/* * megatec.c * * Created on: 22.05.2017 * Author: balbekova */ #include "FreeRTOS.h" #include "task.h" #include "fr_timers.h" #include "usart.h" #include "megatec.h" #include "ups_monitor.h" #include "log.h" #include "snmp_api.h" #include "syslog.h" #include "settings_api.h" #include "parameters.h" #include "hal.h" #include "rtc.h" #ifdef PRINTF_STDLIB #include #endif #ifdef PRINTF_CUSTOM #include "tinystdio.h" #endif #include #include #define DBG if (0) TimerHandle_t UPSRestoreTimer; TimerHandle_t AutoTestTimer; /** * @brief Общая структура настроек */ extern SETTINGS_t sSettings; #define UPS_PDU_MAX_LEN 80 float TimeParamFloat = 0; uint16_t TimeParam = 0; uint16_t TimeParam2 = 0; bool megatec_send = true; UPS_value_t UPS; int test_time = 0; static bool flag_buzzer_on = false; static float Ubat_sum = 0; static float Pload_sum = 0; uint32_t Period_testing = 0; static bool sync_data = false; static bool QFLAG_L = false; enum { NORMAL = 0x00, VER_ERROR = 0x01, CHKSUM_ERROR = 0x02, LCHKSUM_ERROR = 0x03, CID2_INVALID = 0x04, CMD_FMT_ERROR = 0x05, INVALID_DATA = 0x06, }; static struct { uint8_t data[UPS_PDU_MAX_LEN]; uint16_t len; } ups_pdu; const char *MegaTecCMD[] = { "Q1\r", "T\r", "TL\r", "T", "Q\r", "S", "R", "C\r", "CT\r", "I\r", "F\r", "Q2\r", "QGS\r", "QBV\r", "QMD\r", "QVFW\r", "QVFW2\r", "QID\r", "QPI\r", "QS\r", "M\r", "PDA\r", "QMOD\r", "SON\r", "QWS\r", "QBYV\r", "PHV264\r",//264 "QFLAG\r", "PEL\r", "BT\r", "QTPR\r", "QFS\r", "SOFF\r", }; extern bool flUpdateLog; static bool flag_WPHVR2K0L = false; void AutoTestCallback(void); void init_UPS_value(void) { UPS.Freq_in = 0; UPS.VAC_in = 0; UPS.VAC_out = 0; UPS.Temp = 0; UPS.data_check_load = 0; UPS.data_check_load_flag = false; UPS.Load = 0; UPS.Load_test_akb = 0; UPS.SOC = 0; UPS.SOC_prev = 0; UPS.work_time = 0; UPS.akb_work_time = 0; UPS.Status = 0; UPS.Mode = 0; UPS.Alarm = 0; UPS.temp_stm32 = 0; UPS.warn_status = 0; UPS.Test_Status = 0; UPS.fault_type = 0; UPS.cnt_err_ups = 0; UPS.Flag_Present = false; UPS.Present = UPS_WAIT_CONNECT; memset(UPS.model, 0, sizeof(UPS.model)); memset(UPS.vertion, 0, sizeof(UPS.vertion)); memset(UPS.serial, 0, sizeof(UPS.serial)); } void init_var_for_testing(void) { Ubat_sum = 0; Pload_sum = 0; Period_testing = 0; } float voltage_bat_average(void) { return (Ubat_sum / Period_testing); } float power_load_average(void) { return (Pload_sum / Period_testing); } void send_MegaTec_cmd(cmdMegaTecEnums_t command) { DBG printf("MegaTecCMD: %s\r\n", MegaTecCMD[command]); if (command == ups_test_time) { uint8_t req[10]; memset(req, 0, 10); if (TimeParam < 10) { sprintf(req, "%s0%d\r", MegaTecCMD[command], TimeParam); } else { sprintf(req, "%s%d\r", MegaTecCMD[command], TimeParam); } ups_send_block(req, strlen(req)); } else if (command == ups_shutdown) { uint8_t req[10]; memset(req, 0, 10); if (TimeParamFloat >= 1 && TimeParamFloat < 10) { sprintf(req, "%s0%d\r", MegaTecCMD[command], (uint16_t)TimeParamFloat); } else if (TimeParamFloat < 1) { sprintf(req, "%s.%d\r", MegaTecCMD[command], (uint16_t)(10 * TimeParamFloat)); } else { sprintf(req, "%s%d\r", MegaTecCMD[command], (uint16_t)TimeParamFloat); } ups_send_block(req, strlen(req)); } else if (command == ups_shutdown_restore) { uint8_t req[10]; memset(req, 0, 10); if (TimeParamFloat >= 1 && TimeParamFloat < 10) { sprintf(req, "%s0%d%s000%d\r", MegaTecCMD[command - 1], (uint16_t)TimeParamFloat, MegaTecCMD[command], TimeParam2); } else if (TimeParamFloat < 1) { sprintf(req, "%s.