1 + rhl->erridxlenlen + rhl->erridxlen;
 8035c02:	f894 8118 	ldrb.w	r8, [r4, #280]	; 0x118
 8035c06:	f8b4 a120 	ldrh.w	sl, [r4, #288]	; 0x120

  snmp_asn1_enc_s32t_cnt(m_stat->error_status, &rhl->errstatlen);
 8035c0a:	f504 7191 	add.w	r1, r4, #290	; 0x122
 8035c0e:	f7fc ffa4 	bl	8032b5a <snmp_asn1_enc_s32t_cnt>
  snmp_asn1_enc_length_cnt(rhl->errstatlen, &rhl->errstatlenlen);
 8035c12:	1c69      	adds	r1, r5, #1
 8035c14:	f8b4 0122 	ldrh.w	r0, [r4, #290]	; 0x122
 8035c18:	f7fc ff7f 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + rhl->errstatlenlen + rhl->errstatlen;
 8035c1c:	f8b4 9122 	ldrh.w	r9, [r4, #290]	; 0x122

  snmp_asn1_enc_s32t_cnt(m_stat->rid, &rhl->ridlen);
 8035c20:	68e0      	ldr	r0, [r4, #12]
  snmp_asn1_enc_length_cnt(rhl->erridxlen, &rhl->erridxlenlen);
  tot_len += 1 + rhl->erridxlenlen + rhl->erridxlen;

  snmp_asn1_enc_s32t_cnt(m_stat->error_status, &rhl->errstatlen);
  snmp_asn1_enc_length_cnt(rhl->errstatlen, &rhl->errstatlenlen);
  tot_len += 1 + rhl->errstatlenlen + rhl->errstatlen;
 8035c22:	f894 6119 	ldrb.w	r6, [r4, #281]	; 0x119

  snmp_asn1_enc_s32t_cnt(m_stat->rid, &rhl->ridlen);
 8035c26:	f504 7192 	add.w	r1, r4, #292	; 0x124
 8035c2a:	f7fc ff96 	bl	8032b5a <snmp_asn1_enc_s32t_cnt>
  snmp_asn1_enc_length_cnt(rhl->ridlen, &rhl->ridlenlen);
 8035c2e:	f8b4 0124 	ldrh.w	r0, [r4, #292]	; 0x124
 8035c32:	f504 718d 	add.w	r1, r4, #282	; 0x11a
 8035c36:	f7fc ff70 	bl	8032b1a <snmp_asn1_enc_length_cnt>

  rhl = &m_stat->rhl;
  tot_len = vb_len;
  snmp_asn1_enc_s32t_cnt(m_stat->error_index, &rhl->erridxlen);
  snmp_asn1_enc_length_cnt(rhl->erridxlen, &rhl->erridxlenlen);
  tot_len += 1 + rhl->erridxlenlen + rhl->erridxlen;
 8035c3a:	44d1      	add	r9, sl

  snmp_asn1_enc_s32t_cnt(m_stat->error_status, &rhl->errstatlen);
  snmp_asn1_enc_length_cnt(rhl->errstatlen, &rhl->errstatlenlen);
  tot_len += 1 + rhl->errstatlenlen + rhl->errstatlen;
 8035c3c:	f8b4 3124 	ldrh.w	r3, [r4, #292]	; 0x124
 8035c40:	f109 0903 	add.w	r9, r9, #3
 8035c44:	4499      	add	r9, r3
 8035c46:	fa18 f889 	uxtah	r8, r8, r9

  snmp_asn1_enc_s32t_cnt(m_stat->rid, &rhl->ridlen);
  snmp_asn1_enc_length_cnt(rhl->ridlen, &rhl->ridlenlen);
  tot_len += 1 + rhl->ridlenlen + rhl->ridlen;
 8035c4a:	f894 311a 	ldrb.w	r3, [r4, #282]	; 0x11a
 8035c4e:	4446      	add	r6, r8
 8035c50:	18f6      	adds	r6, r6, r3
 8035c52:	fa17 f686 	uxtah	r6, r7, r6
 8035c56:	b2b6      	uxth	r6, r6

  rhl->pdulen = tot_len;
  snmp_asn1_enc_length_cnt(rhl->pdulen, &rhl->pdulenlen);
 8035c58:	1ce9      	adds	r1, r5, #3
 8035c5a:	4630      	mov	r0, r6

  snmp_asn1_enc_s32t_cnt(m_stat->rid, &rhl->ridlen);
  snmp_asn1_enc_length_cnt(rhl->ridlen, &rhl->ridlenlen);
  tot_len += 1 + rhl->ridlenlen + rhl->ridlen;

  rhl->pdulen = tot_len;
 8035c5c:	f8a4 6126 	strh.w	r6, [r4, #294]	; 0x126
  snmp_asn1_enc_length_cnt(rhl->pdulen, &rhl->pdulenlen);
 8035c60:	f7fc ff5b 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + rhl->pdulenlen;

  rhl->comlen = m_stat->com_strlen;
 8035c64:	f894 0059 	ldrb.w	r0, [r4, #89]	; 0x59
  snmp_asn1_enc_length_cnt(rhl->ridlen, &rhl->ridlenlen);
  tot_len += 1 + rhl->ridlenlen + rhl->ridlen;

  rhl->pdulen = tot_len;
  snmp_asn1_enc_length_cnt(rhl->pdulen, &rhl->pdulenlen);
  tot_len += 1 + rhl->pdulenlen;
 8035c68:	f894 811b 	ldrb.w	r8, [r4, #283]	; 0x11b

  rhl->comlen = m_stat->com_strlen;
 8035c6c:	f8a4 0128 	strh.w	r0, [r4, #296]	; 0x128
  snmp_asn1_enc_length_cnt(rhl->comlen, &rhl->comlenlen);
 8035c70:	f504 718e 	add.w	r1, r4, #284	; 0x11c
 8035c74:	f7fc ff51 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + rhl->comlenlen + rhl->comlen;

  snmp_asn1_enc_s32t_cnt(snmp_version, &rhl->verlen);
 8035c78:	4b14      	ldr	r3, [pc, #80]	; (8035ccc <snmp_resp_header_sum+0xec>)
  snmp_asn1_enc_length_cnt(rhl->pdulen, &rhl->pdulenlen);
  tot_len += 1 + rhl->pdulenlen;

  rhl->comlen = m_stat->com_strlen;
  snmp_asn1_enc_length_cnt(rhl->comlen, &rhl->comlenlen);
  tot_len += 1 + rhl->comlenlen + rhl->comlen;
 8035c7a:	f894 711c 	ldrb.w	r7, [r4, #284]	; 0x11c

  snmp_asn1_enc_s32t_cnt(snmp_version, &rhl->verlen);
 8035c7e:	6818      	ldr	r0, [r3, #0]
  snmp_asn1_enc_length_cnt(rhl->pdulen, &rhl->pdulenlen);
  tot_len += 1 + rhl->pdulenlen;

  rhl->comlen = m_stat->com_strlen;
  snmp_asn1_enc_length_cnt(rhl->comlen, &rhl->comlenlen);
  tot_len += 1 + rhl->comlenlen + rhl->comlen;
 8035c80:	f8b4 9128 	ldrh.w	r9, [r4, #296]	; 0x128

  snmp_asn1_enc_s32t_cnt(snmp_version, &rhl->verlen);
 8035c84:	f504 7195 	add.w	r1, r4, #298	; 0x12a
 8035c88:	f7fc ff67 	bl	8032b5a <snmp_asn1_enc_s32t_cnt>
  snmp_asn1_enc_length_cnt(rhl->verlen, &rhl->verlenlen);
 8035c8c:	1d69      	adds	r1, r5, #5
 8035c8e:	f8b4 012a 	ldrh.w	r0, [r4, #298]	; 0x12a
 8035c92:	f7fc ff42 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  snmp_asn1_enc_length_cnt(rhl->pdulen, &rhl->pdulenlen);
  tot_len += 1 + rhl->pdulenlen;

  rhl->comlen = m_stat->com_strlen;
  snmp_asn1_enc_length_cnt(rhl->comlen, &rhl->comlenlen);
  tot_len += 1 + rhl->comlenlen + rhl->comlen;
 8035c96:	f8b4 512a 	ldrh.w	r5, [r4, #298]	; 0x12a

  snmp_asn1_enc_s32t_cnt(snmp_version, &rhl->verlen);
  snmp_asn1_enc_length_cnt(rhl->verlen, &rhl->verlenlen);
  tot_len += 1 + rhl->verlen + rhl->verlenlen;
 8035c9a:	f894 311d 	ldrb.w	r3, [r4, #285]	; 0x11d
  snmp_asn1_enc_length_cnt(rhl->pdulen, &rhl->pdulenlen);
  tot_len += 1 + rhl->pdulenlen;

  rhl->comlen = m_stat->com_strlen;
  snmp_asn1_enc_length_cnt(rhl->comlen, &rhl->comlenlen);
  tot_len += 1 + rhl->comlenlen + rhl->comlen;
 8035c9e:	444d      	add	r5, r9
 8035ca0:	3503      	adds	r5, #3
 8035ca2:	4445      	add	r5, r8

  snmp_asn1_enc_s32t_cnt(snmp_version, &rhl->verlen);
  snmp_asn1_enc_length_cnt(rhl->verlen, &rhl->verlenlen);
  tot_len += 1 + rhl->verlen + rhl->verlenlen;
 8035ca4:	197d      	adds	r5, r7, r5
 8035ca6:	18ed      	adds	r5, r5, r3
 8035ca8:	fa16 f585 	uxtah	r5, r6, r5
 8035cac:	b2ad      	uxth	r5, r5

  rhl->seqlen = tot_len;
  snmp_asn1_enc_length_cnt(rhl->seqlen, &rhl->seqlenlen);
 8035cae:	4628      	mov	r0, r5

  snmp_asn1_enc_s32t_cnt(snmp_version, &rhl->verlen);
  snmp_asn1_enc_length_cnt(rhl->verlen, &rhl->verlenlen);
  tot_len += 1 + rhl->verlen + rhl->verlenlen;

  rhl->seqlen = tot_len;
 8035cb0:	f8a4 512c 	strh.w	r5, [r4, #300]	; 0x12c
  snmp_asn1_enc_length_cnt(rhl->seqlen, &rhl->seqlenlen);
 8035cb4:	f504 718f 	add.w	r1, r4, #286	; 0x11e
 8035cb8:	f7fc ff2f 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + rhl->seqlenlen;
 8035cbc:	f894 311e 	ldrb.w	r3, [r4, #286]	; 0x11e
 8035cc0:	3301      	adds	r3, #1
 8035cc2:	18e8      	adds	r0, r5, r3

  return tot_len;
}
 8035cc4:	b280      	uxth	r0, r0
 8035cc6:	e8bd 87f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, pc}
 8035cca:	bf00      	nop
 8035ccc:	08044908 	.word	0x08044908

08035cd0 <snmp_varbind_list_enc>:
/**
 * Encodes varbind list from head to tail.
 */
static u16_t
snmp_varbind_list_enc(struct snmp_varbind_root *root, struct pbuf *p, u16_t ofs)
{
 8035cd0:	b570      	push	{r4, r5, r6, lr}
 8035cd2:	4616      	mov	r6, r2
 8035cd4:	4604      	mov	r4, r0
  s32_t *sint_ptr;
  u32_t *uint_ptr;
  u8_t *raw_ptr;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
  ofs += 1;
 8035cd6:	3601      	adds	r6, #1
/**
 * Encodes varbind list from head to tail.
 */
static u16_t
snmp_varbind_list_enc(struct snmp_varbind_root *root, struct pbuf *p, u16_t ofs)
{
 8035cd8:	460d      	mov	r5, r1
  struct snmp_varbind *vb;
  s32_t *sint_ptr;
  u32_t *uint_ptr;
  u8_t *raw_ptr;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
 8035cda:	4608      	mov	r0, r1
  ofs += 1;
 8035cdc:	b2b6      	uxth	r6, r6
  struct snmp_varbind *vb;
  s32_t *sint_ptr;
  u32_t *uint_ptr;
  u8_t *raw_ptr;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
 8035cde:	4611      	mov	r1, r2
 8035ce0:	2230      	movs	r2, #48	; 0x30
 8035ce2:	f7fc ff67 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, root->seqlen);
 8035ce6:	4628      	mov	r0, r5
 8035ce8:	4631      	mov	r1, r6
 8035cea:	8962      	ldrh	r2, [r4, #10]
 8035cec:	f7fc ff76 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += root->seqlenlen;
 8035cf0:	7a63      	ldrb	r3, [r4, #9]
 8035cf2:	e064      	b.n	8035dbe <snmp_varbind_list_enc+0xee>

  vb = root->head;
  while ( vb != NULL )
  {
    snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
 8035cf4:	4631      	mov	r1, r6
    ofs += 1;
 8035cf6:	3601      	adds	r6, #1
  ofs += root->seqlenlen;

  vb = root->head;
  while ( vb != NULL )
  {
    snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
 8035cf8:	2230      	movs	r2, #48	; 0x30
    ofs += 1;
 8035cfa:	b2b6      	uxth	r6, r6
  ofs += root->seqlenlen;

  vb = root->head;
  while ( vb != NULL )
  {
    snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
 8035cfc:	4628      	mov	r0, r5
 8035cfe:	f7fc ff59 	bl	8032bb4 <snmp_asn1_enc_type>
    ofs += 1;
    snmp_asn1_enc_length(p, ofs, vb->seqlen);
 8035d02:	4631      	mov	r1, r6
 8035d04:	8ba2      	ldrh	r2, [r4, #28]
 8035d06:	4628      	mov	r0, r5
 8035d08:	f7fc ff68 	bl	8032bdc <snmp_asn1_enc_length>
    ofs += vb->seqlenlen;
 8035d0c:	7e23      	ldrb	r3, [r4, #24]
 8035d0e:	18f6      	adds	r6, r6, r3
 8035d10:	b2b6      	uxth	r6, r6

    snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID));
 8035d12:	4631      	mov	r1, r6
    ofs += 1;
 8035d14:	3601      	adds	r6, #1
    snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
    ofs += 1;
    snmp_asn1_enc_length(p, ofs, vb->seqlen);
    ofs += vb->seqlenlen;

    snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID));
 8035d16:	2206      	movs	r2, #6
    ofs += 1;
 8035d18:	b2b6      	uxth	r6, r6
    snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
    ofs += 1;
    snmp_asn1_enc_length(p, ofs, vb->seqlen);
    ofs += vb->seqlenlen;

    snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID));
 8035d1a:	4628      	mov	r0, r5
 8035d1c:	f7fc ff4a 	bl	8032bb4 <snmp_asn1_enc_type>
    ofs += 1;
    snmp_asn1_enc_length(p, ofs, vb->olen);
 8035d20:	4631      	mov	r1, r6
 8035d22:	8be2      	ldrh	r2, [r4, #30]
 8035d24:	4628      	mov	r0, r5
 8035d26:	f7fc ff59 	bl	8032bdc <snmp_asn1_enc_length>
    ofs += vb->olenlen;
 8035d2a:	7e63      	ldrb	r3, [r4, #25]
    snmp_asn1_enc_oid(p, ofs, vb->ident_len, &vb->ident[0]);
 8035d2c:	7a22      	ldrb	r2, [r4, #8]
    ofs += vb->seqlenlen;

    snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID));
    ofs += 1;
    snmp_asn1_enc_length(p, ofs, vb->olen);
    ofs += vb->olenlen;
 8035d2e:	18f6      	adds	r6, r6, r3
 8035d30:	b2b6      	uxth	r6, r6
    snmp_asn1_enc_oid(p, ofs, vb->ident_len, &vb->ident[0]);
 8035d32:	4631      	mov	r1, r6
 8035d34:	68e3      	ldr	r3, [r4, #12]
 8035d36:	4628      	mov	r0, r5
 8035d38:	f7fd f805 	bl	8032d46 <snmp_asn1_enc_oid>
    ofs += vb->olen;
 8035d3c:	8be3      	ldrh	r3, [r4, #30]

    snmp_asn1_enc_type(p, ofs, vb->value_type);
 8035d3e:	7c22      	ldrb	r2, [r4, #16]
    snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID));
    ofs += 1;
    snmp_asn1_enc_length(p, ofs, vb->olen);
    ofs += vb->olenlen;
    snmp_asn1_enc_oid(p, ofs, vb->ident_len, &vb->ident[0]);
    ofs += vb->olen;
 8035d40:	18f6      	adds	r6, r6, r3
 8035d42:	b2b6      	uxth	r6, r6

    snmp_asn1_enc_type(p, ofs, vb->value_type);
 8035d44:	4631      	mov	r1, r6
    ofs += 1;
 8035d46:	3601      	adds	r6, #1
 8035d48:	b2b6      	uxth	r6, r6
    snmp_asn1_enc_length(p, ofs, vb->olen);
    ofs += vb->olenlen;
    snmp_asn1_enc_oid(p, ofs, vb->ident_len, &vb->ident[0]);
    ofs += vb->olen;

    snmp_asn1_enc_type(p, ofs, vb->value_type);
 8035d4a:	4628      	mov	r0, r5
 8035d4c:	f7fc ff32 	bl	8032bb4 <snmp_asn1_enc_type>
    ofs += 1;
    snmp_asn1_enc_length(p, ofs, vb->vlen);
 8035d50:	4631      	mov	r1, r6
 8035d52:	4628      	mov	r0, r5
 8035d54:	8c22      	ldrh	r2, [r4, #32]
 8035d56:	f7fc ff41 	bl	8032bdc <snmp_asn1_enc_length>
    ofs += vb->vlenlen;
 8035d5a:	7ea3      	ldrb	r3, [r4, #26]
 8035d5c:	18f6      	adds	r6, r6, r3

    switch (vb->value_type)
 8035d5e:	7c23      	ldrb	r3, [r4, #16]
 8035d60:	2b40      	cmp	r3, #64	; 0x40
    ofs += vb->olen;

    snmp_asn1_enc_type(p, ofs, vb->value_type);
    ofs += 1;
    snmp_asn1_enc_length(p, ofs, vb->vlen);
    ofs += vb->vlenlen;
 8035d62:	b2b6      	uxth	r6, r6

    switch (vb->value_type)
 8035d64:	d01c      	beq.n	8035da0 <snmp_varbind_list_enc+0xd0>
 8035d66:	d806      	bhi.n	8035d76 <snmp_varbind_list_enc+0xa6>
 8035d68:	2b04      	cmp	r3, #4
 8035d6a:	d019      	beq.n	8035da0 <snmp_varbind_list_enc+0xd0>
 8035d6c:	2b06      	cmp	r3, #6
 8035d6e:	d01e      	beq.n	8035dae <snmp_varbind_list_enc+0xde>
 8035d70:	2b02      	cmp	r3, #2
 8035d72:	d123      	bne.n	8035dbc <snmp_varbind_list_enc+0xec>
 8035d74:	e004      	b.n	8035d80 <snmp_varbind_list_enc+0xb0>
 8035d76:	2b43      	cmp	r3, #67	; 0x43
 8035d78:	d90a      	bls.n	8035d90 <snmp_varbind_list_enc+0xc0>
 8035d7a:	2b44      	cmp	r3, #68	; 0x44
 8035d7c:	d11e      	bne.n	8035dbc <snmp_varbind_list_enc+0xec>
 8035d7e:	e00f      	b.n	8035da0 <snmp_varbind_list_enc+0xd0>
    {
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG):
        sint_ptr = (s32_t*)vb->value;
        snmp_asn1_enc_s32t(p, ofs, vb->vlen, *sint_ptr);
 8035d80:	6963      	ldr	r3, [r4, #20]
 8035d82:	8c22      	ldrh	r2, [r4, #32]
 8035d84:	681b      	ldr	r3, [r3, #0]
 8035d86:	4628      	mov	r0, r5
 8035d88:	4631      	mov	r1, r6
 8035d8a:	f7fc ffaf 	bl	8032cec <snmp_asn1_enc_s32t>
        break;
 8035d8e:	e015      	b.n	8035dbc <snmp_varbind_list_enc+0xec>
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_COUNTER):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_GAUGE):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_TIMETICKS):
        uint_ptr = (u32_t*)vb->value;
        snmp_asn1_enc_u32t(p, ofs, vb->vlen, *uint_ptr);
 8035d90:	6963      	ldr	r3, [r4, #20]
 8035d92:	8c22      	ldrh	r2, [r4, #32]
 8035d94:	681b      	ldr	r3, [r3, #0]
 8035d96:	4628      	mov	r0, r5
 8035d98:	4631      	mov	r1, r6
 8035d9a:	f7fc ff67 	bl	8032c6c <snmp_asn1_enc_u32t>
        break;
 8035d9e:	e00d      	b.n	8035dbc <snmp_varbind_list_enc+0xec>
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR):
      case (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_OPAQUE):
        raw_ptr = (u8_t*)vb->value;
        snmp_asn1_enc_raw(p, ofs, vb->vlen, raw_ptr);
 8035da0:	4628      	mov	r0, r5
 8035da2:	4631      	mov	r1, r6
 8035da4:	8c22      	ldrh	r2, [r4, #32]
 8035da6:	6963      	ldr	r3, [r4, #20]
 8035da8:	f7fd f840 	bl	8032e2c <snmp_asn1_enc_raw>
        break;
 8035dac:	e006      	b.n	8035dbc <snmp_varbind_list_enc+0xec>
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_NUL):
        break;
      case (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID):
        sint_ptr = (s32_t*)vb->value;
        snmp_asn1_enc_oid(p, ofs, vb->value_len / sizeof(s32_t), sint_ptr);
 8035dae:	7c62      	ldrb	r2, [r4, #17]
 8035db0:	6963      	ldr	r3, [r4, #20]
 8035db2:	4628      	mov	r0, r5
 8035db4:	4631      	mov	r1, r6
 8035db6:	0892      	lsrs	r2, r2, #2
 8035db8:	f7fc ffc5 	bl	8032d46 <snmp_asn1_enc_oid>
        break;
      default:
        /* unsupported type */
        break;
    };
    ofs += vb->vlen;
 8035dbc:	8c23      	ldrh	r3, [r4, #32]
    vb = vb->next;
 8035dbe:	6824      	ldr	r4, [r4, #0]
        break;
      default:
        /* unsupported type */
        break;
    };
    ofs += vb->vlen;
 8035dc0:	18f6      	adds	r6, r6, r3
 8035dc2:	b2b6      	uxth	r6, r6
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, root->seqlen);
  ofs += root->seqlenlen;

  vb = root->head;
  while ( vb != NULL )
 8035dc4:	2c00      	cmp	r4, #0
 8035dc6:	d195      	bne.n	8035cf4 <snmp_varbind_list_enc+0x24>
    };
    ofs += vb->vlen;
    vb = vb->next;
  }
  return ofs;
}
 8035dc8:	4630      	mov	r0, r6
 8035dca:	bd70      	pop	{r4, r5, r6, pc}

08035dcc <snmp_trap_dst_enable>:
 * @param enable switch if 0 destination is disabled >0 enabled.
 */
void
snmp_trap_dst_enable(u8_t dst_idx, u8_t enable)
{
  if (dst_idx < SNMP_TRAP_DESTINATIONS)
 8035dcc:	b908      	cbnz	r0, 8035dd2 <snmp_trap_dst_enable+0x6>
  {
    trap_dst[dst_idx].enable = enable;
 8035dce:	4b01      	ldr	r3, [pc, #4]	; (8035dd4 <snmp_trap_dst_enable+0x8>)
 8035dd0:	7119      	strb	r1, [r3, #4]
 8035dd2:	4770      	bx	lr
 8035dd4:	2000f810 	.word	0x2000f810

08035dd8 <snmp_trap_dst_ip_set>:
 * @param dst IPv4 address in host order.
 */
void
snmp_trap_dst_ip_set(u8_t dst_idx, ip_addr_t *dst)
{
  if (dst_idx < SNMP_TRAP_DESTINATIONS)
 8035dd8:	b918      	cbnz	r0, 8035de2 <snmp_trap_dst_ip_set+0xa>
  {
    ip_addr_set(&trap_dst[dst_idx].dip, dst);
 8035dda:	b101      	cbz	r1, 8035dde <snmp_trap_dst_ip_set+0x6>
 8035ddc:	6809      	ldr	r1, [r1, #0]
 8035dde:	4b01      	ldr	r3, [pc, #4]	; (8035de4 <snmp_trap_dst_ip_set+0xc>)
 8035de0:	6019      	str	r1, [r3, #0]
 8035de2:	4770      	bx	lr
 8035de4:	2000f810 	.word	0x2000f810

08035de8 <snmp_send_response>:
 * @note the caller is responsible for filling in outvb in the m_stat
 * and provide error-status and index (except for tooBig errors) ...
 */
err_t
snmp_send_response(struct snmp_msg_pstat *m_stat)
{
 8035de8:	b5f0      	push	{r4, r5, r6, r7, lr}
 8035dea:	4604      	mov	r4, r0
 8035dec:	b085      	sub	sp, #20
  struct snmp_varbind_root emptyvb = {NULL, NULL, 0, 0, 0};
 8035dee:	220c      	movs	r2, #12
 8035df0:	2100      	movs	r1, #0
 8035df2:	a801      	add	r0, sp, #4
  struct pbuf *p;
  u16_t tot_len;
  err_t err;

  /* pass 0, calculate length fields */
  tot_len = snmp_varbind_list_sum(&m_stat->outvb);
 8035df4:	f504 7686 	add.w	r6, r4, #268	; 0x10c
 * and provide error-status and index (except for tooBig errors) ...
 */
err_t
snmp_send_response(struct snmp_msg_pstat *m_stat)
{
  struct snmp_varbind_root emptyvb = {NULL, NULL, 0, 0, 0};
 8035df8:	f7eb ffd2 	bl	8021da0 <memset>
  struct pbuf *p;
  u16_t tot_len;
  err_t err;

  /* pass 0, calculate length fields */
  tot_len = snmp_varbind_list_sum(&m_stat->outvb);
 8035dfc:	4630      	mov	r0, r6
 8035dfe:	f7ff fe89 	bl	8035b14 <snmp_varbind_list_sum>
 8035e02:	4601      	mov	r1, r0
  tot_len = snmp_resp_header_sum(m_stat, tot_len);
 8035e04:	4620      	mov	r0, r4
 8035e06:	f7ff feeb 	bl	8035be0 <snmp_resp_header_sum>

  /* try allocating pbuf(s) for complete response */
  p = pbuf_alloc(PBUF_TRANSPORT, tot_len, PBUF_POOL);
 8035e0a:	2203      	movs	r2, #3
  u16_t tot_len;
  err_t err;

  /* pass 0, calculate length fields */
  tot_len = snmp_varbind_list_sum(&m_stat->outvb);
  tot_len = snmp_resp_header_sum(m_stat, tot_len);
 8035e0c:	4601      	mov	r1, r0

  /* try allocating pbuf(s) for complete response */
  p = pbuf_alloc(PBUF_TRANSPORT, tot_len, PBUF_POOL);
 8035e0e:	2000      	movs	r0, #0
 8035e10:	f7f9 fbbf 	bl	802f592 <pbuf_alloc>
  if (p == NULL)
 8035e14:	4605      	mov	r5, r0
 8035e16:	b990      	cbnz	r0, 8035e3e <snmp_send_response+0x56>
  {
    LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_snd_response() tooBig\n"));

    /* can't construct reply, return error-status tooBig */
    m_stat->error_status = SNMP_ES_TOOBIG;
 8035e18:	2301      	movs	r3, #1
 8035e1a:	6123      	str	r3, [r4, #16]
    m_stat->error_index = 0;
 8035e1c:	6160      	str	r0, [r4, #20]
    /* pass 0, recalculate lengths, for empty varbind-list */
    tot_len = snmp_varbind_list_sum(&emptyvb);
 8035e1e:	a801      	add	r0, sp, #4
 8035e20:	f7ff fe78 	bl	8035b14 <snmp_varbind_list_sum>
 8035e24:	4601      	mov	r1, r0
    tot_len = snmp_resp_header_sum(m_stat, tot_len);
 8035e26:	4620      	mov	r0, r4
 8035e28:	f7ff feda 	bl	8035be0 <snmp_resp_header_sum>
    /* retry allocation once for header and empty varbind-list */
    p = pbuf_alloc(PBUF_TRANSPORT, tot_len, PBUF_POOL);
 8035e2c:	2203      	movs	r2, #3
    /* can't construct reply, return error-status tooBig */
    m_stat->error_status = SNMP_ES_TOOBIG;
    m_stat->error_index = 0;
    /* pass 0, recalculate lengths, for empty varbind-list */
    tot_len = snmp_varbind_list_sum(&emptyvb);
    tot_len = snmp_resp_header_sum(m_stat, tot_len);
 8035e2e:	4601      	mov	r1, r0
    /* retry allocation once for header and empty varbind-list */
    p = pbuf_alloc(PBUF_TRANSPORT, tot_len, PBUF_POOL);
 8035e30:	4628      	mov	r0, r5
 8035e32:	f7f9 fbae 	bl	802f592 <pbuf_alloc>
  }
  if (p != NULL)
 8035e36:	4605      	mov	r5, r0
 8035e38:	2800      	cmp	r0, #0
 8035e3a:	f000 80dc 	beq.w	8035ff6 <snmp_send_response+0x20e>
snmp_resp_header_enc(struct snmp_msg_pstat *m_stat, struct pbuf *p)
{
  u16_t ofs;

  ofs = 0;
  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
 8035e3e:	2100      	movs	r1, #0
 8035e40:	2230      	movs	r2, #48	; 0x30
 8035e42:	4628      	mov	r0, r5
 8035e44:	f7fc feb6 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.seqlen);
 8035e48:	2101      	movs	r1, #1
 8035e4a:	f8b4 212c 	ldrh.w	r2, [r4, #300]	; 0x12c
 8035e4e:	4628      	mov	r0, r5
 8035e50:	f7fc fec4 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_stat->rhl.seqlenlen;
 8035e54:	f894 711e 	ldrb.w	r7, [r4, #286]	; 0x11e

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035e58:	2202      	movs	r2, #2
 8035e5a:	1c79      	adds	r1, r7, #1
 8035e5c:	4628      	mov	r0, r5
  ofs += 1;
 8035e5e:	3702      	adds	r7, #2
  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.seqlen);
  ofs += m_stat->rhl.seqlenlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035e60:	f7fc fea8 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.verlen);
 8035e64:	4639      	mov	r1, r7
 8035e66:	f8b4 212a 	ldrh.w	r2, [r4, #298]	; 0x12a
 8035e6a:	4628      	mov	r0, r5
 8035e6c:	f7fc feb6 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_stat->rhl.verlenlen;
 8035e70:	f894 311d 	ldrb.w	r3, [r4, #285]	; 0x11d
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.verlen, snmp_version);
 8035e74:	f8b4 212a 	ldrh.w	r2, [r4, #298]	; 0x12a
  ofs += m_stat->rhl.seqlenlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.verlen);
  ofs += m_stat->rhl.verlenlen;
 8035e78:	18ff      	adds	r7, r7, r3
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.verlen, snmp_version);
 8035e7a:	4b61      	ldr	r3, [pc, #388]	; (8036000 <snmp_send_response+0x218>)
 8035e7c:	4639      	mov	r1, r7
 8035e7e:	681b      	ldr	r3, [r3, #0]
 8035e80:	4628      	mov	r0, r5
 8035e82:	f7fc ff33 	bl	8032cec <snmp_asn1_enc_s32t>
  ofs += m_stat->rhl.verlen;
 8035e86:	f8b4 312a 	ldrh.w	r3, [r4, #298]	; 0x12a
 8035e8a:	18ff      	adds	r7, r7, r3
 8035e8c:	b2bf      	uxth	r7, r7

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR));
 8035e8e:	4639      	mov	r1, r7
  ofs += 1;
 8035e90:	3701      	adds	r7, #1
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.verlen);
  ofs += m_stat->rhl.verlenlen;
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.verlen, snmp_version);
  ofs += m_stat->rhl.verlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR));
 8035e92:	2204      	movs	r2, #4
  ofs += 1;
 8035e94:	b2bf      	uxth	r7, r7
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.verlen);
  ofs += m_stat->rhl.verlenlen;
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.verlen, snmp_version);
  ofs += m_stat->rhl.verlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR));
 8035e96:	4628      	mov	r0, r5
 8035e98:	f7fc fe8c 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.comlen);
 8035e9c:	4639      	mov	r1, r7
 8035e9e:	f8b4 2128 	ldrh.w	r2, [r4, #296]	; 0x128
 8035ea2:	4628      	mov	r0, r5
 8035ea4:	f7fc fe9a 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_stat->rhl.comlenlen;
 8035ea8:	f894 311c 	ldrb.w	r3, [r4, #284]	; 0x11c
  snmp_asn1_enc_raw(p, ofs, m_stat->rhl.comlen, m_stat->community);
 8035eac:	f8b4 2128 	ldrh.w	r2, [r4, #296]	; 0x128
  ofs += m_stat->rhl.verlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.comlen);
  ofs += m_stat->rhl.comlenlen;
 8035eb0:	18ff      	adds	r7, r7, r3
 8035eb2:	b2bf      	uxth	r7, r7
  snmp_asn1_enc_raw(p, ofs, m_stat->rhl.comlen, m_stat->community);
 8035eb4:	4639      	mov	r1, r7
 8035eb6:	f104 0318 	add.w	r3, r4, #24
 8035eba:	4628      	mov	r0, r5
 8035ebc:	f7fc ffb6 	bl	8032e2c <snmp_asn1_enc_raw>
  ofs += m_stat->rhl.comlen;
 8035ec0:	f8b4 3128 	ldrh.w	r3, [r4, #296]	; 0x128
 8035ec4:	18ff      	adds	r7, r7, r3
 8035ec6:	b2bf      	uxth	r7, r7

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_GET_RESP));
 8035ec8:	4639      	mov	r1, r7
  ofs += 1;
 8035eca:	3701      	adds	r7, #1
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.comlen);
  ofs += m_stat->rhl.comlenlen;
  snmp_asn1_enc_raw(p, ofs, m_stat->rhl.comlen, m_stat->community);
  ofs += m_stat->rhl.comlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_GET_RESP));
 8035ecc:	22a2      	movs	r2, #162	; 0xa2
  ofs += 1;
 8035ece:	b2bf      	uxth	r7, r7
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.comlen);
  ofs += m_stat->rhl.comlenlen;
  snmp_asn1_enc_raw(p, ofs, m_stat->rhl.comlen, m_stat->community);
  ofs += m_stat->rhl.comlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_GET_RESP));
 8035ed0:	4628      	mov	r0, r5
 8035ed2:	f7fc fe6f 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.pdulen);
 8035ed6:	4639      	mov	r1, r7
 8035ed8:	f8b4 2126 	ldrh.w	r2, [r4, #294]	; 0x126
 8035edc:	4628      	mov	r0, r5
 8035ede:	f7fc fe7d 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_stat->rhl.pdulenlen;
 8035ee2:	f894 311b 	ldrb.w	r3, [r4, #283]	; 0x11b
 8035ee6:	18ff      	adds	r7, r7, r3
 8035ee8:	b2bf      	uxth	r7, r7

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035eea:	4639      	mov	r1, r7
  ofs += 1;
 8035eec:	3701      	adds	r7, #1
  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_GET_RESP));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.pdulen);
  ofs += m_stat->rhl.pdulenlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035eee:	2202      	movs	r2, #2
  ofs += 1;
 8035ef0:	b2bf      	uxth	r7, r7
  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_GET_RESP));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.pdulen);
  ofs += m_stat->rhl.pdulenlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035ef2:	4628      	mov	r0, r5
 8035ef4:	f7fc fe5e 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.ridlen);
 8035ef8:	4639      	mov	r1, r7
 8035efa:	f8b4 2124 	ldrh.w	r2, [r4, #292]	; 0x124
 8035efe:	4628      	mov	r0, r5
 8035f00:	f7fc fe6c 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_stat->rhl.ridlenlen;
 8035f04:	f894 311a 	ldrb.w	r3, [r4, #282]	; 0x11a
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.ridlen, m_stat->rid);
 8035f08:	f8b4 2124 	ldrh.w	r2, [r4, #292]	; 0x124
  ofs += m_stat->rhl.pdulenlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.ridlen);
  ofs += m_stat->rhl.ridlenlen;
 8035f0c:	18ff      	adds	r7, r7, r3
 8035f0e:	b2bf      	uxth	r7, r7
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.ridlen, m_stat->rid);
 8035f10:	4639      	mov	r1, r7
 8035f12:	68e3      	ldr	r3, [r4, #12]
 8035f14:	4628      	mov	r0, r5
 8035f16:	f7fc fee9 	bl	8032cec <snmp_asn1_enc_s32t>
  ofs += m_stat->rhl.ridlen;
 8035f1a:	f8b4 3124 	ldrh.w	r3, [r4, #292]	; 0x124
 8035f1e:	18ff      	adds	r7, r7, r3
 8035f20:	b2bf      	uxth	r7, r7

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035f22:	4639      	mov	r1, r7
  ofs += 1;
 8035f24:	3701      	adds	r7, #1
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.ridlen);
  ofs += m_stat->rhl.ridlenlen;
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.ridlen, m_stat->rid);
  ofs += m_stat->rhl.ridlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035f26:	2202      	movs	r2, #2
  ofs += 1;
 8035f28:	b2bf      	uxth	r7, r7
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.ridlen);
  ofs += m_stat->rhl.ridlenlen;
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.ridlen, m_stat->rid);
  ofs += m_stat->rhl.ridlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035f2a:	4628      	mov	r0, r5
 8035f2c:	f7fc fe42 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.errstatlen);
 8035f30:	4639      	mov	r1, r7
 8035f32:	f8b4 2122 	ldrh.w	r2, [r4, #290]	; 0x122
 8035f36:	4628      	mov	r0, r5
 8035f38:	f7fc fe50 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_stat->rhl.errstatlenlen;
 8035f3c:	f894 3119 	ldrb.w	r3, [r4, #281]	; 0x119
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.errstatlen, m_stat->error_status);
 8035f40:	f8b4 2122 	ldrh.w	r2, [r4, #290]	; 0x122
  ofs += m_stat->rhl.ridlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.errstatlen);
  ofs += m_stat->rhl.errstatlenlen;
 8035f44:	18ff      	adds	r7, r7, r3
 8035f46:	b2bf      	uxth	r7, r7
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.errstatlen, m_stat->error_status);
 8035f48:	4639      	mov	r1, r7
 8035f4a:	6923      	ldr	r3, [r4, #16]
 8035f4c:	4628      	mov	r0, r5
 8035f4e:	f7fc fecd 	bl	8032cec <snmp_asn1_enc_s32t>
  ofs += m_stat->rhl.errstatlen;
 8035f52:	f8b4 3122 	ldrh.w	r3, [r4, #290]	; 0x122
 8035f56:	18ff      	adds	r7, r7, r3
 8035f58:	b2bf      	uxth	r7, r7

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035f5a:	4639      	mov	r1, r7
  ofs += 1;
 8035f5c:	3701      	adds	r7, #1
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.errstatlen);
  ofs += m_stat->rhl.errstatlenlen;
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.errstatlen, m_stat->error_status);
  ofs += m_stat->rhl.errstatlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035f5e:	2202      	movs	r2, #2
  ofs += 1;
 8035f60:	b2bf      	uxth	r7, r7
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.errstatlen);
  ofs += m_stat->rhl.errstatlenlen;
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.errstatlen, m_stat->error_status);
  ofs += m_stat->rhl.errstatlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 8035f62:	4628      	mov	r0, r5
 8035f64:	f7fc fe26 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.erridxlen);
 8035f68:	4639      	mov	r1, r7
 8035f6a:	f8b4 2120 	ldrh.w	r2, [r4, #288]	; 0x120
 8035f6e:	4628      	mov	r0, r5
 8035f70:	f7fc fe34 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_stat->rhl.erridxlenlen;
 8035f74:	f894 3118 	ldrb.w	r3, [r4, #280]	; 0x118
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.erridxlen, m_stat->error_index);
 8035f78:	f8b4 2120 	ldrh.w	r2, [r4, #288]	; 0x120
  ofs += m_stat->rhl.errstatlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_stat->rhl.erridxlen);
  ofs += m_stat->rhl.erridxlenlen;
 8035f7c:	18ff      	adds	r7, r7, r3
 8035f7e:	b2bf      	uxth	r7, r7
  snmp_asn1_enc_s32t(p, ofs, m_stat->rhl.erridxlen, m_stat->error_index);
 8035f80:	4639      	mov	r1, r7
 8035f82:	6963      	ldr	r3, [r4, #20]
 8035f84:	4628      	mov	r0, r5
 8035f86:	f7fc feb1 	bl	8032cec <snmp_asn1_enc_s32t>
  ofs += m_stat->rhl.erridxlen;
 8035f8a:	f8b4 3120 	ldrh.w	r3, [r4, #288]	; 0x120
 8035f8e:	18fa      	adds	r2, r7, r3

    LWIP_DEBUGF(SNMP_MSG_DEBUG, ("snmp_snd_response() p != NULL\n"));

    /* pass 1, size error, encode packet ino the pbuf(s) */
    ofs = snmp_resp_header_enc(m_stat, p);
    snmp_varbind_list_enc(&m_stat->outvb, p, ofs);
 8035f90:	4630      	mov	r0, r6
 8035f92:	4629      	mov	r1, r5
 8035f94:	b292      	uxth	r2, r2
 8035f96:	f7ff fe9b 	bl	8035cd0 <snmp_varbind_list_enc>

    switch (m_stat->error_status)
 8035f9a:	6923      	ldr	r3, [r4, #16]
 8035f9c:	3b01      	subs	r3, #1
 8035f9e:	2b04      	cmp	r3, #4
 8035fa0:	d80f      	bhi.n	8035fc2 <snmp_send_response+0x1da>
 8035fa2:	e8df f003 	tbb	[pc, r3]
 8035fa6:	0603      	.short	0x0603
 8035fa8:	0e09      	.short	0x0e09
 8035faa:	0c          	.byte	0x0c
 8035fab:	00          	.byte	0x00
    {
      case SNMP_ES_TOOBIG:
        snmp_inc_snmpouttoobigs();
 8035fac:	f7fe fa0e 	bl	80343cc <snmp_inc_snmpouttoobigs>
        break;
 8035fb0:	e007      	b.n	8035fc2 <snmp_send_response+0x1da>
      case SNMP_ES_NOSUCHNAME:
        snmp_inc_snmpoutnosuchnames();
 8035fb2:	f7fe fa13 	bl	80343dc <snmp_inc_snmpoutnosuchnames>
        break;
 8035fb6:	e004      	b.n	8035fc2 <snmp_send_response+0x1da>
      case SNMP_ES_BADVALUE:
        snmp_inc_snmpoutbadvalues();
 8035fb8:	f7fe fa18 	bl	80343ec <snmp_inc_snmpoutbadvalues>
        break;
 8035fbc:	e001      	b.n	8035fc2 <snmp_send_response+0x1da>
      case SNMP_ES_GENERROR:
        snmp_inc_snmpoutgenerrs();
 8035fbe:	f7fe fa1d 	bl	80343fc <snmp_inc_snmpoutgenerrs>
        break;
    }
    snmp_inc_snmpoutgetresponses();
 8035fc2:	f7fe fa23 	bl	803440c <snmp_inc_snmpoutgetresponses>
    snmp_inc_snmpoutpkts();
 8035fc6:	f7fe f981 	bl	80342cc <snmp_inc_snmpoutpkts>

    /** @todo do we need separate rx and tx pcbs for threaded case? */
    /** connect to the originating source */
    udp_connect(m_stat->pcb, &m_stat->sip, m_stat->sp);
 8035fca:	8922      	ldrh	r2, [r4, #8]
 8035fcc:	6820      	ldr	r0, [r4, #0]
 8035fce:	1d21      	adds	r1, r4, #4
 8035fd0:	f7fb ffac 	bl	8031f2c <udp_connect>
    err = udp_send(m_stat->pcb, p);
 8035fd4:	4629      	mov	r1, r5
 8035fd6:	6820      	ldr	r0, [r4, #0]
 8035fd8:	f7fb ffa3 	bl	8031f22 <udp_send>
      /** @todo release some memory, retry and return tooBig? tooMuchHassle? */
      err = ERR_MEM;
    }
    else
    {
      err = ERR_OK;
 8035fdc:	f1b0 3fff 	cmp.w	r0, #4294967295
 8035fe0:	bf0c      	ite	eq
 8035fe2:	f04f 36ff 	moveq.w	r6, #4294967295
 8035fe6:	2600      	movne	r6, #0
    }
    /** disassociate remote address and port with this pcb */
    udp_disconnect(m_stat->pcb);
 8035fe8:	6820      	ldr	r0, [r4, #0]
 8035fea:	f7fb ffc5 	bl	8031f78 <udp_disconnect>

    pbuf_free(p);
 8035fee:	4628      	mov	r0, r5
 8035ff0:	f7f9 fa82 	bl	802f4f8 <pbuf_free>
 8035ff4:	e000      	b.n	8035ff8 <snmp_send_response+0x210>
  }
  else
  {
    /* first pbuf alloc try or retry alloc failed
       very low on memory, couldn't return tooBig */
    return ERR_MEM;
 8035ff6:	26ff      	movs	r6, #255	; 0xff
  }
}
 8035ff8:	b270      	sxtb	r0, r6
 8035ffa:	b005      	add	sp, #20
 8035ffc:	bdf0      	pop	{r4, r5, r6, r7, pc}
 8035ffe:	bf00      	nop
 8036000:	08044908 	.word	0x08044908

08036004 <snmp_send_trap>:
 * and .iso.org.dod.internet.private.enterprises.yourenterprise
 * (sysObjectID) for specific traps.
 */
err_t
snmp_send_trap(s8_t generic_trap, struct snmp_obj_id *eoid, s32_t specific_trap)
{
 8036004:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
  struct pbuf *p;
  u16_t i,tot_len;

  for (i=0, td = &trap_dst[0]; i<SNMP_TRAP_DESTINATIONS; i++, td++)
  {
    if ((td->enable != 0) && !ip_addr_isany(&td->dip))
 8036008:	4b11      	ldr	r3, [pc, #68]	; (8036050 <snmp_send_trap+0x4c>)
 * and .iso.org.dod.internet.private.enterprises.yourenterprise
 * (sysObjectID) for specific traps.
 */
err_t
snmp_send_trap(s8_t generic_trap, struct snmp_obj_id *eoid, s32_t specific_trap)
{
 803600a:	4617      	mov	r7, r2
  struct pbuf *p;
  u16_t i,tot_len;

  for (i=0, td = &trap_dst[0]; i<SNMP_TRAP_DESTINATIONS; i++, td++)
  {
    if ((td->enable != 0) && !ip_addr_isany(&td->dip))
 803600c:	791a      	ldrb	r2, [r3, #4]
 * and .iso.org.dod.internet.private.enterprises.yourenterprise
 * (sysObjectID) for specific traps.
 */
err_t
snmp_send_trap(s8_t generic_trap, struct snmp_obj_id *eoid, s32_t specific_trap)
{
 803600e:	b085      	sub	sp, #20
 8036010:	4605      	mov	r5, r0
 8036012:	460e      	mov	r6, r1
  struct pbuf *p;
  u16_t i,tot_len;

  for (i=0, td = &trap_dst[0]; i<SNMP_TRAP_DESTINATIONS; i++, td++)
  {
    if ((td->enable != 0) && !ip_addr_isany(&td->dip))
 8036014:	2a00      	cmp	r2, #0
 8036016:	f000 81b8 	beq.w	803638a <snmp_send_trap+0x386>
 803601a:	6818      	ldr	r0, [r3, #0]
 803601c:	2800      	cmp	r0, #0
 803601e:	f000 81b4 	beq.w	803638a <snmp_send_trap+0x386>
    {
      /* network order trap destination */
      ip_addr_copy(trap_msg.dip, td->dip);
 8036022:	4c0c      	ldr	r4, [pc, #48]	; (8036054 <snmp_send_trap+0x50>)
 8036024:	6060      	str	r0, [r4, #4]
      /* lookup current source address for this dst */
      dst_if = ip_route(&td->dip);
 8036026:	4618      	mov	r0, r3
 8036028:	f7fc f9f0 	bl	803240c <ip_route>
      ip_addr_copy(dst_ip, dst_if->ip_addr);
 803602c:	6843      	ldr	r3, [r0, #4]
      /* @todo: what about IPv6? */
      trap_msg.sip_raw[0] = ip4_addr1(&dst_ip);
      trap_msg.sip_raw[1] = ip4_addr2(&dst_ip);
      trap_msg.sip_raw[2] = ip4_addr3(&dst_ip);
      trap_msg.sip_raw[3] = ip4_addr4(&dst_ip);
      trap_msg.gen_trap = generic_trap;
 803602e:	6125      	str	r5, [r4, #16]
      /* lookup current source address for this dst */
      dst_if = ip_route(&td->dip);
      ip_addr_copy(dst_ip, dst_if->ip_addr);
      /* @todo: what about IPv6? */
      trap_msg.sip_raw[0] = ip4_addr1(&dst_ip);
      trap_msg.sip_raw[1] = ip4_addr2(&dst_ip);
 8036030:	f3c3 2207 	ubfx	r2, r3, #8, #8
      ip_addr_copy(trap_msg.dip, td->dip);
      /* lookup current source address for this dst */
      dst_if = ip_route(&td->dip);
      ip_addr_copy(dst_ip, dst_if->ip_addr);
      /* @todo: what about IPv6? */
      trap_msg.sip_raw[0] = ip4_addr1(&dst_ip);
 8036034:	7323      	strb	r3, [r4, #12]
      trap_msg.sip_raw[1] = ip4_addr2(&dst_ip);
 8036036:	7362      	strb	r2, [r4, #13]
      trap_msg.sip_raw[2] = ip4_addr3(&dst_ip);
      trap_msg.sip_raw[3] = ip4_addr4(&dst_ip);
      trap_msg.gen_trap = generic_trap;
      trap_msg.spc_trap = specific_trap;
      if (generic_trap == SNMP_GENTRAP_ENTERPRISESPC)
 8036038:	2d06      	cmp	r5, #6
      dst_if = ip_route(&td->dip);
      ip_addr_copy(dst_ip, dst_if->ip_addr);
      /* @todo: what about IPv6? */
      trap_msg.sip_raw[0] = ip4_addr1(&dst_ip);
      trap_msg.sip_raw[1] = ip4_addr2(&dst_ip);
      trap_msg.sip_raw[2] = ip4_addr3(&dst_ip);
 803603a:	f3c3 4207 	ubfx	r2, r3, #16, #8
      trap_msg.sip_raw[3] = ip4_addr4(&dst_ip);
 803603e:	f3c3 6307 	ubfx	r3, r3, #24, #8
      dst_if = ip_route(&td->dip);
      ip_addr_copy(dst_ip, dst_if->ip_addr);
      /* @todo: what about IPv6? */
      trap_msg.sip_raw[0] = ip4_addr1(&dst_ip);
      trap_msg.sip_raw[1] = ip4_addr2(&dst_ip);
      trap_msg.sip_raw[2] = ip4_addr3(&dst_ip);
 8036042:	73a2      	strb	r2, [r4, #14]
      trap_msg.sip_raw[3] = ip4_addr4(&dst_ip);
 8036044:	73e3      	strb	r3, [r4, #15]
      trap_msg.gen_trap = generic_trap;
      trap_msg.spc_trap = specific_trap;
 8036046:	6167      	str	r7, [r4, #20]
      if (generic_trap == SNMP_GENTRAP_ENTERPRISESPC)
 8036048:	d106      	bne.n	8036058 <snmp_send_trap+0x54>
      {
        /* enterprise-Specific trap */
        trap_msg.enterprise = eoid;
 803604a:	60a6      	str	r6, [r4, #8]
 803604c:	e008      	b.n	8036060 <snmp_send_trap+0x5c>
 803604e:	bf00      	nop
 8036050:	2000f810 	.word	0x2000f810
 8036054:	2000f818 	.word	0x2000f818
      }
      else
      {
        /* generic (MIB-II) trap */
        snmp_get_snmpgrpid_ptr(&trap_msg.enterprise);
 8036058:	f104 0008 	add.w	r0, r4, #8
 803605c:	f7fe f9e6 	bl	803442c <snmp_get_snmpgrpid_ptr>
      }
      snmp_get_sysuptime(&trap_msg.ts);
 8036060:	48bb      	ldr	r0, [pc, #748]	; (8036350 <snmp_send_trap+0x34c>)
  struct snmp_trap_header_lengths *thl;

  thl = &m_trap->thl;
  tot_len = vb_len;

  snmp_asn1_enc_u32t_cnt(m_trap->ts, &thl->tslen);
 8036062:	4cbc      	ldr	r4, [pc, #752]	; (8036354 <snmp_send_trap+0x350>)
      else
      {
        /* generic (MIB-II) trap */
        snmp_get_snmpgrpid_ptr(&trap_msg.enterprise);
      }
      snmp_get_sysuptime(&trap_msg.ts);
 8036064:	f7fd fd4c 	bl	8033b00 <snmp_get_sysuptime>

      /* pass 0, calculate length fields */
      tot_len = snmp_varbind_list_sum(&trap_msg.outvb);
 8036068:	48bb      	ldr	r0, [pc, #748]	; (8036358 <snmp_send_trap+0x354>)
 803606a:	f7ff fd53 	bl	8035b14 <snmp_varbind_list_sum>
  struct snmp_trap_header_lengths *thl;

  thl = &m_trap->thl;
  tot_len = vb_len;

  snmp_asn1_enc_u32t_cnt(m_trap->ts, &thl->tslen);
 803606e:	f104 0132 	add.w	r1, r4, #50	; 0x32
        snmp_get_snmpgrpid_ptr(&trap_msg.enterprise);
      }
      snmp_get_sysuptime(&trap_msg.ts);

      /* pass 0, calculate length fields */
      tot_len = snmp_varbind_list_sum(&trap_msg.outvb);
 8036072:	4606      	mov	r6, r0
  struct snmp_trap_header_lengths *thl;

  thl = &m_trap->thl;
  tot_len = vb_len;

  snmp_asn1_enc_u32t_cnt(m_trap->ts, &thl->tslen);
 8036074:	69a0      	ldr	r0, [r4, #24]
 8036076:	f7fc fd5b 	bl	8032b30 <snmp_asn1_enc_u32t_cnt>
  snmp_asn1_enc_length_cnt(thl->tslen, &thl->tslenlen);
 803607a:	8e60      	ldrh	r0, [r4, #50]	; 0x32
 803607c:	f104 0128 	add.w	r1, r4, #40	; 0x28
 8036080:	f7fc fd4b 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + thl->tslen + thl->tslenlen;
 8036084:	f8b4 c032 	ldrh.w	ip, [r4, #50]	; 0x32

  snmp_asn1_enc_s32t_cnt(m_trap->spc_trap, &thl->strplen);
 8036088:	6960      	ldr	r0, [r4, #20]
 803608a:	f8cd c004 	str.w	ip, [sp, #4]
 803608e:	f104 0134 	add.w	r1, r4, #52	; 0x34
  thl = &m_trap->thl;
  tot_len = vb_len;

  snmp_asn1_enc_u32t_cnt(m_trap->ts, &thl->tslen);
  snmp_asn1_enc_length_cnt(thl->tslen, &thl->tslenlen);
  tot_len += 1 + thl->tslen + thl->tslenlen;
 8036092:	f894 9028 	ldrb.w	r9, [r4, #40]	; 0x28

  snmp_asn1_enc_s32t_cnt(m_trap->spc_trap, &thl->strplen);
 8036096:	f7fc fd60 	bl	8032b5a <snmp_asn1_enc_s32t_cnt>
  snmp_asn1_enc_length_cnt(thl->strplen, &thl->strplenlen);
 803609a:	8ea0      	ldrh	r0, [r4, #52]	; 0x34
 803609c:	f104 0129 	add.w	r1, r4, #41	; 0x29
 80360a0:	f7fc fd3b 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + thl->strplen + thl->strplenlen;
 80360a4:	8ea3      	ldrh	r3, [r4, #52]	; 0x34

  snmp_asn1_enc_s32t_cnt(m_trap->gen_trap, &thl->gtrplen);
 80360a6:	6920      	ldr	r0, [r4, #16]
 80360a8:	9302      	str	r3, [sp, #8]
 80360aa:	f104 0136 	add.w	r1, r4, #54	; 0x36
  snmp_asn1_enc_length_cnt(thl->tslen, &thl->tslenlen);
  tot_len += 1 + thl->tslen + thl->tslenlen;

  snmp_asn1_enc_s32t_cnt(m_trap->spc_trap, &thl->strplen);
  snmp_asn1_enc_length_cnt(thl->strplen, &thl->strplenlen);
  tot_len += 1 + thl->strplen + thl->strplenlen;
 80360ae:	f894 8029 	ldrb.w	r8, [r4, #41]	; 0x29

  snmp_asn1_enc_s32t_cnt(m_trap->gen_trap, &thl->gtrplen);
  snmp_asn1_enc_length_cnt(thl->gtrplen, &thl->gtrplenlen);
  tot_len += 1 + thl->gtrplen + thl->gtrplenlen;

  thl->aaddrlen = 4;
 80360b2:	2504      	movs	r5, #4

  snmp_asn1_enc_s32t_cnt(m_trap->spc_trap, &thl->strplen);
  snmp_asn1_enc_length_cnt(thl->strplen, &thl->strplenlen);
  tot_len += 1 + thl->strplen + thl->strplenlen;

  snmp_asn1_enc_s32t_cnt(m_trap->gen_trap, &thl->gtrplen);
 80360b4:	f7fc fd51 	bl	8032b5a <snmp_asn1_enc_s32t_cnt>
  snmp_asn1_enc_length_cnt(thl->gtrplen, &thl->gtrplenlen);
 80360b8:	8ee0      	ldrh	r0, [r4, #54]	; 0x36
 80360ba:	f104 012a 	add.w	r1, r4, #42	; 0x2a
 80360be:	f7fc fd2c 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + thl->gtrplen + thl->gtrplenlen;

  thl->aaddrlen = 4;
  snmp_asn1_enc_length_cnt(thl->aaddrlen, &thl->aaddrlenlen);
 80360c2:	4628      	mov	r0, r5
 80360c4:	f104 012b 	add.w	r1, r4, #43	; 0x2b
  snmp_asn1_enc_length_cnt(thl->strplen, &thl->strplenlen);
  tot_len += 1 + thl->strplen + thl->strplenlen;

  snmp_asn1_enc_s32t_cnt(m_trap->gen_trap, &thl->gtrplen);
  snmp_asn1_enc_length_cnt(thl->gtrplen, &thl->gtrplenlen);
  tot_len += 1 + thl->gtrplen + thl->gtrplenlen;
 80360c8:	f8b4 b036 	ldrh.w	fp, [r4, #54]	; 0x36
 80360cc:	f894 702a 	ldrb.w	r7, [r4, #42]	; 0x2a

  thl->aaddrlen = 4;
 80360d0:	8725      	strh	r5, [r4, #56]	; 0x38
  snmp_asn1_enc_length_cnt(thl->aaddrlen, &thl->aaddrlenlen);
 80360d2:	f7fc fd22 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + thl->aaddrlen + thl->aaddrlenlen;
 80360d6:	f894 202b 	ldrb.w	r2, [r4, #43]	; 0x2b

  snmp_asn1_enc_oid_cnt(m_trap->enterprise->len, &m_trap->enterprise->id[0], &thl->eidlen);
 80360da:	68a1      	ldr	r1, [r4, #8]
  snmp_asn1_enc_length_cnt(thl->gtrplen, &thl->gtrplenlen);
  tot_len += 1 + thl->gtrplen + thl->gtrplenlen;

  thl->aaddrlen = 4;
  snmp_asn1_enc_length_cnt(thl->aaddrlen, &thl->aaddrlenlen);
  tot_len += 1 + thl->aaddrlen + thl->aaddrlenlen;
 80360dc:	9203      	str	r2, [sp, #12]

  snmp_asn1_enc_oid_cnt(m_trap->enterprise->len, &m_trap->enterprise->id[0], &thl->eidlen);
 80360de:	f811 0b04 	ldrb.w	r0, [r1], #4
  snmp_asn1_enc_length_cnt(thl->gtrplen, &thl->gtrplenlen);
  tot_len += 1 + thl->gtrplen + thl->gtrplenlen;

  thl->aaddrlen = 4;
  snmp_asn1_enc_length_cnt(thl->aaddrlen, &thl->aaddrlenlen);
  tot_len += 1 + thl->aaddrlen + thl->aaddrlenlen;
 80360e2:	f8b4 a038 	ldrh.w	sl, [r4, #56]	; 0x38

  snmp_asn1_enc_oid_cnt(m_trap->enterprise->len, &m_trap->enterprise->id[0], &thl->eidlen);
 80360e6:	f104 023a 	add.w	r2, r4, #58	; 0x3a
 80360ea:	f7fc fd4b 	bl	8032b84 <snmp_asn1_enc_oid_cnt>
  snmp_asn1_enc_length_cnt(thl->eidlen, &thl->eidlenlen);
 80360ee:	8f60      	ldrh	r0, [r4, #58]	; 0x3a
 80360f0:	f104 012c 	add.w	r1, r4, #44	; 0x2c
 80360f4:	f7fc fd11 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  snmp_asn1_enc_length_cnt(thl->tslen, &thl->tslenlen);
  tot_len += 1 + thl->tslen + thl->tslenlen;

  snmp_asn1_enc_s32t_cnt(m_trap->spc_trap, &thl->strplen);
  snmp_asn1_enc_length_cnt(thl->strplen, &thl->strplenlen);
  tot_len += 1 + thl->strplen + thl->strplenlen;
 80360f8:	f8dd c004 	ldr.w	ip, [sp, #4]
 80360fc:	9b02      	ldr	r3, [sp, #8]

  snmp_asn1_enc_s32t_cnt(m_trap->gen_trap, &thl->gtrplen);
  snmp_asn1_enc_length_cnt(thl->gtrplen, &thl->gtrplenlen);
  tot_len += 1 + thl->gtrplen + thl->gtrplenlen;
 80360fe:	8f62      	ldrh	r2, [r4, #58]	; 0x3a
  snmp_asn1_enc_length_cnt(thl->tslen, &thl->tslenlen);
  tot_len += 1 + thl->tslen + thl->tslenlen;

  snmp_asn1_enc_s32t_cnt(m_trap->spc_trap, &thl->strplen);
  snmp_asn1_enc_length_cnt(thl->strplen, &thl->strplenlen);
  tot_len += 1 + thl->strplen + thl->strplenlen;
 8036100:	4463      	add	r3, ip
 8036102:	3305      	adds	r3, #5

  snmp_asn1_enc_s32t_cnt(m_trap->gen_trap, &thl->gtrplen);
  snmp_asn1_enc_length_cnt(thl->gtrplen, &thl->gtrplenlen);
  tot_len += 1 + thl->gtrplen + thl->gtrplenlen;
 8036104:	449b      	add	fp, r3
 8036106:	44da      	add	sl, fp
 8036108:	fa12 fa8a 	uxtah	sl, r2, sl

  thl->aaddrlen = 4;
  snmp_asn1_enc_length_cnt(thl->aaddrlen, &thl->aaddrlenlen);
  tot_len += 1 + thl->aaddrlen + thl->aaddrlenlen;
 803610c:	44d1      	add	r9, sl
 803610e:	44c8      	add	r8, r9

  snmp_asn1_enc_oid_cnt(m_trap->enterprise->len, &m_trap->enterprise->id[0], &thl->eidlen);
  snmp_asn1_enc_length_cnt(thl->eidlen, &thl->eidlenlen);
  tot_len += 1 + thl->eidlen + thl->eidlenlen;
 8036110:	9b03      	ldr	r3, [sp, #12]
  snmp_asn1_enc_length_cnt(thl->gtrplen, &thl->gtrplenlen);
  tot_len += 1 + thl->gtrplen + thl->gtrplenlen;

  thl->aaddrlen = 4;
  snmp_asn1_enc_length_cnt(thl->aaddrlen, &thl->aaddrlenlen);
  tot_len += 1 + thl->aaddrlen + thl->aaddrlenlen;
 8036112:	fa17 f788 	uxtah	r7, r7, r8

  snmp_asn1_enc_oid_cnt(m_trap->enterprise->len, &m_trap->enterprise->id[0], &thl->eidlen);
  snmp_asn1_enc_length_cnt(thl->eidlen, &thl->eidlenlen);
  tot_len += 1 + thl->eidlen + thl->eidlenlen;
 8036116:	19df      	adds	r7, r3, r7
 8036118:	f894 302c 	ldrb.w	r3, [r4, #44]	; 0x2c
 803611c:	18ff      	adds	r7, r7, r3
 803611e:	fa16 f687 	uxtah	r6, r6, r7
 8036122:	b2b6      	uxth	r6, r6

  thl->pdulen = tot_len;
  snmp_asn1_enc_length_cnt(thl->pdulen, &thl->pdulenlen);
 8036124:	4630      	mov	r0, r6
 8036126:	f104 012d 	add.w	r1, r4, #45	; 0x2d
  tot_len += 1 + thl->pdulenlen;

  thl->comlen = sizeof(snmp_publiccommunity) - 1;
 803612a:	2706      	movs	r7, #6

  snmp_asn1_enc_oid_cnt(m_trap->enterprise->len, &m_trap->enterprise->id[0], &thl->eidlen);
  snmp_asn1_enc_length_cnt(thl->eidlen, &thl->eidlenlen);
  tot_len += 1 + thl->eidlen + thl->eidlenlen;

  thl->pdulen = tot_len;
 803612c:	87a6      	strh	r6, [r4, #60]	; 0x3c
  snmp_asn1_enc_length_cnt(thl->pdulen, &thl->pdulenlen);
 803612e:	f7fc fcf4 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + thl->pdulenlen;

  thl->comlen = sizeof(snmp_publiccommunity) - 1;
  snmp_asn1_enc_length_cnt(thl->comlen, &thl->comlenlen);
 8036132:	4638      	mov	r0, r7
 8036134:	f104 012e 	add.w	r1, r4, #46	; 0x2e
  snmp_asn1_enc_length_cnt(thl->eidlen, &thl->eidlenlen);
  tot_len += 1 + thl->eidlen + thl->eidlenlen;

  thl->pdulen = tot_len;
  snmp_asn1_enc_length_cnt(thl->pdulen, &thl->pdulenlen);
  tot_len += 1 + thl->pdulenlen;
 8036138:	f894 a02d 	ldrb.w	sl, [r4, #45]	; 0x2d

  thl->comlen = sizeof(snmp_publiccommunity) - 1;
 803613c:	87e7      	strh	r7, [r4, #62]	; 0x3e
  snmp_asn1_enc_length_cnt(thl->comlen, &thl->comlenlen);
 803613e:	f7fc fcec 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + thl->comlenlen + thl->comlen;

  snmp_asn1_enc_s32t_cnt(snmp_version, &thl->verlen);
 8036142:	4b86      	ldr	r3, [pc, #536]	; (803635c <snmp_send_trap+0x358>)
  snmp_asn1_enc_length_cnt(thl->pdulen, &thl->pdulenlen);
  tot_len += 1 + thl->pdulenlen;

  thl->comlen = sizeof(snmp_publiccommunity) - 1;
  snmp_asn1_enc_length_cnt(thl->comlen, &thl->comlenlen);
  tot_len += 1 + thl->comlenlen + thl->comlen;
 8036144:	f894 902e 	ldrb.w	r9, [r4, #46]	; 0x2e

  snmp_asn1_enc_s32t_cnt(snmp_version, &thl->verlen);
 8036148:	f8d3 8000 	ldr.w	r8, [r3]
  snmp_asn1_enc_length_cnt(thl->pdulen, &thl->pdulenlen);
  tot_len += 1 + thl->pdulenlen;

  thl->comlen = sizeof(snmp_publiccommunity) - 1;
  snmp_asn1_enc_length_cnt(thl->comlen, &thl->comlenlen);
  tot_len += 1 + thl->comlenlen + thl->comlen;
 803614c:	f8b4 b03e 	ldrh.w	fp, [r4, #62]	; 0x3e

  snmp_asn1_enc_s32t_cnt(snmp_version, &thl->verlen);
 8036150:	4640      	mov	r0, r8
 8036152:	f104 0140 	add.w	r1, r4, #64	; 0x40
 8036156:	f7fc fd00 	bl	8032b5a <snmp_asn1_enc_s32t_cnt>
  snmp_asn1_enc_length_cnt(thl->verlen, &thl->verlenlen);
 803615a:	f8b4 0040 	ldrh.w	r0, [r4, #64]	; 0x40
 803615e:	f104 012f 	add.w	r1, r4, #47	; 0x2f
 8036162:	f7fc fcda 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  snmp_asn1_enc_length_cnt(thl->pdulen, &thl->pdulenlen);
  tot_len += 1 + thl->pdulenlen;

  thl->comlen = sizeof(snmp_publiccommunity) - 1;
  snmp_asn1_enc_length_cnt(thl->comlen, &thl->comlenlen);
  tot_len += 1 + thl->comlenlen + thl->comlen;
 8036166:	f8b4 3040 	ldrh.w	r3, [r4, #64]	; 0x40
 803616a:	449b      	add	fp, r3
 803616c:	f10b 0b03 	add.w	fp, fp, #3

  snmp_asn1_enc_s32t_cnt(snmp_version, &thl->verlen);
  snmp_asn1_enc_length_cnt(thl->verlen, &thl->verlenlen);
  tot_len += 1 + thl->verlen + thl->verlenlen;
 8036170:	f894 302f 	ldrb.w	r3, [r4, #47]	; 0x2f
  snmp_asn1_enc_length_cnt(thl->pdulen, &thl->pdulenlen);
  tot_len += 1 + thl->pdulenlen;

  thl->comlen = sizeof(snmp_publiccommunity) - 1;
  snmp_asn1_enc_length_cnt(thl->comlen, &thl->comlenlen);
  tot_len += 1 + thl->comlenlen + thl->comlen;
 8036174:	44da      	add	sl, fp

  snmp_asn1_enc_s32t_cnt(snmp_version, &thl->verlen);
  snmp_asn1_enc_length_cnt(thl->verlen, &thl->verlenlen);
  tot_len += 1 + thl->verlen + thl->verlenlen;
 8036176:	44d1      	add	r9, sl
 8036178:	4499      	add	r9, r3
 803617a:	fa16 f689 	uxtah	r6, r6, r9
 803617e:	b2b6      	uxth	r6, r6

  thl->seqlen = tot_len;
  snmp_asn1_enc_length_cnt(thl->seqlen, &thl->seqlenlen);
 8036180:	4630      	mov	r0, r6
 8036182:	f104 0130 	add.w	r1, r4, #48	; 0x30

  snmp_asn1_enc_s32t_cnt(snmp_version, &thl->verlen);
  snmp_asn1_enc_length_cnt(thl->verlen, &thl->verlenlen);
  tot_len += 1 + thl->verlen + thl->verlenlen;

  thl->seqlen = tot_len;
 8036186:	f8a4 6042 	strh.w	r6, [r4, #66]	; 0x42
  snmp_asn1_enc_length_cnt(thl->seqlen, &thl->seqlenlen);
 803618a:	f7fc fcc6 	bl	8032b1a <snmp_asn1_enc_length_cnt>
  tot_len += 1 + thl->seqlenlen;
 803618e:	f894 3030 	ldrb.w	r3, [r4, #48]	; 0x30
 8036192:	3301      	adds	r3, #1
 8036194:	18f1      	adds	r1, r6, r3
      /* pass 0, calculate length fields */
      tot_len = snmp_varbind_list_sum(&trap_msg.outvb);
      tot_len = snmp_trap_header_sum(&trap_msg, tot_len);

      /* allocate pbuf(s) */
      p = pbuf_alloc(PBUF_TRANSPORT, tot_len, PBUF_POOL);
 8036196:	2000      	movs	r0, #0
 8036198:	b289      	uxth	r1, r1
 803619a:	2203      	movs	r2, #3
 803619c:	f7f9 f9f9 	bl	802f592 <pbuf_alloc>
      if (p != NULL)
 80361a0:	4606      	mov	r6, r0
 80361a2:	2800      	cmp	r0, #0
 80361a4:	f000 80f3 	beq.w	803638e <snmp_send_trap+0x38a>
snmp_trap_header_enc(struct snmp_msg_trap *m_trap, struct pbuf *p)
{
  u16_t ofs;

  ofs = 0;
  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
 80361a8:	2100      	movs	r1, #0
 80361aa:	2230      	movs	r2, #48	; 0x30
 80361ac:	f7fc fd02 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.seqlen);
 80361b0:	2101      	movs	r1, #1
 80361b2:	f8b4 2042 	ldrh.w	r2, [r4, #66]	; 0x42
 80361b6:	4630      	mov	r0, r6
 80361b8:	f7fc fd10 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_trap->thl.seqlenlen;
 80361bc:	f894 9030 	ldrb.w	r9, [r4, #48]	; 0x30

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 80361c0:	2202      	movs	r2, #2
 80361c2:	f109 0101 	add.w	r1, r9, #1
 80361c6:	4630      	mov	r0, r6
  ofs += 1;
 80361c8:	f109 0902 	add.w	r9, r9, #2
  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_CONSTR | SNMP_ASN1_SEQ));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.seqlen);
  ofs += m_trap->thl.seqlenlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 80361cc:	f7fc fcf2 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.verlen);
 80361d0:	4649      	mov	r1, r9
 80361d2:	f8b4 2040 	ldrh.w	r2, [r4, #64]	; 0x40
 80361d6:	4630      	mov	r0, r6
 80361d8:	f7fc fd00 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_trap->thl.verlenlen;
 80361dc:	f894 302f 	ldrb.w	r3, [r4, #47]	; 0x2f
  snmp_asn1_enc_s32t(p, ofs, m_trap->thl.verlen, snmp_version);
 80361e0:	f8b4 2040 	ldrh.w	r2, [r4, #64]	; 0x40
  ofs += m_trap->thl.seqlenlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.verlen);
  ofs += m_trap->thl.verlenlen;
 80361e4:	4499      	add	r9, r3
  snmp_asn1_enc_s32t(p, ofs, m_trap->thl.verlen, snmp_version);
 80361e6:	4649      	mov	r1, r9
 80361e8:	4643      	mov	r3, r8
 80361ea:	4630      	mov	r0, r6
 80361ec:	f7fc fd7e 	bl	8032cec <snmp_asn1_enc_s32t>
  ofs += m_trap->thl.verlen;
 80361f0:	f8b4 3040 	ldrh.w	r3, [r4, #64]	; 0x40
 80361f4:	4499      	add	r9, r3
 80361f6:	fa1f f989 	uxth.w	r9, r9

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR));
 80361fa:	462a      	mov	r2, r5
  ofs += 1;
 80361fc:	f109 0501 	add.w	r5, r9, #1
  snmp_asn1_enc_length(p, ofs, m_trap->thl.verlen);
  ofs += m_trap->thl.verlenlen;
  snmp_asn1_enc_s32t(p, ofs, m_trap->thl.verlen, snmp_version);
  ofs += m_trap->thl.verlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR));
 8036200:	4649      	mov	r1, r9
  ofs += 1;
 8036202:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_length(p, ofs, m_trap->thl.verlen);
  ofs += m_trap->thl.verlenlen;
  snmp_asn1_enc_s32t(p, ofs, m_trap->thl.verlen, snmp_version);
  ofs += m_trap->thl.verlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR));
 8036204:	4630      	mov	r0, r6
 8036206:	f7fc fcd5 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.comlen);
 803620a:	4629      	mov	r1, r5
 803620c:	8fe2      	ldrh	r2, [r4, #62]	; 0x3e
 803620e:	4630      	mov	r0, r6
 8036210:	f7fc fce4 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_trap->thl.comlenlen;
 8036214:	f894 302e 	ldrb.w	r3, [r4, #46]	; 0x2e
  snmp_asn1_enc_raw(p, ofs, m_trap->thl.comlen, (u8_t *)&snmp_publiccommunity[0]);
 8036218:	8fe2      	ldrh	r2, [r4, #62]	; 0x3e
  ofs += m_trap->thl.verlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OC_STR));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.comlen);
  ofs += m_trap->thl.comlenlen;
 803621a:	18ed      	adds	r5, r5, r3
 803621c:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_raw(p, ofs, m_trap->thl.comlen, (u8_t *)&snmp_publiccommunity[0]);
 803621e:	4629      	mov	r1, r5
 8036220:	4b4f      	ldr	r3, [pc, #316]	; (8036360 <snmp_send_trap+0x35c>)
 8036222:	4630      	mov	r0, r6
 8036224:	f7fc fe02 	bl	8032e2c <snmp_asn1_enc_raw>
  ofs += m_trap->thl.comlen;
 8036228:	8fe3      	ldrh	r3, [r4, #62]	; 0x3e
 803622a:	18ed      	adds	r5, r5, r3
 803622c:	b2ad      	uxth	r5, r5

