#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /*標準輸入輸出定義*/ #include /*標準函數庫定義*/ #include /*Unix 標準函數定義*/ #include /*檔控制定義*/ #include /*PPSIX 終端控制定義*/ #include /*錯誤號定義*/ #include #include #include #include #include #include "../../define.h" #include "Config.h" #include "Module_EvComm.h" #define Debug #define ARRAY_SIZE(A) (sizeof(A) / sizeof(A[0])) #define PASS 1 #define FAIL -1 #define START 1 #define STOP 0 #define YES 1 #define NO 0 #define DEMO 0 struct SysConfigAndInfo *ShmSysConfigAndInfo; struct StatusCodeData *ShmStatusCodeData; struct FanModuleData *ShmFanModuleData; struct CHAdeMOData *ShmCHAdeMOData; struct CcsData *ShmCcsData; byte gun_count = CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY; int chargingTime[CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY]; float maxChargingVol = 5000; // 限制最大充電電壓,如依照模塊則填上 0 float maxChargingCur = 100; // 限制最大充電電流,如依照模塊則填上 0 // 槍資訊 struct ChargingInfoData *_chargingData[CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY]; struct Ev_Board_Cmd Ev_Cmd={ 0, 0x00000200, 0x00000400, 0x00000500, 0x00000600, 0x00000700, 0x00000800, 0x00000900, 0x00000A00, 0x00000C00, 0x00000D00, 0x00000E00, 0x00000F00, 0x00001000, 0x00001100, 0x00001200, 0x00001500, }; void GetMaxVolAndCurMethod(byte index, float *vol, float *cur); int DiffTimeb(struct timeb ST, struct timeb ET) { //return milli-second unsigned int StartTime,StopTime; StartTime=(unsigned int)ST.time; StopTime=(unsigned int)ET.time; return (StopTime-StartTime)*1000+ET.millitm-ST.millitm; } //================================= // Common routine //================================= void getTimeString(char *buff) { time_t timep; struct tm *p; time(&timep); p=gmtime(&timep); sprintf(buff, "[%04d-%02d-%02d %02d:%02d:%02d]", (1900+p->tm_year), (1+p->tm_mon), p->tm_mday, p->tm_hour, p->tm_hour, p->tm_sec); } bool CheckUniqNumber(byte value) { for (byte index = 0; index < gun_count; index++) { if (_chargingData[index]->Evboard_id == value) { struct timeval _end_time; gettimeofday(&_end_time, NULL); unsigned long diff = 1000000 * (_end_time.tv_sec - _id_assign_time.tv_sec) + _end_time.tv_usec - _id_assign_time.tv_usec; if (diff >= 3000000) { gettimeofday(&_id_assign_time, NULL); return true; } else { return false; } } } gettimeofday(&_id_assign_time, NULL); return true; } //========================================== // Init all share memory //========================================== int InitShareMemory() { int result = PASS; int MeterSMId; //initial ShmSysConfigAndInfo if ((MeterSMId = shmget(ShmSysConfigAndInfoKey, sizeof(struct SysConfigAndInfo), 0777)) < 0) { #ifdef SystemLogMessage DEBUG_ERROR("shmget ShmSysConfigAndInfo NG\n"); #endif result = FAIL; } else if ((ShmSysConfigAndInfo = shmat(MeterSMId, NULL, 0)) == (void *) -1) { #ifdef SystemLogMessage DEBUG_ERROR("shmat ShmSysConfigAndInfo NG\n"); #endif result = FAIL; } else {} //initial ShmStatusCodeData if ((MeterSMId = shmget(ShmStatusCodeKey, sizeof(struct StatusCodeData), 0777)) < 0) { #ifdef SystemLogMessage DEBUG_ERROR("shmget ShmStatusCodeData NG\n"); #endif result = FAIL; } else if ((ShmStatusCodeData = shmat(MeterSMId, NULL, 0)) == (void *) -1) { #ifdef SystemLogMessage DEBUG_ERROR("shmat ShmStatusCodeData NG\n"); #endif result = FAIL; } else {} if(CHAdeMO_QUANTITY > 0) { if ((MeterSMId = shmget(ShmCHAdeMOCommKey, sizeof(struct CHAdeMOData), IPC_CREAT | 0777)) < 0) { #ifdef SystemLogMessage DEBUG_ERROR("[shmget ShmCHAdeMOData NG \n"); #endif return FAIL; } else if ((ShmCHAdeMOData = shmat(MeterSMId, NULL, 0)) == (void *) -1) { #ifdef SystemLogMessage DEBUG_ERROR("shmat ShmCHAdeMOData NG \n"); #endif return FAIL; } else {} } if(CCS_QUANTITY > 0) { if ((MeterSMId = shmget(ShmCcsCommKey, sizeof(struct CcsData), IPC_CREAT | 0777)) < 0) { #ifdef SystemLogMessage DEBUG_ERROR("shmget ShmCcsData NG \n"); #endif return FAIL; } else if ((ShmCcsData = shmat(MeterSMId, NULL, 0)) == (void *) -1) { #ifdef SystemLogMessage DEBUG_ERROR("shmat ShmCcsData NG \n"); #endif return FAIL; } else {} } return result; } //================================================ // initial can-bus //================================================ int InitCanBus() { int s0,nbytes; struct timeval tv; struct ifreq ifr0; struct sockaddr_can addr0; system("/sbin/ip link set can0 down"); system("/sbin/ip link set can0 type can bitrate 500000 restart-ms 100"); system("/sbin/ip link set can0 up"); s0 = socket(PF_CAN, SOCK_RAW, CAN_RAW); tv.tv_sec = 0; tv.tv_usec = 10000; if (setsockopt(s0, SOL_SOCKET, SO_RCVTIMEO, (char *)&tv, sizeof(struct timeval)) < 0) { #ifdef SystemLogMessage DEBUG_ERROR("Set SO_RCVTIMEO NG"); #endif } nbytes=40960; if (setsockopt(s0, SOL_SOCKET, SO_RCVBUF, &nbytes, sizeof(int)) < 0) { #ifdef SystemLogMessage DEBUG_ERROR("Set SO_RCVBUF NG"); #endif } nbytes=40960; if (setsockopt(s0, SOL_SOCKET, SO_SNDBUF, &nbytes, sizeof(int)) < 0) { #ifdef SystemLogMessage DEBUG_ERROR("Set SO_SNDBUF NG"); #endif } strcpy(ifr0.ifr_name, "can0" ); ioctl(s0, SIOCGIFINDEX, &ifr0); /* ifr.ifr_ifindex gets filled with that device's index */ addr0.can_family = AF_CAN; addr0.can_ifindex = ifr0.ifr_ifindex; bind(s0, (struct sockaddr *)&addr0, sizeof(addr0)); return s0; } //================================================ //================================================ // CANBUS receive task //================================================ //================================================ bool FindChargingInfoData(byte target, struct ChargingInfoData **chargingData) { for (byte index = 0; index < CHAdeMO_QUANTITY; index++) { if (ShmSysConfigAndInfo->SysInfo.ChademoChargingData[index].Index == target) { chargingData[target] = &ShmSysConfigAndInfo->SysInfo.ChademoChargingData[index]; return true; } } for (byte index = 0; index < CCS_QUANTITY; index++) { if (ShmSysConfigAndInfo->SysInfo.CcsChargingData[index].Index == target) { chargingData[target] = &ShmSysConfigAndInfo->SysInfo.CcsChargingData[index]; return true; } } for (byte index = 0; index < GB_QUANTITY; index++) { if (ShmSysConfigAndInfo->SysInfo.GbChargingData[index].Index == target) { chargingData[target] = &ShmSysConfigAndInfo->SysInfo.GbChargingData[index]; return true; } } return false; } void AddrAssignment(byte *data) { byte target_number[8]; byte index = 0x00; memcpy(target_number, data, sizeof(target_number)); index = *(data + 4); if (CheckUniqNumber(index)) { printf("EV board id = %x \n", index); // printf("target_number[0] = %x \n", target_number[0]); // printf("target_number[1] = %x \n", target_number[1]); // printf("target_number[2] = %x \n", target_number[2]); // printf("target_number[3] = %x \n", target_number[3]); // printf("target_number[4] = %x \n", target_number[4]); if (index < 1) return; printf("SetTargetAddr \n"); SetTargetAddr(target_number, index); } } void ClearAbnormalStatus_CCS(byte gun_index) { int codeValue = 0; if (strlen((char *)ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[gun_index]) == 6) { codeValue = atoi((char *)ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[gun_index]); if (codeValue >= 13600 && codeValue <= 13600) { memcpy(&ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[gun_index][0], "", 7); ShmSysConfigAndInfo->SysStopChargingAlarmCode.Level = 0; } } ShmStatusCodeData->InfoCode.InfoEvents.bits.NormalStopChargingByUser = 0x00; } void ClearAbnormalStatus_Chadmoe(byte gun_index) { int codeValue = 0; if (strlen((char *)ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[gun_index]) == 6) { codeValue = atoi((char *)ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[gun_index]); if (codeValue >= 23700 && codeValue <= 23736) { memcpy(&ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[gun_index][0], "", 7); ShmSysConfigAndInfo->SysStopChargingAlarmCode.Level = 0; } } ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoEvCommFail = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.PilotFault = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryMalfun = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoNoPermission = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryIncompatibility = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryOVP = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryUVP = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryOTP = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryCurrentDiff = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryVoltageDiff = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoShiftPosition = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryOtherFault = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoChargingSystemError = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoEvNormalStop = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoTempSensorBroken = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoConnectorLockFail = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoD1OnNoReceive = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsKtoJTimeout = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsChargeAllowTimeout = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoWaitGfdTimeout = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsEvRelayTimeout = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsReqCurrentTimeout = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsKtoJOffTimeout = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsEvRelayOffTimeout = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoAdcMoreThan10V = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoAdcMoreThan20V = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsChargeBeforeStop = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoChargerGetNormalStop = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoChargerGetEmergencyStop = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoIsolationResultFail = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoMissLinkWithMotherBoard = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoOutputVolMoreThanLimit = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoReqCurrentMoreThanLimit = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoReCapBmsEqrCurrentExceed = 0x00; ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoChargeRemainCountDown = 0x00; } void AbnormalStopAnalysis(byte gun_index, byte *errCode) { char string[7]; sprintf(string, "%d%d%d%d%d%d", *(errCode + 5), *(errCode + 4), *(errCode + 3), *(errCode + 2), *(errCode + 1), *(errCode + 0)); if (gun_index < gun_count) { if (strlen((char *)ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[gun_index]) <= 0) { memcpy(&ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[gun_index][0], string, 7); ShmSysConfigAndInfo->SysStopChargingAlarmCode.Level = 0x00; } } if (strcmp(string, "023700") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoEvCommFail = 0x01; if (strcmp(string, "023701") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.CcsEvCommFail = 0x01; if (strcmp(string, "023702") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.GbEvCommFail = 0x01; if (strcmp(string, "023703") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.PilotFault = 0x01; if (strcmp(string, "023704") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryMalfun = 0x01; if (strcmp(string, "023705") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoNoPermission = 0x01; if (strcmp(string, "023706") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryIncompatibility = 0x01; if (strcmp(string, "023707") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryOVP = 0x01; if (strcmp(string, "023708") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryUVP = 0x01; if (strcmp(string, "023709") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryOTP = 0x01; if (strcmp(string, "023710") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryCurrentDiff = 0x01; if (strcmp(string, "023711") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryVoltageDiff = 0x01; if (strcmp(string, "023712") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoShiftPosition = 0x01; if (strcmp(string, "023713") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBatteryOtherFault = 0x01; if (strcmp(string, "023714") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoChargingSystemError = 0x01; if (strcmp(string, "023715") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoEvNormalStop = 0x01; if (strcmp(string, "023716") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoTempSensorBroken = 0x01; if (strcmp(string, "023717") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoConnectorLockFail = 0x01; if (strcmp(string, "023718") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoD1OnNoReceive = 0x01; if (strcmp(string, "023719") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsKtoJTimeout = 0x01; if (strcmp(string, "023720") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsChargeAllowTimeout = 0x01; if (strcmp(string, "023721") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoWaitGfdTimeout = 0x01; if (strcmp(string, "023722") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsEvRelayTimeout = 0x01; if (strcmp(string, "023723") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsReqCurrentTimeout = 0x01; if (strcmp(string, "023724") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsKtoJOffTimeout = 0x01; if (strcmp(string, "023725") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsEvRelayOffTimeout = 0x01; if (strcmp(string, "023726") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoAdcMoreThan10V = 0x01; if (strcmp(string, "023727") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoAdcMoreThan20V = 0x01; if (strcmp(string, "023728") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoBmsChargeBeforeStop = 0x01; if (strcmp(string, "023729") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoChargerGetNormalStop = 0x01; if (strcmp(string, "023730") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoChargerGetEmergencyStop = 0x01; if (strcmp(string, "023731") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoIsolationResultFail = 0x01; if (strcmp(string, "023732") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoMissLinkWithMotherBoard = 0x01; if (strcmp(string, "023733") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoOutputVolMoreThanLimit = 0x01; if (strcmp(string, "023734") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoReqCurrentMoreThanLimit = 0x01; if (strcmp(string, "023735") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoReCapBmsEqrCurrentExceed = 0x01; if (strcmp(string, "023736") == 0) ShmStatusCodeData->InfoCode.InfoEvents.bits.ChademoChargeRemainCountDown = 0x01; } void CANReceiver() { pid_t canRecPid; canRecPid = fork(); if(canRecPid > 0) { int nbytes; struct can_frame frame; int intCmd; // 槍資訊 struct ChargingInfoData *_chargingData[CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY]; struct timeval _cmd_ack_timeout[CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY]; bool isPass = false; while(!isPass) { isPass = true; for (byte _index = 0; _index < gun_count; _index++) { if (!FindChargingInfoData(_index, &_chargingData[0])) { DEBUG_ERROR("EvComm (main) : FindChargingInfoData false \n"); isPass = false; break; } } } for (byte _index = 0; _index < gun_count; _index++) gettimeofday(&_cmd_ack_timeout[_index], NULL); while (1) { memset(&frame, 0, sizeof(struct can_frame)); nbytes = read(CanFd, &frame, sizeof(struct can_frame)); for (byte _index = 0; _index < gun_count; _index++) { if (GetTimeoutValue(_cmd_ack_timeout[_index]) >= 5000000) { // ACK timeout //printf("gun = %x, ack timeout \n", _index); } } if (nbytes > 0) { byte target; byte targetGun = 0x00; intCmd = (int) (frame.can_id & CAN_EFF_MASK); if (intCmd == ADDRESS_REQ) { AddrAssignment(frame.data); continue; } intCmd = (int) (frame.can_id & CAN_EFF_MASK & 0xFFFFFF00); target = ((byte) (frame.can_id & 0x000000FF)) - 1; // 0x01 or 0x02 for (byte _index = 0; _index < gun_count; _index++) { if (_chargingData[_index]->Evboard_id == target) { targetGun = _index; break; } } if(targetGun < 0 || targetGun >= CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY) { printf("EvComm (CANReceiver) : Target index = %x is < 0 or > QUANTITY \n", targetGun); continue; } if(intCmd == 256) { continue; } gettimeofday(&_cmd_ack_timeout[targetGun], NULL); //printf ("intCmd = %x \n", intCmd); switch (intCmd) { case NOTIFICATION_EV_STATUS: { _chargingData[targetGun]->ConnectorPlugIn = frame.data[0]; _chargingData[targetGun]->PilotVoltage = frame.data[1]; //printf("ConnectorPlugIn = %x, data[0] = %x \n", _chargingData[target]->ConnectorPlugIn, frame.data[0]); //printf("ConnectorPlugIn = %x \n", (-120 + frame.data[1]) / 10); } break; case ACK_EV_FW_VERSION: { if (_chargingData[targetGun]->Type == _Type_Chademo) { memcpy(ShmCHAdeMOData->evse[_chargingData[targetGun]->type_index].version, frame.data, ARRAY_SIZE(frame.data)); ShmCHAdeMOData->evse[_chargingData[targetGun]->type_index].SelfTest_Comp = PASS; } else if (_chargingData[targetGun]->Type == _Type_CCS) { if (ShmCcsData->CommProtocol == 0x01) { memcpy(&ShmCcsData->V2GMessage_DIN70121[_chargingData[targetGun]->type_index].version, frame.data, ARRAY_SIZE(frame.data)); ShmCcsData->V2GMessage_DIN70121[_chargingData[targetGun]->type_index].SelfTest_Comp = PASS; } } } break; case ACK_EV_HW_VERSION: { printf("Get EV HW = %s \n", frame.data); } break; case ACK_GET_OUTPUT_REQ: { _chargingData[targetGun]->EvBatterySoc = frame.data[1]; _chargingData[targetGun]->EvBatterytargetVoltage = ((short) frame.data[3] << 8) + (short) frame.data[2]; _chargingData[targetGun]->EvBatterytargetCurrent = ((short) frame.data[5] << 8) + (short) frame.data[4]; _chargingData[targetGun]->PresentChargedDuration = ((short) frame.data[7] << 8) + (short) frame.data[6]; if (_chargingData[targetGun]->Type == _Type_Chademo) { if (ShmCHAdeMOData->ev[_chargingData[targetGun]->type_index].EvDetection != frame.data[0]) { // log } ShmCHAdeMOData->ev[_chargingData[targetGun]->type_index].EvDetection = frame.data[0]; ShmCHAdeMOData->ev[_chargingData[targetGun]->type_index].SOC = _chargingData[targetGun]->EvBatterySoc; ShmCHAdeMOData->ev[_chargingData[targetGun]->type_index].TargetBatteryVoltage = _chargingData[targetGun]->EvBatterytargetVoltage; ShmCHAdeMOData->ev[_chargingData[targetGun]->type_index].ChargingCurrentRequest = _chargingData[targetGun]->EvBatterytargetCurrent; } else if (_chargingData[targetGun]->Type == _Type_CCS) { if(ShmCcsData->CommProtocol == 0x01) { ShmCcsData->V2GMessage_DIN70121[_chargingData[targetGun]->type_index].PresentMsgFlowStatus = frame.data[0]; } } //printf("frame.data_2 = %x, frame.data_3 = %x \n", frame.data[2], frame.data[3]); //printf("EvBatterytargetVoltage = %f \n", _chargingData[targetGun]->EvBatterytargetVoltage); //printf("EvBatterytargetCurrent = %f \n", _chargingData[targetGun]->EvBatterytargetCurrent); //printf("BatteryVoltage = %d \n", ShmCHAdeMOData->ev[_chargingData[target]->type_index].TargetBatteryVoltage); //printf("CurrentRequest = %d \n", ShmCHAdeMOData->ev[_chargingData[target]->type_index].ChargingCurrentRequest); } break; case ACK_GET_EV_BATTERY_INFO: { //_chargingData[target].EvACorDCcharging = frame.data[0]; //_chargingData[target]->TotalBatteryCap = ((float) frame.data[4] << 8) + (short) frame.data[3]; _chargingData[targetGun]->EvBatteryMaxVoltage = ((short) frame.data[4] << 8) + (short) frame.data[3]; //_chargingData[target]->EvBatteryMaxCurrent = ((float) frame.data[4] << 8) + (short) frame.data[3]; //_chargingData[target].MaxiBatteryCurrent = ((short) frame.data[6] << 8) + (short) frame.data[5]; if (_chargingData[targetGun]->Type == _Type_Chademo) { ShmCHAdeMOData->ev[_chargingData[targetGun]->type_index].TotalBatteryCapacity = ((short) frame.data[2] << 8) + (short) frame.data[1]; ShmCHAdeMOData->ev[_chargingData[targetGun]->type_index].MaxiBatteryVoltage = _chargingData[targetGun]->EvBatteryMaxVoltage; //printf("EvBatteryMaxVoltage = %f \n", _chargingData[target]->EvBatteryMaxVoltage); //printf("TotalBatteryCapacity = %d \n", ShmCHAdeMOData->ev[_chargingData[target]->type_index].TotalBatteryCapacity); //printf("MaxiBatteryVoltage = %d \n", ShmCHAdeMOData->ev[_chargingData[target]->type_index].MaxiBatteryVoltage); } else if (_chargingData[targetGun]->Type == _Type_CCS) { } } break; case ACK_GET_MISCELLANEOUS_INFO: { float pilotVol = (float)(-120 + frame.data[3]) / 10; // if (pilotVol != _chargingData[targetGun]->PilotVoltage) // DEBUG_INFO("PilotVoltage = %f \n", _chargingData[targetGun]->PilotVoltage); if (_chargingData[targetGun]->Type == _Type_Chademo) { _chargingData[targetGun]->GunLocked = frame.data[0]; ShmCHAdeMOData->evse[_chargingData[targetGun]->type_index].ConnectorTemperatureP = frame.data[1]; ShmCHAdeMOData->evse[_chargingData[targetGun]->type_index].ConnectorTemperatureN = frame.data[2]; _chargingData[targetGun]->PilotVoltage = pilotVol; ShmCHAdeMOData->evse[_chargingData[targetGun]->type_index].EvboardStatus = frame.data[7]; } else if (_chargingData[targetGun]->Type == _Type_CCS) { if (ShmCcsData->CommProtocol == 0x01) { _chargingData[targetGun]->GunLocked = frame.data[0]; //ShmCcsData->V2GMessage_DIN70121[_chargingData[targetGun]->type_index]. .ConnectorTemperatureP = frame.data[1]; //ShmCcsData->V2GMessage_DIN70121[_chargingData[targetGun]->type_index]. .ConnectorTemperatureN = frame.data[2]; _chargingData[targetGun]->PilotVoltage = pilotVol; } } //printf("EvboardStatus = %x \n", ShmCHAdeMOData->evse[_chargingData[target]->type_index].EvboardStatus); //printf("ConnectorPlug locked = %x \n", frame.data[0]); //printf("ConnectorTemp 0= %d \n", ShmCHAdeMOData->evse[_chargingData[target]->type_index].ConnectorTemperatureP); //printf("ConnectorTemp 1= %d \n", ShmCHAdeMOData->evse[_chargingData[target]->type_index].ConnectorTemperatureN); } break; case ACK_EVSE_ISOLATION_STATUS: { } break; case ACK_EVSE_PRECHAGE_INFO: { _chargingData[targetGun]->PrechargeStatus = frame.data[0]; } break; case NOTIFICATION_EV_STOP: { time_t CurrentTime; struct tm *tm; CurrentTime = time(NULL); tm = localtime(&CurrentTime); printf("NOTIFICATION_EV_STOP : %04d-%02d-%02d %02d:%02d:%02d \n", tm->tm_year+1900,tm->tm_mon+1,tm->tm_mday,tm->tm_hour,tm->tm_min,tm->tm_sec); // 車端要求停止 // frame.data[0] : 0x01 => normal stop, 0x02 => ev emergency stop if (frame.data[0] == 0x02) { //printf("NOTIFICATION_EV_STOP -----------------------------\n"); AbnormalStopAnalysis(targetGun, frame.data + 1); } _chargingData[targetGun]->StopChargeFlag = YES; } break; default: printf("Ack none defined. intCmd = %d \n", intCmd); break; } } usleep(10000); } } } //================================================ // Main process //================================================ // 檢查 Byte 中某個 Bit 的值 // _byte : 欲改變的 byte // _bit : 該 byte 的第幾個 bit unsigned char EvDetectionStatus(unsigned char _byte, unsigned char _bit) { return ( _byte & mask_table[_bit] ) != 0x00; } bool IsConnectorPlugIn(struct ChargingInfoData *chargingData) { return (chargingData->ConnectorPlugIn == 0x01) ? true : false; } void SetBitValue(unsigned char *_byte, unsigned char _bit, unsigned char value) { if(value == 1) *_byte |= (1 << _bit); else if (value == 0) *_byte ^= (1 << _bit); } unsigned char DetectBitValue(unsigned char _byte, unsigned char _bit) { return ( _byte & mask_table[_bit] ) != 0x00; } void SetPresentChargingOutputPower(struct ChargingInfoData *chargingData_1, struct ChargingInfoData *chargingData_2) { float vol1 = 0, cur1 = 0; float vol2 = 0, cur2 = 0; vol1 = chargingData_1->FireChargingVoltage; cur1 = chargingData_1->PresentChargingCurrent; vol2 = chargingData_2->FireChargingVoltage; cur2 = chargingData_2->PresentChargingCurrent; SetPresentOutputPower(vol1, cur1, vol2, cur2); } void SetPresentChargingOutputCap(struct ChargingInfoData *chargingData_1, struct ChargingInfoData *chargingData_2) { float pow1 = 0, cur1 = 0; float pow2 = 0, cur2 = 0; float vol = 0; pow1 = chargingData_1->AvailableChargingPower; cur1 = chargingData_1->AvailableChargingCurrent; vol = chargingData_1->MaximumChargingVoltage; GetMaxVolAndCurMethod(chargingData_1->Index, &vol, &cur1); pow2 = chargingData_2->AvailableChargingPower; cur2 = chargingData_2->AvailableChargingCurrent; vol = chargingData_2->MaximumChargingVoltage; GetMaxVolAndCurMethod(chargingData_1->Index, &vol, &cur2); printf("current ========================================%f \n", cur1); SetPresentOutputCapacity(pow1, cur1, pow2, cur2); } void Initialization() { bool isPass = false; while(!isPass) { isPass = true; for (byte _index = 0; _index < gun_count; _index++) { if (!FindChargingInfoData(_index, &_chargingData[0])) { DEBUG_ERROR("EvComm (main) : FindChargingInfoData false \n"); isPass = false; break; } } } } void GetMaxVolAndCurMethod(byte index, float *vol, float *cur) { if (maxChargingVol != 0 && maxChargingVol <= *vol) *vol = maxChargingVol; if (maxChargingCur != 0 && maxChargingCur <= *cur) *cur = maxChargingCur; } void GetStopChargingReasonByEvse(byte gunIndex, byte *reason) { if (ShmStatusCodeData->AlarmCode.AlarmEvents.bits.EmergencyStopTrip == 0x01) { // 012251 *(reason + 5) = 0; *(reason + 4) = 1; *(reason + 3) = 2; *(reason + 2) = 2; *(reason + 1) = 5; *(reason + 0) = 1; } else if (_chargingData[gunIndex]->Type == _Type_Chademo && ShmStatusCodeData->FaultCode.FaultEvents.bits.ChademoOutputRelayDrivingFault == 0x01) { // 011012 *(reason + 5) = 0; *(reason + 4) = 1; *(reason + 3) = 1; *(reason + 2) = 0; *(reason + 1) = 1; *(reason + 0) = 2; } else if (_chargingData[gunIndex]->Type == _Type_CCS && ShmStatusCodeData->FaultCode.FaultEvents.bits.CcsOutputRelayDrivingFault == 0x01) { // 011014 *(reason + 5) = 0; *(reason + 4) = 1; *(reason + 3) = 1; *(reason + 2) = 0; *(reason + 1) = 1; *(reason + 0) = 4; } else if (ShmStatusCodeData->InfoCode.InfoEvents.bits.NormalStopChargingByUser == 0x01) { // 013600 *(reason + 5) = 0; *(reason + 4) = 1; *(reason + 3) = 3; *(reason + 2) = 6; *(reason + 1) = 0; *(reason + 0) = 0; } } int main(int argc, char *argv[]) { if(InitShareMemory() == FAIL) { #ifdef SystemLogMessage DEBUG_ERROR("InitShareMemory NG\n"); #endif if(ShmStatusCodeData != NULL) { ShmStatusCodeData->AlarmCode.AlarmEvents.bits.FailToCreateShareMemory=1; } sleep(5); return 0; } Initialization(); CanFd = InitCanBus(); CANReceiver(); byte priorityLow = 1; #if (!DEMO) while(CanFd) { for(byte _index = 0; _index < gun_count; _index++) { if (priorityLow == 1) { // 優先權較低 - 只要有回應即不會再詢問 if (_chargingData[_index]->Type == _Type_Chademo && ShmCHAdeMOData->evse[_chargingData[_index]->type_index].SelfTest_Comp != PASS) { GetFirmwareVersion(_index, _chargingData[_index]->Evboard_id); GetHardwareVersion(_index, _chargingData[_index]->Evboard_id); } else if (_chargingData[_index]->Type == _Type_CCS) { if (ShmCcsData->CommProtocol == 0x01 && ShmCcsData->V2GMessage_DIN70121[_chargingData[_index]->type_index].SelfTest_Comp != PASS) { GetFirmwareVersion(_index, _chargingData[_index]->Evboard_id); GetHardwareVersion(_index, _chargingData[_index]->Evboard_id); } } // 固定要取得的資訊 : 1.槍鎖狀態, 2."Connector 1" 溫度, 3."Connector 2" 溫度, 4.Pilot Voltage GetMiscellaneousInfo(_index, _chargingData[_index]->Evboard_id); } switch (_chargingData[_index]->SystemStatus) { case S_IDLE: _chargingData[_index]->GroundFaultStatus = GFD_WAIT; _chargingData[_index]->StopChargeFlag = NO; _chargingData[_index]->PrechargeStatus = NO; chargingTime[_index] = 0; if (_chargingData[_index]->Type == _Type_Chademo) { ClearAbnormalStatus_Chadmoe(_index); } else if (_chargingData[_index]->Type == _Type_CCS) { ClearAbnormalStatus_CCS(_index); } break; case S_PREPARING_FOR_EV: { if (_chargingData[_index]->Type == _Type_Chademo) { // 開始確認車端是否同意開始充電 : 1.SOC, 2.Target Vol, 3.Target Cur, 4.Charging remaining time GetOutputReq(_index, _chargingData[_index]->Evboard_id); //printf("PresentChargingVoltage = %f \n", _chargingData[_index]->PresentChargingVoltage); //printf("PresentChargingCurrent = %f \n", _chargingData[_index]->PresentChargingCurrent); //printf("AvailableChargingPower = %f \n", _chargingData[_index]->AvailableChargingPower); //printf("AvailableChargingCurrent = %f \n", _chargingData[_index]->AvailableChargingCurrent); //printf("MaximumChargingVoltage = %f \n", _chargingData[_index]->MaximumChargingVoltage); // 設定當前輸出 if (gun_count == 1) SetPresentChargingOutputPower(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputPower(_chargingData[0], _chargingData[1]); if (priorityLow == 1) { float maxVol = _chargingData[_index]->MaximumChargingVoltage; float maxCur = _chargingData[_index]->AvailableChargingCurrent; GetMaxVolAndCurMethod(_index, &maxVol, &maxCur); // 樁端輸出能力 SetChargingPermission(_index, START, _chargingData[_index]->AvailableChargingPower, maxCur, maxVol, _chargingData[_index]->Evboard_id); // 取得車端電池資訊 : 1.AC or DC ? 2.Total battery cap, 3.Max battery vol, 4.Max battery cur GetEvBatteryInfo(_index, _chargingData[_index]->Evboard_id); } } else if (_chargingData[_index]->Type == _Type_CCS) { // 開始確認車端是否同意開始充電 : 1.SOC, 2.Target Vol, 3.Target Cur, 4.Charging remaining time GetOutputReq(_index, _chargingData[_index]->Evboard_id); // 設定當前輸出 if (gun_count == 1) SetPresentChargingOutputPower(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputPower(_chargingData[0], _chargingData[1]); if (priorityLow == 1) { float maxVol = _chargingData[_index]->MaximumChargingVoltage; float maxCur = _chargingData[_index]->AvailableChargingCurrent; GetMaxVolAndCurMethod(_index, &maxVol, &maxCur); // 樁端輸出能力 SetChargingPermission(_index, START, _chargingData[_index]->AvailableChargingPower, maxCur, maxVol, _chargingData[_index]->Evboard_id); // 取得車端電池資訊 : 1.AC or DC ? 2.Total battery cap, 3.Max battery vol, 4.Max battery cur GetEvBatteryInfo(_index, _chargingData[_index]->Evboard_id); } } } break; case S_PREPARING_FOR_EVSE: case S_CCS_PRECHARGE_ST0: case S_CCS_PRECHARGE_ST1: { // 開始確認車端是否同意開始充電 GetOutputReq(_index, _chargingData[_index]->Evboard_id); // printf("PresentChargingVoltage = %f \n", _chargingData[_index]->PresentChargingVoltage); // printf("PresentChargingCurrent = %f \n", _chargingData[_index]->PresentChargingCurrent); // printf("AvailableChargingPower = %f \n", _chargingData[_index]->AvailableChargingPower); // printf("AvailableChargingCurrent = %f \n", _chargingData[_index]->AvailableChargingCurrent); // printf("MaximumChargingVoltage = %f \n", _chargingData[_index]->MaximumChargingVoltage); // 設定當前輸出 if (gun_count == 1) SetPresentChargingOutputPower(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputPower(_chargingData[0], _chargingData[1]); // 持續通知 Isolation 測試狀態 if (priorityLow == 1) { // 拉 500 V 如果在一秒鐘內 GFD 都符合則 PASS if(_chargingData[_index]->GroundFaultStatus != GFD_WAIT) { SetIsolationStatus(_index, _chargingData[_index]->GroundFaultStatus, _chargingData[_index]->Evboard_id); } if(_chargingData[_index]->SystemStatus == S_CCS_PRECHARGE_ST0 && _chargingData[_index]->PrechargeStatus == PRECHARGE_READY) { SetEvsePrechargeInfo(_index, PRECHARGE_PRERELAY_PASS, _chargingData[_index]->Evboard_id); } } } break; case S_CHARGING: { // 計算 Power _chargingData[_index]->PresentChargingPower = ((float)((_chargingData[_index]->PresentChargingVoltage / 10) * (_chargingData[_index]->PresentChargingCurrent / 10)) / 1000); if (chargingTime[_index] == 0) { chargingTime[_index] = _chargingData[_index]->RemainChargingDuration; } else { int passTime = _chargingData[_index]->RemainChargingDuration - chargingTime[_index]; if (passTime > 0) { _chargingData[_index]->PresentChargedEnergy += (_chargingData[_index]->PresentChargingPower) * passTime / 3600; chargingTime[_index] = _chargingData[_index]->RemainChargingDuration; } } // 開始確認車端是否同意開始充電 GetOutputReq(_index, _chargingData[_index]->Evboard_id); // 設定當前輸出 if (gun_count == 1) SetPresentChargingOutputPower(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputPower(_chargingData[0], _chargingData[1]); // for test end if (priorityLow == 1) { // 樁端輸出能力改變 if (gun_count == 1) SetPresentChargingOutputCap(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputCap(_chargingData[0], _chargingData[1]); } // GFD 失敗再通知 if (priorityLow == 1) { if(_chargingData[_index]->GroundFaultStatus == GFD_FAIL) { SetIsolationStatus(_index, _chargingData[_index]->GroundFaultStatus, _chargingData[_index]->Evboard_id); } if(_chargingData[_index]->Type == _Type_CCS && _chargingData[_index]->PrechargeStatus == PRECHARGE_READY) { SetEvsePrechargeInfo(_index, PRECHARGE_CHARELAY_PASS, _chargingData[_index]->Evboard_id); } } } break; case S_TERMINATING: { // 設定當前輸出 if (gun_count == 1) SetPresentChargingOutputPower(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputPower(_chargingData[0], _chargingData[1]); // 槍鎖還在,則代表是樁端要求的停止 if (_chargingData[_index]->GunLocked == START) { byte normalStop = 0x01; byte stopReason[6] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; if (strlen((char *)ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[_index]) > 0) { normalStop = 0x02; GetStopChargingReasonByEvse(_index, stopReason); } else { DEBUG_INFO("EVSE Normal Stop by User, index = %d \n", _index); ShmStatusCodeData->InfoCode.InfoEvents.bits.NormalStopChargingByUser = 0x01; GetStopChargingReasonByEvse(_index, stopReason); char string[7]; sprintf(string, "%d%d%d%d%d%d", *(stopReason + 5), *(stopReason + 4), *(stopReason + 3), *(stopReason + 2), *(stopReason + 1), *(stopReason + 0)); memcpy(&ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[_index][0], string, 7); ShmSysConfigAndInfo->SysStopChargingAlarmCode.Level = 0x00; } EvseStopChargingEvent(normalStop, stopReason, _chargingData[_index]->Evboard_id); } GetOutputReq(_index, _chargingData[_index]->Evboard_id); } break; case S_COMPLETE: { if (priorityLow == 1) { float maxVol = _chargingData[_index]->MaximumChargingVoltage; float maxCur = _chargingData[_index]->AvailableChargingCurrent; GetMaxVolAndCurMethod(_index, &maxVol, &maxCur); SetChargingPermission(_index, STOP, _chargingData[_index]->AvailableChargingPower, maxCur, maxVol, _chargingData[_index]->Evboard_id); } } break; } } priorityLow >= 20 ? priorityLow = 1 : priorityLow++; usleep(45000); //EV 小板通訊 (50 ms) } #else while (CanFd) { for (byte _index = 0; _index < gun_count; _index++) { if (priorityLow == 1) { // 優先權較低 - 只要有回應即不會再詢問 if (_chargingData[_index]->Type == _Type_Chademo && ShmCHAdeMOData->evse[_chargingData[_index]->type_index].SelfTest_Comp != PASS) { GetFirmwareVersion(_index, _chargingData[_index]->Evboard_id); GetHardwareVersion(_index, _chargingData[_index]->Evboard_id); } else if (_chargingData[_index]->Type == _Type_CCS) { if (ShmCcsData->CommProtocol == 0x01&& ShmCcsData->V2GMessage_DIN70121[_chargingData[_index]->type_index].SelfTest_Comp != PASS) { GetFirmwareVersion(_index, _chargingData[_index]->Evboard_id); GetHardwareVersion(_index, _chargingData[_index]->Evboard_id); } } // 固定要取得的資訊 : 1.槍鎖狀態, 2."Connector 1" 溫度, 3."Connector 2" 溫度, 4.Pilot Voltage GetMiscellaneousInfo(_index, _chargingData[_index]->Evboard_id); } switch (_chargingData[_index]->SystemStatus) { case S_IDLE: { _chargingData[_index]->GroundFaultStatus = GFD_WAIT; _chargingData[_index]->StopChargeFlag = NO; chargingTime[_index] = 0; if (_chargingData[_index]->Type == _Type_Chademo) { ClearAbnormalStatus_Chadmoe(_index); } else if (_chargingData[_index]->Type == _Type_CCS) { } } break; case S_PREPARING_FOR_EV: { if (_chargingData[_index]->Type == _Type_Chademo) { // 開始確認車端是否同意開始充電 : 1.SOC, 2.Target Vol, 3.Target Cur, 4.Charging remaining time GetOutputReq(_index, _chargingData[_index]->Evboard_id); // 設定當前輸出 if (gun_count == 1) SetPresentChargingOutputPower(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputPower(_chargingData[0], _chargingData[1]); if (priorityLow == 1) { SetChargingPermission(_index, START, _chargingData[_index]->AvailableChargingPower, 1200, 5000, _chargingData[_index]->Evboard_id); // 取得車端電池資訊 : 1.AC or DC ? 