/* * internalComm.c * * Created on: 2019年5月7日 * Author: foluswen */ #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 #include "internalComm.h" #define PASS 1 #define FAIL -1 struct Address Addr={0x01,0x02,0x03,0xFF}; struct Command Cmd={0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0a,0x81,0x85,0x86,0xe0,0xe1,0xe2,0xe3}; int tranceive(int fd, unsigned char* cmd, unsigned char cmd_len, unsigned char* rx) { int len; //sleep(2); //required to make flush work, for some reason tcflush(fd,TCIOFLUSH); if(write(fd, cmd, cmd_len) >= cmd_len) { usleep(5000); len = read(fd, rx, 512); } else { #ifdef SystemLogMessage DEBUG_ERROR("Serial command %s response fail.\n", cmd); #endif } return len; } unsigned char Query_FW_Ver(unsigned char fd, unsigned char targetAddr, Ver *Ret_Buf) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.query_FW_Ver, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { memcpy(Ret_Buf->Version_FW, (char *)rx+6, (rx[4] | rx[5]<<8)); *(Ret_Buf->Version_FW + 8) = 0x00; result = PASS; } } return result; } unsigned char Query_HW_Ver(unsigned char fd, unsigned char targetAddr, Ver *Ret_Buf) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.query_HW_Ver, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { memcpy(Ret_Buf->Version_HW, (char *)rx+6, (rx[4] | rx[5]<<8)); *(Ret_Buf->Version_HW + 8) = 0x00; result = PASS; } } return result; } unsigned char Query_Present_InputVoltage(unsigned char fd, unsigned char targetAddr, PresentInputVoltage *Ret_Buf) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.query_Present_InputVoltage, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { Ret_Buf->inputType = rx[6]; Ret_Buf->L1N_L12 =(rx[7] | (rx[8]<<8))/10.0; Ret_Buf->L2N_L23 =(rx[9] | (rx[10]<<8))/10.0; Ret_Buf->L3N_L31 =(rx[11] | (rx[12]<<8))/10.0; result = PASS; } } return result; } unsigned char Query_Present_OutputVoltage(unsigned char fd, unsigned char targetAddr, PresentOutputVoltage *Ret_Buf) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.query_Present_OutputVoltage, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { Ret_Buf->behindFuse_Voltage_C1 =(rx[6] | (rx[7]<<8)); Ret_Buf->behindRelay_Voltage_C1 =(rx[8] | (rx[9]<<8)); if((rx[4] | rx[5]<<8) > 4) { Ret_Buf->behindFuse_Voltage_C2 =(rx[10] | (rx[11]<<8)); Ret_Buf->behindRelay_Voltage_C2 =(rx[12] | (rx[13]<<8)); } result = PASS; } } return result; } unsigned char Query_Fan_Speed(unsigned char fd, unsigned char targetAddr, FanSpeed *Ret_Buf) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.query_Fan_Speed, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { for(int idx=0;idx < 4;idx++) Ret_Buf->speed[idx] = (rx[6+(2*idx)] | (rx[6+(2*idx)+1]<<8)); result = PASS; } } return result; } unsigned char Query_Temperature(unsigned char fd, unsigned char targetAddr, Temperature *Ret_Buf) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.query_Temperature, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { for(int idx=0;idx < 4;idx++) Ret_Buf->temperature[idx] = rx[6+idx] - 60; result = PASS; } } return result; } unsigned char Query_Aux_PowerVoltage(unsigned char fd, unsigned char targetAddr, AuxPower *Ret_Buf) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.query_Aux_PowerVoltage, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { for(int idx=0;idx<(rx[4] | rx[5]<<8);idx++) Ret_Buf->voltage[idx] = rx[6+idx]; result = PASS; } } return result; } unsigned char Query_Relay_Output(unsigned char fd, unsigned char targetAddr, Relay *Ret_Buf) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.query_Relay_Output, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { Ret_Buf->relay_event.bits.AC_Contactor = (rx[6] >> 0) & 0x01; Ret_Buf->relay_event.bits.CCS_Precharge = (rx[6] >> 1) & 0x01; Ret_Buf->relay_event.bits.Gun1_N = (rx[7] >> 0) & 0x01; Ret_Buf->relay_event.bits.Gun1_P = (rx[7] >> 1) & 0x01; Ret_Buf->relay_event.bits.Gun1_Parallel_N = (rx[7] >> 2) & 0x01; Ret_Buf->relay_event.bits.Gun1_Parallel_P = (rx[7] >> 3) & 0x01; Ret_Buf->relay_event.bits.Gun2_N = (rx[8] >> 0) & 0x01; Ret_Buf->relay_event.bits.Gun2_P = (rx[8] >> 1) & 0x01; result = PASS; } } return result; } unsigned char Query_Gfd_Adc(unsigned char fd, unsigned char targetAddr, Gfd *Ret_Buf) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.query_Gfd_Adc, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } printf("chksum = %d \n", chksum); printf("rx[2] == %d tx[1] = %d \n", rx[2], tx[1]); printf("rx[1] == %d