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_TRAP));
 803622e:	4629      	mov	r1, r5
  ofs += 1;
 8036230:	3501      	adds	r5, #1
  snmp_asn1_enc_length(p, ofs, m_trap->thl.comlen);
  ofs += m_trap->thl.comlenlen;
  snmp_asn1_enc_raw(p, ofs, m_trap->thl.comlen, (u8_t *)&snmp_publiccommunity[0]);
  ofs += m_trap->thl.comlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_TRAP));
 8036232:	22a4      	movs	r2, #164	; 0xa4
  ofs += 1;
 8036234:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_length(p, ofs, m_trap->thl.comlen);
  ofs += m_trap->thl.comlenlen;
  snmp_asn1_enc_raw(p, ofs, m_trap->thl.comlen, (u8_t *)&snmp_publiccommunity[0]);
  ofs += m_trap->thl.comlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_TRAP));
 8036236:	4630      	mov	r0, r6
 8036238:	f7fc fcbc 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.pdulen);
 803623c:	4629      	mov	r1, r5
 803623e:	8fa2      	ldrh	r2, [r4, #60]	; 0x3c
 8036240:	4630      	mov	r0, r6
 8036242:	f7fc fccb 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_trap->thl.pdulenlen;
 8036246:	f894 302d 	ldrb.w	r3, [r4, #45]	; 0x2d
 803624a:	18ed      	adds	r5, r5, r3
 803624c:	b2ad      	uxth	r5, r5

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID));
 803624e:	4629      	mov	r1, r5
  ofs += 1;
 8036250:	3501      	adds	r5, #1
  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_TRAP));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.pdulen);
  ofs += m_trap->thl.pdulenlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID));
 8036252:	463a      	mov	r2, r7
  ofs += 1;
 8036254:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_CONTXT | SNMP_ASN1_CONSTR | SNMP_ASN1_PDU_TRAP));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.pdulen);
  ofs += m_trap->thl.pdulenlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID));
 8036256:	4630      	mov	r0, r6
 8036258:	f7fc fcac 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.eidlen);
 803625c:	4629      	mov	r1, r5
 803625e:	8f62      	ldrh	r2, [r4, #58]	; 0x3a
 8036260:	4630      	mov	r0, r6
 8036262:	f7fc fcbb 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_trap->thl.eidlenlen;
 8036266:	f894 302c 	ldrb.w	r3, [r4, #44]	; 0x2c
 803626a:	18ed      	adds	r5, r5, r3
  snmp_asn1_enc_oid(p, ofs, m_trap->enterprise->len, &m_trap->enterprise->id[0]);
 803626c:	68a3      	ldr	r3, [r4, #8]
  ofs += m_trap->thl.pdulenlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_OBJ_ID));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.eidlen);
  ofs += m_trap->thl.eidlenlen;
 803626e:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_oid(p, ofs, m_trap->enterprise->len, &m_trap->enterprise->id[0]);
 8036270:	4629      	mov	r1, r5
 8036272:	f813 2b04 	ldrb.w	r2, [r3], #4
 8036276:	4630      	mov	r0, r6
 8036278:	f7fc fd65 	bl	8032d46 <snmp_asn1_enc_oid>
  ofs += m_trap->thl.eidlen;
 803627c:	8f63      	ldrh	r3, [r4, #58]	; 0x3a
 803627e:	18ed      	adds	r5, r5, r3
 8036280:	b2ad      	uxth	r5, r5

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR));
 8036282:	4629      	mov	r1, r5
  ofs += 1;
 8036284:	3501      	adds	r5, #1
  snmp_asn1_enc_length(p, ofs, m_trap->thl.eidlen);
  ofs += m_trap->thl.eidlenlen;
  snmp_asn1_enc_oid(p, ofs, m_trap->enterprise->len, &m_trap->enterprise->id[0]);
  ofs += m_trap->thl.eidlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR));
 8036286:	2240      	movs	r2, #64	; 0x40
  ofs += 1;
 8036288:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_length(p, ofs, m_trap->thl.eidlen);
  ofs += m_trap->thl.eidlenlen;
  snmp_asn1_enc_oid(p, ofs, m_trap->enterprise->len, &m_trap->enterprise->id[0]);
  ofs += m_trap->thl.eidlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR));
 803628a:	4630      	mov	r0, r6
 803628c:	f7fc fc92 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.aaddrlen);
 8036290:	4629      	mov	r1, r5
 8036292:	8f22      	ldrh	r2, [r4, #56]	; 0x38
 8036294:	4630      	mov	r0, r6
 8036296:	f7fc fca1 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_trap->thl.aaddrlenlen;
 803629a:	f894 302b 	ldrb.w	r3, [r4, #43]	; 0x2b
  snmp_asn1_enc_raw(p, ofs, m_trap->thl.aaddrlen, &m_trap->sip_raw[0]);
 803629e:	8f22      	ldrh	r2, [r4, #56]	; 0x38
  ofs += m_trap->thl.eidlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_IPADDR));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.aaddrlen);
  ofs += m_trap->thl.aaddrlenlen;
 80362a0:	18ed      	adds	r5, r5, r3
 80362a2:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_raw(p, ofs, m_trap->thl.aaddrlen, &m_trap->sip_raw[0]);
 80362a4:	4629      	mov	r1, r5
 80362a6:	f104 030c 	add.w	r3, r4, #12
 80362aa:	4630      	mov	r0, r6
 80362ac:	f7fc fdbe 	bl	8032e2c <snmp_asn1_enc_raw>
  ofs += m_trap->thl.aaddrlen;
 80362b0:	8f23      	ldrh	r3, [r4, #56]	; 0x38
 80362b2:	18ed      	adds	r5, r5, r3
 80362b4:	b2ad      	uxth	r5, r5

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 80362b6:	4629      	mov	r1, r5
  ofs += 1;
 80362b8:	3501      	adds	r5, #1
  snmp_asn1_enc_length(p, ofs, m_trap->thl.aaddrlen);
  ofs += m_trap->thl.aaddrlenlen;
  snmp_asn1_enc_raw(p, ofs, m_trap->thl.aaddrlen, &m_trap->sip_raw[0]);
  ofs += m_trap->thl.aaddrlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 80362ba:	2202      	movs	r2, #2
  ofs += 1;
 80362bc:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_length(p, ofs, m_trap->thl.aaddrlen);
  ofs += m_trap->thl.aaddrlenlen;
  snmp_asn1_enc_raw(p, ofs, m_trap->thl.aaddrlen, &m_trap->sip_raw[0]);
  ofs += m_trap->thl.aaddrlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 80362be:	4630      	mov	r0, r6
 80362c0:	f7fc fc78 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.gtrplen);
 80362c4:	4629      	mov	r1, r5
 80362c6:	8ee2      	ldrh	r2, [r4, #54]	; 0x36
 80362c8:	4630      	mov	r0, r6
 80362ca:	f7fc fc87 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_trap->thl.gtrplenlen;
 80362ce:	f894 302a 	ldrb.w	r3, [r4, #42]	; 0x2a
  snmp_asn1_enc_u32t(p, ofs, m_trap->thl.gtrplen, m_trap->gen_trap);
 80362d2:	8ee2      	ldrh	r2, [r4, #54]	; 0x36
  ofs += m_trap->thl.aaddrlen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.gtrplen);
  ofs += m_trap->thl.gtrplenlen;
 80362d4:	18ed      	adds	r5, r5, r3
 80362d6:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_u32t(p, ofs, m_trap->thl.gtrplen, m_trap->gen_trap);
 80362d8:	4629      	mov	r1, r5
 80362da:	6923      	ldr	r3, [r4, #16]
 80362dc:	4630      	mov	r0, r6
 80362de:	f7fc fcc5 	bl	8032c6c <snmp_asn1_enc_u32t>
  ofs += m_trap->thl.gtrplen;
 80362e2:	8ee3      	ldrh	r3, [r4, #54]	; 0x36
 80362e4:	18ed      	adds	r5, r5, r3
 80362e6:	b2ad      	uxth	r5, r5

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 80362e8:	4629      	mov	r1, r5
  ofs += 1;
 80362ea:	3501      	adds	r5, #1
  snmp_asn1_enc_length(p, ofs, m_trap->thl.gtrplen);
  ofs += m_trap->thl.gtrplenlen;
  snmp_asn1_enc_u32t(p, ofs, m_trap->thl.gtrplen, m_trap->gen_trap);
  ofs += m_trap->thl.gtrplen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 80362ec:	2202      	movs	r2, #2
  ofs += 1;
 80362ee:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_length(p, ofs, m_trap->thl.gtrplen);
  ofs += m_trap->thl.gtrplenlen;
  snmp_asn1_enc_u32t(p, ofs, m_trap->thl.gtrplen, m_trap->gen_trap);
  ofs += m_trap->thl.gtrplen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
 80362f0:	4630      	mov	r0, r6
 80362f2:	f7fc fc5f 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.strplen);
 80362f6:	4629      	mov	r1, r5
 80362f8:	8ea2      	ldrh	r2, [r4, #52]	; 0x34
 80362fa:	4630      	mov	r0, r6
 80362fc:	f7fc fc6e 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_trap->thl.strplenlen;
 8036300:	f894 3029 	ldrb.w	r3, [r4, #41]	; 0x29
  snmp_asn1_enc_u32t(p, ofs, m_trap->thl.strplen, m_trap->spc_trap);
 8036304:	8ea2      	ldrh	r2, [r4, #52]	; 0x34
  ofs += m_trap->thl.gtrplen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_UNIV | SNMP_ASN1_PRIMIT | SNMP_ASN1_INTEG));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.strplen);
  ofs += m_trap->thl.strplenlen;
 8036306:	18ed      	adds	r5, r5, r3
 8036308:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_u32t(p, ofs, m_trap->thl.strplen, m_trap->spc_trap);
 803630a:	4629      	mov	r1, r5
 803630c:	6963      	ldr	r3, [r4, #20]
 803630e:	4630      	mov	r0, r6
 8036310:	f7fc fcac 	bl	8032c6c <snmp_asn1_enc_u32t>
  ofs += m_trap->thl.strplen;
 8036314:	8ea3      	ldrh	r3, [r4, #52]	; 0x34
 8036316:	18ed      	adds	r5, r5, r3
 8036318:	b2ad      	uxth	r5, r5

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_TIMETICKS));
 803631a:	4629      	mov	r1, r5
  ofs += 1;
 803631c:	3501      	adds	r5, #1
  snmp_asn1_enc_length(p, ofs, m_trap->thl.strplen);
  ofs += m_trap->thl.strplenlen;
  snmp_asn1_enc_u32t(p, ofs, m_trap->thl.strplen, m_trap->spc_trap);
  ofs += m_trap->thl.strplen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_TIMETICKS));
 803631e:	2243      	movs	r2, #67	; 0x43
  ofs += 1;
 8036320:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_length(p, ofs, m_trap->thl.strplen);
  ofs += m_trap->thl.strplenlen;
  snmp_asn1_enc_u32t(p, ofs, m_trap->thl.strplen, m_trap->spc_trap);
  ofs += m_trap->thl.strplen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_TIMETICKS));
 8036322:	4630      	mov	r0, r6
 8036324:	f7fc fc46 	bl	8032bb4 <snmp_asn1_enc_type>
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.tslen);
 8036328:	4629      	mov	r1, r5
 803632a:	8e62      	ldrh	r2, [r4, #50]	; 0x32
 803632c:	4630      	mov	r0, r6
 803632e:	f7fc fc55 	bl	8032bdc <snmp_asn1_enc_length>
  ofs += m_trap->thl.tslenlen;
 8036332:	f894 3028 	ldrb.w	r3, [r4, #40]	; 0x28
  snmp_asn1_enc_u32t(p, ofs, m_trap->thl.tslen, m_trap->ts);
 8036336:	8e62      	ldrh	r2, [r4, #50]	; 0x32
  ofs += m_trap->thl.strplen;

  snmp_asn1_enc_type(p, ofs, (SNMP_ASN1_APPLIC | SNMP_ASN1_PRIMIT | SNMP_ASN1_TIMETICKS));
  ofs += 1;
  snmp_asn1_enc_length(p, ofs, m_trap->thl.tslen);
  ofs += m_trap->thl.tslenlen;
 8036338:	18ed      	adds	r5, r5, r3
 803633a:	b2ad      	uxth	r5, r5
  snmp_asn1_enc_u32t(p, ofs, m_trap->thl.tslen, m_trap->ts);
 803633c:	4629      	mov	r1, r5
 803633e:	69a3      	ldr	r3, [r4, #24]
 8036340:	4630      	mov	r0, r6
 8036342:	f7fc fc93 	bl	8032c6c <snmp_asn1_enc_u32t>
  ofs += m_trap->thl.tslen;
 8036346:	8e63      	ldrh	r3, [r4, #50]	; 0x32
 8036348:	18ea      	adds	r2, r5, r3
      {
        u16_t ofs;

        /* pass 1, encode packet ino the pbuf(s) */
        ofs = snmp_trap_header_enc(&trap_msg, p);
        snmp_varbind_list_enc(&trap_msg.outvb, p, ofs);
 803634a:	4631      	mov	r1, r6
 803634c:	e00a      	b.n	8036364 <snmp_send_trap+0x360>
 803634e:	bf00      	nop
 8036350:	2000f830 	.word	0x2000f830
 8036354:	2000f818 	.word	0x2000f818
 8036358:	2000f834 	.word	0x2000f834
 803635c:	08044908 	.word	0x08044908
 8036360:	0804490c 	.word	0x0804490c
 8036364:	b292      	uxth	r2, r2
 8036366:	f104 001c 	add.w	r0, r4, #28
 803636a:	f7ff fcb1 	bl	8035cd0 <snmp_varbind_list_enc>

        snmp_inc_snmpouttraps();
 803636e:	f7fe f855 	bl	803441c <snmp_inc_snmpouttraps>
        snmp_inc_snmpoutpkts();
 8036372:	f7fd ffab 	bl	80342cc <snmp_inc_snmpoutpkts>

        /** send to the TRAP destination */
        udp_sendto(trap_msg.pcb, p, &trap_msg.dip, SNMP_TRAP_PORT);
 8036376:	4622      	mov	r2, r4
 8036378:	4631      	mov	r1, r6
 803637a:	f852 0b04 	ldr.w	r0, [r2], #4
 803637e:	23a2      	movs	r3, #162	; 0xa2
 8036380:	f7fb fdbb 	bl	8031efa <udp_sendto>

        pbuf_free(p);
 8036384:	4630      	mov	r0, r6
 8036386:	f7f9 f8b7 	bl	802f4f8 <pbuf_free>
      {
        return ERR_MEM;
      }
    }
  }
  return ERR_OK;
 803638a:	2000      	movs	r0, #0
 803638c:	e000      	b.n	8036390 <snmp_send_trap+0x38c>

        pbuf_free(p);
      }
      else
      {
        return ERR_MEM;
 803638e:	20ff      	movs	r0, #255	; 0xff
      }
    }
  }
  return ERR_OK;
}
 8036390:	b240      	sxtb	r0, r0
 8036392:	b005      	add	sp, #20
 8036394:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}

08036398 <snmp_authfail_trap>:
  snmp_send_trap(SNMP_GENTRAP_COLDSTART, NULL, 0);
}

void
snmp_authfail_trap(void)
{
 8036398:	b507      	push	{r0, r1, r2, lr}
  u8_t enable;
  snmp_get_snmpenableauthentraps(&enable);
 803639a:	f10d 0007 	add.w	r0, sp, #7
 803639e:	f7fe f84b 	bl	8034438 <snmp_get_snmpenableauthentraps>
  if (enable == 1)
 80363a2:	f89d 3007 	ldrb.w	r3, [sp, #7]
 80363a6:	2b01      	cmp	r3, #1
 80363a8:	d109      	bne.n	80363be <snmp_authfail_trap+0x26>
  {
    trap_msg.outvb.head = NULL;
 80363aa:	2100      	movs	r1, #0
 80363ac:	4b04      	ldr	r3, [pc, #16]	; (80363c0 <snmp_authfail_trap+0x28>)
    trap_msg.outvb.tail = NULL;
    trap_msg.outvb.count = 0;
    snmp_send_trap(SNMP_GENTRAP_AUTHFAIL, NULL, 0);
 80363ae:	2004      	movs	r0, #4
 80363b0:	460a      	mov	r2, r1
{
  u8_t enable;
  snmp_get_snmpenableauthentraps(&enable);
  if (enable == 1)
  {
    trap_msg.outvb.head = NULL;
 80363b2:	61d9      	str	r1, [r3, #28]
    trap_msg.outvb.tail = NULL;
 80363b4:	6219      	str	r1, [r3, #32]
    trap_msg.outvb.count = 0;
 80363b6:	f883 1024 	strb.w	r1, [r3, #36]	; 0x24
    snmp_send_trap(SNMP_GENTRAP_AUTHFAIL, NULL, 0);
 80363ba:	f7ff fe23 	bl	8036004 <snmp_send_trap>
  }
}
 80363be:	bd0e      	pop	{r1, r2, r3, pc}
 80363c0:	2000f818 	.word	0x2000f818

080363c4 <etharp_send_ip>:
 * @params dst the destination MAC address to be copied into the ethernet header
 * @return ERR_OK if the packet was sent, any other err_t on failure
 */
static err_t
etharp_send_ip(struct netif *netif, struct pbuf *p, struct eth_addr *src, struct eth_addr *dst)
{
 80363c4:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  struct eth_hdr *ethhdr = (struct eth_hdr *)p->payload;
 80363c6:	684c      	ldr	r4, [r1, #4]
 * @params dst the destination MAC address to be copied into the ethernet header
 * @return ERR_OK if the packet was sent, any other err_t on failure
 */
static err_t
etharp_send_ip(struct netif *netif, struct pbuf *p, struct eth_addr *src, struct eth_addr *dst)
{
 80363c8:	4606      	mov	r6, r0
 80363ca:	460d      	mov	r5, r1
 80363cc:	4617      	mov	r7, r2
  struct eth_hdr *ethhdr = (struct eth_hdr *)p->payload;

  LWIP_ASSERT("netif->hwaddr_len must be the same as ETHARP_HWADDR_LEN for etharp!",
              (netif->hwaddr_len == ETHARP_HWADDR_LEN));
  ETHADDR32_COPY(&ethhdr->dest, dst);
 80363ce:	4619      	mov	r1, r3
 80363d0:	2206      	movs	r2, #6
 80363d2:	4620      	mov	r0, r4
 80363d4:	f7eb fc2a 	bl	8021c2c <memcpy>
  ETHADDR16_COPY(&ethhdr->src, src);
 80363d8:	4639      	mov	r1, r7
 80363da:	1da0      	adds	r0, r4, #6
 80363dc:	2206      	movs	r2, #6
 80363de:	f7eb fc25 	bl	8021c2c <memcpy>
  ethhdr->type = PP_HTONS(ETHTYPE_IP);
 80363e2:	2308      	movs	r3, #8
 80363e4:	7323      	strb	r3, [r4, #12]
 80363e6:	2300      	movs	r3, #0
 80363e8:	7363      	strb	r3, [r4, #13]
  LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_send_ip: sending packet %p\n", (void *)p));
  /* send the packet */
  return netif->linkoutput(netif, p);
 80363ea:	69b3      	ldr	r3, [r6, #24]
 80363ec:	4630      	mov	r0, r6
 80363ee:	4629      	mov	r1, r5
 80363f0:	4798      	blx	r3
}
 80363f2:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}

080363f4 <etharp_free_entry>:
#endif /* ARP_QUEUEING */

/** Clean up ARP table entries */
static void
etharp_free_entry(int i)
{
 80363f4:	b570      	push	{r4, r5, r6, lr}
  /* remove from SNMP ARP index tree */
  snmp_delete_arpidx_tree(arp_table[i].netif, &arp_table[i].ipaddr);
 80363f6:	4d0b      	ldr	r5, [pc, #44]	; (8036424 <etharp_free_entry+0x30>)
 80363f8:	2414      	movs	r4, #20
 80363fa:	4344      	muls	r4, r0
 80363fc:	1929      	adds	r1, r5, r4
#endif /* ARP_QUEUEING */

/** Clean up ARP table entries */
static void
etharp_free_entry(int i)
{
 80363fe:	4606      	mov	r6, r0
  /* remove from SNMP ARP index tree */
  snmp_delete_arpidx_tree(arp_table[i].netif, &arp_table[i].ipaddr);
 8036400:	3104      	adds	r1, #4
 8036402:	6848      	ldr	r0, [r1, #4]
 8036404:	f7fd fc56 	bl	8033cb4 <snmp_delete_arpidx_tree>
  /* and empty packet queue */
  if (arp_table[i].q != NULL) {
 8036408:	5928      	ldr	r0, [r5, r4]
 803640a:	b118      	cbz	r0, 8036414 <etharp_free_entry+0x20>
    /* remove all queued packets */
    LWIP_DEBUGF(ETHARP_DEBUG, ("etharp_free_entry: freeing entry %"U16_F", packet queue %p.\n", (u16_t)i, (void *)(arp_table[i].q)));
    free_etharp_q(arp_table[i].q);
 803640c:	f7f9 f874 	bl	802f4f8 <pbuf_free>
    arp_table[i].q = NULL;
 8036410:	2300      	movs	r3, #0
 8036412:	512b      	str	r3, [r5, r4]
  }
  /* recycle entry for re-use */
  arp_table[i].state = ETHARP_STATE_EMPTY;
 8036414:	2314      	movs	r3, #20
 8036416:	fb03 5506 	mla	r5, r3, r6, r5
 803641a:	2300      	movs	r3, #0
 803641c:	74ab      	strb	r3, [r5, #18]
 803641e:	3510      	adds	r5, #16
 8036420:	bd70      	pop	{r4, r5, r6, pc}
 8036422:	bf00      	nop
 8036424:	2000c704 	.word	0x2000c704

08036428 <etharp_find_entry>:
 * @return The ARP entry index that matched or is created, ERR_MEM if no
 * entry is found or could be recycled.
 */
static s8_t
etharp_find_entry(ip_addr_t *ipaddr, u8_t flags)
{
 8036428:	e92d 4ff7 	stmdb	sp!, {r0, r1, r2, r4, r5, r6, r7, r8, r9, sl, fp, lr}
  s8_t empty = ARP_TABLE_SIZE;
  u8_t i = 0, age_pending = 0, age_stable = 0;
  /* oldest entry with packets on queue */
  s8_t old_queue = ARP_TABLE_SIZE;
  /* its age */
  u8_t age_queue = 0;
 803642c:	2500      	movs	r5, #0
{
  s8_t old_pending = ARP_TABLE_SIZE, old_stable = ARP_TABLE_SIZE;
  s8_t empty = ARP_TABLE_SIZE;
  u8_t i = 0, age_pending = 0, age_stable = 0;
  /* oldest entry with packets on queue */
  s8_t old_queue = ARP_TABLE_SIZE;
 803642e:	240a      	movs	r4, #10
 8036430:	4a35      	ldr	r2, [pc, #212]	; (8036508 <etharp_find_entry+0xe0>)
 * @return The ARP entry index that matched or is created, ERR_MEM if no
 * entry is found or could be recycled.
 */
static s8_t
etharp_find_entry(ip_addr_t *ipaddr, u8_t flags)
{
 8036432:	9101      	str	r1, [sp, #4]
 8036434:	4606      	mov	r6, r0
  s8_t old_pending = ARP_TABLE_SIZE, old_stable = ARP_TABLE_SIZE;
  s8_t empty = ARP_TABLE_SIZE;
  u8_t i = 0, age_pending = 0, age_stable = 0;
 8036436:	46a8      	mov	r8, r5
 8036438:	46aa      	mov	sl, r5
   * 4) remember the oldest pending entry with queued packets (if any)
   * 5) search for a matching IP entry, either pending or stable
   *    until 5 matches, or all entries are searched for.
   */

  for (i = 0; i < ARP_TABLE_SIZE; ++i) {
 803643a:	462b      	mov	r3, r5
 */
static s8_t
etharp_find_entry(ip_addr_t *ipaddr, u8_t flags)
{
  s8_t old_pending = ARP_TABLE_SIZE, old_stable = ARP_TABLE_SIZE;
  s8_t empty = ARP_TABLE_SIZE;
 803643c:	4627      	mov	r7, r4
 * entry is found or could be recycled.
 */
static s8_t
etharp_find_entry(ip_addr_t *ipaddr, u8_t flags)
{
  s8_t old_pending = ARP_TABLE_SIZE, old_stable = ARP_TABLE_SIZE;
 803643e:	46a4      	mov	ip, r4
 8036440:	46a3      	mov	fp, r4
   */

  for (i = 0; i < ARP_TABLE_SIZE; ++i) {
    u8_t state = arp_table[i].state;
    /* no empty entry found yet and now we do find one? */
    if ((empty == ARP_TABLE_SIZE) && (state == ETHARP_STATE_EMPTY)) {
 8036442:	2f0a      	cmp	r7, #10
   * 5) search for a matching IP entry, either pending or stable
   *    until 5 matches, or all entries are searched for.
   */

  for (i = 0; i < ARP_TABLE_SIZE; ++i) {
    u8_t state = arp_table[i].state;
 8036444:	f892 9012 	ldrb.w	r9, [r2, #18]
    /* no empty entry found yet and now we do find one? */
    if ((empty == ARP_TABLE_SIZE) && (state == ETHARP_STATE_EMPTY)) {
 8036448:	d104      	bne.n	8036454 <etharp_find_entry+0x2c>
 803644a:	f1b9 0f00 	cmp.w	r9, #0
 803644e:	d104      	bne.n	803645a <etharp_find_entry+0x32>
      LWIP_DEBUGF(ETHARP_DEBUG, ("etharp_find_entry: found empty entry %"U16_F"\n", (u16_t)i));
      /* remember first empty entry */
      empty = i;
 8036450:	b2df      	uxtb	r7, r3
 8036452:	e023      	b.n	803649c <etharp_find_entry+0x74>
    } else if (state != ETHARP_STATE_EMPTY) {
 8036454:	f1b9 0f00 	cmp.w	r9, #0
 8036458:	d020      	beq.n	803649c <etharp_find_entry+0x74>
      LWIP_ASSERT("state == ETHARP_STATE_PENDING || state >= ETHARP_STATE_STABLE",
        state == ETHARP_STATE_PENDING || state >= ETHARP_STATE_STABLE);
      /* if given, does IP address match IP address in ARP entry? */
      if (ipaddr && ip_addr_cmp(ipaddr, &arp_table[i].ipaddr)) {
 803645a:	b12e      	cbz	r6, 8036468 <etharp_find_entry+0x40>
 803645c:	6830      	ldr	r0, [r6, #0]
 803645e:	6851      	ldr	r1, [r2, #4]
 8036460:	4288      	cmp	r0, r1
 8036462:	d101      	bne.n	8036468 <etharp_find_entry+0x40>
        LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_find_entry: found matching entry %"U16_F"\n", (u16_t)i));
        /* found exact IP address match, simply bail out */
        return i;
 8036464:	4618      	mov	r0, r3
 8036466:	e04b      	b.n	8036500 <etharp_find_entry+0xd8>
      }
      /* pending entry? */
      if (state == ETHARP_STATE_PENDING) {
 8036468:	f1b9 0f01 	cmp.w	r9, #1
 803646c:	d10e      	bne.n	803648c <etharp_find_entry+0x64>
        /* pending with queued packets? */
        if (arp_table[i].q != NULL) {
 803646e:	6810      	ldr	r0, [r2, #0]
          if (arp_table[i].ctime >= age_queue) {
 8036470:	f892 9013 	ldrb.w	r9, [r2, #19]
        return i;
      }
      /* pending entry? */
      if (state == ETHARP_STATE_PENDING) {
        /* pending with queued packets? */
        if (arp_table[i].q != NULL) {
 8036474:	b120      	cbz	r0, 8036480 <etharp_find_entry+0x58>
          if (arp_table[i].ctime >= age_queue) {
 8036476:	45a9      	cmp	r9, r5
 8036478:	d310      	bcc.n	803649c <etharp_find_entry+0x74>
            old_queue = i;
 803647a:	b2dc      	uxtb	r4, r3
 803647c:	464d      	mov	r5, r9
 803647e:	e00d      	b.n	803649c <etharp_find_entry+0x74>
            age_queue = arp_table[i].ctime;
          }
        } else
        /* pending without queued packets? */
        {
          if (arp_table[i].ctime >= age_pending) {
 8036480:	45d1      	cmp	r9, sl
 8036482:	d30b      	bcc.n	803649c <etharp_find_entry+0x74>
            old_pending = i;
 8036484:	fa5f fb83 	uxtb.w	fp, r3
 8036488:	46ca      	mov	sl, r9
 803648a:	e007      	b.n	803649c <etharp_find_entry+0x74>
            age_pending = arp_table[i].ctime;
          }
        }
      /* stable entry? */
      } else if (state >= ETHARP_STATE_STABLE) {
 803648c:	d906      	bls.n	803649c <etharp_find_entry+0x74>
        /* don't record old_stable for static entries since they never expire */
        if (state < ETHARP_STATE_STATIC)
#endif /* ETHARP_SUPPORT_STATIC_ENTRIES */
        {
          /* remember entry with oldest stable entry in oldest, its age in maxtime */
          if (arp_table[i].ctime >= age_stable) {
 803648e:	f892 9013 	ldrb.w	r9, [r2, #19]
 8036492:	45c1      	cmp	r9, r8
            old_stable = i;
 8036494:	bf24      	itt	cs
 8036496:	fa5f fc83 	uxtbcs.w	ip, r3
 803649a:	46c8      	movcs	r8, r9
   * 4) remember the oldest pending entry with queued packets (if any)
   * 5) search for a matching IP entry, either pending or stable
   *    until 5 matches, or all entries are searched for.
   */

  for (i = 0; i < ARP_TABLE_SIZE; ++i) {
 803649c:	3301      	adds	r3, #1
 803649e:	b2db      	uxtb	r3, r3
 80364a0:	3214      	adds	r2, #20
 80364a2:	2b0a      	cmp	r3, #10
 80364a4:	d1cd      	bne.n	8036442 <etharp_find_entry+0x1a>
    }
  }
  /* { we have no match } => try to create a new entry */
   
  /* don't create new entry, only search? */
  if (((flags & ETHARP_FLAG_FIND_ONLY) != 0) ||
 80364a6:	9a01      	ldr	r2, [sp, #4]
 80364a8:	f002 0302 	and.w	r3, r2, #2
 80364ac:	b2db      	uxtb	r3, r3
 80364ae:	bb33      	cbnz	r3, 80364fe <etharp_find_entry+0xd6>
 80364b0:	2f0a      	cmp	r7, #10
 80364b2:	d102      	bne.n	80364ba <etharp_find_entry+0x92>
      /* or no empty entry found and not allowed to recycle? */
      ((empty == ARP_TABLE_SIZE) && ((flags & ETHARP_FLAG_TRY_HARD) == 0))) {
 80364b4:	07d3      	lsls	r3, r2, #31
 80364b6:	d402      	bmi.n	80364be <etharp_find_entry+0x96>
 80364b8:	e021      	b.n	80364fe <etharp_find_entry+0xd6>
   * { ETHARP_FLAG_TRY_HARD is set at this point }
   */ 

  /* 1) empty entry available? */
  if (empty < ARP_TABLE_SIZE) {
    i = empty;
 80364ba:	b2fc      	uxtb	r4, r7
 80364bc:	e011      	b.n	80364e2 <etharp_find_entry+0xba>
    LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_find_entry: selecting empty entry %"U16_F"\n", (u16_t)i));
  } else {
    /* 2) found recyclable stable entry? */
    if (old_stable < ARP_TABLE_SIZE) {
 80364be:	f1bc 0f0a 	cmp.w	ip, #10
 80364c2:	d002      	beq.n	80364ca <etharp_find_entry+0xa2>
      /* recycle oldest stable*/
      i = old_stable;
 80364c4:	fa5f f48c 	uxtb.w	r4, ip
 80364c8:	e008      	b.n	80364dc <etharp_find_entry+0xb4>
      LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_find_entry: selecting oldest stable entry %"U16_F"\n", (u16_t)i));
      /* no queued packets should exist on stable entries */
      LWIP_ASSERT("arp_table[i].q == NULL", arp_table[i].q == NULL);
    /* 3) found recyclable pending entry without queued packets? */
    } else if (old_pending < ARP_TABLE_SIZE) {
 80364ca:	f1bb 0f0a 	cmp.w	fp, #10
 80364ce:	d002      	beq.n	80364d6 <etharp_find_entry+0xae>
      /* recycle oldest pending */
      i = old_pending;
 80364d0:	fa5f f48b 	uxtb.w	r4, fp
 80364d4:	e002      	b.n	80364dc <etharp_find_entry+0xb4>
      LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_find_entry: selecting oldest pending entry %"U16_F" (without queue)\n", (u16_t)i));
    /* 4) found recyclable pending entry with queued packets? */
    } else if (old_queue < ARP_TABLE_SIZE) {
 80364d6:	2c0a      	cmp	r4, #10
 80364d8:	d011      	beq.n	80364fe <etharp_find_entry+0xd6>
      /* recycle oldest pending (queued packets are free in etharp_free_entry) */
      i = old_queue;
 80364da:	b2e4      	uxtb	r4, r4
      return (s8_t)ERR_MEM;
    }

    /* { empty or recyclable entry found } */
    LWIP_ASSERT("i < ARP_TABLE_SIZE", i < ARP_TABLE_SIZE);
    etharp_free_entry(i);
 80364dc:	4620      	mov	r0, r4
 80364de:	f7ff ff89 	bl	80363f4 <etharp_free_entry>
 80364e2:	4b09      	ldr	r3, [pc, #36]	; (8036508 <etharp_find_entry+0xe0>)
  LWIP_ASSERT("i < ARP_TABLE_SIZE", i < ARP_TABLE_SIZE);
  LWIP_ASSERT("arp_table[i].state == ETHARP_STATE_EMPTY",
    arp_table[i].state == ETHARP_STATE_EMPTY);

  /* IP address given? */
  if (ipaddr != NULL) {
 80364e4:	b126      	cbz	r6, 80364f0 <etharp_find_entry+0xc8>
    /* set IP address */
    ip_addr_copy(arp_table[i].ipaddr, *ipaddr);
 80364e6:	2214      	movs	r2, #20
 80364e8:	6831      	ldr	r1, [r6, #0]
 80364ea:	fb02 3204 	mla	r2, r2, r4, r3
 80364ee:	6051      	str	r1, [r2, #4]
  }
  arp_table[i].ctime = 0;
 80364f0:	2214      	movs	r2, #20
 80364f2:	fb02 3304 	mla	r3, r2, r4, r3
 80364f6:	2200      	movs	r2, #0
 80364f8:	74da      	strb	r2, [r3, #19]
  return (err_t)i;
 80364fa:	4620      	mov	r0, r4
 80364fc:	e000      	b.n	8036500 <etharp_find_entry+0xd8>
  /* don't create new entry, only search? */
  if (((flags & ETHARP_FLAG_FIND_ONLY) != 0) ||
      /* or no empty entry found and not allowed to recycle? */
      ((empty == ARP_TABLE_SIZE) && ((flags & ETHARP_FLAG_TRY_HARD) == 0))) {
    LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_find_entry: no empty entry found and not allowed to recycle\n"));
    return (s8_t)ERR_MEM;
 80364fe:	20ff      	movs	r0, #255	; 0xff
    /* set IP address */
    ip_addr_copy(arp_table[i].ipaddr, *ipaddr);
  }
  arp_table[i].ctime = 0;
  return (err_t)i;
}
 8036500:	b240      	sxtb	r0, r0
 8036502:	e8bd 8ffe 	ldmia.w	sp!, {r1, r2, r3, r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8036506:	bf00      	nop
 8036508:	2000c704 	.word	0x2000c704

0803650c <etharp_tmr>:
 * This function should be called every ETHARP_TMR_INTERVAL milliseconds (5 seconds),
 * in order to expire entries in the ARP table.
 */
void
etharp_tmr(void)
{
 803650c:	b570      	push	{r4, r5, r6, lr}
 803650e:	4c0d      	ldr	r4, [pc, #52]	; (8036544 <etharp_tmr+0x38>)
 8036510:	2500      	movs	r5, #0
        etharp_free_entry(i);
      }
      else if (arp_table[i].state == ETHARP_STATE_STABLE_REREQUESTING) {
        /* Reset state to stable, so that the next transmitted packet will
           re-send an ARP request. */
        arp_table[i].state = ETHARP_STATE_STABLE;
 8036512:	2602      	movs	r6, #2

  LWIP_DEBUGF(ETHARP_DEBUG, ("etharp_timer\n"));
  /* remove expired entries from the ARP table */
  for (i = 0; i < ARP_TABLE_SIZE; ++i) {
    u8_t state = arp_table[i].state;
    if (state != ETHARP_STATE_EMPTY
 8036514:	7ca3      	ldrb	r3, [r4, #18]
 8036516:	b183      	cbz	r3, 803653a <etharp_tmr+0x2e>
#if ETHARP_SUPPORT_STATIC_ENTRIES
      && (state != ETHARP_STATE_STATIC)
#endif /* ETHARP_SUPPORT_STATIC_ENTRIES */
      ) {
      arp_table[i].ctime++;
 8036518:	7ce2      	ldrb	r2, [r4, #19]
 803651a:	3201      	adds	r2, #1
 803651c:	b2d2      	uxtb	r2, r2
      if ((arp_table[i].ctime >= ARP_MAXAGE) ||
 803651e:	2aef      	cmp	r2, #239	; 0xef
    if (state != ETHARP_STATE_EMPTY
#if ETHARP_SUPPORT_STATIC_ENTRIES
      && (state != ETHARP_STATE_STATIC)
#endif /* ETHARP_SUPPORT_STATIC_ENTRIES */
      ) {
      arp_table[i].ctime++;
 8036520:	74e2      	strb	r2, [r4, #19]
      if ((arp_table[i].ctime >= ARP_MAXAGE) ||
 8036522:	d803      	bhi.n	803652c <etharp_tmr+0x20>
 8036524:	2b01      	cmp	r3, #1
 8036526:	d105      	bne.n	8036534 <etharp_tmr+0x28>
          ((arp_table[i].state == ETHARP_STATE_PENDING)  &&
 8036528:	2a01      	cmp	r2, #1
 803652a:	d906      	bls.n	803653a <etharp_tmr+0x2e>
           (arp_table[i].ctime >= ARP_MAXPENDING))) {
        /* pending or stable entry has become old! */
        LWIP_DEBUGF(ETHARP_DEBUG, ("etharp_timer: expired %s entry %"U16_F".\n",
             arp_table[i].state >= ETHARP_STATE_STABLE ? "stable" : "pending", (u16_t)i));
        /* clean up entries that have just been expired */
        etharp_free_entry(i);
 803652c:	4628      	mov	r0, r5
 803652e:	f7ff ff61 	bl	80363f4 <etharp_free_entry>
 8036532:	e002      	b.n	803653a <etharp_tmr+0x2e>
      }
      else if (arp_table[i].state == ETHARP_STATE_STABLE_REREQUESTING) {
 8036534:	2b03      	cmp	r3, #3
        /* Reset state to stable, so that the next transmitted packet will
           re-send an ARP request. */
        arp_table[i].state = ETHARP_STATE_STABLE;
 8036536:	bf08      	it	eq
 8036538:	74a6      	strbeq	r6, [r4, #18]
 803653a:	3501      	adds	r5, #1
 803653c:	3414      	adds	r4, #20
{
  u8_t i;

  LWIP_DEBUGF(ETHARP_DEBUG, ("etharp_timer\n"));
  /* remove expired entries from the ARP table */
  for (i = 0; i < ARP_TABLE_SIZE; ++i) {
 803653e:	2d0a      	cmp	r5, #10
 8036540:	d1e8      	bne.n	8036514 <etharp_tmr+0x8>
        /* resend an ARP query here? */
      }
#endif /* ARP_QUEUEING */
    }
  }
}
 8036542:	bd70      	pop	{r4, r5, r6, pc}
 8036544:	2000c704 	.word	0x2000c704

08036548 <etharp_cleanup_netif>:
 * Remove all ARP table entries of the specified netif.
 *
 * @param netif points to a network interface
 */
void etharp_cleanup_netif(struct netif *netif)
{
 8036548:	b570      	push	{r4, r5, r6, lr}
 803654a:	4d08      	ldr	r5, [pc, #32]	; (803656c <etharp_cleanup_netif+0x24>)
 803654c:	4606      	mov	r6, r0
 803654e:	2400      	movs	r4, #0
  u8_t i;

  for (i = 0; i < ARP_TABLE_SIZE; ++i) {
    u8_t state = arp_table[i].state;
    if ((state != ETHARP_STATE_EMPTY) && (arp_table[i].netif == netif)) {
 8036550:	7cab      	ldrb	r3, [r5, #18]
 8036552:	b12b      	cbz	r3, 8036560 <etharp_cleanup_netif+0x18>
 8036554:	68ab      	ldr	r3, [r5, #8]
 8036556:	42b3      	cmp	r3, r6
 8036558:	d102      	bne.n	8036560 <etharp_cleanup_netif+0x18>
      etharp_free_entry(i);
 803655a:	4620      	mov	r0, r4
 803655c:	f7ff ff4a 	bl	80363f4 <etharp_free_entry>
 8036560:	3401      	adds	r4, #1
 8036562:	3514      	adds	r5, #20
 */
void etharp_cleanup_netif(struct netif *netif)
{
  u8_t i;

  for (i = 0; i < ARP_TABLE_SIZE; ++i) {
 8036564:	2c0a      	cmp	r4, #10
 8036566:	d1f3      	bne.n	8036550 <etharp_cleanup_netif+0x8>
    u8_t state = arp_table[i].state;
    if ((state != ETHARP_STATE_EMPTY) && (arp_table[i].netif == netif)) {
      etharp_free_entry(i);
    }
  }
}
 8036568:	bd70      	pop	{r4, r5, r6, pc}
 803656a:	bf00      	nop
 803656c:	2000c704 	.word	0x2000c704

08036570 <etharp_find_addr>:
 * @return table index if found, -1 otherwise
 */
s8_t
etharp_find_addr(struct netif *netif, ip_addr_t *ipaddr,
         struct eth_addr **eth_ret, ip_addr_t **ip_ret)
{
 8036570:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
  LWIP_ASSERT("eth_ret != NULL && ip_ret != NULL",
    eth_ret != NULL && ip_ret != NULL);

  LWIP_UNUSED_ARG(netif);

  i = etharp_find_entry(ipaddr, ETHARP_FLAG_FIND_ONLY);
 8036572:	4608      	mov	r0, r1
 8036574:	2102      	movs	r1, #2
 * @return table index if found, -1 otherwise
 */
s8_t
etharp_find_addr(struct netif *netif, ip_addr_t *ipaddr,
         struct eth_addr **eth_ret, ip_addr_t **ip_ret)
{
 8036576:	4616      	mov	r6, r2
 8036578:	461f      	mov	r7, r3
  LWIP_ASSERT("eth_ret != NULL && ip_ret != NULL",
    eth_ret != NULL && ip_ret != NULL);

  LWIP_UNUSED_ARG(netif);

  i = etharp_find_entry(ipaddr, ETHARP_FLAG_FIND_ONLY);
 803657a:	f7ff ff55 	bl	8036428 <etharp_find_entry>
  if((i >= 0) && (arp_table[i].state >= ETHARP_STATE_STABLE)) {
 803657e:	2800      	cmp	r0, #0
 8036580:	db0c      	blt.n	803659c <etharp_find_addr+0x2c>
 8036582:	2414      	movs	r4, #20
 8036584:	4d07      	ldr	r5, [pc, #28]	; (80365a4 <etharp_find_addr+0x34>)
 8036586:	4344      	muls	r4, r0
 8036588:	1929      	adds	r1, r5, r4
 803658a:	7c8b      	ldrb	r3, [r1, #18]
 803658c:	2b01      	cmp	r3, #1
 803658e:	d905      	bls.n	803659c <etharp_find_addr+0x2c>
      *eth_ret = &arp_table[i].ethaddr;
 8036590:	460c      	mov	r4, r1
 8036592:	340c      	adds	r4, #12
      *ip_ret = &arp_table[i].ipaddr;
 8036594:	3104      	adds	r1, #4

  LWIP_UNUSED_ARG(netif);

  i = etharp_find_entry(ipaddr, ETHARP_FLAG_FIND_ONLY);
  if((i >= 0) && (arp_table[i].state >= ETHARP_STATE_STABLE)) {
      *eth_ret = &arp_table[i].ethaddr;
 8036596:	6034      	str	r4, [r6, #0]
      *ip_ret = &arp_table[i].ipaddr;
 8036598:	6039      	str	r1, [r7, #0]
      return i;
 803659a:	e000      	b.n	803659e <etharp_find_addr+0x2e>
  }
  return -1;
 803659c:	20ff      	movs	r0, #255	; 0xff
}
 803659e:	b240      	sxtb	r0, r0
 80365a0:	bdf8      	pop	{r3, r4, r5, r6, r7, pc}
 80365a2:	bf00      	nop
 80365a4:	2000c704 	.word	0x2000c704

080365a8 <etharp_request>:
 *         ERR_MEM if the ARP packet couldn't be allocated
 *         any other err_t on failure
 */
err_t
etharp_request(struct netif *netif, ip_addr_t *ipaddr)
{
 80365a8:	e92d 43f8 	stmdb	sp!, {r3, r4, r5, r6, r7, r8, r9, lr}
#endif /* LWIP_AUTOIP */

  LWIP_ASSERT("netif != NULL", netif != NULL);

  /* allocate a pbuf for the outgoing ARP request packet */
  p = pbuf_alloc(PBUF_RAW, SIZEOF_ETHARP_PACKET, PBUF_RAM);
 80365ac:	2200      	movs	r2, #0
 *         ERR_MEM if the ARP packet couldn't be allocated
 *         any other err_t on failure
 */
err_t
etharp_request(struct netif *netif, ip_addr_t *ipaddr)
{
 80365ae:	4606      	mov	r6, r0
 80365b0:	4688      	mov	r8, r1
  LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_request: sending ARP request.\n"));
  return etharp_raw(netif, (struct eth_addr *)netif->hwaddr, &ethbroadcast,
                    (struct eth_addr *)netif->hwaddr, &netif->ip_addr, &ethzero,
 80365b2:	f100 0727 	add.w	r7, r0, #39	; 0x27
 80365b6:	f100 0904 	add.w	r9, r0, #4
#endif /* LWIP_AUTOIP */

  LWIP_ASSERT("netif != NULL", netif != NULL);

  /* allocate a pbuf for the outgoing ARP request packet */
  p = pbuf_alloc(PBUF_RAW, SIZEOF_ETHARP_PACKET, PBUF_RAM);
 80365ba:	212a      	movs	r1, #42	; 0x2a
 80365bc:	2003      	movs	r0, #3
 80365be:	f7f8 ffe8 	bl	802f592 <pbuf_alloc>
  /* could allocate a pbuf for an ARP request? */
  if (p == NULL) {
 80365c2:	4605      	mov	r5, r0
 80365c4:	2800      	cmp	r0, #0
 80365c6:	d03c      	beq.n	8036642 <etharp_request+0x9a>
    return ERR_MEM;
  }
  LWIP_ASSERT("check that first pbuf can hold struct etharp_hdr",
              (p->len >= SIZEOF_ETHARP_PACKET));

  ethhdr = (struct eth_hdr *)p->payload;
 80365c8:	6844      	ldr	r4, [r0, #4]
  hdr = (struct etharp_hdr *)((u8_t*)ethhdr + SIZEOF_ETH_HDR);
  LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_raw: sending raw ARP packet.\n"));
  hdr->opcode = htons(opcode);
 80365ca:	2001      	movs	r0, #1
 80365cc:	f7f7 fe56 	bl	802e27c <lwip_htons>
   * 'sender IP address' MUST be sent using link-layer broadcast instead of
   * link-layer unicast. (See RFC3927 Section 2.5, last paragraph) */
  ethdst_hwaddr = ip_addr_islinklocal(ipsrc_addr) ? (u8_t*)(ethbroadcast.addr) : ethdst_addr->addr;
#endif /* LWIP_AUTOIP */
  /* Write the ARP MAC-Addresses */
  ETHADDR16_COPY(&hdr->shwaddr, hwsrc_addr);
 80365d0:	4639      	mov	r1, r7
              (p->len >= SIZEOF_ETHARP_PACKET));

  ethhdr = (struct eth_hdr *)p->payload;
  hdr = (struct etharp_hdr *)((u8_t*)ethhdr + SIZEOF_ETH_HDR);
  LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_raw: sending raw ARP packet.\n"));
  hdr->opcode = htons(opcode);
 80365d2:	82a0      	strh	r0, [r4, #20]
   * 'sender IP address' MUST be sent using link-layer broadcast instead of
   * link-layer unicast. (See RFC3927 Section 2.5, last paragraph) */
  ethdst_hwaddr = ip_addr_islinklocal(ipsrc_addr) ? (u8_t*)(ethbroadcast.addr) : ethdst_addr->addr;
#endif /* LWIP_AUTOIP */
  /* Write the ARP MAC-Addresses */
  ETHADDR16_COPY(&hdr->shwaddr, hwsrc_addr);
 80365d4:	2206      	movs	r2, #6
 80365d6:	f104 0016 	add.w	r0, r4, #22
 80365da:	f7eb fb27 	bl	8021c2c <memcpy>
  ETHADDR16_COPY(&hdr->dhwaddr, hwdst_addr);
 80365de:	2206      	movs	r2, #6
 80365e0:	f104 0020 	add.w	r0, r4, #32
 80365e4:	4919      	ldr	r1, [pc, #100]	; (803664c <etharp_request+0xa4>)
 80365e6:	f7eb fb21 	bl	8021c2c <memcpy>
  /* Write the Ethernet MAC-Addresses */
#if LWIP_AUTOIP
  ETHADDR16_COPY(&ethhdr->dest, ethdst_hwaddr);
#else  /* LWIP_AUTOIP */
  ETHADDR16_COPY(&ethhdr->dest, ethdst_addr);
 80365ea:	2206      	movs	r2, #6
 80365ec:	4620      	mov	r0, r4
 80365ee:	4918      	ldr	r1, [pc, #96]	; (8036650 <etharp_request+0xa8>)
 80365f0:	f7eb fb1c 	bl	8021c2c <memcpy>
#endif /* LWIP_AUTOIP */
  ETHADDR16_COPY(&ethhdr->src, ethsrc_addr);
 80365f4:	1da0      	adds	r0, r4, #6
 80365f6:	4639      	mov	r1, r7
 80365f8:	2206      	movs	r2, #6
 80365fa:	f7eb fb17 	bl	8021c2c <memcpy>
  /* Copy struct ip_addr2 to aligned ip_addr, to support compilers without
   * structure packing. */ 
  IPADDR2_COPY(&hdr->sipaddr, ipsrc_addr);
 80365fe:	4649      	mov	r1, r9
 8036600:	2204      	movs	r2, #4
 8036602:	f104 001c 	add.w	r0, r4, #28
 8036606:	f7eb fb11 	bl	8021c2c <memcpy>
  IPADDR2_COPY(&hdr->dipaddr, ipdst_addr);
 803660a:	4641      	mov	r1, r8
 803660c:	2204      	movs	r2, #4
 803660e:	f104 0026 	add.w	r0, r4, #38	; 0x26
 8036612:	f7eb fb0b 	bl	8021c2c <memcpy>

  hdr->hwtype = PP_HTONS(HWTYPE_ETHERNET);
 8036616:	2300      	movs	r3, #0
 8036618:	2201      	movs	r2, #1
 803661a:	73a3      	strb	r3, [r4, #14]
 803661c:	73e2      	strb	r2, [r4, #15]
  hdr->proto = PP_HTONS(ETHTYPE_IP);
 803661e:	7463      	strb	r3, [r4, #17]
 8036620:	2208      	movs	r2, #8
  /* set hwlen and protolen */
  hdr->hwlen = ETHARP_HWADDR_LEN;
 8036622:	2306      	movs	r3, #6
  hdr->protolen = sizeof(ip_addr_t);
 8036624:	2104      	movs	r1, #4
   * structure packing. */ 
  IPADDR2_COPY(&hdr->sipaddr, ipsrc_addr);
  IPADDR2_COPY(&hdr->dipaddr, ipdst_addr);

  hdr->hwtype = PP_HTONS(HWTYPE_ETHERNET);
  hdr->proto = PP_HTONS(ETHTYPE_IP);
 8036626:	7422      	strb	r2, [r4, #16]
  /* set hwlen and protolen */
  hdr->hwlen = ETHARP_HWADDR_LEN;
  hdr->protolen = sizeof(ip_addr_t);
 8036628:	74e1      	strb	r1, [r4, #19]

  ethhdr->type = PP_HTONS(ETHTYPE_ARP);
 803662a:	7322      	strb	r2, [r4, #12]
  IPADDR2_COPY(&hdr->dipaddr, ipdst_addr);

  hdr->hwtype = PP_HTONS(HWTYPE_ETHERNET);
  hdr->proto = PP_HTONS(ETHTYPE_IP);
  /* set hwlen and protolen */
  hdr->hwlen = ETHARP_HWADDR_LEN;
 803662c:	74a3      	strb	r3, [r4, #18]
  hdr->protolen = sizeof(ip_addr_t);

  ethhdr->type = PP_HTONS(ETHTYPE_ARP);
 803662e:	7363      	strb	r3, [r4, #13]
  /* send ARP query */
  result = netif->linkoutput(netif, p);
 8036630:	69b3      	ldr	r3, [r6, #24]
 8036632:	4630      	mov	r0, r6
 8036634:	4629      	mov	r1, r5
 8036636:	4798      	blx	r3
 8036638:	4604      	mov	r4, r0
  ETHARP_STATS_INC(etharp.xmit);
  /* free ARP query packet */
  pbuf_free(p);
 803663a:	4628      	mov	r0, r5
 803663c:	f7f8 ff5c 	bl	802f4f8 <pbuf_free>
 8036640:	e000      	b.n	8036644 <etharp_request+0x9c>
  /* could allocate a pbuf for an ARP request? */
  if (p == NULL) {
    LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS,
      ("etharp_raw: could not allocate pbuf for ARP request.\n"));
    ETHARP_STATS_INC(etharp.memerr);
    return ERR_MEM;
 8036642:	24ff      	movs	r4, #255	; 0xff
{
  LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_request: sending ARP request.\n"));
  return etharp_raw(netif, (struct eth_addr *)netif->hwaddr, &ethbroadcast,
                    (struct eth_addr *)netif->hwaddr, &netif->ip_addr, &ethzero,
                    ipaddr, ARP_REQUEST);
}
 8036644:	b260      	sxtb	r0, r4
 8036646:	e8bd 83f8 	ldmia.w	sp!, {r3, r4, r5, r6, r7, r8, r9, pc}
 803664a:	bf00      	nop
 803664c:	08044919 	.word	0x08044919
 8036650:	08044913 	.word	0x08044913

08036654 <etharp_query>:
 * - ERR_ARG Non-unicast address given, those will not appear in ARP cache.
 *
 */
err_t
etharp_query(struct netif *netif, ip_addr_t *ipaddr, struct pbuf *q)
{
 8036654:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
 8036658:	4607      	mov	r7, r0
 803665a:	460e      	mov	r6, r1
  struct eth_addr * srcaddr = (struct eth_addr *)netif->hwaddr;
  err_t result = ERR_MEM;
  s8_t i; /* ARP entry index */

  /* non-unicast address? */
  if (ip_addr_isbroadcast(ipaddr, netif) ||
 803665c:	6808      	ldr	r0, [r1, #0]
 803665e:	4639      	mov	r1, r7
 * - ERR_ARG Non-unicast address given, those will not appear in ARP cache.
 *
 */
err_t
etharp_query(struct netif *netif, ip_addr_t *ipaddr, struct pbuf *q)
{
 8036660:	4615      	mov	r5, r2
  struct eth_addr * srcaddr = (struct eth_addr *)netif->hwaddr;
  err_t result = ERR_MEM;
  s8_t i; /* ARP entry index */

  /* non-unicast address? */
  if (ip_addr_isbroadcast(ipaddr, netif) ||
 8036662:	f7fb fde3 	bl	803222c <ip4_addr_isbroadcast>
 8036666:	2800      	cmp	r0, #0
 8036668:	d157      	bne.n	803671a <etharp_query+0xc6>
      ip_addr_ismulticast(ipaddr) ||
 803666a:	6833      	ldr	r3, [r6, #0]
 803666c:	f003 02f0 	and.w	r2, r3, #240	; 0xf0
  struct eth_addr * srcaddr = (struct eth_addr *)netif->hwaddr;
  err_t result = ERR_MEM;
  s8_t i; /* ARP entry index */

  /* non-unicast address? */
  if (ip_addr_isbroadcast(ipaddr, netif) ||
 8036670:	2ae0      	cmp	r2, #224	; 0xe0
 8036672:	d052      	beq.n	803671a <etharp_query+0xc6>
      ip_addr_ismulticast(ipaddr) ||
      ip_addr_isany(ipaddr)) {
 8036674:	2b00      	cmp	r3, #0
 8036676:	d050      	beq.n	803671a <etharp_query+0xc6>
    LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_query: will not add non-unicast IP address to ARP cache\n"));
    return ERR_ARG;
  }

  /* find entry in ARP cache, ask to create entry if queueing packet */
  i = etharp_find_entry(ipaddr, ETHARP_FLAG_TRY_HARD);
 8036678:	2101      	movs	r1, #1
 803667a:	4630      	mov	r0, r6
 803667c:	f7ff fed4 	bl	8036428 <etharp_find_entry>

  /* could not find or create entry? */
  if (i < 0) {
 8036680:	1e04      	subs	r4, r0, #0
 8036682:	db4f      	blt.n	8036724 <etharp_query+0xd0>
    }
    return (err_t)i;
  }

  /* mark a fresh entry as pending (we just sent a request) */
  if (arp_table[i].state == ETHARP_STATE_EMPTY) {
 8036684:	4931      	ldr	r1, [pc, #196]	; (803674c <etharp_query+0xf8>)
 8036686:	2214      	movs	r2, #20
 8036688:	fb02 1304 	mla	r3, r2, r4, r1
 803668c:	3310      	adds	r3, #16
 803668e:	7898      	ldrb	r0, [r3, #2]
 8036690:	b908      	cbnz	r0, 8036696 <etharp_query+0x42>
    arp_table[i].state = ETHARP_STATE_PENDING;
 8036692:	2001      	movs	r0, #1
 8036694:	7098      	strb	r0, [r3, #2]
  LWIP_ASSERT("arp_table[i].state == PENDING or STABLE",
  ((arp_table[i].state == ETHARP_STATE_PENDING) ||
   (arp_table[i].state >= ETHARP_STATE_STABLE)));

  /* do we have a pending entry? or an implicit query request? */
  if ((arp_table[i].state == ETHARP_STATE_PENDING) || (q == NULL)) {
 8036696:	fb02 1204 	mla	r2, r2, r4, r1
 803669a:	7c93      	ldrb	r3, [r2, #18]
 803669c:	2b01      	cmp	r3, #1
 803669e:	d000      	beq.n	80366a2 <etharp_query+0x4e>
 80366a0:	b935      	cbnz	r5, 80366b0 <etharp_query+0x5c>
    /* try to resolve it; send out ARP request */
    result = etharp_request(netif, ipaddr);
 80366a2:	4638      	mov	r0, r7
 80366a4:	4631      	mov	r1, r6
 80366a6:	f7ff ff7f 	bl	80365a8 <etharp_request>
 80366aa:	4602      	mov	r2, r0
      /* ARP request couldn't be sent */
      /* We don't re-send arp request in etharp_tmr, but we still queue packets,
         since this failure could be temporary, and the next packet calling
         etharp_query again could lead to sending the queued packets. */
    }
    if (q == NULL) {
 80366ac:	b90d      	cbnz	r5, 80366b2 <etharp_query+0x5e>
 80366ae:	e036      	b.n	803671e <etharp_query+0xca>
 */
err_t
etharp_query(struct netif *netif, ip_addr_t *ipaddr, struct pbuf *q)
{
  struct eth_addr * srcaddr = (struct eth_addr *)netif->hwaddr;
  err_t result = ERR_MEM;
 80366b0:	22ff      	movs	r2, #255	; 0xff
  }

  /* packet given? */
  LWIP_ASSERT("q != NULL", q != NULL);
  /* stable entry? */
  if (arp_table[i].state >= ETHARP_STATE_STABLE) {
 80366b2:	2314      	movs	r3, #20
 80366b4:	4925      	ldr	r1, [pc, #148]	; (803674c <etharp_query+0xf8>)
 80366b6:	4363      	muls	r3, r4
 80366b8:	18c8      	adds	r0, r1, r3
 80366ba:	7c80      	ldrb	r0, [r0, #18]
 80366bc:	2801      	cmp	r0, #1
 80366be:	d90b      	bls.n	80366d8 <etharp_query+0x84>
    /* we have a valid IP->Ethernet address mapping */
    ETHARP_SET_HINT(netif, i);
 80366c0:	4a23      	ldr	r2, [pc, #140]	; (8036750 <etharp_query+0xfc>)
    /* send the packet */
    result = etharp_send_ip(netif, q, srcaddr, &(arp_table[i].ethaddr));
 80366c2:	18cb      	adds	r3, r1, r3
  /* packet given? */
  LWIP_ASSERT("q != NULL", q != NULL);
  /* stable entry? */
  if (arp_table[i].state >= ETHARP_STATE_STABLE) {
    /* we have a valid IP->Ethernet address mapping */
    ETHARP_SET_HINT(netif, i);
 80366c4:	7014      	strb	r4, [r2, #0]
    /* send the packet */
    result = etharp_send_ip(netif, q, srcaddr, &(arp_table[i].ethaddr));
 80366c6:	4638      	mov	r0, r7
 80366c8:	4629      	mov	r1, r5
 80366ca:	f107 0227 	add.w	r2, r7, #39	; 0x27
 80366ce:	330c      	adds	r3, #12
      LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_query: could not queue a copy of PBUF_REF packet %p (out of memory)\n", (void *)q));
      result = ERR_MEM;
    }
  }
  return result;
}
 80366d0:	e8bd 41f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, lr}
  /* stable entry? */
  if (arp_table[i].state >= ETHARP_STATE_STABLE) {
    /* we have a valid IP->Ethernet address mapping */
    ETHARP_SET_HINT(netif, i);
    /* send the packet */
    result = etharp_send_ip(netif, q, srcaddr, &(arp_table[i].ethaddr));
 80366d4:	f7ff be76 	b.w	80363c4 <etharp_send_ip>
  /* pending entry? (either just created or already pending */
  } else if (arp_table[i].state == ETHARP_STATE_PENDING) {
 80366d8:	d123      	bne.n	8036722 <etharp_query+0xce>
 80366da:	462b      	mov	r3, r5
 80366dc:	e003      	b.n	80366e6 <etharp_query+0x92>
     * to copy the whole queue into a new PBUF_RAM (see bug #11400) 
     * PBUF_ROMs can be left as they are, since ROM must not get changed. */
    p = q;
    while (p) {
      LWIP_ASSERT("no packet queues allowed!", (p->len != p->tot_len) || (p->next == 0));
      if(p->type != PBUF_ROM) {
 80366de:	7b1a      	ldrb	r2, [r3, #12]
 80366e0:	2a01      	cmp	r2, #1
 80366e2:	d128      	bne.n	8036736 <etharp_query+0xe2>
        copy_needed = 1;
        break;
      }
      p = p->next;
 80366e4:	681b      	ldr	r3, [r3, #0]
    int copy_needed = 0;
    /* IF q includes a PBUF_REF, PBUF_POOL or PBUF_RAM, we have no choice but
     * to copy the whole queue into a new PBUF_RAM (see bug #11400) 
     * PBUF_ROMs can be left as they are, since ROM must not get changed. */
    p = q;
    while (p) {
 80366e6:	2b00      	cmp	r3, #0
 80366e8:	d1f9      	bne.n	80366de <etharp_query+0x8a>
 80366ea:	e01e      	b.n	803672a <etharp_query+0xd6>
    }
    if(copy_needed) {
      /* copy the whole packet into new pbufs */
      p = pbuf_alloc(PBUF_RAW, p->tot_len, PBUF_RAM);
      if(p != NULL) {
        if (pbuf_copy(p, q) != ERR_OK) {
 80366ec:	4629      	mov	r1, r5
 80366ee:	f7f9 f807 	bl	802f700 <pbuf_copy>
 80366f2:	b120      	cbz	r0, 80366fe <etharp_query+0xaa>
          pbuf_free(p);
 80366f4:	4630      	mov	r0, r6
 80366f6:	f7f8 feff 	bl	802f4f8 <pbuf_free>
 80366fa:	e024      	b.n	8036746 <etharp_query+0xf2>
      /* referencing the old pbuf is enough */
      p = q;
      pbuf_ref(p);
    }
    /* packet could be taken over? */
    if (p != NULL) {
 80366fc:	462e      	mov	r6, r5
        LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_query: could not queue a copy of PBUF_REF packet %p (out of memory)\n", (void *)q));
        result = ERR_MEM;
      }
#else /* ARP_QUEUEING */
      /* always queue one packet per ARP request only, freeing a previously queued packet */
      if (arp_table[i].q != NULL) {
 80366fe:	2314      	movs	r3, #20
 8036700:	4a12      	ldr	r2, [pc, #72]	; (803674c <etharp_query+0xf8>)
 8036702:	fb03 f104 	mul.w	r1, r3, r4
 8036706:	4615      	mov	r5, r2
 8036708:	5850      	ldr	r0, [r2, r1]
 803670a:	461f      	mov	r7, r3
 803670c:	b108      	cbz	r0, 8036712 <etharp_query+0xbe>
        LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_query: dropped previously queued packet %p for ARP entry %"S16_F"\n", (void *)q, (s16_t)i));
        pbuf_free(arp_table[i].q);
 803670e:	f7f8 fef3 	bl	802f4f8 <pbuf_free>
      }
      arp_table[i].q = p;
 8036712:	437c      	muls	r4, r7
 8036714:	512e      	str	r6, [r5, r4]
      result = ERR_OK;
 8036716:	2400      	movs	r4, #0
 8036718:	e004      	b.n	8036724 <etharp_query+0xd0>
  /* non-unicast address? */
  if (ip_addr_isbroadcast(ipaddr, netif) ||
      ip_addr_ismulticast(ipaddr) ||
      ip_addr_isany(ipaddr)) {
    LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_query: will not add non-unicast IP address to ARP cache\n"));
    return ERR_ARG;
 803671a:	24f2      	movs	r4, #242	; 0xf2
 803671c:	e002      	b.n	8036724 <etharp_query+0xd0>
      /* We don't re-send arp request in etharp_tmr, but we still queue packets,
         since this failure could be temporary, and the next packet calling
         etharp_query again could lead to sending the queued packets. */
    }
    if (q == NULL) {
      return result;
 803671e:	4604      	mov	r4, r0
 8036720:	e000      	b.n	8036724 <etharp_query+0xd0>
    /* we have a valid IP->Ethernet address mapping */
    ETHARP_SET_HINT(netif, i);
    /* send the packet */
    result = etharp_send_ip(netif, q, srcaddr, &(arp_table[i].ethaddr));
  /* pending entry? (either just created or already pending */
  } else if (arp_table[i].state == ETHARP_STATE_PENDING) {
 8036722:	4614      	mov	r4, r2
 8036724:	b260      	sxtb	r0, r4
 8036726:	e8bd 81f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, pc}
        }
      }
    } else {
      /* referencing the old pbuf is enough */
      p = q;
      pbuf_ref(p);
 803672a:	4628      	mov	r0, r5
 803672c:	f7f8 ffc1 	bl	802f6b2 <pbuf_ref>
    }
    /* packet could be taken over? */
    if (p != NULL) {
 8036730:	2d00      	cmp	r5, #0
 8036732:	d1e3      	bne.n	80366fc <etharp_query+0xa8>
 8036734:	e007      	b.n	8036746 <etharp_query+0xf2>
      }
      p = p->next;
    }
    if(copy_needed) {
      /* copy the whole packet into new pbufs */
      p = pbuf_alloc(PBUF_RAW, p->tot_len, PBUF_RAM);
 8036736:	2003      	movs	r0, #3
 8036738:	8919      	ldrh	r1, [r3, #8]
 803673a:	2200      	movs	r2, #0
 803673c:	f7f8 ff29 	bl	802f592 <pbuf_alloc>
      if(p != NULL) {
 8036740:	4606      	mov	r6, r0
 8036742:	2800      	cmp	r0, #0
 8036744:	d1d2      	bne.n	80366ec <etharp_query+0x98>
      LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_query: queued packet %p on ARP entry %"S16_F"\n", (void *)q, (s16_t)i));
#endif /* ARP_QUEUEING */
    } else {
      ETHARP_STATS_INC(etharp.memerr);
      LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_query: could not queue a copy of PBUF_REF packet %p (out of memory)\n", (void *)q));
      result = ERR_MEM;
 8036746:	24ff      	movs	r4, #255	; 0xff
 8036748:	e7ec      	b.n	8036724 <etharp_query+0xd0>
 803674a:	bf00      	nop
 803674c:	2000c704 	.word	0x2000c704
 8036750:	2000c700 	.word	0x2000c700

08036754 <etharp_output_to_arp_index>:
/** Just a small helper function that sends a pbuf to an ethernet address
 * in the arp_table specified by the index 'arp_idx'.
 */
static err_t
etharp_output_to_arp_index(struct netif *netif, struct pbuf *q, u8_t arp_idx)
{
 8036754:	e92d 41f0 	stmdb	sp!, {r4, r5, r6, r7, r8, lr}
  LWIP_ASSERT("arp_table[arp_idx].state >= ETHARP_STATE_STABLE",
              arp_table[arp_idx].state >= ETHARP_STATE_STABLE);
  /* if arp table entry is about to expire: re-request it,
     but only if its state is ETHARP_STATE_STABLE to prevent flooding the
     network with ARP requests if this address is used frequently. */
  if ((arp_table[arp_idx].state == ETHARP_STATE_STABLE) && 
 8036758:	4b10      	ldr	r3, [pc, #64]	; (803679c <etharp_output_to_arp_index+0x48>)
/** Just a small helper function that sends a pbuf to an ethernet address
 * in the arp_table specified by the index 'arp_idx'.
 */
static err_t
etharp_output_to_arp_index(struct netif *netif, struct pbuf *q, u8_t arp_idx)
{
 803675a:	4615      	mov	r5, r2
  LWIP_ASSERT("arp_table[arp_idx].state >= ETHARP_STATE_STABLE",
              arp_table[arp_idx].state >= ETHARP_STATE_STABLE);
  /* if arp table entry is about to expire: re-request it,
     but only if its state is ETHARP_STATE_STABLE to prevent flooding the
     network with ARP requests if this address is used frequently. */
  if ((arp_table[arp_idx].state == ETHARP_STATE_STABLE) && 
 803675c:	2214      	movs	r2, #20
/** Just a small helper function that sends a pbuf to an ethernet address
 * in the arp_table specified by the index 'arp_idx'.
 */
static err_t
etharp_output_to_arp_index(struct netif *netif, struct pbuf *q, u8_t arp_idx)
{
 803675e:	460e      	mov	r6, r1
  LWIP_ASSERT("arp_table[arp_idx].state >= ETHARP_STATE_STABLE",
              arp_table[arp_idx].state >= ETHARP_STATE_STABLE);
  /* if arp table entry is about to expire: re-request it,
     but only if its state is ETHARP_STATE_STABLE to prevent flooding the
     network with ARP requests if this address is used frequently. */
  if ((arp_table[arp_idx].state == ETHARP_STATE_STABLE) && 
 8036760:	fb02 3105 	mla	r1, r2, r5, r3
/** Just a small helper function that sends a pbuf to an ethernet address
 * in the arp_table specified by the index 'arp_idx'.
 */
static err_t
etharp_output_to_arp_index(struct netif *netif, struct pbuf *q, u8_t arp_idx)
{
 8036764:	4607      	mov	r7, r0
  LWIP_ASSERT("arp_table[arp_idx].state >= ETHARP_STATE_STABLE",
              arp_table[arp_idx].state >= ETHARP_STATE_STABLE);
  /* if arp table entry is about to expire: re-request it,
     but only if its state is ETHARP_STATE_STABLE to prevent flooding the
     network with ARP requests if this address is used frequently. */
  if ((arp_table[arp_idx].state == ETHARP_STATE_STABLE) && 
 8036766:	7c8a      	ldrb	r2, [r1, #18]
 8036768:	2a02      	cmp	r2, #2
 803676a:	f101 0410 	add.w	r4, r1, #16
 803676e:	d108      	bne.n	8036782 <etharp_output_to_arp_index+0x2e>
 8036770:	7cca      	ldrb	r2, [r1, #19]
 8036772:	2ae3      	cmp	r2, #227	; 0xe3
 8036774:	d905      	bls.n	8036782 <etharp_output_to_arp_index+0x2e>
      (arp_table[arp_idx].ctime >= ARP_AGE_REREQUEST_USED)) {
    if (etharp_request(netif, &arp_table[arp_idx].ipaddr) == ERR_OK) {
 8036776:	3104      	adds	r1, #4
 8036778:	f7ff ff16 	bl	80365a8 <etharp_request>
 803677c:	b908      	cbnz	r0, 8036782 <etharp_output_to_arp_index+0x2e>
      arp_table[arp_idx].state = ETHARP_STATE_STABLE_REREQUESTING;
 803677e:	2303      	movs	r3, #3
 8036780:	70a3      	strb	r3, [r4, #2]
    }
  }
  
  return etharp_send_ip(netif, q, (struct eth_addr*)(netif->hwaddr),
 8036782:	4b06      	ldr	r3, [pc, #24]	; (803679c <etharp_output_to_arp_index+0x48>)
 8036784:	2214      	movs	r2, #20
 8036786:	fb02 3305 	mla	r3, r2, r5, r3
 803678a:	4638      	mov	r0, r7
 803678c:	4631      	mov	r1, r6
 803678e:	f107 0227 	add.w	r2, r7, #39	; 0x27
 8036792:	330c      	adds	r3, #12
    &arp_table[arp_idx].ethaddr);
}
 8036794:	e8bd 41f0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, lr}
    if (etharp_request(netif, &arp_table[arp_idx].ipaddr) == ERR_OK) {
      arp_table[arp_idx].state = ETHARP_STATE_STABLE_REREQUESTING;
    }
  }
  
  return etharp_send_ip(netif, q, (struct eth_addr*)(netif->hwaddr),
 8036798:	f7ff be14 	b.w	80363c4 <etharp_send_ip>
 803679c:	2000c704 	.word	0x2000c704

080367a0 <etharp_output>:
 * - ERR_RTE No route to destination (no gateway to external networks),
 * or the return type of either etharp_query() or etharp_send_ip().
 */
err_t
etharp_output(struct netif *netif, struct pbuf *q, ip_addr_t *ipaddr)
{
 80367a0:	b5f7      	push	{r0, r1, r2, r4, r5, r6, r7, lr}
 80367a2:	4604      	mov	r4, r0
 80367a4:	460e      	mov	r6, r1
  LWIP_ASSERT("netif != NULL", netif != NULL);
  LWIP_ASSERT("q != NULL", q != NULL);
  LWIP_ASSERT("ipaddr != NULL", ipaddr != NULL);

  /* make room for Ethernet header - should not fail */
  if (pbuf_header(q, sizeof(struct eth_hdr)) != 0) {
 80367a6:	4608      	mov	r0, r1
 80367a8:	210e      	movs	r1, #14
 * - ERR_RTE No route to destination (no gateway to external networks),
 * or the return type of either etharp_query() or etharp_send_ip().
 */
err_t
etharp_output(struct netif *netif, struct pbuf *q, ip_addr_t *ipaddr)
{
 80367aa:	4615      	mov	r5, r2
  LWIP_ASSERT("netif != NULL", netif != NULL);
  LWIP_ASSERT("q != NULL", q != NULL);
  LWIP_ASSERT("ipaddr != NULL", ipaddr != NULL);

