/* * private_mib_bt6709.c * * Created on: 03.10.2018 * Author: balbekova */ #if defined HARDWARE_BT6709_MTS #include "stm32f4xx.h" #include "private_mib.h" #include "parameters.h" #include "settings_api.h" #include "log.h" #include "megatec.h" #include "control_symbol.h" #include "sntp_api.h" #include "web_params_api.h" #include "hal.h" #include "FreeRTOS.h" #include "task.h" #include #ifdef PRINTF_STDLIB #include #endif #ifdef PRINTF_CUSTOM #include "tinystdio.h" #endif #include "lwip/apps/snmp_scalar.h" #include "lwip/apps/snmp.h" //#include "snmp_core.h" #define MUL100 100 #define MUL10 10 extern struct snmp_mib mib2; /** * @brief Общая структура настроек */ extern SETTINGS_t sSettings; static s16_t signal_get_value(struct snmp_node_instance *instance, void *value); static snmp_err_t signal_set_value(struct snmp_node_instance *instance, u16_t len, void *value); static snmp_err_t signal_set_test(struct snmp_node_instance *instance, u16_t len, void *value); /* signal .1.3.6.1.4.1.41752.911.8.1.49 */ static const struct snmp_scalar_node signal49 = SNMP_SCALAR_CREATE_NODE_READONLY(49, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.48 */ static const struct snmp_scalar_node signal48 = SNMP_SCALAR_CREATE_NODE_READONLY(48, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.47 */ static const struct snmp_scalar_node signal47 = SNMP_SCALAR_CREATE_NODE_READONLY(47, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.46 */ static const struct snmp_scalar_node signal46 = SNMP_SCALAR_CREATE_NODE_READONLY(46, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.45 */ static const struct snmp_scalar_node signal45 = SNMP_SCALAR_CREATE_NODE_READONLY(45, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.44 */ static const struct snmp_scalar_node signal44 = SNMP_SCALAR_CREATE_NODE_READONLY(44, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.43 */ static const struct snmp_scalar_node signal43 = SNMP_SCALAR_CREATE_NODE(43, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.42 */ static const struct snmp_scalar_node signal42 = SNMP_SCALAR_CREATE_NODE(42, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.41 */ static const struct snmp_scalar_node signal41 = SNMP_SCALAR_CREATE_NODE(41, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.40 */ static const struct snmp_scalar_node signal40 = SNMP_SCALAR_CREATE_NODE(40, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.39 */ static const struct snmp_scalar_node signal39 = SNMP_SCALAR_CREATE_NODE(39, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.38 */ static const struct snmp_scalar_node signal38 = SNMP_SCALAR_CREATE_NODE(38, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.37 */ static const struct snmp_scalar_node signal37 = SNMP_SCALAR_CREATE_NODE(37, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_INTEGER, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.36 */ static const struct snmp_scalar_node signal36 = SNMP_SCALAR_CREATE_NODE(36, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_INTEGER, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.35 */ static const struct snmp_scalar_node signal35 = SNMP_SCALAR_CREATE_NODE(35, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_INTEGER, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.34 */ static const struct snmp_scalar_node signal34 = SNMP_SCALAR_CREATE_NODE(34, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_INTEGER, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.33 */ static const struct snmp_scalar_node signal33 = SNMP_SCALAR_CREATE_NODE(33, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_INTEGER, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.32 */ static const struct snmp_scalar_node signal32 = SNMP_SCALAR_CREATE_NODE(32, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_INTEGER, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.31 */ static const struct snmp_scalar_node signal31 = SNMP_SCALAR_CREATE_NODE(31, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_INTEGER, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.30 */ static const struct snmp_scalar_node signal30 = SNMP_SCALAR_CREATE_NODE(30, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_INTEGER, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.29 */ static const struct snmp_scalar_node signal29 = SNMP_SCALAR_CREATE_NODE(29, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_INTEGER, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.28 */ static const struct snmp_scalar_node signal28 = SNMP_SCALAR_CREATE_NODE(28, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_INTEGER, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.27 */ static const struct snmp_scalar_node signal27 = SNMP_SCALAR_CREATE_NODE_READONLY(27, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.26 */ static const struct snmp_scalar_node signal26 = SNMP_SCALAR_CREATE_NODE_READONLY(26, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.25 */ static const struct snmp_scalar_node signal25 = SNMP_SCALAR_CREATE_NODE_READONLY(25, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.24 */ static const struct snmp_scalar_node signal24 = SNMP_SCALAR_CREATE_NODE_READONLY(24, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.23 */ static const struct snmp_scalar_node signal23 = SNMP_SCALAR_CREATE_NODE_READONLY(23, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.22 */ static const struct snmp_scalar_node signal22 = SNMP_SCALAR_CREATE_NODE(22, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.21 */ static const struct snmp_scalar_node signal21 = SNMP_SCALAR_CREATE_NODE(21, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.20 */ static const struct snmp_scalar_node signal20 = SNMP_SCALAR_CREATE_NODE(20, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.19 */ static const struct snmp_scalar_node signal19 = SNMP_SCALAR_CREATE_NODE(19, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.18 */ static const struct snmp_scalar_node signal18 = SNMP_SCALAR_CREATE_NODE(18, SNMP_NODE_INSTANCE_READ_WRITE, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.17 */ static const struct snmp_scalar_node signal17 = SNMP_SCALAR_CREATE_NODE_READONLY(17, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.16 */ static const struct snmp_scalar_node signal16 = SNMP_SCALAR_CREATE_NODE_READONLY(16, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.15 */ static const struct snmp_scalar_node signal15 = SNMP_SCALAR_CREATE_NODE_READONLY(15, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.14 */ static const struct snmp_scalar_node signal14 = SNMP_SCALAR_CREATE_NODE_READONLY(14, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.13 */ static const struct snmp_scalar_node signal13 = SNMP_SCALAR_CREATE_NODE_READONLY(13, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.12 */ static const struct snmp_scalar_node signal12 = SNMP_SCALAR_CREATE_NODE_READONLY(12, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.11 */ static const struct snmp_scalar_node signal11 = SNMP_SCALAR_CREATE_NODE_READONLY(11, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.10 */ static const struct snmp_scalar_node signal10 = SNMP_SCALAR_CREATE_NODE_READONLY(10, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.9 */ static const struct snmp_scalar_node signal9 = SNMP_SCALAR_CREATE_NODE_READONLY(9, SNMP_ASN1_TYPE_INTEGER, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.8 */ static const struct snmp_scalar_node signal8 = SNMP_SCALAR_CREATE_NODE(8, SNMP_NODE_INSTANCE_WRITE_ONLY, SNMP_ASN1_TYPE_OCTET_STRING, NULL, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.7 */ static const struct snmp_scalar_node signal7 = SNMP_SCALAR_CREATE_NODE(7, SNMP_NODE_INSTANCE_WRITE_ONLY, SNMP_ASN1_TYPE_INTEGER, NULL, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.6 */ static const struct snmp_scalar_node signal6 = SNMP_SCALAR_CREATE_NODE_READONLY(6, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.5 */ static const struct snmp_scalar_node signal5 = SNMP_SCALAR_CREATE_NODE_READONLY(5, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.4 */ static const struct snmp_scalar_node signal4 = SNMP_SCALAR_CREATE_NODE_READONLY(4, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); /* signal .1.3.6.1.4.1.41752.911.8.1.3 */ static const struct snmp_scalar_node signal3 = SNMP_SCALAR_CREATE_NODE(3, SNMP_NODE_INSTANCE_WRITE_ONLY, SNMP_ASN1_TYPE_INTEGER, NULL, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.2 */ static const struct snmp_scalar_node signal2 = SNMP_SCALAR_CREATE_NODE(2, SNMP_NODE_INSTANCE_WRITE_ONLY, SNMP_ASN1_TYPE_INTEGER, NULL, signal_set_test, signal_set_value); /* signal .1.3.6.1.4.1.41752.911.8.1.1 */ static const struct snmp_scalar_node signal1 = SNMP_SCALAR_CREATE_NODE_READONLY(1, SNMP_ASN1_TYPE_OCTET_STRING, signal_get_value); // signals .1.3.6.1.4.1.41752.911.8.1 static const struct snmp_node *const signals_nodes[] = { &signal1.node.node, &signal2.node.node, &signal3.node.node, &signal4.node.node, &signal5.node.node, &signal6.node.node, &signal7.node.node, &signal8.node.node, &signal9.node.node, &signal10.node.node, &signal11.node.node, &signal12.node.node, &signal13.node.node, &signal14.node.node, &signal15.node.node, &signal16.node.node, &signal17.node.node, &signal18.node.node, &signal19.node.node, &signal20.node.node, &signal21.node.node, &signal22.node.node, &signal23.node.node, &signal24.node.node, &signal25.node.node, &signal26.node.node, &signal27.node.node, &signal28.node.node, &signal29.node.node, &signal30.node.node, &signal31.node.node, &signal32.node.node, &signal33.node.node, &signal34.node.node, &signal35.node.node, &signal36.node.node, &signal37.node.node, &signal38.node.node, &signal39.node.node, &signal40.node.node, &signal41.node.node, &signal42.node.node, &signal43.node.node, &signal44.node.node, &signal45.node.node, &signal46.node.node, &signal47.node.node, &signal48.node.node, &signal49.node.node, }; static const struct snmp_tree_node signals_node = SNMP_CREATE_TREE_NODE(1, signals_nodes); // bt_6703 .1.3.6.1.4.1.41752.911.8 static const struct snmp_node *const bt6709_mts_nodes[] = { &signals_node.node }; static const struct snmp_tree_node bt6709_mts_node = SNMP_CREATE_TREE_NODE(SNMP_DEV_ROOT_OID, bt6709_mts_nodes); // swt .1.3.6.1.4.1.41752.911 static const struct snmp_node *const swt_nodes[] = { &bt6709_mts_node.node }; static const struct snmp_tree_node swt_node = SNMP_CREATE_TREE_NODE(911, swt_nodes); // rotek .1.3.6.1.4.1.41752 static const struct snmp_node *const rotek_nodes[] = { &swt_node.node }; static const struct snmp_tree_node rotek_node = SNMP_CREATE_TREE_NODE(41752, rotek_nodes); // enterprises .1.3.6.1.4.1 