%d%s000%d\r", MegaTecCMD[command - 1], (uint16_t)(10 * TimeParamFloat), MegaTecCMD[command], TimeParam2); } else { sprintf(req, "%s%d%s000%d\r", MegaTecCMD[command - 1], (uint16_t)TimeParamFloat, MegaTecCMD[command], TimeParam2); } ups_send_block(req, strlen(req)); } else { // TODO ����������� ��������� //ups_send_block(MegaTecCMD[command], strlen(MegaTecCMD[command])); ups_send_block((void *)MegaTecCMD[command], strlen(MegaTecCMD[command])); } } bool ups_megatec_rx_pdu(void) { int c = 0; uint8_t cnt_answer = 0; ups_pdu.len = 0; while (c >= 0) { c = ups_getchar(300);//portMAX_DELAY200 if (c >= 0) { ups_pdu.len = 0; memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); ups_pdu.data[ups_pdu.len++] = c; while ((ups_pdu.len < UPS_PDU_MAX_LEN) && (c != 0x0d)) { c = ups_getchar(100);//portMAX_DELAY200 if (c < 0) { ups_pdu.len = 0; return false; } ups_pdu.data[ups_pdu.len++] = c; } DBG printf("UPS raw data: %s\r\n", ups_pdu.data); cnt_answer ++; } else { if (ups_pdu.len == 0) { return false; } } } if (cnt_answer > 1) { DBG printf("MegaTecCMD: false\r\n"); return false; } DBG printf("UPS raw data: %s\r\n", ups_pdu.data); DBG printf("UPS raw data len: %d\r\n", ups_pdu.len); return true; } int8_t get_ups_param(char *buf, char *param, char *val) { char *endValue; int8_t param_len; memset(val, 0, 20); endValue = strpbrk(buf, param); if (endValue != NULL) { param_len = endValue - buf; if (param_len < 20) { strncpy(val, buf, param_len); } else { param_len = 0; } } else { param_len = 0; } DBG printf("UPS parameter: %s\r\n", val); return param_len; } void ups_status_response(char *data) { uint8_t i; char value[20]; float tmp; uint8_t len = 0; DBG printf("ups_status_response: %s\r\n", data); if (data[0] != '(') { return; } DBG printf("ups_status_parser_start\r\n"); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; #ifdef UPS_BUZZER_OFF if (flag_buzzer_on) { data[45] = '0'; } #endif if (flUpdateLog) { if(sSettings.UPS_Setting.type_ups == ups_voltronic) { char temperature_str[5]; sprintf(temperature_str, "%3.1f", UPS.Temp); for(uint8_t k = 0; k < 4; k++){ data[33 + k] = temperature_str[k]; } } flUpdateLog = false; log_add(data); } data++; DBG printf("UPS ups_status_parser_startr: %s\r\n", data); len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { tmp = atof(value); if (tmp > 20) { UPS.VAC_in = tmp; } else { UPS.VAC_in = 0; } } //TODO len = get_ups_param(data, " ", value); data += (len + 1); len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { UPS.VAC_out = atof(value); } len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { UPS.Load = atoi(value); } sync_data = true; len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { UPS.Freq_in = atof(value); } //TODO len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { UPS.Vcell_curr = atof(value); } len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { tmp = atof(value); if (tmp == 0 && UPS.temp_stm32 < 0) { UPS.Temp = UPS.temp_stm32; } else { UPS.Temp = tmp; } } len = get_ups_param(data, "\r", value); data += (len + 1); if (len > 0) { uint8_t stat = 0; for (i = 0; i < len; i ++) { stat |= (value[i] - 0x30) << (7 - i); } UPS.Status = stat; } // if (sSettings.UPS_Setting.type_ups == ups_kestar || sSettings.UPS_Setting.type_ups == ups_offline) { if(UPS.Status & 0x04){ UPS.SOC_prev = UPS.SOC; } if (UPS.Vcell_curr < 7) { UPS.SOC = round(100 * (UPS.Vcell_curr - sSettings.UPS_Setting.Ucellmin) / (sSettings.UPS_Setting.Ucellmax - sSettings.UPS_Setting.Ucellmin)); } else { UPS.SOC = round(100 * (UPS.Vcell_curr / AKB_NUM_CELL - sSettings.UPS_Setting.Ucellmin) / (sSettings.UPS_Setting.Ucellmax - sSettings.UPS_Setting.Ucellmin)); } // } if((UPS.Status >> 2) & 0x01 || ((UPS.Status >> 7) & 0x01)) { UPS.Load_test_akb = UPS.Load; TM_RTC_t data; TM_RTC_GetDateTime(&data, TM_RTC_Format_BIN); UPS.data_check_load_flag = true; UPS.data_check_load = data.unix; } } void