  /* make room for Ethernet header - should not fail */
  if (pbuf_header(q, sizeof(struct eth_hdr)) != 0) {
 80367ac:	f7f8 fe79 	bl	802f4a2 <pbuf_header>
 80367b0:	2800      	cmp	r0, #0
 80367b2:	d163      	bne.n	803687c <etharp_output+0xdc>

  /* Determine on destination hardware address. Broadcasts and multicasts
   * are special, other IP addresses are looked up in the ARP table. */

  /* broadcast destination IP address? */
  if (ip_addr_isbroadcast(ipaddr, netif)) {
 80367b4:	6828      	ldr	r0, [r5, #0]
 80367b6:	4621      	mov	r1, r4
 80367b8:	f7fb fd38 	bl	803222c <ip4_addr_isbroadcast>
 80367bc:	2800      	cmp	r0, #0
 80367be:	d155      	bne.n	803686c <etharp_output+0xcc>
    /* broadcast on Ethernet also */
    dest = (struct eth_addr *)&ethbroadcast;
  /* multicast destination IP address? */
  } else if (ip_addr_ismulticast(ipaddr)) {
 80367c0:	682b      	ldr	r3, [r5, #0]
 80367c2:	f003 02f0 	and.w	r2, r3, #240	; 0xf0
 80367c6:	2ae0      	cmp	r2, #224	; 0xe0
 80367c8:	d114      	bne.n	80367f4 <etharp_output+0x54>
    /* Hash IP multicast address to MAC address.*/
    mcastaddr.addr[0] = LL_MULTICAST_ADDR_0;
 80367ca:	2301      	movs	r3, #1
 80367cc:	f88d 3000 	strb.w	r3, [sp]
    mcastaddr.addr[1] = LL_MULTICAST_ADDR_1;
    mcastaddr.addr[2] = LL_MULTICAST_ADDR_2;
 80367d0:	235e      	movs	r3, #94	; 0x5e
 80367d2:	f88d 3002 	strb.w	r3, [sp, #2]
    mcastaddr.addr[3] = ip4_addr2(ipaddr) & 0x7f;
 80367d6:	786b      	ldrb	r3, [r5, #1]
    dest = (struct eth_addr *)&ethbroadcast;
  /* multicast destination IP address? */
  } else if (ip_addr_ismulticast(ipaddr)) {
    /* Hash IP multicast address to MAC address.*/
    mcastaddr.addr[0] = LL_MULTICAST_ADDR_0;
    mcastaddr.addr[1] = LL_MULTICAST_ADDR_1;
 80367d8:	f88d 0001 	strb.w	r0, [sp, #1]
    mcastaddr.addr[2] = LL_MULTICAST_ADDR_2;
    mcastaddr.addr[3] = ip4_addr2(ipaddr) & 0x7f;
 80367dc:	f003 037f 	and.w	r3, r3, #127	; 0x7f
 80367e0:	f88d 3003 	strb.w	r3, [sp, #3]
    mcastaddr.addr[4] = ip4_addr3(ipaddr);
 80367e4:	78ab      	ldrb	r3, [r5, #2]
 80367e6:	f88d 3004 	strb.w	r3, [sp, #4]
    mcastaddr.addr[5] = ip4_addr4(ipaddr);
 80367ea:	78eb      	ldrb	r3, [r5, #3]
 80367ec:	f88d 3005 	strb.w	r3, [sp, #5]
    /* destination Ethernet address is multicast */
    dest = &mcastaddr;
 80367f0:	466b      	mov	r3, sp
 80367f2:	e03c      	b.n	803686e <etharp_output+0xce>
  /* unicast destination IP address? */
  } else {
    s8_t i;
    /* outside local network? if so, this can neither be a global broadcast nor
       a subnet broadcast. */
    if (!ip_addr_netcmp(ipaddr, &(netif->ip_addr), &(netif->netmask)) &&
 80367f4:	6862      	ldr	r2, [r4, #4]
 80367f6:	ea83 0102 	eor.w	r1, r3, r2
 80367fa:	68a2      	ldr	r2, [r4, #8]
 80367fc:	4211      	tst	r1, r2
 80367fe:	d009      	beq.n	8036814 <etharp_output+0x74>
        !ip_addr_islinklocal(ipaddr)) {
 8036800:	b29b      	uxth	r3, r3
  /* unicast destination IP address? */
  } else {
    s8_t i;
    /* outside local network? if so, this can neither be a global broadcast nor
       a subnet broadcast. */
    if (!ip_addr_netcmp(ipaddr, &(netif->ip_addr), &(netif->netmask)) &&
 8036802:	f64f 62a9 	movw	r2, #65193	; 0xfea9
 8036806:	4293      	cmp	r3, r2
 8036808:	d004      	beq.n	8036814 <etharp_output+0x74>
         router for forwarding". */
      if (!ip_addr_islinklocal(&iphdr->src))
#endif /* LWIP_AUTOIP */
      {
        /* interface has default gateway? */
        if (!ip_addr_isany(&netif->gw)) {
 803680a:	68e3      	ldr	r3, [r4, #12]
 803680c:	f104 010c 	add.w	r1, r4, #12
 8036810:	b90b      	cbnz	r3, 8036816 <etharp_output+0x76>
 8036812:	e035      	b.n	8036880 <etharp_output+0xe0>
  /* unicast destination IP address? */
  } else {
    s8_t i;
    /* outside local network? if so, this can neither be a global broadcast nor
       a subnet broadcast. */
    if (!ip_addr_netcmp(ipaddr, &(netif->ip_addr), &(netif->netmask)) &&
 8036814:	4629      	mov	r1, r5
    if (netif->addr_hint != NULL) {
      /* per-pcb cached entry was given */
      u8_t etharp_cached_entry = *(netif->addr_hint);
      if (etharp_cached_entry < ARP_TABLE_SIZE) {
#endif /* LWIP_NETIF_HWADDRHINT */
        if ((arp_table[etharp_cached_entry].state >= ETHARP_STATE_STABLE) &&
 8036816:	4b1c      	ldr	r3, [pc, #112]	; (8036888 <etharp_output+0xe8>)
 8036818:	781a      	ldrb	r2, [r3, #0]
 803681a:	4b1c      	ldr	r3, [pc, #112]	; (803688c <etharp_output+0xec>)
 803681c:	2014      	movs	r0, #20
 803681e:	fb00 3302 	mla	r3, r0, r2, r3
 8036822:	7c98      	ldrb	r0, [r3, #18]
 8036824:	2801      	cmp	r0, #1
 8036826:	d904      	bls.n	8036832 <etharp_output+0x92>
 8036828:	6808      	ldr	r0, [r1, #0]
 803682a:	685b      	ldr	r3, [r3, #4]
 803682c:	4298      	cmp	r0, r3
 803682e:	d100      	bne.n	8036832 <etharp_output+0x92>
 8036830:	e00d      	b.n	803684e <etharp_output+0xae>
 8036832:	2300      	movs	r3, #0
 * @return
 * - ERR_RTE No route to destination (no gateway to external networks),
 * or the return type of either etharp_query() or etharp_send_ip().
 */
err_t
etharp_output(struct netif *netif, struct pbuf *q, ip_addr_t *ipaddr)
 8036834:	4f15      	ldr	r7, [pc, #84]	; (803688c <etharp_output+0xec>)
    if (netif->addr_hint != NULL) {
      /* per-pcb cached entry was given */
      u8_t etharp_cached_entry = *(netif->addr_hint);
      if (etharp_cached_entry < ARP_TABLE_SIZE) {
#endif /* LWIP_NETIF_HWADDRHINT */
        if ((arp_table[etharp_cached_entry].state >= ETHARP_STATE_STABLE) &&
 8036836:	461a      	mov	r2, r3
 * @return
 * - ERR_RTE No route to destination (no gateway to external networks),
 * or the return type of either etharp_query() or etharp_send_ip().
 */
err_t
etharp_output(struct netif *netif, struct pbuf *q, ip_addr_t *ipaddr)
 8036838:	18f8      	adds	r0, r7, r3
#endif /* LWIP_NETIF_HWADDRHINT */

    /* find stable entry: do this here since this is a critical path for
       throughput and etharp_find_entry() is kind of slow */
    for (i = 0; i < ARP_TABLE_SIZE; i++) {
      if ((arp_table[i].state >= ETHARP_STATE_STABLE) &&
 803683a:	7c85      	ldrb	r5, [r0, #18]
 803683c:	2d01      	cmp	r5, #1
 803683e:	d90b      	bls.n	8036858 <etharp_output+0xb8>
 8036840:	680d      	ldr	r5, [r1, #0]
 8036842:	6840      	ldr	r0, [r0, #4]
 8036844:	4285      	cmp	r5, r0
 8036846:	d107      	bne.n	8036858 <etharp_output+0xb8>
          (ip_addr_cmp(dst_addr, &arp_table[i].ipaddr))) {
        /* found an existing, stable entry */
        ETHARP_SET_HINT(netif, i);
 8036848:	4b0f      	ldr	r3, [pc, #60]	; (8036888 <etharp_output+0xe8>)
 803684a:	b2d2      	uxtb	r2, r2
 803684c:	701a      	strb	r2, [r3, #0]
        return etharp_output_to_arp_index(netif, q, i);
 803684e:	4620      	mov	r0, r4
 8036850:	4631      	mov	r1, r6
 8036852:	f7ff ff7f 	bl	8036754 <etharp_output_to_arp_index>
 8036856:	e014      	b.n	8036882 <etharp_output+0xe2>
 8036858:	3314      	adds	r3, #20
    }
#endif /* LWIP_NETIF_HWADDRHINT */

    /* find stable entry: do this here since this is a critical path for
       throughput and etharp_find_entry() is kind of slow */
    for (i = 0; i < ARP_TABLE_SIZE; i++) {
 803685a:	3201      	adds	r2, #1
 803685c:	2bc8      	cmp	r3, #200	; 0xc8
 803685e:	b2d2      	uxtb	r2, r2
 8036860:	d1ea      	bne.n	8036838 <etharp_output+0x98>
        return etharp_output_to_arp_index(netif, q, i);
      }
    }
    /* no stable entry found, use the (slower) query function:
       queue on destination Ethernet address belonging to ipaddr */
    return etharp_query(netif, dst_addr, q);
 8036862:	4620      	mov	r0, r4
 8036864:	4632      	mov	r2, r6
 8036866:	f7ff fef5 	bl	8036654 <etharp_query>
 803686a:	e00a      	b.n	8036882 <etharp_output+0xe2>
   * are special, other IP addresses are looked up in the ARP table. */

  /* broadcast destination IP address? */
  if (ip_addr_isbroadcast(ipaddr, netif)) {
    /* broadcast on Ethernet also */
    dest = (struct eth_addr *)&ethbroadcast;
 803686c:	4b08      	ldr	r3, [pc, #32]	; (8036890 <etharp_output+0xf0>)
  }

  /* continuation for multicast/broadcast destinations */
  /* obtain source Ethernet address of the given interface */
  /* send packet directly on the link */
  return etharp_send_ip(netif, q, (struct eth_addr*)(netif->hwaddr), dest);
 803686e:	4620      	mov	r0, r4
 8036870:	4631      	mov	r1, r6
 8036872:	f104 0227 	add.w	r2, r4, #39	; 0x27
 8036876:	f7ff fda5 	bl	80363c4 <etharp_send_ip>
 803687a:	e002      	b.n	8036882 <etharp_output+0xe2>
  if (pbuf_header(q, sizeof(struct eth_hdr)) != 0) {
    /* bail out */
    LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE | LWIP_DBG_LEVEL_SERIOUS,
      ("etharp_output: could not allocate room for header.\n"));
    LINK_STATS_INC(link.lenerr);
    return ERR_BUF;
 803687c:	20fe      	movs	r0, #254	; 0xfe
 803687e:	e000      	b.n	8036882 <etharp_output+0xe2>
          /* send to hardware address of default gateway IP address */
          dst_addr = &(netif->gw);
        /* no default gateway available */
        } else {
          /* no route to destination error (default gateway missing) */
          return ERR_RTE;
 8036880:	20fc      	movs	r0, #252	; 0xfc

  /* continuation for multicast/broadcast destinations */
  /* obtain source Ethernet address of the given interface */
  /* send packet directly on the link */
  return etharp_send_ip(netif, q, (struct eth_addr*)(netif->hwaddr), dest);
}
 8036882:	b240      	sxtb	r0, r0
 8036884:	bdfe      	pop	{r1, r2, r3, r4, r5, r6, r7, pc}
 8036886:	bf00      	nop
 8036888:	2000c700 	.word	0x2000c700
 803688c:	2000c704 	.word	0x2000c704
 8036890:	08044913 	.word	0x08044913

08036894 <ethernet_input>:
 * @param p the recevied packet, p->payload pointing to the ethernet header
 * @param netif the network interface on which the packet was received
 */
err_t
ethernet_input(struct pbuf *p, struct netif *netif)
{
 8036894:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
  u16_t type;
#if LWIP_ARP || ETHARP_SUPPORT_VLAN
  s16_t ip_hdr_offset = SIZEOF_ETH_HDR;
#endif /* LWIP_ARP || ETHARP_SUPPORT_VLAN */

  if (p->len <= SIZEOF_ETH_HDR) {
 8036898:	8943      	ldrh	r3, [r0, #10]
 803689a:	2b0e      	cmp	r3, #14
 * @param p the recevied packet, p->payload pointing to the ethernet header
 * @param netif the network interface on which the packet was received
 */
err_t
ethernet_input(struct pbuf *p, struct netif *netif)
{
 803689c:	b087      	sub	sp, #28
 803689e:	4604      	mov	r4, r0
 80368a0:	460d      	mov	r5, r1
  u16_t type;
#if LWIP_ARP || ETHARP_SUPPORT_VLAN
  s16_t ip_hdr_offset = SIZEOF_ETH_HDR;
#endif /* LWIP_ARP || ETHARP_SUPPORT_VLAN */

  if (p->len <= SIZEOF_ETH_HDR) {
 80368a2:	f240 80ed 	bls.w	8036a80 <ethernet_input+0x1ec>
    ETHARP_STATS_INC(etharp.drop);
    goto free_and_return;
  }

  /* points to packet payload, which starts with an Ethernet header */
  ethhdr = (struct eth_hdr *)p->payload;
 80368a6:	6840      	ldr	r0, [r0, #4]

#if LWIP_ARP_FILTER_NETIF
  netif = LWIP_ARP_FILTER_NETIF_FN(p, netif, htons(type));
#endif /* LWIP_ARP_FILTER_NETIF*/

  if (ethhdr->dest.addr[0] & 1) {
 80368a8:	7803      	ldrb	r3, [r0, #0]
     (unsigned)ethhdr->dest.addr[3], (unsigned)ethhdr->dest.addr[4], (unsigned)ethhdr->dest.addr[5],
     (unsigned)ethhdr->src.addr[0], (unsigned)ethhdr->src.addr[1], (unsigned)ethhdr->src.addr[2],
     (unsigned)ethhdr->src.addr[3], (unsigned)ethhdr->src.addr[4], (unsigned)ethhdr->src.addr[5],
     (unsigned)htons(ethhdr->type)));

  type = ethhdr->type;
 80368aa:	8986      	ldrh	r6, [r0, #12]

#if LWIP_ARP_FILTER_NETIF
  netif = LWIP_ARP_FILTER_NETIF_FN(p, netif, htons(type));
#endif /* LWIP_ARP_FILTER_NETIF*/

  if (ethhdr->dest.addr[0] & 1) {
 80368ac:	07da      	lsls	r2, r3, #31
 80368ae:	d513      	bpl.n	80368d8 <ethernet_input+0x44>
    /* this might be a multicast or broadcast packet */
    if (ethhdr->dest.addr[0] == LL_MULTICAST_ADDR_0) {
 80368b0:	2b01      	cmp	r3, #1
 80368b2:	d108      	bne.n	80368c6 <ethernet_input+0x32>
      if ((ethhdr->dest.addr[1] == LL_MULTICAST_ADDR_1) &&
 80368b4:	7843      	ldrb	r3, [r0, #1]
 80368b6:	b97b      	cbnz	r3, 80368d8 <ethernet_input+0x44>
 80368b8:	7883      	ldrb	r3, [r0, #2]
 80368ba:	2b5e      	cmp	r3, #94	; 0x5e
 80368bc:	d10c      	bne.n	80368d8 <ethernet_input+0x44>
          (ethhdr->dest.addr[2] == LL_MULTICAST_ADDR_2)) {
        /* mark the pbuf as link-layer multicast */
        p->flags |= PBUF_FLAG_LLMCAST;
 80368be:	7b63      	ldrb	r3, [r4, #13]
 80368c0:	f043 0310 	orr.w	r3, r3, #16
 80368c4:	e007      	b.n	80368d6 <ethernet_input+0x42>
      }
    } else if (eth_addr_cmp(&ethhdr->dest, &ethbroadcast)) {
 80368c6:	4972      	ldr	r1, [pc, #456]	; (8036a90 <ethernet_input+0x1fc>)
 80368c8:	2206      	movs	r2, #6
 80368ca:	f7eb f97d 	bl	8021bc8 <memcmp>
 80368ce:	b918      	cbnz	r0, 80368d8 <ethernet_input+0x44>
      /* mark the pbuf as link-layer broadcast */
      p->flags |= PBUF_FLAG_LLBCAST;
 80368d0:	7b63      	ldrb	r3, [r4, #13]
 80368d2:	f043 0308 	orr.w	r3, r3, #8
 80368d6:	7363      	strb	r3, [r4, #13]
    }
  }

  switch (type) {
 80368d8:	2e08      	cmp	r6, #8
 80368da:	d004      	beq.n	80368e6 <ethernet_input+0x52>
 80368dc:	f5b6 6fc1 	cmp.w	r6, #1544	; 0x608
 80368e0:	f040 80ce 	bne.w	8036a80 <ethernet_input+0x1ec>
 80368e4:	e014      	b.n	8036910 <ethernet_input+0x7c>
#if LWIP_ARP
    /* IP packet? */
    case PP_HTONS(ETHTYPE_IP):
      if (!(netif->flags & NETIF_FLAG_ETHARP)) {
 80368e6:	f895 302d 	ldrb.w	r3, [r5, #45]	; 0x2d
 80368ea:	f003 0320 	and.w	r3, r3, #32
 80368ee:	b2db      	uxtb	r3, r3
 80368f0:	2b00      	cmp	r3, #0
 80368f2:	f000 80c5 	beq.w	8036a80 <ethernet_input+0x1ec>
#if ETHARP_TRUST_IP_MAC
      /* update ARP table */
      etharp_ip_input(netif, p);
#endif /* ETHARP_TRUST_IP_MAC */
      /* skip Ethernet header */
      if(pbuf_header(p, -ip_hdr_offset)) {
 80368f6:	4620      	mov	r0, r4
 80368f8:	f06f 010d 	mvn.w	r1, #13
 80368fc:	f7f8 fdd1 	bl	802f4a2 <pbuf_header>
 8036900:	2800      	cmp	r0, #0
 8036902:	f040 80bd 	bne.w	8036a80 <ethernet_input+0x1ec>
        LWIP_ASSERT("Can't move over header in packet", 0);
        goto free_and_return;
      } else {
        /* pass to IP layer */
        ip_input(p, netif);
 8036906:	4620      	mov	r0, r4
 8036908:	4629      	mov	r1, r5
 803690a:	f7fb fda3 	bl	8032454 <ip_input>
      }
      break;
 803690e:	e0ba      	b.n	8036a86 <ethernet_input+0x1f2>
      
    case PP_HTONS(ETHTYPE_ARP):
      if (!(netif->flags & NETIF_FLAG_ETHARP)) {
 8036910:	f895 302d 	ldrb.w	r3, [r5, #45]	; 0x2d
 8036914:	f003 0320 	and.w	r3, r3, #32
 8036918:	b2db      	uxtb	r3, r3
 803691a:	2b00      	cmp	r3, #0
 803691c:	f000 80b0 	beq.w	8036a80 <ethernet_input+0x1ec>

  LWIP_ERROR("netif != NULL", (netif != NULL), return;);

  /* drop short ARP packets: we have to check for p->len instead of p->tot_len here
     since a struct etharp_hdr is pointed to p->payload, so it musn't be chained! */
  if (p->len < SIZEOF_ETHARP_PACKET) {
 8036920:	8963      	ldrh	r3, [r4, #10]
 8036922:	2b29      	cmp	r3, #41	; 0x29
 8036924:	d800      	bhi.n	8036928 <ethernet_input+0x94>
 8036926:	e0ab      	b.n	8036a80 <ethernet_input+0x1ec>
    ETHARP_STATS_INC(etharp.drop);
    pbuf_free(p);
    return;
  }

  ethhdr = (struct eth_hdr *)p->payload;
 8036928:	6866      	ldr	r6, [r4, #4]
    hdr = (struct etharp_hdr *)(((u8_t*)ethhdr) + SIZEOF_ETH_HDR + SIZEOF_VLAN_HDR);
  }
#endif /* ETHARP_SUPPORT_VLAN */

  /* RFC 826 "Packet Reception": */
  if ((hdr->hwtype != PP_HTONS(HWTYPE_ETHERNET)) ||
 803692a:	89f3      	ldrh	r3, [r6, #14]
 803692c:	f5b3 7f80 	cmp.w	r3, #256	; 0x100
 8036930:	f040 80a6 	bne.w	8036a80 <ethernet_input+0x1ec>
 8036934:	7cb3      	ldrb	r3, [r6, #18]
 8036936:	2b06      	cmp	r3, #6
 8036938:	f040 80a2 	bne.w	8036a80 <ethernet_input+0x1ec>
      (hdr->hwlen != ETHARP_HWADDR_LEN) ||
 803693c:	7cf7      	ldrb	r7, [r6, #19]
 803693e:	2f04      	cmp	r7, #4
 8036940:	f040 809e 	bne.w	8036a80 <ethernet_input+0x1ec>
      (hdr->protolen != sizeof(ip_addr_t)) ||
 8036944:	8a33      	ldrh	r3, [r6, #16]
 8036946:	2b08      	cmp	r3, #8
 8036948:	f040 809a 	bne.w	8036a80 <ethernet_input+0x1ec>
  autoip_arp_reply(netif, hdr);
#endif /* LWIP_AUTOIP */

  /* Copy struct ip_addr2 to aligned ip_addr, to support compilers without
   * structure packing (not using structure copy which breaks strict-aliasing rules). */
  IPADDR2_COPY(&sipaddr, &hdr->sipaddr);
 803694c:	f106 0a1c 	add.w	sl, r6, #28
 8036950:	4651      	mov	r1, sl
 8036952:	463a      	mov	r2, r7
 8036954:	a804      	add	r0, sp, #16
 8036956:	f7eb f969 	bl	8021c2c <memcpy>
  IPADDR2_COPY(&dipaddr, &hdr->dipaddr);
 803695a:	f106 0226 	add.w	r2, r6, #38	; 0x26
 803695e:	9203      	str	r2, [sp, #12]
 8036960:	4611      	mov	r1, r2
 8036962:	a805      	add	r0, sp, #20
 8036964:	463a      	mov	r2, r7
 8036966:	f7eb f961 	bl	8021c2c <memcpy>

  /* this interface is not configured? */
  if (ip_addr_isany(&netif->ip_addr)) {
 803696a:	686b      	ldr	r3, [r5, #4]
 803696c:	b12b      	cbz	r3, 803697a <ethernet_input+0xe6>
    for_us = 0;
  } else {
    /* ARP packet directed to us? */
    for_us = (u8_t)ip_addr_cmp(&dipaddr, &(netif->ip_addr));
 803696e:	9a05      	ldr	r2, [sp, #20]
 8036970:	1ad1      	subs	r1, r2, r3
 8036972:	424a      	negs	r2, r1
 8036974:	414a      	adcs	r2, r1
 8036976:	9201      	str	r2, [sp, #4]
 8036978:	e000      	b.n	803697c <ethernet_input+0xe8>
  IPADDR2_COPY(&sipaddr, &hdr->sipaddr);
  IPADDR2_COPY(&dipaddr, &hdr->dipaddr);

  /* this interface is not configured? */
  if (ip_addr_isany(&netif->ip_addr)) {
    for_us = 0;
 803697a:	9301      	str	r3, [sp, #4]
  /* ARP message directed to us?
      -> add IP address in ARP cache; assume requester wants to talk to us,
         can result in directly sending the queued packets for this host.
     ARP message not directed to us?
      ->  update the source IP address in the cache, if present */
  etharp_update_arp_entry(netif, &sipaddr, &(hdr->shwaddr),
 803697c:	9b01      	ldr	r3, [sp, #4]
  LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_update_arp_entry: %"U16_F".%"U16_F".%"U16_F".%"U16_F" - %02"X16_F":%02"X16_F":%02"X16_F":%02"X16_F":%02"X16_F":%02"X16_F"\n",
    ip4_addr1_16(ipaddr), ip4_addr2_16(ipaddr), ip4_addr3_16(ipaddr), ip4_addr4_16(ipaddr),
    ethaddr->addr[0], ethaddr->addr[1], ethaddr->addr[2],
    ethaddr->addr[3], ethaddr->addr[4], ethaddr->addr[5]));
  /* non-unicast address? */
  if (ip_addr_isany(ipaddr) ||
 803697e:	9804      	ldr	r0, [sp, #16]
  /* ARP message directed to us?
      -> add IP address in ARP cache; assume requester wants to talk to us,
         can result in directly sending the queued packets for this host.
     ARP message not directed to us?
      ->  update the source IP address in the cache, if present */
  etharp_update_arp_entry(netif, &sipaddr, &(hdr->shwaddr),
 8036980:	f106 0716 	add.w	r7, r6, #22
 8036984:	2b00      	cmp	r3, #0
 8036986:	bf0c      	ite	eq
 8036988:	f04f 0802 	moveq.w	r8, #2
 803698c:	f04f 0801 	movne.w	r8, #1
    case PP_HTONS(ETHTYPE_ARP):
      if (!(netif->flags & NETIF_FLAG_ETHARP)) {
        goto free_and_return;
      }
      /* pass p to ARP module */
      etharp_arp_input(netif, (struct eth_addr*)(netif->hwaddr), p);
 8036990:	f105 0927 	add.w	r9, r5, #39	; 0x27
  LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_update_arp_entry: %"U16_F".%"U16_F".%"U16_F".%"U16_F" - %02"X16_F":%02"X16_F":%02"X16_F":%02"X16_F":%02"X16_F":%02"X16_F"\n",
    ip4_addr1_16(ipaddr), ip4_addr2_16(ipaddr), ip4_addr3_16(ipaddr), ip4_addr4_16(ipaddr),
    ethaddr->addr[0], ethaddr->addr[1], ethaddr->addr[2],
    ethaddr->addr[3], ethaddr->addr[4], ethaddr->addr[5]));
  /* non-unicast address? */
  if (ip_addr_isany(ipaddr) ||
 8036994:	2800      	cmp	r0, #0
 8036996:	d03d      	beq.n	8036a14 <ethernet_input+0x180>
      ip_addr_isbroadcast(ipaddr, netif) ||
 8036998:	4629      	mov	r1, r5
 803699a:	f7fb fc47 	bl	803222c <ip4_addr_isbroadcast>
  LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_update_arp_entry: %"U16_F".%"U16_F".%"U16_F".%"U16_F" - %02"X16_F":%02"X16_F":%02"X16_F":%02"X16_F":%02"X16_F":%02"X16_F"\n",
    ip4_addr1_16(ipaddr), ip4_addr2_16(ipaddr), ip4_addr3_16(ipaddr), ip4_addr4_16(ipaddr),
    ethaddr->addr[0], ethaddr->addr[1], ethaddr->addr[2],
    ethaddr->addr[3], ethaddr->addr[4], ethaddr->addr[5]));
  /* non-unicast address? */
  if (ip_addr_isany(ipaddr) ||
 803699e:	9002      	str	r0, [sp, #8]
 80369a0:	2800      	cmp	r0, #0
 80369a2:	d137      	bne.n	8036a14 <ethernet_input+0x180>
      ip_addr_isbroadcast(ipaddr, netif) ||
      ip_addr_ismulticast(ipaddr)) {
 80369a4:	9a04      	ldr	r2, [sp, #16]
 80369a6:	f002 02f0 	and.w	r2, r2, #240	; 0xf0
    ip4_addr1_16(ipaddr), ip4_addr2_16(ipaddr), ip4_addr3_16(ipaddr), ip4_addr4_16(ipaddr),
    ethaddr->addr[0], ethaddr->addr[1], ethaddr->addr[2],
    ethaddr->addr[3], ethaddr->addr[4], ethaddr->addr[5]));
  /* non-unicast address? */
  if (ip_addr_isany(ipaddr) ||
      ip_addr_isbroadcast(ipaddr, netif) ||
 80369aa:	2ae0      	cmp	r2, #224	; 0xe0
 80369ac:	d032      	beq.n	8036a14 <ethernet_input+0x180>
      ip_addr_ismulticast(ipaddr)) {
    LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_update_arp_entry: will not add non-unicast IP address to ARP cache\n"));
    return ERR_ARG;
  }
  /* find or create ARP entry */
  i = etharp_find_entry(ipaddr, flags);
 80369ae:	a804      	add	r0, sp, #16
 80369b0:	4641      	mov	r1, r8
 80369b2:	f7ff fd39 	bl	8036428 <etharp_find_entry>
  /* bail out if no entry could be found */
  if (i < 0) {
 80369b6:	2800      	cmp	r0, #0
 80369b8:	db2c      	blt.n	8036a14 <ethernet_input+0x180>
    arp_table[i].state = ETHARP_STATE_STATIC;
  } else
#endif /* ETHARP_SUPPORT_STATIC_ENTRIES */
  {
    /* mark it stable */
    arp_table[i].state = ETHARP_STATE_STABLE;
 80369ba:	4b36      	ldr	r3, [pc, #216]	; (8036a94 <ethernet_input+0x200>)
 80369bc:	f04f 0814 	mov.w	r8, #20
 80369c0:	fb08 f800 	mul.w	r8, r8, r0
 80369c4:	eb03 0108 	add.w	r1, r3, r8
 80369c8:	2202      	movs	r2, #2
 80369ca:	748a      	strb	r2, [r1, #18]
  }

  /* record network interface */
  arp_table[i].netif = netif;
 80369cc:	608d      	str	r5, [r1, #8]
    arp_table[i].state = ETHARP_STATE_STATIC;
  } else
#endif /* ETHARP_SUPPORT_STATIC_ENTRIES */
  {
    /* mark it stable */
    arp_table[i].state = ETHARP_STATE_STABLE;
 80369ce:	f101 0b10 	add.w	fp, r1, #16
  }

  /* record network interface */
  arp_table[i].netif = netif;
  /* insert in SNMP ARP index tree */
  snmp_insert_arpidx_tree(netif, &arp_table[i].ipaddr);
 80369d2:	4628      	mov	r0, r5
 80369d4:	3104      	adds	r1, #4
 80369d6:	9300      	str	r3, [sp, #0]
 80369d8:	f7fd f90a 	bl	8033bf0 <snmp_insert_arpidx_tree>

  LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_update_arp_entry: updating stable entry %"S16_F"\n", (s16_t)i));
  /* update address */
  ETHADDR32_COPY(&arp_table[i].ethaddr, ethaddr);
 80369dc:	9b00      	ldr	r3, [sp, #0]
 80369de:	eb03 0008 	add.w	r0, r3, r8
 80369e2:	2206      	movs	r2, #6
 80369e4:	300c      	adds	r0, #12
 80369e6:	4639      	mov	r1, r7
 80369e8:	f7eb f920 	bl	8021c2c <memcpy>
  /* reset time stamp */
  arp_table[i].ctime = 0;
 80369ec:	9a02      	ldr	r2, [sp, #8]
 80369ee:	f88b 2003 	strb.w	r2, [fp, #3]
    /* get the packet pointer */
    p = q->p;
    /* now queue entry can be freed */
    memp_free(MEMP_ARP_QUEUE, q);
#else /* ARP_QUEUEING */
  if (arp_table[i].q != NULL) {
 80369f2:	9b00      	ldr	r3, [sp, #0]
 80369f4:	f853 b008 	ldr.w	fp, [r3, r8]
 80369f8:	f1bb 0f00 	cmp.w	fp, #0
 80369fc:	d00a      	beq.n	8036a14 <ethernet_input+0x180>
    struct pbuf *p = arp_table[i].q;
    arp_table[i].q = NULL;
 80369fe:	f843 2008 	str.w	r2, [r3, r8]
#endif /* ARP_QUEUEING */
    /* send the queued IP packet */
    etharp_send_ip(netif, p, (struct eth_addr*)(netif->hwaddr), ethaddr);
 8036a02:	4628      	mov	r0, r5
 8036a04:	4659      	mov	r1, fp
 8036a06:	464a      	mov	r2, r9
 8036a08:	463b      	mov	r3, r7
 8036a0a:	f7ff fcdb 	bl	80363c4 <etharp_send_ip>
    /* free the queued IP packet */
    pbuf_free(p);
 8036a0e:	4658      	mov	r0, fp
 8036a10:	f7f8 fd72 	bl	802f4f8 <pbuf_free>
      ->  update the source IP address in the cache, if present */
  etharp_update_arp_entry(netif, &sipaddr, &(hdr->shwaddr),
                   for_us ? ETHARP_FLAG_TRY_HARD : ETHARP_FLAG_FIND_ONLY);

  /* now act on the message itself */
  switch (hdr->opcode) {
 8036a14:	8ab3      	ldrh	r3, [r6, #20]
 8036a16:	f5b3 7f80 	cmp.w	r3, #256	; 0x100
 8036a1a:	d003      	beq.n	8036a24 <ethernet_input+0x190>
 8036a1c:	f5b3 7f00 	cmp.w	r3, #512	; 0x200
 8036a20:	d12e      	bne.n	8036a80 <ethernet_input+0x1ec>
 8036a22:	e029      	b.n	8036a78 <ethernet_input+0x1e4>
     * reply. In any case, we time-stamp any existing ARP entry,
     * and possiby send out an IP packet that was queued on it. */

    LWIP_DEBUGF (ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_arp_input: incoming ARP request\n"));
    /* ARP request for our address? */
    if (for_us) {
 8036a24:	9b01      	ldr	r3, [sp, #4]
 8036a26:	b35b      	cbz	r3, 8036a80 <ethernet_input+0x1ec>

      LWIP_DEBUGF(ETHARP_DEBUG | LWIP_DBG_TRACE, ("etharp_arp_input: replying to ARP request for our IP address\n"));
      /* Re-use pbuf to send ARP reply.
         Since we are re-using an existing pbuf, we can't call etharp_raw since
         that would allocate a new pbuf. */
      hdr->opcode = htons(ARP_REPLY);
 8036a28:	2002      	movs	r0, #2
 8036a2a:	f7f7 fc27 	bl	802e27c <lwip_htons>
 8036a2e:	82b0      	strh	r0, [r6, #20]

      IPADDR2_COPY(&hdr->dipaddr, &hdr->sipaddr);
 8036a30:	4651      	mov	r1, sl
 8036a32:	2204      	movs	r2, #4
 8036a34:	9803      	ldr	r0, [sp, #12]
 8036a36:	f7eb f8f9 	bl	8021c2c <memcpy>
      IPADDR2_COPY(&hdr->sipaddr, &netif->ip_addr);
 8036a3a:	1d29      	adds	r1, r5, #4
 8036a3c:	2204      	movs	r2, #4
 8036a3e:	4650      	mov	r0, sl
 8036a40:	f7eb f8f4 	bl	8021c2c <memcpy>
       * 'sender IP address' MUST be sent using link-layer broadcast instead of
       * link-layer unicast. (See RFC3927 Section 2.5, last paragraph) */
      ethdst_hwaddr = ip_addr_islinklocal(&netif->ip_addr) ? (u8_t*)(ethbroadcast.addr) : hdr->shwaddr.addr;
#endif /* LWIP_AUTOIP */

      ETHADDR16_COPY(&hdr->dhwaddr, &hdr->shwaddr);
 8036a44:	4639      	mov	r1, r7
 8036a46:	2206      	movs	r2, #6
 8036a48:	f106 0020 	add.w	r0, r6, #32
 8036a4c:	f7eb f8ee 	bl	8021c2c <memcpy>
#if LWIP_AUTOIP
      ETHADDR16_COPY(&ethhdr->dest, ethdst_hwaddr);
#else  /* LWIP_AUTOIP */
      ETHADDR16_COPY(&ethhdr->dest, &hdr->shwaddr);
 8036a50:	4639      	mov	r1, r7
 8036a52:	2206      	movs	r2, #6
 8036a54:	4630      	mov	r0, r6
 8036a56:	f7eb f8e9 	bl	8021c2c <memcpy>
#endif /* LWIP_AUTOIP */
      ETHADDR16_COPY(&hdr->shwaddr, ethaddr);
 8036a5a:	4649      	mov	r1, r9
 8036a5c:	2206      	movs	r2, #6
 8036a5e:	4638      	mov	r0, r7
 8036a60:	f7eb f8e4 	bl	8021c2c <memcpy>
      ETHADDR16_COPY(&ethhdr->src, ethaddr);
 8036a64:	4649      	mov	r1, r9
 8036a66:	1db0      	adds	r0, r6, #6
 8036a68:	2206      	movs	r2, #6
 8036a6a:	f7eb f8df 	bl	8021c2c <memcpy>

      /* hwtype, hwaddr_len, proto, protolen and the type in the ethernet header
         are already correct, we tested that before */

      /* return ARP reply */
      netif->linkoutput(netif, p);
 8036a6e:	69ab      	ldr	r3, [r5, #24]
 8036a70:	4628      	mov	r0, r5
 8036a72:	4621      	mov	r1, r4
 8036a74:	4798      	blx	r3
 8036a76:	e003      	b.n	8036a80 <ethernet_input+0x1ec>
#if (LWIP_DHCP && DHCP_DOES_ARP_CHECK)
    /* DHCP wants to know about ARP replies from any host with an
     * IP address also offered to us by the DHCP server. We do not
     * want to take a duplicate IP address on a single network.
     * @todo How should we handle redundant (fail-over) interfaces? */
    dhcp_arp_reply(netif, &sipaddr);
 8036a78:	4628      	mov	r0, r5
 8036a7a:	a904      	add	r1, sp, #16
 8036a7c:	f7f8 f8d4 	bl	802ec28 <dhcp_arp_reply>
  /* This means the pbuf is freed or consumed,
     so the caller doesn't have to free it again */
  return ERR_OK;

free_and_return:
  pbuf_free(p);
 8036a80:	4620      	mov	r0, r4
 8036a82:	f7f8 fd39 	bl	802f4f8 <pbuf_free>
  return ERR_OK;
}
 8036a86:	2000      	movs	r0, #0
 8036a88:	b007      	add	sp, #28
 8036a8a:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8036a8e:	bf00      	nop
 8036a90:	08044913 	.word	0x08044913
 8036a94:	2000c704 	.word	0x2000c704

08036a98 <arp_timer>:
  return ERR_OK;
}


static void arp_timer(void *arg)
{
 8036a98:	b508      	push	{r3, lr}
  etharp_tmr();
 8036a9a:	f7ff fd37 	bl	803650c <etharp_tmr>
  sys_timeout(ARP_TMR_INTERVAL, arp_timer, NULL);
 8036a9e:	4904      	ldr	r1, [pc, #16]	; (8036ab0 <arp_timer+0x18>)
 8036aa0:	f241 3088 	movw	r0, #5000	; 0x1388
 8036aa4:	2200      	movs	r2, #0
}
 8036aa6:	e8bd 4008 	ldmia.w	sp!, {r3, lr}


static void arp_timer(void *arg)
{
  etharp_tmr();
  sys_timeout(ARP_TMR_INTERVAL, arp_timer, NULL);
 8036aaa:	f7fa bfab 	b.w	8031a04 <sys_timeout>
 8036aae:	bf00      	nop
 8036ab0:	08036a99 	.word	0x08036a99

08036ab4 <ethernetif_input>:
  }
} 
*/

void ethernetif_input(void * pvParameters)
{
 8036ab4:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
  struct pbuf *p;

  for( ;; )
  {
    if(xSemaphoreTake(s_xSemaphore, emacBLOCK_TIME_WAITING_FOR_INPUT)==pdTRUE)
 8036ab8:	f8df 80c4 	ldr.w	r8, [pc, #196]	; 8036b80 <ethernetif_input+0xcc>
  }
} 
*/

void ethernetif_input(void * pvParameters)
{
 8036abc:	b085      	sub	sp, #20
  struct pbuf *p;

  for( ;; )
  {
    if(xSemaphoreTake(s_xSemaphore, emacBLOCK_TIME_WAITING_FOR_INPUT)==pdTRUE)
 8036abe:	2100      	movs	r1, #0
 8036ac0:	2264      	movs	r2, #100	; 0x64
 8036ac2:	f8d8 0000 	ldr.w	r0, [r8]
 8036ac6:	460b      	mov	r3, r1
 8036ac8:	f7f4 f8a9 	bl	802ac1e <xQueueGenericReceive>
 8036acc:	2801      	cmp	r0, #1
 8036ace:	d1f6      	bne.n	8036abe <ethernetif_input+0xa>
    }
  }
  
  /* Release descriptors to DMA */
  /* Check if received frame with multiple DMA buffer segments */
  if (DMA_RX_FRAME_infos->Seg_Count > 1)
 8036ad0:	f8df a0b0 	ldr.w	sl, [pc, #176]	; 8036b84 <ethernetif_input+0xd0>
  /* Clear Segment_Count */
  DMA_RX_FRAME_infos->Seg_Count =0;
  
  
  /* When Rx Buffer unavailable flag is set: clear it and resume reception */
  if ((ETH->DMASR & ETH_DMASR_RBUS) != (u32)RESET)  
 8036ad4:	f8df 90b0 	ldr.w	r9, [pc, #176]	; 8036b88 <ethernetif_input+0xd4>
  __IO ETH_DMADESCTypeDef *DMARxNextDesc;
  
  p = NULL;
  
  /* Get received frame */
  frame = ETH_Get_Received_Frame_interrupt();
 8036ad8:	a801      	add	r0, sp, #4
 8036ada:	f001 fa25 	bl	8037f28 <ETH_Get_Received_Frame_interrupt>
 8036ade:	9e03      	ldr	r6, [sp, #12]
  
  /* check that frame has no error */
  if ((frame.descriptor->Status & ETH_DMARxDesc_ES) == (uint32_t)RESET)
 8036ae0:	6837      	ldr	r7, [r6, #0]
 8036ae2:	f417 4700 	ands.w	r7, r7, #32768	; 0x8000
 8036ae6:	d001      	beq.n	8036aec <ethernetif_input+0x38>
  uint32_t l=0,i =0;
  FrameTypeDef frame;
  u8 *buffer;
  __IO ETH_DMADESCTypeDef *DMARxNextDesc;
  
  p = NULL;
 8036ae8:	2400      	movs	r4, #0
 8036aea:	e016      	b.n	8036b1a <ethernetif_input+0x66>
    /* Obtain the size of the packet and put it into the "len" variable. */
    len = frame.length;
    buffer = (u8 *)frame.buffer;

    /* We allocate a pbuf chain of pbufs from the pool. */
    p = pbuf_alloc(PBUF_RAW, len, PBUF_POOL);
 8036aec:	2003      	movs	r0, #3
 8036aee:	f8bd 1004 	ldrh.w	r1, [sp, #4]
  if ((frame.descriptor->Status & ETH_DMARxDesc_ES) == (uint32_t)RESET)
  {
    
    /* Obtain the size of the packet and put it into the "len" variable. */
    len = frame.length;
    buffer = (u8 *)frame.buffer;
 8036af2:	f8dd b008 	ldr.w	fp, [sp, #8]

    /* We allocate a pbuf chain of pbufs from the pool. */
    p = pbuf_alloc(PBUF_RAW, len, PBUF_POOL);
 8036af6:	4602      	mov	r2, r0
 8036af8:	f7f8 fd4b 	bl	802f592 <pbuf_alloc>
 
    /* Copy received frame from ethernet driver buffer to stack buffer */
    if (p != NULL)
 8036afc:	4604      	mov	r4, r0
 8036afe:	2800      	cmp	r0, #0
 8036b00:	d0f2      	beq.n	8036ae8 <ethernetif_input+0x34>
 8036b02:	4605      	mov	r5, r0
    { 
      for (q = p; q != NULL; q = q->next)
      {
        memcpy((u8_t*)q->payload, (u8_t*)&buffer[l], q->len);
 8036b04:	6868      	ldr	r0, [r5, #4]
 8036b06:	896a      	ldrh	r2, [r5, #10]
 8036b08:	eb0b 0107 	add.w	r1, fp, r7
 8036b0c:	f7eb f88e 	bl	8021c2c <memcpy>
        l = l + q->len;
 8036b10:	896b      	ldrh	r3, [r5, #10]
    p = pbuf_alloc(PBUF_RAW, len, PBUF_POOL);
 
    /* Copy received frame from ethernet driver buffer to stack buffer */
    if (p != NULL)
    { 
      for (q = p; q != NULL; q = q->next)
 8036b12:	682d      	ldr	r5, [r5, #0]
      {
        memcpy((u8_t*)q->payload, (u8_t*)&buffer[l], q->len);
        l = l + q->len;
 8036b14:	18ff      	adds	r7, r7, r3
    p = pbuf_alloc(PBUF_RAW, len, PBUF_POOL);
 
    /* Copy received frame from ethernet driver buffer to stack buffer */
    if (p != NULL)
    { 
      for (q = p; q != NULL; q = q->next)
 8036b16:	2d00      	cmp	r5, #0
 8036b18:	d1f4      	bne.n	8036b04 <ethernetif_input+0x50>
    }
  }
  
  /* Release descriptors to DMA */
  /* Check if received frame with multiple DMA buffer segments */
  if (DMA_RX_FRAME_infos->Seg_Count > 1)
 8036b1a:	f8da 3000 	ldr.w	r3, [sl]
 8036b1e:	689a      	ldr	r2, [r3, #8]
 8036b20:	2a01      	cmp	r2, #1
  {
    DMARxNextDesc = DMA_RX_FRAME_infos->FS_Rx_Desc;
 8036b22:	bf88      	it	hi
 8036b24:	681e      	ldrhi	r6, [r3, #0]
  }
  
  /* Set Own bit in Rx descriptors: gives the buffers back to DMA */
  for (i=0; i<DMA_RX_FRAME_infos->Seg_Count; i++)
  {  
    DMARxNextDesc->Status = ETH_DMARxDesc_OWN;
 8036b26:	f04f 4000 	mov.w	r0, #2147483648	; 0x80000000
  uint32_t l=0,i =0;
  FrameTypeDef frame;
  u8 *buffer;
  __IO ETH_DMADESCTypeDef *DMARxNextDesc;
  
  p = NULL;
 8036b2a:	2200      	movs	r2, #0
 8036b2c:	e002      	b.n	8036b34 <ethernetif_input+0x80>
  }
  
  /* Set Own bit in Rx descriptors: gives the buffers back to DMA */
  for (i=0; i<DMA_RX_FRAME_infos->Seg_Count; i++)
  {  
    DMARxNextDesc->Status = ETH_DMARxDesc_OWN;
 8036b2e:	6030      	str	r0, [r6, #0]
    DMARxNextDesc = (ETH_DMADESCTypeDef *)(DMARxNextDesc->Buffer2NextDescAddr);
 8036b30:	68f6      	ldr	r6, [r6, #12]
  {
    DMARxNextDesc = frame.descriptor;
  }
  
  /* Set Own bit in Rx descriptors: gives the buffers back to DMA */
  for (i=0; i<DMA_RX_FRAME_infos->Seg_Count; i++)
 8036b32:	3201      	adds	r2, #1
 8036b34:	6899      	ldr	r1, [r3, #8]
 8036b36:	428a      	cmp	r2, r1
 8036b38:	d3f9      	bcc.n	8036b2e <ethernetif_input+0x7a>
    DMARxNextDesc->Status = ETH_DMARxDesc_OWN;
    DMARxNextDesc = (ETH_DMADESCTypeDef *)(DMARxNextDesc->Buffer2NextDescAddr);
  }
  
  /* Clear Segment_Count */
  DMA_RX_FRAME_infos->Seg_Count =0;
 8036b3a:	2200      	movs	r2, #0
 8036b3c:	609a      	str	r2, [r3, #8]
  
  
  /* When Rx Buffer unavailable flag is set: clear it and resume reception */
  if ((ETH->DMASR & ETH_DMASR_RBUS) != (u32)RESET)  
 8036b3e:	f8d9 3000 	ldr.w	r3, [r9]
 8036b42:	061b      	lsls	r3, r3, #24
 8036b44:	d504      	bpl.n	8036b50 <ethernetif_input+0x9c>
  {
    /* Clear RBUS ETHERNET DMA flag */
    ETH->DMASR = ETH_DMASR_RBUS;
 8036b46:	2380      	movs	r3, #128	; 0x80
 8036b48:	f8c9 3000 	str.w	r3, [r9]
      
    /* Resume DMA reception */
    ETH->DMARPDR = 0;
 8036b4c:	4b0a      	ldr	r3, [pc, #40]	; (8036b78 <ethernetif_input+0xc4>)
 8036b4e:	601a      	str	r2, [r3, #0]
  {
    if(xSemaphoreTake(s_xSemaphore, emacBLOCK_TIME_WAITING_FOR_INPUT)==pdTRUE)
    {
GET_NEXT_FRAGMENT:
      p = low_level_input( s_pxNetIf );
      if (p != NULL)
 8036b50:	2c00      	cmp	r4, #0
 8036b52:	d0b4      	beq.n	8036abe <ethernetif_input+0xa>
      {
        if (ERR_OK != s_pxNetIf->input( p, s_pxNetIf))
 8036b54:	4b09      	ldr	r3, [pc, #36]	; (8036b7c <ethernetif_input+0xc8>)
 8036b56:	6819      	ldr	r1, [r3, #0]
 8036b58:	4620      	mov	r0, r4
 8036b5a:	690b      	ldr	r3, [r1, #16]
 8036b5c:	4798      	blx	r3
 8036b5e:	4601      	mov	r1, r0
 8036b60:	b118      	cbz	r0, 8036b6a <ethernetif_input+0xb6>
        {
          pbuf_free(p);
 8036b62:	4620      	mov	r0, r4
 8036b64:	f7f8 fcc8 	bl	802f4f8 <pbuf_free>
 8036b68:	e7a9      	b.n	8036abe <ethernetif_input+0xa>
          p=NULL;
        }
        else
        {
          xSemaphoreTake(s_xSemaphore, 0);
 8036b6a:	f8d8 0000 	ldr.w	r0, [r8]
 8036b6e:	460a      	mov	r2, r1
 8036b70:	460b      	mov	r3, r1
 8036b72:	f7f4 f854 	bl	802ac1e <xQueueGenericReceive>
          goto GET_NEXT_FRAGMENT;
 8036b76:	e7af      	b.n	8036ad8 <ethernetif_input+0x24>
 8036b78:	40029008 	.word	0x40029008
 8036b7c:	2000c7cc 	.word	0x2000c7cc
 8036b80:	2000c7d0 	.word	0x2000c7d0
 8036b84:	200119d0 	.word	0x200119d0
 8036b88:	40029014 	.word	0x40029014

08036b8c <low_level_output>:
 *       to become availale since the stack doesn't retry to send a packet
 *       dropped because of memory failure (except for the TCP timers).
 */

static err_t low_level_output(struct netif *netif, struct pbuf *p)
{
 8036b8c:	b570      	push	{r4, r5, r6, lr}
  static SemaphoreHandle_t xTxSemaphore = NULL;
  struct pbuf *q;
  uint32_t l = 0;
  u8 *buffer ;
  
  if (xTxSemaphore == NULL)
 8036b8e:	4e19      	ldr	r6, [pc, #100]	; (8036bf4 <low_level_output+0x68>)
 8036b90:	6835      	ldr	r5, [r6, #0]
 *       to become availale since the stack doesn't retry to send a packet
 *       dropped because of memory failure (except for the TCP timers).
 */

static err_t low_level_output(struct netif *netif, struct pbuf *p)
{
 8036b92:	460c      	mov	r4, r1
  static SemaphoreHandle_t xTxSemaphore = NULL;
  struct pbuf *q;
  uint32_t l = 0;
  u8 *buffer ;
  
  if (xTxSemaphore == NULL)
 8036b94:	b95d      	cbnz	r5, 8036bae <low_level_output+0x22>
  {
    vSemaphoreCreateBinary (xTxSemaphore);
 8036b96:	2001      	movs	r0, #1
 8036b98:	4629      	mov	r1, r5
 8036b9a:	2203      	movs	r2, #3
 8036b9c:	f7f3 fec2 	bl	802a924 <xQueueGenericCreate>
 8036ba0:	6030      	str	r0, [r6, #0]
 8036ba2:	b120      	cbz	r0, 8036bae <low_level_output+0x22>
 8036ba4:	4629      	mov	r1, r5
 8036ba6:	462a      	mov	r2, r5
 8036ba8:	462b      	mov	r3, r5
 8036baa:	f7f3 fef8 	bl	802a99e <xQueueGenericSend>
  } 
   
  if (xSemaphoreTake(xTxSemaphore, netifGUARD_BLOCK_TIME))
 8036bae:	4b11      	ldr	r3, [pc, #68]	; (8036bf4 <low_level_output+0x68>)
 8036bb0:	2100      	movs	r1, #0
 8036bb2:	6818      	ldr	r0, [r3, #0]
 8036bb4:	22fa      	movs	r2, #250	; 0xfa
 8036bb6:	460b      	mov	r3, r1
 8036bb8:	f7f4 f831 	bl	802ac1e <xQueueGenericReceive>
 8036bbc:	b1c0      	cbz	r0, 8036bf0 <low_level_output+0x64>
  {
    buffer =  (u8 *)(DMATxDescToSet->Buffer1Addr);
 8036bbe:	4b0e      	ldr	r3, [pc, #56]	; (8036bf8 <low_level_output+0x6c>)
 8036bc0:	681b      	ldr	r3, [r3, #0]

static err_t low_level_output(struct netif *netif, struct pbuf *p)
{
  static SemaphoreHandle_t xTxSemaphore = NULL;
  struct pbuf *q;
  uint32_t l = 0;
 8036bc2:	2500      	movs	r5, #0
    vSemaphoreCreateBinary (xTxSemaphore);
  } 
   
  if (xSemaphoreTake(xTxSemaphore, netifGUARD_BLOCK_TIME))
  {
    buffer =  (u8 *)(DMATxDescToSet->Buffer1Addr);
 8036bc4:	689e      	ldr	r6, [r3, #8]
 8036bc6:	e007      	b.n	8036bd8 <low_level_output+0x4c>
    for(q = p; q != NULL; q = q->next) 
    {
      memcpy((u8_t*)&buffer[l], q->payload, q->len);
 8036bc8:	1970      	adds	r0, r6, r5
 8036bca:	6861      	ldr	r1, [r4, #4]
 8036bcc:	8962      	ldrh	r2, [r4, #10]
 8036bce:	f7eb f82d 	bl	8021c2c <memcpy>
      l = l + q->len;
 8036bd2:	8963      	ldrh	r3, [r4, #10]
  } 
   
  if (xSemaphoreTake(xTxSemaphore, netifGUARD_BLOCK_TIME))
  {
    buffer =  (u8 *)(DMATxDescToSet->Buffer1Addr);
    for(q = p; q != NULL; q = q->next) 
 8036bd4:	6824      	ldr	r4, [r4, #0]
    {
      memcpy((u8_t*)&buffer[l], q->payload, q->len);
      l = l + q->len;
 8036bd6:	18ed      	adds	r5, r5, r3
  } 
   
  if (xSemaphoreTake(xTxSemaphore, netifGUARD_BLOCK_TIME))
  {
    buffer =  (u8 *)(DMATxDescToSet->Buffer1Addr);
    for(q = p; q != NULL; q = q->next) 
 8036bd8:	2c00      	cmp	r4, #0
 8036bda:	d1f5      	bne.n	8036bc8 <low_level_output+0x3c>
    {
      memcpy((u8_t*)&buffer[l], q->payload, q->len);
      l = l + q->len;
    }
    ETH_Prepare_Transmit_Descriptors(l);
 8036bdc:	b2a8      	uxth	r0, r5
 8036bde:	f001 f9f3 	bl	8037fc8 <ETH_Prepare_Transmit_Descriptors>
    xSemaphoreGive(xTxSemaphore);
 8036be2:	4b04      	ldr	r3, [pc, #16]	; (8036bf4 <low_level_output+0x68>)
 8036be4:	4621      	mov	r1, r4
 8036be6:	6818      	ldr	r0, [r3, #0]
 8036be8:	4622      	mov	r2, r4
 8036bea:	4623      	mov	r3, r4
 8036bec:	f7f3 fed7 	bl	802a99e <xQueueGenericSend>
  }

  return ERR_OK;
}
 8036bf0:	2000      	movs	r0, #0
 8036bf2:	bd70      	pop	{r4, r5, r6, pc}
 8036bf4:	2000c7d4 	.word	0x2000c7d4
 8036bf8:	2000fb64 	.word	0x2000fb64

08036bfc <ethernetif_init>:
#if LWIP_NETIF_HOSTNAME
  /* Initialize interface hostname */
  netif->hostname = "lwip";
#endif /* LWIP_NETIF_HOSTNAME */

  netif->name[0] = IFNAME0;
 8036bfc:	2373      	movs	r3, #115	; 0x73
 * @return ERR_OK if the loopif is initialized
 *         ERR_MEM if private data couldn't be allocated
 *         any other err_t on error
 */
err_t ethernetif_init(struct netif *netif)
{
 8036bfe:	b530      	push	{r4, r5, lr}
#if LWIP_NETIF_HOSTNAME
  /* Initialize interface hostname */
  netif->hostname = "lwip";
#endif /* LWIP_NETIF_HOSTNAME */

  netif->name[0] = IFNAME0;
 8036c00:	f880 302e 	strb.w	r3, [r0, #46]	; 0x2e
  netif->name[1] = IFNAME1;
 8036c04:	2374      	movs	r3, #116	; 0x74
 8036c06:	f880 302f 	strb.w	r3, [r0, #47]	; 0x2f

  netif->output = etharp_output;
 8036c0a:	4b37      	ldr	r3, [pc, #220]	; (8036ce8 <ethernetif_init+0xec>)
  netif->flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP;
  
  s_pxNetIf =netif;
 
  /* create binary semaphore used for informing ethernetif of frame reception */
  if (s_xSemaphore == NULL)
 8036c0c:	4d37      	ldr	r5, [pc, #220]	; (8036cec <ethernetif_init+0xf0>)
#endif /* LWIP_NETIF_HOSTNAME */

  netif->name[0] = IFNAME0;
  netif->name[1] = IFNAME1;

  netif->output = etharp_output;
 8036c0e:	6143      	str	r3, [r0, #20]
  netif->linkoutput = low_level_output;
 8036c10:	4b37      	ldr	r3, [pc, #220]	; (8036cf0 <ethernetif_init+0xf4>)
 * @return ERR_OK if the loopif is initialized
 *         ERR_MEM if private data couldn't be allocated
 *         any other err_t on error
 */
err_t ethernetif_init(struct netif *netif)
{
 8036c12:	b087      	sub	sp, #28

  netif->name[0] = IFNAME0;
  netif->name[1] = IFNAME1;

  netif->output = etharp_output;
  netif->linkoutput = low_level_output;
 8036c14:	6183      	str	r3, [r0, #24]
{
  uint8_t mac[6];
  uint32_t i;
 
  /* set netif MAC hardware address length */
  netif->hwaddr_len = ETHARP_HWADDR_LEN;
 8036c16:	2306      	movs	r3, #6
 * @return ERR_OK if the loopif is initialized
 *         ERR_MEM if private data couldn't be allocated
 *         any other err_t on error
 */
err_t ethernetif_init(struct netif *netif)
{
 8036c18:	4604      	mov	r4, r0
{
  uint8_t mac[6];
  uint32_t i;
 
  /* set netif MAC hardware address length */
  netif->hwaddr_len = ETHARP_HWADDR_LEN;
 8036c1a:	f880 3026 	strb.w	r3, [r0, #38]	; 0x26
	
  /* set netif MAC hardware address */
  
  SETTINGS_GetMac(mac);
 8036c1e:	a804      	add	r0, sp, #16
 8036c20:	f7f2 f824 	bl	8028c6c <SETTINGS_GetMac>

  netif->hwaddr[0] =  mac[0];
 8036c24:	f89d 3010 	ldrb.w	r3, [sp, #16]
  netif->flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP;
  
  s_pxNetIf =netif;
 
  /* create binary semaphore used for informing ethernetif of frame reception */
  if (s_xSemaphore == NULL)
 8036c28:	6829      	ldr	r1, [r5, #0]
	
  /* set netif MAC hardware address */
  
  SETTINGS_GetMac(mac);

  netif->hwaddr[0] =  mac[0];
 8036c2a:	f884 3027 	strb.w	r3, [r4, #39]	; 0x27
  netif->hwaddr[1] =  mac[1];
 8036c2e:	f89d 3011 	ldrb.w	r3, [sp, #17]
 8036c32:	f884 3028 	strb.w	r3, [r4, #40]	; 0x28
  netif->hwaddr[2] =  mac[2];
 8036c36:	f89d 3012 	ldrb.w	r3, [sp, #18]
 8036c3a:	f884 3029 	strb.w	r3, [r4, #41]	; 0x29
  netif->hwaddr[3] =  mac[3];
 8036c3e:	f89d 3013 	ldrb.w	r3, [sp, #19]
 8036c42:	f884 302a 	strb.w	r3, [r4, #42]	; 0x2a
  netif->hwaddr[4] =  mac[4];
 8036c46:	f89d 3014 	ldrb.w	r3, [sp, #20]
 8036c4a:	f884 302b 	strb.w	r3, [r4, #43]	; 0x2b
  netif->hwaddr[5] =  mac[5];
 8036c4e:	f89d 3015 	ldrb.w	r3, [sp, #21]
 8036c52:	f884 302c 	strb.w	r3, [r4, #44]	; 0x2c

  /* set netif maximum transfer unit */
  netif->mtu = 1500;
 8036c56:	f240 53dc 	movw	r3, #1500	; 0x5dc
 8036c5a:	84a3      	strh	r3, [r4, #36]	; 0x24

  /* Accept broadcast address and ARP traffic */
  netif->flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP;
 8036c5c:	2322      	movs	r3, #34	; 0x22
 8036c5e:	f884 302d 	strb.w	r3, [r4, #45]	; 0x2d
  
  s_pxNetIf =netif;
 8036c62:	4b24      	ldr	r3, [pc, #144]	; (8036cf4 <ethernetif_init+0xf8>)
 8036c64:	601c      	str	r4, [r3, #0]
 
  /* create binary semaphore used for informing ethernetif of frame reception */
  if (s_xSemaphore == NULL)
 8036c66:	b919      	cbnz	r1, 8036c70 <ethernetif_init+0x74>
  {
    s_xSemaphore= xSemaphoreCreateCounting(20,0);
 8036c68:	2014      	movs	r0, #20
 8036c6a:	f7f3 fe82 	bl	802a972 <xQueueCreateCountingSemaphore>
 8036c6e:	6028      	str	r0, [r5, #0]
  }

  /* initialize MAC address in ethernet MAC */ 
  ETH_MACAddressConfig(ETH_MAC_Address0, netif->hwaddr); 
 8036c70:	f104 0127 	add.w	r1, r4, #39	; 0x27
 8036c74:	2000      	movs	r0, #0
 8036c76:	f001 f93f 	bl	8037ef8 <ETH_MACAddressConfig>
  
  /* Initialize Tx Descriptors list: Chain Mode */
  ETH_DMATxDescChainInit(DMATxDscrTab, &Tx_Buff[0][0], ETH_TXBUFNB);
 8036c7a:	481f      	ldr	r0, [pc, #124]	; (8036cf8 <ethernetif_init+0xfc>)
 8036c7c:	491f      	ldr	r1, [pc, #124]	; (8036cfc <ethernetif_init+0x100>)
  
  /* Enable Ethernet Rx interrrupt */
  { 
    for(i=0; i<ETH_RXBUFNB; i++)
    {
      ETH_DMARxDescReceiveITConfig(&DMARxDscrTab[i], ENABLE);
 8036c7e:	4d20      	ldr	r5, [pc, #128]	; (8036d00 <ethernetif_init+0x104>)

  /* initialize MAC address in ethernet MAC */ 
  ETH_MACAddressConfig(ETH_MAC_Address0, netif->hwaddr); 
  
  /* Initialize Tx Descriptors list: Chain Mode */
  ETH_DMATxDescChainInit(DMATxDscrTab, &Tx_Buff[0][0], ETH_TXBUFNB);
 8036c80:	2205      	movs	r2, #5
 8036c82:	f001 fa27 	bl	80380d4 <ETH_DMATxDescChainInit>
  /* Initialize Rx Descriptors list: Chain Mode  */
  ETH_DMARxDescChainInit(DMARxDscrTab, &Rx_Buff[0][0], ETH_RXBUFNB);
 8036c86:	481e      	ldr	r0, [pc, #120]	; (8036d00 <ethernetif_init+0x104>)
 8036c88:	491e      	ldr	r1, [pc, #120]	; (8036d04 <ethernetif_init+0x108>)
 8036c8a:	2205      	movs	r2, #5
 8036c8c:	f001 f9f6 	bl	803807c <ETH_DMARxDescChainInit>
  
  /* Enable Ethernet Rx interrrupt */
  { 
    for(i=0; i<ETH_RXBUFNB; i++)
 8036c90:	2400      	movs	r4, #0
    {
      ETH_DMARxDescReceiveITConfig(&DMARxDscrTab[i], ENABLE);
 8036c92:	eb05 1044 	add.w	r0, r5, r4, lsl #5
 8036c96:	2101      	movs	r1, #1
  /* Initialize Rx Descriptors list: Chain Mode  */
  ETH_DMARxDescChainInit(DMARxDscrTab, &Rx_Buff[0][0], ETH_RXBUFNB);
  
  /* Enable Ethernet Rx interrrupt */
  { 
    for(i=0; i<ETH_RXBUFNB; i++)
 8036c98:	3401      	adds	r4, #1
    {
      ETH_DMARxDescReceiveITConfig(&DMARxDscrTab[i], ENABLE);
 8036c9a:	f001 fa41 	bl	8038120 <ETH_DMARxDescReceiveITConfig>
  /* Initialize Rx Descriptors list: Chain Mode  */
  ETH_DMARxDescChainInit(DMARxDscrTab, &Rx_Buff[0][0], ETH_RXBUFNB);
  
  /* Enable Ethernet Rx interrrupt */
  { 
    for(i=0; i<ETH_RXBUFNB; i++)
 8036c9e:	2c05      	cmp	r4, #5
 8036ca0:	d1f7      	bne.n	8036c92 <ethernetif_init+0x96>
#ifdef CHECKSUM_BY_HARDWARE
  /* Enable the checksum insertion for the Tx frames */
  {
    for(i=0; i<ETH_TXBUFNB; i++)
    {
      ETH_DMATxDescChecksumInsertionConfig(&DMATxDscrTab[i], ETH_DMATxDesc_ChecksumTCPUDPICMPFull);
 8036ca2:	4d15      	ldr	r5, [pc, #84]	; (8036cf8 <ethernetif_init+0xfc>)
  /* Initialize Rx Descriptors list: Chain Mode  */
  ETH_DMARxDescChainInit(DMARxDscrTab, &Rx_Buff[0][0], ETH_RXBUFNB);
  
  /* Enable Ethernet Rx interrrupt */
  { 
    for(i=0; i<ETH_RXBUFNB; i++)
 8036ca4:	2400      	movs	r4, #0
#ifdef CHECKSUM_BY_HARDWARE
  /* Enable the checksum insertion for the Tx frames */
  {
    for(i=0; i<ETH_TXBUFNB; i++)
    {
      ETH_DMATxDescChecksumInsertionConfig(&DMATxDscrTab[i], ETH_DMATxDesc_ChecksumTCPUDPICMPFull);
 8036ca6:	eb05 1044 	add.w	r0, r5, r4, lsl #5
 8036caa:	f44f 0140 	mov.w	r1, #12582912	; 0xc00000
  }

#ifdef CHECKSUM_BY_HARDWARE
  /* Enable the checksum insertion for the Tx frames */
  {
    for(i=0; i<ETH_TXBUFNB; i++)
 8036cae:	3401      	adds	r4, #1
    {
      ETH_DMATxDescChecksumInsertionConfig(&DMATxDscrTab[i], ETH_DMATxDesc_ChecksumTCPUDPICMPFull);
 8036cb0:	f001 fa32 	bl	8038118 <ETH_DMATxDescChecksumInsertionConfig>
  }

#ifdef CHECKSUM_BY_HARDWARE
  /* Enable the checksum insertion for the Tx frames */
  {
    for(i=0; i<ETH_TXBUFNB; i++)
 8036cb4:	2c05      	cmp	r4, #5
 8036cb6:	d1f6      	bne.n	8036ca6 <ethernetif_init+0xaa>
    }
  } 
#endif
  
  /* create the task that handles the ETH_MAC */
  xTaskCreate(ethernetif_input, "Eth_if", netifINTERFACE_TASK_STACK_SIZE, NULL,
 8036cb8:	2400      	movs	r4, #0
 8036cba:	2304      	movs	r3, #4
 8036cbc:	2296      	movs	r2, #150	; 0x96
 8036cbe:	e88d 0018 	stmia.w	sp, {r3, r4}
 8036cc2:	4911      	ldr	r1, [pc, #68]	; (8036d08 <ethernetif_init+0x10c>)
 8036cc4:	9402      	str	r4, [sp, #8]
 8036cc6:	4623      	mov	r3, r4
 8036cc8:	9403      	str	r4, [sp, #12]
 8036cca:	4810      	ldr	r0, [pc, #64]	; (8036d0c <ethernetif_init+0x110>)
 8036ccc:	f7f4 f8b0 	bl	802ae30 <xTaskGenericCreate>
              netifINTERFACE_TASK_PRIORITY,NULL);
  
  /* Enable MAC and DMA transmission and reception */
  ETH_Start();   
 8036cd0:	f001 fa7c 	bl	80381cc <ETH_Start>

  /* initialize the hardware */
  low_level_init(netif);
  
  etharp_init();
  sys_timeout(ARP_TMR_INTERVAL, arp_timer, NULL);
 8036cd4:	f241 3088 	movw	r0, #5000	; 0x1388
 8036cd8:	490d      	ldr	r1, [pc, #52]	; (8036d10 <ethernetif_init+0x114>)
 8036cda:	4622      	mov	r2, r4
 8036cdc:	f7fa fe92 	bl	8031a04 <sys_timeout>

  return ERR_OK;
}
 8036ce0:	4620      	mov	r0, r4
 8036ce2:	b007      	add	sp, #28
 8036ce4:	bd30      	pop	{r4, r5, pc}
 8036ce6:	bf00      	nop
 8036ce8:	080367a1 	.word	0x080367a1
 8036cec:	2000c7d0 	.word	0x2000c7d0
 8036cf0:	08036b8d 	.word	0x08036b8d
 8036cf4:	2000c7cc 	.word	0x2000c7cc
 8036cf8:	2000fb68 	.word	0x2000fb68
 8036cfc:	20011a74 	.word	0x20011a74
 8036d00:	200119d4 	.word	0x200119d4
 8036d04:	2000fc08 	.word	0x2000fc08
 8036d08:	0804491f 	.word	0x0804491f
 8036d0c:	08036ab5 	.word	0x08036ab5
 8036d10:	08036a99 	.word	0x08036a99

08036d14 <sys_mbox_new>:
 *      int size                -- Size of elements in the mailbox
 * Outputs:
 *      sys_mbox_t              -- Handle to new mailbox
 *---------------------------------------------------------------------------*/
err_t sys_mbox_new( sys_mbox_t *pxMailBox, int iSize )
{
 8036d14:	b510      	push	{r4, lr}
err_t xReturn = ERR_MEM;

	*pxMailBox = xQueueCreate( iSize, sizeof( void * ) );
 8036d16:	2200      	movs	r2, #0
 *      int size                -- Size of elements in the mailbox
 * Outputs:
 *      sys_mbox_t              -- Handle to new mailbox
 *---------------------------------------------------------------------------*/
err_t sys_mbox_new( sys_mbox_t *pxMailBox, int iSize )
{
 8036d18:	4604      	mov	r4, r0
err_t xReturn = ERR_MEM;

	*pxMailBox = xQueueCreate( iSize, sizeof( void * ) );
 8036d1a:	4608      	mov	r0, r1
 8036d1c:	2104      	movs	r1, #4
 8036d1e:	f7f3 fe01 	bl	802a924 <xQueueGenericCreate>
 8036d22:	6020      	str	r0, [r4, #0]
		xReturn = ERR_OK;
		SYS_STATS_INC_USED( mbox );
	}

	return xReturn;
}
 8036d24:	2800      	cmp	r0, #0
 8036d26:	bf14      	ite	ne
 8036d28:	2000      	movne	r0, #0
 8036d2a:	f06f 0000 	mvneq.w	r0, #0
 8036d2e:	bd10      	pop	{r4, pc}

08036d30 <sys_mbox_trypost>:
 * Outputs:
 *      err_t                   -- ERR_OK if message posted, else ERR_MEM
 *                                  if not.
 *---------------------------------------------------------------------------*/
err_t sys_mbox_trypost( sys_mbox_t *pxMailBox, void *pxMessageToPost )
{
 8036d30:	b51f      	push	{r0, r1, r2, r3, r4, lr}
err_t xReturn;
portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE;

	if( xInsideISR != pdFALSE )
 8036d32:	4a0b      	ldr	r2, [pc, #44]	; (8036d60 <sys_mbox_trypost+0x30>)
 * Outputs:
 *      err_t                   -- ERR_OK if message posted, else ERR_MEM
 *                                  if not.
 *---------------------------------------------------------------------------*/
err_t sys_mbox_trypost( sys_mbox_t *pxMailBox, void *pxMessageToPost )
{
 8036d34:	9101      	str	r1, [sp, #4]
err_t xReturn;
portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE;

	if( xInsideISR != pdFALSE )
 8036d36:	6812      	ldr	r2, [r2, #0]
	{
		xReturn = xQueueSendFromISR( *pxMailBox, &pxMessageToPost, &xHigherPriorityTaskWoken );
 8036d38:	6800      	ldr	r0, [r0, #0]
 *                                  if not.
 *---------------------------------------------------------------------------*/
err_t sys_mbox_trypost( sys_mbox_t *pxMailBox, void *pxMessageToPost )
{
err_t xReturn;
portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE;
 8036d3a:	2300      	movs	r3, #0
 8036d3c:	9303      	str	r3, [sp, #12]

	if( xInsideISR != pdFALSE )
	{
		xReturn = xQueueSendFromISR( *pxMailBox, &pxMessageToPost, &xHigherPriorityTaskWoken );
 8036d3e:	a901      	add	r1, sp, #4
err_t sys_mbox_trypost( sys_mbox_t *pxMailBox, void *pxMessageToPost )
{
err_t xReturn;
portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE;

	if( xInsideISR != pdFALSE )
 8036d40:	b11a      	cbz	r2, 8036d4a <sys_mbox_trypost+0x1a>
	{
		xReturn = xQueueSendFromISR( *pxMailBox, &pxMessageToPost, &xHigherPriorityTaskWoken );
 8036d42:	aa03      	add	r2, sp, #12
 8036d44:	f7f3 feef 	bl	802ab26 <xQueueGenericSendFromISR>
 8036d48:	e002      	b.n	8036d50 <sys_mbox_trypost+0x20>
	}
	else
	{
		xReturn = xQueueSend( *pxMailBox, &pxMessageToPost, ( TickType_t ) 0 );
 8036d4a:	4613      	mov	r3, r2
 8036d4c:	f7f3 fe27 	bl	802a99e <xQueueGenericSend>
 8036d50:	b2c0      	uxtb	r0, r0
		xReturn = ERR_MEM;
		SYS_STATS_INC( mbox.err );
	}

	return xReturn;
}
 8036d52:	3801      	subs	r0, #1
 8036d54:	bf18      	it	ne
 8036d56:	f06f 0000 	mvnne.w	r0, #0
 8036d5a:	b005      	add	sp, #20
 8036d5c:	bd00      	pop	{pc}
 8036d5e:	bf00      	nop
 8036d60:	2000c7d8 	.word	0x2000c7d8

