#include "appTask.h" #include "iodefine.h" #include "extern.h" #include "r_cg_adc.h" #include "r_cg_intc.h" #include "PINdef.h" #include "hwCtrl.h" #include "pfdl.h" u8 can_data_init_flag = 0; unsigned long Can_1ms_count_alive; unsigned char rollingcounter = 0; unsigned char IGN_Voltage_error_flag, IGN_Voltage_error_count; volatile uint8_t flag_IIC_SendEnd; volatile uint8_t flag_IIC_ReceiveEnd; unsigned char Timer_1ms_flag; unsigned char Timer_5ms_flag; unsigned char Timer_10ms_flag; unsigned char Timer_20ms_flag; unsigned char Timer_50ms_flag; unsigned char Timer_1000ms_flag; unsigned int CAN_LostCount; unsigned char key_count, key_last; unsigned char IGN_Lost, IGN_Lost_Count; unsigned char IGN_On, IGN_On_Count; /********************* Network Manage ****************************/ unsigned char ucIgnStus; unsigned int uiBusOffCnt; // ms unsigned char ucBusOffModeState; // 0:Normal 1~4:Fast Rec 5:Slow Rec unsigned char BusoffFlag; /***************************************************/ static unsigned int EEL_SAVE_CNT_DOWN_TIMER; static uint8_t EEL_SAVE_ENABLE; MotorStateEE_Type MotorStateEE; MotorStateEE_Type *pEE; uint16_t VehicleSpeedRaw,VehicleSpeed; uint8_t lockstate,sbrstate,sbrWarnState; uint8_t nouse;//Relocation value is odd number void Apply_task(void) { // DiagnosticSession_Present=MngDcm_GetDiagnosticSession(); App28sTxRxStatus = GetNormalMsgSts(); Nw28sTxRxStatus = GetNetworkMsgSts(); // DiagnosticSession_Present=MngDcm_GetDiagnosticSession(); if(CAN_STB == 0 && ucBusOffModeState == 0)//Tx enable { TxServe(); } if (Timer_1ms_flag == 1) { Timer_1ms_flag = 0; MngDcm_MainFunction(); MngCanTp_MainFunction(); if (BusOff_Detect_delay_count == 0 /*&& (ad_voltage_fact[2]>=85 && ad_voltage_fact[2]<=165)*/) { BusOff_Detect(); } KeyScan(); if (EEL_SAVE_CNT_DOWN_TIMER > 0) { EEL_SAVE_CNT_DOWN_TIMER--; } Can_Msg_Change(); //IGN_Detect(); //CanNwHandle(); } if (Timer_5ms_flag == 1) { Timer_5ms_flag = 0; CAN_RX_Data_Handle(); /* if (IGN_On == 1 && ucActiveWakeupBit != PASSIVE_WAKEUP) KeyScan(); */ KeyPro(); // IGN_Detect(); } if (Timer_10ms_flag == 1) { Timer_10ms_flag = 0; // BAT_Voltage_Detect(); // CanNwHandle(); } if (Timer_20ms_flag == 1) { Timer_20ms_flag = 0; IGN_Voltage_Detect(); } if (Timer_50ms_flag == 1) { Timer_50ms_flag = 0; //EEL_WRITE(); TxTestMsg(); //SleepDetect();//TODO } } #define KEY_LONGPRESS_500MS 100 void KeyPro(void)//5ms { } void Can_Msg_Change(void)// { uint8_t i,checksum; if (IGN_Voltage_error_flag == 0) { CAN_50A.Msg_Bit.b00 = GetKeyState(KEYID_P84); CAN_50A.Msg_Bit.b01 = GetKeyState(KEYID_P80); CAN_50A.Msg_Bit.b02 = GetKeyState(KEYID_P83); CAN_50A.Msg_Bit.b03 = GetKeyState(KEYID_P82); CAN_50A.Msg_Bit.b04 = GetKeyState(KEYID_P81); CAN_50A.Msg_Bit.b05 = GetKeyState(KEYID_P34); CAN_50A.Msg_Bit.b06 = GetKeyState(KEYID_P125); CAN_50A.Msg_Bit.b07 = GetKeyState(KEYID_P85); } else { CAN_50A.Msg_Bit.b00 = 0; CAN_50A.Msg_Bit.b01 = 0; CAN_50A.Msg_Bit.b02 = 0; CAN_50A.Msg_Bit.b03 = 0; CAN_50A.Msg_Bit.b04 = 0; CAN_50A.Msg_Bit.b05 = 0; CAN_50A.Msg_Bit.b06 = 0; CAN_50A.Msg_Bit.b07 = 0; } /* CAN_50A.Msg_Bit.b10 = GetKeyState(KEYID_P16); CAN_50A.Msg_Bit.b11 = GetKeyState(KEYID_P17); CAN_50A.Msg_Bit.b12 = GetKeyState(KEYID_P30); CAN_50A.Msg_Bit.b13 = GetKeyState(KEYID_P63); CAN_50A.Msg_Bit.b14 = GetKeyState(KEYID_P62); CAN_50A.Msg_Bit.b15 = GetKeyState(KEYID_P61); CAN_50A.Msg_Bit.b16 = GetKeyState(KEYID_P60); CAN_50A.Msg_Bit.b17 = GetKeyState(KEYID_P137); CAN_50A.Msg_Bit.b20 = GetKeyState(KEYID_P16); CAN_50A.Msg_Bit.b21 = GetKeyState(KEYID_P17); */ } static uint8_t EEL_BUF[50]; void EEL_READ(void) { uint16_t checksum; uint8_t *src,*des,i; ReadFlashData(EEL_BUF, 0x000F1000, sizeof(MotorStateEE)); pEE = (MotorStateEE_Type *)EEL_BUF; checksum = pEE->kbsoft1 + pEE->kbsoft2 + pEE->kbnow + pEE->zysoft1 + pEE->zysoft2 + pEE->zynow; if (pEE ->start == 0x55AA && pEE->stop == 0xAA55 && checksum == pEE->checksum) { des = &MotorStateEE; src = EEL_BUF; for (i = 0; i < sizeof(MotorStateEE); i++) { des[i] = src[i]; } } else { MotorStateEE.start = 0x55AA; MotorStateEE.stop = 0xAA55; MotorStateEE.kbnow = 0x8000; MotorStateEE.kbsoft1 = 0; MotorStateEE.kbsoft2 = 0; MotorStateEE.zynow = 0x8000; MotorStateEE.zysoft1 = 0; MotorStateEE.zysoft2 = 0; EEL_Write_Enable_Check(); } } #define SC_500MS_PC_1MS 500 void EEL_WRITE(void) { static unsigned char EEL_SAVE_REQUIRE_FLAG=0; uint8_t i,*p; if (EEL_SAVE_ENABLE) { EEL_SAVE_REQUIRE_FLAG = 1; EEL_SAVE_CNT_DOWN_TIMER = SC_500MS_PC_1MS; EEL_SAVE_ENABLE = 0; } if (0 == EEL_SAVE_CNT_DOWN_TIMER && 1 == EEL_SAVE_REQUIRE_FLAG) { MotorStateEE.checksum = MotorStateEE.kbsoft1 + MotorStateEE.kbsoft2 + MotorStateEE.kbnow + MotorStateEE.zysoft1 + MotorStateEE.zysoft2 + MotorStateEE.zynow; p = &MotorStateEE; for (i = 0; i < sizeof(MotorStateEE); i++) { EEL_BUF[i] = p[i]; } if(WriteDataflash(EEL_BUF,0x000F1000,sizeof(MotorStateEE)) == 0x11) { EEL_SAVE_REQUIRE_FLAG=0; } } } void EEL_Write_Enable_Check(void) { EEL_SAVE_ENABLE = 1; } void DID_data_save_init(void) { unsigned char DID_init_Buf[33], i; ReadFlashData(DID_init_Buf, 0x000F1000 + 0x400, 1); if (DID_init_Buf[0] == 0xff) { for (i = 0; i < 33; i++) { if (i < 