ups_general_status_response(char *data) { uint8_t i; char value[20]; float tmp; uint8_t len = 0; DBG printf("ups_status_response: %s\r\n", data); if (data[0] != '(') { return; } DBG printf("ups_status_parser_start\r\n"); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data++; DBG printf("UPS ups_status_parser_startr: %s\r\n", data); data = data + 72; uint8_t stat = 0; UPS.Test_Status = 0; for (i = 0; i < 2; i ++) { UPS.Test_Status |= (data[i] - 0x30) << (1 - i); } /* len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { tmp = atof(value); if (tmp > 20) { UPS.VAC_in = tmp; } else { UPS.VAC_in = 0; } } len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { UPS.Freq_in = atof(value); } len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { UPS.VAC_out = atof(value); } //TODO len = get_ups_param(data, " ", value); data += (len + 1); //TODO len = get_ups_param(data, " ", value); data += (len + 1); len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { UPS.Load = atoi(value); } //TODO len = get_ups_param(data, " ", value); data += (len + 1); //TODO len = get_ups_param(data, " ", value); data += (len + 1); //TODO len = get_ups_param(data, " ", value); data += (len + 1); //TODO len = get_ups_param(data, " ", value); data += (len + 1); len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { UPS.Temp = atof(value); } len = get_ups_param(data, "\r", value); data += (len + 1); if (len > 0) { uint8_t stat = 0; for (i = 2; i < (len - 2); i ++) { stat |= (value[i] - 0x30) << (7 - i); } UPS.Status = stat; } value[len - 2] = 0; if (flUpdateLog) { flUpdateLog = false; memset(data, 0, UPS_PDU_MAX_LEN); sprintf(data, "(%0.1f n/a %0.1f %d %0.1f %0.2f %0.1f %s", UPS.VAC_in, UPS.VAC_out, UPS.Load, UPS.Freq_in, UPS.Vcell_curr, UPS.Temp, &value[2]); log_add(data); } */ } void ups_info_response(char *data) { uint8_t i = 0, j = 0; char value[20]; DBG printf("ups_info_response: %s\r\n", data); if (data[0] != '#') { return; } DBG printf("ups_info_response_startr: %s\r\n", data); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data++; data += 16; //пропускаем поле название компании memset(value, 0, sizeof(value)); for (uint8_t i = 0; i < KSTAR_MODEL_LENGTH; i ++) { if (data[i] != ' ') { value[j] = data[i]; j ++; } } if (j != 0) { if (UPS.model[0] == 0) { strncpy(UPS.model, value, strlen(value)); SNMP_SetObjDescr(); } else { strncpy(UPS.model, data, strlen(value)); } } else { if (UPS.model[0] == 0) { strcpy(UPS.model, "RTMP-II"); SNMP_SetObjDescr(); } else { strcpy(UPS.model, "RTMP-II"); } } data += (KSTAR_MODEL_LENGTH + 1); strncpy(UPS.serial, data, 8); data += 8; strncpy(UPS.vertion, data, 2); SNMP_SetObjDescr(); } void ups_remain_time_response(char *data) { char value[20]; if (data[0] != '(') { return; } DBG printf("ups_remain_time_response: %s\r\n", data); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data++; if (strlen(data) > 5) { return; } memset(value, 0, 10); strcpy(value, data); //if((UPS.Status >> 7) & 0x01) UPS.work_time = atoi(value); //else // UPS.work_time = 0; } void ups_akb_info_response(char *data) { char value[20]; uint8_t len = 0; DBG printf("ups_akb_info_response: %s\r\n", data); if (data[0] != '(') { return; } DBG printf("ups_akb_info_parser_start\r\n"); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data++; DBG printf("UPS ups_akb_info_parser_start: %s\r\n", data); len = get_ups_param(data, " ", value); data += (len + 1); if(len > 0) { UPS.Vakb_curr = atof(value); } #ifdef TEST_ALARM_AKB_MONITOR if((UPS.Status >> 2) & 0x01) { Ubat_sum += UPS.Vakb_curr; Pload_sum += UPS.Load; Period_testing ++; } #endif //TODO len = get_ups_param(data, " ", value); data += (len + 