08036d64 <sys_arch_mbox_fetch>:
 * Outputs:
 *      u32_t                   -- SYS_ARCH_TIMEOUT if timeout, else number
 *                                  of milliseconds until received.
 *---------------------------------------------------------------------------*/
u32_t sys_arch_mbox_fetch( sys_mbox_t *pxMailBox, void **ppvBuffer, u32_t ulTimeOut )
{
 8036d64:	e92d 41f3 	stmdb	sp!, {r0, r1, r4, r5, r6, r7, r8, lr}
 8036d68:	4607      	mov	r7, r0
 8036d6a:	460c      	mov	r4, r1
 8036d6c:	4690      	mov	r8, r2
void *pvDummy;
TickType_t xStartTime, xEndTime, xElapsed;
unsigned long ulReturn;

	xStartTime = xTaskGetTickCount();
 8036d6e:	f7f4 f9c7 	bl	802b100 <xTaskGetTickCount>
 8036d72:	4605      	mov	r5, r0

	if( NULL == ppvBuffer )
 8036d74:	b904      	cbnz	r4, 8036d78 <sys_arch_mbox_fetch+0x14>
	{
		ppvBuffer = &pvDummy;
 8036d76:	ac01      	add	r4, sp, #4
	}

	if( ulTimeOut != 0UL )
 8036d78:	f1b8 0f00 	cmp.w	r8, #0
 8036d7c:	d015      	beq.n	8036daa <sys_arch_mbox_fetch+0x46>
	{
		configASSERT( xInsideISR == ( portBASE_TYPE ) 0 );
 8036d7e:	4b13      	ldr	r3, [pc, #76]	; (8036dcc <sys_arch_mbox_fetch+0x68>)
 8036d80:	681e      	ldr	r6, [r3, #0]
 8036d82:	b116      	cbz	r6, 8036d8a <sys_arch_mbox_fetch+0x26>
 8036d84:	f7f4 feda 	bl	802bb3c <ulPortSetInterruptMask>
 8036d88:	e7fe      	b.n	8036d88 <sys_arch_mbox_fetch+0x24>

		if( pdTRUE == xQueueReceive( *pxMailBox, &( *ppvBuffer ), ulTimeOut/ portTICK_PERIOD_MS ) )
 8036d8a:	6838      	ldr	r0, [r7, #0]
 8036d8c:	4621      	mov	r1, r4
 8036d8e:	4642      	mov	r2, r8
 8036d90:	4633      	mov	r3, r6
 8036d92:	f7f3 ff44 	bl	802ac1e <xQueueGenericReceive>
 8036d96:	2801      	cmp	r0, #1
 8036d98:	d103      	bne.n	8036da2 <sys_arch_mbox_fetch+0x3e>
		{
			xEndTime = xTaskGetTickCount();
 8036d9a:	f7f4 f9b1 	bl	802b100 <xTaskGetTickCount>
			xElapsed = ( xEndTime - xStartTime ) * portTICK_PERIOD_MS;
 8036d9e:	1b40      	subs	r0, r0, r5
 8036da0:	e011      	b.n	8036dc6 <sys_arch_mbox_fetch+0x62>
			ulReturn = xElapsed;
		}
		else
		{
			/* Timed out. */
			*ppvBuffer = NULL;
 8036da2:	6026      	str	r6, [r4, #0]
			ulReturn = SYS_ARCH_TIMEOUT;
 8036da4:	f04f 30ff 	mov.w	r0, #4294967295
 8036da8:	e00d      	b.n	8036dc6 <sys_arch_mbox_fetch+0x62>
		}
	}
	else
	{
		while( pdTRUE != xQueueReceive( *pxMailBox, &( *ppvBuffer ), portMAX_DELAY ) );
 8036daa:	2300      	movs	r3, #0
 8036dac:	6838      	ldr	r0, [r7, #0]
 8036dae:	4621      	mov	r1, r4
 8036db0:	f04f 32ff 	mov.w	r2, #4294967295
 8036db4:	f7f3 ff33 	bl	802ac1e <xQueueGenericReceive>
 8036db8:	2801      	cmp	r0, #1
 8036dba:	d1f6      	bne.n	8036daa <sys_arch_mbox_fetch+0x46>
		xEndTime = xTaskGetTickCount();
 8036dbc:	f7f4 f9a0 	bl	802b100 <xTaskGetTickCount>
		xElapsed = ( xEndTime - xStartTime ) * portTICK_PERIOD_MS;

		if( xElapsed == 0UL )
 8036dc0:	1b40      	subs	r0, r0, r5
 8036dc2:	bf08      	it	eq
 8036dc4:	2001      	moveq	r0, #1

		ulReturn = xElapsed;
	}

	return ulReturn;
}
 8036dc6:	e8bd 81fc 	ldmia.w	sp!, {r2, r3, r4, r5, r6, r7, r8, pc}
 8036dca:	bf00      	nop
 8036dcc:	2000c7d8 	.word	0x2000c7d8

08036dd0 <sys_mutex_new>:

/** Create a new mutex
 * @param mutex pointer to the mutex to create
 * @return a new mutex */
err_t sys_mutex_new( sys_mutex_t *pxMutex )
{
 8036dd0:	b510      	push	{r4, lr}
 8036dd2:	4604      	mov	r4, r0
err_t xReturn = ERR_MEM;

	*pxMutex = xSemaphoreCreateMutex();
 8036dd4:	2001      	movs	r0, #1
 8036dd6:	f7f3 fe7c 	bl	802aad2 <xQueueCreateMutex>
 8036dda:	6020      	str	r0, [r4, #0]
	{
		SYS_STATS_INC( mutex.err );
	}

	return xReturn;
}
 8036ddc:	2800      	cmp	r0, #0
 8036dde:	bf14      	ite	ne
 8036de0:	2000      	movne	r0, #0
 8036de2:	f06f 0000 	mvneq.w	r0, #0
 8036de6:	bd10      	pop	{r4, pc}

08036de8 <sys_mutex_lock>:

/** Lock a mutex
 * @param mutex the mutex to lock */
void sys_mutex_lock( sys_mutex_t *pxMutex )
{
 8036de8:	b510      	push	{r4, lr}
 8036dea:	4604      	mov	r4, r0
	while( xSemaphoreTake( *pxMutex, portMAX_DELAY ) != pdPASS );
 8036dec:	2100      	movs	r1, #0
 8036dee:	6820      	ldr	r0, [r4, #0]
 8036df0:	f04f 32ff 	mov.w	r2, #4294967295
 8036df4:	460b      	mov	r3, r1
 8036df6:	f7f3 ff12 	bl	802ac1e <xQueueGenericReceive>
 8036dfa:	2801      	cmp	r0, #1
 8036dfc:	d1f6      	bne.n	8036dec <sys_mutex_lock+0x4>
}
 8036dfe:	bd10      	pop	{r4, pc}

08036e00 <sys_mutex_unlock>:

/** Unlock a mutex
 * @param mutex the mutex to unlock */
void sys_mutex_unlock(sys_mutex_t *pxMutex )
{
	xSemaphoreGive( *pxMutex );
 8036e00:	2100      	movs	r1, #0
 8036e02:	6800      	ldr	r0, [r0, #0]
 8036e04:	460a      	mov	r2, r1
 8036e06:	460b      	mov	r3, r1
 8036e08:	f7f3 bdc9 	b.w	802a99e <xQueueGenericSend>

08036e0c <sys_init>:
 *---------------------------------------------------------------------------*
 * Description:
 *      Initialize sys arch
 *---------------------------------------------------------------------------*/
void sys_init(void)
{
 8036e0c:	4770      	bx	lr

08036e0e <sys_now>:
}

u32_t sys_now(void)
{
	return xTaskGetTickCount();
 8036e0e:	f7f4 b977 	b.w	802b100 <xTaskGetTickCount>

08036e12 <sys_thread_new>:
 *      int prio                -- Thread priority
 * Outputs:
 *      sys_thread_t            -- Pointer to per-thread timeouts.
 *---------------------------------------------------------------------------*/
sys_thread_t sys_thread_new( const char *pcName, void( *pxThread )( void *pvParameters ), void *pvArg, int iStackSize, int iPriority )
{
 8036e12:	b570      	push	{r4, r5, r6, lr}
 8036e14:	b086      	sub	sp, #24
 8036e16:	4606      	mov	r6, r0
TaskHandle_t xCreatedTask;
portBASE_TYPE xResult;
sys_thread_t xReturn;

	xResult = xTaskCreate( pxThread, pcName, iStackSize, pvArg, iPriority, &xCreatedTask );
 8036e18:	9c0a      	ldr	r4, [sp, #40]	; 0x28
 *      int prio                -- Thread priority
 * Outputs:
 *      sys_thread_t            -- Pointer to per-thread timeouts.
 *---------------------------------------------------------------------------*/
sys_thread_t sys_thread_new( const char *pcName, void( *pxThread )( void *pvParameters ), void *pvArg, int iStackSize, int iPriority )
{
 8036e1a:	4615      	mov	r5, r2
TaskHandle_t xCreatedTask;
portBASE_TYPE xResult;
sys_thread_t xReturn;

	xResult = xTaskCreate( pxThread, pcName, iStackSize, pvArg, iPriority, &xCreatedTask );
 8036e1c:	9400      	str	r4, [sp, #0]
 8036e1e:	aa05      	add	r2, sp, #20
 8036e20:	2400      	movs	r4, #0
 8036e22:	9201      	str	r2, [sp, #4]
 8036e24:	9402      	str	r4, [sp, #8]
 8036e26:	b29a      	uxth	r2, r3
 8036e28:	9403      	str	r4, [sp, #12]
 8036e2a:	4608      	mov	r0, r1
 8036e2c:	462b      	mov	r3, r5
 8036e2e:	4631      	mov	r1, r6
 8036e30:	f7f3 fffe 	bl	802ae30 <xTaskGenericCreate>

	if( xResult == pdPASS )
 8036e34:	2801      	cmp	r0, #1
	{
		xReturn = xCreatedTask;
 8036e36:	bf0c      	ite	eq
 8036e38:	9805      	ldreq	r0, [sp, #20]
	}
	else
	{
		xReturn = NULL;
 8036e3a:	4620      	movne	r0, r4
	}

	return xReturn;
}
 8036e3c:	b006      	add	sp, #24
 8036e3e:	bd70      	pop	{r4, r5, r6, pc}

08036e40 <sys_arch_protect>:
 *      operating system.
 * Outputs:
 *      sys_prot_t              -- Previous protection level (not used here)
 *---------------------------------------------------------------------------*/
sys_prot_t sys_arch_protect( void )
{
 8036e40:	b508      	push	{r3, lr}
	if( xInsideISR == pdFALSE )
 8036e42:	4b03      	ldr	r3, [pc, #12]	; (8036e50 <sys_arch_protect+0x10>)
 8036e44:	681b      	ldr	r3, [r3, #0]
 8036e46:	b90b      	cbnz	r3, 8036e4c <sys_arch_protect+0xc>
	{
		taskENTER_CRITICAL();
 8036e48:	f7f4 fe80 	bl	802bb4c <vPortEnterCritical>
	}
	return ( sys_prot_t ) 1;
}
 8036e4c:	2001      	movs	r0, #1
 8036e4e:	bd08      	pop	{r3, pc}
 8036e50:	2000c7d8 	.word	0x2000c7d8

08036e54 <sys_arch_unprotect>:
 *      sys_prot_t              -- Previous protection level (not used here)
 *---------------------------------------------------------------------------*/
void sys_arch_unprotect( sys_prot_t xValue )
{
	(void) xValue;
	if( xInsideISR == pdFALSE )
 8036e54:	4b02      	ldr	r3, [pc, #8]	; (8036e60 <sys_arch_unprotect+0xc>)
 8036e56:	681b      	ldr	r3, [r3, #0]
 8036e58:	b90b      	cbnz	r3, 8036e5e <sys_arch_unprotect+0xa>
	{
		taskEXIT_CRITICAL();
 8036e5a:	f7f4 bea3 	b.w	802bba4 <vPortExitCritical>
 8036e5e:	4770      	bx	lr
 8036e60:	2000c7d8 	.word	0x2000c7d8

08036e64 <vTaskWebReinit>:
  *           Е�ли флаг не у�танавливает�� в положенное врем�, то �бра�ывает��
  *         флаг sSettings.sFlags.netsettingsChanged, �охран�ет�� в�� �труктура
  *         на�троек в пам�ти и контроллер перезагружает��.
  */
void vTaskWebReinit(void * pvParameters)
{
 8036e64:	b538      	push	{r3, r4, r5, lr}
  static uint16_t timeCounter = 0;
  
  for (;;)
  {
	/* Контроль времени работы задачи */
	if (timeCounter++ > TIME_COUNTER_10_MIN)
 8036e66:	4c1b      	ldr	r4, [pc, #108]	; (8036ed4 <vTaskWebReinit+0x70>)
	if (fConfirmWebParams)
	{
	  fConfirmWebParams = false;
		
	  /* Сохран�ем временные �етевые на�тройки в по�то�нные */
	  sSettings.sWebParams.dhcpEnable = sSettings.sWebTempParams.dhcpEnable;
 8036e68:	4d1b      	ldr	r5, [pc, #108]	; (8036ed8 <vTaskWebReinit+0x74>)
  static uint16_t timeCounter = 0;
  
  for (;;)
  {
	/* Контроль времени работы задачи */
	if (timeCounter++ > TIME_COUNTER_10_MIN)
 8036e6a:	8823      	ldrh	r3, [r4, #0]
 8036e6c:	1c5a      	adds	r2, r3, #1
 8036e6e:	f5b3 7f16 	cmp.w	r3, #600	; 0x258
 8036e72:	8022      	strh	r2, [r4, #0]
 8036e74:	d90a      	bls.n	8036e8c <vTaskWebReinit+0x28>
	{
	  SetWebReinitFlag(false);
 8036e76:	2000      	movs	r0, #0
 8036e78:	f7f1 fabe 	bl	80283f8 <SetWebReinitFlag>
	  HTTP_SaveSettings();
 8036e7c:	f7f7 f92c 	bl	802e0d8 <HTTP_SaveSettings>
      vTaskDelay(1010);
 8036e80:	f240 30f2 	movw	r0, #1010	; 0x3f2
 8036e84:	f7f4 fa6e 	bl	802b364 <vTaskDelay>
      Reboot();
 8036e88:	f7f2 fb06 	bl	8029498 <Reboot>
	}
	
	if (fConfirmWebParams)
 8036e8c:	4b13      	ldr	r3, [pc, #76]	; (8036edc <vTaskWebReinit+0x78>)
 8036e8e:	781a      	ldrb	r2, [r3, #0]
 8036e90:	b1d2      	cbz	r2, 8036ec8 <vTaskWebReinit+0x64>
	{
	  fConfirmWebParams = false;
 8036e92:	2200      	movs	r2, #0
		
	  /* Сохран�ем временные �етевые на�тройки в по�то�нные */
	  sSettings.sWebParams.dhcpEnable = sSettings.sWebTempParams.dhcpEnable;
	  strcpy(sSettings.sWebParams.ip,   sSettings.sWebTempParams.ip);
 8036e94:	4812      	ldr	r0, [pc, #72]	; (8036ee0 <vTaskWebReinit+0x7c>)
      Reboot();
	}
	
	if (fConfirmWebParams)
	{
	  fConfirmWebParams = false;
 8036e96:	701a      	strb	r2, [r3, #0]
		
	  /* Сохран�ем временные �етевые на�тройки в по�то�нные */
	  sSettings.sWebParams.dhcpEnable = sSettings.sWebTempParams.dhcpEnable;
 8036e98:	f895 3063 	ldrb.w	r3, [r5, #99]	; 0x63
	  strcpy(sSettings.sWebParams.ip,   sSettings.sWebTempParams.ip);
 8036e9c:	f100 0131 	add.w	r1, r0, #49	; 0x31
	if (fConfirmWebParams)
	{
	  fConfirmWebParams = false;
		
	  /* Сохран�ем временные �етевые на�тройки в по�то�нные */
	  sSettings.sWebParams.dhcpEnable = sSettings.sWebTempParams.dhcpEnable;
 8036ea0:	f885 3032 	strb.w	r3, [r5, #50]	; 0x32
	  strcpy(sSettings.sWebParams.ip,   sSettings.sWebTempParams.ip);
 8036ea4:	f7eb f8f6 	bl	8022094 <strcpy>
	  strcpy(sSettings.sWebParams.gate, sSettings.sWebTempParams.gate);
 8036ea8:	480e      	ldr	r0, [pc, #56]	; (8036ee4 <vTaskWebReinit+0x80>)
 8036eaa:	f100 0131 	add.w	r1, r0, #49	; 0x31
 8036eae:	f7eb f8f1 	bl	8022094 <strcpy>
	  strcpy(sSettings.sWebParams.mask, sSettings.sWebTempParams.mask);
 8036eb2:	480d      	ldr	r0, [pc, #52]	; (8036ee8 <vTaskWebReinit+0x84>)
 8036eb4:	f100 0131 	add.w	r1, r0, #49	; 0x31
 8036eb8:	f7eb f8ec 	bl	8022094 <strcpy>
	  
	  HTTP_SaveSettings();
 8036ebc:	f7f7 f90c 	bl	802e0d8 <HTTP_SaveSettings>
	  
	  vTaskDelete(xHandleWebReinit);
 8036ec0:	4b0a      	ldr	r3, [pc, #40]	; (8036eec <vTaskWebReinit+0x88>)
 8036ec2:	6818      	ldr	r0, [r3, #0]
 8036ec4:	f7f4 f88c 	bl	802afe0 <vTaskDelete>
	}	
	  
	vTaskDelay(1000);
 8036ec8:	f44f 707a 	mov.w	r0, #1000	; 0x3e8
 8036ecc:	f7f4 fa4a 	bl	802b364 <vTaskDelay>
  }	
 8036ed0:	e7cb      	b.n	8036e6a <vTaskWebReinit+0x6>
 8036ed2:	bf00      	nop
 8036ed4:	2000c7e8 	.word	0x2000c7e8
 8036ed8:	2000cba0 	.word	0x2000cba0
 8036edc:	20000b18 	.word	0x20000b18
 8036ee0:	2000cba2 	.word	0x2000cba2
 8036ee4:	2000cbb2 	.word	0x2000cbb2
 8036ee8:	2000cbc2 	.word	0x2000cbc2
 8036eec:	2000c7e0 	.word	0x2000c7e0

08036ef0 <LwIP_DHCP_task>:
  * @brief  LwIP_DHCP_Process_Handle
  * @param  None
  * @retval None
  */
void LwIP_DHCP_task(void * pvParameters)
{
 8036ef0:	b530      	push	{r4, r5, lr}
            DHCP_state = DHCP_TIMEOUT;

            /* Stop DHCP */
            dhcp_stop(&xnetif);
			
			if (sSettings.sFlags.netsettingsChanged == true)
 8036ef2:	4d48      	ldr	r5, [pc, #288]	; (8037014 <LwIP_DHCP_task+0x124>)
  * @brief  LwIP_DHCP_Process_Handle
  * @param  None
  * @retval None
  */
void LwIP_DHCP_task(void * pvParameters)
{
 8036ef4:	b085      	sub	sp, #20
  struct ip_addr ipaddr;
  struct ip_addr netmask;
  struct ip_addr gw;
  uint8_t DHCP_state;  
  DHCP_state = DHCP_START;
 8036ef6:	2400      	movs	r4, #0

  for (;;)
  {
    switch (DHCP_state)
 8036ef8:	b11c      	cbz	r4, 8036f02 <LwIP_DHCP_task+0x12>
 8036efa:	2c01      	cmp	r4, #1
 8036efc:	f040 8085 	bne.w	803700a <LwIP_DHCP_task+0x11a>
 8036f00:	e004      	b.n	8036f0c <LwIP_DHCP_task+0x1c>
    {
      case DHCP_START:
      {
        dhcp_start(&xnetif);
 8036f02:	4845      	ldr	r0, [pc, #276]	; (8037018 <LwIP_DHCP_task+0x128>)
 8036f04:	f7f7 fffc 	bl	802ef00 <dhcp_start>
        DHCP_state = DHCP_WAIT_ADDRESS;
 8036f08:	2401      	movs	r4, #1
        //PRINT_USART("\n\rLooking for DHCP server please wait...\n\r");
      }
      break;
 8036f0a:	e07e      	b.n	803700a <LwIP_DHCP_task+0x11a>

      case DHCP_WAIT_ADDRESS:
      {
        /* Read the new IP address */
        ipaddr = xnetif.ip_addr;
 8036f0c:	4842      	ldr	r0, [pc, #264]	; (8037018 <LwIP_DHCP_task+0x128>)
        netmask = xnetif.netmask;
 8036f0e:	6882      	ldr	r2, [r0, #8]
      break;

      case DHCP_WAIT_ADDRESS:
      {
        /* Read the new IP address */
        ipaddr = xnetif.ip_addr;
 8036f10:	6843      	ldr	r3, [r0, #4]
        netmask = xnetif.netmask;
 8036f12:	9202      	str	r2, [sp, #8]
        gw = xnetif.gw;
 8036f14:	68c2      	ldr	r2, [r0, #12]
      break;

      case DHCP_WAIT_ADDRESS:
      {
        /* Read the new IP address */
        ipaddr = xnetif.ip_addr;
 8036f16:	9301      	str	r3, [sp, #4]
        netmask = xnetif.netmask;
        gw = xnetif.gw;
 8036f18:	9203      	str	r2, [sp, #12]
        	
        if (ipaddr.addr != 0) 
 8036f1a:	2b00      	cmp	r3, #0
 8036f1c:	d045      	beq.n	8036faa <LwIP_DHCP_task+0xba>
        {
          DHCP_state = DHCP_ADDRESS_ASSIGNED;	
          dhcp_stop(&xnetif);
 8036f1e:	f7f7 ffd7 	bl	802eed0 <dhcp_stop>
          
		  /* Сохранение полученных �етевый параметров */
		  /* Е�ли на�тройки изменили, то �охран�ем во временные на�тройки */
          if (sSettings.sFlags.netsettingsChanged == true)
 8036f22:	f895 3120 	ldrb.w	r3, [r5, #288]	; 0x120
		  {
		    sprintf(sSettings.sWebTempParams.ip,   "%s", ipaddr_ntoa(&ipaddr));
 8036f26:	a801      	add	r0, sp, #4
          DHCP_state = DHCP_ADDRESS_ASSIGNED;	
          dhcp_stop(&xnetif);
          
		  /* Сохранение полученных �етевый параметров */
		  /* Е�ли на�тройки изменили, то �охран�ем во временные на�тройки */
          if (sSettings.sFlags.netsettingsChanged == true)
 8036f28:	b103      	cbz	r3, 8036f2c <LwIP_DHCP_task+0x3c>
 8036f2a:	e01b      	b.n	8036f64 <LwIP_DHCP_task+0x74>
		    sprintf(sSettings.sWebTempParams.mask, "%s", ipaddr_ntoa(&netmask));
		    sprintf(sSettings.sWebTempParams.gate, "%s", ipaddr_ntoa(&gw));
		  }
		  else
		  {
		    sprintf(sSettings.sWebParams.ip,   "%s", ipaddr_ntoa(&ipaddr));
 8036f2c:	f7fb fa68 	bl	8032400 <ipaddr_ntoa>
 8036f30:	493a      	ldr	r1, [pc, #232]	; (803701c <LwIP_DHCP_task+0x12c>)
 8036f32:	4602      	mov	r2, r0
 8036f34:	483a      	ldr	r0, [pc, #232]	; (8037020 <LwIP_DHCP_task+0x130>)
 8036f36:	f7f0 fdf3 	bl	8027b20 <tfp_sprintf>
		    sprintf(sSettings.sWebParams.mask, "%s", ipaddr_ntoa(&netmask));
 8036f3a:	a802      	add	r0, sp, #8
 8036f3c:	f7fb fa60 	bl	8032400 <ipaddr_ntoa>
 8036f40:	4936      	ldr	r1, [pc, #216]	; (803701c <LwIP_DHCP_task+0x12c>)
 8036f42:	4602      	mov	r2, r0
 8036f44:	4837      	ldr	r0, [pc, #220]	; (8037024 <LwIP_DHCP_task+0x134>)
 8036f46:	f7f0 fdeb 	bl	8027b20 <tfp_sprintf>
		    sprintf(sSettings.sWebParams.gate, "%s", ipaddr_ntoa(&gw));
 8036f4a:	a803      	add	r0, sp, #12
 8036f4c:	f7fb fa58 	bl	8032400 <ipaddr_ntoa>
 8036f50:	4932      	ldr	r1, [pc, #200]	; (803701c <LwIP_DHCP_task+0x12c>)
 8036f52:	4602      	mov	r2, r0
 8036f54:	4834      	ldr	r0, [pc, #208]	; (8037028 <LwIP_DHCP_task+0x138>)
 8036f56:	f7f0 fde3 	bl	8027b20 <tfp_sprintf>
			
			/* Обновл�ем временные на�тройки */
			sSettings.sWebTempParams.dhcpEnable = sSettings.sWebParams.dhcpEnable;
 8036f5a:	f895 3032 	ldrb.w	r3, [r5, #50]	; 0x32
			sprintf(sSettings.sWebTempParams.ip,   "%s", ipaddr_ntoa(&ipaddr));
 8036f5e:	a801      	add	r0, sp, #4
		    sprintf(sSettings.sWebParams.ip,   "%s", ipaddr_ntoa(&ipaddr));
		    sprintf(sSettings.sWebParams.mask, "%s", ipaddr_ntoa(&netmask));
		    sprintf(sSettings.sWebParams.gate, "%s", ipaddr_ntoa(&gw));
			
			/* Обновл�ем временные на�тройки */
			sSettings.sWebTempParams.dhcpEnable = sSettings.sWebParams.dhcpEnable;
 8036f60:	f885 3063 	strb.w	r3, [r5, #99]	; 0x63
			sprintf(sSettings.sWebTempParams.ip,   "%s", ipaddr_ntoa(&ipaddr));
 8036f64:	f7fb fa4c 	bl	8032400 <ipaddr_ntoa>
 8036f68:	492c      	ldr	r1, [pc, #176]	; (803701c <LwIP_DHCP_task+0x12c>)
 8036f6a:	4602      	mov	r2, r0
 8036f6c:	482f      	ldr	r0, [pc, #188]	; (803702c <LwIP_DHCP_task+0x13c>)
 8036f6e:	f7f0 fdd7 	bl	8027b20 <tfp_sprintf>
		    sprintf(sSettings.sWebTempParams.mask, "%s", ipaddr_ntoa(&netmask));
 8036f72:	a802      	add	r0, sp, #8
 8036f74:	f7fb fa44 	bl	8032400 <ipaddr_ntoa>
 8036f78:	4928      	ldr	r1, [pc, #160]	; (803701c <LwIP_DHCP_task+0x12c>)
 8036f7a:	4602      	mov	r2, r0
 8036f7c:	482c      	ldr	r0, [pc, #176]	; (8037030 <LwIP_DHCP_task+0x140>)
 8036f7e:	f7f0 fdcf 	bl	8027b20 <tfp_sprintf>
		    sprintf(sSettings.sWebTempParams.gate, "%s", ipaddr_ntoa(&gw));
 8036f82:	a803      	add	r0, sp, #12
 8036f84:	f7fb fa3c 	bl	8032400 <ipaddr_ntoa>
 8036f88:	4924      	ldr	r1, [pc, #144]	; (803701c <LwIP_DHCP_task+0x12c>)
 8036f8a:	4602      	mov	r2, r0
 8036f8c:	4829      	ldr	r0, [pc, #164]	; (8037034 <LwIP_DHCP_task+0x144>)
 8036f8e:	f7f0 fdc7 	bl	8027b20 <tfp_sprintf>
		  
		  PRINT_USART("Gateway:   ");
		  PRINT_USART(ipaddr_ntoa(&gw));
		  PRINT_USART("\n\r");
          
		  vTaskDelay(50);
 8036f92:	2032      	movs	r0, #50	; 0x32
 8036f94:	f7f4 f9e6 	bl	802b364 <vTaskDelay>
		  /* У�тановлен динамиче�кий IP, можно отправить трап о перезагрузке у�трой�тва */
		  SNMP_SendUserTrap(DEVICE_REBOOTED);
 8036f98:	2004      	movs	r0, #4
 8036f9a:	f000 fad9 	bl	8037550 <SNMP_SendUserTrap>
		  
          vTaskDelete(xHandleDHCP);
 8036f9e:	4b26      	ldr	r3, [pc, #152]	; (8037038 <LwIP_DHCP_task+0x148>)
 8036fa0:	6818      	ldr	r0, [r3, #0]
 8036fa2:	f7f4 f81d 	bl	802afe0 <vTaskDelete>
        netmask = xnetif.netmask;
        gw = xnetif.gw;
        	
        if (ipaddr.addr != 0) 
        {
          DHCP_state = DHCP_ADDRESS_ASSIGNED;	
 8036fa6:	2402      	movs	r4, #2
 8036fa8:	e02f      	b.n	803700a <LwIP_DHCP_task+0x11a>
          vTaskDelete(xHandleDHCP);
        }
        else
        {
          /* DHCP timeout */
          if (xnetif.dhcp->tries > MAX_DHCP_TRIES)
 8036faa:	6a03      	ldr	r3, [r0, #32]
 8036fac:	7b5b      	ldrb	r3, [r3, #13]
 8036fae:	2b03      	cmp	r3, #3
 8036fb0:	d92b      	bls.n	803700a <LwIP_DHCP_task+0x11a>
          {
            DHCP_state = DHCP_TIMEOUT;

            /* Stop DHCP */
            dhcp_stop(&xnetif);
 8036fb2:	f7f7 ff8d 	bl	802eed0 <dhcp_stop>
			
			if (sSettings.sFlags.netsettingsChanged == true)
 8036fb6:	f895 3120 	ldrb.w	r3, [r5, #288]	; 0x120
 8036fba:	b14b      	cbz	r3, 8036fd0 <LwIP_DHCP_task+0xe0>
		    {
			  ipaddr.addr = ipaddr_addr(sSettings.sWebTempParams.ip);
 8036fbc:	481b      	ldr	r0, [pc, #108]	; (803702c <LwIP_DHCP_task+0x13c>)
 8036fbe:	f7fb f9cc 	bl	803235a <ipaddr_addr>
 8036fc2:	9001      	str	r0, [sp, #4]
	          netmask.addr = ipaddr_addr(sSettings.sWebTempParams.mask);
 8036fc4:	481a      	ldr	r0, [pc, #104]	; (8037030 <LwIP_DHCP_task+0x140>)
 8036fc6:	f7fb f9c8 	bl	803235a <ipaddr_addr>
 8036fca:	9002      	str	r0, [sp, #8]
	          gw.addr = ipaddr_addr(sSettings.sWebTempParams.gate);
 8036fcc:	4819      	ldr	r0, [pc, #100]	; (8037034 <LwIP_DHCP_task+0x144>)
 8036fce:	e008      	b.n	8036fe2 <LwIP_DHCP_task+0xf2>
			}  
			else
			{  
			  ipaddr.addr = ipaddr_addr(sSettings.sWebParams.ip);
 8036fd0:	4813      	ldr	r0, [pc, #76]	; (8037020 <LwIP_DHCP_task+0x130>)
 8036fd2:	f7fb f9c2 	bl	803235a <ipaddr_addr>
 8036fd6:	9001      	str	r0, [sp, #4]
	          netmask.addr = ipaddr_addr(sSettings.sWebParams.mask);
 8036fd8:	4812      	ldr	r0, [pc, #72]	; (8037024 <LwIP_DHCP_task+0x134>)
 8036fda:	f7fb f9be 	bl	803235a <ipaddr_addr>
 8036fde:	9002      	str	r0, [sp, #8]
	          gw.addr = ipaddr_addr(sSettings.sWebParams.gate);
 8036fe0:	4811      	ldr	r0, [pc, #68]	; (8037028 <LwIP_DHCP_task+0x138>)
 8036fe2:	f7fb f9ba 	bl	803235a <ipaddr_addr>
			}
			  
            /* Static address used */
            netif_set_addr(&xnetif, &ipaddr , &netmask, &gw);
 8036fe6:	a901      	add	r1, sp, #4
 8036fe8:	aa02      	add	r2, sp, #8
 8036fea:	ab03      	add	r3, sp, #12
			}  
			else
			{  
			  ipaddr.addr = ipaddr_addr(sSettings.sWebParams.ip);
	          netmask.addr = ipaddr_addr(sSettings.sWebParams.mask);
	          gw.addr = ipaddr_addr(sSettings.sWebParams.gate);
 8036fec:	9003      	str	r0, [sp, #12]
			}
			  
            /* Static address used */
            netif_set_addr(&xnetif, &ipaddr , &netmask, &gw);
 8036fee:	480a      	ldr	r0, [pc, #40]	; (8037018 <LwIP_DHCP_task+0x128>)
 8036ff0:	f7f8 f9de 	bl	802f3b0 <netif_set_addr>
            PRINT_USART("DHCP timeout\n\r");
            PRINT_USART("\n\rStatic IP address\n\r");
			PRINT_USART(ipaddr_ntoa(&ipaddr));
		    PRINT_USART("\n\r");

			vTaskDelay(50);
 8036ff4:	2032      	movs	r0, #50	; 0x32
 8036ff6:	f7f4 f9b5 	bl	802b364 <vTaskDelay>
			/* У�тановлен �татиче�кий IP, можно отправить трап о перезагрузке у�трой�тва */
		    SNMP_SendUserTrap(DEVICE_REBOOTED);
 8036ffa:	2004      	movs	r0, #4
 8036ffc:	f000 faa8 	bl	8037550 <SNMP_SendUserTrap>
			
			vTaskDelete(xHandleDHCP);
 8037000:	4b0d      	ldr	r3, [pc, #52]	; (8037038 <LwIP_DHCP_task+0x148>)
 8037002:	6818      	ldr	r0, [r3, #0]
 8037004:	f7f3 ffec 	bl	802afe0 <vTaskDelete>
        else
        {
          /* DHCP timeout */
          if (xnetif.dhcp->tries > MAX_DHCP_TRIES)
          {
            DHCP_state = DHCP_TIMEOUT;
 8037008:	2403      	movs	r4, #3
      break;

      default: break;
    }

    vTaskDelay(250);
 803700a:	20fa      	movs	r0, #250	; 0xfa
 803700c:	f7f4 f9aa 	bl	802b364 <vTaskDelay>
  }   
 8037010:	e772      	b.n	8036ef8 <LwIP_DHCP_task+0x8>
 8037012:	bf00      	nop
 8037014:	2000cba0 	.word	0x2000cba0
 8037018:	2000f85c 	.word	0x2000f85c
 803701c:	0804288f 	.word	0x0804288f
 8037020:	2000cba2 	.word	0x2000cba2
 8037024:	2000cbc2 	.word	0x2000cbc2
 8037028:	2000cbb2 	.word	0x2000cbb2
 803702c:	2000cbd3 	.word	0x2000cbd3
 8037030:	2000cbf3 	.word	0x2000cbf3
 8037034:	2000cbe3 	.word	0x2000cbe3
 8037038:	2000c7e4 	.word	0x2000c7e4

0803703c <LwIP_Init>:
TaskHandle_t xHandleWebReinit = NULL;

bool dhcp = false;	

void LwIP_Init(void)
{
 803703c:	b530      	push	{r4, r5, lr}
  struct ip_addr ipaddr;
  struct ip_addr netmask;
  struct ip_addr gw;
  char str[20];

  tcpip_init( NULL, NULL );	
 803703e:	2000      	movs	r0, #0

  /* Е�ли на�тройки изменили, то и�пользуем временные параметры */
  if (sSettings.sFlags.netsettingsChanged == true)
 8037040:	4c50      	ldr	r4, [pc, #320]	; (8037184 <LwIP_Init+0x148>)
TaskHandle_t xHandleWebReinit = NULL;

bool dhcp = false;	

void LwIP_Init(void)
{
 8037042:	b08d      	sub	sp, #52	; 0x34
  struct ip_addr ipaddr;
  struct ip_addr netmask;
  struct ip_addr gw;
  char str[20];

  tcpip_init( NULL, NULL );	
 8037044:	4601      	mov	r1, r0
 8037046:	f7f7 f8f7 	bl	802e238 <tcpip_init>

  /* Е�ли на�тройки изменили, то и�пользуем временные параметры */
  if (sSettings.sFlags.netsettingsChanged == true)
 803704a:	f894 3120 	ldrb.w	r3, [r4, #288]	; 0x120
 803704e:	2b00      	cmp	r3, #0
 8037050:	d032      	beq.n	80370b8 <LwIP_Init+0x7c>
  {
    if (sSettings.sWebTempParams.dhcpEnable)
 8037052:	f894 5063 	ldrb.w	r5, [r4, #99]	; 0x63
 8037056:	b12d      	cbz	r5, 8037064 <LwIP_Init+0x28>
    {	
      ipaddr.addr = 0;
 8037058:	2300      	movs	r3, #0
 803705a:	9304      	str	r3, [sp, #16]
      netmask.addr = 0;
 803705c:	9305      	str	r3, [sp, #20]
      gw.addr = 0;
 803705e:	9306      	str	r3, [sp, #24]
	
	  netif_add(&xnetif, &ipaddr, &netmask, &gw, NULL, &ethernetif_init, &tcpip_input);
 8037060:	9300      	str	r3, [sp, #0]
 8037062:	e015      	b.n	8037090 <LwIP_Init+0x54>
      netif_set_default(&xnetif);
      netif_set_up(&xnetif); 
    }	
    else
    {	
	  ipaddr.addr = ipaddr_addr(sSettings.sWebTempParams.ip);
 8037064:	f104 0033 	add.w	r0, r4, #51	; 0x33
 8037068:	f7fb f977 	bl	803235a <ipaddr_addr>
 803706c:	9004      	str	r0, [sp, #16]
	  netmask.addr = ipaddr_addr(sSettings.sWebTempParams.mask);
 803706e:	f104 0053 	add.w	r0, r4, #83	; 0x53
 8037072:	f7fb f972 	bl	803235a <ipaddr_addr>
 8037076:	9005      	str	r0, [sp, #20]
	  gw.addr = ipaddr_addr(sSettings.sWebTempParams.gate);
 8037078:	f104 0043 	add.w	r0, r4, #67	; 0x43
 803707c:	f7fb f96d 	bl	803235a <ipaddr_addr>
  
      sprintf(str, " %s\n\r", sSettings.sWebTempParams.ip);
 8037080:	4941      	ldr	r1, [pc, #260]	; (8037188 <LwIP_Init+0x14c>)
    }	
    else
    {	
	  ipaddr.addr = ipaddr_addr(sSettings.sWebTempParams.ip);
	  netmask.addr = ipaddr_addr(sSettings.sWebTempParams.mask);
	  gw.addr = ipaddr_addr(sSettings.sWebTempParams.gate);
 8037082:	9006      	str	r0, [sp, #24]
  
      sprintf(str, " %s\n\r", sSettings.sWebTempParams.ip);
 8037084:	f104 0233 	add.w	r2, r4, #51	; 0x33
 8037088:	a807      	add	r0, sp, #28
 803708a:	f7f0 fd49 	bl	8027b20 <tfp_sprintf>
      PRINT_USART("\n\rStatic IP address   \n\r");
      PRINT_USART(str);

      netif_add(&xnetif, &ipaddr, &netmask, &gw, NULL, &ethernetif_init, &tcpip_input);
 803708e:	9500      	str	r5, [sp, #0]
 8037090:	4b3e      	ldr	r3, [pc, #248]	; (803718c <LwIP_Init+0x150>)
 8037092:	483f      	ldr	r0, [pc, #252]	; (8037190 <LwIP_Init+0x154>)
 8037094:	9301      	str	r3, [sp, #4]
 8037096:	4b3f      	ldr	r3, [pc, #252]	; (8037194 <LwIP_Init+0x158>)
 8037098:	a904      	add	r1, sp, #16
 803709a:	aa05      	add	r2, sp, #20
 803709c:	9302      	str	r3, [sp, #8]
 803709e:	ab06      	add	r3, sp, #24
 80370a0:	f7f8 f994 	bl	802f3cc <netif_add>
      netif_set_default(&xnetif);
 80370a4:	483a      	ldr	r0, [pc, #232]	; (8037190 <LwIP_Init+0x154>)
 80370a6:	f7f8 f9b9 	bl	802f41c <netif_set_default>
      netif_set_up(&xnetif); 
 80370aa:	4839      	ldr	r0, [pc, #228]	; (8037190 <LwIP_Init+0x154>)
 80370ac:	f7f8 f9c6 	bl	802f43c <netif_set_up>
    }
  
	if (sSettings.sWebTempParams.dhcpEnable) {
 80370b0:	4b34      	ldr	r3, [pc, #208]	; (8037184 <LwIP_Init+0x148>)
 80370b2:	f893 3063 	ldrb.w	r3, [r3, #99]	; 0x63
 80370b6:	e043      	b.n	8037140 <LwIP_Init+0x104>
	}  
  }
  /* �а�тройки не мен�ли�ь, и�пользуем обычне на�тройки из флеш пам�ти */
  else
  {
    if (sSettings.sWebParams.dhcpEnable)
 80370b8:	f894 5032 	ldrb.w	r5, [r4, #50]	; 0x32
 80370bc:	b125      	cbz	r5, 80370c8 <LwIP_Init+0x8c>
    {	
      ipaddr.addr = 0;
 80370be:	9304      	str	r3, [sp, #16]
      netmask.addr = 0;
 80370c0:	9305      	str	r3, [sp, #20]
      gw.addr = 0;
 80370c2:	9306      	str	r3, [sp, #24]
	
	  netif_add(&xnetif, &ipaddr, &netmask, &gw, NULL, &ethernetif_init, &tcpip_input);
 80370c4:	9300      	str	r3, [sp, #0]
 80370c6:	e028      	b.n	803711a <LwIP_Init+0xde>
      netif_set_default(&xnetif);
      netif_set_up(&xnetif); 
    }	
    else
    {	
	  ipaddr.addr = ipaddr_addr(sSettings.sWebParams.ip);
 80370c8:	1ca0      	adds	r0, r4, #2
 80370ca:	f7fb f946 	bl	803235a <ipaddr_addr>
 80370ce:	9004      	str	r0, [sp, #16]
	  netmask.addr = ipaddr_addr(sSettings.sWebParams.mask);
 80370d0:	f104 0022 	add.w	r0, r4, #34	; 0x22
 80370d4:	f7fb f941 	bl	803235a <ipaddr_addr>
 80370d8:	9005      	str	r0, [sp, #20]
	  gw.addr = ipaddr_addr(sSettings.sWebParams.gate);
 80370da:	f104 0012 	add.w	r0, r4, #18
 80370de:	f7fb f93c 	bl	803235a <ipaddr_addr>
  	  
	  /* Обновл�ем временные на�тройки */
	  sSettings.sWebTempParams.dhcpEnable = sSettings.sWebParams.dhcpEnable;
 80370e2:	f894 3032 	ldrb.w	r3, [r4, #50]	; 0x32
    }	
    else
    {	
	  ipaddr.addr = ipaddr_addr(sSettings.sWebParams.ip);
	  netmask.addr = ipaddr_addr(sSettings.sWebParams.mask);
	  gw.addr = ipaddr_addr(sSettings.sWebParams.gate);
 80370e6:	9006      	str	r0, [sp, #24]
  	  
	  /* Обновл�ем временные на�тройки */
	  sSettings.sWebTempParams.dhcpEnable = sSettings.sWebParams.dhcpEnable;
	  strcpy(sSettings.sWebTempParams.ip, sSettings.sWebParams.ip);
 80370e8:	1ca1      	adds	r1, r4, #2
 80370ea:	f104 0033 	add.w	r0, r4, #51	; 0x33
	  ipaddr.addr = ipaddr_addr(sSettings.sWebParams.ip);
	  netmask.addr = ipaddr_addr(sSettings.sWebParams.mask);
	  gw.addr = ipaddr_addr(sSettings.sWebParams.gate);
  	  
	  /* Обновл�ем временные на�тройки */
	  sSettings.sWebTempParams.dhcpEnable = sSettings.sWebParams.dhcpEnable;
 80370ee:	f884 3063 	strb.w	r3, [r4, #99]	; 0x63
	  strcpy(sSettings.sWebTempParams.ip, sSettings.sWebParams.ip);
 80370f2:	f7ea ffcf 	bl	8022094 <strcpy>
	  strcpy(sSettings.sWebTempParams.mask, sSettings.sWebParams.mask);
 80370f6:	f104 0122 	add.w	r1, r4, #34	; 0x22
 80370fa:	f104 0053 	add.w	r0, r4, #83	; 0x53
 80370fe:	f7ea ffc9 	bl	8022094 <strcpy>
	  strcpy(sSettings.sWebTempParams.gate, sSettings.sWebParams.gate);
 8037102:	f104 0112 	add.w	r1, r4, #18
 8037106:	f104 0043 	add.w	r0, r4, #67	; 0x43
 803710a:	f7ea ffc3 	bl	8022094 <strcpy>
	  
      sprintf(str, " %s\n\r", sSettings.sWebParams.ip);
 803710e:	a807      	add	r0, sp, #28
 8037110:	491d      	ldr	r1, [pc, #116]	; (8037188 <LwIP_Init+0x14c>)
 8037112:	1ca2      	adds	r2, r4, #2
 8037114:	f7f0 fd04 	bl	8027b20 <tfp_sprintf>
      PRINT_USART("\n\rStatic IP address   \n\r");
      PRINT_USART(str);

      netif_add(&xnetif, &ipaddr, &netmask, &gw, NULL, &ethernetif_init, &tcpip_input);
 8037118:	9500      	str	r5, [sp, #0]
 803711a:	4b1c      	ldr	r3, [pc, #112]	; (803718c <LwIP_Init+0x150>)
 803711c:	481c      	ldr	r0, [pc, #112]	; (8037190 <LwIP_Init+0x154>)
 803711e:	9301      	str	r3, [sp, #4]
 8037120:	4b1c      	ldr	r3, [pc, #112]	; (8037194 <LwIP_Init+0x158>)
 8037122:	a904      	add	r1, sp, #16
 8037124:	aa05      	add	r2, sp, #20
 8037126:	9302      	str	r3, [sp, #8]
 8037128:	ab06      	add	r3, sp, #24
 803712a:	f7f8 f94f 	bl	802f3cc <netif_add>
      netif_set_default(&xnetif);
 803712e:	4818      	ldr	r0, [pc, #96]	; (8037190 <LwIP_Init+0x154>)
 8037130:	f7f8 f974 	bl	802f41c <netif_set_default>
      netif_set_up(&xnetif); 
 8037134:	4816      	ldr	r0, [pc, #88]	; (8037190 <LwIP_Init+0x154>)
 8037136:	f7f8 f981 	bl	802f43c <netif_set_up>
    }
  
	if (sSettings.sWebParams.dhcpEnable) {
 803713a:	4b12      	ldr	r3, [pc, #72]	; (8037184 <LwIP_Init+0x148>)
 803713c:	f893 3032 	ldrb.w	r3, [r3, #50]	; 0x32
 8037140:	b17b      	cbz	r3, 8037162 <LwIP_Init+0x126>
      xTaskCreate(LwIP_DHCP_task, "DHCPClient", configMINIMAL_STACK_SIZE * 2, NULL,
 8037142:	2302      	movs	r3, #2
 8037144:	9300      	str	r3, [sp, #0]
 8037146:	4b14      	ldr	r3, [pc, #80]	; (8037198 <LwIP_Init+0x15c>)
 8037148:	4814      	ldr	r0, [pc, #80]	; (803719c <LwIP_Init+0x160>)
 803714a:	9301      	str	r3, [sp, #4]
 803714c:	2300      	movs	r3, #0
 803714e:	9302      	str	r3, [sp, #8]
 8037150:	9303      	str	r3, [sp, #12]
 8037152:	f44f 7280 	mov.w	r2, #256	; 0x100
 8037156:	4912      	ldr	r1, [pc, #72]	; (80371a0 <LwIP_Init+0x164>)
 8037158:	f7f3 fe6a 	bl	802ae30 <xTaskGenericCreate>
                  tskIDLE_PRIORITY + 2, &xHandleDHCP);
	  dhcp = true;
 803715c:	4b11      	ldr	r3, [pc, #68]	; (80371a4 <LwIP_Init+0x168>)
 803715e:	2201      	movs	r2, #1
 8037160:	701a      	strb	r2, [r3, #0]
	}  
  }
  
  /* Е�ли на�тройки изменили�ь, запу�каем задачу по от�чету времени реакции пользовател�*/
  if (sSettings.sFlags.netsettingsChanged == true)
 8037162:	4b08      	ldr	r3, [pc, #32]	; (8037184 <LwIP_Init+0x148>)
 8037164:	f893 3120 	ldrb.w	r3, [r3, #288]	; 0x120
 8037168:	b153      	cbz	r3, 8037180 <LwIP_Init+0x144>
    xTaskCreate(vTaskWebReinit, "webReinit", configMINIMAL_STACK_SIZE, NULL,
 803716a:	4a0f      	ldr	r2, [pc, #60]	; (80371a8 <LwIP_Init+0x16c>)
 803716c:	480f      	ldr	r0, [pc, #60]	; (80371ac <LwIP_Init+0x170>)
 803716e:	9201      	str	r2, [sp, #4]
 8037170:	2300      	movs	r3, #0
 8037172:	9300      	str	r3, [sp, #0]
 8037174:	9302      	str	r3, [sp, #8]
 8037176:	9303      	str	r3, [sp, #12]
 8037178:	490d      	ldr	r1, [pc, #52]	; (80371b0 <LwIP_Init+0x174>)
 803717a:	2280      	movs	r2, #128	; 0x80
 803717c:	f7f3 fe58 	bl	802ae30 <xTaskGenericCreate>
              tskIDLE_PRIORITY, &xHandleWebReinit);
}
 8037180:	b00d      	add	sp, #52	; 0x34
 8037182:	bd30      	pop	{r4, r5, pc}
 8037184:	2000cba0 	.word	0x2000cba0
 8037188:	08044926 	.word	0x08044926
 803718c:	08036bfd 	.word	0x08036bfd
 8037190:	2000f85c 	.word	0x2000f85c
 8037194:	0802e1f9 	.word	0x0802e1f9
 8037198:	2000c7e4 	.word	0x2000c7e4
 803719c:	08036ef1 	.word	0x08036ef1
 80371a0:	0804492c 	.word	0x0804492c
 80371a4:	2000c7dc 	.word	0x2000c7dc
 80371a8:	2000c7e0 	.word	0x2000c7e0
 80371ac:	08036e65 	.word	0x08036e65
 80371b0:	08044937 	.word	0x08044937

080371b4 <GetStateWebReinit>:

/**
  * @brief  Возвращает true е�ли �етевые параметры изменили�ь
  */
bool GetStateWebReinit(void)
{
 80371b4:	b510      	push	{r4, lr}
  /* Стату� dhcp изменил��? */
  if (sSettings.sWebParams.dhcpEnable != sSettings.sWebTempParams.dhcpEnable)
 80371b6:	4c12      	ldr	r4, [pc, #72]	; (8037200 <GetStateWebReinit+0x4c>)
 80371b8:	f894 2032 	ldrb.w	r2, [r4, #50]	; 0x32
 80371bc:	f894 3063 	ldrb.w	r3, [r4, #99]	; 0x63
 80371c0:	429a      	cmp	r2, r3
 80371c2:	d004      	beq.n	80371ce <GetStateWebReinit+0x1a>
  {
	/* Включили dhcp */
    if (sSettings.sWebTempParams.dhcpEnable == 1)
	{
	  /* У�танавилваем флаг */
	  SetWebReinitFlag(true);
 80371c4:	2001      	movs	r0, #1
 80371c6:	f7f1 f917 	bl	80283f8 <SetWebReinitFlag>
	  return true;
 80371ca:	2001      	movs	r0, #1
 80371cc:	bd10      	pop	{r4, pc}
	  return true;
	}  
  }
  
  /* Изменил�� IP? */
  if (strstr(sSettings.sWebParams.ip, sSettings.sWebTempParams.ip) == 0)
 80371ce:	1ca0      	adds	r0, r4, #2
 80371d0:	f104 0133 	add.w	r1, r4, #51	; 0x33
 80371d4:	f7eb fa3c 	bl	8022650 <strstr>
 80371d8:	2800      	cmp	r0, #0
 80371da:	d0f3      	beq.n	80371c4 <GetStateWebReinit+0x10>
	SetWebReinitFlag(true);
	return true;
  }
 
  /* Изменил�� шлюз? */
  if (strstr(sSettings.sWebParams.gate, sSettings.sWebTempParams.gate) == 0)
 80371dc:	f104 0012 	add.w	r0, r4, #18
 80371e0:	f104 0143 	add.w	r1, r4, #67	; 0x43
 80371e4:	f7eb fa34 	bl	8022650 <strstr>
 80371e8:	2800      	cmp	r0, #0
 80371ea:	d0eb      	beq.n	80371c4 <GetStateWebReinit+0x10>
	SetWebReinitFlag(true);
	return true;
  }
  
  /* Изменила�ь ма�ка? */
  if (strstr(sSettings.sWebParams.mask, sSettings.sWebTempParams.mask) == 0)
 80371ec:	f104 0022 	add.w	r0, r4, #34	; 0x22
 80371f0:	f104 0153 	add.w	r1, r4, #83	; 0x53
 80371f4:	f7eb fa2c 	bl	8022650 <strstr>
 80371f8:	2800      	cmp	r0, #0
 80371fa:	d0e3      	beq.n	80371c4 <GetStateWebReinit+0x10>
    /* У�танавилваем флаг */
	SetWebReinitFlag(true);
	return true;
  }
  
  return false;
 80371fc:	2000      	movs	r0, #0
}
 80371fe:	bd10      	pop	{r4, pc}
 8037200:	2000cba0 	.word	0x2000cba0

08037204 <signals_set_value>:
 \param  len - длина переменной в байтах 
 \param  value - указатель на значение переменной
 \return нет
------------------------------------------------------------------------------*/
static void signals_set_value (struct obj_def *od, u16_t len, void *value)
{
 8037204:	b530      	push	{r4, r5, lr}
 8037206:	4605      	mov	r5, r0
 8037208:	b087      	sub	sp, #28
 803720a:	4614      	mov	r4, r2
  uint32_t val;
  char *val_string;
  char str[20];
  int8_t res = 0;

  memset(str, 0, 20);
 803720c:	a801      	add	r0, sp, #4
 803720e:	2100      	movs	r1, #0
 8037210:	2214      	movs	r2, #20
 8037212:	f7ea fdc5 	bl	8021da0 <memset>
  
  id = od->id_inst_ptr[0];
 8037216:	68ab      	ldr	r3, [r5, #8]
  
  switch (id)
 8037218:	781b      	ldrb	r3, [r3, #0]
 803721a:	3b02      	subs	r3, #2
 803721c:	2b06      	cmp	r3, #6
 803721e:	f200 8081 	bhi.w	8037324 <signals_set_value+0x120>
 8037222:	e8df f003 	tbb	[pc, r3]
 8037226:	0a04      	.short	0x0a04
 8037228:	3e27117f 	.word	0x3e27117f
 803722c:	60          	.byte	0x60
 803722d:	00          	.byte	0x00
  {
    case 2: /* RestoreSignal */
      val = *((s32_t*)value);
      if (val == 1) {
 803722e:	6823      	ldr	r3, [r4, #0]
 8037230:	2b01      	cmp	r3, #1
 8037232:	d177      	bne.n	8037324 <signals_set_value+0x120>
        HTTP_ResetSettings();
 8037234:	f7f6 ff3c 	bl	802e0b0 <HTTP_ResetSettings>
 8037238:	e074      	b.n	8037324 <signals_set_value+0x120>
      }
    break;
    case 3: /* RebootSignal */
      val = *((s32_t*)value);
      if (val == 1)
 803723a:	6823      	ldr	r3, [r4, #0]
 803723c:	2b01      	cmp	r3, #1
 803723e:	d171      	bne.n	8037324 <signals_set_value+0x120>
        HTTP_StartResetTask(false);
 8037240:	2000      	movs	r0, #0
 8037242:	f7f6 ff7f 	bl	802e144 <HTTP_StartResetTask>
 8037246:	e06d      	b.n	8037324 <signals_set_value+0x120>
    break;
	case 5: /* DO1 */
	  if(sSettings.sInOuts.ro_type_source[0] == SNMP_SET){
 8037248:	4b37      	ldr	r3, [pc, #220]	; (8037328 <signals_set_value+0x124>)
 803724a:	f893 3374 	ldrb.w	r3, [r3, #884]	; 0x374
 803724e:	2b03      	cmp	r3, #3
 8037250:	d168      	bne.n	8037324 <signals_set_value+0x120>
		  val_string = (char*)value;
		  SetROStr(val_string, 0);
 8037252:	2100      	movs	r1, #0
 8037254:	4620      	mov	r0, r4
 8037256:	f7f1 faa9 	bl	80287ac <SetROStr>
		  if(val_string[0] == 0x31)
 803725a:	7823      	ldrb	r3, [r4, #0]
 803725c:	2b31      	cmp	r3, #49	; 0x31
			  strcat(str, "Замкнуто");
 803725e:	bf0c      	ite	eq
 8037260:	4932      	ldreq	r1, [pc, #200]	; (803732c <signals_set_value+0x128>)
		  else
			  strcat(str, "Разомкнуто");
 8037262:	4933      	ldrne	r1, [pc, #204]	; (8037330 <signals_set_value+0x12c>)
	case 5: /* DO1 */
	  if(sSettings.sInOuts.ro_type_source[0] == SNMP_SET){
		  val_string = (char*)value;
		  SetROStr(val_string, 0);
		  if(val_string[0] == 0x31)
			  strcat(str, "Замкнуто");
 8037264:	a801      	add	r0, sp, #4
		  else
			  strcat(str, "Разомкнуто");
 8037266:	f7ea fe01 	bl	8021e6c <strcat>
		  SNMP_SendUserTrap(DO0_TOGGLED);
 803726a:	2007      	movs	r0, #7
 803726c:	f000 f970 	bl	8037550 <SNMP_SendUserTrap>
		  log_event_data(LOG_DO0_STATE, str);
 8037270:	2009      	movs	r0, #9
 8037272:	e014      	b.n	803729e <signals_set_value+0x9a>
	  }
	  break;
	case 6: /* DO2 */
	  if(sSettings.sInOuts.ro_type_source[1] == SNMP_SET){
 8037274:	4b2c      	ldr	r3, [pc, #176]	; (8037328 <signals_set_value+0x124>)
 8037276:	f893 3375 	ldrb.w	r3, [r3, #885]	; 0x375
 803727a:	2b03      	cmp	r3, #3
 803727c:	d152      	bne.n	8037324 <signals_set_value+0x120>
		  val_string = (char*)value;
		  SetROStr(val_string, 1);
 803727e:	2101      	movs	r1, #1
 8037280:	4620      	mov	r0, r4
 8037282:	f7f1 fa93 	bl	80287ac <SetROStr>
		  if(val_string[0] == 0x31)
 8037286:	7823      	ldrb	r3, [r4, #0]
 8037288:	2b31      	cmp	r3, #49	; 0x31
			  strcat(str, "Замкнуто");
 803728a:	bf0c      	ite	eq
 803728c:	4927      	ldreq	r1, [pc, #156]	; (803732c <signals_set_value+0x128>)
		  else
			  strcat(str, "Разомкнуто");
 803728e:	4928      	ldrne	r1, [pc, #160]	; (8037330 <signals_set_value+0x12c>)
	case 6: /* DO2 */
	  if(sSettings.sInOuts.ro_type_source[1] == SNMP_SET){
		  val_string = (char*)value;
		  SetROStr(val_string, 1);
		  if(val_string[0] == 0x31)
			  strcat(str, "Замкнуто");
 8037290:	a801      	add	r0, sp, #4
		  else
			  strcat(str, "Разомкнуто");
 8037292:	f7ea fdeb 	bl	8021e6c <strcat>
		  SNMP_SendUserTrap(DO1_TOGGLED);
 8037296:	2008      	movs	r0, #8
 8037298:	f000 f95a 	bl	8037550 <SNMP_SendUserTrap>
		  log_event_data(LOG_DO1_STATE, str);
 803729c:	200a      	movs	r0, #10
 803729e:	a901      	add	r1, sp, #4
 80372a0:	e03e      	b.n	8037320 <signals_set_value+0x11c>
	  }
	  break;
	case 7: /* BatTest */
	  val =*((s32_t*)value);
 80372a2:	6823      	ldr	r3, [r4, #0]
	  if(val == 0){
 80372a4:	b93b      	cbnz	r3, 80372b6 <signals_set_value+0xb2>
		  res = ups_metac_service_pdu(ups_cancel_test);
 80372a6:	2008      	movs	r0, #8
 80372a8:	f7f2 f8a8 	bl	80293fc <ups_metac_service_pdu>
		  if(res == 1){
 80372ac:	b240      	sxtb	r0, r0
 80372ae:	2801      	cmp	r0, #1
 80372b0:	d138      	bne.n	8037324 <signals_set_value+0x120>
			  log_event_data(LOG_TEST_UPS, "�дмини�тратор(О�танов)");
 80372b2:	2006      	movs	r0, #6
 80372b4:	e028      	b.n	8037308 <signals_set_value+0x104>
		  }
	  }
	  else if(val > 0 && val < 100){
 80372b6:	1e5a      	subs	r2, r3, #1
 80372b8:	2a62      	cmp	r2, #98	; 0x62
 80372ba:	d80a      	bhi.n	80372d2 <signals_set_value+0xce>
		  TimeParam = val;
 80372bc:	4a1d      	ldr	r2, [pc, #116]	; (8037334 <signals_set_value+0x130>)
		  res = ups_metac_service_pdu(ups_test_time);
 80372be:	2003      	movs	r0, #3
		  if(res == 1){
			  log_event_data(LOG_TEST_UPS, "�дмини�тратор(О�танов)");
		  }
	  }
	  else if(val > 0 && val < 100){
		  TimeParam = val;
 80372c0:	8013      	strh	r3, [r2, #0]
		  res = ups_metac_service_pdu(ups_test_time);
 80372c2:	f7f2 f89b 	bl	80293fc <ups_metac_service_pdu>
		  if(res == 1){
 80372c6:	b240      	sxtb	r0, r0
 80372c8:	2801      	cmp	r0, #1
 80372ca:	d12b      	bne.n	8037324 <signals_set_value+0x120>
			  log_event_data(LOG_TEST_UPS, "�дмини�тратор (Запущен)");
 80372cc:	2006      	movs	r0, #6
 80372ce:	491a      	ldr	r1, [pc, #104]	; (8037338 <signals_set_value+0x134>)
 80372d0:	e026      	b.n	8037320 <signals_set_value+0x11c>
		  }
	  }
	  else if(val == 100){
 80372d2:	2b64      	cmp	r3, #100	; 0x64
 80372d4:	d101      	bne.n	80372da <signals_set_value+0xd6>
		  res = ups_metac_service_pdu(ups_test_10sec);
 80372d6:	2001      	movs	r0, #1
 80372d8:	e7f3      	b.n	80372c2 <signals_set_value+0xbe>
		  if(res == 1){
			  log_event_data(LOG_TEST_UPS, "�дмини�тратор (Запущен)");
		  }
	  }
	  else if(val == 999){
 80372da:	f240 32e7 	movw	r2, #999	; 0x3e7
 80372de:	4293      	cmp	r3, r2
 80372e0:	d120      	bne.n	8037324 <signals_set_value+0x120>
		  res = ups_metac_service_pdu(ups_test_low_bat);
 80372e2:	2002      	movs	r0, #2
 80372e4:	e7ed      	b.n	80372c2 <signals_set_value+0xbe>
		  }
	  }
	  break;
	case 8: /* Shutdown UPS */
	  val_string = (char*)value;
	  float shtdn_val = atof(val_string);
 80372e6:	4620      	mov	r0, r4
 80372e8:	f7ea fc36 	bl	8021b58 <atof>
 80372ec:	f7e9 fc4a 	bl	8020b84 <__aeabi_d2f>
	  if(shtdn_val == 0){
 80372f0:	2100      	movs	r1, #0
		  }
	  }
	  break;
	case 8: /* Shutdown UPS */
	  val_string = (char*)value;
	  float shtdn_val = atof(val_string);
 80372f2:	4604      	mov	r4, r0
	  if(shtdn_val == 0){
 80372f4:	f7e9 ff38 	bl	8021168 <__aeabi_fcmpeq>
 80372f8:	b140      	cbz	r0, 803730c <signals_set_value+0x108>
		  res = ups_metac_service_pdu(ups_cancel_shut_down);
 80372fa:	2007      	movs	r0, #7
 80372fc:	f7f2 f87e 	bl	80293fc <ups_metac_service_pdu>
		 	if(res == 1)
 8037300:	b240      	sxtb	r0, r0
 8037302:	2801      	cmp	r0, #1
 8037304:	d10e      	bne.n	8037324 <signals_set_value+0x120>
		 		log_event_data(LOG_SHUTDOWN_UPS, "�дмини�тратор(О�танов)");
 8037306:	2007      	movs	r0, #7
 8037308:	490c      	ldr	r1, [pc, #48]	; (803733c <signals_set_value+0x138>)
 803730a:	e009      	b.n	8037320 <signals_set_value+0x11c>
	  }
	  else{
		TimeParamFloat = shtdn_val;
 803730c:	4b0c      	ldr	r3, [pc, #48]	; (8037340 <signals_set_value+0x13c>)
		res = ups_metac_service_pdu(ups_shutdown);
 803730e:	2005      	movs	r0, #5
		  res = ups_metac_service_pdu(ups_cancel_shut_down);
		 	if(res == 1)
		 		log_event_data(LOG_SHUTDOWN_UPS, "�дмини�тратор(О�танов)");
	  }
	  else{
		TimeParamFloat = shtdn_val;
 8037310:	601c      	str	r4, [r3, #0]
		res = ups_metac_service_pdu(ups_shutdown);
 8037312:	f7f2 f873 	bl	80293fc <ups_metac_service_pdu>
		if(res == 1)
 8037316:	b240      	sxtb	r0, r0
 8037318:	2801      	cmp	r0, #1
 803731a:	d103      	bne.n	8037324 <signals_set_value+0x120>
			log_event_data(LOG_SHUTDOWN_UPS, "�дмини�тратор");
 803731c:	4909      	ldr	r1, [pc, #36]	; (8037344 <signals_set_value+0x140>)
 803731e:	2007      	movs	r0, #7
 8037320:	f7f2 fdaa 	bl	8029e78 <log_event_data>
	  break;
    default :
    break;
  };
  
}
 8037324:	b007      	add	sp, #28
 8037326:	bd30      	pop	{r4, r5, pc}
 8037328:	2000cba0 	.word	0x2000cba0
 803732c:	08038b19 	.word	0x08038b19
 8037330:	08038b2a 	.word	0x08038b2a
 8037334:	20000b54 	.word	0x20000b54
 8037338:	080424d0 	.word	0x080424d0
 803733c:	0804244d 	.word	0x0804244d
 8037340:	20000b50 	.word	0x20000b50
 8037344:	08038a86 	.word	0x08038a86

08037348 <signals_set_test>:
  char *val_string;
  int32_t val;

  LWIP_UNUSED_ARG(value);
  set_ok = 0;
  id = od->id_inst_ptr[0];
 8037348:	6883      	ldr	r3, [r0, #8]
  
  switch (id)
 803734a:	781b      	ldrb	r3, [r3, #0]
 803734c:	3b02      	subs	r3, #2
 \param  value - указатель на значение переменной
 \return 0 - некорректное значение
         1 - корректное значение
------------------------------------------------------------------------------*/
static u8_t signals_set_test (struct obj_def *od, u16_t len, void *value)
{
 803734e:	b510      	push	{r4, lr}

  LWIP_UNUSED_ARG(value);
  set_ok = 0;
  id = od->id_inst_ptr[0];
  
  switch (id)
 8037350:	2b06      	cmp	r3, #6
 8037352:	d838      	bhi.n	80373c6 <signals_set_test+0x7e>
 8037354:	e8df f003 	tbb	[pc, r3]
 8037358:	06370404 	.word	0x06370404
 803735c:	2112      	.short	0x2112
 803735e:	29          	.byte	0x29
 803735f:	00          	.byte	0x00
  u8_t id, set_ok;
  char *val_string;
  int32_t val;

  LWIP_UNUSED_ARG(value);
  set_ok = 0;
 8037360:	2904      	cmp	r1, #4
 8037362:	e016      	b.n	8037392 <signals_set_test+0x4a>
      {
        set_ok = 1;
      }
      break; 
	case 5: /* DO1 */
		if ( len <= 1 )
 8037364:	2901      	cmp	r1, #1
 8037366:	d900      	bls.n	803736a <signals_set_test+0x22>
 8037368:	e02d      	b.n	80373c6 <signals_set_test+0x7e>
	    {
		   val_string = (char*)value;
		   if(atoi(val_string) <= 1){
 803736a:	4610      	mov	r0, r2
 803736c:	f7ea fbf8 	bl	8021b60 <atoi>
 8037370:	2801      	cmp	r0, #1
 8037372:	dc28      	bgt.n	80373c6 <signals_set_test+0x7e>
			   if(sSettings.sInOuts.ro_type_source[0] == SNMP_SET)
 8037374:	4b16      	ldr	r3, [pc, #88]	; (80373d0 <signals_set_test+0x88>)
 8037376:	f893 0374 	ldrb.w	r0, [r3, #884]	; 0x374
 803737a:	e009      	b.n	8037390 <signals_set_test+0x48>
				   set_ok = 1;
		   }
	    }
	  break;
	case 6: /* DO2 */
		if ( len <= 1 )
 803737c:	2901      	cmp	r1, #1
 803737e:	d822      	bhi.n	80373c6 <signals_set_test+0x7e>
		{
		   val_string = (char*)value;
		   if(atoi(val_string) <= 1){
 8037380:	4610      	mov	r0, r2
 8037382:	f7ea fbed 	bl	8021b60 <atoi>
 8037386:	2801      	cmp	r0, #1
 8037388:	dc1d      	bgt.n	80373c6 <signals_set_test+0x7e>
			   if(sSettings.sInOuts.ro_type_source[1] == SNMP_SET)
 803738a:	4b11      	ldr	r3, [pc, #68]	; (80373d0 <signals_set_test+0x88>)
 803738c:	f893 0375 	ldrb.w	r0, [r3, #885]	; 0x375
  u8_t id, set_ok;
  char *val_string;
  int32_t val;

  LWIP_UNUSED_ARG(value);
  set_ok = 0;
 8037390:	2803      	cmp	r0, #3
 8037392:	bf14      	ite	ne
 8037394:	2000      	movne	r0, #0
 8037396:	2001      	moveq	r0, #1
 8037398:	bd10      	pop	{r4, pc}
				   set_ok = 1;
		   }
		}
	  break;
	case 7: /* BatTest */
	   val = *((s32_t*)value);
 803739a:	6813      	ldr	r3, [r2, #0]
	   if((val >= 0 && val <= 100) || val == 999){
 803739c:	2b64      	cmp	r3, #100	; 0x64
 803739e:	d914      	bls.n	80373ca <signals_set_test+0x82>
 80373a0:	f240 32e7 	movw	r2, #999	; 0x3e7
 80373a4:	4293      	cmp	r3, r2
 80373a6:	d10e      	bne.n	80373c6 <signals_set_test+0x7e>
 80373a8:	e00f      	b.n	80373ca <signals_set_test+0x82>
		   set_ok = 1;
	   }
	  break;
	case 8: /* Shutdown UPS */
		if ( len <= 3 )
 80373aa:	2903      	cmp	r1, #3
 80373ac:	d80b      	bhi.n	80373c6 <signals_set_test+0x7e>
		{
		   val_string = (char*)value;
		   if(atof(val_string) <= 10){
 80373ae:	4610      	mov	r0, r2
 80373b0:	f7ea fbd2 	bl	8021b58 <atof>
 80373b4:	2200      	movs	r2, #0
 80373b6:	4b07      	ldr	r3, [pc, #28]	; (80373d4 <signals_set_test+0x8c>)
 80373b8:	2401      	movs	r4, #1
 80373ba:	f7e9 fb7d 	bl	8020ab8 <__aeabi_dcmple>
 80373be:	b900      	cbnz	r0, 80373c2 <signals_set_test+0x7a>
 80373c0:	4604      	mov	r4, r0
  u8_t id, set_ok;
  char *val_string;
  int32_t val;

  LWIP_UNUSED_ARG(value);
  set_ok = 0;
 80373c2:	b2e0      	uxtb	r0, r4
 80373c4:	bd10      	pop	{r4, pc}
 80373c6:	2000      	movs	r0, #0
 80373c8:	bd10      	pop	{r4, pc}
		}
	  break;
	case 7: /* BatTest */
	   val = *((s32_t*)value);
	   if((val >= 0 && val <= 100) || val == 999){
		   set_ok = 1;
 80373ca:	2001      	movs	r0, #1
		}
	  break;
  };
  
  return set_ok;
}
 80373cc:	bd10      	pop	{r4, pc}
 80373ce:	bf00      	nop
 80373d0:	2000cba0 	.word	0x2000cba0
 80373d4:	40240000 	.word	0x40240000

080373d8 <signals_get_value>:
 \param  len - длина переменной в байтах 
 \param  value - указатель на значение переменной
 \return нет
------------------------------------------------------------------------------*/
static void signals_get_value (struct obj_def *od, u16_t len, void *value)
{
 80373d8:	4613      	mov	r3, r2
  u8_t id;
  
  id = od->id_inst_ptr[0];
 80373da:	6882      	ldr	r2, [r0, #8]
  
  switch (id)
 80373dc:	7812      	ldrb	r2, [r2, #0]
 80373de:	3a01      	subs	r2, #1
 \param  len - длина переменной в байтах 
 \param  value - указатель на значение переменной
 \return нет
------------------------------------------------------------------------------*/
static void signals_get_value (struct obj_def *od, u16_t len, void *value)
{
 80373e0:	b510      	push	{r4, lr}
 80373e2:	460c      	mov	r4, r1
  u8_t id;
  
  id = od->id_inst_ptr[0];
  
  switch (id)
 80373e4:	2a11      	cmp	r2, #17
 80373e6:	d814      	bhi.n	8037412 <signals_get_value+0x3a>
 80373e8:	e8df f002 	tbb	[pc, r2]
 80373ec:	0c09090c 	.word	0x0c09090c
 80373f0:	09090c0c 	.word	0x09090c0c
 80373f4:	0c0c0c0c 	.word	0x0c0c0c0c
 80373f8:	0c0c0c0c 	.word	0x0c0c0c0c
 80373fc:	0c0c      	.short	0x0c0c
	  break;
	case 7: /* BatTest */
	  *((s32_t*)value) = 0;
	  break;
	case 8: /* Shutdown UPS */
	  *((s32_t*)value) = 0;
 80373fe:	2200      	movs	r2, #0
 8037400:	601a      	str	r2, [r3, #0]
	  break;
 8037402:	bd10      	pop	{r4, pc}
      break;
    case 17: /* ConnectMonitor */
	  ocstrncpy((u8_t*)value, (u8_t*)paramStr, len);
      break;
    case 18: /* Alarms */
	  ocstrncpy((u8_t*)value, (u8_t*)paramStr, len);
 8037404:	4903      	ldr	r1, [pc, #12]	; (8037414 <signals_get_value+0x3c>)
 8037406:	4618      	mov	r0, r3
 8037408:	4622      	mov	r2, r4
      break;
    default :
	  break;
  };
}
 803740a:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
      break;
    case 17: /* ConnectMonitor */
	  ocstrncpy((u8_t*)value, (u8_t*)paramStr, len);
      break;
    case 18: /* Alarms */
	  ocstrncpy((u8_t*)value, (u8_t*)paramStr, len);
 803740e:	f7fc ba51 	b.w	80338b4 <ocstrncpy>
 8037412:	bd10      	pop	{r4, pc}
 8037414:	2000f9a8 	.word	0x2000f9a8