static const struct snmp_node *const enterprises_nodes[] = { &rotek_node.node }; static const struct snmp_tree_node enterprises_node = SNMP_CREATE_TREE_NODE(1, enterprises_nodes); // private .1.3.6.1.4 static const struct snmp_node *const private_nodes[] = { &enterprises_node.node }; static const struct snmp_tree_node private_root = SNMP_CREATE_TREE_NODE(0, private_nodes); static const u32_t prvmib_base_oid[] = { 1, 3, 6, 1, 4 }; static const struct snmp_mib private_mib = SNMP_MIB_CREATE(prvmib_base_oid, &private_root.node); void lwip_privmib_init(void) { static const struct snmp_mib *my_snmp_mibs[] = {&mib2, &private_mib}; snmp_set_mibs(my_snmp_mibs, LWIP_ARRAYSIZE(my_snmp_mibs)); } uint32_t check_netsettings(char *addr, uint8_t len) { uint32_t val = 0; uint8_t i, j; uint8_t cnt_dot = 0; uint8_t digit = 0; uint8_t c = *addr; for (j = 0; j <= len; j ++) { if (isdigit(c)) { val = (val * 10) + (int)(c - '0'); } else if (c == '.' || c == 0) { if (val > 0xff) { return 0; } cnt_dot ++; val = 0; } else { return 0; } c = *++addr; } if (cnt_dot != 4) { return 0; } return 1; } static s16_t signal_get_value(struct snmp_node_instance *instance, void *value) { u8_t *paramStr = (u8_t *)value; s32_t *paramInt = (u8_t*)value; u8_t paramLength = 0; float val = 0; int32_t int_val = 0; u32_t oid = instance->node->oid; // id сигнала switch (oid) { case 1: /* FWVersion */ GetVersionStr((char *)paramStr, ¶mLength); break; case 4: /* UPSModel*/ GetUPSModelStr((char *)paramStr, ¶mLength); break; case 5: /* UPSSerial*/ GetUPSSerialStr((char *)paramStr, ¶mLength); break; case 6: /* UPSVersion*/ GetUPSVersionStr((char *)paramStr, ¶mLength); break; case 9: /* IntTemp */ GetInternalTempInt(&val); *paramInt = val * MUL10; paramLength = sizeof(s32_t); break; case 10: /* InFreq */ GetInputFreqInt(&val); *paramInt = val * MUL10; paramLength = sizeof(s32_t); break; case 11: /* InVoltVAC */ GetInputVoltageInt(&val); *paramInt = val * MUL10; paramLength = sizeof(s32_t); break; case 12: /* OutVoltVAC */ GetOutputVoltageInt(&val); *paramInt = val * MUL10; paramLength = sizeof(s32_t); break; case 13: /* Power */ GetPowerInt(&int_val); *paramInt = int_val; paramLength = sizeof(s32_t); break; case 14: /* BatCap */ GetBatCapacityInt(&int_val); *paramInt = int_val; paramLength = sizeof(s32_t); break; case 15: /* BatTime */ GetRuntimeInt(&int_val); *paramInt = int_val; paramLength = sizeof(s32_t); break; case 16: /* ConnectMonitor */ GetConnectMonitorStr((char *)paramStr, ¶mLength); break; case 17: /* Alarms */ GetAlarmStr((char *)paramStr, ¶mLength); break; case 18: /* IP server1 (traps) */ GetManagerIp((char *)paramStr, ¶mLength); break; case 19: /* IP server2 (traps) */ GetManagerIp2((char *)paramStr, ¶mLength); break; case 20: /* IP server3 (traps) */ GetManagerIp3((char *)paramStr, ¶mLength); break; case 21: /* IP server4 (traps) */ GetManagerIp4((char *)paramStr, ¶mLength); break; case 22: /* IP server5 (traps) */ GetManagerIp5((char *)paramStr, ¶mLength); break; case 23: /* WhiteList range 1 */ GetWhiteListSTR((char *)paramStr, ¶mLength, 0); break; case 24: /* WhiteList range 2 */ GetWhiteListSTR((char *)paramStr, ¶mLength, 1); break; case 25: /* WhiteList range 3 */ GetWhiteListSTR((char *)paramStr, ¶mLength, 2); break; case 26: /* WhiteList range 4 */ GetWhiteListSTR((char *)paramStr, ¶mLength, 3); break; case 27: /* WhiteList range 5 */ GetWhiteListSTR((char *)paramStr, ¶mLength, 4); break; case 28: /* UPSVoltCellMin */ GetUPSVoltCellMinInt(&val); *paramInt = val * MUL100; paramLength = sizeof(s32_t); break; case 