1); //TODO len = get_ups_param(data, " ", value); data += (len + 1); len = get_ups_param(data, " ", value); data += (len + 1); /* if (len > 0) { UPS.SOC_prev = UPS.SOC; UPS.SOC = atoi(value); }*/ len = get_ups_param(data, "\r", value); data += (len + 1); if (len > 0) { UPS.work_time = atoi(value); } } void ups_model_response(char *data) { uint8_t j = 0; char value[20]; uint8_t len = 0; DBG printf("ups_akb_info_response: %s\r\n", data); if (data[0] != '(') { return; } DBG printf("ups_akb_info_parser_start\r\n"); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data++; DBG printf("UPS ups_akb_info_parser_start: %s\r\n", data); memset(value, 0, 20); if (UPS.model[0] == 0) { for (uint8_t i = 0; i < VOLTRONIC_MODEL_LENGTH; i ++) { if (data[i] != '#') { value[j] = data[i]; j ++; } } if(strncmp(value, "WPHV", 4) == 0 || strncmp(value, "G2", 2) == 0 || value[0] == 0) { #if HARDWARE_BT6711_V1 if(UPS.serial[0] == 0) { return; } if(strncmp(value, "WPHVR2K0L", 9) == 0) { strcpy(UPS.model, "RTMP-II v1rih"); flag_WPHVR2K0L = true; } else if(strncmp(UPS.serial, "83122103100051", 14) == 0) { strcpy(UPS.model, "RTMP-II v0hi v1"); //flag_WPHVR2K0L = true; } else #endif #if HARDWARE_BT6709_MTS || HARDWARE_BT6710 if(UPS.serial[0] == 0) { return; } if(strncmp(value, "WPHVR3K0", 8) == 0) { strcpy(UPS.model, "RTMP-II v3r"); } else if(strncmp(value, "WPHVR2K0", 8) == 0) { strcpy(UPS.model, "RTMP-II v2r"); } else if(strncmp(value, "WPHVR1K0", 8) == 0) { strcpy(UPS.model, "RTMP-II r"); } else #endif { strcpy(UPS.model, "RTMP-II"); } } else { #ifdef HARDWARE_BT6709 if(UPS.serial[0] == 0) { return; } if(strncmp(UPS.serial, "83122104100", 11) == 0) { char str[15]; strncpy(str, &UPS.serial[11], 3); int32_t tmp = atoi(str); if (tmp >= 281 && tmp <= 770) { strcpy(UPS.model, "RTMP-II hi"); } else { len = strlen(value); strncpy(UPS.model, value, len); } } else #endif #if HARDWARE_BT6709_MTS || HARDWARE_BT6710 if(strncmp(value, "RTMP-II v", 9) == 0 || strncmp(value, "RTMP-IIv", 8) == 0) { strcpy(UPS.model, "RTMP-II r"); } else #endif { len = strlen(value); strncpy(UPS.model, value, len); } } #if HARDWARE_BT6711_V1 if(UPS.serial[0] == 0) { memset(UPS.model, 0, sizeof(UPS.model)); return; } if(strncmp(UPS.serial, "83122103100051", 14) == 0) { strcpy(UPS.model, "RTMP-II v0hi v1"); //flag_WPHVR2K0L = true; } else if (strncmp(UPS.serial, "83122204100", 11) == 0) { char str[15]; strncpy(str, &UPS.serial[11], 3); int32_t tmp = atoi(str); if (tmp >= 139 && tmp <= 938) { strcpy(UPS.model, "RTMP-II v0hi v1"); } } #endif SNMP_SetObjDescr(); data += (VOLTRONIC_MODEL_LENGTH + 1); memset(value, 0, sizeof(value)); j = 0; for (uint8_t i = 0; i < VOLTRONIC_OUTPUT_RATED_LENGTH; i ++) { if (data[i] != '#') { value[j] = data[i]; j ++; } } float temp_value = atof(value); if (sSettings.UPS_Setting.ups_power != temp_value) { sSettings.UPS_Setting.ups_power = temp_value; SETTINGS_Save(); } } else { return; } } void ups_version_response(char *data) { char value[20]; uint8_t len = 0; DBG printf("ups_akb_info_response: %s\r\n", data); if (data[0] != '(') { return; } DBG printf("ups_akb_info_parser_start\r\n"); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data++; if (UPS.vertion[0] != 0) { if(strncmp(data, UPS.vertion, strlen(UPS.vertion)) == 0){ return; } } memset(UPS.vertion, 0, sizeof(UPS.vertion)); len = get_ups_param(data, ":", value); data += (len + 1); DBG printf("UPS ups_akb_info_parser_start: %s\r\n", data); len = get_ups_param(data, "\r", value); if (len > VOLTRONIC_VERSION_LENGTH) { len = VOLTRONIC_VERSION_LENGTH; } strncpy(UPS.vertion, value, len); } void ups_version_part2_response(char *data) { char value[20]; uint8_t len = 0; DBG