08037418 <signals_get_object_def>:
  u8_t id;
  
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 8037418:	2801      	cmp	r0, #1
 \param  ident - points to objectname.0 (object id trailer) 
 \param  od - points to object definition. указатель на опи�ание переменной
 \return нет
------------------------------------------------------------------------------*/
static void signals_get_object_def (u8_t ident_len, s32_t *ident, struct obj_def *od)
{
 803741a:	b538      	push	{r3, r4, r5, lr}
 803741c:	4614      	mov	r4, r2
  u8_t id;
  
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
  if (ident_len == 2)
 803741e:	f040 8081 	bne.w	8037524 <signals_get_object_def+0x10c>
  {
    od->id_inst_len = ident_len;
 8037422:	2302      	movs	r3, #2
 8037424:	7193      	strb	r3, [r2, #6]
{
  u8_t id;
  
  /* return to object name, adding index depth (1) */
  ident_len += 1;
  ident -= 1;
 8037426:	1f0a      	subs	r2, r1, #4
  if (ident_len == 2)
  {
    od->id_inst_len = ident_len;
    od->id_inst_ptr = ident;
 8037428:	60a2      	str	r2, [r4, #8]

    id = ident[0];
    
    switch (id)
 803742a:	f811 2c04 	ldrb.w	r2, [r1, #-4]
 803742e:	3a01      	subs	r2, #1
 8037430:	2a11      	cmp	r2, #17
 8037432:	d877      	bhi.n	8037524 <signals_get_object_def+0x10c>
 8037434:	e8df f002 	tbb	[pc, r2]
 8037438:	0f242409 	.word	0x0f242409
 803743c:	2a241a15 	.word	0x2a241a15
 8037440:	453f3932 	.word	0x453f3932
 8037444:	5d57514b 	.word	0x5d57514b
 8037448:	6963      	.short	0x6963
    {
      case 1: /* FWVersion */
		GetVersionStr(paramStr, &paramLength);
 803744a:	4d38      	ldr	r5, [pc, #224]	; (803752c <signals_get_object_def+0x114>)
 803744c:	4838      	ldr	r0, [pc, #224]	; (8037530 <signals_get_object_def+0x118>)
 803744e:	4629      	mov	r1, r5
 8037450:	f7f0 fdc0 	bl	8027fd4 <GetVersionStr>
 8037454:	e05e      	b.n	8037514 <signals_get_object_def+0xfc>
        od->access = MIB_OBJECT_WRITE_ONLY;
        od->asn_type = SNMP_ASN1_INTEG;
        od->v_len = sizeof(s32_t);
        break;
	  case 4: /* UPSModel*/
		GetUPSModelStr(paramStr, &paramLength);
 8037456:	4d35      	ldr	r5, [pc, #212]	; (803752c <signals_get_object_def+0x114>)
 8037458:	4835      	ldr	r0, [pc, #212]	; (8037530 <signals_get_object_def+0x118>)
 803745a:	4629      	mov	r1, r5
 803745c:	f7f0 fe26 	bl	80280ac <GetUPSModelStr>
 8037460:	e058      	b.n	8037514 <signals_get_object_def+0xfc>
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = SNMP_ASN1_OC_STR;
        od->v_len = paramLength;
        break;
	  case 5: /* DO1*/
		GetDOUTStatusStr(paramStr, &paramLength, 0);
 8037462:	4d32      	ldr	r5, [pc, #200]	; (803752c <signals_get_object_def+0x114>)
 8037464:	4832      	ldr	r0, [pc, #200]	; (8037530 <signals_get_object_def+0x118>)
 8037466:	4629      	mov	r1, r5
 8037468:	2200      	movs	r2, #0
 803746a:	e003      	b.n	8037474 <signals_get_object_def+0x5c>
		od->access = MIB_OBJECT_READ_WRITE;
		od->asn_type = SNMP_ASN1_OC_STR;
		od->v_len = paramLength;
		break;
	  case 6: /* DO2*/
		GetDOUTStatusStr(paramStr, &paramLength, 1);
 803746c:	4d2f      	ldr	r5, [pc, #188]	; (803752c <signals_get_object_def+0x114>)
 803746e:	4830      	ldr	r0, [pc, #192]	; (8037530 <signals_get_object_def+0x118>)
 8037470:	4629      	mov	r1, r5
 8037472:	2201      	movs	r2, #1
 8037474:	f7f0 fd2c 	bl	8027ed0 <GetDOUTStatusStr>
		od->instance = MIB_OBJECT_SCALAR;
 8037478:	2301      	movs	r3, #1
 803747a:	7023      	strb	r3, [r4, #0]
		od->access = MIB_OBJECT_READ_WRITE;
 803747c:	2303      	movs	r3, #3
 803747e:	e04b      	b.n	8037518 <signals_get_object_def+0x100>
		od->asn_type = SNMP_ASN1_OC_STR;
		od->v_len = paramLength;
		break;
	  case 7: /* BatTest*/

		od->instance = MIB_OBJECT_SCALAR;
 8037480:	2201      	movs	r2, #1
		od->access = MIB_OBJECT_WRITE_ONLY;
 8037482:	7063      	strb	r3, [r4, #1]
		od->asn_type = SNMP_ASN1_INTEG;
 8037484:	70a3      	strb	r3, [r4, #2]
		od->asn_type = SNMP_ASN1_OC_STR;
		od->v_len = paramLength;
		break;
	  case 7: /* BatTest*/

		od->instance = MIB_OBJECT_SCALAR;
 8037486:	7022      	strb	r2, [r4, #0]
		od->access = MIB_OBJECT_WRITE_ONLY;
		od->asn_type = SNMP_ASN1_INTEG;
		od->v_len = sizeof(s32_t);
 8037488:	2304      	movs	r3, #4
 803748a:	e049      	b.n	8037520 <signals_get_object_def+0x108>
		break;
	  case 8: /* Shutdown UPS*/

		od->instance = MIB_OBJECT_SCALAR;
		od->access = MIB_OBJECT_WRITE_ONLY;
 803748c:	7063      	strb	r3, [r4, #1]
		od->asn_type = SNMP_ASN1_OC_STR;
 803748e:	2304      	movs	r3, #4
		od->asn_type = SNMP_ASN1_INTEG;
		od->v_len = sizeof(s32_t);
		break;
	  case 8: /* Shutdown UPS*/

		od->instance = MIB_OBJECT_SCALAR;
 8037490:	2201      	movs	r2, #1
		od->access = MIB_OBJECT_WRITE_ONLY;
		od->asn_type = SNMP_ASN1_OC_STR;
 8037492:	70a3      	strb	r3, [r4, #2]
		od->v_len = paramLength;
 8037494:	4b25      	ldr	r3, [pc, #148]	; (803752c <signals_get_object_def+0x114>)
		od->asn_type = SNMP_ASN1_INTEG;
		od->v_len = sizeof(s32_t);
		break;
	  case 8: /* Shutdown UPS*/

		od->instance = MIB_OBJECT_SCALAR;
 8037496:	7022      	strb	r2, [r4, #0]
		od->access = MIB_OBJECT_WRITE_ONLY;
		od->asn_type = SNMP_ASN1_OC_STR;
		od->v_len = paramLength;
 8037498:	781b      	ldrb	r3, [r3, #0]
 803749a:	e041      	b.n	8037520 <signals_get_object_def+0x108>
		break;
	  case 9: /* DIO*/
		GetDINStatusStr(paramStr, &paramLength, 0);
 803749c:	4d23      	ldr	r5, [pc, #140]	; (803752c <signals_get_object_def+0x114>)
 803749e:	4824      	ldr	r0, [pc, #144]	; (8037530 <signals_get_object_def+0x118>)
 80374a0:	4629      	mov	r1, r5
 80374a2:	2200      	movs	r2, #0
 80374a4:	f7f0 fcda 	bl	8027e5c <GetDINStatusStr>
 80374a8:	e034      	b.n	8037514 <signals_get_object_def+0xfc>
		od->access = MIB_OBJECT_READ_ONLY;
		od->asn_type = SNMP_ASN1_OC_STR;
		od->v_len = paramLength;
		break;
	  case 10: /* IntTemp */
		GetInternalTempStr(paramStr, &paramLength);
 80374aa:	4d20      	ldr	r5, [pc, #128]	; (803752c <signals_get_object_def+0x114>)
 80374ac:	4820      	ldr	r0, [pc, #128]	; (8037530 <signals_get_object_def+0x118>)
 80374ae:	4629      	mov	r1, r5
 80374b0:	f7f0 fbd0 	bl	8027c54 <GetInternalTempStr>
 80374b4:	e02e      	b.n	8037514 <signals_get_object_def+0xfc>
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = SNMP_ASN1_OC_STR;
        od->v_len = paramLength;
        break;
	  case 11: /* InFreq */
		GetInputFreqStr(paramStr, &paramLength);
 80374b6:	4d1d      	ldr	r5, [pc, #116]	; (803752c <signals_get_object_def+0x114>)
 80374b8:	481d      	ldr	r0, [pc, #116]	; (8037530 <signals_get_object_def+0x118>)
 80374ba:	4629      	mov	r1, r5
 80374bc:	f7f0 fb3c 	bl	8027b38 <GetInputFreqStr>
 80374c0:	e028      	b.n	8037514 <signals_get_object_def+0xfc>
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = SNMP_ASN1_OC_STR;
        od->v_len = paramLength;
		break;
	  case 12: /* InVoltVAC */
		GetInputVoltageStr(paramStr, &paramLength);
 80374c2:	4d1a      	ldr	r5, [pc, #104]	; (803752c <signals_get_object_def+0x114>)
 80374c4:	481a      	ldr	r0, [pc, #104]	; (8037530 <signals_get_object_def+0x118>)
 80374c6:	4629      	mov	r1, r5
 80374c8:	f7f0 fb62 	bl	8027b90 <GetInputVoltageStr>
 80374cc:	e022      	b.n	8037514 <signals_get_object_def+0xfc>
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = SNMP_ASN1_OC_STR;
        od->v_len = paramLength;
		break;
	  case 13: /* OutVoltVAC */
		GetOutputVoltageStr(paramStr, &paramLength);
 80374ce:	4d17      	ldr	r5, [pc, #92]	; (803752c <signals_get_object_def+0x114>)
 80374d0:	4817      	ldr	r0, [pc, #92]	; (8037530 <signals_get_object_def+0x118>)
 80374d2:	4629      	mov	r1, r5
 80374d4:	f7f0 fb72 	bl	8027bbc <GetOutputVoltageStr>
 80374d8:	e01c      	b.n	8037514 <signals_get_object_def+0xfc>
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = SNMP_ASN1_OC_STR;
        od->v_len = paramLength;
        break;
	  case 14: /* Power */
		GetPowerStr(paramStr, &paramLength);
 80374da:	4d14      	ldr	r5, [pc, #80]	; (803752c <signals_get_object_def+0x114>)
 80374dc:	4814      	ldr	r0, [pc, #80]	; (8037530 <signals_get_object_def+0x118>)
 80374de:	4629      	mov	r1, r5
 80374e0:	f7f0 fb82 	bl	8027be8 <GetPowerStr>
 80374e4:	e016      	b.n	8037514 <signals_get_object_def+0xfc>
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = SNMP_ASN1_OC_STR;
        od->v_len = paramLength;
		break;
	  case 15: /* BatCap */
		GetBatCapacityStr(paramStr, &paramLength);
 80374e6:	4d11      	ldr	r5, [pc, #68]	; (803752c <signals_get_object_def+0x114>)
 80374e8:	4811      	ldr	r0, [pc, #68]	; (8037530 <signals_get_object_def+0x118>)
 80374ea:	4629      	mov	r1, r5
 80374ec:	f7f0 fb8e 	bl	8027c0c <GetBatCapacityStr>
 80374f0:	e010      	b.n	8037514 <signals_get_object_def+0xfc>
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = SNMP_ASN1_OC_STR;
        od->v_len = paramLength;
        break;
	  case 16: /* BatTime */
		GetRuntimeStr(paramStr, &paramLength);
 80374f2:	4d0e      	ldr	r5, [pc, #56]	; (803752c <signals_get_object_def+0x114>)
 80374f4:	480e      	ldr	r0, [pc, #56]	; (8037530 <signals_get_object_def+0x118>)
 80374f6:	4629      	mov	r1, r5
 80374f8:	f7f0 fb9a 	bl	8027c30 <GetRuntimeStr>
 80374fc:	e00a      	b.n	8037514 <signals_get_object_def+0xfc>
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = SNMP_ASN1_OC_STR;
        od->v_len = paramLength;
        break;	
      case 17: /* ConnectMonitor */
		GetConnectMonitorStr(paramStr, &paramLength);
 80374fe:	4d0b      	ldr	r5, [pc, #44]	; (803752c <signals_get_object_def+0x114>)
 8037500:	480b      	ldr	r0, [pc, #44]	; (8037530 <signals_get_object_def+0x118>)
 8037502:	4629      	mov	r1, r5
 8037504:	f7f0 fbce 	bl	8027ca4 <GetConnectMonitorStr>
 8037508:	e004      	b.n	8037514 <signals_get_object_def+0xfc>
        od->access = MIB_OBJECT_READ_ONLY;
        od->asn_type = SNMP_ASN1_OC_STR;
        od->v_len = paramLength;
        break;
      case 18: /* Alarms */
    	GetAlarmStr(paramStr, &paramLength);
 803750a:	4d08      	ldr	r5, [pc, #32]	; (803752c <signals_get_object_def+0x114>)
 803750c:	4808      	ldr	r0, [pc, #32]	; (8037530 <signals_get_object_def+0x118>)
 803750e:	4629      	mov	r1, r5
 8037510:	f7f0 fbe0 	bl	8027cd4 <GetAlarmStr>
        od->instance = MIB_OBJECT_SCALAR;
 8037514:	2301      	movs	r3, #1
 8037516:	7023      	strb	r3, [r4, #0]
        od->access = MIB_OBJECT_READ_ONLY;
 8037518:	7063      	strb	r3, [r4, #1]
        od->asn_type = SNMP_ASN1_OC_STR;
 803751a:	2304      	movs	r3, #4
 803751c:	70a3      	strb	r3, [r4, #2]
        od->v_len = paramLength;
 803751e:	782b      	ldrb	r3, [r5, #0]
 8037520:	80a3      	strh	r3, [r4, #4]
        break;
 8037522:	bd38      	pop	{r3, r4, r5, pc}
    };
  }
  else
  {
    LWIP_DEBUGF(SNMP_MIB_DEBUG,("planar_get_object_def: no scalar\n"));
    od->instance = MIB_OBJECT_NONE;
 8037524:	2300      	movs	r3, #0
 8037526:	7023      	strb	r3, [r4, #0]
 8037528:	bd38      	pop	{r3, r4, r5, pc}
 803752a:	bf00      	nop
 803752c:	2000c7ea 	.word	0x2000c7ea
 8037530:	2000f9a8 	.word	0x2000f9a8

08037534 <SNMP_SysUpTimeTask>:
/**
  * @brief  Си�темный тик SNMP. Та�к должен вызывать�� � ча�тотой 100Гц.
  * @retval 
  */
void SNMP_SysUpTimeTask(void *arg)
{
 8037534:	b513      	push	{r0, r1, r4, lr}
  TickType_t xLastWakeTime;
  const TickType_t xFrequency = 10;
  
  xLastWakeTime = xTaskGetTickCount();
 8037536:	f7f3 fde3 	bl	802b100 <xTaskGetTickCount>
 803753a:	ac02      	add	r4, sp, #8
 803753c:	f844 0d04 	str.w	r0, [r4, #-4]!
  
  while(1)
  {
	vTaskDelayUntil( &xLastWakeTime, xFrequency );
 8037540:	4620      	mov	r0, r4
 8037542:	210a      	movs	r1, #10
 8037544:	f7f3 ff40 	bl	802b3c8 <vTaskDelayUntil>
    snmp_inc_sysuptime();
 8037548:	f7fc fad2 	bl	8033af0 <snmp_inc_sysuptime>
 803754c:	e7f8      	b.n	8037540 <SNMP_SysUpTimeTask+0xc>
 803754e:	0000      	movs	r0, r0

08037550 <SNMP_SendUserTrap>:
  *         FIFO буфера. 
  *         Е�ли в на�тройках трапа отправка отключена, то трап игнорирует��.
  * @retval 
  */
void SNMP_SendUserTrap(uint8_t trapName)
{
 8037550:	b51f      	push	{r0, r1, r2, r3, r4, lr}
  uint16_t availableSpace;
  uint8_t  dummyTrap;
  
  if (traps[trapName].trapEnable)
 8037552:	4b0d      	ldr	r3, [pc, #52]	; (8037588 <SNMP_SendUserTrap+0x38>)
  *         FIFO буфера. 
  *         Е�ли в на�тройках трапа отправка отключена, то трап игнорирует��.
  * @retval 
  */
void SNMP_SendUserTrap(uint8_t trapName)
{
 8037554:	f88d 0007 	strb.w	r0, [sp, #7]
  uint16_t availableSpace;
  uint8_t  dummyTrap;
  
  if (traps[trapName].trapEnable)
 8037558:	eb03 00c0 	add.w	r0, r3, r0, lsl #3
 803755c:	78c3      	ldrb	r3, [r0, #3]
 803755e:	b193      	cbz	r3, 8037586 <SNMP_SendUserTrap+0x36>
  {	
    availableSpace = uxQueueSpacesAvailable(SNMP_TrapQueue);
 8037560:	4c0a      	ldr	r4, [pc, #40]	; (803758c <SNMP_SendUserTrap+0x3c>)
 8037562:	6820      	ldr	r0, [r4, #0]
 8037564:	f7f3 fbfe 	bl	802ad64 <uxQueueSpacesAvailable>
  
    if (availableSpace == 0)
 8037568:	b282      	uxth	r2, r0
 803756a:	b92a      	cbnz	r2, 8037578 <SNMP_SendUserTrap+0x28>
	  xQueueReceive(SNMP_TrapQueue, &dummyTrap, 0);
 803756c:	6820      	ldr	r0, [r4, #0]
 803756e:	f10d 010f 	add.w	r1, sp, #15
 8037572:	4613      	mov	r3, r2
 8037574:	f7f3 fb53 	bl	802ac1e <xQueueGenericReceive>
  
    xQueueSend(SNMP_TrapQueue, &trapName, 0);
 8037578:	2200      	movs	r2, #0
 803757a:	6820      	ldr	r0, [r4, #0]
 803757c:	f10d 0107 	add.w	r1, sp, #7
 8037580:	4613      	mov	r3, r2
 8037582:	f7f3 fa0c 	bl	802a99e <xQueueGenericSend>
  }
}
 8037586:	bd1f      	pop	{r0, r1, r2, r3, r4, pc}
 8037588:	2000faac 	.word	0x2000faac
 803758c:	2000faa8 	.word	0x2000faa8

08037590 <SNMP_SetObjDescr>:
  * @brief  У�тановить SNMP Descriptor
  * @retval 
  */
// TODO
void SNMP_SetObjDescr(void)
{
 8037590:	b538      	push	{r3, r4, r5, lr}
  static uint8_t len;
  
  strcpy(sSettings.sSnmp.sysDescr, sSettings.sSnmp.sysName);
 8037592:	4c19      	ldr	r4, [pc, #100]	; (80375f8 <SNMP_SetObjDescr+0x68>)
  strcat(sSettings.sSnmp.sysDescr, " ");
 8037594:	4d19      	ldr	r5, [pc, #100]	; (80375fc <SNMP_SetObjDescr+0x6c>)
// TODO
void SNMP_SetObjDescr(void)
{
  static uint8_t len;
  
  strcpy(sSettings.sSnmp.sysDescr, sSettings.sSnmp.sysName);
 8037596:	f104 01fa 	add.w	r1, r4, #250	; 0xfa
 803759a:	4620      	mov	r0, r4
 803759c:	f7ea fd7a 	bl	8022094 <strcpy>
  strcat(sSettings.sSnmp.sysDescr, " ");
 80375a0:	4629      	mov	r1, r5
 80375a2:	4620      	mov	r0, r4
 80375a4:	f7ea fc62 	bl	8021e6c <strcat>
  strcat(sSettings.sSnmp.sysDescr, VERSION);
 80375a8:	4620      	mov	r0, r4
 80375aa:	4915      	ldr	r1, [pc, #84]	; (8037600 <SNMP_SetObjDescr+0x70>)
 80375ac:	f7ea fc5e 	bl	8021e6c <strcat>
  strcat(sSettings.sSnmp.sysDescr, " ");
 80375b0:	4629      	mov	r1, r5
 80375b2:	4620      	mov	r0, r4
 80375b4:	f7ea fc5a 	bl	8021e6c <strcat>
  strcat(sSettings.sSnmp.sysDescr, sSettings.sSnmp.sysContact);
 80375b8:	f104 01c8 	add.w	r1, r4, #200	; 0xc8
 80375bc:	4620      	mov	r0, r4
 80375be:	f7ea fc55 	bl	8021e6c <strcat>
  strcat(sSettings.sSnmp.sysDescr, " ");
 80375c2:	4629      	mov	r1, r5
 80375c4:	4620      	mov	r0, r4
 80375c6:	f7ea fc51 	bl	8021e6c <strcat>
  strcat(sSettings.sSnmp.sysDescr, sSettings.sInfo.serialNumber);
 80375ca:	f1a4 0193 	sub.w	r1, r4, #147	; 0x93
 80375ce:	4620      	mov	r0, r4
 80375d0:	f7ea fc4c 	bl	8021e6c <strcat>
  strcat(sSettings.sSnmp.sysDescr, " ");
 80375d4:	4629      	mov	r1, r5
 80375d6:	4620      	mov	r0, r4
 80375d8:	f7ea fc48 	bl	8021e6c <strcat>
  strcat(sSettings.sSnmp.sysDescr, UPS.model);
 80375dc:	4909      	ldr	r1, [pc, #36]	; (8037604 <SNMP_SetObjDescr+0x74>)
 80375de:	4620      	mov	r0, r4
 80375e0:	f7ea fc44 	bl	8021e6c <strcat>
  
  len = strlen(sSettings.sSnmp.sysDescr);
 80375e4:	4620      	mov	r0, r4
 80375e6:	f7ea fdb3 	bl	8022150 <strlen>
 80375ea:	4907      	ldr	r1, [pc, #28]	; (8037608 <SNMP_SetObjDescr+0x78>)
 80375ec:	7008      	strb	r0, [r1, #0]
  snmp_set_sysdesr((u8_t*)sSettings.sSnmp.sysDescr, &len);
 80375ee:	4620      	mov	r0, r4
}
 80375f0:	e8bd 4038 	ldmia.w	sp!, {r3, r4, r5, lr}
  strcat(sSettings.sSnmp.sysDescr, sSettings.sInfo.serialNumber);
  strcat(sSettings.sSnmp.sysDescr, " ");
  strcat(sSettings.sSnmp.sysDescr, UPS.model);
  
  len = strlen(sSettings.sSnmp.sysDescr);
  snmp_set_sysdesr((u8_t*)sSettings.sSnmp.sysDescr, &len);
 80375f4:	f7fc ba68 	b.w	8033ac8 <snmp_set_sysdesr>
 80375f8:	2000ccd1 	.word	0x2000ccd1
 80375fc:	08038ac0 	.word	0x08038ac0
 8037600:	08038994 	.word	0x08038994
 8037604:	2000cf79 	.word	0x2000cf79
 8037608:	2000c7f4 	.word	0x2000c7f4

0803760c <SNMP_SetReadCommunity>:

/**
  * @brief  У�тановить SNMP Community дл� чтени�
  */
void SNMP_SetReadCommunity(char *comm)
{
 803760c:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.readCommunity, comm);
 803760e:	4801      	ldr	r0, [pc, #4]	; (8037614 <SNMP_SetReadCommunity+0x8>)
 8037610:	f7ea bd40 	b.w	8022094 <strcpy>
 8037614:	2000cd71 	.word	0x2000cd71

08037618 <SNMP_SetWriteCommunity>:

/**
  * @brief  У�тановить SNMP Community дл� запи�и
  */
void SNMP_SetWriteCommunity(char *comm)
{
 8037618:	4601      	mov	r1, r0
  strcpy(sSettings.sSnmp.writeCommunity, comm);
 803761a:	4801      	ldr	r0, [pc, #4]	; (8037620 <SNMP_SetWriteCommunity+0x8>)
 803761c:	f7ea bd3a 	b.w	8022094 <strcpy>
 8037620:	2000cd85 	.word	0x2000cd85

08037624 <SNMP_SetSysContact>:
/**
  * @brief  У�тановить SNMP SysContact
  * @retval 
  */
void SNMP_SetSysContact(char *con)
{
 8037624:	b510      	push	{r4, lr}
 8037626:	4604      	mov	r4, r0
  static uint8_t len;
  
  len = strlen(con);
 8037628:	f7ea fd92 	bl	8022150 <strlen>
 803762c:	4903      	ldr	r1, [pc, #12]	; (803763c <SNMP_SetSysContact+0x18>)
 803762e:	7008      	strb	r0, [r1, #0]
  snmp_set_syscontact((u8_t*)con, &len);
 8037630:	4620      	mov	r0, r4
}
 8037632:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
void SNMP_SetSysContact(char *con)
{
  static uint8_t len;
  
  len = strlen(con);
  snmp_set_syscontact((u8_t*)con, &len);
 8037636:	f7fc baab 	b.w	8033b90 <snmp_set_syscontact>
 803763a:	bf00      	nop
 803763c:	2000c7eb 	.word	0x2000c7eb

08037640 <SNMP_SetSysName>:
/**
  * @brief  У�тановить SNMP SysName
  * @retval 
  */
void SNMP_SetSysName(char *name)
{
 8037640:	b510      	push	{r4, lr}
 8037642:	4604      	mov	r4, r0
  static uint8_t len;
  
  len = strlen(name);
 8037644:	f7ea fd84 	bl	8022150 <strlen>
 8037648:	4903      	ldr	r1, [pc, #12]	; (8037658 <SNMP_SetSysName+0x18>)
 803764a:	7008      	strb	r0, [r1, #0]
  snmp_set_sysname((u8_t*)name, &len);
 803764c:	4620      	mov	r0, r4
}
 803764e:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
void SNMP_SetSysName(char *name)
{
  static uint8_t len;
  
  len = strlen(name);
  snmp_set_sysname((u8_t*)name, &len);
 8037652:	f7fc baa7 	b.w	8033ba4 <snmp_set_sysname>
 8037656:	bf00      	nop
 8037658:	2000c7ed 	.word	0x2000c7ed

0803765c <SNMP_SetSysLocation>:
/**
  * @brief  У�тановить SNMP SysLocation
  * @retval 
  */
void SNMP_SetSysLocation(char *loc)
{
 803765c:	b510      	push	{r4, lr}
 803765e:	4604      	mov	r4, r0
  static uint8_t len;
  
  len = strlen(loc);
 8037660:	f7ea fd76 	bl	8022150 <strlen>
 8037664:	4903      	ldr	r1, [pc, #12]	; (8037674 <SNMP_SetSysLocation+0x18>)
 8037666:	7008      	strb	r0, [r1, #0]
  snmp_set_syslocation((u8_t*)loc, &len);
 8037668:	4620      	mov	r0, r4
}
 803766a:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
void SNMP_SetSysLocation(char *loc)
{
  static uint8_t len;
  
  len = strlen(loc);
  snmp_set_syslocation((u8_t*)loc, &len);
 803766e:	f7fc baa3 	b.w	8033bb8 <snmp_set_syslocation>
 8037672:	bf00      	nop
 8037674:	2000c7ec 	.word	0x2000c7ec

08037678 <SNMP_SetManagerIP>:
/**
  * @brief  У�тановить SNMP SysManagerIP
  * @retval 
  */
void SNMP_SetManagerIP(char *ip)
{
 8037678:	b510      	push	{r4, lr}
  static ip_addr_t trap_addr;
  
  ipaddr_aton(ip, &trap_addr);
 803767a:	4c05      	ldr	r4, [pc, #20]	; (8037690 <SNMP_SetManagerIP+0x18>)
 803767c:	4621      	mov	r1, r4
 803767e:	f7fa fdee 	bl	803225e <ipaddr_aton>
  snmp_trap_dst_ip_set(0, &trap_addr);
 8037682:	2000      	movs	r0, #0
 8037684:	4621      	mov	r1, r4
}
 8037686:	e8bd 4010 	ldmia.w	sp!, {r4, lr}
void SNMP_SetManagerIP(char *ip)
{
  static ip_addr_t trap_addr;
  
  ipaddr_aton(ip, &trap_addr);
  snmp_trap_dst_ip_set(0, &trap_addr);
 803768a:	f7fe bba5 	b.w	8035dd8 <snmp_trap_dst_ip_set>
 803768e:	bf00      	nop
 8037690:	2000c7f0 	.word	0x2000c7f0

08037694 <snmp_trap_tread>:
/**
  * @brief  Те�товый та�к дл� проверки отправки трапов
  * @retval 
  */
void snmp_trap_tread(void *arg)
{
 8037694:	b537      	push	{r0, r1, r2, r4, r5, lr}
  uint8_t trapName;
	
  while(1)
  {
    if (xQueueReceive(SNMP_TrapQueue, &trapName, 0) == pdTRUE)
 8037696:	4d1c      	ldr	r5, [pc, #112]	; (8037708 <snmp_trap_tread+0x74>)
	{
      SNMP_SetManagerIP(sSettings.sSnmp.managerIP);
	  SNMP_SendVarbindTrap(&traps[trapName]);
 8037698:	4c1c      	ldr	r4, [pc, #112]	; (803770c <snmp_trap_tread+0x78>)
{
  uint8_t trapName;
	
  while(1)
  {
    if (xQueueReceive(SNMP_TrapQueue, &trapName, 0) == pdTRUE)
 803769a:	2200      	movs	r2, #0
 803769c:	6828      	ldr	r0, [r5, #0]
 803769e:	f10d 0107 	add.w	r1, sp, #7
 80376a2:	4613      	mov	r3, r2
 80376a4:	f7f3 fabb 	bl	802ac1e <xQueueGenericReceive>
 80376a8:	2801      	cmp	r0, #1
 80376aa:	d1f6      	bne.n	803769a <snmp_trap_tread+0x6>
	{
      SNMP_SetManagerIP(sSettings.sSnmp.managerIP);
 80376ac:	4818      	ldr	r0, [pc, #96]	; (8037710 <snmp_trap_tread+0x7c>)
 80376ae:	f7ff ffe3 	bl	8037678 <SNMP_SetManagerIP>
	  SNMP_SendVarbindTrap(&traps[trapName]);
 80376b2:	f89d 0007 	ldrb.w	r0, [sp, #7]
 80376b6:	eb04 00c0 	add.w	r0, r4, r0, lsl #3
 80376ba:	f000 fa41 	bl	8037b40 <SNMP_SendVarbindTrap>
      
      SNMP_SetManagerIP(sSettings.sSnmp.managerIP2);
 80376be:	4815      	ldr	r0, [pc, #84]	; (8037714 <snmp_trap_tread+0x80>)
 80376c0:	f7ff ffda 	bl	8037678 <SNMP_SetManagerIP>
	  SNMP_SendVarbindTrap(&traps[trapName]);
 80376c4:	f89d 0007 	ldrb.w	r0, [sp, #7]
 80376c8:	eb04 00c0 	add.w	r0, r4, r0, lsl #3
 80376cc:	f000 fa38 	bl	8037b40 <SNMP_SendVarbindTrap>
      
      SNMP_SetManagerIP(sSettings.sSnmp.managerIP3);
 80376d0:	4811      	ldr	r0, [pc, #68]	; (8037718 <snmp_trap_tread+0x84>)
 80376d2:	f7ff ffd1 	bl	8037678 <SNMP_SetManagerIP>
	  SNMP_SendVarbindTrap(&traps[trapName]);
 80376d6:	f89d 0007 	ldrb.w	r0, [sp, #7]
 80376da:	eb04 00c0 	add.w	r0, r4, r0, lsl #3
 80376de:	f000 fa2f 	bl	8037b40 <SNMP_SendVarbindTrap>

	  SNMP_SetManagerIP(sSettings.sSnmp.managerIP4);
 80376e2:	480e      	ldr	r0, [pc, #56]	; (803771c <snmp_trap_tread+0x88>)
 80376e4:	f7ff ffc8 	bl	8037678 <SNMP_SetManagerIP>
	  SNMP_SendVarbindTrap(&traps[trapName]);
 80376e8:	f89d 0007 	ldrb.w	r0, [sp, #7]
 80376ec:	eb04 00c0 	add.w	r0, r4, r0, lsl #3
 80376f0:	f000 fa26 	bl	8037b40 <SNMP_SendVarbindTrap>

	  SNMP_SetManagerIP(sSettings.sSnmp.managerIP5);
 80376f4:	480a      	ldr	r0, [pc, #40]	; (8037720 <snmp_trap_tread+0x8c>)
 80376f6:	f7ff ffbf 	bl	8037678 <SNMP_SetManagerIP>
	  SNMP_SendVarbindTrap(&traps[trapName]);
 80376fa:	f89d 0007 	ldrb.w	r0, [sp, #7]
 80376fe:	eb04 00c0 	add.w	r0, r4, r0, lsl #3
 8037702:	f000 fa1d 	bl	8037b40 <SNMP_SendVarbindTrap>
 8037706:	e7c8      	b.n	803769a <snmp_trap_tread+0x6>
 8037708:	2000faa8 	.word	0x2000faa8
 803770c:	2000faac 	.word	0x2000faac
 8037710:	2000ce4d 	.word	0x2000ce4d
 8037714:	2000ce61 	.word	0x2000ce61
 8037718:	2000ce75 	.word	0x2000ce75
 803771c:	2000ce89 	.word	0x2000ce89
 8037720:	2000ce9d 	.word	0x2000ce9d

08037724 <SNMP_SetObjID>:
  */
void SNMP_SetObjID(void)
{
  static struct snmp_obj_id my_object_id = {9, {1, 3, 6, 1, 4, 1, 41752, 911, 3}};
  
  snmp_set_sysobjid(&my_object_id);
 8037724:	4801      	ldr	r0, [pc, #4]	; (803772c <SNMP_SetObjID+0x8>)
 8037726:	f7fc b9d9 	b.w	8033adc <snmp_set_sysobjid>
 803772a:	bf00      	nop
 803772c:	20000a30 	.word	0x20000a30

08037730 <SNMP_SetTrapOnOff>:
/**
  * @brief  Вкл/выкл трапы
  * @retval 
  */
void SNMP_SetTrapOnOff(uint8_t state)
{
 8037730:	4601      	mov	r1, r0
  snmp_trap_dst_enable(0, (u8_t)state);
 8037732:	2000      	movs	r0, #0
 8037734:	f7fe bb4a 	b.w	8035dcc <snmp_trap_dst_enable>

08037738 <SNMP_AgentInit>:
/**
  * @brief  Инициализаци� SNMP агента
  * @retval 
  */
void SNMP_AgentInit(void)
{
 8037738:	b510      	push	{r4, lr}
  SNMP_SetObjDescr();
  SNMP_SetReadCommunity(sSettings.sSnmp.readCommunity);
 803773a:	4c16      	ldr	r4, [pc, #88]	; (8037794 <SNMP_AgentInit+0x5c>)
  * @brief  Инициализаци� SNMP агента
  * @retval 
  */
void SNMP_AgentInit(void)
{
  SNMP_SetObjDescr();
 803773c:	f7ff ff28 	bl	8037590 <SNMP_SetObjDescr>
  SNMP_SetReadCommunity(sSettings.sSnmp.readCommunity);
 8037740:	4620      	mov	r0, r4
 8037742:	f7ff ff63 	bl	803760c <SNMP_SetReadCommunity>
  SNMP_SetWriteCommunity(sSettings.sSnmp.writeCommunity);
 8037746:	f104 0014 	add.w	r0, r4, #20
 803774a:	f7ff ff65 	bl	8037618 <SNMP_SetWriteCommunity>
  SNMP_SetSysContact(sSettings.sSnmp.sysContact);
 803774e:	f104 0028 	add.w	r0, r4, #40	; 0x28
 8037752:	f7ff ff67 	bl	8037624 <SNMP_SetSysContact>
  SNMP_SetSysName(sSettings.sSnmp.sysName);
 8037756:	f104 005a 	add.w	r0, r4, #90	; 0x5a
 803775a:	f7ff ff71 	bl	8037640 <SNMP_SetSysName>
  SNMP_SetSysLocation(sSettings.sSnmp.sysLocation);
 803775e:	f104 006e 	add.w	r0, r4, #110	; 0x6e
 8037762:	f7ff ff7b 	bl	803765c <SNMP_SetSysLocation>
  SNMP_SetManagerIP(sSettings.sSnmp.managerIP);
 8037766:	f104 00dc 	add.w	r0, r4, #220	; 0xdc
 803776a:	f7ff ff85 	bl	8037678 <SNMP_SetManagerIP>
  SNMP_SetObjID();
 803776e:	f7ff ffd9 	bl	8037724 <SNMP_SetObjID>
  SNMP_SetTrapOnOff(1);
 8037772:	2001      	movs	r0, #1
 8037774:	f7ff ffdc 	bl	8037730 <SNMP_SetTrapOnOff>
  
  SNMP_InitTrapsBase();
 8037778:	f000 f926 	bl	80379c8 <SNMP_InitTrapsBase>
	
  snmp_init();
 803777c:	f7fd fa04 	bl	8034b88 <snmp_init>
  udp_init();
 8037780:	f7fa fa44 	bl	8031c0c <udp_init>
  
  SNMP_TrapQueue = xQueueCreate(SNMP_TRAP_QUEUE_SIZE, sizeof(uint8_t));
 8037784:	2064      	movs	r0, #100	; 0x64
 8037786:	2101      	movs	r1, #1
 8037788:	2200      	movs	r2, #0
 803778a:	f7f3 f8cb 	bl	802a924 <xQueueGenericCreate>
 803778e:	4b02      	ldr	r3, [pc, #8]	; (8037798 <SNMP_AgentInit+0x60>)
 8037790:	6018      	str	r0, [r3, #0]
 8037792:	bd10      	pop	{r4, pc}
 8037794:	2000cd71 	.word	0x2000cd71
 8037798:	2000faa8 	.word	0x2000faa8

0803779c <SNMP_Init>:
  * @retval 
  */
void SNMP_Init(void)
{
  //SETTINGS_SetSnmpDef();
  SNMP_AgentInit();
 803779c:	f7ff bfcc 	b.w	8037738 <SNMP_AgentInit>

080377a0 <recv>:
  SNTP_Enable(sSettings.sSNTP.sntpEnable);
}

static void recv(void *arg, struct udp_pcb *upcb, struct pbuf *p, 
				 struct ip_addr *addr, u16_t port)
{
 80377a0:	b570      	push	{r4, r5, r6, lr}
 80377a2:	4616      	mov	r6, r2
  time_t t;
  int utcSec = 0;
  TM_RTC_t data;
  
  if (p->len == sizeof(struct sntp_packet))
 80377a4:	8952      	ldrh	r2, [r2, #10]
 80377a6:	2a30      	cmp	r2, #48	; 0x30
  SNTP_Enable(sSettings.sSNTP.sntpEnable);
}

static void recv(void *arg, struct udp_pcb *upcb, struct pbuf *p, 
				 struct ip_addr *addr, u16_t port)
{
 80377a8:	b094      	sub	sp, #80	; 0x50
  time_t t;
  int utcSec = 0;
  TM_RTC_t data;
  
  if (p->len == sizeof(struct sntp_packet))
 80377aa:	d149      	bne.n	8037840 <recv+0xa0>
  {
    int i;
    struct sntp_packet aligned;
    //myassert(p->len == p->tot_len); /* don't accept chained pbuf */
    memcpy(&aligned, p->payload, sizeof(aligned));
 80377ac:	a808      	add	r0, sp, #32
 80377ae:	6871      	ldr	r1, [r6, #4]
 80377b0:	f7ea fa3c 	bl	8021c2c <memcpy>
    i = (aligned.status >> 3) & 7;
 80377b4:	f89d 3020 	ldrb.w	r3, [sp, #32]
    
	if ((i < 1) || (i > 4)) /* SNTP version 1..4 */
 80377b8:	f3c3 02c2 	ubfx	r2, r3, #3, #3
 80377bc:	3a01      	subs	r2, #1
 80377be:	2a03      	cmp	r2, #3
 80377c0:	d83e      	bhi.n	8037840 <recv+0xa0>
      goto out;

    i = aligned.status & 7;

	if ((i != 4) && (i != 5)) /* mode 4 or 5: server or broadcast */
 80377c2:	f003 0307 	and.w	r3, r3, #7
 80377c6:	3b04      	subs	r3, #4
 80377c8:	2b01      	cmp	r3, #1
 80377ca:	d839      	bhi.n	8037840 <recv+0xa0>
      goto out;

	if (aligned.xmt == 0)
 80377cc:	e9dd 4512 	ldrd	r4, r5, [sp, #72]	; 0x48
 80377d0:	ea54 0305 	orrs.w	r3, r4, r5
 80377d4:	d034      	beq.n	8037840 <recv+0xa0>
      goto out;
	
	utcSec = (int)(3600.0*sSettings.sSNTP.timeZone);
 80377d6:	4b20      	ldr	r3, [pc, #128]	; (8037858 <recv+0xb8>)
 80377d8:	f8d3 0370 	ldr.w	r0, [r3, #880]	; 0x370
 80377dc:	f7e8 fe9c 	bl	8020518 <__aeabi_f2d>
 80377e0:	a31b      	add	r3, pc, #108	; (adr r3, 8037850 <recv+0xb0>)
 80377e2:	e9d3 2300 	ldrd	r2, r3, [r3]
 80377e6:	f7e8 feeb 	bl	80205c0 <__aeabi_dmul>
 80377ea:	f7e9 f983 	bl	8020af4 <__aeabi_d2iz>
 80377ee:	4605      	mov	r5, r0
	t = (ntohl(aligned.xmt) - 2208988800 + utcSec );
 80377f0:	4620      	mov	r0, r4
 80377f2:	f7f6 fd4f 	bl	802e294 <lwip_ntohl>
 80377f6:	4b19      	ldr	r3, [pc, #100]	; (803785c <recv+0xbc>)
 80377f8:	18eb      	adds	r3, r5, r3
	
	TM_RTC_SetDataTimeUnix((uint32_t)t);
 80377fa:	1818      	adds	r0, r3, r0
 80377fc:	f7ef f904 	bl	8026a08 <TM_RTC_SetDataTimeUnix>
	
	/* Сохраним врем� по�ледней �инхронизации */
	TM_RTC_GetDateTime(&data, TM_RTC_Format_BIN);
 8037800:	a804      	add	r0, sp, #16
 8037802:	2100      	movs	r1, #0
 8037804:	f7ee ffe2 	bl	80267cc <TM_RTC_GetDateTime>
		
	memset(sSettings.sSNTP.data, 0, sizeof(sSettings.sSNTP.data));
 8037808:	2100      	movs	r1, #0
 803780a:	221e      	movs	r2, #30
 803780c:	4814      	ldr	r0, [pc, #80]	; (8037860 <recv+0xc0>)
 803780e:	f7ea fac7 	bl	8021da0 <memset>
	
	sprintf(sSettings.sSNTP.data, "%02d.%02d.%02d %02d:%02d:%02d", 
 8037812:	f89d 1019 	ldrb.w	r1, [sp, #25]
 8037816:	f89d 2017 	ldrb.w	r2, [sp, #23]
 803781a:	9100      	str	r1, [sp, #0]
 803781c:	f89d 1015 	ldrb.w	r1, [sp, #21]
 8037820:	f89d 3018 	ldrb.w	r3, [sp, #24]
 8037824:	9101      	str	r1, [sp, #4]
 8037826:	f89d 1014 	ldrb.w	r1, [sp, #20]
 803782a:	480d      	ldr	r0, [pc, #52]	; (8037860 <recv+0xc0>)
 803782c:	9102      	str	r1, [sp, #8]
 803782e:	f89d 1010 	ldrb.w	r1, [sp, #16]
 8037832:	9103      	str	r1, [sp, #12]
 8037834:	490b      	ldr	r1, [pc, #44]	; (8037864 <recv+0xc4>)
 8037836:	f7f0 f973 	bl	8027b20 <tfp_sprintf>
			data.date, data.month, data.year,
			data.hours, data.minutes, data.seconds);
	
    timeout = VALID_TIMEOUT;
 803783a:	4a0b      	ldr	r2, [pc, #44]	; (8037868 <recv+0xc8>)
 803783c:	4b0b      	ldr	r3, [pc, #44]	; (803786c <recv+0xcc>)
 803783e:	601a      	str	r2, [r3, #0]
    
  }
  out:
    pbuf_free(p);
 8037840:	4630      	mov	r0, r6
 8037842:	f7f7 fe59 	bl	802f4f8 <pbuf_free>
}
 8037846:	b014      	add	sp, #80	; 0x50
 8037848:	bd70      	pop	{r4, r5, r6, pc}
 803784a:	bf00      	nop
 803784c:	f3af 8000 	nop.w
 8037850:	00000000 	.word	0x00000000
 8037854:	40ac2000 	.word	0x40ac2000
 8037858:	2000cba0 	.word	0x2000cba0
 803785c:	7c558180 	.word	0x7c558180
 8037860:	2000cef1 	.word	0x2000cef1
 8037864:	08044ac0 	.word	0x08044ac0
 8037868:	01b77400 	.word	0x01b77400
 803786c:	2000c800 	.word	0x2000c800

08037870 <SNTP_Enable>:

void SNTP_Enable(bool enable)
{
 8037870:	b538      	push	{r3, r4, r5, lr}
  if (enable)
 8037872:	4605      	mov	r5, r0
 8037874:	4c0f      	ldr	r4, [pc, #60]	; (80378b4 <SNTP_Enable+0x44>)
 8037876:	b1b8      	cbz	r0, 80378a8 <SNTP_Enable+0x38>
  {
    if (upcb == 0)
 8037878:	6825      	ldr	r5, [r4, #0]
 803787a:	b9d5      	cbnz	r5, 80378b2 <SNTP_Enable+0x42>
    {
      err_t ret;
      upcb = udp_new();
 803787c:	f7fa fba4 	bl	8031fc8 <udp_new>
 8037880:	6020      	str	r0, [r4, #0]
      if (upcb != 0)
 8037882:	b1b0      	cbz	r0, 80378b2 <SNTP_Enable+0x42>
	  {
		ret = udp_bind(upcb, IP_ADDR_ANY, port);
 8037884:	227b      	movs	r2, #123	; 0x7b
 8037886:	490c      	ldr	r1, [pc, #48]	; (80378b8 <SNTP_Enable+0x48>)
 8037888:	f7fa fa86 	bl	8031d98 <udp_bind>

	    if (ret != ERR_OK)
 803788c:	4602      	mov	r2, r0
        {
          udp_remove(upcb);
 803788e:	6820      	ldr	r0, [r4, #0]
      upcb = udp_new();
      if (upcb != 0)
	  {
		ret = udp_bind(upcb, IP_ADDR_ANY, port);

	    if (ret != ERR_OK)
 8037890:	b11a      	cbz	r2, 803789a <SNTP_Enable+0x2a>
        {
          udp_remove(upcb);
 8037892:	f7fa fb7d 	bl	8031f90 <udp_remove>
          upcb = 0;
 8037896:	6025      	str	r5, [r4, #0]
 8037898:	e002      	b.n	80378a0 <SNTP_Enable+0x30>
        }
        else
        {
          udp_recv(upcb, recv, 0);
 803789a:	4908      	ldr	r1, [pc, #32]	; (80378bc <SNTP_Enable+0x4c>)
 803789c:	f7fa fb74 	bl	8031f88 <udp_recv>
        }
        timeout = 0;
 80378a0:	4b07      	ldr	r3, [pc, #28]	; (80378c0 <SNTP_Enable+0x50>)
 80378a2:	2200      	movs	r2, #0
 80378a4:	601a      	str	r2, [r3, #0]
 80378a6:	bd38      	pop	{r3, r4, r5, pc}
	  }
    }
  }
  else if (upcb != 0)
 80378a8:	6820      	ldr	r0, [r4, #0]
 80378aa:	b110      	cbz	r0, 80378b2 <SNTP_Enable+0x42>
  {
    udp_remove(upcb);
 80378ac:	f7fa fb70 	bl	8031f90 <udp_remove>
    upcb = 0;
 80378b0:	6025      	str	r5, [r4, #0]
 80378b2:	bd38      	pop	{r3, r4, r5, pc}
 80378b4:	2000c7fc 	.word	0x2000c7fc
 80378b8:	08043fe4 	.word	0x08043fe4
 80378bc:	080377a1 	.word	0x080377a1
 80378c0:	2000c800 	.word	0x2000c800

080378c4 <SNTP_SetServerAddr>:
{
  return upcb != 0;
}

void SNTP_SetServerAddr(char *addr)
{
 80378c4:	b508      	push	{r3, lr}
  server.addr = ipaddr_addr(addr);
 80378c6:	f7fa fd48 	bl	803235a <ipaddr_addr>
 80378ca:	4b01      	ldr	r3, [pc, #4]	; (80378d0 <SNTP_SetServerAddr+0xc>)
 80378cc:	6018      	str	r0, [r3, #0]
 80378ce:	bd08      	pop	{r3, pc}
 80378d0:	2000c7f8 	.word	0x2000c7f8

080378d4 <SNTP_Init>:
/**
  * @brief  Инициализаци� SNTP.
  * @retval 
  */
void SNTP_Init(void)
{
 80378d4:	b508      	push	{r3, lr}
  
  
  SNTP_SetServerAddr(sSettings.sSNTP.ip);
 80378d6:	4805      	ldr	r0, [pc, #20]	; (80378ec <SNTP_Init+0x18>)
 80378d8:	f7ff fff4 	bl	80378c4 <SNTP_SetServerAddr>
  SNTP_Enable(sSettings.sSNTP.sntpEnable);
 80378dc:	4b04      	ldr	r3, [pc, #16]	; (80378f0 <SNTP_Init+0x1c>)
 80378de:	f893 0340 	ldrb.w	r0, [r3, #832]	; 0x340
}
 80378e2:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
void SNTP_Init(void)
{
  
  
  SNTP_SetServerAddr(sSettings.sSNTP.ip);
  SNTP_Enable(sSettings.sSNTP.sntpEnable);
 80378e6:	f7ff bfc3 	b.w	8037870 <SNTP_Enable>
 80378ea:	bf00      	nop
 80378ec:	2000cee1 	.word	0x2000cee1
 80378f0:	2000cba0 	.word	0x2000cba0

080378f4 <SNTP_Poll>:
    pbuf_free(psend);
  }
}

void SNTP_Poll(void)
{
 80378f4:	b530      	push	{r4, r5, lr}
  if (upcb)
 80378f6:	4d15      	ldr	r5, [pc, #84]	; (803794c <SNTP_Poll+0x58>)
 80378f8:	682b      	ldr	r3, [r5, #0]
    pbuf_free(psend);
  }
}

void SNTP_Poll(void)
{
 80378fa:	b08d      	sub	sp, #52	; 0x34
  if (upcb)
 80378fc:	b31b      	cbz	r3, 8037946 <SNTP_Poll+0x52>

static void send_request(void)
{
  struct sntp_packet packet;
  struct pbuf* psend;
  memset(&packet, 0, sizeof(packet));
 80378fe:	2100      	movs	r1, #0
 8037900:	2230      	movs	r2, #48	; 0x30
 8037902:	4668      	mov	r0, sp
 8037904:	f7ea fa4c 	bl	8021da0 <memset>
  packet.status = (3 << 3) /* SNTP vesion 3 */ | (3 << 0); /* Mode: client */
 8037908:	231b      	movs	r3, #27
  psend = pbuf_alloc(PBUF_RAW, sizeof(packet), PBUF_REF);
 803790a:	2003      	movs	r0, #3
 803790c:	2130      	movs	r1, #48	; 0x30
 803790e:	2202      	movs	r2, #2
static void send_request(void)
{
  struct sntp_packet packet;
  struct pbuf* psend;
  memset(&packet, 0, sizeof(packet));
  packet.status = (3 << 3) /* SNTP vesion 3 */ | (3 << 0); /* Mode: client */
 8037910:	f88d 3000 	strb.w	r3, [sp]
  psend = pbuf_alloc(PBUF_RAW, sizeof(packet), PBUF_REF);
 8037914:	f7f7 fe3d 	bl	802f592 <pbuf_alloc>
  
  if (psend != 0)
 8037918:	4604      	mov	r4, r0
 803791a:	b1a0      	cbz	r0, 8037946 <SNTP_Poll+0x52>
  {
    psend->payload = &packet;
 803791c:	ab00      	add	r3, sp, #0
 803791e:	6043      	str	r3, [r0, #4]
    timeout = (udp_sendto(upcb, psend, &server, port) == ERR_OK) ? SENT_TIMEOUT : SENDFAIL_TIMEOUT;
 8037920:	4621      	mov	r1, r4
 8037922:	4a0b      	ldr	r2, [pc, #44]	; (8037950 <SNTP_Poll+0x5c>)
 8037924:	6828      	ldr	r0, [r5, #0]
 8037926:	237b      	movs	r3, #123	; 0x7b
 8037928:	f7fa fae7 	bl	8031efa <udp_sendto>
 803792c:	f64e 2360 	movw	r3, #60000	; 0xea60
 8037930:	f241 3288 	movw	r2, #5000	; 0x1388
 8037934:	4907      	ldr	r1, [pc, #28]	; (8037954 <SNTP_Poll+0x60>)
 8037936:	2800      	cmp	r0, #0
 8037938:	bf14      	ite	ne
 803793a:	4610      	movne	r0, r2
 803793c:	4618      	moveq	r0, r3
 803793e:	6008      	str	r0, [r1, #0]
    pbuf_free(psend);
 8037940:	4620      	mov	r0, r4
 8037942:	f7f7 fdd9 	bl	802f4f8 <pbuf_free>

void SNTP_Poll(void)
{
  if (upcb)
    send_request();
}
 8037946:	b00d      	add	sp, #52	; 0x34
 8037948:	bd30      	pop	{r4, r5, pc}
 803794a:	bf00      	nop
 803794c:	2000c7fc 	.word	0x2000c7fc
 8037950:	2000c7f8 	.word	0x2000c7f8
 8037954:	2000c800 	.word	0x2000c800

08037958 <vTaskPeriodicSynchro>:
  * @brief  Периодиче�ка� �инхронизаци� времени.
  *         Выполн�ет�� раз в �утки � 0 ча�ов.
  * @retval 
  */
void vTaskPeriodicSynchro(void *arg)
{
 8037958:	b530      	push	{r4, r5, lr}
  static uint8_t fSinhro = 0;
  
  for (;;) 
  {
	vTaskDelay(10000);
	if (sSettings.sSNTP.sntpEnable)
 803795a:	4d0f      	ldr	r5, [pc, #60]	; (8037998 <vTaskPeriodicSynchro+0x40>)
	    fSinhro = 1;
		//printf("Periodic time sinhro\n\r");
	  }
	  
	  if (data.hours > 1)
	    fSinhro = 0;
 803795c:	4c0f      	ldr	r4, [pc, #60]	; (803799c <vTaskPeriodicSynchro+0x44>)
  * @brief  Периодиче�ка� �инхронизаци� времени.
  *         Выполн�ет�� раз в �утки � 0 ча�ов.
  * @retval 
  */
void vTaskPeriodicSynchro(void *arg)
{
 803795e:	b085      	sub	sp, #20
  
  static uint8_t fSinhro = 0;
  
  for (;;) 
  {
	vTaskDelay(10000);
 8037960:	f242 7010 	movw	r0, #10000	; 0x2710
 8037964:	f7f3 fcfe 	bl	802b364 <vTaskDelay>
	if (sSettings.sSNTP.sntpEnable)
 8037968:	f895 3340 	ldrb.w	r3, [r5, #832]	; 0x340
 803796c:	2b00      	cmp	r3, #0
 803796e:	d0f7      	beq.n	8037960 <vTaskPeriodicSynchro+0x8>
	{
	  TM_RTC_GetDateTime(&data, TM_RTC_Format_BIN);
 8037970:	4668      	mov	r0, sp
 8037972:	2100      	movs	r1, #0
 8037974:	f7ee ff2a 	bl	80267cc <TM_RTC_GetDateTime>
	  
	  /* Е�ли пришло врем� �инхронизации */
	  if ((data.hours == 0) && (fSinhro == 0))
 8037978:	f89d 3005 	ldrb.w	r3, [sp, #5]
 803797c:	b92b      	cbnz	r3, 803798a <vTaskPeriodicSynchro+0x32>
 803797e:	7823      	ldrb	r3, [r4, #0]
 8037980:	b91b      	cbnz	r3, 803798a <vTaskPeriodicSynchro+0x32>
	  {
		SNTP_Poll();
 8037982:	f7ff ffb7 	bl	80378f4 <SNTP_Poll>
	    fSinhro = 1;
 8037986:	2301      	movs	r3, #1
 8037988:	7023      	strb	r3, [r4, #0]
		//printf("Periodic time sinhro\n\r");
	  }
	  
	  if (data.hours > 1)
 803798a:	f89d 3005 	ldrb.w	r3, [sp, #5]
 803798e:	2b01      	cmp	r3, #1
 8037990:	d9e6      	bls.n	8037960 <vTaskPeriodicSynchro+0x8>
	    fSinhro = 0;
 8037992:	2300      	movs	r3, #0
 8037994:	7023      	strb	r3, [r4, #0]
 8037996:	e7e3      	b.n	8037960 <vTaskPeriodicSynchro+0x8>
 8037998:	2000cba0 	.word	0x2000cba0
 803799c:	2000c7f5 	.word	0x2000c7f5

080379a0 <vTaskOnceSynchro>:
/**
  * @brief  Синхронизаци� времени единоразово при включении контроллера
  * @retval 
  */
void vTaskOnceSynchro(void *arg)
{
 80379a0:	b538      	push	{r3, r4, r5, lr}
  for (;;) 
  {
	if (sSettings.sSNTP.sntpEnable)
 80379a2:	4d07      	ldr	r5, [pc, #28]	; (80379c0 <vTaskOnceSynchro+0x20>)
 80379a4:	4c07      	ldr	r4, [pc, #28]	; (80379c4 <vTaskOnceSynchro+0x24>)
 80379a6:	f895 3340 	ldrb.w	r3, [r5, #832]	; 0x340
 80379aa:	b12b      	cbz	r3, 80379b8 <vTaskOnceSynchro+0x18>
	{  
      vTaskDelay(7000);
 80379ac:	f641 3058 	movw	r0, #7000	; 0x1b58
 80379b0:	f7f3 fcd8 	bl	802b364 <vTaskDelay>
  	  SNTP_Poll();
 80379b4:	f7ff ff9e 	bl	80378f4 <SNTP_Poll>
	  //printf("Once time sinhro\n\r");
	  vTaskDelete(xHandleSntpOnceSinhro);
	}
	else
	  vTaskDelete(xHandleSntpOnceSinhro);
 80379b8:	6820      	ldr	r0, [r4, #0]
 80379ba:	f7f3 fb11 	bl	802afe0 <vTaskDelete>
 80379be:	e7f2      	b.n	80379a6 <vTaskOnceSynchro+0x6>
 80379c0:	2000cba0 	.word	0x2000cba0
 80379c4:	20000b0c 	.word	0x20000b0c

080379c8 <SNMP_InitTrapsBase>:
  * @retval 
  */
void SNMP_InitTrapsBase(void)
{
  /* 1. FWVersionUpdate */ // +
  traps[FW_VERSION_UPDATE].trapId = FW_VERSION_UPDATE;
 80379c8:	4b53      	ldr	r3, [pc, #332]	; (8037b18 <SNMP_InitTrapsBase+0x150>)
  traps[FW_VERSION_UPDATE].varbindId = 1;
  traps[FW_VERSION_UPDATE].trapEnable = true;
  traps[FW_VERSION_UPDATE].handle = GetVersionStr; /* FWVersion */
 80379ca:	4954      	ldr	r1, [pc, #336]	; (8037b1c <SNMP_InitTrapsBase+0x154>)
  
  /* 2. FWVersionUpdated */ // +
  traps[FW_VERSION_UPDATED].trapId = FW_VERSION_UPDATED;
 80379cc:	2002      	movs	r0, #2
/**
  * @brief  Инициализаци� базы трапов
  * @retval 
  */
void SNMP_InitTrapsBase(void)
{
 80379ce:	b570      	push	{r4, r5, r6, lr}
  traps[FW_VERSION_UPDATE].varbindId = 1;
  traps[FW_VERSION_UPDATE].trapEnable = true;
  traps[FW_VERSION_UPDATE].handle = GetVersionStr; /* FWVersion */
  
  /* 2. FWVersionUpdated */ // +
  traps[FW_VERSION_UPDATED].trapId = FW_VERSION_UPDATED;
 80379d0:	7458      	strb	r0, [r3, #17]
  traps[FW_VERSION_UPDATED].varbindId = 1;
  traps[FW_VERSION_UPDATED].trapEnable = true;
  traps[FW_VERSION_UPDATED].handle = GetVersionStr; /* FWVersion */
  
  /* 3. DeviceRestored */ // +
  traps[DEVICE_RESTORED].trapId = DEVICE_RESTORED;
 80379d2:	2003      	movs	r0, #3
 80379d4:	7658      	strb	r0, [r3, #25]
  traps[DEVICE_RESTORED].varbindId = 1;
  traps[DEVICE_RESTORED].trapEnable = true;
  traps[DEVICE_RESTORED].handle = GetVersionStr;//GetRestore; /* RestoreSignal */
  
  /* 4. DeviceRebooted */ // +
  traps[DEVICE_REBOOTED].trapId = DEVICE_REBOOTED;
 80379d6:	2004      	movs	r0, #4
  traps[DEVICE_REBOOTED].varbindId = 1;
  traps[DEVICE_REBOOTED].trapEnable = true;
  traps[DEVICE_REBOOTED].handle = GetVersionStr;//GetReboot; /* RebootSignal */
  
  /* 5. DI0Norm */ // +
   traps[DI0_NORM].trapId = DI0_NORM;
 80379d8:	2405      	movs	r4, #5
  traps[DEVICE_RESTORED].varbindId = 1;
  traps[DEVICE_RESTORED].trapEnable = true;
  traps[DEVICE_RESTORED].handle = GetVersionStr;//GetRestore; /* RestoreSignal */
  
  /* 4. DeviceRebooted */ // +
  traps[DEVICE_REBOOTED].trapId = DEVICE_REBOOTED;
 80379da:	f883 0021 	strb.w	r0, [r3, #33]	; 0x21
   traps[DI0_NORM].varbindId = 9;
   traps[DI0_NORM].trapEnable = true;
   traps[DI0_NORM].handle = GetDIN0StatusStr; /* State DIN */

   /* 6. DI0Alarm */ // +
   traps[DI0_ALARM].trapId = DI0_ALARM;
 80379de:	2006      	movs	r0, #6
  
  /* 5. DI0Norm */ // +
   traps[DI0_NORM].trapId = DI0_NORM;
   traps[DI0_NORM].varbindId = 9;
   traps[DI0_NORM].trapEnable = true;
   traps[DI0_NORM].handle = GetDIN0StatusStr; /* State DIN */
 80379e0:	4d4f      	ldr	r5, [pc, #316]	; (8037b20 <SNMP_InitTrapsBase+0x158>)
  traps[DEVICE_REBOOTED].varbindId = 1;
  traps[DEVICE_REBOOTED].trapEnable = true;
  traps[DEVICE_REBOOTED].handle = GetVersionStr;//GetReboot; /* RebootSignal */
  
  /* 5. DI0Norm */ // +
   traps[DI0_NORM].trapId = DI0_NORM;
 80379e2:	f883 4029 	strb.w	r4, [r3, #41]	; 0x29
   traps[DI0_NORM].varbindId = 9;
   traps[DI0_NORM].trapEnable = true;
   traps[DI0_NORM].handle = GetDIN0StatusStr; /* State DIN */

   /* 6. DI0Alarm */ // +
   traps[DI0_ALARM].trapId = DI0_ALARM;
 80379e6:	f883 0031 	strb.w	r0, [r3, #49]	; 0x31
   traps[DI0_ALARM].trapEnable = true;
   traps[DI0_ALARM].handle = GetDIN0StatusStr; /* State DIN */

   /* 7. DO0Toggle */ // +
    traps[DO0_TOGGLED].trapId = DO0_TOGGLED;
    traps[DO0_TOGGLED].varbindId = 5;
 80379ea:	f883 403a 	strb.w	r4, [r3, #58]	; 0x3a
    traps[DO0_TOGGLED].trapEnable = true;
    traps[DO0_TOGGLED].handle = GetDOUT0StatusStr; /* State DO0 */

    /* 8. DO1Toggle */ // +
    traps[DO1_TOGGLED].trapId = DO1_TOGGLED;
    traps[DO1_TOGGLED].varbindId = 6;
 80379ee:	f883 0042 	strb.w	r0, [r3, #66]	; 0x42

   /* 7. DO0Toggle */ // +
    traps[DO0_TOGGLED].trapId = DO0_TOGGLED;
    traps[DO0_TOGGLED].varbindId = 5;
    traps[DO0_TOGGLED].trapEnable = true;
    traps[DO0_TOGGLED].handle = GetDOUT0StatusStr; /* State DO0 */
 80379f2:	4c4c      	ldr	r4, [pc, #304]	; (8037b24 <SNMP_InitTrapsBase+0x15c>)

    /* 8. DO1Toggle */ // +
    traps[DO1_TOGGLED].trapId = DO1_TOGGLED;
    traps[DO1_TOGGLED].varbindId = 6;
    traps[DO1_TOGGLED].trapEnable = true;
    traps[DO1_TOGGLED].handle = GetDOUT1StatusStr; /* State DO1 */
 80379f4:	484c      	ldr	r0, [pc, #304]	; (8037b28 <SNMP_InitTrapsBase+0x160>)
{
  /* 1. FWVersionUpdate */ // +
  traps[FW_VERSION_UPDATE].trapId = FW_VERSION_UPDATE;
  traps[FW_VERSION_UPDATE].varbindId = 1;
  traps[FW_VERSION_UPDATE].trapEnable = true;
  traps[FW_VERSION_UPDATE].handle = GetVersionStr; /* FWVersion */
 80379f6:	60d9      	str	r1, [r3, #12]
  * @retval 
  */
void SNMP_InitTrapsBase(void)
{
  /* 1. FWVersionUpdate */ // +
  traps[FW_VERSION_UPDATE].trapId = FW_VERSION_UPDATE;
 80379f8:	2201      	movs	r2, #1
  
  /* 2. FWVersionUpdated */ // +
  traps[FW_VERSION_UPDATED].trapId = FW_VERSION_UPDATED;
  traps[FW_VERSION_UPDATED].varbindId = 1;
  traps[FW_VERSION_UPDATED].trapEnable = true;
  traps[FW_VERSION_UPDATED].handle = GetVersionStr; /* FWVersion */
 80379fa:	6159      	str	r1, [r3, #20]
  
  /* 3. DeviceRestored */ // +
  traps[DEVICE_RESTORED].trapId = DEVICE_RESTORED;
  traps[DEVICE_RESTORED].varbindId = 1;
  traps[DEVICE_RESTORED].trapEnable = true;
  traps[DEVICE_RESTORED].handle = GetVersionStr;//GetRestore; /* RestoreSignal */
 80379fc:	61d9      	str	r1, [r3, #28]
  
  /* 4. DeviceRebooted */ // +
  traps[DEVICE_REBOOTED].trapId = DEVICE_REBOOTED;
  traps[DEVICE_REBOOTED].varbindId = 1;
  traps[DEVICE_REBOOTED].trapEnable = true;
  traps[DEVICE_REBOOTED].handle = GetVersionStr;//GetReboot; /* RebootSignal */
 80379fe:	6259      	str	r1, [r3, #36]	; 0x24
  
  /* 5. DI0Norm */ // +
   traps[DI0_NORM].trapId = DI0_NORM;
   traps[DI0_NORM].varbindId = 9;
   traps[DI0_NORM].trapEnable = true;
   traps[DI0_NORM].handle = GetDIN0StatusStr; /* State DIN */
 8037a00:	62dd      	str	r5, [r3, #44]	; 0x2c
  traps[DEVICE_REBOOTED].trapEnable = true;
  traps[DEVICE_REBOOTED].handle = GetVersionStr;//GetReboot; /* RebootSignal */
  
  /* 5. DI0Norm */ // +
   traps[DI0_NORM].trapId = DI0_NORM;
   traps[DI0_NORM].varbindId = 9;
 8037a02:	2109      	movs	r1, #9

   /* 6. DI0Alarm */ // +
   traps[DI0_ALARM].trapId = DI0_ALARM;
   traps[DI0_ALARM].varbindId = 9;
   traps[DI0_ALARM].trapEnable = true;
   traps[DI0_ALARM].handle = GetDIN0StatusStr; /* State DIN */
 8037a04:	635d      	str	r5, [r3, #52]	; 0x34

   /* 7. DO0Toggle */ // +
    traps[DO0_TOGGLED].trapId = DO0_TOGGLED;
    traps[DO0_TOGGLED].varbindId = 5;
    traps[DO0_TOGGLED].trapEnable = true;
    traps[DO0_TOGGLED].handle = GetDOUT0StatusStr; /* State DO0 */
 8037a06:	63dc      	str	r4, [r3, #60]	; 0x3c
   traps[DI0_ALARM].varbindId = 9;
   traps[DI0_ALARM].trapEnable = true;
   traps[DI0_ALARM].handle = GetDIN0StatusStr; /* State DIN */

   /* 7. DO0Toggle */ // +
    traps[DO0_TOGGLED].trapId = DO0_TOGGLED;
 8037a08:	2507      	movs	r5, #7
    traps[DO0_TOGGLED].varbindId = 5;
    traps[DO0_TOGGLED].trapEnable = true;
    traps[DO0_TOGGLED].handle = GetDOUT0StatusStr; /* State DO0 */

    /* 8. DO1Toggle */ // +
    traps[DO1_TOGGLED].trapId = DO1_TOGGLED;
 8037a0a:	2408      	movs	r4, #8
    traps[DO1_TOGGLED].varbindId = 6;
    traps[DO1_TOGGLED].trapEnable = true;
    traps[DO1_TOGGLED].handle = GetDOUT1StatusStr; /* State DO1 */
 8037a0c:	6458      	str	r0, [r3, #68]	; 0x44

  /* 9. BatteryTemperatureNorm */ // +
  traps[BATTERY_TEMPERATURE_NORM].trapId = BATTERY_TEMPERATURE_NORM;
  traps[BATTERY_TEMPERATURE_NORM].varbindId = 10;
  traps[BATTERY_TEMPERATURE_NORM].trapEnable = true;
  traps[BATTERY_TEMPERATURE_NORM].handle = GetInternalTempStr; /* BatteryTemperature */  
 8037a0e:	4847      	ldr	r0, [pc, #284]	; (8037b2c <SNMP_InitTrapsBase+0x164>)
  traps[DEVICE_REBOOTED].trapEnable = true;
  traps[DEVICE_REBOOTED].handle = GetVersionStr;//GetReboot; /* RebootSignal */
  
  /* 5. DI0Norm */ // +
   traps[DI0_NORM].trapId = DI0_NORM;
   traps[DI0_NORM].varbindId = 9;
 8037a10:	f883 102a 	strb.w	r1, [r3, #42]	; 0x2a
   traps[DI0_NORM].trapEnable = true;
   traps[DI0_NORM].handle = GetDIN0StatusStr; /* State DIN */

   /* 6. DI0Alarm */ // +
   traps[DI0_ALARM].trapId = DI0_ALARM;
   traps[DI0_ALARM].varbindId = 9;
 8037a14:	f883 1032 	strb.w	r1, [r3, #50]	; 0x32
   traps[DI0_ALARM].trapEnable = true;
   traps[DI0_ALARM].handle = GetDIN0StatusStr; /* State DIN */

   /* 7. DO0Toggle */ // +
    traps[DO0_TOGGLED].trapId = DO0_TOGGLED;
 8037a18:	f883 5039 	strb.w	r5, [r3, #57]	; 0x39
    traps[DO0_TOGGLED].varbindId = 5;
    traps[DO0_TOGGLED].trapEnable = true;
    traps[DO0_TOGGLED].handle = GetDOUT0StatusStr; /* State DO0 */

    /* 8. DO1Toggle */ // +
    traps[DO1_TOGGLED].trapId = DO1_TOGGLED;
 8037a1c:	f883 4041 	strb.w	r4, [r3, #65]	; 0x41
  * @retval 
  */
void SNMP_InitTrapsBase(void)
{
  /* 1. FWVersionUpdate */ // +
  traps[FW_VERSION_UPDATE].trapId = FW_VERSION_UPDATE;
 8037a20:	725a      	strb	r2, [r3, #9]
  traps[FW_VERSION_UPDATE].varbindId = 1;
 8037a22:	729a      	strb	r2, [r3, #10]
  traps[FW_VERSION_UPDATE].trapEnable = true;
 8037a24:	72da      	strb	r2, [r3, #11]
  traps[FW_VERSION_UPDATE].handle = GetVersionStr; /* FWVersion */
  
  /* 2. FWVersionUpdated */ // +
  traps[FW_VERSION_UPDATED].trapId = FW_VERSION_UPDATED;
  traps[FW_VERSION_UPDATED].varbindId = 1;
 8037a26:	749a      	strb	r2, [r3, #18]
  traps[FW_VERSION_UPDATED].trapEnable = true;
 8037a28:	74da      	strb	r2, [r3, #19]
  traps[FW_VERSION_UPDATED].handle = GetVersionStr; /* FWVersion */
  
  /* 3. DeviceRestored */ // +
  traps[DEVICE_RESTORED].trapId = DEVICE_RESTORED;
  traps[DEVICE_RESTORED].varbindId = 1;
 8037a2a:	769a      	strb	r2, [r3, #26]
  traps[DEVICE_RESTORED].trapEnable = true;
 8037a2c:	76da      	strb	r2, [r3, #27]
  traps[DEVICE_RESTORED].handle = GetVersionStr;//GetRestore; /* RestoreSignal */
  
  /* 4. DeviceRebooted */ // +
  traps[DEVICE_REBOOTED].trapId = DEVICE_REBOOTED;
  traps[DEVICE_REBOOTED].varbindId = 1;
 8037a2e:	f883 2022 	strb.w	r2, [r3, #34]	; 0x22
  traps[DEVICE_REBOOTED].trapEnable = true;
 8037a32:	f883 2023 	strb.w	r2, [r3, #35]	; 0x23
  traps[DEVICE_REBOOTED].handle = GetVersionStr;//GetReboot; /* RebootSignal */
  
  /* 5. DI0Norm */ // +
   traps[DI0_NORM].trapId = DI0_NORM;
   traps[DI0_NORM].varbindId = 9;
   traps[DI0_NORM].trapEnable = true;
 8037a36:	f883 202b 	strb.w	r2, [r3, #43]	; 0x2b
   traps[DI0_NORM].handle = GetDIN0StatusStr; /* State DIN */

   /* 6. DI0Alarm */ // +
   traps[DI0_ALARM].trapId = DI0_ALARM;
   traps[DI0_ALARM].varbindId = 9;
   traps[DI0_ALARM].trapEnable = true;
 8037a3a:	f883 2033 	strb.w	r2, [r3, #51]	; 0x33
   traps[DI0_ALARM].handle = GetDIN0StatusStr; /* State DIN */

   /* 7. DO0Toggle */ // +
    traps[DO0_TOGGLED].trapId = DO0_TOGGLED;
    traps[DO0_TOGGLED].varbindId = 5;
    traps[DO0_TOGGLED].trapEnable = true;
 8037a3e:	f883 203b 	strb.w	r2, [r3, #59]	; 0x3b
    traps[DO0_TOGGLED].handle = GetDOUT0StatusStr; /* State DO0 */

    /* 8. DO1Toggle */ // +
    traps[DO1_TOGGLED].trapId = DO1_TOGGLED;
    traps[DO1_TOGGLED].varbindId = 6;
    traps[DO1_TOGGLED].trapEnable = true;
 8037a42:	f883 2043 	strb.w	r2, [r3, #67]	; 0x43
    traps[DO1_TOGGLED].handle = GetDOUT1StatusStr; /* State DO1 */