29: /* UPSVoltCellMax */ GetUPSVoltCellMaxInt(&val); *paramInt = val * MUL100; paramLength = sizeof(s32_t); break; case 30: /* VACAlarmHighRange */ GetVACAlarmHighRangeInt(&int_val); *paramInt = int_val; paramLength = sizeof(s32_t); break; case 31: /* VACAlarmLowRange */ GetVACAlarmLowRangeInt(&int_val); *paramInt = int_val; paramLength = sizeof(s32_t); break; case 32: /* VACAlarmHistRange */ GetVACAlarmHisteInt(&val); *paramInt = (int32_t)val; paramLength = sizeof(s32_t); break; case 33: /* TemperatureAlarmHighRange */ GetTemperatureAlarmHighRangeInt(&int_val); *paramInt = int_val; paramLength = sizeof(s32_t); break; case 34: /* TemperatureAlarmLowRange */ GetTemperatureAlarmLowRangeInt(&int_val); *paramInt = int_val; paramLength = sizeof(s32_t); break; case 35: /* TemperatureAlarmHistRange */ GetTemperatureAlarmHisteInt(&val); *paramInt = val * MUL10; paramLength = sizeof(s32_t); break; case 36: /* LoadAlarmHighRange */ GetLoadAlarmHighRangeInt(&int_val); *paramInt = int_val; paramLength = sizeof(s32_t); break; case 37: /* LoadAlarmHistRange */ GetLoadAlarmHisteInt(&val); *paramInt = val * MUL10; paramLength = sizeof(s32_t); break; case 38: /* SntpTimeZone */ GetSntpTimeZoneStr((char *)paramStr, ¶mLength); break; case 39: /* SntpState */ GetSntpStateStr((char *)paramStr, ¶mLength); break; case 40: /* SntpServerIp */ GetSntpServerIpStr((char *)paramStr, ¶mLength); break; case 41: /* SntpLastData */ GetSntpLastDataStr((char *)paramStr, ¶mLength); break; case 42: /* Date */ GetDateStr((char *)paramStr, ¶mLength); break; case 43: /* Time */ GetTimeStr((char *)paramStr, ¶mLength); break; case 44: /* AKBTimeWork */ GetAKBWorktimeInt(&int_val); *paramInt = int_val; paramLength = sizeof(s32_t); break; case 45: /* InputCurrent */ GetInputCurrentInt(&val); *paramInt = val * MUL100; paramLength = sizeof(s32_t); break; case 46: /* OutputCurrent */ GetOutputCurrentInt(&val); *paramInt = val * MUL100; paramLength = sizeof(s32_t); break; case 47: /* VoltageAKB */ GetVoltageAKBInt(&val); *paramInt = val * MUL10; paramLength = sizeof(s32_t); break; case 48: /* CapacityNominalAKB*/ GetCapacityNominalAKBInt(&int_val); *paramInt = int_val; paramLength = sizeof(s32_t); break; case 49: /* DataNextChangeAKB*/ GetDataNextChangeAKBStr((char *)paramStr, ¶mLength); break; default: break; } return paramLength; } static snmp_err_t signal_set_value(struct snmp_node_instance *instance, u16_t len, void *value) { u32_t oid = instance->node->oid; // id сигнала char *val_string; char str[20]; int8_t res = 0; s32_t val; float setVal; bool enable_old_sntp; memset(str, 0, 20); switch (oid) { case 2: /* RestoreSignal */ val = *(s32_t *)value; if (val == 1) { // SNMP_SendUserTrap(DEVICE_RESTORED); log_event_data(LOG_SYSTEM_DEFCONFIG, "Администратор"); vTaskDelay(500); SETTINGS_SetPartDefault(); SETTINGS_Save(); } break; case 3: /* RebootSignal */ val = *(s32_t *)value; if (val == 1) { HTTP_StartResetTask(false); } break; case 7: /* BatTest */ val = *(s32_t *)value; if (val == 0) { res = ups_metac_service_pdu(ups_cancel_test); if (res == 1) { log_event_data(LOG_TEST_UPS, "Администратор (Останов)"); } } else if (val > 0 && val < 100) { TimeParam = val; res = ups_metac_service_pdu(ups_test_time); set_act_source(SNMP_ACT); } else if (val == 100) { res = ups_metac_service_pdu(ups_test_10sec); set_act_source(SNMP_ACT); } else if (val == 999) { res = ups_metac_service_pdu(ups_test_low_bat); set_act_source(SNMP_ACT); } break; case 8: /* Shutdown UPS */ val_string = (char *)value; float shtdn_val = atof(val_string); if (shtdn_val == 0) { res = ups_metac_service_pdu(ups_cancel_shut_down); if (res == 1) { log_event_data(LOG_SHUTDOWN_UPS, "Администратор (Останов)"); } } else { TimeParamFloat = shtdn_val; res = ups_metac_service_pdu(ups_shutdown); if (res == 1) { log_event_data(LOG_SHUTDOWN_UPS, "Администратор"); } } break; case 18: val_string = (char *)value; SetManagerIp(val_string); break; case 19: val_string = (char *)value; SetManagerIp2(val_string); break; case 20: val_string = (char *)value; SetManagerIp3(val_string); break; case 21: val_string = (char *)value; SetManagerIp4(val_string); break; case 22: val_string = (char *)value; SetManagerIp5(val_string); break; case 28: val = *((s32_t*)value); setVal = (float)val/MUL100; SetUPSVoltCellMinInt(setVal); break; case 29: val = *((s32_t*)value); setVal = (float)val/MUL100; SetUPSVoltCellMaxInt(setVal); break; case 30: val = *((s32_t*)value); setVal = (float)val; SetVACAlarmHighRangeInt(setVal); break; case 31: val = *((s32_t*)value); setVal = (float)val; SetVACAlarmLowRangeInt(setVal); break; case 32: val = *((s32_t*)value); setVal = (float)val; SetVACAlarmHisteInt(setVal); break; case 33: val = *((s32_t*)value); setVal = (float)val; SetTemperatureAlarmHighRangeInt(setVal); break; case 34: val = *((s32_t*)value); setVal = (float)val; SetTemperatureAlarmLowRangeInt(setVal); break; case 35: val = *((s32_t*)value); setVal = (float)val/MUL10; SetTemperatureAlarmHisteInt(setVal); break; case 36: val = *((s32_t*)value); setVal = (float)val; SetLoadAlarmHighRangeInt(setVal); break; case 37: val = *((s32_t*)value); setVal = (float)val/MUL10; SetLoadAlarmHistInt(setVal); break; case 38: val_string = (char *)value; SetSntpTimeZoneStr(val_string); break; case 39: enable_old_sntp = sSettings.sSNTP.sntpEnable; val_string = (char *)value; SetSntpStateStr(val_string); if (sSettings.sSNTP.sntpEnable != enable_old_sntp) { SETTINGS_Save(); log_event_data(LOG_SETTING_SAVE, "Администратор (SNMP)"); } break; case 40: val_string = (char *)value; if (strncmp(val_string, sSettings.sSNTP.ip, strlen(val_string)) != 0) { SetSntpServerIpStr(val_string); SETTINGS_Save(); log_event_data(LOG_SETTING_SAVE, "Администратор (SNMP)"); SNTP_Init(); //vTaskDelay(7000); SNTP_Poll(); } break; case 41: break; case 42: val_string = (char *)value; SetDateStr(val_string); break; case 43: val_string = (char *)value; SetTimeStr(val_string); break; default : return SNMP_ERR_GENERROR; break; }; if ((oid >= 18 && oid <= 22) || (oid >= 28 && oid <= 38)) { SETTINGS_Save(); log_event_data(LOG_SETTING_SAVE, "Администратор (SNMP)"); } return SNMP_ERR_NOERROR; } static snmp_err_t signal_set_test(struct snmp_node_instance *instance, u16_t len, void *value) { snmp_err_t ret = SNMP_ERR_WRONGVALUE; char *val_string; int32_t val; float tmp_value; uint8_t j; u32_t oid = instance->node->oid; // id сигнала bool fail = false; switch (oid) { case 2: case 3: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val == 1) { ret = SNMP_ERR_NOERROR; } } break; case 7: /* BatTest */ val = *((s32_t *)value); if ((val >= 0 && val <= 100) || val == 999) { ret = SNMP_ERR_NOERROR; } break; case 8: /* Shutdown UPS */ if ( len <= 3 ) { val_string = (char *)value; val_string[len] = 0; if (atof(val_string) <= 10) { ret = SNMP_ERR_NOERROR; } } break; case 18: case 19: case 20: case 21: case 22: case 40: if ( len <= 15 ) { val_string = (char *)value; val_string[len] = 0; if (check_netsettings(val_string, len)) { ret = SNMP_ERR_NOERROR; } } break; case 28: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val < (MUL100*sSettings.UPS_Setting.Ucellmax) && val > (MUL100*MIN_VOLT_CELL_RANGE)) { ret = SNMP_ERR_NOERROR; } } break; case 29: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val > (MUL100*sSettings.UPS_Setting.Ucellmin) && val <= (MUL100*MAX_VOLT_CELL_RANGE)) { ret = SNMP_ERR_NOERROR; } } break; case 30: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val >= MAX_VAC_MIN_RANGE && val <= MAX_VAC_MAX_RANGE) { ret = SNMP_ERR_NOERROR; } } break; case 31: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val >= MIN_VAC_MIN_RANGE && val <= MIN_VAC_MAX_RANGE) { ret = SNMP_ERR_NOERROR; } } break; case 32: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val >= HIST_VAC_MIN_RANGE && val <= HIST_VAC_MAX_RANGE) { ret = SNMP_ERR_NOERROR; } } break; case 33: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val >= MAX_TEMP_MIN_RANGE && val <= MAX_TEMP_MAX_RANGE) { ret = SNMP_ERR_NOERROR; } } break; case 34: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val >= MIN_TEMP_MIN_RANGE && val <= MIN_TEMP_MAX_RANGE) { ret = SNMP_ERR_NOERROR; } } break; case 35: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val >= (MUL10*HIST_TEMP_MIN_RANGE) && val <= (MUL10*HIST_TEMP_MAX_RANGE)) { ret = SNMP_ERR_NOERROR; } } break; case 36: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val >= MAX_LOAD_MIN_RANGE && val <= MAX_LOAD_MAX_RANGE) { ret = SNMP_ERR_NOERROR; } } break; case 37: if ( len == sizeof(s32_t) ) { val = *((s32_t *)value); if (val >= (MUL10*HIST_LOAD_MIN_RANGE) && val <= (MUL10*HIST_LOAD_MAX_RANGE)) { ret = SNMP_ERR_NOERROR; } } break; case 38: val_string = (char *)value; val_string[len] = 0; if (len > 1 && len < 5) { bool fail = false; if (val_string[0] != '-' && val_string[0] != '+') { fail = true; } if (!isdigit_int(val_string[1]) && (!isdigit_int(val_string[2]) && val_string[2] != '.') && (!isdigit_int(val_string[3]) && val_string[3] != '.')) { fail = true; } if (len == 5) { if (!isdigit_int(val_string[4])) { fail = true; } } if (!fail) { tmp_value = atof(val_string); if (tmp_value >= -12.0 && tmp_value <= 12.0) { ret = SNMP_ERR_NOERROR; } } } break; case 39: val_string = (char *)value; val_string[len] = 0; if (len == 1) { if (val_string[0] == '0' || val_string[0] == '1') { ret = SNMP_ERR_NOERROR; } } break; case 42: val_string = (char *)value; val_string[len] = 0; if (len == 10) { for (j = 0; j < len; j++) { if (j != 4 && j != 7) { if (val_string[j] > 0x39 || val_string[j] < 0x30) { fail = true; break; } } else if (j == 4 || j == 7) { if (val_string[j] != '-') { fail = true; break; } } } if (!fail) { uint16_t temp = 0; temp = 1000 * (val_string[0] - 0x30) + 100 * (val_string[1] - 0x30) + 10 * (val_string[2] - 0x30) + val_string[3] - 0x30; if (temp > 2099 || temp < 2000) { fail = true; } temp = 0; temp = 10 * (val_string[5] - 0x30) + (val_string[6] - 0x30); if (temp > 12) { fail = true; } temp = 0; temp = 10 * (val_string[8] - 0x30) + (val_string[9] - 0x30); if (temp > 31) { fail = true; } } if (!fail) { ret = SNMP_ERR_NOERROR; } } break; case 43: val_string = (char *)value; val_string[len] = 0; if (len == 5) { for (j = 0; j < len; j++) { if (j != 2) { if (val_string[j] > 0x39 || val_string[j] < 0x30) { fail = true; break; } } else if (j == 2) { if (val_string[j] != ':') { fail = true; break; } } } if (!fail) { uint16_t temp = 0; temp = 10 * (val_string[0] - 0x30) + (val_string[1] - 0x30); if (temp > 23) { fail = true; } temp = 0; temp = 10 * (val_string[3] - 0x30) + (val_string[4] - 0x30); if (temp > 59) { fail = true; } } if (!fail) { ret = SNMP_ERR_NOERROR; } } break; }; return ret; } #endif