printf("ups_akb_info_response: %s\r\n", data); if (data[0] != '(') { return; } DBG printf("ups_akb_info_parser_start\r\n"); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; if (strncmp(ups_pdu.data, "(NAK", 4) == 0) { return; } data++; if (UPS.vertion[VOLTRONIC_VERSION_LENGTH] != 0) { return; } DBG printf("UPS ups_akb_info_parser_start: %s\r\n", data); len = get_ups_param(data, ":", value); data += (len + 1); len = get_ups_param(data, "\r", value); if (len > VOLTRONIC_VERSION_LENGTH) { len = VOLTRONIC_VERSION_LENGTH; } strncat(UPS.vertion, "/", 1); strncat(UPS.vertion, value, len); } void ups_serial_response(char *data) { char value[20]; uint8_t len = 0; DBG printf("ups_serialresponse: %s\r\n", data); if (data[0] != '(') { return; } DBG printf("ups_serial_parser_start\r\n"); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data++; DBG printf("UPS ups_serial_parser_start: %s\r\n", data); len = get_ups_param(data, "\r", value); strncpy(UPS.serial, value, VOLTRONIC_SN_LENGTH); } void ups_protocol_id_response(char *data) { DBG printf("ups_protocol_id_response: %s\r\n", data); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; if (data[0] != '(') { if (strncmp(data, "NAK", 3) == 0 || strncmp(data, " \r", 2) == 0) { sSettings.UPS_Setting.type_ups = ups_kestar; } else if(strncmp(data, "QPI", 3) == 0) { sSettings.UPS_Setting.type_ups = ups_offline; } return; } data++; sSettings.UPS_Setting.type_ups = ups_voltronic; DBG printf("UPS ups_protocol_id_parser_start: %s\r\n", data); } void ups_buzzer_cntrl_response(char *data) { UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; if (strlen(data) != 0) { if (strncmp(data, "(ACK", 4) == 0) { flag_buzzer_on = true; } } DBG printf("UPS ups_buzzer_cntrl_parser_start: %s\r\n", data); } void ups_mode_response(char *data) { char value[50]; uint8_t len = 0; DBG printf("ups_serialresponse: %s\r\n", data); if (data[0] != '(') { return; } DBG printf("ups_serial_parser_start\r\n"); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data++; DBG printf("UPS ups_mode_parser_start: %s\r\n", data); if (UPS.Mode != data[0]) { UPS.Mode = data[0]; #ifdef UPS_MODE_MONITOR memset(value, 0, sizeof(value)); GetModeStr(value, &len); if(UPS.Mode == 'F') { memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); send_MegaTec_cmd(ups_fault_status); if (ups_megatec_rx_pdu()) { if (ups_pdu.data[0] != '(' || strncmp(ups_pdu.data, "(OK", 3) == 0) { return; } UPS.fault_type = (ups_pdu.data[1] - 0x30) << 4 | (ups_pdu.data[2] - 0x30); strncat(value, &ups_pdu.data[1], 6); strncat(value, &ups_pdu.data[14], 4); strncat(value, &ups_pdu.data[25], 8); strncat(value, &ups_pdu.data[35], 4); strncat(value, &ups_pdu.data[41], 4); strncat(value, &ups_pdu.data[47], 4); strncat(value, &ups_pdu.data[53], 4); strncat(value, &ups_pdu.data[59], 8); } } SNMP_SendUserTrap(UPS_MODE); syslog(SYSLOG_INFORMATIONAL, "Режим ИБП: %s", value); log_event_data(LOG_UPS_MODE, value); #endif } } #define BIT_OFFSET(c, offset) ((c - 0x30) << offset) void ups_warn_status_response(char *data) { if (data[0] != '(') { return; } UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data++; sync_data = false; UPS.warn_status = BIT_OFFSET(data[0], 0) + BIT_OFFSET(data[2], 1) + BIT_OFFSET(data[5], 2) + BIT_OFFSET(data[6], 3) + BIT_OFFSET(data[7], 4) + BIT_OFFSET(data[8], 5) + BIT_OFFSET(data[12], 6) + BIT_OFFSET(data[13], 7) + BIT_OFFSET(data[10], 8); } void ups_get_ack(char *data) { UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; if (strlen(data) != 0) { if (strncmp(data, "(ACK", 4) == 0) { return; } } DBG printf("UPS ups_buzzer_cntrl_parser_start: %s\r\n", data); } void ups_qflag_status_get(char *data) { char *ptr1, *ptr2; UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; if (strlen(data) != 0) { ptr1 = strchr(data, 'l'); ptr2 = strchr(data, 'D'); if (ptr1 != NULL && ptr2 != NULL) { if (ptr2 < ptr1) { QFLAG_L = true; } } } } void ups_kstar_status_response(char *data) { char value[20]; uint8_t len; if (data[0] != '#') { return; } DBG printf("ups_kstar_status_response: %s\r\n", data); UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data++; len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { UPS.work_time = atoi(value); } /* len = get_ups_param(data, "\r", value); data += (len + 1); if (len > 0) { UPS.warn_status = value[3] - 0x30; } */ } void ups_temperature_response(char *data) { char value[20]; uint8_t len = 0; float temp = 0; if (data[0] != '(') { return; } UPS.Present = UPS_CONNECTED; UPS.Flag_Present = true; UPS.cnt_err_ups = 0; data += 13; // Вернул получение значения UPS.Temp в команду "ups_status_response" #if 0 len = get_ups_param(data, " ", value); data += (len + 1); if (len > 0) { temp = atof(value); if (temp == 0 && UPS.temp_stm32 < 0) { UPS.Temp = UPS.temp_stm32; } else { UPS.Temp = temp; } } #endif } void ups_megatec_process_pdu(cmdMegaTecEnums_t command) { switch (command) { case ups_status_req: case ups_offline_status_req: ups_status_response(ups_pdu.data); break; case ups_info: ups_info_response(ups_pdu.data); break; case ups_rating_info: break; case ups_remain_time_reg: ups_remain_time_response(ups_pdu.data); break; case ups_general_status_req: ups_general_status_response(ups_pdu.data); break; case ups_akb_info: ups_akb_info_response(ups_pdu.data); break; case ups_model_req: ups_model_response(ups_pdu.data); break; case ups_version_req: ups_version_response(ups_pdu.data); break; case ups_version2_req: ups_version_part2_response(ups_pdu.data); break; case ups_serial_req: ups_serial_response(ups_pdu.data); break; case ups_protocol_id_req: ups_protocol_id_response(ups_pdu.data); break; case ups_buzzer_cntrl: ups_buzzer_cntrl_response(ups_pdu.data); break; case ups_mode_req: ups_mode_response(ups_pdu.data); break; case ups_warning_status: ups_warn_status_response(ups_pdu.data); break; case ups_bypass_hvolt_264_set: case ups_cmd_enable_flag_l: ups_get_ack(ups_pdu.data); break; case ups_qflag_status: ups_qflag_status_get(ups_pdu.data); break; case ups_kstar_status: ups_kstar_status_response(ups_pdu.data); break; case ups_temperature: ups_temperature_response(ups_pdu.data); break; default: break; } } int ups_metac_service_pdu(cmdMegaTecEnums_t command) { uint8_t UPS_Status_prev; if (UPS.Present == UPS_CONNECTED) { while (!megatec_send) { vTaskDelay(50); } UPS_Status_prev = UPS.Status; memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; if (command == ups_shutdown) {//sSettings.UPS_Setting.type_ups == ups_offline && TimeParam2 = 1; send_MegaTec_cmd(ups_shutdown_restore); } else { if((UPS.Status >> 2) & 0x01) { if (command == ups_cancel_test) { test_time = 100; } } else { if (command == ups_test_low_bat) { test_time = 100; } else { test_time = (int)TimeParam; } } send_MegaTec_cmd(command); } if (ups_megatec_rx_pdu()) { megatec_send = true; if (strncmp(ups_pdu.data, "ACK", 3) == 0 || strncmp(ups_pdu.data, "(ACK", 4) == 0) { if (command == ups_shutdown) { xTimerChangePeriod(UPSRestoreTimer, (TimeParamFloat + 0.3)*60*configTICK_RATE_HZ, 0); xTimerStart(UPSRestoreTimer, 0); } else if(command == ups_cancel_shut_down) { xTimerStop(UPSRestoreTimer, 0); } else if (command == ups_test_time) { init_var_for_testing(); } return 1; } else if (strncmp(ups_pdu.data, "NAK", 3) == 0 || strncmp(ups_pdu.data, "(NAK", 4) == 0) { return 0; } } vTaskDelay(1500); memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; 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; if (command == ups_shutdown) { if ((((UPS.Status >> 1) & 0x01) != ((UPS_Status_prev >> 1) & 0x01)) && ((UPS.Status >> 1) & 0x01)) { xTimerChangePeriod(UPSRestoreTimer, (TimeParamFloat + 0.3)*60*configTICK_RATE_HZ, 0); xTimerStart(UPSRestoreTimer, 0); return 1; } } else if (command == ups_cancel_shut_down) { if ((((UPS.Status >> 1) & 0x01) != ((UPS_Status_prev >> 1) & 0x01)) && !