  /* 9. BatteryTemperatureNorm */ // +
  traps[BATTERY_TEMPERATURE_NORM].trapId = BATTERY_TEMPERATURE_NORM;
 8037a46:	f883 1049 	strb.w	r1, [r3, #73]	; 0x49
  traps[BATTERY_TEMPERATURE_NORM].varbindId = 10;
 8037a4a:	210a      	movs	r1, #10
 8037a4c:	f883 104a 	strb.w	r1, [r3, #74]	; 0x4a
  traps[BATTERY_TEMPERATURE_NORM].trapEnable = true;
  traps[BATTERY_TEMPERATURE_NORM].handle = GetInternalTempStr; /* BatteryTemperature */  
 8037a50:	64d8      	str	r0, [r3, #76]	; 0x4c
  
  /* 10. BatteryTemperatureAlarm */ // +
  traps[BATTERY_TEMPERATURE_ALARM].trapId = BATTERY_TEMPERATURE_ALARM;
 8037a52:	f883 1051 	strb.w	r1, [r3, #81]	; 0x51
  traps[BATTERY_TEMPERATURE_ALARM].varbindId = 10;
 8037a56:	f883 1052 	strb.w	r1, [r3, #82]	; 0x52
  traps[BATTERY_TEMPERATURE_ALARM].trapEnable = true;
  traps[BATTERY_TEMPERATURE_ALARM].handle = GetInternalTempStr; /* BatteryTemperature */
 8037a5a:	6558      	str	r0, [r3, #84]	; 0x54
  
  /* 11. LineAlarm */ // +
  traps[LINE_ALARM].trapId = LINE_ALARM;
 8037a5c:	210b      	movs	r1, #11
  traps[LINE_ALARM].varbindId = 12;
  traps[LINE_ALARM].trapEnable = true;
  traps[LINE_ALARM].handle = GetInputVoltageStr; /* LineAlarm */
 8037a5e:	4834      	ldr	r0, [pc, #208]	; (8037b30 <SNMP_InitTrapsBase+0x168>)
  traps[BATTERY_TEMPERATURE_ALARM].varbindId = 10;
  traps[BATTERY_TEMPERATURE_ALARM].trapEnable = true;
  traps[BATTERY_TEMPERATURE_ALARM].handle = GetInternalTempStr; /* BatteryTemperature */
  
  /* 11. LineAlarm */ // +
  traps[LINE_ALARM].trapId = LINE_ALARM;
 8037a60:	f883 1059 	strb.w	r1, [r3, #89]	; 0x59
  traps[LINE_ALARM].varbindId = 12;
 8037a64:	210c      	movs	r1, #12
  traps[LOW_BAT_ALARM].varbindId = 15;
  traps[LOW_BAT_ALARM].trapEnable = true;
  traps[LOW_BAT_ALARM].handle = GetBatCapacityStr; /* LowBatAlarm */
  
  /* 14. LowBatNorm */ // +
  traps[LOW_BAT_NORM].trapId = LOW_BAT_NORM;
 8037a66:	240e      	movs	r4, #14
  
  /* 15. PowerAlarm */ // +
  traps[POWER_ALARM].trapId = POWER_ALARM;
  traps[POWER_ALARM].varbindId = 14;
  traps[POWER_ALARM].trapEnable = true;
  traps[POWER_ALARM].handle = GetPowerStr; /* PowerAlarm */
 8037a68:	4d32      	ldr	r5, [pc, #200]	; (8037b34 <SNMP_InitTrapsBase+0x16c>)
  traps[BATTERY_TEMPERATURE_ALARM].trapEnable = true;
  traps[BATTERY_TEMPERATURE_ALARM].handle = GetInternalTempStr; /* BatteryTemperature */
  
  /* 11. LineAlarm */ // +
  traps[LINE_ALARM].trapId = LINE_ALARM;
  traps[LINE_ALARM].varbindId = 12;
 8037a6a:	f883 105a 	strb.w	r1, [r3, #90]	; 0x5a
  traps[LINE_ALARM].trapEnable = true;
  traps[LINE_ALARM].handle = GetInputVoltageStr; /* LineAlarm */
 8037a6e:	65d8      	str	r0, [r3, #92]	; 0x5c
  
  /* 12. LineNorm */ // +
  traps[LINE_NORM].trapId = LINE_NORM;
 8037a70:	f883 1061 	strb.w	r1, [r3, #97]	; 0x61
  traps[LINE_NORM].varbindId = 12;
 8037a74:	f883 1062 	strb.w	r1, [r3, #98]	; 0x62
  traps[LINE_NORM].trapEnable = true;
  traps[LINE_NORM].handle = GetInputVoltageStr; /* LineNorm */
 8037a78:	6658      	str	r0, [r3, #100]	; 0x64
  
  /* 13. LowBatAlarm */ // +
  traps[LOW_BAT_ALARM].trapId = LOW_BAT_ALARM;
 8037a7a:	210d      	movs	r1, #13
  traps[LOW_BAT_ALARM].varbindId = 15;
  traps[LOW_BAT_ALARM].trapEnable = true;
  traps[LOW_BAT_ALARM].handle = GetBatCapacityStr; /* LowBatAlarm */
 8037a7c:	482e      	ldr	r0, [pc, #184]	; (8037b38 <SNMP_InitTrapsBase+0x170>)
  traps[LINE_NORM].varbindId = 12;
  traps[LINE_NORM].trapEnable = true;
  traps[LINE_NORM].handle = GetInputVoltageStr; /* LineNorm */
  
  /* 13. LowBatAlarm */ // +
  traps[LOW_BAT_ALARM].trapId = LOW_BAT_ALARM;
 8037a7e:	f883 1069 	strb.w	r1, [r3, #105]	; 0x69
  traps[LOW_BAT_ALARM].varbindId = 15;
  traps[LOW_BAT_ALARM].trapEnable = true;
  traps[LOW_BAT_ALARM].handle = GetBatCapacityStr; /* LowBatAlarm */
  
  /* 14. LowBatNorm */ // +
  traps[LOW_BAT_NORM].trapId = LOW_BAT_NORM;
 8037a82:	f883 4071 	strb.w	r4, [r3, #113]	; 0x71
  traps[LINE_NORM].trapEnable = true;
  traps[LINE_NORM].handle = GetInputVoltageStr; /* LineNorm */
  
  /* 13. LowBatAlarm */ // +
  traps[LOW_BAT_ALARM].trapId = LOW_BAT_ALARM;
  traps[LOW_BAT_ALARM].varbindId = 15;
 8037a86:	210f      	movs	r1, #15
  traps[LOW_BAT_NORM].trapEnable = true;
  traps[LOW_BAT_NORM].handle = GetBatCapacityStr; /* LowBatNorm */
  
  /* 15. PowerAlarm */ // +
  traps[POWER_ALARM].trapId = POWER_ALARM;
  traps[POWER_ALARM].varbindId = 14;
 8037a88:	f883 407a 	strb.w	r4, [r3, #122]	; 0x7a
  traps[POWER_ALARM].trapEnable = true;
  traps[POWER_ALARM].handle = GetPowerStr; /* PowerAlarm */
  
  /* 16. PowerNorm */ // +
  traps[POWER_NORM].trapId = POWER_NORM;
 8037a8c:	2610      	movs	r6, #16
  traps[POWER_NORM].varbindId = 14;
 8037a8e:	f883 4082 	strb.w	r4, [r3, #130]	; 0x82
  traps[POWER_NORM].trapEnable = true;
  traps[POWER_NORM].handle = GetPowerStr; /* PowerNorm */
  
  /* 17. ConnectMonitorAlarm */ //
  traps[CONNECT_MONITOR_ALARM].trapId = CONNECT_MONITOR_ALARM;
 8037a92:	2411      	movs	r4, #17
  
  /* 15. PowerAlarm */ // +
  traps[POWER_ALARM].trapId = POWER_ALARM;
  traps[POWER_ALARM].varbindId = 14;
  traps[POWER_ALARM].trapEnable = true;
  traps[POWER_ALARM].handle = GetPowerStr; /* PowerAlarm */
 8037a94:	67dd      	str	r5, [r3, #124]	; 0x7c
  
  /* 16. PowerNorm */ // +
  traps[POWER_NORM].trapId = POWER_NORM;
 8037a96:	f883 6081 	strb.w	r6, [r3, #129]	; 0x81
  traps[POWER_NORM].varbindId = 14;
  traps[POWER_NORM].trapEnable = true;
  traps[POWER_NORM].handle = GetPowerStr; /* PowerNorm */
 8037a9a:	f8c3 5084 	str.w	r5, [r3, #132]	; 0x84
  
  /* 17. ConnectMonitorAlarm */ //
  traps[CONNECT_MONITOR_ALARM].trapId = CONNECT_MONITOR_ALARM;
 8037a9e:	f883 4089 	strb.w	r4, [r3, #137]	; 0x89
  traps[CONNECT_MONITOR_ALARM].varbindId = 17;
 8037aa2:	f883 408a 	strb.w	r4, [r3, #138]	; 0x8a
  traps[CONNECT_MONITOR_ALARM].trapEnable = true;
  traps[CONNECT_MONITOR_ALARM].handle = GetConnectMonitorStr;//GetConnectMonitorStr; /* ConnectMonitor */
 8037aa6:	4d25      	ldr	r5, [pc, #148]	; (8037b3c <SNMP_InitTrapsBase+0x174>)
    traps[DO1_TOGGLED].handle = GetDOUT1StatusStr; /* State DO1 */

  /* 9. BatteryTemperatureNorm */ // +
  traps[BATTERY_TEMPERATURE_NORM].trapId = BATTERY_TEMPERATURE_NORM;
  traps[BATTERY_TEMPERATURE_NORM].varbindId = 10;
  traps[BATTERY_TEMPERATURE_NORM].trapEnable = true;
 8037aa8:	f883 204b 	strb.w	r2, [r3, #75]	; 0x4b
  traps[BATTERY_TEMPERATURE_NORM].handle = GetInternalTempStr; /* BatteryTemperature */  
  
  /* 10. BatteryTemperatureAlarm */ // +
  traps[BATTERY_TEMPERATURE_ALARM].trapId = BATTERY_TEMPERATURE_ALARM;
  traps[BATTERY_TEMPERATURE_ALARM].varbindId = 10;
  traps[BATTERY_TEMPERATURE_ALARM].trapEnable = true;
 8037aac:	f883 2053 	strb.w	r2, [r3, #83]	; 0x53
  traps[BATTERY_TEMPERATURE_ALARM].handle = GetInternalTempStr; /* BatteryTemperature */
  
  /* 11. LineAlarm */ // +
  traps[LINE_ALARM].trapId = LINE_ALARM;
  traps[LINE_ALARM].varbindId = 12;
  traps[LINE_ALARM].trapEnable = true;
 8037ab0:	f883 205b 	strb.w	r2, [r3, #91]	; 0x5b
  traps[LINE_ALARM].handle = GetInputVoltageStr; /* LineAlarm */
  
  /* 12. LineNorm */ // +
  traps[LINE_NORM].trapId = LINE_NORM;
  traps[LINE_NORM].varbindId = 12;
  traps[LINE_NORM].trapEnable = true;
 8037ab4:	f883 2063 	strb.w	r2, [r3, #99]	; 0x63
  traps[LINE_NORM].handle = GetInputVoltageStr; /* LineNorm */
  
  /* 13. LowBatAlarm */ // +
  traps[LOW_BAT_ALARM].trapId = LOW_BAT_ALARM;
  traps[LOW_BAT_ALARM].varbindId = 15;
 8037ab8:	f883 106a 	strb.w	r1, [r3, #106]	; 0x6a
  traps[LOW_BAT_ALARM].trapEnable = true;
 8037abc:	f883 206b 	strb.w	r2, [r3, #107]	; 0x6b
  traps[LOW_BAT_ALARM].handle = GetBatCapacityStr; /* LowBatAlarm */
 8037ac0:	66d8      	str	r0, [r3, #108]	; 0x6c
  
  /* 14. LowBatNorm */ // +
  traps[LOW_BAT_NORM].trapId = LOW_BAT_NORM;
  traps[LOW_BAT_NORM].varbindId = 15;
 8037ac2:	f883 1072 	strb.w	r1, [r3, #114]	; 0x72
  traps[LOW_BAT_NORM].trapEnable = true;
 8037ac6:	f883 2073 	strb.w	r2, [r3, #115]	; 0x73
  traps[LOW_BAT_NORM].handle = GetBatCapacityStr; /* LowBatNorm */
 8037aca:	6758      	str	r0, [r3, #116]	; 0x74
  
  /* 15. PowerAlarm */ // +
  traps[POWER_ALARM].trapId = POWER_ALARM;
 8037acc:	f883 1079 	strb.w	r1, [r3, #121]	; 0x79
  traps[POWER_ALARM].varbindId = 14;
  traps[POWER_ALARM].trapEnable = true;
 8037ad0:	f883 207b 	strb.w	r2, [r3, #123]	; 0x7b
  traps[POWER_ALARM].handle = GetPowerStr; /* PowerAlarm */
  
  /* 16. PowerNorm */ // +
  traps[POWER_NORM].trapId = POWER_NORM;
  traps[POWER_NORM].varbindId = 14;
  traps[POWER_NORM].trapEnable = true;
 8037ad4:	f883 2083 	strb.w	r2, [r3, #131]	; 0x83
  traps[POWER_NORM].handle = GetPowerStr; /* PowerNorm */
  
  /* 17. ConnectMonitorAlarm */ //
  traps[CONNECT_MONITOR_ALARM].trapId = CONNECT_MONITOR_ALARM;
  traps[CONNECT_MONITOR_ALARM].varbindId = 17;
  traps[CONNECT_MONITOR_ALARM].trapEnable = true;
 8037ad8:	f883 208b 	strb.w	r2, [r3, #139]	; 0x8b
  traps[CONNECT_MONITOR_ALARM].handle = GetConnectMonitorStr;//GetConnectMonitorStr; /* ConnectMonitor */
  
  /* 18. ConnectMonitorNorm */ //
  traps[CONNECT_MONITOR_NORM].trapId = CONNECT_MONITOR_NORM;
  traps[CONNECT_MONITOR_NORM].varbindId = 17;
 8037adc:	f883 4092 	strb.w	r4, [r3, #146]	; 0x92
  traps[CONNECT_MONITOR_NORM].trapEnable = true;
  traps[CONNECT_MONITOR_NORM].handle = GetConnectMonitorStr;//GetConnectMonitorStr; /* ConnectMonitor */

  /* 19. BatteryConnectAlarm */ // +
  traps[BATTERY_CONNECT_ALARM].trapId = BATTERY_CONNECT_ALARM;
 8037ae0:	2413      	movs	r4, #19
  traps[CONNECT_MONITOR_ALARM].varbindId = 17;
  traps[CONNECT_MONITOR_ALARM].trapEnable = true;
  traps[CONNECT_MONITOR_ALARM].handle = GetConnectMonitorStr;//GetConnectMonitorStr; /* ConnectMonitor */
  
  /* 18. ConnectMonitorNorm */ //
  traps[CONNECT_MONITOR_NORM].trapId = CONNECT_MONITOR_NORM;
 8037ae2:	2612      	movs	r6, #18
  traps[CONNECT_MONITOR_NORM].varbindId = 17;
  traps[CONNECT_MONITOR_NORM].trapEnable = true;
  traps[CONNECT_MONITOR_NORM].handle = GetConnectMonitorStr;//GetConnectMonitorStr; /* ConnectMonitor */

  /* 19. BatteryConnectAlarm */ // +
  traps[BATTERY_CONNECT_ALARM].trapId = BATTERY_CONNECT_ALARM;
 8037ae4:	f883 4099 	strb.w	r4, [r3, #153]	; 0x99
  traps[BATTERY_CONNECT_ALARM].varbindId = 15;
  traps[BATTERY_CONNECT_ALARM].trapEnable = true;
  traps[BATTERY_CONNECT_ALARM].handle = GetBatCapacityStr; /* LowBatAlarm */

  /* 20. BatteryConnectNorm */ // +
  traps[BATTERY_CONNECT_NORM].trapId = BATTERY_CONNECT_NORM;
 8037ae8:	2414      	movs	r4, #20
  
  /* 17. ConnectMonitorAlarm */ //
  traps[CONNECT_MONITOR_ALARM].trapId = CONNECT_MONITOR_ALARM;
  traps[CONNECT_MONITOR_ALARM].varbindId = 17;
  traps[CONNECT_MONITOR_ALARM].trapEnable = true;
  traps[CONNECT_MONITOR_ALARM].handle = GetConnectMonitorStr;//GetConnectMonitorStr; /* ConnectMonitor */
 8037aea:	f8c3 508c 	str.w	r5, [r3, #140]	; 0x8c
  
  /* 18. ConnectMonitorNorm */ //
  traps[CONNECT_MONITOR_NORM].trapId = CONNECT_MONITOR_NORM;
 8037aee:	f883 6091 	strb.w	r6, [r3, #145]	; 0x91
  traps[CONNECT_MONITOR_NORM].varbindId = 17;
  traps[CONNECT_MONITOR_NORM].trapEnable = true;
 8037af2:	f883 2093 	strb.w	r2, [r3, #147]	; 0x93
  traps[CONNECT_MONITOR_NORM].handle = GetConnectMonitorStr;//GetConnectMonitorStr; /* ConnectMonitor */
 8037af6:	f8c3 5094 	str.w	r5, [r3, #148]	; 0x94

  /* 19. BatteryConnectAlarm */ // +
  traps[BATTERY_CONNECT_ALARM].trapId = BATTERY_CONNECT_ALARM;
  traps[BATTERY_CONNECT_ALARM].varbindId = 15;
 8037afa:	f883 109a 	strb.w	r1, [r3, #154]	; 0x9a
  traps[BATTERY_CONNECT_ALARM].trapEnable = true;
 8037afe:	f883 209b 	strb.w	r2, [r3, #155]	; 0x9b
  traps[BATTERY_CONNECT_ALARM].handle = GetBatCapacityStr; /* LowBatAlarm */
 8037b02:	f8c3 009c 	str.w	r0, [r3, #156]	; 0x9c

  /* 20. BatteryConnectNorm */ // +
  traps[BATTERY_CONNECT_NORM].trapId = BATTERY_CONNECT_NORM;
 8037b06:	f883 40a1 	strb.w	r4, [r3, #161]	; 0xa1
  traps[BATTERY_CONNECT_NORM].varbindId = 15;
 8037b0a:	f883 10a2 	strb.w	r1, [r3, #162]	; 0xa2
  traps[BATTERY_CONNECT_NORM].trapEnable = true;
 8037b0e:	f883 20a3 	strb.w	r2, [r3, #163]	; 0xa3
  traps[BATTERY_CONNECT_NORM].handle = GetBatCapacityStr; /* LowBatNorm */
 8037b12:	f8c3 00a4 	str.w	r0, [r3, #164]	; 0xa4
 8037b16:	bd70      	pop	{r4, r5, r6, pc}
 8037b18:	2000faac 	.word	0x2000faac
 8037b1c:	08027fd5 	.word	0x08027fd5
 8037b20:	08027e85 	.word	0x08027e85
 8037b24:	08027ef9 	.word	0x08027ef9
 8037b28:	08027f1d 	.word	0x08027f1d
 8037b2c:	08027c55 	.word	0x08027c55
 8037b30:	08027b91 	.word	0x08027b91
 8037b34:	08027be9 	.word	0x08027be9
 8037b38:	08027c0d 	.word	0x08027c0d
 8037b3c:	08027ca5 	.word	0x08027ca5

08037b40 <SNMP_SendVarbindTrap>:
/**
  * @brief  Отправка трапа � переменной, зареги�трированного в базе.
  * @retval 
  */
bool SNMP_SendVarbindTrap(TRAP_t *trap)
{
 8037b40:	e92d 4ff0 	stmdb	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, lr}
  char msg[255];
  uint8_t len = 0;
 8037b44:	2500      	movs	r5, #0
/**
  * @brief  Отправка трапа � переменной, зареги�трированного в базе.
  * @retval 
  */
bool SNMP_SendVarbindTrap(TRAP_t *trap)
{
 8037b46:	f5ad 7d07 	sub.w	sp, sp, #540	; 0x21c
 8037b4a:	4681      	mov	r9, r0
  char msg[255];
  uint8_t len = 0;
  struct snmp_varbind *vb;
  struct snmp_obj_id trapObjId = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 2, 1}};
 8037b4c:	4629      	mov	r1, r5
 8037b4e:	2284      	movs	r2, #132	; 0x84
 8037b50:	a804      	add	r0, sp, #16
  * @retval 
  */
bool SNMP_SendVarbindTrap(TRAP_t *trap)
{
  char msg[255];
  uint8_t len = 0;
 8037b52:	f88d 500f 	strb.w	r5, [sp, #15]
  struct snmp_varbind *vb;
  struct snmp_obj_id trapObjId = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 2, 1}};
 8037b56:	f7ea f923 	bl	8021da0 <memset>
 8037b5a:	2202      	movs	r2, #2
 8037b5c:	2401      	movs	r4, #1
 8037b5e:	2603      	movs	r6, #3
 8037b60:	230b      	movs	r3, #11
 8037b62:	f04f 0804 	mov.w	r8, #4
 8037b66:	2706      	movs	r7, #6
 8037b68:	f24a 3b18 	movw	fp, #41752	; 0xa318
 8037b6c:	f240 3a8f 	movw	sl, #911	; 0x38f
 8037b70:	920e      	str	r2, [sp, #56]	; 0x38
  struct snmp_obj_id varObjId  = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 1, 1}};
 8037b72:	4629      	mov	r1, r5
 8037b74:	2284      	movs	r2, #132	; 0x84
 8037b76:	a825      	add	r0, sp, #148	; 0x94
bool SNMP_SendVarbindTrap(TRAP_t *trap)
{
  char msg[255];
  uint8_t len = 0;
  struct snmp_varbind *vb;
  struct snmp_obj_id trapObjId = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 2, 1}};
 8037b78:	f88d 3010 	strb.w	r3, [sp, #16]
 8037b7c:	9606      	str	r6, [sp, #24]
 8037b7e:	960d      	str	r6, [sp, #52]	; 0x34
  struct snmp_obj_id varObjId  = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 1, 1}};
 8037b80:	9301      	str	r3, [sp, #4]
bool SNMP_SendVarbindTrap(TRAP_t *trap)
{
  char msg[255];
  uint8_t len = 0;
  struct snmp_varbind *vb;
  struct snmp_obj_id trapObjId = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 2, 1}};
 8037b82:	9405      	str	r4, [sp, #20]
 8037b84:	9707      	str	r7, [sp, #28]
 8037b86:	9408      	str	r4, [sp, #32]
 8037b88:	f8cd 8024 	str.w	r8, [sp, #36]	; 0x24
 8037b8c:	940a      	str	r4, [sp, #40]	; 0x28
 8037b8e:	f8cd b02c 	str.w	fp, [sp, #44]	; 0x2c
 8037b92:	f8cd a030 	str.w	sl, [sp, #48]	; 0x30
  struct snmp_obj_id varObjId  = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 1, 1}};
 8037b96:	f7ea f903 	bl	8021da0 <memset>
 8037b9a:	9b01      	ldr	r3, [sp, #4]
 8037b9c:	9627      	str	r6, [sp, #156]	; 0x9c
 8037b9e:	f88d 3094 	strb.w	r3, [sp, #148]	; 0x94
  
  trapObjId.id[trapObjId.len - 1] = trap->trapId;
 8037ba2:	f899 3001 	ldrb.w	r3, [r9, #1]
{
  char msg[255];
  uint8_t len = 0;
  struct snmp_varbind *vb;
  struct snmp_obj_id trapObjId = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 2, 1}};
  struct snmp_obj_id varObjId  = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 1, 1}};
 8037ba6:	962e      	str	r6, [sp, #184]	; 0xb8
  
  trapObjId.id[trapObjId.len - 1] = trap->trapId;
 8037ba8:	930f      	str	r3, [sp, #60]	; 0x3c
  varObjId.id[varObjId.len - 1] = trap->varbindId;
 8037baa:	f899 3002 	ldrb.w	r3, [r9, #2]
{
  char msg[255];
  uint8_t len = 0;
  struct snmp_varbind *vb;
  struct snmp_obj_id trapObjId = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 2, 1}};
  struct snmp_obj_id varObjId  = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 1, 1}};
 8037bae:	9426      	str	r4, [sp, #152]	; 0x98
  
  trapObjId.id[trapObjId.len - 1] = trap->trapId;
  varObjId.id[varObjId.len - 1] = trap->varbindId;
 8037bb0:	9330      	str	r3, [sp, #192]	; 0xc0
    
  trap->handle(msg, &len);
 8037bb2:	a846      	add	r0, sp, #280	; 0x118
 8037bb4:	f8d9 3004 	ldr.w	r3, [r9, #4]
{
  char msg[255];
  uint8_t len = 0;
  struct snmp_varbind *vb;
  struct snmp_obj_id trapObjId = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 2, 1}};
  struct snmp_obj_id varObjId  = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 1, 1}};
 8037bb8:	9728      	str	r7, [sp, #160]	; 0xa0
  
  trapObjId.id[trapObjId.len - 1] = trap->trapId;
  varObjId.id[varObjId.len - 1] = trap->varbindId;
    
  trap->handle(msg, &len);
 8037bba:	f10d 010f 	add.w	r1, sp, #15
{
  char msg[255];
  uint8_t len = 0;
  struct snmp_varbind *vb;
  struct snmp_obj_id trapObjId = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 2, 1}};
  struct snmp_obj_id varObjId  = {11, {1, 3, 6, 1, 4, 1, 41752, 911, 3, 1, 1}};
 8037bbe:	9429      	str	r4, [sp, #164]	; 0xa4
 8037bc0:	f8cd 80a8 	str.w	r8, [sp, #168]	; 0xa8
 8037bc4:	942b      	str	r4, [sp, #172]	; 0xac
 8037bc6:	f8cd b0b0 	str.w	fp, [sp, #176]	; 0xb0
 8037bca:	f8cd a0b4 	str.w	sl, [sp, #180]	; 0xb4
 8037bce:	942f      	str	r4, [sp, #188]	; 0xbc
  
  trapObjId.id[trapObjId.len - 1] = trap->trapId;
  varObjId.id[varObjId.len - 1] = trap->varbindId;
    
  trap->handle(msg, &len);
 8037bd0:	4798      	blx	r3
  vb = snmp_varbind_alloc(&varObjId, SNMP_ASN1_OC_STR, len);
 8037bd2:	a825      	add	r0, sp, #148	; 0x94
 8037bd4:	4641      	mov	r1, r8
 8037bd6:	f89d 200f 	ldrb.w	r2, [sp, #15]
 8037bda:	f7fc fff9 	bl	8034bd0 <snmp_varbind_alloc>
    
  if(vb != NULL ) {
 8037bde:	4606      	mov	r6, r0
 8037be0:	b198      	cbz	r0, 8037c0a <SNMP_SendVarbindTrap+0xca>
        memcpy(vb->value, msg, len);
 8037be2:	f89d 200f 	ldrb.w	r2, [sp, #15]
 8037be6:	6940      	ldr	r0, [r0, #20]
 8037be8:	a946      	add	r1, sp, #280	; 0x118
 8037bea:	f7ea f81f 	bl	8021c2c <memcpy>
  
	snmp_varbind_tail_add(&trap_msg.outvb, vb);
 8037bee:	4809      	ldr	r0, [pc, #36]	; (8037c14 <SNMP_SendVarbindTrap+0xd4>)
 8037bf0:	4631      	mov	r1, r6
 8037bf2:	f7fd f899 	bl	8034d28 <snmp_varbind_tail_add>
			
        snmp_send_trap(SNMP_GENTRAP_ENTERPRISESPC, &trapObjId, 0);
 8037bf6:	a904      	add	r1, sp, #16
 8037bf8:	462a      	mov	r2, r5
 8037bfa:	4638      	mov	r0, r7
 8037bfc:	f7fe fa02 	bl	8036004 <snmp_send_trap>
	  
        snmp_varbind_list_free(&trap_msg.outvb);
 8037c00:	4804      	ldr	r0, [pc, #16]	; (8037c14 <SNMP_SendVarbindTrap+0xd4>)
 8037c02:	f7fd f838 	bl	8034c76 <snmp_varbind_list_free>
  
        return true;
 8037c06:	4620      	mov	r0, r4
 8037c08:	e7ff      	b.n	8037c0a <SNMP_SendVarbindTrap+0xca>
  }
  else {
        return false;
  }
}  
 8037c0a:	f50d 7d07 	add.w	sp, sp, #540	; 0x21c
 8037c0e:	e8bd 8ff0 	ldmia.w	sp!, {r4, r5, r6, r7, r8, r9, sl, fp, pc}
 8037c12:	bf00      	nop
 8037c14:	2000f834 	.word	0x2000f834

08037c18 <ETH_BSP_Config>:
  * @brief  ETH_BSP_Config
  * @param  None
  * @retval None
  */
void ETH_BSP_Config(void)
{
 8037c18:	b570      	push	{r4, r5, r6, lr}
{
  volatile uint32_t i;
  GPIO_InitTypeDef GPIO_InitStructure;
  
  /* Enable GPIOs clocks */
  RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA | RCC_AHB1Periph_GPIOB
 8037c1a:	2007      	movs	r0, #7
  * @brief  ETH_BSP_Config
  * @param  None
  * @retval None
  */
void ETH_BSP_Config(void)
{
 8037c1c:	b0b4      	sub	sp, #208	; 0xd0
{
  volatile uint32_t i;
  GPIO_InitTypeDef GPIO_InitStructure;
  
  /* Enable GPIOs clocks */
  RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOA | RCC_AHB1Periph_GPIOB
 8037c1e:	2101      	movs	r1, #1
 8037c20:	f7ed fee4 	bl	80259ec <RCC_AHB1PeriphClockCmd>
	                       | RCC_AHB1Periph_GPIOC, ENABLE);

  /* Enable SYSCFG clock */
  RCC_APB2PeriphClockCmd(RCC_APB2Periph_SYSCFG, ENABLE);  
 8037c24:	2101      	movs	r1, #1
 8037c26:	f44f 4080 	mov.w	r0, #16384	; 0x4000
 8037c2a:	f7ed ff03 	bl	8025a34 <RCC_APB2PeriphClockCmd>
  
  /* MII/RMII Media interface selection --------------------------------------*/
  SYSCFG_ETH_MediaInterfaceConfig(SYSCFG_ETH_MediaInterface_RMII);
 8037c2e:	2001      	movs	r0, #1
 8037c30:	f7ee f8f4 	bl	8025e1c <SYSCFG_ETH_MediaInterfaceConfig>
        ETH_RST_PIN     -------> PE2  - замена на PE13
  
   */

  /* Configure PA1,PA2 and PA7 */
  GPIO_InitStructure.GPIO_Pin   = GPIO_Pin_1 | GPIO_Pin_2 | GPIO_Pin_7;
 8037c34:	2386      	movs	r3, #134	; 0x86
  GPIO_InitStructure.GPIO_Speed = GPIO_Speed_100MHz;
  GPIO_InitStructure.GPIO_Mode  = GPIO_Mode_AF;
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
 8037c36:	2400      	movs	r4, #0
   */

  /* Configure PA1,PA2 and PA7 */
  GPIO_InitStructure.GPIO_Pin   = GPIO_Pin_1 | GPIO_Pin_2 | GPIO_Pin_7;
  GPIO_InitStructure.GPIO_Speed = GPIO_Speed_100MHz;
  GPIO_InitStructure.GPIO_Mode  = GPIO_Mode_AF;
 8037c38:	2502      	movs	r5, #2
        ETH_RST_PIN     -------> PE2  - замена на PE13
  
   */

  /* Configure PA1,PA2 and PA7 */
  GPIO_InitStructure.GPIO_Pin   = GPIO_Pin_1 | GPIO_Pin_2 | GPIO_Pin_7;
 8037c3a:	9303      	str	r3, [sp, #12]
  GPIO_InitStructure.GPIO_Speed = GPIO_Speed_100MHz;
  GPIO_InitStructure.GPIO_Mode  = GPIO_Mode_AF;
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
  GPIO_InitStructure.GPIO_PuPd  = GPIO_PuPd_NOPULL ;
  GPIO_Init(GPIOA, &GPIO_InitStructure);
 8037c3c:	4864      	ldr	r0, [pc, #400]	; (8037dd0 <ETH_BSP_Config+0x1b8>)
   */

  /* Configure PA1,PA2 and PA7 */
  GPIO_InitStructure.GPIO_Pin   = GPIO_Pin_1 | GPIO_Pin_2 | GPIO_Pin_7;
  GPIO_InitStructure.GPIO_Speed = GPIO_Speed_100MHz;
  GPIO_InitStructure.GPIO_Mode  = GPIO_Mode_AF;
 8037c3e:	f88d 5010 	strb.w	r5, [sp, #16]
  
   */

  /* Configure PA1,PA2 and PA7 */
  GPIO_InitStructure.GPIO_Pin   = GPIO_Pin_1 | GPIO_Pin_2 | GPIO_Pin_7;
  GPIO_InitStructure.GPIO_Speed = GPIO_Speed_100MHz;
 8037c42:	2303      	movs	r3, #3
  GPIO_InitStructure.GPIO_Mode  = GPIO_Mode_AF;
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
  GPIO_InitStructure.GPIO_PuPd  = GPIO_PuPd_NOPULL ;
  GPIO_Init(GPIOA, &GPIO_InitStructure);
 8037c44:	a903      	add	r1, sp, #12
  
   */

  /* Configure PA1,PA2 and PA7 */
  GPIO_InitStructure.GPIO_Pin   = GPIO_Pin_1 | GPIO_Pin_2 | GPIO_Pin_7;
  GPIO_InitStructure.GPIO_Speed = GPIO_Speed_100MHz;
 8037c46:	f88d 3011 	strb.w	r3, [sp, #17]
  GPIO_InitStructure.GPIO_Mode  = GPIO_Mode_AF;
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
 8037c4a:	f88d 4012 	strb.w	r4, [sp, #18]
  GPIO_InitStructure.GPIO_PuPd  = GPIO_PuPd_NOPULL ;
 8037c4e:	f88d 4013 	strb.w	r4, [sp, #19]
  GPIO_Init(GPIOA, &GPIO_InitStructure);
 8037c52:	f7ed fdeb 	bl	802582c <GPIO_Init>
  GPIO_PinAFConfig(GPIOA, GPIO_PinSource1, GPIO_AF_ETH);
 8037c56:	2101      	movs	r1, #1
 8037c58:	220b      	movs	r2, #11
 8037c5a:	485d      	ldr	r0, [pc, #372]	; (8037dd0 <ETH_BSP_Config+0x1b8>)
 8037c5c:	f7ed fe2f 	bl	80258be <GPIO_PinAFConfig>
  GPIO_PinAFConfig(GPIOA, GPIO_PinSource2, GPIO_AF_ETH);
 8037c60:	220b      	movs	r2, #11
 8037c62:	485b      	ldr	r0, [pc, #364]	; (8037dd0 <ETH_BSP_Config+0x1b8>)
 8037c64:	4629      	mov	r1, r5
 8037c66:	f7ed fe2a 	bl	80258be <GPIO_PinAFConfig>
  GPIO_PinAFConfig(GPIOA, GPIO_PinSource7, GPIO_AF_ETH);
 8037c6a:	220b      	movs	r2, #11
 8037c6c:	2107      	movs	r1, #7
 8037c6e:	4858      	ldr	r0, [pc, #352]	; (8037dd0 <ETH_BSP_Config+0x1b8>)
 8037c70:	f7ed fe25 	bl	80258be <GPIO_PinAFConfig>

  /* Configure PB10,PB11,PB12 and PB13 */
  GPIO_InitStructure.GPIO_Pin = /* GPIO_Pin_10 | */ GPIO_Pin_11 | GPIO_Pin_12 | GPIO_Pin_13;
 8037c74:	f44f 5360 	mov.w	r3, #14336	; 0x3800
  GPIO_Init(GPIOB, &GPIO_InitStructure);
 8037c78:	4856      	ldr	r0, [pc, #344]	; (8037dd4 <ETH_BSP_Config+0x1bc>)
  GPIO_PinAFConfig(GPIOA, GPIO_PinSource1, GPIO_AF_ETH);
  GPIO_PinAFConfig(GPIOA, GPIO_PinSource2, GPIO_AF_ETH);
  GPIO_PinAFConfig(GPIOA, GPIO_PinSource7, GPIO_AF_ETH);

  /* Configure PB10,PB11,PB12 and PB13 */
  GPIO_InitStructure.GPIO_Pin = /* GPIO_Pin_10 | */ GPIO_Pin_11 | GPIO_Pin_12 | GPIO_Pin_13;
 8037c7a:	9303      	str	r3, [sp, #12]
  GPIO_Init(GPIOB, &GPIO_InitStructure);
 8037c7c:	a903      	add	r1, sp, #12
 8037c7e:	f7ed fdd5 	bl	802582c <GPIO_Init>
  //GPIO_PinAFConfig(GPIOB, GPIO_PinSource10, GPIO_AF_ETH);	
  GPIO_PinAFConfig(GPIOB, GPIO_PinSource11, GPIO_AF_ETH);
 8037c82:	210b      	movs	r1, #11
 8037c84:	460a      	mov	r2, r1
 8037c86:	4853      	ldr	r0, [pc, #332]	; (8037dd4 <ETH_BSP_Config+0x1bc>)
 8037c88:	f7ed fe19 	bl	80258be <GPIO_PinAFConfig>
  GPIO_PinAFConfig(GPIOB, GPIO_PinSource12, GPIO_AF_ETH);
 8037c8c:	210c      	movs	r1, #12
 8037c8e:	220b      	movs	r2, #11
 8037c90:	4850      	ldr	r0, [pc, #320]	; (8037dd4 <ETH_BSP_Config+0x1bc>)
 8037c92:	f7ed fe14 	bl	80258be <GPIO_PinAFConfig>
  GPIO_PinAFConfig(GPIOB, GPIO_PinSource13, GPIO_AF_ETH);
 8037c96:	220b      	movs	r2, #11
 8037c98:	210d      	movs	r1, #13
 8037c9a:	484e      	ldr	r0, [pc, #312]	; (8037dd4 <ETH_BSP_Config+0x1bc>)
 8037c9c:	f7ed fe0f 	bl	80258be <GPIO_PinAFConfig>

  /* Configure PC1, PC4 and PC5 */
  GPIO_InitStructure.GPIO_Pin = GPIO_Pin_1 | GPIO_Pin_4 | GPIO_Pin_5;
 8037ca0:	2332      	movs	r3, #50	; 0x32
  GPIO_Init(GPIOC, &GPIO_InitStructure);
 8037ca2:	484d      	ldr	r0, [pc, #308]	; (8037dd8 <ETH_BSP_Config+0x1c0>)
  GPIO_PinAFConfig(GPIOB, GPIO_PinSource11, GPIO_AF_ETH);
  GPIO_PinAFConfig(GPIOB, GPIO_PinSource12, GPIO_AF_ETH);
  GPIO_PinAFConfig(GPIOB, GPIO_PinSource13, GPIO_AF_ETH);

  /* Configure PC1, PC4 and PC5 */
  GPIO_InitStructure.GPIO_Pin = GPIO_Pin_1 | GPIO_Pin_4 | GPIO_Pin_5;
 8037ca4:	9303      	str	r3, [sp, #12]
  GPIO_Init(GPIOC, &GPIO_InitStructure);
 8037ca6:	a903      	add	r1, sp, #12
 8037ca8:	f7ed fdc0 	bl	802582c <GPIO_Init>
  GPIO_PinAFConfig(GPIOC, GPIO_PinSource1, GPIO_AF_ETH);
 8037cac:	484a      	ldr	r0, [pc, #296]	; (8037dd8 <ETH_BSP_Config+0x1c0>)
 8037cae:	2101      	movs	r1, #1
 8037cb0:	220b      	movs	r2, #11
 8037cb2:	f7ed fe04 	bl	80258be <GPIO_PinAFConfig>
  GPIO_PinAFConfig(GPIOC, GPIO_PinSource4, GPIO_AF_ETH);
 8037cb6:	4848      	ldr	r0, [pc, #288]	; (8037dd8 <ETH_BSP_Config+0x1c0>)
 8037cb8:	2104      	movs	r1, #4
 8037cba:	220b      	movs	r2, #11
 8037cbc:	f7ed fdff 	bl	80258be <GPIO_PinAFConfig>
  GPIO_PinAFConfig(GPIOC, GPIO_PinSource5, GPIO_AF_ETH);
 8037cc0:	220b      	movs	r2, #11
 8037cc2:	4845      	ldr	r0, [pc, #276]	; (8037dd8 <ETH_BSP_Config+0x1c0>)
 8037cc4:	2105      	movs	r1, #5
 8037cc6:	f7ed fdfa 	bl	80258be <GPIO_PinAFConfig>

  /* Configure the PHY RST  pin */
  GPIO_InitStructure.GPIO_Pin = GPIO_Pin_13;
 8037cca:	f44f 5600 	mov.w	r6, #8192	; 0x2000
  GPIO_InitStructure.GPIO_Mode = GPIO_Mode_OUT;
 8037cce:	2301      	movs	r3, #1
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
  GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP;
  GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
  GPIO_Init(GPIOE, &GPIO_InitStructure);
 8037cd0:	4842      	ldr	r0, [pc, #264]	; (8037ddc <ETH_BSP_Config+0x1c4>)
  GPIO_PinAFConfig(GPIOC, GPIO_PinSource4, GPIO_AF_ETH);
  GPIO_PinAFConfig(GPIOC, GPIO_PinSource5, GPIO_AF_ETH);

  /* Configure the PHY RST  pin */
  GPIO_InitStructure.GPIO_Pin = GPIO_Pin_13;
  GPIO_InitStructure.GPIO_Mode = GPIO_Mode_OUT;
 8037cd2:	f88d 3010 	strb.w	r3, [sp, #16]
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
  GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP;
  GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
  GPIO_Init(GPIOE, &GPIO_InitStructure);
 8037cd6:	a903      	add	r1, sp, #12

  /* Configure the PHY RST  pin */
  GPIO_InitStructure.GPIO_Pin = GPIO_Pin_13;
  GPIO_InitStructure.GPIO_Mode = GPIO_Mode_OUT;
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
  GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP;
 8037cd8:	f88d 3013 	strb.w	r3, [sp, #19]
  GPIO_PinAFConfig(GPIOC, GPIO_PinSource1, GPIO_AF_ETH);
  GPIO_PinAFConfig(GPIOC, GPIO_PinSource4, GPIO_AF_ETH);
  GPIO_PinAFConfig(GPIOC, GPIO_PinSource5, GPIO_AF_ETH);

  /* Configure the PHY RST  pin */
  GPIO_InitStructure.GPIO_Pin = GPIO_Pin_13;
 8037cdc:	9603      	str	r6, [sp, #12]
  GPIO_InitStructure.GPIO_Mode = GPIO_Mode_OUT;
  GPIO_InitStructure.GPIO_OType = GPIO_OType_PP;
 8037cde:	f88d 4012 	strb.w	r4, [sp, #18]
  GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP;
  GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
 8037ce2:	f88d 5011 	strb.w	r5, [sp, #17]
  GPIO_Init(GPIOE, &GPIO_InitStructure);
 8037ce6:	f7ed fda1 	bl	802582c <GPIO_Init>

  GPIO_ResetBits(GPIOE, GPIO_Pin_13);	
 8037cea:	483c      	ldr	r0, [pc, #240]	; (8037ddc <ETH_BSP_Config+0x1c4>)
 8037cec:	4631      	mov	r1, r6
 8037cee:	f7ed fde4 	bl	80258ba <GPIO_ResetBits>
  for (i = 0; i < 20000; i++);
 8037cf2:	9401      	str	r4, [sp, #4]
 8037cf4:	f644 631f 	movw	r3, #19999	; 0x4e1f
 8037cf8:	e002      	b.n	8037d00 <ETH_BSP_Config+0xe8>
 8037cfa:	9a01      	ldr	r2, [sp, #4]
 8037cfc:	3201      	adds	r2, #1
 8037cfe:	9201      	str	r2, [sp, #4]
 8037d00:	9a01      	ldr	r2, [sp, #4]
 8037d02:	429a      	cmp	r2, r3
 8037d04:	d9f9      	bls.n	8037cfa <ETH_BSP_Config+0xe2>
  GPIO_SetBits(GPIOE, GPIO_Pin_13);
 8037d06:	4835      	ldr	r0, [pc, #212]	; (8037ddc <ETH_BSP_Config+0x1c4>)
 8037d08:	f44f 5100 	mov.w	r1, #8192	; 0x2000
 8037d0c:	f7ed fdd3 	bl	80258b6 <GPIO_SetBits>
  for (i = 0; i < 20000; i++);
 8037d10:	2300      	movs	r3, #0
 8037d12:	9301      	str	r3, [sp, #4]
 8037d14:	f644 631f 	movw	r3, #19999	; 0x4e1f
 8037d18:	e002      	b.n	8037d20 <ETH_BSP_Config+0x108>
 8037d1a:	9a01      	ldr	r2, [sp, #4]
 8037d1c:	3201      	adds	r2, #1
 8037d1e:	9201      	str	r2, [sp, #4]
 8037d20:	9a01      	ldr	r2, [sp, #4]
 8037d22:	429a      	cmp	r2, r3
 8037d24:	d9f9      	bls.n	8037d1a <ETH_BSP_Config+0x102>
static void ETH_MACDMA_Config(void)
{
  ETH_InitTypeDef ETH_InitStructure;

  /* Enable ETHERNET clock  */
  RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_ETH_MAC | RCC_AHB1Periph_ETH_MAC_Tx |
 8037d26:	f04f 6060 	mov.w	r0, #234881024	; 0xe000000
 8037d2a:	2101      	movs	r1, #1
 8037d2c:	f7ed fe5e 	bl	80259ec <RCC_AHB1PeriphClockCmd>
                         RCC_AHB1Periph_ETH_MAC_Rx, ENABLE);                                             

  /* Reset ETHERNET on AHB Bus */
  ETH_DeInit();
 8037d30:	f000 f868 	bl	8037e04 <ETH_DeInit>

  /* Software reset */
  ETH_SoftwareReset();
 8037d34:	f000 f9fe 	bl	8038134 <ETH_SoftwareReset>

  /* Wait for software reset */
  while (ETH_GetSoftwareResetStatus() == SET);
 8037d38:	f000 fa04 	bl	8038144 <ETH_GetSoftwareResetStatus>
 8037d3c:	2801      	cmp	r0, #1
 8037d3e:	d0fb      	beq.n	8037d38 <ETH_BSP_Config+0x120>

  /* ETHERNET Configuration --------------------------------------------------*/
  /* Call ETH_StructInit if you don't like to configure all ETH_InitStructure parameter */
  ETH_StructInit(&ETH_InitStructure);
 8037d40:	a805      	add	r0, sp, #20
 8037d42:	f000 f86c 	bl	8037e1e <ETH_StructInit>
  //ETH_InitStructure.ETH_AutoNegotiation = ETH_AutoNegotiation_Disable; 
  //  ETH_InitStructure.ETH_Speed = ETH_Speed_10M;
  //  ETH_InitStructure.ETH_Mode = ETH_Mode_FullDuplex;   

  ETH_InitStructure.ETH_LoopbackMode = ETH_LoopbackMode_Disable;
  ETH_InitStructure.ETH_RetryTransmission = ETH_RetryTransmission_Disable;
 8037d46:	f44f 7300 	mov.w	r3, #512	; 0x200
 8037d4a:	930f      	str	r3, [sp, #60]	; 0x3c
  
  /* When we use the Checksum offload feature, we need to enable the Store and Forward mode: 
  the store and forward guarantee that a whole frame is stored in the FIFO, so the MAC can insert/verify the checksum, 
  if the checksum is OK the DMA can handle the frame otherwise the frame is dropped */
  ETH_InitStructure.ETH_DropTCPIPChecksumErrorFrame = ETH_DropTCPIPChecksumErrorFrame_Enable; 
  ETH_InitStructure.ETH_ReceiveStoreForward = ETH_ReceiveStoreForward_Enable;         
 8037d4c:	f04f 7300 	mov.w	r3, #33554432	; 0x2000000
 8037d50:	9326      	str	r3, [sp, #152]	; 0x98
  ETH_InitStructure.ETH_TransmitStoreForward = ETH_TransmitStoreForward_Enable;     
 
  ETH_InitStructure.ETH_ForwardErrorFrames = ETH_ForwardErrorFrames_Disable;       
  ETH_InitStructure.ETH_ForwardUndersizedGoodFrames = ETH_ForwardUndersizedGoodFrames_Disable;   
  ETH_InitStructure.ETH_SecondFrameOperate = ETH_SecondFrameOperate_Enable;
  ETH_InitStructure.ETH_AddressAlignedBeats = ETH_AddressAlignedBeats_Enable;      
 8037d52:	932e      	str	r3, [sp, #184]	; 0xb8
  ETH_InitStructure.ETH_FixedBurst = ETH_FixedBurst_Enable;                
 8037d54:	f44f 3380 	mov.w	r3, #65536	; 0x10000
 8037d58:	932f      	str	r3, [sp, #188]	; 0xbc
  ETH_InitStructure.ETH_RxDMABurstLength = ETH_RxDMABurstLength_32Beat;          
 8037d5a:	f44f 0380 	mov.w	r3, #4194304	; 0x400000
  /* Call ETH_StructInit if you don't like to configure all ETH_InitStructure parameter */
  ETH_StructInit(&ETH_InitStructure);

  /* Fill ETH_InitStructure parametrs */
  /*------------------------   MAC   -----------------------------------*/
  ETH_InitStructure.ETH_AutoNegotiation = ETH_AutoNegotiation_Enable;
 8037d5e:	2501      	movs	r5, #1
  /* When we use the Checksum offload feature, we need to enable the Store and Forward mode: 
  the store and forward guarantee that a whole frame is stored in the FIFO, so the MAC can insert/verify the checksum, 
  if the checksum is OK the DMA can handle the frame otherwise the frame is dropped */
  ETH_InitStructure.ETH_DropTCPIPChecksumErrorFrame = ETH_DropTCPIPChecksumErrorFrame_Enable; 
  ETH_InitStructure.ETH_ReceiveStoreForward = ETH_ReceiveStoreForward_Enable;         
  ETH_InitStructure.ETH_TransmitStoreForward = ETH_TransmitStoreForward_Enable;     
 8037d60:	f44f 1200 	mov.w	r2, #2097152	; 0x200000
  ETH_InitStructure.ETH_ForwardErrorFrames = ETH_ForwardErrorFrames_Disable;       
  ETH_InitStructure.ETH_ForwardUndersizedGoodFrames = ETH_ForwardUndersizedGoodFrames_Disable;   
  ETH_InitStructure.ETH_SecondFrameOperate = ETH_SecondFrameOperate_Enable;
  ETH_InitStructure.ETH_AddressAlignedBeats = ETH_AddressAlignedBeats_Enable;      
  ETH_InitStructure.ETH_FixedBurst = ETH_FixedBurst_Enable;                
  ETH_InitStructure.ETH_RxDMABurstLength = ETH_RxDMABurstLength_32Beat;          
 8037d64:	9330      	str	r3, [sp, #192]	; 0xc0
  ETH_InitStructure.ETH_TxDMABurstLength = ETH_TxDMABurstLength_32Beat;
 8037d66:	f44f 5300 	mov.w	r3, #8192	; 0x2000
  ETH_InitStructure.ETH_AutoNegotiation = ETH_AutoNegotiation_Enable;
  //ETH_InitStructure.ETH_AutoNegotiation = ETH_AutoNegotiation_Disable; 
  //  ETH_InitStructure.ETH_Speed = ETH_Speed_10M;
  //  ETH_InitStructure.ETH_Mode = ETH_Mode_FullDuplex;   

  ETH_InitStructure.ETH_LoopbackMode = ETH_LoopbackMode_Disable;
 8037d6a:	2400      	movs	r4, #0
  /* When we use the Checksum offload feature, we need to enable the Store and Forward mode: 
  the store and forward guarantee that a whole frame is stored in the FIFO, so the MAC can insert/verify the checksum, 
  if the checksum is OK the DMA can handle the frame otherwise the frame is dropped */
  ETH_InitStructure.ETH_DropTCPIPChecksumErrorFrame = ETH_DropTCPIPChecksumErrorFrame_Enable; 
  ETH_InitStructure.ETH_ReceiveStoreForward = ETH_ReceiveStoreForward_Enable;         
  ETH_InitStructure.ETH_TransmitStoreForward = ETH_TransmitStoreForward_Enable;     
 8037d6c:	9228      	str	r2, [sp, #160]	; 0xa0
  ETH_InitStructure.ETH_ForwardUndersizedGoodFrames = ETH_ForwardUndersizedGoodFrames_Disable;   
  ETH_InitStructure.ETH_SecondFrameOperate = ETH_SecondFrameOperate_Enable;
  ETH_InitStructure.ETH_AddressAlignedBeats = ETH_AddressAlignedBeats_Enable;      
  ETH_InitStructure.ETH_FixedBurst = ETH_FixedBurst_Enable;                
  ETH_InitStructure.ETH_RxDMABurstLength = ETH_RxDMABurstLength_32Beat;          
  ETH_InitStructure.ETH_TxDMABurstLength = ETH_TxDMABurstLength_32Beat;
 8037d6e:	9331      	str	r3, [sp, #196]	; 0xc4
  ETH_InitStructure.ETH_ReceiveStoreForward = ETH_ReceiveStoreForward_Enable;         
  ETH_InitStructure.ETH_TransmitStoreForward = ETH_TransmitStoreForward_Enable;     
 
  ETH_InitStructure.ETH_ForwardErrorFrames = ETH_ForwardErrorFrames_Disable;       
  ETH_InitStructure.ETH_ForwardUndersizedGoodFrames = ETH_ForwardUndersizedGoodFrames_Disable;   
  ETH_InitStructure.ETH_SecondFrameOperate = ETH_SecondFrameOperate_Enable;
 8037d70:	2204      	movs	r2, #4
  ETH_InitStructure.ETH_AddressAlignedBeats = ETH_AddressAlignedBeats_Enable;      
  ETH_InitStructure.ETH_FixedBurst = ETH_FixedBurst_Enable;                
  ETH_InitStructure.ETH_RxDMABurstLength = ETH_RxDMABurstLength_32Beat;          
  ETH_InitStructure.ETH_TxDMABurstLength = ETH_TxDMABurstLength_32Beat;
  ETH_InitStructure.ETH_DMAArbitration = ETH_DMAArbitration_RoundRobin_RxTx_2_1;
 8037d72:	f44f 4380 	mov.w	r3, #16384	; 0x4000

  /* Configure Ethernet */
  EthInitStatus = ETH_Init(&ETH_InitStructure, LAN8720_PHY_ADDRESS);
 8037d76:	4629      	mov	r1, r5
 8037d78:	a805      	add	r0, sp, #20
  ETH_InitStructure.ETH_ReceiveStoreForward = ETH_ReceiveStoreForward_Enable;         
  ETH_InitStructure.ETH_TransmitStoreForward = ETH_TransmitStoreForward_Enable;     
 
  ETH_InitStructure.ETH_ForwardErrorFrames = ETH_ForwardErrorFrames_Disable;       
  ETH_InitStructure.ETH_ForwardUndersizedGoodFrames = ETH_ForwardUndersizedGoodFrames_Disable;   
  ETH_InitStructure.ETH_SecondFrameOperate = ETH_SecondFrameOperate_Enable;
 8037d7a:	922d      	str	r2, [sp, #180]	; 0xb4
  ETH_InitStructure.ETH_AddressAlignedBeats = ETH_AddressAlignedBeats_Enable;      
  ETH_InitStructure.ETH_FixedBurst = ETH_FixedBurst_Enable;                
  ETH_InitStructure.ETH_RxDMABurstLength = ETH_RxDMABurstLength_32Beat;          
  ETH_InitStructure.ETH_TxDMABurstLength = ETH_TxDMABurstLength_32Beat;
  ETH_InitStructure.ETH_DMAArbitration = ETH_DMAArbitration_RoundRobin_RxTx_2_1;
 8037d7c:	9333      	str	r3, [sp, #204]	; 0xcc
  /* Call ETH_StructInit if you don't like to configure all ETH_InitStructure parameter */
  ETH_StructInit(&ETH_InitStructure);

  /* Fill ETH_InitStructure parametrs */
  /*------------------------   MAC   -----------------------------------*/
  ETH_InitStructure.ETH_AutoNegotiation = ETH_AutoNegotiation_Enable;
 8037d7e:	9505      	str	r5, [sp, #20]
  //ETH_InitStructure.ETH_AutoNegotiation = ETH_AutoNegotiation_Disable; 
  //  ETH_InitStructure.ETH_Speed = ETH_Speed_10M;
  //  ETH_InitStructure.ETH_Mode = ETH_Mode_FullDuplex;   

  ETH_InitStructure.ETH_LoopbackMode = ETH_LoopbackMode_Disable;
 8037d80:	940c      	str	r4, [sp, #48]	; 0x30
  ETH_InitStructure.ETH_RetryTransmission = ETH_RetryTransmission_Disable;
  ETH_InitStructure.ETH_AutomaticPadCRCStrip = ETH_AutomaticPadCRCStrip_Disable;
 8037d82:	9410      	str	r4, [sp, #64]	; 0x40
  ETH_InitStructure.ETH_ReceiveAll = ETH_ReceiveAll_Disable;
 8037d84:	9413      	str	r4, [sp, #76]	; 0x4c
  ETH_InitStructure.ETH_BroadcastFramesReception = ETH_BroadcastFramesReception_Enable;
 8037d86:	9416      	str	r4, [sp, #88]	; 0x58
  ETH_InitStructure.ETH_PromiscuousMode = ETH_PromiscuousMode_Disable;
 8037d88:	9418      	str	r4, [sp, #96]	; 0x60
  ETH_InitStructure.ETH_MulticastFramesFilter = ETH_MulticastFramesFilter_Perfect;
 8037d8a:	9419      	str	r4, [sp, #100]	; 0x64
  ETH_InitStructure.ETH_UnicastFramesFilter = ETH_UnicastFramesFilter_Perfect;
 8037d8c:	941a      	str	r4, [sp, #104]	; 0x68
  /*------------------------   DMA   -----------------------------------*/  
  
  /* When we use the Checksum offload feature, we need to enable the Store and Forward mode: 
  the store and forward guarantee that a whole frame is stored in the FIFO, so the MAC can insert/verify the checksum, 
  if the checksum is OK the DMA can handle the frame otherwise the frame is dropped */
  ETH_InitStructure.ETH_DropTCPIPChecksumErrorFrame = ETH_DropTCPIPChecksumErrorFrame_Enable; 
 8037d8e:	9425      	str	r4, [sp, #148]	; 0x94
  ETH_InitStructure.ETH_ReceiveStoreForward = ETH_ReceiveStoreForward_Enable;         
  ETH_InitStructure.ETH_TransmitStoreForward = ETH_TransmitStoreForward_Enable;     
 
  ETH_InitStructure.ETH_ForwardErrorFrames = ETH_ForwardErrorFrames_Disable;       
 8037d90:	942a      	str	r4, [sp, #168]	; 0xa8
  ETH_InitStructure.ETH_ForwardUndersizedGoodFrames = ETH_ForwardUndersizedGoodFrames_Disable;   
 8037d92:	942b      	str	r4, [sp, #172]	; 0xac
  ETH_InitStructure.ETH_RxDMABurstLength = ETH_RxDMABurstLength_32Beat;          
  ETH_InitStructure.ETH_TxDMABurstLength = ETH_TxDMABurstLength_32Beat;
  ETH_InitStructure.ETH_DMAArbitration = ETH_DMAArbitration_RoundRobin_RxTx_2_1;

  /* Configure Ethernet */
  EthInitStatus = ETH_Init(&ETH_InitStructure, LAN8720_PHY_ADDRESS);
 8037d94:	f000 fa80 	bl	8038298 <ETH_Init>
 8037d98:	4e11      	ldr	r6, [pc, #68]	; (8037de0 <ETH_BSP_Config+0x1c8>)

  /* Enable the Ethernet Rx Interrupt */
  ETH_DMAITConfig(ETH_DMA_IT_NIS | ETH_DMA_IT_R, ENABLE);
 8037d9a:	4629      	mov	r1, r5
  ETH_InitStructure.ETH_RxDMABurstLength = ETH_RxDMABurstLength_32Beat;          
  ETH_InitStructure.ETH_TxDMABurstLength = ETH_TxDMABurstLength_32Beat;
  ETH_InitStructure.ETH_DMAArbitration = ETH_DMAArbitration_RoundRobin_RxTx_2_1;

  /* Configure Ethernet */
  EthInitStatus = ETH_Init(&ETH_InitStructure, LAN8720_PHY_ADDRESS);
 8037d9c:	6030      	str	r0, [r6, #0]

  /* Enable the Ethernet Rx Interrupt */
  ETH_DMAITConfig(ETH_DMA_IT_NIS | ETH_DMA_IT_R, ENABLE);
 8037d9e:	4811      	ldr	r0, [pc, #68]	; (8037de4 <ETH_BSP_Config+0x1cc>)
 8037da0:	f000 f9e2 	bl	8038168 <ETH_DMAITConfig>
void ETH_NVIC_Config(void)
{
  NVIC_InitTypeDef   NVIC_InitStructure;

  /* 2 bit for pre-emption priority, 2 bits for subpriority */
  NVIC_PriorityGroupConfig(NVIC_PriorityGroup_4); 
 8037da4:	f44f 7040 	mov.w	r0, #768	; 0x300
 8037da8:	f7ed fbc0 	bl	802552c <NVIC_PriorityGroupConfig>
  
  /* Enable the Ethernet global Interrupt */
  NVIC_InitStructure.NVIC_IRQChannel = ETH_IRQn;
 8037dac:	233d      	movs	r3, #61	; 0x3d
 8037dae:	f88d 3008 	strb.w	r3, [sp, #8]
  NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 5;
  NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0;
  NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
  NVIC_Init(&NVIC_InitStructure);    
 8037db2:	a802      	add	r0, sp, #8
  /* 2 bit for pre-emption priority, 2 bits for subpriority */
  NVIC_PriorityGroupConfig(NVIC_PriorityGroup_4); 
  
  /* Enable the Ethernet global Interrupt */
  NVIC_InitStructure.NVIC_IRQChannel = ETH_IRQn;
  NVIC_InitStructure.NVIC_IRQChannelPreemptionPriority = 5;
 8037db4:	2305      	movs	r3, #5
 8037db6:	f88d 3009 	strb.w	r3, [sp, #9]
  NVIC_InitStructure.NVIC_IRQChannelSubPriority = 0;
 8037dba:	f88d 400a 	strb.w	r4, [sp, #10]
  NVIC_InitStructure.NVIC_IRQChannelCmd = ENABLE;
 8037dbe:	f88d 500b 	strb.w	r5, [sp, #11]
  NVIC_Init(&NVIC_InitStructure);    
 8037dc2:	f7ed fbbd 	bl	8025540 <NVIC_Init>
  /* Configure the Ethernet MAC/DMA */
  ETH_MACDMA_Config();

  ETH_NVIC_Config();

  if (EthInitStatus == 0) {
 8037dc6:	6833      	ldr	r3, [r6, #0]
 8037dc8:	b903      	cbnz	r3, 8037dcc <ETH_BSP_Config+0x1b4>
 8037dca:	e7fe      	b.n	8037dca <ETH_BSP_Config+0x1b2>
    // LCD_DisplayStringLine(Line5, (uint8_t*)"   Ethernet Init   ");
    // LCD_DisplayStringLine(Line6, (uint8_t*)"      failed      ");
    // STM_EVAL_LEDOn(LED5);
    while(1);
  }
}
 8037dcc:	b034      	add	sp, #208	; 0xd0
 8037dce:	bd70      	pop	{r4, r5, r6, pc}
 8037dd0:	40020000 	.word	0x40020000
 8037dd4:	40020400 	.word	0x40020400
 8037dd8:	40020800 	.word	0x40020800
 8037ddc:	40021000 	.word	0x40021000
 8037de0:	2000c804 	.word	0x2000c804
 8037de4:	00010040 	.word	0x00010040

08037de8 <ETH_Delay>:
  * @brief  Inserts a delay time.
  * @param  nCount: specifies the delay time length.
  * @retval None
  */
static void ETH_Delay(__IO uint32_t nCount)
{
 8037de8:	b084      	sub	sp, #16
  __IO uint32_t index = 0; 
 8037dea:	2300      	movs	r3, #0
  * @brief  Inserts a delay time.
  * @param  nCount: specifies the delay time length.
  * @retval None
  */
static void ETH_Delay(__IO uint32_t nCount)
{
 8037dec:	9001      	str	r0, [sp, #4]
  __IO uint32_t index = 0; 
 8037dee:	9303      	str	r3, [sp, #12]
  for(index = nCount; index != 0; index--)
 8037df0:	9b01      	ldr	r3, [sp, #4]
 8037df2:	e001      	b.n	8037df8 <ETH_Delay+0x10>
 8037df4:	9b03      	ldr	r3, [sp, #12]
 8037df6:	3b01      	subs	r3, #1
 8037df8:	9303      	str	r3, [sp, #12]
 8037dfa:	9b03      	ldr	r3, [sp, #12]
 8037dfc:	2b00      	cmp	r3, #0
 8037dfe:	d1f9      	bne.n	8037df4 <ETH_Delay+0xc>
  {
  }
}
 8037e00:	b004      	add	sp, #16
 8037e02:	4770      	bx	lr

08037e04 <ETH_DeInit>:
  * @brief  Deinitializes the ETHERNET peripheral registers to their default reset values.
  * @param  None 
  * @retval None
  */
void ETH_DeInit(void)
{
 8037e04:	b508      	push	{r3, lr}
  RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_ETH_MAC, ENABLE);
 8037e06:	2101      	movs	r1, #1
 8037e08:	f04f 7000 	mov.w	r0, #33554432	; 0x2000000
 8037e0c:	f7ed fe1e 	bl	8025a4c <RCC_AHB1PeriphResetCmd>
  RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_ETH_MAC, DISABLE);
 8037e10:	f04f 7000 	mov.w	r0, #33554432	; 0x2000000
 8037e14:	2100      	movs	r1, #0
}
 8037e16:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  * @retval None
  */
void ETH_DeInit(void)
{
  RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_ETH_MAC, ENABLE);
  RCC_AHB1PeriphResetCmd(RCC_AHB1Periph_ETH_MAC, DISABLE);
 8037e1a:	f7ed be17 	b.w	8025a4c <RCC_AHB1PeriphResetCmd>

08037e1e <ETH_StructInit>:
  /* Ethernet interframe gap set to 96 bits */
  ETH_InitStruct->ETH_InterFrameGap = ETH_InterFrameGap_96Bit;                                                                                                                             
  /* Carrier Sense Enabled in Half-Duplex mode */ 
  ETH_InitStruct->ETH_CarrierSense = ETH_CarrierSense_Enable;                                
  /* PHY speed configured to 100Mbit/s */
  ETH_InitStruct->ETH_Speed = ETH_Speed_100M; 
 8037e1e:	f44f 4280 	mov.w	r2, #16384	; 0x4000
 8037e22:	6142      	str	r2, [r0, #20]
  /* Receive own Frames in Half-Duplex mode enabled */
  ETH_InitStruct->ETH_ReceiveOwn = ETH_ReceiveOwn_Enable;                
  /* MAC MII loopback disabled */ 
  ETH_InitStruct->ETH_LoopbackMode = ETH_LoopbackMode_Disable;              
  /* Full-Duplex mode selected */
  ETH_InitStruct->ETH_Mode = ETH_Mode_FullDuplex;                      
 8037e24:	f44f 6200 	mov.w	r2, #2048	; 0x800
 8037e28:	6202      	str	r2, [r0, #32]
  /* Receive all frames disabled */ 
  ETH_InitStruct->ETH_ReceiveAll = ETH_ReceiveAll_Disable;
  /* Source address filtering (on the optional MAC addresses) disabled */
  ETH_InitStruct->ETH_SourceAddrFilter = ETH_SourceAddrFilter_Disable;   
  /* Do not forward control frames that do not pass the address filtering */
  ETH_InitStruct->ETH_PassControlFrames = ETH_PassControlFrames_BlockAll;   
 8037e2a:	2240      	movs	r2, #64	; 0x40
 8037e2c:	6402      	str	r2, [r0, #64]	; 0x40
  /* Disable reception of Broadcast frames */
  ETH_InitStruct->ETH_BroadcastFramesReception = ETH_BroadcastFramesReception_Disable;
 8037e2e:	2220      	movs	r2, #32
 8037e30:	6442      	str	r2, [r0, #68]	; 0x44
  /* Initialize hash table high and low regs */
  ETH_InitStruct->ETH_HashTableHigh = 0x0;                
  ETH_InitStruct->ETH_HashTableLow = 0x0;                     
  /* Flow control config (flow control disabled)*/
  ETH_InitStruct->ETH_PauseTime = 0x0;                 
  ETH_InitStruct->ETH_ZeroQuantaPause = ETH_ZeroQuantaPause_Disable;            
 8037e32:	2280      	movs	r2, #128	; 0x80
{
  /* ETH_InitStruct members default value */
  /*------------------------   MAC Configuration   ---------------------------*/
  
  /* PHY Auto-negotiation enabled */
  ETH_InitStruct->ETH_AutoNegotiation = ETH_AutoNegotiation_Enable;           
 8037e34:	2301      	movs	r3, #1
  /* Initialize hash table high and low regs */
  ETH_InitStruct->ETH_HashTableHigh = 0x0;                
  ETH_InitStruct->ETH_HashTableLow = 0x0;                     
  /* Flow control config (flow control disabled)*/
  ETH_InitStruct->ETH_PauseTime = 0x0;                 
  ETH_InitStruct->ETH_ZeroQuantaPause = ETH_ZeroQuantaPause_Disable;            
 8037e36:	6642      	str	r2, [r0, #100]	; 0x64
  ETH_InitStruct->ETH_VLANTagIdentifier = 0x0;          
  
  /*---------------------- DMA Configuration   -------------------------------*/

  /* Drops frames with with TCP/IP checksum errors */
  ETH_InitStruct->ETH_DropTCPIPChecksumErrorFrame = ETH_DropTCPIPChecksumErrorFrame_Disable; 
 8037e38:	f04f 6280 	mov.w	r2, #67108864	; 0x4000000
{
  /* ETH_InitStruct members default value */
  /*------------------------   MAC Configuration   ---------------------------*/
  
  /* PHY Auto-negotiation enabled */
  ETH_InitStruct->ETH_AutoNegotiation = ETH_AutoNegotiation_Enable;           
 8037e3c:	6003      	str	r3, [r0, #0]
  ETH_InitStruct->ETH_VLANTagIdentifier = 0x0;          
  
  /*---------------------- DMA Configuration   -------------------------------*/

  /* Drops frames with with TCP/IP checksum errors */
  ETH_InitStruct->ETH_DropTCPIPChecksumErrorFrame = ETH_DropTCPIPChecksumErrorFrame_Disable; 
 8037e3e:	f8c0 2080 	str.w	r2, [r0, #128]	; 0x80
  /*------------------------   MAC Configuration   ---------------------------*/
  
  /* PHY Auto-negotiation enabled */
  ETH_InitStruct->ETH_AutoNegotiation = ETH_AutoNegotiation_Enable;           
  /* MAC watchdog enabled: cuts-off long frame */
  ETH_InitStruct->ETH_Watchdog = ETH_Watchdog_Enable;
 8037e42:	2300      	movs	r3, #0
  /*---------------------- DMA Configuration   -------------------------------*/

  /* Drops frames with with TCP/IP checksum errors */
  ETH_InitStruct->ETH_DropTCPIPChecksumErrorFrame = ETH_DropTCPIPChecksumErrorFrame_Disable; 
  /* Store and forward mode enabled for receive */
  ETH_InitStruct->ETH_ReceiveStoreForward = ETH_ReceiveStoreForward_Enable;       
 8037e44:	f04f 7200 	mov.w	r2, #33554432	; 0x2000000
  /*------------------------   MAC Configuration   ---------------------------*/
  
  /* PHY Auto-negotiation enabled */
  ETH_InitStruct->ETH_AutoNegotiation = ETH_AutoNegotiation_Enable;           
  /* MAC watchdog enabled: cuts-off long frame */
  ETH_InitStruct->ETH_Watchdog = ETH_Watchdog_Enable;
 8037e48:	6043      	str	r3, [r0, #4]
  /* MAC Jabber enabled in Half-duplex mode */
  ETH_InitStruct->ETH_Jabber = ETH_Jabber_Enable;                                                       
 8037e4a:	6083      	str	r3, [r0, #8]
  /* Ethernet interframe gap set to 96 bits */
  ETH_InitStruct->ETH_InterFrameGap = ETH_InterFrameGap_96Bit;                                                                                                                             
 8037e4c:	60c3      	str	r3, [r0, #12]
  /* Carrier Sense Enabled in Half-Duplex mode */ 
  ETH_InitStruct->ETH_CarrierSense = ETH_CarrierSense_Enable;                                
 8037e4e:	6103      	str	r3, [r0, #16]
  /* PHY speed configured to 100Mbit/s */
  ETH_InitStruct->ETH_Speed = ETH_Speed_100M; 
  /* Receive own Frames in Half-Duplex mode enabled */
  ETH_InitStruct->ETH_ReceiveOwn = ETH_ReceiveOwn_Enable;                
 8037e50:	6183      	str	r3, [r0, #24]
  /* MAC MII loopback disabled */ 
  ETH_InitStruct->ETH_LoopbackMode = ETH_LoopbackMode_Disable;              
 8037e52:	61c3      	str	r3, [r0, #28]
  /* Full-Duplex mode selected */
  ETH_InitStruct->ETH_Mode = ETH_Mode_FullDuplex;                      
  /* IPv4 and TCP/UDP/ICMP frame Checksum Offload disabled */
  ETH_InitStruct->ETH_ChecksumOffload = ETH_ChecksumOffload_Disable;                                                             
 8037e54:	6243      	str	r3, [r0, #36]	; 0x24
  /* Retry Transmission enabled for half-duplex mode */ 
  ETH_InitStruct->ETH_RetryTransmission = ETH_RetryTransmission_Enable;                                                                                   
 8037e56:	6283      	str	r3, [r0, #40]	; 0x28
  /* Automatic PAD/CRC strip disabled*/
  ETH_InitStruct->ETH_AutomaticPadCRCStrip = ETH_AutomaticPadCRCStrip_Disable;                                                          
 8037e58:	62c3      	str	r3, [r0, #44]	; 0x2c
  /* half-duplex mode retransmission Backoff time_limit = 10 slot times*/ 
  ETH_InitStruct->ETH_BackOffLimit = ETH_BackOffLimit_10;     
 8037e5a:	6303      	str	r3, [r0, #48]	; 0x30
  /* half-duplex mode Deferral check disabled */
  ETH_InitStruct->ETH_DeferralCheck = ETH_DeferralCheck_Disable;                                                                                                                  
 8037e5c:	6343      	str	r3, [r0, #52]	; 0x34
  /* Receive all frames disabled */ 
  ETH_InitStruct->ETH_ReceiveAll = ETH_ReceiveAll_Disable;
 8037e5e:	6383      	str	r3, [r0, #56]	; 0x38
  /* Source address filtering (on the optional MAC addresses) disabled */
  ETH_InitStruct->ETH_SourceAddrFilter = ETH_SourceAddrFilter_Disable;   
 8037e60:	63c3      	str	r3, [r0, #60]	; 0x3c
  /* Do not forward control frames that do not pass the address filtering */
  ETH_InitStruct->ETH_PassControlFrames = ETH_PassControlFrames_BlockAll;   
  /* Disable reception of Broadcast frames */
  ETH_InitStruct->ETH_BroadcastFramesReception = ETH_BroadcastFramesReception_Disable;
  /* Normal Destination address filtering (not reverse addressing) */
  ETH_InitStruct->ETH_DestinationAddrFilter = ETH_DestinationAddrFilter_Normal;
 8037e62:	6483      	str	r3, [r0, #72]	; 0x48
  /* Promiscuous address filtering mode disabled */
  ETH_InitStruct->ETH_PromiscuousMode = ETH_PromiscuousMode_Disable;                                                             
 8037e64:	64c3      	str	r3, [r0, #76]	; 0x4c
  /* Perfect address filtering for multicast addresses */
  ETH_InitStruct->ETH_MulticastFramesFilter = ETH_MulticastFramesFilter_Perfect;       
 8037e66:	6503      	str	r3, [r0, #80]	; 0x50
  /* Perfect address filtering for unicast addresses */
  ETH_InitStruct->ETH_UnicastFramesFilter = ETH_UnicastFramesFilter_Perfect;      
 8037e68:	6543      	str	r3, [r0, #84]	; 0x54
  /* Initialize hash table high and low regs */
  ETH_InitStruct->ETH_HashTableHigh = 0x0;                
 8037e6a:	6583      	str	r3, [r0, #88]	; 0x58
  ETH_InitStruct->ETH_HashTableLow = 0x0;                     
 8037e6c:	65c3      	str	r3, [r0, #92]	; 0x5c
  /* Flow control config (flow control disabled)*/
  ETH_InitStruct->ETH_PauseTime = 0x0;                 
 8037e6e:	6603      	str	r3, [r0, #96]	; 0x60
  ETH_InitStruct->ETH_ZeroQuantaPause = ETH_ZeroQuantaPause_Disable;            
  ETH_InitStruct->ETH_PauseLowThreshold = ETH_PauseLowThreshold_Minus4;         
 8037e70:	6683      	str	r3, [r0, #104]	; 0x68
  ETH_InitStruct->ETH_UnicastPauseFrameDetect = ETH_UnicastPauseFrameDetect_Disable;   
 8037e72:	66c3      	str	r3, [r0, #108]	; 0x6c
  ETH_InitStruct->ETH_ReceiveFlowControl = ETH_ReceiveFlowControl_Disable;        
 8037e74:	6703      	str	r3, [r0, #112]	; 0x70
  ETH_InitStruct->ETH_TransmitFlowControl = ETH_TransmitFlowControl_Disable;
 8037e76:	6743      	str	r3, [r0, #116]	; 0x74
  /* VLANtag config (VLAN field not checked) */
  ETH_InitStruct->ETH_VLANTagComparison = ETH_VLANTagComparison_16Bit;          
 8037e78:	6783      	str	r3, [r0, #120]	; 0x78
  ETH_InitStruct->ETH_VLANTagIdentifier = 0x0;          
 8037e7a:	67c3      	str	r3, [r0, #124]	; 0x7c
  /*---------------------- DMA Configuration   -------------------------------*/