8) { DID_init_Buf[i] = DID_0xF110_VehicleNetworkConfiguration[i]; } else if (i < 25) { DID_init_Buf[i] = DID_0xF190_vehicleIdentificationNumber[i - 8]; } else if (i < 33) { DID_init_Buf[i] = DID_0xF197_SystemNameOrEngineType[i - 25]; } } WriteDataflash(DID_init_Buf, 0x000F1000 + 0x400, 33); } ReadFlashData(DID_init_Buf, 0x000F1000 + 0x800, 1); if (DID_init_Buf[0] == 0xff) { for (i = 0; i < 32; i++) { if (i < 16) { DID_init_Buf[i] = DID_0xF198_RepairShopCodeOrTesterSerialNumber[i]; } else if (i < 20) { DID_init_Buf[i] = DID_0xF199_ProgrammingOrConfigurationDate[i - 16]; } else if (i < 24) { DID_init_Buf[i] = DID_0xF19D_ECUInstallationDateDataIdentifier[i - 20]; } else if (i < 32) { DID_init_Buf[i] = DID_0xF112_VehicleName[i - 24]; } } WriteDataflash(DID_init_Buf, 0x000F1000 + 0x800, 32); } } unsigned char BusOffTimeCnt = 0; unsigned short BusOff1msCnt = 0; unsigned char CanBusOffPro(void) { unsigned char ret = 0; if (C0ERFLLL & 0x08) // Bus-Off Stutas { ret = 1; } if ((C0CTRLL & 0x02) == 0x02) // Channal Halt Mode { if (C0ERFLLL & 0x08) // Bus-Off Stutas { BusOff1msCnt++; ret = 1; } if ((BusOffTimeCnt < 10) && (BusOff1msCnt >= 100)) { BusOffTimeCnt++; BusOff1msCnt = 0; C0ERFLL = 0; C0CTRL &= ~0x03; /* CHMDC[1:0] = 00B change to communication mode. */ } else if ((BusOffTimeCnt >= 10) && (BusOff1msCnt >= 1000)) { BusOffTimeCnt = 10; BusOff1msCnt = 0; C0ERFLL = 0; C0CTRL &= ~0x03; /* CHMDC[1:0] = 00B change to communication mode. */ } } return ret; } #define FAST_BUSOFF_THRESHOULD 100 // 100MS #define SLOW_BUSOFF_THRESHOULD 1000 // 100MS void BusOff_Recovery(void); void BusOff_Detect(void) { if ((C0ERFLL & 0x08) && (R_CAN_ReadChStatus_CH0() & 0x02)) { if (uiBusOffCnt == 0) { if (ucBusOffModeState == 0) { uiBusOffCnt = FAST_BUSOFF_THRESHOULD; // BusOff_Recovery(); } if ((ucBusOffModeState > 0) && (ucBusOffModeState < 5)) { BusOff_Recovery(); uiBusOffCnt = FAST_BUSOFF_THRESHOULD; //fast recover } else if (ucBusOffModeState >= 5) { BusOff_Recovery(); uiBusOffCnt = SLOW_BUSOFF_THRESHOULD; //soft recover } else { ; } if (ucBusOffModeState < 5) { ucBusOffModeState++; } } } else { if (ucBusOffModeState > 0) { if (uiBusOffCnt == 0) { ucBusOffModeState = 0; // 原来程序的标志位 } } else { ; } BusOff_flag = 0; } } void BusOff_Recovery(void) { CFCCL0L &= ~0x01; NOP(); CFCCL0L |= 0x01; if (C0ERFLL != 0) { C0ERFLL = 0; } C0CTRL &= 0xfffc; // bus off } uint16_t SupplyVoltage; void IGN_Voltage_Detect(void) { uint32_t adval; adval = getAdval(ADCH_IGN); SupplyVoltage = (adval*57*5)>>10; if (adval <= 277 )//8.5v { IGN_Voltage_error_count++; if (IGN_Voltage_error_count >= 200) { IGN_Voltage_error_count = 0; IGN_Voltage_error_flag = 1; } } else if (adval >= 560 )//16.5 { IGN_Voltage_error_count++; if (IGN_Voltage_error_count >= 200) { IGN_Voltage_error_count = 0; IGN_Voltage_error_flag = 2; } } else if (adval >= 295 && adval <= 544)//9v 16v { IGN_Voltage_error_count = 0; IGN_Voltage_error_flag = 0; } if (IGN_Voltage_error_flag != 0) { // TAU0_Channel1_ChangeDuty(0); } } void value_init(void) { uint8_t i; CAN_LostCount = 500; BusOff_Detect_delay_count = 2000; ucIgnStus = IGN_OFF; for (i = 0; i < 8; i++) { CAN_50A.Msg_Byte[i] = 0; } } uint8_t red_value,green_value,blue_value; void CAN_RX_Data_Handle(void) { red_value = CAN_486.Msg_Byte[0]; green_value = CAN_486.Msg_Byte[1]; blue_value = CAN_486.Msg_Byte[2]; if (IGN_Voltage_error_flag == 0) { SetRGB(red_value,green_value,blue_value); } else { SetRGB(0,0,0); } } void SleepDetect(void) { // if(CAN_LostCount==0 && IGN_Lost == 1) { R_TAU0_Channel0_Stop(); // R_TAU0_Channel2_Stop(); // R_TAU0_Channel6_Stop(); // R_TAU1_Channel0_Stop(); TO0 = 0; TO1 = 0; TOE0 = 0; TOE1 = 0; TO0 = 0; TO1 = 0; // R_IICA0_Stop(); R_ADC_Stop(); ADCE = 0; IICA0EN = 0; TAU0EN = 0; TAU1EN = 0; P6_bit.no2 = 0; P6_bit.no3 = 0; P12_bit.no0 = 0; P3_bit.no3 = 0; P1_bit.no3 = 0; P1_bit.no4 = 0; P3_bit.no0 = 0; CAN_STB = 1; C0CTRL |= (uint16_t)(CAN_STP_BIT_ON); GCTRL |= 0x01; NOP(); GCTRL |= (uint16_t)(CAN_GLB_STP_BIT_ON); PLLON = 0; //R_INTC3_Start(); CAN0WUPIF = 0U; CAN0WUPMK = 0U; if (I_IGN_SIGN != IGN_ON) STOP(); WakeUP(); } } void WakeUP(void) { // stop can and ex interrupt CAN0WUPIF = 0U; CAN0WUPMK = 1U; //R_INTC3_Stop(); // WDTE = 0xff; //reset CAN_STB = 0; hdwinit(); R_MAIN_UserInit(); R_TAU0_Channel0_Start(); // timer } void Signal_Lost_Detect(unsigned char Pin, unsigned char Lost_state, unsigned char *Signal_Lost, unsigned char *Signal_Lost_count, unsigned char Lost_time) { if (Pin == Lost_state) { (*Signal_Lost_count)++; if ((*Signal_Lost_count) >= Lost_time) { *Signal_Lost_count = 0; *Signal_Lost = 1; } } else { *Signal_Lost_count = 0; *Signal_Lost = 0; } } void IGN_Detect(void) { static unsigned char IGN_last; Signal_Lost_Detect(I_IGN_SIGN, 1, &IGN_Lost, &IGN_Lost_Count, 5); Signal_Lost_Detect(I_IGN_SIGN, 0, &IGN_On, &IGN_On_Count, 5); if (IGN_On == 1) { ucIgnStus = IGN_ON; } else if (IGN_Lost == 1) { ucIgnStus = IGN_OFF; PWN_KEY = 0; } if (IGN_last != ucIgnStus) { IGN_last = ucIgnStus; if (IGN_ON == ucIgnStus) C0CTRH &= ~0x0300; // 设置正常模式 } } void LED_Light_Ctrl(void) { } /*****************diagnostic******************/ void getIGNVoltage(unsigned char* data) { data[0] = (uint8_t)SupplyVoltage; }