((UPS.Status >> 1) & 0x01)) { xTimerStop(UPSRestoreTimer, 0); return 1; } } else if (command == ups_cancel_test) { if ((((UPS.Status >> 2) & 0x01) != ((UPS_Status_prev >> 2) & 0x01)) && !((UPS.Status >> 2) & 0x01)) { return 1; } } else { if ((((UPS.Status >> 2) & 0x01) != ((UPS_Status_prev >> 2) & 0x01)) && ((UPS.Status >> 2) & 0x01)) { init_var_for_testing(); return 1; } } megatec_send = true; } return -1; } void kstar_mode(void) { uint8_t mode = UPS.Mode; if((UPS.Status >> 4) & 0x01) { UPS.Mode = 'F'; } else if(!((UPS.Status >> 4) & 0x01) && UPS.VAC_out == 0) { UPS.Mode = 'D'; } else if(((UPS.Status >> 5) & 0x01) && UPS.VAC_out > 120 && UPS.VAC_in != 0) { UPS.Mode = 'Y'; } else if(((UPS.Status >> 7) & 0x01) && UPS.VAC_out > 190) { UPS.Mode = 'B'; } else if(!((UPS.Status >> 7) & 0x01) && UPS.VAC_out > 190) { UPS.Mode = 'L'; } else if((UPS.Status >> 2) & 0x01) { UPS.Mode = 'T'; } if (UPS.Mode != mode) { #ifdef UPS_MODE_MONITOR char value[20]; uint8_t len = 0; memset(value, 0, sizeof(value)); GetModeStr(value, &len); SNMP_SendUserTrap(UPS_MODE); syslog(SYSLOG_INFORMATIONAL, "Режим ИБП: %s", value); log_event_data(LOG_UPS_MODE, value); #endif } } // TODO ����������� ��������� //void request_task(void) void request_task(void *params) { uint8_t kestar_req[4] = { ups_status_req, ups_remain_time_reg, ups_info, ups_kstar_status}; uint8_t voltronic_req[9] = {ups_temperature, ups_status_req, ups_akb_info, ups_model_req, ups_mode_req, ups_version_req, ups_version2_req, ups_serial_req, ups_warning_status};// uint8_t num_req = 0; uint8_t *req; bool flag_init_ups = false; ups_megatec_rx_pdu(); for (;;) { if (UPS.Present != UPS_FAIL_CONNECT) { if (UPS.Flag_Present == false) { if (UPS.cnt_err_ups != 2) { UPS.cnt_err_ups++; } else { UPS.Freq_in = 0; UPS.VAC_in = 0; UPS.VAC_out = 0; UPS.Temp = 0; UPS.Load = 0; UPS.Load_test_akb = 0; UPS.SOC = 0; UPS.SOC_prev = 0; UPS.work_time = 0; UPS.Status = 0; UPS.Mode = 0; UPS.Test_Status = 0; UPS.Alarm = 0; UPS.warn_status = 0; UPS.fault_type = 0; UPS.Present = UPS_FAIL_CONNECT; //memset(UPS.model, 0, 11); memset(UPS.vertion, 0, sizeof(UPS.vertion)); init_ups_rbuf(); flag_init_ups = false; } } } if (megatec_send) { memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; UPS.Flag_Present = false; send_MegaTec_cmd(ups_protocol_id_req); if (ups_megatec_rx_pdu()) { ups_megatec_process_pdu(ups_protocol_id_req); } megatec_send = true; } switch (sSettings.UPS_Setting.type_ups) { case ups_kestar: case ups_offline: num_req = sizeof(kestar_req); req = kestar_req; break; case ups_voltronic: num_req = sizeof(voltronic_req); req = voltronic_req; #ifdef UPS_BUZZER_OFF if (!flag_buzzer_on) { if (megatec_send) { memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; UPS.Flag_Present = false; send_MegaTec_cmd(ups_buzzer_cntrl); if (ups_megatec_rx_pdu()) { ups_megatec_process_pdu(ups_buzzer_cntrl); } megatec_send = true; } } #endif break; default: num_req = sizeof(kestar_req); req = kestar_req; break; } if(!flag_init_ups) { flag_init_ups = true; if(sSettings.UPS_Setting.type_ups == ups_voltronic) { if (megatec_send) { memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; UPS.Flag_Present = false; send_MegaTec_cmd(ups_bypass_hvolt_264_set); if (ups_megatec_rx_pdu()) { ups_megatec_process_pdu(ups_bypass_hvolt_264_set); } megatec_send = true; } if (megatec_send) { memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; UPS.Flag_Present = false; send_MegaTec_cmd(ups_qflag_status); if (ups_megatec_rx_pdu()) { ups_megatec_process_pdu(ups_qflag_status); } megatec_send = true; } if (QFLAG_L) { if (megatec_send) { memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; UPS.Flag_Present = false; send_MegaTec_cmd(ups_cmd_enable_flag_l); if (ups_megatec_rx_pdu()) { ups_megatec_process_pdu(ups_cmd_enable_flag_l); } megatec_send = true; } } } #ifdef CHECK_LOAD_ENABLE xTimerStart(AutoTestTimer, 0); xTimerChangePeriod(AutoTestTimer, 60*configTICK_RATE_HZ, 0); #endif } vTaskDelay(1000); for (uint8_t i = 0; i < num_req; i++) { if (megatec_send) { memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; UPS.Flag_Present = false; send_MegaTec_cmd(req[i]); if (ups_megatec_rx_pdu()) { ups_megatec_process_pdu(req[i]); } megatec_send = true; } } if(UPS.Flag_Present && (sSettings.UPS_Setting.type_ups == ups_kestar || sSettings.UPS_Setting.type_ups == ups_offline)) { kstar_mode(); } } } bool get_sync_data(void) { return sync_data; } void akb_time_work_task(void *params) { static uint32_t tick_prev = 0; static uint32_t cnt_sec = 0; for (;;) { if (UPS.Present == UPS_CONNECTED && ((UPS.Status >> 7) & 0x01)) { if (tick_prev == 0) { tick_prev = xTaskGetTickCount(); } UPS.akb_work_time += (xTaskGetTickCount() - tick_prev) / 1000; tick_prev = xTaskGetTickCount(); } else { tick_prev = 0; UPS.akb_work_time = 0; } if(flag_WPHVR2K0L) { cnt_sec ++; if (cnt_sec == 3600) { cnt_sec = 0; int res = ups_metac_service_pdu(ups_test_10sec); } } vTaskDelay(1000); } } void UPSRestoreCallback(TimerHandle_t pxTimer) { if (UPS.Present == UPS_CONNECTED) { while (!megatec_send) { vTaskDelay(50); } memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; //UPS.Flag_Present = false; send_MegaTec_cmd(ups_remote_turn_on); if (ups_megatec_rx_pdu()) { ups_megatec_process_pdu(ups_remote_turn_on); } megatec_send = true; } } void UPScmd(cmdMegaTecEnums_t cmd) { if (UPS.Present == UPS_CONNECTED) { while (!megatec_send) { vTaskDelay(50); } memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; //UPS.Flag_Present = false; send_MegaTec_cmd(cmd); if (ups_megatec_rx_pdu()) { ups_megatec_process_pdu(cmd); } megatec_send = true; } } void UPSReadTestStatus(void) { if(sSettings.UPS_Setting.type_ups == ups_kestar || sSettings.UPS_Setting.type_ups == ups_offline) { return; } if (UPS.Present == UPS_CONNECTED) { while (!megatec_send) { vTaskDelay(50); } memset(ups_pdu.data, 0, UPS_PDU_MAX_LEN); megatec_send = false; //UPS.Flag_Present = false; send_MegaTec_cmd(ups_general_status_req); if (ups_megatec_rx_pdu()) { ups_megatec_process_pdu(ups_general_status_req); } megatec_send = true; } } void AutoTestCallback(void) { static bool first_start = false; if (!first_start) { xTimerChangePeriod(AutoTestTimer, configTICK_RATE_HZ*PERIOD_AUTO_TEST, 0); } if(!((UPS.Status >> 2) & 0x01)) { int res = ups_metac_service_pdu(ups_test_10sec); set_act_source(AUTO_ACT); } first_start = true; } void ups_megatec_init(void) { init_UPS_value(); xTaskCreate(request_task, ( char * ) "request_task", configMINIMAL_STACK_SIZE * 3, NULL, tskIDLE_PRIORITY, NULL); xTaskCreate(akb_time_work_task, ( char * ) "akb_time_work_task", configMINIMAL_STACK_SIZE, NULL, tskIDLE_PRIORITY, NULL); UPSRestoreTimer = xTimerCreate("UPSRestoreTmr", configTICK_RATE_HZ*30, pdFALSE, ( void * ) 0, UPSRestoreCallback); #ifdef CHECK_LOAD_ENABLE AutoTestTimer = xTimerCreate("AutoTestTmr", configTICK_RATE_HZ*PERIOD_AUTO_TEST, pdTRUE, ( void * ) 0, AutoTestCallback); #endif }