  /* Drops frames with with TCP/IP checksum errors */
  ETH_InitStruct->ETH_DropTCPIPChecksumErrorFrame = ETH_DropTCPIPChecksumErrorFrame_Disable; 
  /* Store and forward mode enabled for receive */
  ETH_InitStruct->ETH_ReceiveStoreForward = ETH_ReceiveStoreForward_Enable;       
 8037e7c:	f8c0 2084 	str.w	r2, [r0, #132]	; 0x84
  ETH_InitStruct->ETH_ReceiveThresholdControl = ETH_ReceiveThresholdControl_64Bytes;                             
  /* Disable Operate on second frame (transmit a second frame to FIFO without 
  waiting status of previous frame*/                           
  ETH_InitStruct->ETH_SecondFrameOperate = ETH_SecondFrameOperate_Disable;
  /* DMA works on 32-bit aligned start source and destinations addresses */
  ETH_InitStruct->ETH_AddressAlignedBeats = ETH_AddressAlignedBeats_Enable;
 8037e80:	f8c0 20a4 	str.w	r2, [r0, #164]	; 0xa4
  /* Enabled Fixed Burst Mode (mix of INC4, INC8, INC16 and SINGLE DMA transactions */
  ETH_InitStruct->ETH_FixedBurst = ETH_FixedBurst_Enable;
 8037e84:	f44f 3280 	mov.w	r2, #65536	; 0x10000
 8037e88:	f8c0 20a8 	str.w	r2, [r0, #168]	; 0xa8
  /* DMA transfer max burst length = 32 beats = 32 x 32bits */
  ETH_InitStruct->ETH_RxDMABurstLength = ETH_RxDMABurstLength_32Beat;
 8037e8c:	f44f 0280 	mov.w	r2, #4194304	; 0x400000
  /* Store and forward mode enabled for receive */
  ETH_InitStruct->ETH_ReceiveStoreForward = ETH_ReceiveStoreForward_Enable;       
  /* Flush received frame that created FIFO overflow */
  ETH_InitStruct->ETH_FlushReceivedFrame = ETH_FlushReceivedFrame_Enable; 
  /* Store and forward mode enabled for transmit */
  ETH_InitStruct->ETH_TransmitStoreForward = ETH_TransmitStoreForward_Enable;  
 8037e90:	f44f 1100 	mov.w	r1, #2097152	; 0x200000
  /* DMA works on 32-bit aligned start source and destinations addresses */
  ETH_InitStruct->ETH_AddressAlignedBeats = ETH_AddressAlignedBeats_Enable;
  /* Enabled Fixed Burst Mode (mix of INC4, INC8, INC16 and SINGLE DMA transactions */
  ETH_InitStruct->ETH_FixedBurst = ETH_FixedBurst_Enable;
  /* DMA transfer max burst length = 32 beats = 32 x 32bits */
  ETH_InitStruct->ETH_RxDMABurstLength = ETH_RxDMABurstLength_32Beat;
 8037e94:	f8c0 20ac 	str.w	r2, [r0, #172]	; 0xac
  ETH_InitStruct->ETH_TxDMABurstLength = ETH_TxDMABurstLength_32Beat;
 8037e98:	f44f 5200 	mov.w	r2, #8192	; 0x2000
  /* Drops frames with with TCP/IP checksum errors */
  ETH_InitStruct->ETH_DropTCPIPChecksumErrorFrame = ETH_DropTCPIPChecksumErrorFrame_Disable; 
  /* Store and forward mode enabled for receive */
  ETH_InitStruct->ETH_ReceiveStoreForward = ETH_ReceiveStoreForward_Enable;       
  /* Flush received frame that created FIFO overflow */
  ETH_InitStruct->ETH_FlushReceivedFrame = ETH_FlushReceivedFrame_Enable; 
 8037e9c:	f8c0 3088 	str.w	r3, [r0, #136]	; 0x88
  /* Store and forward mode enabled for transmit */
  ETH_InitStruct->ETH_TransmitStoreForward = ETH_TransmitStoreForward_Enable;  
 8037ea0:	f8c0 108c 	str.w	r1, [r0, #140]	; 0x8c
  /* Threshold TXFIFO level set to 64 bytes (used when threshold mode is enabled) */
  ETH_InitStruct->ETH_TransmitThresholdControl = ETH_TransmitThresholdControl_64Bytes;  
 8037ea4:	f8c0 3090 	str.w	r3, [r0, #144]	; 0x90
  /* Disable forwarding frames with errors (short frames, CRC,...)*/
  ETH_InitStruct->ETH_ForwardErrorFrames = ETH_ForwardErrorFrames_Disable; 
 8037ea8:	f8c0 3094 	str.w	r3, [r0, #148]	; 0x94
  /* Disable undersized good frames */
  ETH_InitStruct->ETH_ForwardUndersizedGoodFrames = ETH_ForwardUndersizedGoodFrames_Disable; 
 8037eac:	f8c0 3098 	str.w	r3, [r0, #152]	; 0x98
  /* Threshold RXFIFO level set to 64 bytes (used when Cut-through mode is enabled) */
  ETH_InitStruct->ETH_ReceiveThresholdControl = ETH_ReceiveThresholdControl_64Bytes;                             
 8037eb0:	f8c0 309c 	str.w	r3, [r0, #156]	; 0x9c
  /* Disable Operate on second frame (transmit a second frame to FIFO without 
  waiting status of previous frame*/                           
  ETH_InitStruct->ETH_SecondFrameOperate = ETH_SecondFrameOperate_Disable;
 8037eb4:	f8c0 30a0 	str.w	r3, [r0, #160]	; 0xa0
  ETH_InitStruct->ETH_AddressAlignedBeats = ETH_AddressAlignedBeats_Enable;
  /* Enabled Fixed Burst Mode (mix of INC4, INC8, INC16 and SINGLE DMA transactions */
  ETH_InitStruct->ETH_FixedBurst = ETH_FixedBurst_Enable;
  /* DMA transfer max burst length = 32 beats = 32 x 32bits */
  ETH_InitStruct->ETH_RxDMABurstLength = ETH_RxDMABurstLength_32Beat;
  ETH_InitStruct->ETH_TxDMABurstLength = ETH_TxDMABurstLength_32Beat;
 8037eb8:	f8c0 20b0 	str.w	r2, [r0, #176]	; 0xb0
  /* DMA Ring mode skip length = 0 */
  ETH_InitStruct->ETH_DescriptorSkipLength = 0x0; 
 8037ebc:	f8c0 30b4 	str.w	r3, [r0, #180]	; 0xb4
  /* Equal priority (round-robin) between transmit and receive DMA engines */
  ETH_InitStruct->ETH_DMAArbitration = ETH_DMAArbitration_RoundRobin_RxTx_1_1;
 8037ec0:	f8c0 30b8 	str.w	r3, [r0, #184]	; 0xb8
 8037ec4:	4770      	bx	lr
 8037ec6:	0000      	movs	r0, r0

08037ec8 <ETH_MACTransmissionCmd>:
  * @param  NewState: new state of the MAC transmission.
  *   This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void ETH_MACTransmissionCmd(FunctionalState NewState)
{ 
 8037ec8:	4b04      	ldr	r3, [pc, #16]	; (8037edc <ETH_MACTransmissionCmd+0x14>)
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
  {
    /* Enable the MAC transmission */
    ETH->MACCR |= ETH_MACCR_TE;  
 8037eca:	681a      	ldr	r2, [r3, #0]
void ETH_MACTransmissionCmd(FunctionalState NewState)
{ 
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
 8037ecc:	b110      	cbz	r0, 8037ed4 <ETH_MACTransmissionCmd+0xc>
  {
    /* Enable the MAC transmission */
    ETH->MACCR |= ETH_MACCR_TE;  
 8037ece:	f042 0208 	orr.w	r2, r2, #8
 8037ed2:	e001      	b.n	8037ed8 <ETH_MACTransmissionCmd+0x10>
  }
  else
  {
    /* Disable the MAC transmission */
    ETH->MACCR &= ~ETH_MACCR_TE;
 8037ed4:	f022 0208 	bic.w	r2, r2, #8
 8037ed8:	601a      	str	r2, [r3, #0]
 8037eda:	4770      	bx	lr
 8037edc:	40028000 	.word	0x40028000

08037ee0 <ETH_MACReceptionCmd>:
  * @param  NewState: new state of the MAC reception.
  *   This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void ETH_MACReceptionCmd(FunctionalState NewState)
{ 
 8037ee0:	4b04      	ldr	r3, [pc, #16]	; (8037ef4 <ETH_MACReceptionCmd+0x14>)
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
  {
    /* Enable the MAC reception */
    ETH->MACCR |= ETH_MACCR_RE;  
 8037ee2:	681a      	ldr	r2, [r3, #0]
void ETH_MACReceptionCmd(FunctionalState NewState)
{ 
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
 8037ee4:	b110      	cbz	r0, 8037eec <ETH_MACReceptionCmd+0xc>
  {
    /* Enable the MAC reception */
    ETH->MACCR |= ETH_MACCR_RE;  
 8037ee6:	f042 0204 	orr.w	r2, r2, #4
 8037eea:	e001      	b.n	8037ef0 <ETH_MACReceptionCmd+0x10>
  }
  else
  {
    /* Disable the MAC reception */
    ETH->MACCR &= ~ETH_MACCR_RE;
 8037eec:	f022 0204 	bic.w	r2, r2, #4
 8037ef0:	601a      	str	r2, [r3, #0]
 8037ef2:	4770      	bx	lr
 8037ef4:	40028000 	.word	0x40028000

08037ef8 <ETH_MACAddressConfig>:
  uint32_t tmpreg;
  /* Check the parameters */
  assert_param(IS_ETH_MAC_ADDRESS0123(MacAddr));
  
  /* Calculate the selected MAC address high register */
  tmpreg = ((uint32_t)Addr[5] << 8) | (uint32_t)Addr[4];
 8037ef8:	790b      	ldrb	r3, [r1, #4]
 8037efa:	794a      	ldrb	r2, [r1, #5]
 8037efc:	ea43 2202 	orr.w	r2, r3, r2, lsl #8
  /* Load the selected MAC address high register */
  (*(__IO uint32_t *) (ETH_MAC_ADDR_HBASE + MacAddr)) = tmpreg;
 8037f00:	4b07      	ldr	r3, [pc, #28]	; (8037f20 <ETH_MACAddressConfig+0x28>)
 8037f02:	50c2      	str	r2, [r0, r3]
  /* Calculate the selected MAC address low register */
  tmpreg = ((uint32_t)Addr[3] << 24) | ((uint32_t)Addr[2] << 16) | ((uint32_t)Addr[1] << 8) | Addr[0];
 8037f04:	788a      	ldrb	r2, [r1, #2]
 8037f06:	78cb      	ldrb	r3, [r1, #3]
 8037f08:	0412      	lsls	r2, r2, #16
 8037f0a:	ea42 6203 	orr.w	r2, r2, r3, lsl #24
 8037f0e:	780b      	ldrb	r3, [r1, #0]
 8037f10:	431a      	orrs	r2, r3
 8037f12:	784b      	ldrb	r3, [r1, #1]
 8037f14:	ea42 2203 	orr.w	r2, r2, r3, lsl #8
 
  /* Load the selected MAC address low register */
  (*(__IO uint32_t *) (ETH_MAC_ADDR_LBASE + MacAddr)) = tmpreg;
 8037f18:	4b02      	ldr	r3, [pc, #8]	; (8037f24 <ETH_MACAddressConfig+0x2c>)
 8037f1a:	50c2      	str	r2, [r0, r3]
 8037f1c:	4770      	bx	lr
 8037f1e:	bf00      	nop
 8037f20:	40028040 	.word	0x40028040
 8037f24:	40028044 	.word	0x40028044

08037f28 <ETH_Get_Received_Frame_interrupt>:
  *         the receive frame (should be used with interrupt mode only)
  * @param  None
  * @retval Structure of type FrameTypeDef
  */
FrameTypeDef ETH_Get_Received_Frame_interrupt(void)
{ 
 8037f28:	b537      	push	{r0, r1, r2, r4, r5, lr}
  FrameTypeDef frame={0,0,0};
  __IO uint32_t descriptor_scan_counter = 0; 
 8037f2a:	2300      	movs	r3, #0
 8037f2c:	9301      	str	r3, [sp, #4]
    
    /* check if first segment in frame */
    if(((DMARxDescToGet->Status & ETH_DMARxDesc_FS) != (uint32_t)RESET)&&
      ((DMARxDescToGet->Status & ETH_DMARxDesc_LS) == (uint32_t)RESET))
    {
      DMA_RX_FRAME_infos->FS_Rx_Desc = DMARxDescToGet;
 8037f2e:	4b24      	ldr	r3, [pc, #144]	; (8037fc0 <ETH_Get_Received_Frame_interrupt+0x98>)
 8037f30:	681a      	ldr	r2, [r3, #0]
 8037f32:	4b24      	ldr	r3, [pc, #144]	; (8037fc4 <ETH_Get_Received_Frame_interrupt+0x9c>)
      DMA_RX_FRAME_infos->Seg_Count = 1;   
 8037f34:	2401      	movs	r4, #1
 8037f36:	681b      	ldr	r3, [r3, #0]
{ 
  FrameTypeDef frame={0,0,0};
  __IO uint32_t descriptor_scan_counter = 0; 
  
  /* scan descriptors owned by CPU */
  while (((DMARxDescToGet->Status & ETH_DMARxDesc_OWN) == (uint32_t)RESET)&&
 8037f38:	e033      	b.n	8037fa2 <ETH_Get_Received_Frame_interrupt+0x7a>
        (descriptor_scan_counter<ETH_RXBUFNB))
  {
    
    /* Just by security */
    descriptor_scan_counter++;
 8037f3a:	9901      	ldr	r1, [sp, #4]
 8037f3c:	3101      	adds	r1, #1
 8037f3e:	9101      	str	r1, [sp, #4]
    
    /* check if first segment in frame */
    if(((DMARxDescToGet->Status & ETH_DMARxDesc_FS) != (uint32_t)RESET)&&
 8037f40:	6819      	ldr	r1, [r3, #0]
 8037f42:	0589      	lsls	r1, r1, #22
 8037f44:	d505      	bpl.n	8037f52 <ETH_Get_Received_Frame_interrupt+0x2a>
      ((DMARxDescToGet->Status & ETH_DMARxDesc_LS) == (uint32_t)RESET))
 8037f46:	6819      	ldr	r1, [r3, #0]
    
    /* Just by security */
    descriptor_scan_counter++;
    
    /* check if first segment in frame */
    if(((DMARxDescToGet->Status & ETH_DMARxDesc_FS) != (uint32_t)RESET)&&
 8037f48:	05c9      	lsls	r1, r1, #23
 8037f4a:	d402      	bmi.n	8037f52 <ETH_Get_Received_Frame_interrupt+0x2a>
      ((DMARxDescToGet->Status & ETH_DMARxDesc_LS) == (uint32_t)RESET))
    {
      DMA_RX_FRAME_infos->FS_Rx_Desc = DMARxDescToGet;
 8037f4c:	6013      	str	r3, [r2, #0]
      DMA_RX_FRAME_infos->Seg_Count = 1;   
 8037f4e:	6094      	str	r4, [r2, #8]
 8037f50:	e009      	b.n	8037f66 <ETH_Get_Received_Frame_interrupt+0x3e>
      DMARxDescToGet = (ETH_DMADESCTypeDef*) (DMARxDescToGet->Buffer2NextDescAddr);
    }
    
    /* check if intermediate segment */
    else if (((DMARxDescToGet->Status & ETH_DMARxDesc_LS) == (uint32_t)RESET)&&
 8037f52:	6819      	ldr	r1, [r3, #0]
 8037f54:	05c9      	lsls	r1, r1, #23
 8037f56:	d408      	bmi.n	8037f6a <ETH_Get_Received_Frame_interrupt+0x42>
            ((DMARxDescToGet->Status & ETH_DMARxDesc_FS) == (uint32_t)RESET))
 8037f58:	6819      	ldr	r1, [r3, #0]
      DMA_RX_FRAME_infos->Seg_Count = 1;   
      DMARxDescToGet = (ETH_DMADESCTypeDef*) (DMARxDescToGet->Buffer2NextDescAddr);
    }
    
    /* check if intermediate segment */
    else if (((DMARxDescToGet->Status & ETH_DMARxDesc_LS) == (uint32_t)RESET)&&
 8037f5a:	0589      	lsls	r1, r1, #22
 8037f5c:	d500      	bpl.n	8037f60 <ETH_Get_Received_Frame_interrupt+0x38>
 8037f5e:	e004      	b.n	8037f6a <ETH_Get_Received_Frame_interrupt+0x42>
            ((DMARxDescToGet->Status & ETH_DMARxDesc_FS) == (uint32_t)RESET))
    {
      (DMA_RX_FRAME_infos->Seg_Count) ++;
 8037f60:	6891      	ldr	r1, [r2, #8]
 8037f62:	3101      	adds	r1, #1
 8037f64:	6091      	str	r1, [r2, #8]
      DMARxDescToGet = (ETH_DMADESCTypeDef*) (DMARxDescToGet->Buffer2NextDescAddr);
 8037f66:	68db      	ldr	r3, [r3, #12]
 8037f68:	e01b      	b.n	8037fa2 <ETH_Get_Received_Frame_interrupt+0x7a>
 8037f6a:	4a16      	ldr	r2, [pc, #88]	; (8037fc4 <ETH_Get_Received_Frame_interrupt+0x9c>)
 8037f6c:	6013      	str	r3, [r2, #0]

    /* should be last segment */
    else
    { 
      /* last segment */
      DMA_RX_FRAME_infos->LS_Rx_Desc = DMARxDescToGet;
 8037f6e:	4a14      	ldr	r2, [pc, #80]	; (8037fc0 <ETH_Get_Received_Frame_interrupt+0x98>)
 8037f70:	6812      	ldr	r2, [r2, #0]
 8037f72:	6053      	str	r3, [r2, #4]
      
      (DMA_RX_FRAME_infos->Seg_Count)++;
 8037f74:	6891      	ldr	r1, [r2, #8]
 8037f76:	3101      	adds	r1, #1
 8037f78:	6091      	str	r1, [r2, #8]
        
      /* first segment is last segment */
      if ((DMA_RX_FRAME_infos->Seg_Count)==1)
 8037f7a:	6891      	ldr	r1, [r2, #8]
 8037f7c:	2901      	cmp	r1, #1
        DMA_RX_FRAME_infos->FS_Rx_Desc = DMARxDescToGet;
 8037f7e:	bf08      	it	eq
 8037f80:	6013      	streq	r3, [r2, #0]
      
      /* Get the Frame Length of the received packet: substruct 4 bytes of the CRC */
      frame.length = ((DMARxDescToGet->Status & ETH_DMARxDesc_FL) >> ETH_DMARxDesc_FrameLengthShift) - 4;
 8037f82:	6819      	ldr	r1, [r3, #0]

  
      /* Get the address of the buffer start address */ 
      /* Check if more than one segment in the frame */
      if (DMA_RX_FRAME_infos->Seg_Count >1)
 8037f84:	6894      	ldr	r4, [r2, #8]
      /* first segment is last segment */
      if ((DMA_RX_FRAME_infos->Seg_Count)==1)
        DMA_RX_FRAME_infos->FS_Rx_Desc = DMARxDescToGet;
      
      /* Get the Frame Length of the received packet: substruct 4 bytes of the CRC */
      frame.length = ((DMARxDescToGet->Status & ETH_DMARxDesc_FL) >> ETH_DMARxDesc_FrameLengthShift) - 4;
 8037f86:	f3c1 410d 	ubfx	r1, r1, #16, #14
 8037f8a:	3904      	subs	r1, #4

  
      /* Get the address of the buffer start address */ 
      /* Check if more than one segment in the frame */
      if (DMA_RX_FRAME_infos->Seg_Count >1)
 8037f8c:	2c01      	cmp	r4, #1
      {
        frame.buffer =(DMA_RX_FRAME_infos->FS_Rx_Desc)->Buffer1Addr;
 8037f8e:	bf8a      	itet	hi
 8037f90:	6812      	ldrhi	r2, [r2, #0]
      }
      else 
      {
        frame.buffer = DMARxDescToGet->Buffer1Addr;
 8037f92:	689a      	ldrls	r2, [r3, #8]
  
      /* Get the address of the buffer start address */ 
      /* Check if more than one segment in the frame */
      if (DMA_RX_FRAME_infos->Seg_Count >1)
      {
        frame.buffer =(DMA_RX_FRAME_infos->FS_Rx_Desc)->Buffer1Addr;
 8037f94:	6892      	ldrhi	r2, [r2, #8]
      }
      
      frame.descriptor = DMARxDescToGet;
  
      /* Update the ETHERNET DMA global Rx descriptor with next Rx descriptor */      
      DMARxDescToGet = (ETH_DMADESCTypeDef*) (DMARxDescToGet->Buffer2NextDescAddr);
 8037f96:	4c0b      	ldr	r4, [pc, #44]	; (8037fc4 <ETH_Get_Received_Frame_interrupt+0x9c>)
 8037f98:	68dd      	ldr	r5, [r3, #12]
     
      /* Return Frame */
      return (frame);  
 8037f9a:	e880 0006 	stmia.w	r0, {r1, r2}
      }
      
      frame.descriptor = DMARxDescToGet;
  
      /* Update the ETHERNET DMA global Rx descriptor with next Rx descriptor */      
      DMARxDescToGet = (ETH_DMADESCTypeDef*) (DMARxDescToGet->Buffer2NextDescAddr);
 8037f9e:	6025      	str	r5, [r4, #0]
 8037fa0:	e007      	b.n	8037fb2 <ETH_Get_Received_Frame_interrupt+0x8a>
{ 
  FrameTypeDef frame={0,0,0};
  __IO uint32_t descriptor_scan_counter = 0; 
  
  /* scan descriptors owned by CPU */
  while (((DMARxDescToGet->Status & ETH_DMARxDesc_OWN) == (uint32_t)RESET)&&
 8037fa2:	6819      	ldr	r1, [r3, #0]
 8037fa4:	2900      	cmp	r1, #0
 8037fa6:	da06      	bge.n	8037fb6 <ETH_Get_Received_Frame_interrupt+0x8e>
 8037fa8:	4a06      	ldr	r2, [pc, #24]	; (8037fc4 <ETH_Get_Received_Frame_interrupt+0x9c>)
 8037faa:	6013      	str	r3, [r2, #0]
     
      /* Return Frame */
      return (frame);  
    }
  }
  return (frame); 
 8037fac:	2300      	movs	r3, #0
 8037fae:	6003      	str	r3, [r0, #0]
 8037fb0:	6043      	str	r3, [r0, #4]
 8037fb2:	6083      	str	r3, [r0, #8]
 8037fb4:	e003      	b.n	8037fbe <ETH_Get_Received_Frame_interrupt+0x96>
  FrameTypeDef frame={0,0,0};
  __IO uint32_t descriptor_scan_counter = 0; 
  
  /* scan descriptors owned by CPU */
  while (((DMARxDescToGet->Status & ETH_DMARxDesc_OWN) == (uint32_t)RESET)&&
        (descriptor_scan_counter<ETH_RXBUFNB))
 8037fb6:	9901      	ldr	r1, [sp, #4]
{ 
  FrameTypeDef frame={0,0,0};
  __IO uint32_t descriptor_scan_counter = 0; 
  
  /* scan descriptors owned by CPU */
  while (((DMARxDescToGet->Status & ETH_DMARxDesc_OWN) == (uint32_t)RESET)&&
 8037fb8:	2904      	cmp	r1, #4
 8037fba:	d9be      	bls.n	8037f3a <ETH_Get_Received_Frame_interrupt+0x12>
 8037fbc:	e7f4      	b.n	8037fa8 <ETH_Get_Received_Frame_interrupt+0x80>
      /* Return Frame */
      return (frame);  
    }
  }
  return (frame); 
}
 8037fbe:	bd3e      	pop	{r1, r2, r3, r4, r5, pc}
 8037fc0:	200119d0 	.word	0x200119d0
 8037fc4:	2000fb60 	.word	0x2000fb60

08037fc8 <ETH_Prepare_Transmit_Descriptors>:
{   
  uint32_t buf_count =0, size=0,i=0;
  __IO ETH_DMADESCTypeDef *DMATxNextDesc;
  
  /* Check if the descriptor is owned by the ETHERNET DMA (when set) or CPU (when reset) */
  if((DMATxDescToSet->Status & ETH_DMATxDesc_OWN) != (u32)RESET)
 8037fc8:	4b29      	ldr	r3, [pc, #164]	; (8038070 <ETH_Prepare_Transmit_Descriptors+0xa8>)
 8037fca:	681b      	ldr	r3, [r3, #0]
 8037fcc:	681a      	ldr	r2, [r3, #0]
 8037fce:	2a00      	cmp	r2, #0
  * @brief  Prepares DMA Tx descriptors to transmit an ethernet frame
  * @param  FrameLength : length of the frame to send
  * @retval error status
  */
uint32_t ETH_Prepare_Transmit_Descriptors(u16 FrameLength)
{   
 8037fd0:	b5f0      	push	{r4, r5, r6, r7, lr}
  uint32_t buf_count =0, size=0,i=0;
  __IO ETH_DMADESCTypeDef *DMATxNextDesc;
  
  /* Check if the descriptor is owned by the ETHERNET DMA (when set) or CPU (when reset) */
  if((DMATxDescToSet->Status & ETH_DMATxDesc_OWN) != (u32)RESET)
 8037fd2:	db48      	blt.n	8038066 <ETH_Prepare_Transmit_Descriptors+0x9e>
    return ETH_ERROR;
  }
  
  DMATxNextDesc = DMATxDescToSet;
  
  if (FrameLength > ETH_TX_BUF_SIZE)
 8037fd4:	f240 52f4 	movw	r2, #1524	; 0x5f4
 8037fd8:	4290      	cmp	r0, r2
 8037fda:	d917      	bls.n	803800c <ETH_Prepare_Transmit_Descriptors+0x44>
  {
    buf_count = FrameLength/ETH_TX_BUF_SIZE;
 8037fdc:	fbb0 f4f2 	udiv	r4, r0, r2
    if (FrameLength%ETH_TX_BUF_SIZE) buf_count++;
 8037fe0:	fb02 0214 	mls	r2, r2, r4, r0
 8037fe4:	b292      	uxth	r2, r2
  
  DMATxNextDesc = DMATxDescToSet;
  
  if (FrameLength > ETH_TX_BUF_SIZE)
  {
    buf_count = FrameLength/ETH_TX_BUF_SIZE;
 8037fe6:	b2a1      	uxth	r1, r4
    if (FrameLength%ETH_TX_BUF_SIZE) buf_count++;
 8037fe8:	b10a      	cbz	r2, 8037fee <ETH_Prepare_Transmit_Descriptors+0x26>
 8037fea:	3101      	adds	r1, #1
 8037fec:	e001      	b.n	8037ff2 <ETH_Prepare_Transmit_Descriptors+0x2a>
  }
  else buf_count =1;
  
  if (buf_count ==1)
 8037fee:	2901      	cmp	r1, #1
 8037ff0:	d00c      	beq.n	803800c <ETH_Prepare_Transmit_Descriptors+0x44>
       
      if (i== (buf_count-1))
      {
        /* Setting the last segment bit */
        DMATxNextDesc->Status |= ETH_DMATxDesc_LS;
        size = FrameLength - (buf_count-1)*ETH_TX_BUF_SIZE;
 8037ff2:	4d20      	ldr	r5, [pc, #128]	; (8038074 <ETH_Prepare_Transmit_Descriptors+0xac>)
 8037ff4:	f200 50f4 	addw	r0, r0, #1524	; 0x5f4
 8037ff8:	fb05 0501 	mla	r5, r5, r1, r0
        DMATxNextDesc->ControlBufferSize = (size & ETH_DMATxDesc_TBS1);
 8037ffc:	04ed      	lsls	r5, r5, #19
 8037ffe:	0ced      	lsrs	r5, r5, #19
 8038000:	461a      	mov	r2, r3
 8038002:	2000      	movs	r0, #0
        /* Setting the first segment bit */
        DMATxDescToSet->Status |= ETH_DMATxDesc_FS;  
      }
      
      /* Program size */
      DMATxNextDesc->ControlBufferSize = (ETH_TX_BUF_SIZE & ETH_DMATxDesc_TBS1);
 8038004:	f240 56f4 	movw	r6, #1524	; 0x5f4
       
      if (i== (buf_count-1))
 8038008:	1e4f      	subs	r7, r1, #1
 803800a:	e00c      	b.n	8038026 <ETH_Prepare_Transmit_Descriptors+0x5e>
  else buf_count =1;
  
  if (buf_count ==1)
  {
    /*set LAST and FIRST segment */
    DMATxDescToSet->Status |=ETH_DMATxDesc_FS|ETH_DMATxDesc_LS;
 803800c:	681a      	ldr	r2, [r3, #0]
    /* Set frame size */
    DMATxDescToSet->ControlBufferSize = (FrameLength& ETH_DMATxDesc_TBS1);
 803800e:	04c0      	lsls	r0, r0, #19
  else buf_count =1;
  
  if (buf_count ==1)
  {
    /*set LAST and FIRST segment */
    DMATxDescToSet->Status |=ETH_DMATxDesc_FS|ETH_DMATxDesc_LS;
 8038010:	f042 5240 	orr.w	r2, r2, #805306368	; 0x30000000
    /* Set frame size */
    DMATxDescToSet->ControlBufferSize = (FrameLength& ETH_DMATxDesc_TBS1);
 8038014:	0cc0      	lsrs	r0, r0, #19
  else buf_count =1;
  
  if (buf_count ==1)
  {
    /*set LAST and FIRST segment */
    DMATxDescToSet->Status |=ETH_DMATxDesc_FS|ETH_DMATxDesc_LS;
 8038016:	601a      	str	r2, [r3, #0]
    /* Set frame size */
    DMATxDescToSet->ControlBufferSize = (FrameLength& ETH_DMATxDesc_TBS1);
 8038018:	6058      	str	r0, [r3, #4]
    /* Set Own bit of the Tx descriptor Status: gives the buffer back to ETHERNET DMA */
    DMATxDescToSet->Status |= ETH_DMATxDesc_OWN;
 803801a:	681a      	ldr	r2, [r3, #0]
 803801c:	f042 4200 	orr.w	r2, r2, #2147483648	; 0x80000000
 8038020:	601a      	str	r2, [r3, #0]
    DMATxDescToSet= (ETH_DMADESCTypeDef *)(DMATxDescToSet->Buffer2NextDescAddr);
 8038022:	68da      	ldr	r2, [r3, #12]
 8038024:	e014      	b.n	8038050 <ETH_Prepare_Transmit_Descriptors+0x88>
  }
  else
  {
    for (i=0; i< buf_count; i++)
    {
      if (i==0) 
 8038026:	b918      	cbnz	r0, 8038030 <ETH_Prepare_Transmit_Descriptors+0x68>
      {
        /* Setting the first segment bit */
        DMATxDescToSet->Status |= ETH_DMATxDesc_FS;  
 8038028:	681c      	ldr	r4, [r3, #0]
 803802a:	f044 5480 	orr.w	r4, r4, #268435456	; 0x10000000
 803802e:	601c      	str	r4, [r3, #0]
      }
      
      /* Program size */
      DMATxNextDesc->ControlBufferSize = (ETH_TX_BUF_SIZE & ETH_DMATxDesc_TBS1);
       
      if (i== (buf_count-1))
 8038030:	42b8      	cmp	r0, r7
        /* Setting the first segment bit */
        DMATxDescToSet->Status |= ETH_DMATxDesc_FS;  
      }
      
      /* Program size */
      DMATxNextDesc->ControlBufferSize = (ETH_TX_BUF_SIZE & ETH_DMATxDesc_TBS1);
 8038032:	6056      	str	r6, [r2, #4]
       
      if (i== (buf_count-1))
 8038034:	d104      	bne.n	8038040 <ETH_Prepare_Transmit_Descriptors+0x78>
      {
        /* Setting the last segment bit */
        DMATxNextDesc->Status |= ETH_DMATxDesc_LS;
 8038036:	6814      	ldr	r4, [r2, #0]
 8038038:	f044 5400 	orr.w	r4, r4, #536870912	; 0x20000000
 803803c:	6014      	str	r4, [r2, #0]
        size = FrameLength - (buf_count-1)*ETH_TX_BUF_SIZE;
        DMATxNextDesc->ControlBufferSize = (size & ETH_DMATxDesc_TBS1);
 803803e:	6055      	str	r5, [r2, #4]
      }
        
      /*give back descriptor to DMA */
      DMATxNextDesc->Status |= ETH_DMATxDesc_OWN;
 8038040:	6814      	ldr	r4, [r2, #0]
    DMATxDescToSet->Status |= ETH_DMATxDesc_OWN;
    DMATxDescToSet= (ETH_DMADESCTypeDef *)(DMATxDescToSet->Buffer2NextDescAddr);
  }
  else
  {
    for (i=0; i< buf_count; i++)
 8038042:	3001      	adds	r0, #1
        size = FrameLength - (buf_count-1)*ETH_TX_BUF_SIZE;
        DMATxNextDesc->ControlBufferSize = (size & ETH_DMATxDesc_TBS1);
      }
        
      /*give back descriptor to DMA */
      DMATxNextDesc->Status |= ETH_DMATxDesc_OWN;
 8038044:	f044 4400 	orr.w	r4, r4, #2147483648	; 0x80000000
 8038048:	6014      	str	r4, [r2, #0]
    DMATxDescToSet->Status |= ETH_DMATxDesc_OWN;
    DMATxDescToSet= (ETH_DMADESCTypeDef *)(DMATxDescToSet->Buffer2NextDescAddr);
  }
  else
  {
    for (i=0; i< buf_count; i++)
 803804a:	4288      	cmp	r0, r1
      }
        
      /*give back descriptor to DMA */
      DMATxNextDesc->Status |= ETH_DMATxDesc_OWN;
      
      DMATxNextDesc = (ETH_DMADESCTypeDef *)(DMATxNextDesc->Buffer2NextDescAddr);
 803804c:	68d2      	ldr	r2, [r2, #12]
    DMATxDescToSet->Status |= ETH_DMATxDesc_OWN;
    DMATxDescToSet= (ETH_DMADESCTypeDef *)(DMATxDescToSet->Buffer2NextDescAddr);
  }
  else
  {
    for (i=0; i< buf_count; i++)
 803804e:	d3ea      	bcc.n	8038026 <ETH_Prepare_Transmit_Descriptors+0x5e>
      DMATxNextDesc->Status |= ETH_DMATxDesc_OWN;
      
      DMATxNextDesc = (ETH_DMADESCTypeDef *)(DMATxNextDesc->Buffer2NextDescAddr);
      /* Set Own bit of the Tx descriptor Status: gives the buffer back to ETHERNET DMA */
     }
    DMATxDescToSet = DMATxNextDesc ;
 8038050:	4b07      	ldr	r3, [pc, #28]	; (8038070 <ETH_Prepare_Transmit_Descriptors+0xa8>)
 8038052:	601a      	str	r2, [r3, #0]
  }
    
  /* When Tx Buffer unavailable flag is set: clear it and resume transmission */
  if ((ETH->DMASR & ETH_DMASR_TBUS) != (u32)RESET)
 8038054:	4b08      	ldr	r3, [pc, #32]	; (8038078 <ETH_Prepare_Transmit_Descriptors+0xb0>)
 8038056:	695a      	ldr	r2, [r3, #20]
 8038058:	0750      	lsls	r0, r2, #29
 803805a:	d506      	bpl.n	803806a <ETH_Prepare_Transmit_Descriptors+0xa2>
  {
    /* Clear TBUS ETHERNET DMA flag */
    ETH->DMASR = ETH_DMASR_TBUS;
 803805c:	2204      	movs	r2, #4
 803805e:	615a      	str	r2, [r3, #20]
    /* Resume DMA transmission*/
    ETH->DMATPDR = 0;
 8038060:	2200      	movs	r2, #0
 8038062:	605a      	str	r2, [r3, #4]
 8038064:	e001      	b.n	803806a <ETH_Prepare_Transmit_Descriptors+0xa2>
  
  /* Check if the descriptor is owned by the ETHERNET DMA (when set) or CPU (when reset) */
  if((DMATxDescToSet->Status & ETH_DMATxDesc_OWN) != (u32)RESET)
  {  
    /* Return ERROR: OWN bit set */
    return ETH_ERROR;
 8038066:	2000      	movs	r0, #0
 8038068:	bdf0      	pop	{r4, r5, r6, r7, pc}
    /* Resume DMA transmission*/
    ETH->DMATPDR = 0;
  }
  
  /* Return SUCCESS */
  return ETH_SUCCESS;   
 803806a:	2001      	movs	r0, #1
}
 803806c:	bdf0      	pop	{r4, r5, r6, r7, pc}
 803806e:	bf00      	nop
 8038070:	2000fb64 	.word	0x2000fb64
 8038074:	fffffa0c 	.word	0xfffffa0c
 8038078:	40029000 	.word	0x40029000

0803807c <ETH_DMARxDescChainInit>:
{
  uint32_t i = 0;
  ETH_DMADESCTypeDef *DMARxDesc;
  
  /* Set the DMARxDescToGet pointer with the first one of the DMARxDescTab list */
  DMARxDescToGet = DMARxDescTab; 
 803807c:	4b11      	ldr	r3, [pc, #68]	; (80380c4 <ETH_DMARxDescChainInit+0x48>)
  * @param  RxBuff: Pointer on the first RxBuffer list
  * @param  RxBuffCount: Number of the used Rx desc in the list
  * @retval None
  */
void ETH_DMARxDescChainInit(ETH_DMADESCTypeDef *DMARxDescTab, uint8_t *RxBuff, uint32_t RxBuffCount)
{
 803807e:	b5f0      	push	{r4, r5, r6, r7, lr}
  uint32_t i = 0;
  ETH_DMADESCTypeDef *DMARxDesc;
  
  /* Set the DMARxDescToGet pointer with the first one of the DMARxDescTab list */
  DMARxDescToGet = DMARxDescTab; 
 8038080:	6018      	str	r0, [r3, #0]
  /* Fill each DMARxDesc descriptor with the right values */
  for(i=0; i < RxBuffCount; i++)
 8038082:	2400      	movs	r4, #0
  * @param  DMARxDescTab: Pointer on the first Rx desc list 
  * @param  RxBuff: Pointer on the first RxBuffer list
  * @param  RxBuffCount: Number of the used Rx desc in the list
  * @retval None
  */
void ETH_DMARxDescChainInit(ETH_DMADESCTypeDef *DMARxDescTab, uint8_t *RxBuff, uint32_t RxBuffCount)
 8038084:	f100 0320 	add.w	r3, r0, #32
  for(i=0; i < RxBuffCount; i++)
  {
    /* Get the pointer on the ith member of the Rx Desc list */
    DMARxDesc = DMARxDescTab+i;
    /* Set Own bit of the Rx descriptor Status */
    DMARxDesc->Status = ETH_DMARxDesc_OWN;
 8038088:	f04f 4500 	mov.w	r5, #2147483648	; 0x80000000

    /* Set Buffer1 size and Second Address Chained bit */
    DMARxDesc->ControlBufferSize = ETH_DMARxDesc_RCH | (uint32_t)ETH_RX_BUF_SIZE;  
 803808c:	f244 56f4 	movw	r6, #17908	; 0x45f4
    /* Set Buffer1 address pointer */
    DMARxDesc->Buffer1Addr = (uint32_t)(&RxBuff[i*ETH_RX_BUF_SIZE]);
    
    /* Initialize the next descriptor with the Next Descriptor Polling Enable */
    if(i < (RxBuffCount-1))
 8038090:	1e57      	subs	r7, r2, #1
  ETH_DMADESCTypeDef *DMARxDesc;
  
  /* Set the DMARxDescToGet pointer with the first one of the DMARxDescTab list */
  DMARxDescToGet = DMARxDescTab; 
  /* Fill each DMARxDesc descriptor with the right values */
  for(i=0; i < RxBuffCount; i++)
 8038092:	e00f      	b.n	80380b4 <ETH_DMARxDescChainInit+0x38>
    
    /* Initialize the next descriptor with the Next Descriptor Polling Enable */
    if(i < (RxBuffCount-1))
    {
      /* Set next descriptor address register with next descriptor base address */
      DMARxDesc->Buffer2NextDescAddr = (uint32_t)(DMARxDescTab+i+1); 
 8038094:	42bc      	cmp	r4, r7
 8038096:	bf2c      	ite	cs
 8038098:	4684      	movcs	ip, r0
 803809a:	469c      	movcc	ip, r3
    DMARxDesc->Status = ETH_DMARxDesc_OWN;

    /* Set Buffer1 size and Second Address Chained bit */
    DMARxDesc->ControlBufferSize = ETH_DMARxDesc_RCH | (uint32_t)ETH_RX_BUF_SIZE;  
    /* Set Buffer1 address pointer */
    DMARxDesc->Buffer1Addr = (uint32_t)(&RxBuff[i*ETH_RX_BUF_SIZE]);
 803809c:	f843 1c18 	str.w	r1, [r3, #-24]
  for(i=0; i < RxBuffCount; i++)
  {
    /* Get the pointer on the ith member of the Rx Desc list */
    DMARxDesc = DMARxDescTab+i;
    /* Set Own bit of the Rx descriptor Status */
    DMARxDesc->Status = ETH_DMARxDesc_OWN;
 80380a0:	f843 5c20 	str.w	r5, [r3, #-32]

    /* Set Buffer1 size and Second Address Chained bit */
    DMARxDesc->ControlBufferSize = ETH_DMARxDesc_RCH | (uint32_t)ETH_RX_BUF_SIZE;  
 80380a4:	f843 6c1c 	str.w	r6, [r3, #-28]
    
    /* Initialize the next descriptor with the Next Descriptor Polling Enable */
    if(i < (RxBuffCount-1))
    {
      /* Set next descriptor address register with next descriptor base address */
      DMARxDesc->Buffer2NextDescAddr = (uint32_t)(DMARxDescTab+i+1); 
 80380a8:	f843 cc14 	str.w	ip, [r3, #-20]
  ETH_DMADESCTypeDef *DMARxDesc;
  
  /* Set the DMARxDescToGet pointer with the first one of the DMARxDescTab list */
  DMARxDescToGet = DMARxDescTab; 
  /* Fill each DMARxDesc descriptor with the right values */
  for(i=0; i < RxBuffCount; i++)
 80380ac:	3401      	adds	r4, #1
 80380ae:	3320      	adds	r3, #32
 80380b0:	f201 51f4 	addw	r1, r1, #1524	; 0x5f4
 80380b4:	4294      	cmp	r4, r2
 80380b6:	d1ed      	bne.n	8038094 <ETH_DMARxDescChainInit+0x18>
      DMARxDesc->Buffer2NextDescAddr = (uint32_t)(DMARxDescTab); 
    }
  }
   
  /* Set Receive Descriptor List Address Register */
  ETH->DMARDLAR = (uint32_t) DMARxDescTab; 
 80380b8:	4b03      	ldr	r3, [pc, #12]	; (80380c8 <ETH_DMARxDescChainInit+0x4c>)
  

  DMA_RX_FRAME_infos = &RX_Frame_Descriptor;
 80380ba:	4a04      	ldr	r2, [pc, #16]	; (80380cc <ETH_DMARxDescChainInit+0x50>)
      DMARxDesc->Buffer2NextDescAddr = (uint32_t)(DMARxDescTab); 
    }
  }
   
  /* Set Receive Descriptor List Address Register */
  ETH->DMARDLAR = (uint32_t) DMARxDescTab; 
 80380bc:	60d8      	str	r0, [r3, #12]
  

  DMA_RX_FRAME_infos = &RX_Frame_Descriptor;
 80380be:	4b04      	ldr	r3, [pc, #16]	; (80380d0 <ETH_DMARxDescChainInit+0x54>)
 80380c0:	601a      	str	r2, [r3, #0]
 80380c2:	bdf0      	pop	{r4, r5, r6, r7, pc}
 80380c4:	2000fb60 	.word	0x2000fb60
 80380c8:	40029000 	.word	0x40029000
 80380cc:	2000fb54 	.word	0x2000fb54
 80380d0:	200119d0 	.word	0x200119d0

080380d4 <ETH_DMATxDescChainInit>:
{
  uint32_t i = 0;
  ETH_DMADESCTypeDef *DMATxDesc;
  
  /* Set the DMATxDescToSet pointer with the first one of the DMATxDescTab list */
  DMATxDescToSet = DMATxDescTab;
 80380d4:	4b0e      	ldr	r3, [pc, #56]	; (8038110 <ETH_DMATxDescChainInit+0x3c>)
  * @param  TxBuff: Pointer on the first TxBuffer list
  * @param  TxBuffCount: Number of the used Tx desc in the list
  * @retval None
  */
void ETH_DMATxDescChainInit(ETH_DMADESCTypeDef *DMATxDescTab, uint8_t* TxBuff, uint32_t TxBuffCount)
{
 80380d6:	b5f0      	push	{r4, r5, r6, r7, lr}
  uint32_t i = 0;
  ETH_DMADESCTypeDef *DMATxDesc;
  
  /* Set the DMATxDescToSet pointer with the first one of the DMATxDescTab list */
  DMATxDescToSet = DMATxDescTab;
 80380d8:	6018      	str	r0, [r3, #0]
  /* Fill each DMATxDesc descriptor with the right values */   
  for(i=0; i < TxBuffCount; i++)
 80380da:	2400      	movs	r4, #0
  * @param  DMATxDescTab: Pointer on the first Tx desc list 
  * @param  TxBuff: Pointer on the first TxBuffer list
  * @param  TxBuffCount: Number of the used Tx desc in the list
  * @retval None
  */
void ETH_DMATxDescChainInit(ETH_DMADESCTypeDef *DMATxDescTab, uint8_t* TxBuff, uint32_t TxBuffCount)
 80380dc:	f100 0320 	add.w	r3, r0, #32
  for(i=0; i < TxBuffCount; i++)
  {
    /* Get the pointer on the ith member of the Tx Desc list */
    DMATxDesc = DMATxDescTab + i;
    /* Set Second Address Chained bit */
    DMATxDesc->Status = ETH_DMATxDesc_TCH;  
 80380e0:	f44f 1580 	mov.w	r5, #1048576	; 0x100000
       
    /* Set Buffer1 address pointer */
    DMATxDesc->Buffer1Addr = (uint32_t)(&TxBuff[i*ETH_TX_BUF_SIZE]);
    
    /* Initialize the next descriptor with the Next Descriptor Polling Enable */
    if(i < (TxBuffCount-1))
 80380e4:	1e56      	subs	r6, r2, #1
  ETH_DMADESCTypeDef *DMATxDesc;
  
  /* Set the DMATxDescToSet pointer with the first one of the DMATxDescTab list */
  DMATxDescToSet = DMATxDescTab;
  /* Fill each DMATxDesc descriptor with the right values */   
  for(i=0; i < TxBuffCount; i++)
 80380e6:	e00d      	b.n	8038104 <ETH_DMATxDescChainInit+0x30>
    
    /* Initialize the next descriptor with the Next Descriptor Polling Enable */
    if(i < (TxBuffCount-1))
    {
      /* Set next descriptor address register with next descriptor base address */
      DMATxDesc->Buffer2NextDescAddr = (uint32_t)(DMATxDescTab+i+1);
 80380e8:	42b4      	cmp	r4, r6
 80380ea:	bf2c      	ite	cs
 80380ec:	4607      	movcs	r7, r0
 80380ee:	461f      	movcc	r7, r3
    DMATxDesc = DMATxDescTab + i;
    /* Set Second Address Chained bit */
    DMATxDesc->Status = ETH_DMATxDesc_TCH;  
       
    /* Set Buffer1 address pointer */
    DMATxDesc->Buffer1Addr = (uint32_t)(&TxBuff[i*ETH_TX_BUF_SIZE]);
 80380f0:	f843 1c18 	str.w	r1, [r3, #-24]
  for(i=0; i < TxBuffCount; i++)
  {
    /* Get the pointer on the ith member of the Tx Desc list */
    DMATxDesc = DMATxDescTab + i;
    /* Set Second Address Chained bit */
    DMATxDesc->Status = ETH_DMATxDesc_TCH;  
 80380f4:	f843 5c20 	str.w	r5, [r3, #-32]
    
    /* Initialize the next descriptor with the Next Descriptor Polling Enable */
    if(i < (TxBuffCount-1))
    {
      /* Set next descriptor address register with next descriptor base address */
      DMATxDesc->Buffer2NextDescAddr = (uint32_t)(DMATxDescTab+i+1);
 80380f8:	f843 7c14 	str.w	r7, [r3, #-20]
  ETH_DMADESCTypeDef *DMATxDesc;
  
  /* Set the DMATxDescToSet pointer with the first one of the DMATxDescTab list */
  DMATxDescToSet = DMATxDescTab;
  /* Fill each DMATxDesc descriptor with the right values */   
  for(i=0; i < TxBuffCount; i++)
 80380fc:	3401      	adds	r4, #1
 80380fe:	3320      	adds	r3, #32
 8038100:	f201 51f4 	addw	r1, r1, #1524	; 0x5f4
 8038104:	4294      	cmp	r4, r2
 8038106:	d1ef      	bne.n	80380e8 <ETH_DMATxDescChainInit+0x14>
      DMATxDesc->Buffer2NextDescAddr = (uint32_t) DMATxDescTab;  
    }
  }
   
  /* Set Transmit Desciptor List Address Register */
  ETH->DMATDLAR = (uint32_t) DMATxDescTab;
 8038108:	4b02      	ldr	r3, [pc, #8]	; (8038114 <ETH_DMATxDescChainInit+0x40>)
 803810a:	6118      	str	r0, [r3, #16]
 803810c:	bdf0      	pop	{r4, r5, r6, r7, pc}
 803810e:	bf00      	nop
 8038110:	2000fb64 	.word	0x2000fb64
 8038114:	40029000 	.word	0x40029000

08038118 <ETH_DMATxDescChecksumInsertionConfig>:
{
  /* Check the parameters */
  assert_param(IS_ETH_DMA_TXDESC_CHECKSUM(DMATxDesc_Checksum));
  
  /* Set the selected DMA Tx desc checksum insertion control */
  DMATxDesc->Status |= DMATxDesc_Checksum;
 8038118:	6803      	ldr	r3, [r0, #0]
 803811a:	4319      	orrs	r1, r3
 803811c:	6001      	str	r1, [r0, #0]
 803811e:	4770      	bx	lr

08038120 <ETH_DMARxDescReceiveITConfig>:
  * @param  NewState: new state of the specified DMA Rx Desc interrupt.
  *   This parameter can be: ENABLE or DISABLE.                   
  * @retval None
  */
void ETH_DMARxDescReceiveITConfig(ETH_DMADESCTypeDef *DMARxDesc, FunctionalState NewState)
{
 8038120:	6843      	ldr	r3, [r0, #4]
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
 8038122:	b111      	cbz	r1, 803812a <ETH_DMARxDescReceiveITConfig+0xa>
  {
    /* Enable the DMA Rx Desc receive interrupt */
    DMARxDesc->ControlBufferSize &=(~(uint32_t)ETH_DMARxDesc_DIC);
 8038124:	f023 4300 	bic.w	r3, r3, #2147483648	; 0x80000000
 8038128:	e001      	b.n	803812e <ETH_DMARxDescReceiveITConfig+0xe>
  }
  else
  {
    /* Disable the DMA Rx Desc receive interrupt */
    DMARxDesc->ControlBufferSize |= ETH_DMARxDesc_DIC;
 803812a:	f043 4300 	orr.w	r3, r3, #2147483648	; 0x80000000
 803812e:	6043      	str	r3, [r0, #4]
 8038130:	4770      	bx	lr
 8038132:	0000      	movs	r0, r0

08038134 <ETH_SoftwareReset>:
  */
void ETH_SoftwareReset(void)
{
  /* Set the SWR bit: resets all MAC subsystem internal registers and logic */
  /* After reset all the registers holds their respective reset values */
  ETH->DMABMR |= ETH_DMABMR_SR;
 8038134:	4b02      	ldr	r3, [pc, #8]	; (8038140 <ETH_SoftwareReset+0xc>)
 8038136:	681a      	ldr	r2, [r3, #0]
 8038138:	f042 0201 	orr.w	r2, r2, #1
 803813c:	601a      	str	r2, [r3, #0]
 803813e:	4770      	bx	lr
 8038140:	40029000 	.word	0x40029000

08038144 <ETH_GetSoftwareResetStatus>:
  * @retval The new state of DMA Bus Mode register SR bit (SET or RESET).
  */
FlagStatus ETH_GetSoftwareResetStatus(void)
{
  FlagStatus bitstatus = RESET;
  if((ETH->DMABMR & ETH_DMABMR_SR) != (uint32_t)RESET)
 8038144:	4b02      	ldr	r3, [pc, #8]	; (8038150 <ETH_GetSoftwareResetStatus+0xc>)
 8038146:	6818      	ldr	r0, [r3, #0]
  else
  {
    bitstatus = RESET;
  }
  return bitstatus;
}
 8038148:	f000 0001 	and.w	r0, r0, #1
 803814c:	4770      	bx	lr
 803814e:	bf00      	nop
 8038150:	40029000 	.word	0x40029000

08038154 <ETH_GetDMAFlagStatus>:
FlagStatus ETH_GetDMAFlagStatus(uint32_t ETH_DMA_FLAG)
{  
  FlagStatus bitstatus = RESET;
  /* Check the parameters */
  assert_param(IS_ETH_DMA_GET_IT(ETH_DMA_FLAG));
  if ((ETH->DMASR & ETH_DMA_FLAG) != (uint32_t)RESET)
 8038154:	4b03      	ldr	r3, [pc, #12]	; (8038164 <ETH_GetDMAFlagStatus+0x10>)
 8038156:	695b      	ldr	r3, [r3, #20]
 8038158:	4218      	tst	r0, r3
  else
  {
    bitstatus = RESET;
  }
  return bitstatus;
}
 803815a:	bf0c      	ite	eq
 803815c:	2000      	moveq	r0, #0
 803815e:	2001      	movne	r0, #1
 8038160:	4770      	bx	lr
 8038162:	bf00      	nop
 8038164:	40029000 	.word	0x40029000

08038168 <ETH_DMAITConfig>:
  * @param  NewState: new state of the specified ETHERNET DMA interrupts.
  *   This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void ETH_DMAITConfig(uint32_t ETH_DMA_IT, FunctionalState NewState)
{
 8038168:	4b04      	ldr	r3, [pc, #16]	; (803817c <ETH_DMAITConfig+0x14>)
  assert_param(IS_FUNCTIONAL_STATE(NewState));  
  
  if (NewState != DISABLE)
  {
    /* Enable the selected ETHERNET DMA interrupts */
    ETH->DMAIER |= ETH_DMA_IT;
 803816a:	69da      	ldr	r2, [r3, #28]
{
  /* Check the parameters */
  assert_param(IS_ETH_DMA_IT(ETH_DMA_IT));
  assert_param(IS_FUNCTIONAL_STATE(NewState));  
  
  if (NewState != DISABLE)
 803816c:	b109      	cbz	r1, 8038172 <ETH_DMAITConfig+0xa>
  {
    /* Enable the selected ETHERNET DMA interrupts */
    ETH->DMAIER |= ETH_DMA_IT;
 803816e:	4310      	orrs	r0, r2
 8038170:	e001      	b.n	8038176 <ETH_DMAITConfig+0xe>
  }
  else
  {
    /* Disable the selected ETHERNET DMA interrupts */
    ETH->DMAIER &=(~(uint32_t)ETH_DMA_IT);
 8038172:	ea22 0000 	bic.w	r0, r2, r0
 8038176:	61d8      	str	r0, [r3, #28]
 8038178:	4770      	bx	lr
 803817a:	bf00      	nop
 803817c:	40029000 	.word	0x40029000

08038180 <ETH_DMAClearITPendingBit>:
{
  /* Check the parameters */
  assert_param(IS_ETH_DMA_IT(ETH_DMA_IT));
  
  /* Clear the selected ETHERNET DMA IT */
  ETH->DMASR = (uint32_t) ETH_DMA_IT;
 8038180:	4b01      	ldr	r3, [pc, #4]	; (8038188 <ETH_DMAClearITPendingBit+0x8>)
 8038182:	6158      	str	r0, [r3, #20]
 8038184:	4770      	bx	lr
 8038186:	bf00      	nop
 8038188:	40029000 	.word	0x40029000

0803818c <ETH_FlushTransmitFIFO>:
  * @retval None
  */
void ETH_FlushTransmitFIFO(void)
{
  /* Set the Flush Transmit FIFO bit */
  ETH->DMAOMR |= ETH_DMAOMR_FTF;  
 803818c:	4b02      	ldr	r3, [pc, #8]	; (8038198 <ETH_FlushTransmitFIFO+0xc>)
 803818e:	699a      	ldr	r2, [r3, #24]
 8038190:	f442 1280 	orr.w	r2, r2, #1048576	; 0x100000
 8038194:	619a      	str	r2, [r3, #24]
 8038196:	4770      	bx	lr
 8038198:	40029000 	.word	0x40029000

0803819c <ETH_DMATransmissionCmd>:
  * @param  NewState: new state of the DMA transmission.
  *   This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void ETH_DMATransmissionCmd(FunctionalState NewState)
{ 
 803819c:	4b04      	ldr	r3, [pc, #16]	; (80381b0 <ETH_DMATransmissionCmd+0x14>)
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
  {
    /* Enable the DMA transmission */
    ETH->DMAOMR |= ETH_DMAOMR_ST;  
 803819e:	699a      	ldr	r2, [r3, #24]
void ETH_DMATransmissionCmd(FunctionalState NewState)
{ 
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
 80381a0:	b110      	cbz	r0, 80381a8 <ETH_DMATransmissionCmd+0xc>
  {
    /* Enable the DMA transmission */
    ETH->DMAOMR |= ETH_DMAOMR_ST;  
 80381a2:	f442 5200 	orr.w	r2, r2, #8192	; 0x2000
 80381a6:	e001      	b.n	80381ac <ETH_DMATransmissionCmd+0x10>
  }
  else
  {
    /* Disable the DMA transmission */
    ETH->DMAOMR &= ~ETH_DMAOMR_ST;
 80381a8:	f422 5200 	bic.w	r2, r2, #8192	; 0x2000
 80381ac:	619a      	str	r2, [r3, #24]
 80381ae:	4770      	bx	lr
 80381b0:	40029000 	.word	0x40029000

080381b4 <ETH_DMAReceptionCmd>:
  * @param  NewState: new state of the DMA reception.
  *   This parameter can be: ENABLE or DISABLE.
  * @retval None
  */
void ETH_DMAReceptionCmd(FunctionalState NewState)
{ 
 80381b4:	4b04      	ldr	r3, [pc, #16]	; (80381c8 <ETH_DMAReceptionCmd+0x14>)
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
  {
    /* Enable the DMA reception */
    ETH->DMAOMR |= ETH_DMAOMR_SR;  
 80381b6:	699a      	ldr	r2, [r3, #24]
void ETH_DMAReceptionCmd(FunctionalState NewState)
{ 
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(NewState));
  
  if (NewState != DISABLE)
 80381b8:	b110      	cbz	r0, 80381c0 <ETH_DMAReceptionCmd+0xc>
  {
    /* Enable the DMA reception */
    ETH->DMAOMR |= ETH_DMAOMR_SR;  
 80381ba:	f042 0202 	orr.w	r2, r2, #2
 80381be:	e001      	b.n	80381c4 <ETH_DMAReceptionCmd+0x10>
  }
  else
  {
    /* Disable the DMA reception */
    ETH->DMAOMR &= ~ETH_DMAOMR_SR;
 80381c0:	f022 0202 	bic.w	r2, r2, #2
 80381c4:	619a      	str	r2, [r3, #24]
 80381c6:	4770      	bx	lr
 80381c8:	40029000 	.word	0x40029000

080381cc <ETH_Start>:
  * @brief  Enables ENET MAC and DMA reception/transmission 
  * @param  None
  * @retval None
  */
void ETH_Start(void)
{
 80381cc:	b508      	push	{r3, lr}
  /* Enable transmit state machine of the MAC for transmission on the MII */  
  ETH_MACTransmissionCmd(ENABLE);
 80381ce:	2001      	movs	r0, #1
 80381d0:	f7ff fe7a 	bl	8037ec8 <ETH_MACTransmissionCmd>
  /* Flush Transmit FIFO */
  ETH_FlushTransmitFIFO();
 80381d4:	f7ff ffda 	bl	803818c <ETH_FlushTransmitFIFO>
  /* Enable receive state machine of the MAC for reception from the MII */  
  ETH_MACReceptionCmd(ENABLE);
 80381d8:	2001      	movs	r0, #1
 80381da:	f7ff fe81 	bl	8037ee0 <ETH_MACReceptionCmd>
 
  /* Start DMA transmission */
  ETH_DMATransmissionCmd(ENABLE); 
 80381de:	2001      	movs	r0, #1
 80381e0:	f7ff ffdc 	bl	803819c <ETH_DMATransmissionCmd>
  /* Start DMA reception */
  ETH_DMAReceptionCmd(ENABLE);   
 80381e4:	2001      	movs	r0, #1
}
 80381e6:	e8bd 4008 	ldmia.w	sp!, {r3, lr}
  ETH_MACReceptionCmd(ENABLE);
 
  /* Start DMA transmission */
  ETH_DMATransmissionCmd(ENABLE); 
  /* Start DMA reception */
  ETH_DMAReceptionCmd(ENABLE);   
 80381ea:	f7ff bfe3 	b.w	80381b4 <ETH_DMAReceptionCmd>
 80381ee:	0000      	movs	r0, r0

080381f0 <ETH_ReadPHYRegister>:
  *     @arg More PHY register could be read depending on the used PHY
  * @retval ETH_ERROR: in case of timeout
  *         MAC MIIDR register value: Data read from the selected PHY register (correct read )
  */
uint16_t ETH_ReadPHYRegister(uint16_t PHYAddress, uint16_t PHYReg)
{
 80381f0:	b082      	sub	sp, #8
  uint32_t tmpreg = 0;     
__IO uint32_t timeout = 0;
 80381f2:	2300      	movs	r3, #0
 80381f4:	9301      	str	r3, [sp, #4]
  /* Check the parameters */
  assert_param(IS_ETH_PHY_ADDRESS(PHYAddress));
  assert_param(IS_ETH_PHY_REG(PHYReg));
  
  /* Get the ETHERNET MACMIIAR value */
  tmpreg = ETH->MACMIIAR;
 80381f6:	4b11      	ldr	r3, [pc, #68]	; (803823c <ETH_ReadPHYRegister+0x4c>)
 80381f8:	691a      	ldr	r2, [r3, #16]
  /* Keep only the CSR Clock Range CR[2:0] bits value */
  tmpreg &= ~MACMIIAR_CR_MASK;
  /* Prepare the MII address register value */
  tmpreg |=(((uint32_t)PHYAddress<<11) & ETH_MACMIIAR_PA); /* Set the PHY device address */
 80381fa:	06c0      	lsls	r0, r0, #27
  assert_param(IS_ETH_PHY_REG(PHYReg));
  
  /* Get the ETHERNET MACMIIAR value */
  tmpreg = ETH->MACMIIAR;
  /* Keep only the CSR Clock Range CR[2:0] bits value */
  tmpreg &= ~MACMIIAR_CR_MASK;
 80381fc:	f002 021c 	and.w	r2, r2, #28
  /* Prepare the MII address register value */
  tmpreg |=(((uint32_t)PHYAddress<<11) & ETH_MACMIIAR_PA); /* Set the PHY device address */
  tmpreg |=(((uint32_t)PHYReg<<6) & ETH_MACMIIAR_MR);      /* Set the PHY register address */
 8038200:	0189      	lsls	r1, r1, #6
  /* Get the ETHERNET MACMIIAR value */
  tmpreg = ETH->MACMIIAR;
  /* Keep only the CSR Clock Range CR[2:0] bits value */
  tmpreg &= ~MACMIIAR_CR_MASK;
  /* Prepare the MII address register value */
  tmpreg |=(((uint32_t)PHYAddress<<11) & ETH_MACMIIAR_PA); /* Set the PHY device address */
 8038202:	ea42 4210 	orr.w	r2, r2, r0, lsr #16
  tmpreg |=(((uint32_t)PHYReg<<6) & ETH_MACMIIAR_MR);      /* Set the PHY register address */
 8038206:	f401 61f8 	and.w	r1, r1, #1984	; 0x7c0
  tmpreg &= ~ETH_MACMIIAR_MW;                              /* Set the read mode */
 803820a:	430a      	orrs	r2, r1
  tmpreg |= ETH_MACMIIAR_MB;                               /* Set the MII Busy bit */
 803820c:	f042 0201 	orr.w	r2, r2, #1
  /* Write the result value into the MII Address register */
  ETH->MACMIIAR = tmpreg;
 8038210:	611a      	str	r2, [r3, #16]
  /* Check for the Busy flag */
  do
  {
    timeout++;
    tmpreg = ETH->MACMIIAR;
  } while ((tmpreg & ETH_MACMIIAR_MB) && (timeout < (uint32_t)PHY_READ_TO));
 8038212:	4a0b      	ldr	r2, [pc, #44]	; (8038240 <ETH_ReadPHYRegister+0x50>)
  /* Write the result value into the MII Address register */
  ETH->MACMIIAR = tmpreg;
  /* Check for the Busy flag */
  do
  {
    timeout++;
 8038214:	9901      	ldr	r1, [sp, #4]
 8038216:	3101      	adds	r1, #1
 8038218:	9101      	str	r1, [sp, #4]
    tmpreg = ETH->MACMIIAR;
 803821a:	6919      	ldr	r1, [r3, #16]
  } while ((tmpreg & ETH_MACMIIAR_MB) && (timeout < (uint32_t)PHY_READ_TO));
 803821c:	07c9      	lsls	r1, r1, #31
 803821e:	d502      	bpl.n	8038226 <ETH_ReadPHYRegister+0x36>
 8038220:	9901      	ldr	r1, [sp, #4]
 8038222:	4291      	cmp	r1, r2
 8038224:	d9f6      	bls.n	8038214 <ETH_ReadPHYRegister+0x24>
  /* Return ERROR in case of timeout */
  if(timeout == PHY_READ_TO)
 8038226:	4b07      	ldr	r3, [pc, #28]	; (8038244 <ETH_ReadPHYRegister+0x54>)
 8038228:	9a01      	ldr	r2, [sp, #4]
 803822a:	429a      	cmp	r2, r3
  {
    return (uint16_t)ETH_ERROR;
  }
  
  /* Return data register value */
  return (uint16_t)(ETH->MACMIIDR);
 803822c:	bf1d      	ittte	ne
 803822e:	4b03      	ldrne	r3, [pc, #12]	; (803823c <ETH_ReadPHYRegister+0x4c>)
 8038230:	6958      	ldrne	r0, [r3, #20]
 8038232:	b280      	uxthne	r0, r0
    tmpreg = ETH->MACMIIAR;
  } while ((tmpreg & ETH_MACMIIAR_MB) && (timeout < (uint32_t)PHY_READ_TO));
  /* Return ERROR in case of timeout */
  if(timeout == PHY_READ_TO)
  {
    return (uint16_t)ETH_ERROR;
 8038234:	2000      	moveq	r0, #0
  }
  
  /* Return data register value */
  return (uint16_t)(ETH->MACMIIDR);
}
 8038236:	b002      	add	sp, #8
 8038238:	4770      	bx	lr
 803823a:	bf00      	nop
 803823c:	40028000 	.word	0x40028000
 8038240:	0004fffe 	.word	0x0004fffe
 8038244:	0004ffff 	.word	0x0004ffff

08038248 <ETH_WritePHYRegister>:
  * @param  PHYValue: the value to write
  * @retval ETH_ERROR: in case of timeout
  *         ETH_SUCCESS: for correct write
  */
uint32_t ETH_WritePHYRegister(uint16_t PHYAddress, uint16_t PHYReg, uint16_t PHYValue)
{
 8038248:	b513      	push	{r0, r1, r4, lr}
  uint32_t tmpreg = 0;     
  __IO uint32_t timeout = 0;
 803824a:	2300      	movs	r3, #0
 803824c:	9301      	str	r3, [sp, #4]
  /* Check the parameters */
  assert_param(IS_ETH_PHY_ADDRESS(PHYAddress));
  assert_param(IS_ETH_PHY_REG(PHYReg));
  
  /* Get the ETHERNET MACMIIAR value */
  tmpreg = ETH->MACMIIAR;
 803824e:	4b0f      	ldr	r3, [pc, #60]	; (803828c <ETH_WritePHYRegister+0x44>)
 8038250:	691c      	ldr	r4, [r3, #16]
  tmpreg |=(((uint32_t)PHYAddress<<11) & ETH_MACMIIAR_PA); /* Set the PHY device address */
  tmpreg |=(((uint32_t)PHYReg<<6) & ETH_MACMIIAR_MR);      /* Set the PHY register address */
  tmpreg |= ETH_MACMIIAR_MW;                               /* Set the write mode */
  tmpreg |= ETH_MACMIIAR_MB;                               /* Set the MII Busy bit */
  /* Give the value to the MII data register */
  ETH->MACMIIDR = PHYValue;
 8038252:	615a      	str	r2, [r3, #20]
  assert_param(IS_ETH_PHY_REG(PHYReg));
  
  /* Get the ETHERNET MACMIIAR value */
  tmpreg = ETH->MACMIIAR;
  /* Keep only the CSR Clock Range CR[2:0] bits value */
  tmpreg &= ~MACMIIAR_CR_MASK;
 8038254:	f004 041c 	and.w	r4, r4, #28
  /* Prepare the MII register address value */
  tmpreg |=(((uint32_t)PHYAddress<<11) & ETH_MACMIIAR_PA); /* Set the PHY device address */
 8038258:	f044 0403 	orr.w	r4, r4, #3
 803825c:	06c0      	lsls	r0, r0, #27
  tmpreg |=(((uint32_t)PHYReg<<6) & ETH_MACMIIAR_MR);      /* Set the PHY register address */
 803825e:	0189      	lsls	r1, r1, #6
 8038260:	ea44 4410 	orr.w	r4, r4, r0, lsr #16
 8038264:	f401 61f8 	and.w	r1, r1, #1984	; 0x7c0
  tmpreg |= ETH_MACMIIAR_MW;                               /* Set the write mode */
  tmpreg |= ETH_MACMIIAR_MB;                               /* Set the MII Busy bit */
 8038268:	430c      	orrs	r4, r1
  /* Check for the Busy flag */
  do
  {
    timeout++;
    tmpreg = ETH->MACMIIAR;
  } while ((tmpreg & ETH_MACMIIAR_MB) && (timeout < (uint32_t)PHY_WRITE_TO));
 803826a:	4a09      	ldr	r2, [pc, #36]	; (8038290 <ETH_WritePHYRegister+0x48>)
  tmpreg |= ETH_MACMIIAR_MW;                               /* Set the write mode */
  tmpreg |= ETH_MACMIIAR_MB;                               /* Set the MII Busy bit */
  /* Give the value to the MII data register */
  ETH->MACMIIDR = PHYValue;
  /* Write the result value into the MII Address register */
  ETH->MACMIIAR = tmpreg;
 803826c:	611c      	str	r4, [r3, #16]
  /* Check for the Busy flag */
  do
  {
    timeout++;
 803826e:	9901      	ldr	r1, [sp, #4]
 8038270:	3101      	adds	r1, #1
 8038272:	9101      	str	r1, [sp, #4]
    tmpreg = ETH->MACMIIAR;
 8038274:	6919      	ldr	r1, [r3, #16]
  } while ((tmpreg & ETH_MACMIIAR_MB) && (timeout < (uint32_t)PHY_WRITE_TO));
 8038276:	07c8      	lsls	r0, r1, #31
 8038278:	d502      	bpl.n	8038280 <ETH_WritePHYRegister+0x38>
 803827a:	9901      	ldr	r1, [sp, #4]
 803827c:	4291      	cmp	r1, r2
 803827e:	d9f6      	bls.n	803826e <ETH_WritePHYRegister+0x26>
  /* Return ERROR in case of timeout */
  if(timeout == PHY_WRITE_TO)
 8038280:	9801      	ldr	r0, [sp, #4]
    return ETH_ERROR;
  }
  
  /* Return SUCCESS */
  return ETH_SUCCESS;  
}
 8038282:	4b04      	ldr	r3, [pc, #16]	; (8038294 <ETH_WritePHYRegister+0x4c>)
 8038284:	1ac0      	subs	r0, r0, r3
 8038286:	bf18      	it	ne
 8038288:	2001      	movne	r0, #1
 803828a:	bd1c      	pop	{r2, r3, r4, pc}
 803828c:	40028000 	.word	0x40028000
 8038290:	0004fffe 	.word	0x0004fffe
 8038294:	0004ffff 	.word	0x0004ffff