2.Total battery cap, 3.Max battery vol, 4.Max battery cur GetEvBatteryInfo(_index, _chargingData[_index]->Evboard_id); } } else if (_chargingData[_index]->Type == _Type_CCS) { // 開始確認車端是否同意開始充電 : 1.SOC, 2.Target Vol, 3.Target Cur, 4.Charging remaining time GetOutputReq(_index, _chargingData[_index]->Evboard_id); // 設定當前輸出 if (gun_count == 1) SetPresentChargingOutputPower(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputPower(_chargingData[0], _chargingData[1]); if (priorityLow == 1) { // 樁端輸出能力 SetChargingPermission(_index, START, _chargingData[_index]->AvailableChargingPower, _chargingData[_index]->AvailableChargingCurrent, _chargingData[_index]->MaximumChargingVoltage, _chargingData[_index]->Evboard_id); // 取得車端電池資訊 : 1.AC or DC ? 2.Total battery cap, 3.Max battery vol, 4.Max battery cur GetEvBatteryInfo(_index, _chargingData[_index]->Evboard_id); } } } break; case S_PREPARING_FOR_EVSE: case S_CCS_PRECHARGE_ST0: case S_CCS_PRECHARGE_ST1: { // 開始確認車端是否同意開始充電 GetOutputReq(_index, _chargingData[_index]->Evboard_id); // 假裝從 Relay 量到的火線上電壓 _chargingData[_index]->PresentChargingCurrent = _chargingData[_index]->EvBatterytargetCurrent; _chargingData[_index]->PresentChargingVoltage = _chargingData[_index]->EvBatterytargetVoltage; // 設定當前輸出 if (gun_count == 1) SetPresentChargingOutputPower(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputPower(_chargingData[0], _chargingData[1]); if (ShmSysConfigAndInfo->SysInfo.ReAssignedFlag != 0x00) { if (priorityLow % 5 == 1) { // 樁端輸出能力改變 if (gun_count == 1) SetPresentChargingOutputCap(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputCap(_chargingData[0], _chargingData[1]); } } // 持續通知 Isolation 測試狀態 if (priorityLow == 1) { // 拉 500 V 如果在一秒鐘內 GFD 都符合則 PASS _chargingData[_index]->GroundFaultStatus = GFD_PASS; if (_chargingData[_index]->GroundFaultStatus != GFD_WAIT) { SetIsolationStatus(_index, _chargingData[_index]->GroundFaultStatus, _chargingData[_index]->Evboard_id); } if (_chargingData[_index]->SystemStatus == S_CCS_PRECHARGE_ST1&& _chargingData[_index]->PrechargeStatus == PRECHARGE_WAIT) { SetEvsePrechargeInfo(_index, PRECHARGE_PRERELAY_PASS, _chargingData[_index]->Evboard_id); } } } break; case S_CHARGING: { // 假裝從 Relay 量到的火線上電壓電流 _chargingData[_index]->PresentChargingCurrent = _chargingData[_index]->EvBatterytargetCurrent; _chargingData[_index]->PresentChargingVoltage = _chargingData[_index]->EvBatterytargetVoltage; _chargingData[_index]->PresentChargingPower = ((float) ((_chargingData[_index]->PresentChargingVoltage / 10) * (_chargingData[_index]->PresentChargingCurrent / 10)) / 1000); if (chargingTime[_index] == 0) { chargingTime[_index] = _chargingData[_index]->RemainChargingDuration; } else { int passTime = _chargingData[_index]->RemainChargingDuration - chargingTime[_index]; if (passTime > 0) { _chargingData[_index]->PresentChargedEnergy += (_chargingData[_index]->PresentChargingPower) * passTime / 3600; chargingTime[_index] = _chargingData[_index]->RemainChargingDuration; } } // 開始確認車端是否同意開始充電 GetOutputReq(_index, _chargingData[_index]->Evboard_id); // 設定當前輸出 if (gun_count == 1) SetPresentChargingOutputPower(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputPower(_chargingData[0], _chargingData[1]); // for test end if (ShmSysConfigAndInfo->SysInfo.ReAssignedFlag != 0x00) { if (priorityLow % 5 == 0) { // 樁端輸出能力改變 if (gun_count == 1) SetPresentChargingOutputCap(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputCap(_chargingData[0], _chargingData[1]); } } // GFD 失敗再通知 if (priorityLow == 1) { if (_chargingData[_index]->GroundFaultStatus == GFD_FAIL) { SetIsolationStatus(_index, _chargingData[_index]->GroundFaultStatus, _chargingData[_index]->Evboard_id); } if (_chargingData[_index]->Type == _Type_CCS&& _chargingData[_index]->PrechargeStatus == PRECHARGE_WAIT) { SetEvsePrechargeInfo(_index, PRECHARGE_CHARELAY_PASS, _chargingData[_index]->Evboard_id); } } } break; case S_TERMINATING: { // 設定當前輸出 if (gun_count == 1) SetPresentChargingOutputPower(_chargingData[0], _chargingData[0]); else if (gun_count == 2) SetPresentChargingOutputPower(_chargingData[0], _chargingData[1]); // 槍鎖還在,則代表是樁端要求的停止 if (_chargingData[_index]->GunLocked == START) { byte normalStop = 0x01; byte stopReason[6] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; if (strlen((char *) ShmSysConfigAndInfo->SysStopChargingAlarmCode.StopCode[_index]) > 0) { normalStop = 0x02; GetStopChargingReasonByEvse(_index, stopReason); } EvseStopChargingEvent(normalStop, stopReason, _chargingData[_index]->Evboard_id); } GetOutputReq(_index, _chargingData[_index]->Evboard_id); } break; case S_COMPLETE: { if (priorityLow == 1) { SetChargingPermission(_index, STOP, _chargingData[_index]->AvailableChargingPower, _chargingData[_index]->AvailableChargingCurrent, _chargingData[_index]->MaximumChargingVoltage, _chargingData[_index]->Evboard_id); } } break; } } priorityLow >= 20 ? priorityLow = 1 : priorityLow++; usleep(45000); //EV 小板通訊 (50 ms) } #endif DEBUG_INFO("Module_EvComm : Can-bus port = %d \n", CanFd); return FAIL; }