08038298 <ETH_Init>:
  * @param PHYAddress: external PHY address                    
  * @retval ETH_ERROR: Ethernet initialization failed
  *         ETH_SUCCESS: Ethernet successfully initialized                 
  */
uint32_t ETH_Init(ETH_InitTypeDef* ETH_InitStruct, uint16_t PHYAddress)
{
 8038298:	b5f0      	push	{r4, r5, r6, r7, lr}
 803829a:	b087      	sub	sp, #28
  uint32_t RegValue = 0, tmpreg = 0;
  __IO uint32_t i = 0;
 803829c:	2300      	movs	r3, #0
  assert_param(IS_ETH_DMA_DESC_SKIP_LENGTH(ETH_InitStruct->ETH_DescriptorSkipLength));  
  assert_param(IS_ETH_DMA_ARBITRATION_ROUNDROBIN_RXTX(ETH_InitStruct->ETH_DMAArbitration));       
  /*-------------------------------- MAC Config ------------------------------*/   
  /*---------------------- ETHERNET MACMIIAR Configuration -------------------*/
  /* Get the ETHERNET MACMIIAR value */
  tmpreg = ETH->MACMIIAR;
 803829e:	4f90      	ldr	r7, [pc, #576]	; (80384e0 <ETH_Init+0x248>)
  *         ETH_SUCCESS: Ethernet successfully initialized                 
  */
uint32_t ETH_Init(ETH_InitTypeDef* ETH_InitStruct, uint16_t PHYAddress)
{
  uint32_t RegValue = 0, tmpreg = 0;
  __IO uint32_t i = 0;
 80382a0:	9300      	str	r3, [sp, #0]
  * @param PHYAddress: external PHY address                    
  * @retval ETH_ERROR: Ethernet initialization failed
  *         ETH_SUCCESS: Ethernet successfully initialized                 
  */
uint32_t ETH_Init(ETH_InitTypeDef* ETH_InitStruct, uint16_t PHYAddress)
{
 80382a2:	4604      	mov	r4, r0
  uint32_t RegValue = 0, tmpreg = 0;
  __IO uint32_t i = 0;
  RCC_ClocksTypeDef  rcc_clocks;
  uint32_t hclk = 60000000;
  __IO uint32_t timeout = 0;
 80382a4:	9301      	str	r3, [sp, #4]
  /* Get the ETHERNET MACMIIAR value */
  tmpreg = ETH->MACMIIAR;
  /* Clear CSR Clock Range CR[2:0] bits */
  tmpreg &= MACMIIAR_CR_MASK;
  /* Get hclk frequency value */
  RCC_GetClocksFreq(&rcc_clocks);
 80382a6:	a802      	add	r0, sp, #8
  * @param PHYAddress: external PHY address                    
  * @retval ETH_ERROR: Ethernet initialization failed
  *         ETH_SUCCESS: Ethernet successfully initialized                 
  */
uint32_t ETH_Init(ETH_InitTypeDef* ETH_InitStruct, uint16_t PHYAddress)
{
 80382a8:	460e      	mov	r6, r1
  assert_param(IS_ETH_DMA_DESC_SKIP_LENGTH(ETH_InitStruct->ETH_DescriptorSkipLength));  
  assert_param(IS_ETH_DMA_ARBITRATION_ROUNDROBIN_RXTX(ETH_InitStruct->ETH_DMAArbitration));       
  /*-------------------------------- MAC Config ------------------------------*/   
  /*---------------------- ETHERNET MACMIIAR Configuration -------------------*/
  /* Get the ETHERNET MACMIIAR value */
  tmpreg = ETH->MACMIIAR;
 80382aa:	693d      	ldr	r5, [r7, #16]
  /* Clear CSR Clock Range CR[2:0] bits */
  tmpreg &= MACMIIAR_CR_MASK;
  /* Get hclk frequency value */
  RCC_GetClocksFreq(&rcc_clocks);
 80382ac:	f7ed fb3a 	bl	8025924 <RCC_GetClocksFreq>
  hclk = rcc_clocks.HCLK_Frequency;
 80382b0:	9b03      	ldr	r3, [sp, #12]
  
  /* Set CR bits depending on hclk value */
  if((hclk >= 20000000)&&(hclk < 35000000))
 80382b2:	4a8c      	ldr	r2, [pc, #560]	; (80384e4 <ETH_Init+0x24c>)
 80382b4:	498c      	ldr	r1, [pc, #560]	; (80384e8 <ETH_Init+0x250>)
 80382b6:	189a      	adds	r2, r3, r2
 80382b8:	428a      	cmp	r2, r1
  /*-------------------------------- MAC Config ------------------------------*/   
  /*---------------------- ETHERNET MACMIIAR Configuration -------------------*/
  /* Get the ETHERNET MACMIIAR value */
  tmpreg = ETH->MACMIIAR;
  /* Clear CSR Clock Range CR[2:0] bits */
  tmpreg &= MACMIIAR_CR_MASK;
 80382ba:	f025 051c 	bic.w	r5, r5, #28
  /* Get hclk frequency value */
  RCC_GetClocksFreq(&rcc_clocks);
  hclk = rcc_clocks.HCLK_Frequency;
  
  /* Set CR bits depending on hclk value */
  if((hclk >= 20000000)&&(hclk < 35000000))
 80382be:	d802      	bhi.n	80382c6 <ETH_Init+0x2e>
  {
    /* CSR Clock Range between 20-35 MHz */
    tmpreg |= (uint32_t)ETH_MACMIIAR_CR_Div16;
 80382c0:	f045 0508 	orr.w	r5, r5, #8
 80382c4:	e015      	b.n	80382f2 <ETH_Init+0x5a>
  }
  else if((hclk >= 35000000)&&(hclk < 60000000))
 80382c6:	4a89      	ldr	r2, [pc, #548]	; (80384ec <ETH_Init+0x254>)
 80382c8:	4989      	ldr	r1, [pc, #548]	; (80384f0 <ETH_Init+0x258>)
 80382ca:	189a      	adds	r2, r3, r2
 80382cc:	428a      	cmp	r2, r1
 80382ce:	d802      	bhi.n	80382d6 <ETH_Init+0x3e>
  {
    /* CSR Clock Range between 35-60 MHz */ 
    tmpreg |= (uint32_t)ETH_MACMIIAR_CR_Div26;    
 80382d0:	f045 050c 	orr.w	r5, r5, #12
 80382d4:	e00d      	b.n	80382f2 <ETH_Init+0x5a>
  }  
  else if((hclk >= 60000000)&&(hclk < 100000000))
 80382d6:	4a87      	ldr	r2, [pc, #540]	; (80384f4 <ETH_Init+0x25c>)
 80382d8:	4987      	ldr	r1, [pc, #540]	; (80384f8 <ETH_Init+0x260>)
 80382da:	189a      	adds	r2, r3, r2
 80382dc:	428a      	cmp	r2, r1
 80382de:	d908      	bls.n	80382f2 <ETH_Init+0x5a>
  {
    /* CSR Clock Range between 60-100 MHz */ 
    tmpreg |= (uint32_t)ETH_MACMIIAR_CR_Div42;    
  }  
  else if((hclk >= 100000000)&&(hclk < 150000000))
 80382e0:	4a86      	ldr	r2, [pc, #536]	; (80384fc <ETH_Init+0x264>)
 80382e2:	189a      	adds	r2, r3, r2
 80382e4:	4b86      	ldr	r3, [pc, #536]	; (8038500 <ETH_Init+0x268>)
 80382e6:	429a      	cmp	r2, r3
  {
    /* CSR Clock Range between 100-150 MHz */ 
    tmpreg |= (uint32_t)ETH_MACMIIAR_CR_Div62;    
 80382e8:	bf94      	ite	ls
 80382ea:	f045 0504 	orrls.w	r5, r5, #4
  }   
  else /* ((hclk >= 150000000)&&(hclk <= 168000000)) */
  {
    /* CSR Clock Range between 150-168 MHz */ 
    tmpreg |= (uint32_t)ETH_MACMIIAR_CR_Div102;    
 80382ee:	f045 0510 	orrhi.w	r5, r5, #16
  }
  
  /* Write to ETHERNET MAC MIIAR: Configure the ETHERNET CSR Clock Range */
  ETH->MACMIIAR = (uint32_t)tmpreg;  
 80382f2:	613d      	str	r5, [r7, #16]
  /*-------------------- PHY initialization and configuration ----------------*/
  /* Put the PHY in reset mode */
  if(!(ETH_WritePHYRegister(PHYAddress, PHY_BCR, PHY_Reset)))
 80382f4:	4630      	mov	r0, r6
 80382f6:	2100      	movs	r1, #0
 80382f8:	f44f 4200 	mov.w	r2, #32768	; 0x8000
 80382fc:	f7ff ffa4 	bl	8038248 <ETH_WritePHYRegister>
 8038300:	b908      	cbnz	r0, 8038306 <ETH_Init+0x6e>
  {
    /* Return ERROR in case of write timeout */
    return ETH_ERROR;
 8038302:	2000      	movs	r0, #0
 8038304:	e0e9      	b.n	80384da <ETH_Init+0x242>
  }
  
  /* Delay to assure PHY reset */
  _eth_delay_(PHY_RESET_DELAY);
 8038306:	487f      	ldr	r0, [pc, #508]	; (8038504 <ETH_Init+0x26c>)
 8038308:	f7ff fd6e 	bl	8037de8 <ETH_Delay>
    
  if(ETH_InitStruct->ETH_AutoNegotiation != ETH_AutoNegotiation_Disable)
 803830c:	6821      	ldr	r1, [r4, #0]
 803830e:	2900      	cmp	r1, #0
 8038310:	d050      	beq.n	80383b4 <ETH_Init+0x11c>
  {  
    /* We wait for linked status... */
    do
    {
      timeout++;
    } while (!(ETH_ReadPHYRegister(PHYAddress, PHY_BSR) & PHY_Linked_Status) && (timeout < PHY_READ_TO));
 8038312:	4d7d      	ldr	r5, [pc, #500]	; (8038508 <ETH_Init+0x270>)
  if(ETH_InitStruct->ETH_AutoNegotiation != ETH_AutoNegotiation_Disable)
  {  
    /* We wait for linked status... */
    do
    {
      timeout++;
 8038314:	9b01      	ldr	r3, [sp, #4]
    } while (!(ETH_ReadPHYRegister(PHYAddress, PHY_BSR) & PHY_Linked_Status) && (timeout < PHY_READ_TO));
 8038316:	4630      	mov	r0, r6
  if(ETH_InitStruct->ETH_AutoNegotiation != ETH_AutoNegotiation_Disable)
  {  
    /* We wait for linked status... */
    do
    {
      timeout++;
 8038318:	3301      	adds	r3, #1
    } while (!(ETH_ReadPHYRegister(PHYAddress, PHY_BSR) & PHY_Linked_Status) && (timeout < PHY_READ_TO));
 803831a:	2101      	movs	r1, #1
  if(ETH_InitStruct->ETH_AutoNegotiation != ETH_AutoNegotiation_Disable)
  {  
    /* We wait for linked status... */
    do
    {
      timeout++;
 803831c:	9301      	str	r3, [sp, #4]
    } while (!(ETH_ReadPHYRegister(PHYAddress, PHY_BSR) & PHY_Linked_Status) && (timeout < PHY_READ_TO));
 803831e:	f7ff ff67 	bl	80381f0 <ETH_ReadPHYRegister>
 8038322:	f000 0004 	and.w	r0, r0, #4
 8038326:	b280      	uxth	r0, r0
 8038328:	b910      	cbnz	r0, 8038330 <ETH_Init+0x98>
 803832a:	9b01      	ldr	r3, [sp, #4]
 803832c:	42ab      	cmp	r3, r5
 803832e:	d9f1      	bls.n	8038314 <ETH_Init+0x7c>

    /* Return ERROR in case of timeout */
    if(timeout == PHY_READ_TO)
 8038330:	9a01      	ldr	r2, [sp, #4]
 8038332:	4b76      	ldr	r3, [pc, #472]	; (803850c <ETH_Init+0x274>)
 8038334:	429a      	cmp	r2, r3
 8038336:	d0e4      	beq.n	8038302 <ETH_Init+0x6a>
    {
      return ETH_ERROR;
    }

    /* Reset Timeout counter */
    timeout = 0; 
 8038338:	2100      	movs	r1, #0
    /* Enable Auto-Negotiation */
    if(!(ETH_WritePHYRegister(PHYAddress, PHY_BCR, PHY_AutoNegotiation)))
 803833a:	4630      	mov	r0, r6
 803833c:	f44f 5280 	mov.w	r2, #4096	; 0x1000
    {
      return ETH_ERROR;
    }

    /* Reset Timeout counter */
    timeout = 0; 
 8038340:	9101      	str	r1, [sp, #4]
    /* Enable Auto-Negotiation */
    if(!(ETH_WritePHYRegister(PHYAddress, PHY_BCR, PHY_AutoNegotiation)))
 8038342:	f7ff ff81 	bl	8038248 <ETH_WritePHYRegister>
 8038346:	2800      	cmp	r0, #0
 8038348:	d0db      	beq.n	8038302 <ETH_Init+0x6a>

    /* Wait until the auto-negotiation will be completed */
    do
    {
      timeout++;
    } while (!(ETH_ReadPHYRegister(PHYAddress, PHY_BSR) & PHY_AutoNego_Complete) && (timeout < (uint32_t)PHY_READ_TO));  
 803834a:	4d6f      	ldr	r5, [pc, #444]	; (8038508 <ETH_Init+0x270>)
    }

    /* Wait until the auto-negotiation will be completed */
    do
    {
      timeout++;
 803834c:	9b01      	ldr	r3, [sp, #4]
    } while (!(ETH_ReadPHYRegister(PHYAddress, PHY_BSR) & PHY_AutoNego_Complete) && (timeout < (uint32_t)PHY_READ_TO));  
 803834e:	4630      	mov	r0, r6
    }

    /* Wait until the auto-negotiation will be completed */
    do
    {
      timeout++;
 8038350:	3301      	adds	r3, #1
    } while (!(ETH_ReadPHYRegister(PHYAddress, PHY_BSR) & PHY_AutoNego_Complete) && (timeout < (uint32_t)PHY_READ_TO));  
 8038352:	2101      	movs	r1, #1
    }

    /* Wait until the auto-negotiation will be completed */
    do
    {
      timeout++;
 8038354:	9301      	str	r3, [sp, #4]
    } while (!(ETH_ReadPHYRegister(PHYAddress, PHY_BSR) & PHY_AutoNego_Complete) && (timeout < (uint32_t)PHY_READ_TO));  
 8038356:	f7ff ff4b 	bl	80381f0 <ETH_ReadPHYRegister>
 803835a:	f000 0020 	and.w	r0, r0, #32
 803835e:	b280      	uxth	r0, r0
 8038360:	b910      	cbnz	r0, 8038368 <ETH_Init+0xd0>
 8038362:	9b01      	ldr	r3, [sp, #4]
 8038364:	42ab      	cmp	r3, r5
 8038366:	d9f1      	bls.n	803834c <ETH_Init+0xb4>

    /* Return ERROR in case of timeout */
    if(timeout == PHY_READ_TO)
 8038368:	9a01      	ldr	r2, [sp, #4]
 803836a:	4b68      	ldr	r3, [pc, #416]	; (803850c <ETH_Init+0x274>)
 803836c:	429a      	cmp	r2, r3
 803836e:	d0c8      	beq.n	8038302 <ETH_Init+0x6a>
    {
      return ETH_ERROR;
    }

    /* Reset Timeout counter */
    timeout = 0;
 8038370:	2500      	movs	r5, #0
    
    /* Read the result of the auto-negotiation */
    RegValue = ETH_ReadPHYRegister(PHYAddress, PHY_SR);
 8038372:	211f      	movs	r1, #31
 8038374:	4630      	mov	r0, r6
    {
      return ETH_ERROR;
    }

    /* Reset Timeout counter */
    timeout = 0;
 8038376:	9501      	str	r5, [sp, #4]
    
    /* Read the result of the auto-negotiation */
    RegValue = ETH_ReadPHYRegister(PHYAddress, PHY_SR);
 8038378:	f7ff ff3a 	bl	80381f0 <ETH_ReadPHYRegister>

		switch (RegValue & PHY_DUPLEX_SPEED_STATUS_MASK)
 803837c:	f000 001c 	and.w	r0, r0, #28
 8038380:	2808      	cmp	r0, #8
 8038382:	d00b      	beq.n	803839c <ETH_Init+0x104>
 8038384:	d802      	bhi.n	803838c <ETH_Init+0xf4>
 8038386:	2804      	cmp	r0, #4
 8038388:	d123      	bne.n	80383d2 <ETH_Init+0x13a>
 803838a:	e010      	b.n	80383ae <ETH_Init+0x116>
 803838c:	280e      	cmp	r0, #14
 803838e:	d00a      	beq.n	80383a6 <ETH_Init+0x10e>
 8038390:	2812      	cmp	r0, #18
 8038392:	d11e      	bne.n	80383d2 <ETH_Init+0x13a>
		{
		  case PHY_100BTX_FULL:
			  ETH_InitStruct->ETH_Mode  = ETH_Mode_FullDuplex;
 8038394:	f44f 6300 	mov.w	r3, #2048	; 0x800
 8038398:	6223      	str	r3, [r4, #32]
 803839a:	e000      	b.n	803839e <ETH_Init+0x106>
				ETH_InitStruct->ETH_Speed = ETH_Speed_100M; 
			  break;

		  case PHY_100BTX_HALF:
			  ETH_InitStruct->ETH_Mode  = ETH_Mode_HalfDuplex;
 803839c:	6225      	str	r5, [r4, #32]
				ETH_InitStruct->ETH_Speed = ETH_Speed_100M; 
 803839e:	f44f 4380 	mov.w	r3, #16384	; 0x4000
 80383a2:	6163      	str	r3, [r4, #20]
  			break;
 80383a4:	e015      	b.n	80383d2 <ETH_Init+0x13a>

		  case PHY_10M_FULL:
			  ETH_InitStruct->ETH_Mode  = ETH_Mode_FullDuplex;
 80383a6:	f44f 6300 	mov.w	r3, #2048	; 0x800
 80383aa:	6223      	str	r3, [r4, #32]
 80383ac:	e000      	b.n	80383b0 <ETH_Init+0x118>
				ETH_InitStruct->ETH_Speed = ETH_Speed_10M;
			  break;

		  case PHY_10M_HALF:
			  ETH_InitStruct->ETH_Mode  = ETH_Mode_HalfDuplex;
 80383ae:	6225      	str	r5, [r4, #32]
				ETH_InitStruct->ETH_Speed = ETH_Speed_10M; 
 80383b0:	6165      	str	r5, [r4, #20]
			  break;
 80383b2:	e00e      	b.n	80383d2 <ETH_Init+0x13a>
			  break;
		}		   
  }
  else
  {
    if(!ETH_WritePHYRegister(PHYAddress, PHY_BCR, ((uint16_t)(ETH_InitStruct->ETH_Mode >> 3) |
 80383b4:	6a22      	ldr	r2, [r4, #32]
                                                   (uint16_t)(ETH_InitStruct->ETH_Speed >> 1))))
 80383b6:	6963      	ldr	r3, [r4, #20]
			  break;
		}		   
  }
  else
  {
    if(!ETH_WritePHYRegister(PHYAddress, PHY_BCR, ((uint16_t)(ETH_InitStruct->ETH_Mode >> 3) |
 80383b8:	08d2      	lsrs	r2, r2, #3
 80383ba:	ea42 0253 	orr.w	r2, r2, r3, lsr #1
 80383be:	4630      	mov	r0, r6
 80383c0:	b292      	uxth	r2, r2
 80383c2:	f7ff ff41 	bl	8038248 <ETH_WritePHYRegister>
 80383c6:	2800      	cmp	r0, #0
 80383c8:	d09b      	beq.n	8038302 <ETH_Init+0x6a>
    {
      /* Return ERROR in case of write timeout */
      return ETH_ERROR;
    }
    /* Delay to assure PHY configuration */
    _eth_delay_(PHY_CONFIG_DELAY);
 80383ca:	f06f 407f 	mvn.w	r0, #4278190080	; 0xff000000
 80383ce:	f7ff fd0b 	bl	8037de8 <ETH_Delay>
    
  }
  /*------------------------ ETHERNET MACCR Configuration --------------------*/
  /* Get the ETHERNET MACCR value */  
  tmpreg = ETH->MACCR;
 80383d2:	4b43      	ldr	r3, [pc, #268]	; (80384e0 <ETH_Init+0x248>)
  /* Clear WD, PCE, PS, TE and RE bits */
  tmpreg &= MACCR_CLEAR_MASK;
 80383d4:	4a4e      	ldr	r2, [pc, #312]	; (8038510 <ETH_Init+0x278>)
    _eth_delay_(PHY_CONFIG_DELAY);
    
  }
  /*------------------------ ETHERNET MACCR Configuration --------------------*/
  /* Get the ETHERNET MACCR value */  
  tmpreg = ETH->MACCR;
 80383d6:	6819      	ldr	r1, [r3, #0]
  /* Set the IPCO bit according to ETH_ChecksumOffload value */                   
  /* Set the DR bit according to ETH_RetryTransmission value */ 
  /* Set the ACS bit according to ETH_AutomaticPadCRCStrip value */ 
  /* Set the BL bit according to ETH_BackOffLimit value */ 
  /* Set the DC bit according to ETH_DeferralCheck value */                          
  tmpreg |= (uint32_t)(ETH_InitStruct->ETH_Watchdog | 
 80383d8:	68a0      	ldr	r0, [r4, #8]
  }
  /*------------------------ ETHERNET MACCR Configuration --------------------*/
  /* Get the ETHERNET MACCR value */  
  tmpreg = ETH->MACCR;
  /* Clear WD, PCE, PS, TE and RE bits */
  tmpreg &= MACCR_CLEAR_MASK;
 80383da:	400a      	ands	r2, r1
  /* Set the IPCO bit according to ETH_ChecksumOffload value */                   
  /* Set the DR bit according to ETH_RetryTransmission value */ 
  /* Set the ACS bit according to ETH_AutomaticPadCRCStrip value */ 
  /* Set the BL bit according to ETH_BackOffLimit value */ 
  /* Set the DC bit according to ETH_DeferralCheck value */                          
  tmpreg |= (uint32_t)(ETH_InitStruct->ETH_Watchdog | 
 80383dc:	6861      	ldr	r1, [r4, #4]
 80383de:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_Jabber | 
 80383e0:	68e1      	ldr	r1, [r4, #12]
 80383e2:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_InterFrameGap |
 80383e4:	6921      	ldr	r1, [r4, #16]
 80383e6:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_CarrierSense |
 80383e8:	6961      	ldr	r1, [r4, #20]
 80383ea:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_Speed | 
 80383ec:	69a1      	ldr	r1, [r4, #24]
 80383ee:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_ReceiveOwn |
 80383f0:	69e1      	ldr	r1, [r4, #28]
 80383f2:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_LoopbackMode |
 80383f4:	6a21      	ldr	r1, [r4, #32]
 80383f6:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_Mode | 
 80383f8:	6a61      	ldr	r1, [r4, #36]	; 0x24
 80383fa:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_ChecksumOffload |    
 80383fc:	6aa1      	ldr	r1, [r4, #40]	; 0x28
 80383fe:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_RetryTransmission | 
 8038400:	6ae1      	ldr	r1, [r4, #44]	; 0x2c
 8038402:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_AutomaticPadCRCStrip | 
 8038404:	6b21      	ldr	r1, [r4, #48]	; 0x30
 8038406:	4308      	orrs	r0, r1
  /* Set the IPCO bit according to ETH_ChecksumOffload value */                   
  /* Set the DR bit according to ETH_RetryTransmission value */ 
  /* Set the ACS bit according to ETH_AutomaticPadCRCStrip value */ 
  /* Set the BL bit according to ETH_BackOffLimit value */ 
  /* Set the DC bit according to ETH_DeferralCheck value */                          
  tmpreg |= (uint32_t)(ETH_InitStruct->ETH_Watchdog | 
 8038408:	6b61      	ldr	r1, [r4, #52]	; 0x34
 803840a:	4301      	orrs	r1, r0
 803840c:	430a      	orrs	r2, r1
                  ETH_InitStruct->ETH_RetryTransmission | 
                  ETH_InitStruct->ETH_AutomaticPadCRCStrip | 
                  ETH_InitStruct->ETH_BackOffLimit | 
                  ETH_InitStruct->ETH_DeferralCheck);
  /* Write to ETHERNET MACCR */
  ETH->MACCR = (uint32_t)tmpreg;
 803840e:	601a      	str	r2, [r3, #0]
  /* Set the DAIF bit according to ETH_DestinationAddrFilter value */
  /* Set the PR bit according to ETH_PromiscuousMode value */
  /* Set the PM, HMC and HPF bits according to ETH_MulticastFramesFilter value */
  /* Set the HUC and HPF bits according to ETH_UnicastFramesFilter value */
  /* Write to ETHERNET MACFFR */  
  ETH->MACFFR = (uint32_t)(ETH_InitStruct->ETH_ReceiveAll | 
 8038410:	6ba2      	ldr	r2, [r4, #56]	; 0x38
 8038412:	6be1      	ldr	r1, [r4, #60]	; 0x3c
 8038414:	4311      	orrs	r1, r2
                          ETH_InitStruct->ETH_SourceAddrFilter |
 8038416:	6c22      	ldr	r2, [r4, #64]	; 0x40
 8038418:	4311      	orrs	r1, r2
                          ETH_InitStruct->ETH_PassControlFrames |
 803841a:	6c62      	ldr	r2, [r4, #68]	; 0x44
 803841c:	4311      	orrs	r1, r2
                          ETH_InitStruct->ETH_BroadcastFramesReception | 
 803841e:	6ca2      	ldr	r2, [r4, #72]	; 0x48
 8038420:	4311      	orrs	r1, r2
                          ETH_InitStruct->ETH_DestinationAddrFilter |
 8038422:	6ce2      	ldr	r2, [r4, #76]	; 0x4c
 8038424:	4311      	orrs	r1, r2
                          ETH_InitStruct->ETH_PromiscuousMode |
 8038426:	6d22      	ldr	r2, [r4, #80]	; 0x50
 8038428:	4311      	orrs	r1, r2
  /* Set the DAIF bit according to ETH_DestinationAddrFilter value */
  /* Set the PR bit according to ETH_PromiscuousMode value */
  /* Set the PM, HMC and HPF bits according to ETH_MulticastFramesFilter value */
  /* Set the HUC and HPF bits according to ETH_UnicastFramesFilter value */
  /* Write to ETHERNET MACFFR */  
  ETH->MACFFR = (uint32_t)(ETH_InitStruct->ETH_ReceiveAll | 
 803842a:	6d62      	ldr	r2, [r4, #84]	; 0x54
 803842c:	430a      	orrs	r2, r1
 803842e:	605a      	str	r2, [r3, #4]
                          ETH_InitStruct->ETH_PromiscuousMode |
                          ETH_InitStruct->ETH_MulticastFramesFilter |
                          ETH_InitStruct->ETH_UnicastFramesFilter); 
  /*--------------- ETHERNET MACHTHR and MACHTLR Configuration ---------------*/
  /* Write to ETHERNET MACHTHR */
  ETH->MACHTHR = (uint32_t)ETH_InitStruct->ETH_HashTableHigh;
 8038430:	6da2      	ldr	r2, [r4, #88]	; 0x58
 8038432:	609a      	str	r2, [r3, #8]
  /* Write to ETHERNET MACHTLR */
  ETH->MACHTLR = (uint32_t)ETH_InitStruct->ETH_HashTableLow;
 8038434:	6de2      	ldr	r2, [r4, #92]	; 0x5c
 8038436:	60da      	str	r2, [r3, #12]
  /* Set the DZPQ bit according to ETH_ZeroQuantaPause value */
  /* Set the PLT bit according to ETH_PauseLowThreshold value */
  /* Set the UP bit according to ETH_UnicastPauseFrameDetect value */
  /* Set the RFE bit according to ETH_ReceiveFlowControl value */
  /* Set the TFE bit according to ETH_TransmitFlowControl value */  
  tmpreg |= (uint32_t)((ETH_InitStruct->ETH_PauseTime << 16) | 
 8038438:	6e62      	ldr	r2, [r4, #100]	; 0x64
 803843a:	6ea1      	ldr	r1, [r4, #104]	; 0x68
  ETH->MACHTHR = (uint32_t)ETH_InitStruct->ETH_HashTableHigh;
  /* Write to ETHERNET MACHTLR */
  ETH->MACHTLR = (uint32_t)ETH_InitStruct->ETH_HashTableLow;
  /*----------------------- ETHERNET MACFCR Configuration --------------------*/
  /* Get the ETHERNET MACFCR value */  
  tmpreg = ETH->MACFCR;
 803843c:	6998      	ldr	r0, [r3, #24]
  /* Set the DZPQ bit according to ETH_ZeroQuantaPause value */
  /* Set the PLT bit according to ETH_PauseLowThreshold value */
  /* Set the UP bit according to ETH_UnicastPauseFrameDetect value */
  /* Set the RFE bit according to ETH_ReceiveFlowControl value */
  /* Set the TFE bit according to ETH_TransmitFlowControl value */  
  tmpreg |= (uint32_t)((ETH_InitStruct->ETH_PauseTime << 16) | 
 803843e:	4311      	orrs	r1, r2
                   ETH_InitStruct->ETH_ZeroQuantaPause |
 8038440:	6ee2      	ldr	r2, [r4, #108]	; 0x6c
 8038442:	4311      	orrs	r1, r2
                   ETH_InitStruct->ETH_PauseLowThreshold |
 8038444:	6f22      	ldr	r2, [r4, #112]	; 0x70
 8038446:	4311      	orrs	r1, r2
                   ETH_InitStruct->ETH_UnicastPauseFrameDetect | 
 8038448:	6f62      	ldr	r2, [r4, #116]	; 0x74
 803844a:	4311      	orrs	r1, r2
  ETH->MACHTLR = (uint32_t)ETH_InitStruct->ETH_HashTableLow;
  /*----------------------- ETHERNET MACFCR Configuration --------------------*/
  /* Get the ETHERNET MACFCR value */  
  tmpreg = ETH->MACFCR;
  /* Clear xx bits */
  tmpreg &= MACFCR_CLEAR_MASK;
 803844c:	f64f 7241 	movw	r2, #65345	; 0xff41
 8038450:	4002      	ands	r2, r0
  /* Set the DZPQ bit according to ETH_ZeroQuantaPause value */
  /* Set the PLT bit according to ETH_PauseLowThreshold value */
  /* Set the UP bit according to ETH_UnicastPauseFrameDetect value */
  /* Set the RFE bit according to ETH_ReceiveFlowControl value */
  /* Set the TFE bit according to ETH_TransmitFlowControl value */  
  tmpreg |= (uint32_t)((ETH_InitStruct->ETH_PauseTime << 16) | 
 8038452:	430a      	orrs	r2, r1
 8038454:	6e21      	ldr	r1, [r4, #96]	; 0x60
 8038456:	ea42 4101 	orr.w	r1, r2, r1, lsl #16
                   ETH_InitStruct->ETH_PauseLowThreshold |
                   ETH_InitStruct->ETH_UnicastPauseFrameDetect | 
                   ETH_InitStruct->ETH_ReceiveFlowControl |
                   ETH_InitStruct->ETH_TransmitFlowControl); 
  /* Write to ETHERNET MACFCR */
  ETH->MACFCR = (uint32_t)tmpreg;
 803845a:	6199      	str	r1, [r3, #24]
  /*----------------------- ETHERNET MACVLANTR Configuration -----------------*/
  /* Set the ETV bit according to ETH_VLANTagComparison value */
  /* Set the VL bit according to ETH_VLANTagIdentifier value */  
  ETH->MACVLANTR = (uint32_t)(ETH_InitStruct->ETH_VLANTagComparison | 
 803845c:	6fe1      	ldr	r1, [r4, #124]	; 0x7c
 803845e:	6fa2      	ldr	r2, [r4, #120]	; 0x78
 8038460:	430a      	orrs	r2, r1
 8038462:	61da      	str	r2, [r3, #28]
                             ETH_InitStruct->ETH_VLANTagIdentifier); 
       
  /*-------------------------------- DMA Config ------------------------------*/
  /*----------------------- ETHERNET DMAOMR Configuration --------------------*/
  /* Get the ETHERNET DMAOMR value */  
  tmpreg = ETH->DMAOMR;
 8038464:	f503 5380 	add.w	r3, r3, #4096	; 0x1000
  /* Clear xx bits */
  tmpreg &= DMAOMR_CLEAR_MASK;
 8038468:	4a2a      	ldr	r2, [pc, #168]	; (8038514 <ETH_Init+0x27c>)
                             ETH_InitStruct->ETH_VLANTagIdentifier); 
       
  /*-------------------------------- DMA Config ------------------------------*/
  /*----------------------- ETHERNET DMAOMR Configuration --------------------*/
  /* Get the ETHERNET DMAOMR value */  
  tmpreg = ETH->DMAOMR;
 803846a:	6999      	ldr	r1, [r3, #24]
  /* Set the TTC bit according to ETH_TransmitThresholdControl value */
  /* Set the FEF bit according to ETH_ForwardErrorFrames value */
  /* Set the FUF bit according to ETH_ForwardUndersizedGoodFrames value */
  /* Set the RTC bit according to ETH_ReceiveThresholdControl value */
  /* Set the OSF bit according to ETH_SecondFrameOperate value */
  tmpreg |= (uint32_t)(ETH_InitStruct->ETH_DropTCPIPChecksumErrorFrame | 
 803846c:	f8d4 0084 	ldr.w	r0, [r4, #132]	; 0x84
  /*-------------------------------- DMA Config ------------------------------*/
  /*----------------------- ETHERNET DMAOMR Configuration --------------------*/
  /* Get the ETHERNET DMAOMR value */  
  tmpreg = ETH->DMAOMR;
  /* Clear xx bits */
  tmpreg &= DMAOMR_CLEAR_MASK;
 8038470:	400a      	ands	r2, r1
  /* Set the TTC bit according to ETH_TransmitThresholdControl value */
  /* Set the FEF bit according to ETH_ForwardErrorFrames value */
  /* Set the FUF bit according to ETH_ForwardUndersizedGoodFrames value */
  /* Set the RTC bit according to ETH_ReceiveThresholdControl value */
  /* Set the OSF bit according to ETH_SecondFrameOperate value */
  tmpreg |= (uint32_t)(ETH_InitStruct->ETH_DropTCPIPChecksumErrorFrame | 
 8038472:	f8d4 1080 	ldr.w	r1, [r4, #128]	; 0x80
 8038476:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_ReceiveStoreForward |
 8038478:	f8d4 1088 	ldr.w	r1, [r4, #136]	; 0x88
 803847c:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_FlushReceivedFrame |
 803847e:	f8d4 108c 	ldr.w	r1, [r4, #140]	; 0x8c
 8038482:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_TransmitStoreForward | 
 8038484:	f8d4 1090 	ldr.w	r1, [r4, #144]	; 0x90
 8038488:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_TransmitThresholdControl |
 803848a:	f8d4 1094 	ldr.w	r1, [r4, #148]	; 0x94
 803848e:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_ForwardErrorFrames |
 8038490:	f8d4 1098 	ldr.w	r1, [r4, #152]	; 0x98
 8038494:	4308      	orrs	r0, r1
                  ETH_InitStruct->ETH_ForwardUndersizedGoodFrames |
 8038496:	f8d4 109c 	ldr.w	r1, [r4, #156]	; 0x9c
 803849a:	4308      	orrs	r0, r1
  /* Set the TTC bit according to ETH_TransmitThresholdControl value */
  /* Set the FEF bit according to ETH_ForwardErrorFrames value */
  /* Set the FUF bit according to ETH_ForwardUndersizedGoodFrames value */
  /* Set the RTC bit according to ETH_ReceiveThresholdControl value */
  /* Set the OSF bit according to ETH_SecondFrameOperate value */
  tmpreg |= (uint32_t)(ETH_InitStruct->ETH_DropTCPIPChecksumErrorFrame | 
 803849c:	f8d4 10a0 	ldr.w	r1, [r4, #160]	; 0xa0
 80384a0:	4301      	orrs	r1, r0
 80384a2:	430a      	orrs	r2, r1
                  ETH_InitStruct->ETH_ForwardErrorFrames |
                  ETH_InitStruct->ETH_ForwardUndersizedGoodFrames |
                  ETH_InitStruct->ETH_ReceiveThresholdControl |                                   
                  ETH_InitStruct->ETH_SecondFrameOperate); 
  /* Write to ETHERNET DMAOMR */
  ETH->DMAOMR = (uint32_t)tmpreg;
 80384a4:	619a      	str	r2, [r3, #24]
  /* Set the FB bit according to ETH_FixedBurst value */
  /* Set the RPBL and 4*PBL bits according to ETH_RxDMABurstLength value */
  /* Set the PBL and 4*PBL bits according to ETH_TxDMABurstLength value */
  /* Set the DSL bit according to ETH_DesciptorSkipLength value */
  /* Set the PR and DA bits according to ETH_DMAArbitration value */         
  ETH->DMABMR = (uint32_t)(ETH_InitStruct->ETH_AddressAlignedBeats | 
 80384a6:	f8d4 20a8 	ldr.w	r2, [r4, #168]	; 0xa8
 80384aa:	f8d4 10a4 	ldr.w	r1, [r4, #164]	; 0xa4
 80384ae:	4311      	orrs	r1, r2
                          ETH_InitStruct->ETH_FixedBurst |
                          ETH_InitStruct->ETH_RxDMABurstLength | /* !! if 4xPBL is selected for Tx or Rx it is applied for the other */
 80384b0:	f8d4 20ac 	ldr.w	r2, [r4, #172]	; 0xac
  /* Set the RPBL and 4*PBL bits according to ETH_RxDMABurstLength value */
  /* Set the PBL and 4*PBL bits according to ETH_TxDMABurstLength value */
  /* Set the DSL bit according to ETH_DesciptorSkipLength value */
  /* Set the PR and DA bits according to ETH_DMAArbitration value */         
  ETH->DMABMR = (uint32_t)(ETH_InitStruct->ETH_AddressAlignedBeats | 
                          ETH_InitStruct->ETH_FixedBurst |
 80384b4:	f441 0100 	orr.w	r1, r1, #8388608	; 0x800000
                          ETH_InitStruct->ETH_RxDMABurstLength | /* !! if 4xPBL is selected for Tx or Rx it is applied for the other */
 80384b8:	4311      	orrs	r1, r2
                          ETH_InitStruct->ETH_TxDMABurstLength | 
 80384ba:	f8d4 20b0 	ldr.w	r2, [r4, #176]	; 0xb0
 80384be:	4311      	orrs	r1, r2
                         (ETH_InitStruct->ETH_DescriptorSkipLength << 2) |
 80384c0:	f8d4 20b8 	ldr.w	r2, [r4, #184]	; 0xb8
 80384c4:	430a      	orrs	r2, r1
 80384c6:	f8d4 10b4 	ldr.w	r1, [r4, #180]	; 0xb4
  /* Set the FB bit according to ETH_FixedBurst value */
  /* Set the RPBL and 4*PBL bits according to ETH_RxDMABurstLength value */
  /* Set the PBL and 4*PBL bits according to ETH_TxDMABurstLength value */
  /* Set the DSL bit according to ETH_DesciptorSkipLength value */
  /* Set the PR and DA bits according to ETH_DMAArbitration value */         
  ETH->DMABMR = (uint32_t)(ETH_InitStruct->ETH_AddressAlignedBeats | 
 80384ca:	ea42 0281 	orr.w	r2, r2, r1, lsl #2
 80384ce:	601a      	str	r2, [r3, #0]
                          ETH_InitStruct->ETH_DMAArbitration |
                          ETH_DMABMR_USP); /* Enable use of separate PBL for Rx and Tx */
                          
  #ifdef USE_ENHANCED_DMA_DESCRIPTORS
    /* Enable the Enhanced DMA descriptors */
    ETH->DMABMR |= ETH_DMABMR_EDE;
 80384d0:	681a      	ldr	r2, [r3, #0]
 80384d2:	f042 0280 	orr.w	r2, r2, #128	; 0x80
 80384d6:	601a      	str	r2, [r3, #0]
  #endif /* USE_ENHANCED_DMA_DESCRIPTORS */
                              
  /* Return Ethernet configuration success */
  return ETH_SUCCESS;
 80384d8:	2001      	movs	r0, #1
}
 80384da:	b007      	add	sp, #28
 80384dc:	bdf0      	pop	{r4, r5, r6, r7, pc}
 80384de:	bf00      	nop
 80384e0:	40028000 	.word	0x40028000
 80384e4:	feced300 	.word	0xfeced300
 80384e8:	00e4e1bf 	.word	0x00e4e1bf
 80384ec:	fde9f140 	.word	0xfde9f140
 80384f0:	017d783f 	.word	0x017d783f
 80384f4:	fc6c7900 	.word	0xfc6c7900
 80384f8:	026259ff 	.word	0x026259ff
 80384fc:	fa0a1f00 	.word	0xfa0a1f00
 8038500:	02faf07f 	.word	0x02faf07f
 8038504:	000fffff 	.word	0x000fffff
 8038508:	0004fffe 	.word	0x0004fffe
 803850c:	0004ffff 	.word	0x0004ffff
 8038510:	ff20810f 	.word	0xff20810f
 8038514:	f8de3f23 	.word	0xf8de3f23

08038518 <_sbrk>:
    extern char _ebss; // Defined by the linker
    extern char __bss_end__;
    static char *heap_end;
    char *prev_heap_end;

    if (heap_end == 0) {
 8038518:	4b0a      	ldr	r3, [pc, #40]	; (8038544 <_sbrk+0x2c>)
 803851a:	681a      	ldr	r2, [r3, #0]
 803851c:	b90a      	cbnz	r2, 8038522 <_sbrk+0xa>
    	//heap_end = &_ebss;
    	heap_end = &__bss_end__;
 803851e:	4a0a      	ldr	r2, [pc, #40]	; (8038548 <_sbrk+0x30>)
 8038520:	601a      	str	r2, [r3, #0]
    }
    prev_heap_end = heap_end;
 8038522:	681b      	ldr	r3, [r3, #0]
 */
__attribute__( ( always_inline ) ) __STATIC_INLINE uint32_t __get_MSP(void)
{
  register uint32_t result;

  __ASM volatile ("MRS %0, msp\n" : "=r" (result) );
 8038524:	f3ef 8208 	mrs	r2, MSP

char * stack = (char*) __get_MSP();
     if (heap_end + incr >  stack)
 8038528:	1818      	adds	r0, r3, r0
 803852a:	4290      	cmp	r0, r2
 803852c:	d905      	bls.n	803853a <_sbrk+0x22>
     {
         _write (STDERR_FILENO, "Heap and stack collision\n", 25);
         errno = ENOMEM;
 803852e:	4b07      	ldr	r3, [pc, #28]	; (803854c <_sbrk+0x34>)
 8038530:	220c      	movs	r2, #12
 8038532:	601a      	str	r2, [r3, #0]
         return  (caddr_t) -1;
 8038534:	f04f 33ff 	mov.w	r3, #4294967295
 8038538:	e001      	b.n	803853e <_sbrk+0x26>
         //abort ();
     }

    heap_end += incr;
 803853a:	4a02      	ldr	r2, [pc, #8]	; (8038544 <_sbrk+0x2c>)
 803853c:	6010      	str	r0, [r2, #0]
    return (caddr_t) prev_heap_end;

}
 803853e:	4618      	mov	r0, r3
 8038540:	4770      	bx	lr
 8038542:	bf00      	nop
 8038544:	2000c808 	.word	0x2000c808
 8038548:	2001393c 	.word	0x2001393c
 803854c:	20013838 	.word	0x20013838

08038550 <Reset_Handler>:
  .weak  Reset_Handler
  .type  Reset_Handler, %function
Reset_Handler:  

/* Copy the data segment initializers from flash to SRAM */  
  movs  r1, #0
 8038550:	2100      	movs	r1, #0
  b  LoopCopyDataInit
 8038552:	f000 b804 	b.w	803855e <LoopCopyDataInit>

08038556 <CopyDataInit>:

CopyDataInit:
  ldr  r3, =_sidata
 8038556:	4b0d      	ldr	r3, [pc, #52]	; (803858c <LoopFillZerobss+0x16>)
  ldr  r3, [r3, r1]
 8038558:	585b      	ldr	r3, [r3, r1]
  str  r3, [r0, r1]
 803855a:	5043      	str	r3, [r0, r1]
  adds  r1, r1, #4
 803855c:	3104      	adds	r1, #4

0803855e <LoopCopyDataInit>:
    
LoopCopyDataInit:
  ldr  r0, =_sdata
 803855e:	480c      	ldr	r0, [pc, #48]	; (8038590 <LoopFillZerobss+0x1a>)
  ldr  r3, =_edata
 8038560:	4b0c      	ldr	r3, [pc, #48]	; (8038594 <LoopFillZerobss+0x1e>)
  adds  r2, r0, r1
 8038562:	1842      	adds	r2, r0, r1
  cmp  r2, r3
 8038564:	429a      	cmp	r2, r3
  bcc  CopyDataInit
 8038566:	f4ff aff6 	bcc.w	8038556 <CopyDataInit>
  ldr  r2, =_sbss
 803856a:	4a0b      	ldr	r2, [pc, #44]	; (8038598 <LoopFillZerobss+0x22>)
  b  LoopFillZerobss
 803856c:	f000 b803 	b.w	8038576 <LoopFillZerobss>

08038570 <FillZerobss>:
/* Zero fill the bss segment. */  
FillZerobss:
  movs  r3, #0
 8038570:	2300      	movs	r3, #0
  str  r3, [r2], #4
 8038572:	f842 3b04 	str.w	r3, [r2], #4

08038576 <LoopFillZerobss>:
    
LoopFillZerobss:
  ldr  r3, = _ebss
 8038576:	4b09      	ldr	r3, [pc, #36]	; (803859c <LoopFillZerobss+0x26>)
  cmp  r2, r3
 8038578:	429a      	cmp	r2, r3
  bcc  FillZerobss
 803857a:	f4ff aff9 	bcc.w	8038570 <FillZerobss>

/* Call the clock system intitialization function.*/
  bl  SystemInit   
 803857e:	f7ed fda3 	bl	80260c8 <SystemInit>
/* Call static constructors */
    bl __libc_init_array
 8038582:	f7e9 faf5 	bl	8021b70 <__libc_init_array>
/* Call the application's entry point.*/
  bl  main
 8038586:	f7ee fe5d 	bl	8027244 <main>
  bx  lr    
 803858a:	4770      	bx	lr
/* Copy the data segment initializers from flash to SRAM */  
  movs  r1, #0
  b  LoopCopyDataInit

CopyDataInit:
  ldr  r3, =_sidata
 803858c:	08044b5c 	.word	0x08044b5c
  ldr  r3, [r3, r1]
  str  r3, [r0, r1]
  adds  r1, r1, #4
    
LoopCopyDataInit:
  ldr  r0, =_sdata
 8038590:	20000000 	.word	0x20000000
  ldr  r3, =_edata
 8038594:	20000ab4 	.word	0x20000ab4
  adds  r2, r0, r1
  cmp  r2, r3
  bcc  CopyDataInit
  ldr  r2, =_sbss
 8038598:	20000ab4 	.word	0x20000ab4
FillZerobss:
  movs  r3, #0
  str  r3, [r2], #4
    
LoopFillZerobss:
  ldr  r3, = _ebss
 803859c:	2001393c 	.word	0x2001393c

080385a0 <ADC_IRQHandler>:
 * @retval None       
*/
    .section  .text.Default_Handler,"ax",%progbits
Default_Handler:
Infinite_Loop:
  b  Infinite_Loop
 80385a0:	f7ff bffe 	b.w	80385a0 <ADC_IRQHandler>

080385a4 <_ctype_>:
 80385a4:	2000 2020 2020 2020 2020 2828 2828 2028     .         ((((( 
 80385b4:	2020 2020 2020 2020 2020 2020 2020 2020                     
 80385c4:	8820 1010 1010 1010 1010 1010 1010 1010      ...............
 80385d4:	0410 0404 0404 0404 0404 1004 1010 1010     ................
 80385e4:	1010 4141 4141 4141 0101 0101 0101 0101     ..AAAAAA........
 80385f4:	0101 0101 0101 0101 0101 0101 1010 1010     ................
 8038604:	1010 4242 4242 4242 0202 0202 0202 0202     ..BBBBBB........
 8038614:	0202 0202 0202 0202 0202 0202 1010 1010     ................
 8038624:	0020 0000 0000 0000 0000 0000 0000 0000      ...............
 8038634:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 8038644:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 8038654:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 8038664:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 8038674:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 8038684:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 8038694:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80386a4:	0000 0000                                   ....

080386a8 <tinytens>:
 80386a8:	89bc 97d8 d2b2 3c9c a733 d5a8 f623 3949     .......<3...#.I9
 80386b8:	a73d 44f4 0ffd 32a5 979d cf8c ba08 255b     =..D...2......[%
 80386c8:	6f43 64ac 0628 0e18                         Co.d(...

080386d0 <p05.5261>:
 80386d0:	0005 0000 0019 0000 007d 0000 0000 0000     ........}.......

080386e0 <__mprec_tens>:
 80386e0:	0000 0000 0000 3ff0 0000 0000 0000 4024     .......?......$@
 80386f0:	0000 0000 0000 4059 0000 0000 4000 408f     ......Y@.....@.@
 8038700:	0000 0000 8800 40c3 0000 0000 6a00 40f8     .......@.....j.@
 8038710:	0000 0000 8480 412e 0000 0000 12d0 4163     .......A......cA
 8038720:	0000 0000 d784 4197 0000 0000 cd65 41cd     .......A....e..A
 8038730:	0000 2000 a05f 4202 0000 e800 4876 4237     ... _..B....vH7B
 8038740:	0000 a200 1a94 426d 0000 e540 309c 42a2     ......mB..@..0.B
 8038750:	0000 1e90 bcc4 42d6 0000 2634 6bf5 430c     .......B..4&.k.C
 8038760:	8000 37e0 c379 4341 a000 85d8 3457 4376     ...7y.AC....W4vC
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 80387a0:	9db4 79d9 7843 44ea                         ...yCx.D

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 80387c8:	6f43 64ac 0628 0ac8                         Co.d(...

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 8038dd0:	6d54 2072 7653 0063                         Tmr Svc.

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 8043b8c:	c69e 721e d1de 135b 8156 6de7 18de 1f79     ...r..[.V..m..y.
 8043b9c:	39d5 9d4d 6fad e3fb 3ccc ff1c 2503 ce74     .9M..o...<...%t.
 8043bac:	4891 000a 0000 0000                         .H......

08043bb4 <file__favicon_ico>:
 8043bb4:	0000 0000 f4c1 0803 f4d1 0803 053c 0000     ............<...
 8043bc4:	0001 0000                                   ....

08043bc8 <file__settings_html>:
 8043bc8:	2c08 0804 b001 0803 b011 0803 1233 0000     .,..........3...
 8043bd8:	0001 0000                                   ....

08043bdc <file__main_js>:
 8043bdc:	3648 0804 c570 0803 c57c 0803 2a56 0000     H6..p...|...V*..
 8043bec:	0001 0000                                   ....

08043bf0 <file__info_html>:
 8043bf0:	c558 0803 2c30 0804 2c3c 0804 04f6 0000     X...0,..<,......
 8043c00:	0001 0000                                   ....

08043c04 <file__login_html>:
 8043c04:	3bf0 0804 c244 0803 c250 0803 02f6 0000     .;..D...P.......
 8043c14:	0001 0000                                   ....

08043c18 <file__history_html>:
 8043c18:	3bb4 0804 3132 0804 3142 0804 04f1 0000     .;..21..B1......
 8043c28:	0001 0000                                   ....

08043c2c <file__role_js>:
 8043c2c:	3bdc 0804 a5e6 0803 a5f2 0803 0a0f 0000     .;..............
 8043c3c:	0001 0000 5448 5054 312f 302e 3220 3030     ....HTTP/1.0 200
 8043c4c:	4f20 0d4b 430a 6e6f 6574 746e 542d 7079      OK..Content-Typ
 8043c5c:	3a65 6574 7478 682f 6d74 0d6c 0d0a 000a     e:text/html.....
 8043c6c:	227b 4341 3a22 0022 2c22 4422 2243 223a     {"AC":".","DC":"
 8043c7c:	2200 222c 6e69 665f 6572 2271 223a 2200     .","in_freq":"."
 8043c8c:	222c 756f 5f74 7266 7165 3a22 0022 2c22     ,"out_freq":".",
 8043c9c:	7022 7277 3a22 0022 2c22 6222 7461 635f     "pwr":".","bat_c
 8043cac:	7061 3a22 0022 2c22 6922 6e6e 7265 745f     ap":".","inner_t
 8043cbc:	6d65 2270 223a 2200 222c 6162 5f74 6974     emp":".","bat_ti
 8043ccc:	656d 6c5f 6665 2274 223a 2200 222c 6964     me_left":".","di
 8043cdc:	2231 223a 2200 222c 6f72 2231 223a 2200     1":".","ro1":"."
 8043cec:	222c 6f72 2232 223a 2200 222c 5f6d 6c61     ,"ro2":".","m_al
 8043cfc:	7261 226d 223a 2200 222c 5f75 6c61 7261     arm":".","u_alar
 8043d0c:	226d 223a 2200 222c 656e 7374 7465 6974     m":".","netsetti
 8043d1c:	676e 5f73 6863 6e61 6567 2264 223a 2200     ngs_changed":"."
 8043d2c:	007d 227b 6572 6461 635f 6d6f 756d 696e     }.{"read_communi
 8043d3c:	7974 3a22 0022 2c22 7722 6972 6574 635f     ty":".","write_c
 8043d4c:	6d6f 756d 696e 7974 3a22 0022 2c22 6d22     ommunity":".","m
 8043d5c:	6e61 6761 7265 5049 3a22 0022 2c22 6d22     anagerIP":".","m
 8043d6c:	6e61 6761 7265 5049 2232 223a 2200 222c     anagerIP2":".","
 8043d7c:	616d 616e 6567 4972 3350 3a22 0022 2c22     managerIP3":".",
 8043d8c:	6d22 6e61 6761 7265 5049 2234 223a 2200     "managerIP4":"."
 8043d9c:	222c 616d 616e 6567 4972 3550 3a22 0022     ,"managerIP5":".
 8043dac:	2c22 6922 6170 6464 2272 223a 2200 222c     ","ipaddr":".","
 8043dbc:	7767 3a22 0022 2c22 6d22 7361 226b 223a     gw":".","mask":"
 8043dcc:	2200 222c 6864 7063 3a22 2c00 6122 7475     .","dhcp":.,"aut
 8043ddc:	2268 003a 222c 7372 735f 7265 6576 2272     h":.,"rs_server"
 8043dec:	223a 2200 222c 7372 705f 726f 2274 223a     :".","rs_port":"
 8043dfc:	2200 222c 7372 705f 6477 3a22 0022 2c22     .","rs_pwd":".",
 8043e0c:	7222 5f73 656b 2279 223a 2200 222c 7372     "rs_key":".","rs
 8043e1c:	655f 616e 6c62 6465 3a22 2c00 6422 7461     _enabled":.,"dat
 8043e2c:	2265 223a 2200 222c 6974 656d 3a22 0022     e":".","time":".
 8043e3c:	2c22 6e22 7074 3a22 0022 2c22 6e22 7074     ","ntp":".","ntp
 8043e4c:	6573 7672 7069 3a22 0022 2c22 7522 6374     servip":".","utc
 8043e5c:	3a22 0022 2c22 7522 6d74 3a22 0022 2c22     ":".","utm":".",
 8043e6c:	6c22 7361 7374 6e79 7463 6d69 2265 223a     "lastsynctime":"
 8043e7c:	7b00 7522 7470 6d69 2265 223a 2200 222c     .{"uptime":".","
 8043e8c:	6f6d 6564 226c 223a 2200 222c 7270 646f     model":".","prod
 8043e9c:	7461 2265 223a 2200 222c 7766 6576 7372     ate":".","fwvers
 8043eac:	6f69 226e 223a 2200 222c 616d 6163 6464     ion":".","macadd
 8043ebc:	2272 223a 2200 222c 6573 6e72 226f 223a     r":".","serno":"
 8043ecc:	2200 222c 776f 656e 2272 223a 2200 222c     .","owner":".","
 8043edc:	7973 4c73 636f 7461 6f69 226e 223a 2200     sysLocation":"."
 8043eec:	222c 6f63 6d6d 6e65 2274 223a 2200 222c     ,"comment":".","
 8043efc:	7075 5f73 6f6d 6564 226c 223a 2200 222c     ups_model":".","
 8043f0c:	7075 5f73 7766 6576 7372 6f69 226e 223a     ups_fwversion":"
 8043f1c:	4800 5454 2f50 2e31 2031 3032 2030 4b4f     .HTTP/1.1 200 OK
 8043f2c:	0a0d 6f43 746e 6e65 2d74 7954 6570 743a     ..Content-Type:t
 8043f3c:	7865 2f74 7468 6c6d 0a0d 0a0d 7b00 7022     ext/html.....{"p
 8043f4c:	6761 2265 203a 005b 6925 5d00 222c 6170     age": [.%i.],"pa
 8043f5c:	6567 2273 223a 5200 6265 6f6f 5474 7361     ges":".RebootTas
 8043f6c:	006b 6374 6970 5f70 6874 6572 6461 0000     k.tcpip_thread..

08043f7c <memp_num>:
 8043f7c:	0004 0006 000c 0005 0019 0010 0006 0008     ................
 8043f8c:	0014 000a 001e 0032 0005 0009 0032 0019     ......2.....2...

08043f9c <memp_sizes>:
 8043f9c:	001c 0020 0094 001c 0010 0010 002c 0014     .. .........,...
 8043fac:	0014 0010 0020 0010 0024 0080 0010 0614     .... ...$.......

08043fbc <tcp_pcb_lists>:
 8043fbc:	f6b4 2000 f6bc 2000 f6ac 2000 f6c0 2000     ... ... ... ... 

08043fcc <tcp_backoff>:
 8043fcc:	0201 0403 0605 0707 0707 0707 0307               .............

08043fd9 <tcp_persist_backoff>:
 8043fd9:	0603 180c 6030 ff78                              ....0`x

08043fe0 <ip_addr_broadcast>:
 8043fe0:	ffff ffff                                   ....

08043fe4 <ip_addr_any>:
 8043fe4:	0000 0000                                   ....

08043fe8 <syslocation_len_default>:
 8043fe8:	0000 0000                                   ....

08043fec <snmp_scalar>:
 8043fec:	383d 0803 32f1 0803 3881 0803 3405 0803     =8...2...8...4..
 8043ffc:	0001 0000                                   ....

08044000 <udpentry_nodes>:
 8044000:	0774 2000 0774 2000                         t.. t.. 

08044008 <attable>:
 8044008:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044018:	0002 0001 4138 0804 4260 0804               ....8A..`B..

08044024 <mib2_nodes>:
 8044024:	4830 0804 43f8 0804 073c 2000 48d4 0804     0H...C..<.. .H..
 8044034:	41f8 0804 43c8 0804 4624 0804 4194 0804     .A...C..$F...A..

08044044 <iprteentry_nodes>:
 8044044:	07a4 2000 07a4 2000 07a4 2000 07a4 2000     ... ... ... ... 
 8044054:	07a4 2000 07a4 2000 07a4 2000 07a4 2000     ... ... ... ... 
 8044064:	07a4 2000 07a4 2000 07a4 2000 07a4 2000     ... ... ... ... 
 8044074:	07a4 2000                                   ... 

08044078 <iprouteinfo>:
 8044078:	0002 0000 0000 0000 0000 0000 0000 0000     ................
 8044088:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 8044098:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80440a8:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80440b8:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80440c8:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80440d8:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80440e8:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80440f8:	0000 0000                                   ....

080440fc <sysname_default>:
 80440fc:	5146 4e44 752d 6b6e 0000 0000               FQDN-unk....

08044108 <ipntomentry_ids>:
 8044108:	0001 0000 0002 0000 0003 0000 0004 0000     ................

08044118 <interfaces_scalar>:
 8044118:	2f45 0803 2f65 0803 2e93 0803 2e97 0803     E/..e/..........
 8044128:	0001 0000                                   ....

0804412c <syslocation_default>:
 804412c:	0000 0000                                   ....

08044130 <interfaces_ids>:
 8044130:	0001 0000 0002 0000                         ........

08044138 <attable_id>:
 8044138:	0001 0000                                   ....

0804413c <mgmt>:
 804413c:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 804414c:	0002 0001 482c 0804 4620 0804               ....,H.. F..

08044158 <mib2_ids>:
 8044158:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 8044168:	0005 0000 0006 0000 0007 0000 000b 0000     ................

08044178 <mib2>:
 8044178:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044188:	0002 0008 4158 0804 4024 0804               ....XA..$@..

08044194 <snmp>:
 8044194:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 80441a4:	0002 001c 4718 0804 45b0 0804               .....G...E..

080441b0 <tcp_scalar>:
 80441b0:	37b1 0803 31e9 0803 2e93 0803 2e97 0803     .7...1..........
 80441c0:	0001 0000                                   ....

080441c4 <sys_tem_nodes>:
 80441c4:	4304 0804 4304 0804 4304 0804 4304 0804     .C...C...C...C..
 80441d4:	4304 0804 4304 0804 4304 0804               .C...C...C..

080441e0 <snmpenableauthentraps_default>:
 80441e0:	0002 0000                                   ....

080441e4 <udp_nodes>:
 80441e4:	424c 0804 424c 0804 424c 0804 424c 0804     LB..LB..LB..LB..
 80441f4:	0758 2000                                   X.. 

080441f8 <icmp>:
 80441f8:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044208:	0002 001a 44c4 0804 4354 0804               .....D..TC..

08044214 <ip_scalar>:
 8044214:	36c5 0803 2f79 0803 3039 0803 2e97 0803     .6..y/..90......
 8044224:	0001 0000                                   ....

08044228 <udpentry_ids>:
 8044228:	0001 0000 0002 0000                         ........

08044230 <ipntomentry>:
 8044230:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044240:	0002 0004 4108 0804 43e8 0804               .....A...C..

0804424c <udp_scalar>:
 804424c:	328d 0803 32b9 0803 2e93 0803 2e97 0803     .2...2..........
 804425c:	0001 0000                                   ....

08044260 <attable_node>:
 8044260:	42e8 0804                                   .B..

08044264 <ifspecific>:
 8044264:	0002 0000 0000 0000 0000 0000 0000 0000     ................
 8044274:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 8044284:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 8044294:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80442a4:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80442b4:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80442c4:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80442d4:	0000 0000 0000 0000 0000 0000 0000 0000     ................
 80442e4:	0000 0000                                   ....

080442e8 <atentry>:
 80442e8:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 80442f8:	0002 0003 4448 0804 4540 0804               ....HD..@E..

08044304 <sys_tem_scalar>:
 8044304:	2e99 0803 3b1d 0803 3629 0803 38c9 0803     .....;..)6...8..
 8044314:	0001 0000                                   ....

08044318 <tcp_nodes>:
 8044318:	41b0 0804 41b0 0804 41b0 0804 41b0 0804     .A...A...A...A..
 8044328:	41b0 0804 41b0 0804 41b0 0804 41b0 0804     .A...A...A...A..
 8044338:	41b0 0804 41b0 0804 41b0 0804 41b0 0804     .A...A...A...A..
 8044348:	08a4 2000 41b0 0804 41b0 0804               ... .A...A..

08044354 <icmp_nodes>:
 8044354:	47fc 0804 47fc 0804 47fc 0804 47fc 0804     .G...G...G...G..
 8044364:	47fc 0804 47fc 0804 47fc 0804 47fc 0804     .G...G...G...G..
 8044374:	47fc 0804 47fc 0804 47fc 0804 47fc 0804     .G...G...G...G..
 8044384:	47fc 0804 47fc 0804 47fc 0804 47fc 0804     .G...G...G...G..
 8044394:	47fc 0804 47fc 0804 47fc 0804 47fc 0804     .G...G...G...G..
 80443a4:	47fc 0804 47fc 0804 47fc 0804 47fc 0804     .G...G...G...G..
 80443b4:	47fc 0804 47fc 0804                         .G...G..

080443bc <sysdescr_len_default>:
 80443bc:	0004 0000                                   ....

080443c0 <interfaces_nodes>:
 80443c0:	4118 0804 0944 2000                         .A..D.. 

080443c8 <tcp>:
 80443c8:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 80443d8:	0002 000f 4574 0804 4318 0804               ....tE...C..

080443e4 <syscontact_default>:
 80443e4:	0000 0000                                   ....

080443e8 <ipntomentry_nodes>:
 80443e8:	0a08 2000 0a08 2000 0a08 2000 0a08 2000     ... ... ... ... 

080443f8 <interfaces>:
 80443f8:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044408:	0002 0002 4130 0804 43c0 0804               ....0A...C..

08044414 <iprteentry_ids>:
 8044414:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 8044424:	0005 0000 0006 0000 0007 0000 0008 0000     ................
 8044434:	0009 0000 000a 0000 000b 0000 000c 0000     ................
 8044444:	000d 0000                                   ....

08044448 <atentry_ids>:
 8044448:	0001 0000 0002 0000 0003 0000               ............

08044454 <tcpconnentry_nodes>:
 8044454:	08cc 2000 08cc 2000 08cc 2000 08cc 2000     ... ... ... ... 
 8044464:	08cc 2000                                   ... 

08044468 <ip_nodes>:
 8044468:	4214 0804 4214 0804 4214 0804 4214 0804     .B...B...B...B..
 8044478:	4214 0804 4214 0804 4214 0804 4214 0804     .B...B...B...B..
 8044488:	4214 0804 4214 0804 4214 0804 4214 0804     .B...B...B...B..
 8044498:	4214 0804 4214 0804 4214 0804 4214 0804     .B...B...B...B..
 80444a8:	4214 0804 4214 0804 4214 0804 08f8 2000     .B...B...B..... 
 80444b8:	0960 2000 0720 2000 4214 0804               `..  .. .B..

080444c4 <icmp_ids>:
 80444c4:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 80444d4:	0005 0000 0006 0000 0007 0000 0008 0000     ................
 80444e4:	0009 0000 000a 0000 000b 0000 000c 0000     ................
 80444f4:	000d 0000 000e 0000 000f 0000 0010 0000     ................
 8044504:	0011 0000 0012 0000 0013 0000 0014 0000     ................
 8044514:	0015 0000 0016 0000 0017 0000 0018 0000     ................
 8044524:	0019 0000 001a 0000                         ........

0804452c <udp_ids>:
 804452c:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 804453c:	0005 0000                                   ....

08044540 <atentry_nodes>:
 8044540:	0918 2000 0918 2000 0918 2000               ... ... ... 

0804454c <ipaddrentry_nodes>:
 804454c:	0874 2000 0874 2000 0874 2000 0874 2000     t.. t.. t.. t.. 
 804455c:	0874 2000                                   t.. 

08044560 <ipaddrentry_ids>:
 8044560:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 8044570:	0005 0000                                   ....

08044574 <tcp_ids>:
 8044574:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 8044584:	0005 0000 0006 0000 0007 0000 0008 0000     ................
 8044594:	0009 0000 000a 0000 000b 0000 000c 0000     ................
 80445a4:	000d 0000 000e 0000 000f 0000               ............

080445b0 <snmp_nodes>:
 80445b0:	3fec 0804 3fec 0804 3fec 0804 3fec 0804     .?...?...?...?..
 80445c0:	3fec 0804 3fec 0804 3fec 0804 3fec 0804     .?...?...?...?..
 80445d0:	3fec 0804 3fec 0804 3fec 0804 3fec 0804     .?...?...?...?..
 80445e0:	3fec 0804 3fec 0804 3fec 0804 3fec 0804     .?...?...?...?..
 80445f0:	3fec 0804 3fec 0804 3fec 0804 3fec 0804     .?...?...?...?..
 8044600:	3fec 0804 3fec 0804 3fec 0804 3fec 0804     .?...?...?...?..
 8044610:	3fec 0804 3fec 0804 3fec 0804 3fec 0804     .?...?...?...?..

08044620 <mgmt_nodes>:
 8044620:	4178 0804                                   xA..

08044624 <udp>:
 8044624:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044634:	0002 0005 452c 0804 41e4 0804               ....,E...A..

08044640 <iprteentry>:
 8044640:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044650:	0002 000d 4414 0804 4044 0804               .....D..D@..

0804465c <ifentry>:
 804465c:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 804466c:	0002 0016 47a4 0804 487c 0804               .....G..|H..

08044678 <udpentry>:
 8044678:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044688:	0002 0002 4228 0804 4000 0804               ....(B...@..

08044694 <ip_ids>:
 8044694:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 80446a4:	0005 0000 0006 0000 0007 0000 0008 0000     ................
 80446b4:	0009 0000 000a 0000 000b 0000 000c 0000     ................
 80446c4:	000d 0000 000e 0000 000f 0000 0010 0000     ................
 80446d4:	0011 0000 0012 0000 0013 0000 0014 0000     ................
 80446e4:	0015 0000 0016 0000 0017 0000               ............

080446f0 <sysdescr_default>:
 80446f0:	776c 5049 0800                                   lwIP.

080446f5 <sysname_len_default>:
 80446f5:	0008 8b00                                        ...

080446f8 <tcpconnentry>:
 80446f8:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044708:	0002 0005 4868 0804 4454 0804               ....hH..TD..

08044714 <syscontact_len_default>:
 8044714:	0000 0000                                   ....

08044718 <snmp_ids>:
 8044718:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 8044728:	0005 0000 0006 0000 0008 0000 0009 0000     ................
 8044738:	000a 0000 000b 0000 000c 0000 000d 0000     ................
 8044748:	000e 0000 000f 0000 0010 0000 0011 0000     ................
 8044758:	0012 0000 0013 0000 0014 0000 0015 0000     ................
 8044768:	0016 0000 0018 0000 0019 0000 001a 0000     ................
 8044778:	001b 0000 001c 0000 001d 0000 001e 0000     ................

08044788 <sys_tem_ids>:
 8044788:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 8044798:	0005 0000 0006 0000 0007 0000               ............

080447a4 <ifentry_ids>:
 80447a4:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 80447b4:	0005 0000 0006 0000 0007 0000 0008 0000     ................
 80447c4:	0009 0000 000a 0000 000b 0000 000c 0000     ................
 80447d4:	000d 0000 000e 0000 000f 0000 0010 0000     ................
 80447e4:	0011 0000 0012 0000 0013 0000 0014 0000     ................
 80447f4:	0015 0000 0016 0000                         ........

080447fc <icmp_scalar>:
 80447fc:	30c1 0803 30ed 0803 2e93 0803 2e97 0803     .0...0..........
 804480c:	0001 0000                                   ....

08044810 <internet>:
 8044810:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044820:	0002 0002 08ec 2000 48f0 0804               ....... .H..

0804482c <mgmt_ids>:
 804482c:	0001 0000                                   ....

08044830 <sys_tem>:
 8044830:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044840:	0002 0007 4788 0804 41c4 0804               .....G...A..

0804484c <ipaddrentry>:
 804484c:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 804485c:	0002 0005 4560 0804 454c 0804               ....`E..LE..

08044868 <tcpconnentry_ids>:
 8044868:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 8044878:	0005 0000                                   ....

0804487c <ifentry_nodes>:
 804487c:	07cc 2000 07cc 2000 07cc 2000 07cc 2000     ... ... ... ... 
 804488c:	07cc 2000 07cc 2000 07cc 2000 07cc 2000     ... ... ... ... 
 804489c:	07cc 2000 07cc 2000 07cc 2000 07cc 2000     ... ... ... ... 
 80448ac:	07cc 2000 07cc 2000 07cc 2000 07cc 2000     ... ... ... ... 
 80448bc:	07cc 2000 07cc 2000 07cc 2000 07cc 2000     ... ... ... ... 
 80448cc:	07cc 2000 07cc 2000                         ... ... 

080448d4 <mib2_ip>:
 80448d4:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 80448e4:	0002 0017 4694 0804 4468 0804               .....F..hD..

080448f0 <internet_nodes>:
 80448f0:	413c 0804 49dc 0804                         <A...I..

080448f8 <prefix>:
 80448f8:	0001 0000 0003 0000 0006 0000 0001 0000     ................

08044908 <snmp_version>:
 8044908:	0000 0000                                   ....

0804490c <snmp_publiccommunity>:
 804490c:	7570 6c62 6369 ff00                              public.

08044913 <ethbroadcast>:
 8044913:	ffff ffff ffff                              ......

08044919 <ethzero>:
 8044919:	0000 0000 0000 7445 5f68 6669 2000 7325     ......Eth_if. %s
 8044929:	0d0a 4400 4348 4350 696c 6e65 0074 6577     ...DHCPClient.we
 8044939:	5262 6965 696e 0074 6552 6e69 7469 6557     bReinit.ReinitWe
 8044949:	0062 1800                                        b..

0804494c <enterprises_ids>:
 804494c:	a318 0000                                   ....

08044950 <bt6701_ids>:
 8044950:	0001 0000                                   ....

08044954 <swt_nodes>:
 8044954:	49a4 0804                                   .I..

08044958 <rotek_nodes>:
 8044958:	4a40 0804                                   @J..

0804495c <signals_ids>:
 804495c:	0001 0000 0002 0000 0003 0000 0004 0000     ................
 804496c:	0005 0000 0006 0000 0007 0000 0008 0000     ................
 804497c:	0009 0000 000a 0000 000b 0000 000c 0000     ................
 804498c:	000d 0000 000e 0000 000f 0000 0010 0000     ................
 804499c:	0011 0000 0012 0000                         ........

080449a4 <bt6701>:
 80449a4:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 80449b4:	0002 0001 4950 0804 4ab8 0804               ....PI...J..

080449c0 <rotek>:
 80449c0:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 80449d0:	0002 0001 4abc 0804 4958 0804               .....J..XI..

080449dc <mib_private>:
 80449dc:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 80449ec:	0002 0001 4a5c 0804 4a64 0804               ....\J..dJ..

080449f8 <signals_nodes>:
 80449f8:	4aa4 0804 4aa4 0804 4aa4 0804 4aa4 0804     .J...J...J...J..
 8044a08:	4aa4 0804 4aa4 0804 4aa4 0804 4aa4 0804     .J...J...J...J..
 8044a18:	4aa4 0804 4aa4 0804 4aa4 0804 4aa4 0804     .J...J...J...J..
 8044a28:	4aa4 0804 4aa4 0804 4aa4 0804 4aa4 0804     .J...J...J...J..
 8044a38:	4aa4 0804 4aa4 0804                         .J...J..

08044a40 <swt>:
 8044a40:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044a50:	0002 0001 4a60 0804 4954 0804               ....`J..TI..

08044a5c <mib_private_ids>:
 8044a5c:	0001 0000                                   ....

08044a60 <swt_ids>:
 8044a60:	0003 0000                                   ....

08044a64 <mib_pivate_nodes>:
 8044a64:	4a68 0804                                   hJ..

08044a68 <enterprises>:
 8044a68:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044a78:	0002 0001 494c 0804 4a84 0804               ....LI...J..

08044a84 <enterprises_nodes>:
 8044a84:	49c0 0804                                   .I..

08044a88 <signals>:
 8044a88:	2e8b 0803 2e91 0803 2e93 0803 2e97 0803     ................
 8044a98:	0002 0012 495c 0804 49f8 0804               ....\I...I..

08044aa4 <signals_var>:
 8044aa4:	7419 0803 73d9 0803 7349 0803 7205 0803     .t...s..Is...r..
 8044ab4:	0001 0000                                   ....

08044ab8 <bt6701_nodes>:
 8044ab8:	4a88 0804                                   .J..

08044abc <rotek_ids>:
 8044abc:	038f 0000 3025 6432 252e 3230 2e64 3025     ....%02d.%02d.%0
 8044acc:	6432 2520 3230 3a64 3025 6432 253a 3230     2d %02d:%02d:%02
 8044adc:	0064 6425 252e 2e64 6425 2520 3a64 6425     d.%d.%d.%d %d:%d
 8044aec:	253a 2064 0d0a 0000 666e 0000 6e69 7469     :%d ....nf..init
 8044afc:	0079 0000 6e61 0000 4241 4443 4645 0000     y...an..ABCDEF..
 8044b0c:	6261 6463 6665 0000 3130 3332 3534 3736     abcdef..01234567
 8044b1c:	3938 0000 0043 0000 4f50 4953 0058 0000     89..C...POSIX...
 8044b2c:	0000 0000 002e 0000                         ........

08044b34 <_init>:
 8044b34:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 8044b36:	bf00      	nop
 8044b38:	bcf8      	pop	{r3, r4, r5, r6, r7}
 8044b3a:	bc08      	pop	{r3}
 8044b3c:	469e      	mov	lr, r3
 8044b3e:	4770      	bx	lr

08044b40 <_fini>:
 8044b40:	b5f8      	push	{r3, r4, r5, r6, r7, lr}
 8044b42:	bf00      	nop
 8044b44:	bcf8      	pop	{r3, r4, r5, r6, r7}
 8044b46:	bc08      	pop	{r3}
 8044b48:	469e      	mov	lr, r3
 8044b4a:	4770      	bx	lr