tx[2] = %d \n", rx[1], tx[2]); printf("rx[3] == %d tx[3] = %d \n", rx[3], tx[3]); printf("chksum = %d \n", chksum); // if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && // (rx[2] == tx[1]) && // (rx[1] == tx[2]) && // (rx[3] == tx[3])) if( (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { Ret_Buf->Resister = (rx[6] | (rx[7]<<8) | (rx[8]<<16) | (rx[9]<<24)); Ret_Buf->voltage = rx[10] | (rx[11]<<8); Ret_Buf->result = rx[12]; result = PASS; } } return result; } unsigned char Query_Gpio_Input(unsigned char fd, unsigned char targetAddr, Gpio_in *Ret_Buf) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.query_Gpio_In, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { Ret_Buf->AC_Connector = (rx[6] >> 0) & 0x01; Ret_Buf->AC_MainBreaker = (rx[6] >> 1) & 0x01; Ret_Buf->SPD = (rx[6] >> 2) & 0x01; Ret_Buf->Door_Open = (rx[6] >> 3) & 0x01; Ret_Buf->GFD[0] = (rx[6] >> 4) & 0x01; Ret_Buf->GFD[1] = (rx[6] >> 5) & 0x01; Ret_Buf->AC_Drop = (rx[6] >> 6) & 0x01; Ret_Buf->Emergency_IO = (rx[7] >> 0) & 0x01; Ret_Buf->Button_Emergency_Press = (rx[8] >> 0) & 0x01; Ret_Buf->Button_On_Press = (rx[8] >> 1) & 0x01; Ret_Buf->Button_Off_Press = (rx[8] >> 2) & 0x01; Ret_Buf->Key_1_Press = (rx[8] >> 3) & 0x01; Ret_Buf->Key_2_Press = (rx[8] >> 4) & 0x01; Ret_Buf->Key_3_Press = (rx[8] >> 5) & 0x01; Ret_Buf->Key_4_Press = (rx[8] >> 6) & 0x01; result = PASS; } } return result; } unsigned char Config_Fan_Speed(unsigned char fd, unsigned char targetAddr, FanSpeed *Set_Buf) { unsigned char result = FAIL; unsigned char tx[9] = {0xaa, 0x00, targetAddr, Cmd.config_Fan_Speed, 0x02, 0x00, Set_Buf->speed[0], Set_Buf->speed[1]}; unsigned char rx[512]; unsigned char chksum = 0x00; for(int idx = 0;idx<(tx[4] | tx[5]<<8);idx++) chksum ^= tx[6+idx]; tx[9] = chksum; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; chksum = 0x00; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3])) { result = PASS; } } return result; } unsigned char Config_Relay_Output(unsigned char fd, unsigned char targetAddr, Relay *Set_Buf) { unsigned char result = FAIL; unsigned char tx[10] = {0xaa, 0x00, targetAddr, Cmd.config_Relay_Output, 0x03, 0x00, Set_Buf->relay_event.relay_status[0], Set_Buf->relay_event.relay_status[1], Set_Buf->relay_event.relay_status[2]}; unsigned char rx[512]; unsigned char chksum = 0x00; for(int idx = 6;idx<8;idx++) chksum ^= tx[idx]; tx[9] = chksum; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; chksum = 0x00; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3]) && (rx[6] == 0x01)) { result = PASS; } } return result; } unsigned char Config_Gfd_Value(unsigned char fd, unsigned char targetAddr, Gfd_config *Set_Buf) { unsigned char result = FAIL; unsigned char tx[11] = {0xaa, 0x00, targetAddr, Cmd.config_Gfd_Value, 0x04, 0x00, 0x00, 0x00, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; tx[6] = (unsigned char)(Set_Buf->reqVol) & 0xff; tx[7] = ((unsigned char)(Set_Buf->reqVol) >> 8) & 0xff; tx[8] = (unsigned char)(Set_Buf->resister) & 0xff; tx[9] = ((unsigned char)(Set_Buf->resister) >> 8) & 0xff; for(int idx = 0;idx<(tx[4] | tx[5]<<8);idx++) chksum ^= tx[6+idx]; tx[10] = chksum; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; chksum = 0x00; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3]) && (rx[6] == tx[6])) { result = PASS; } } return result; } unsigned char Update_Start(unsigned char fd, unsigned char targetAddr, unsigned int crc32) { unsigned char result = FAIL; unsigned char tx[11] = {0xaa, 0x00, targetAddr, Cmd.update_Start, 0x04, 0x00, (crc32>>0)&0xff, (crc32>>8)&0xff, (crc32>>16)&0xff, (crc32>>24)&0xff, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; for(int idx = 0;idx<(tx[4] | tx[5]<<8);idx++) chksum ^= tx[6+idx]; tx[10] = chksum; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; chksum = 0x00; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3]) && (rx[6] == 0x00)) { result = PASS; } } return result; } unsigned char Update_Abord(unsigned char fd, unsigned char targetAddr) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.update_Start, 0x04, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3]) && (rx[6] == 0x00)) { result = PASS; } } return result; } unsigned char Update_Transfer(unsigned char fd, unsigned char targetAddr, unsigned int startAddr, unsigned char *data, unsigned short int length) { unsigned char result = FAIL; unsigned char tx[11 + length]; unsigned char rx[512]; unsigned char chksum = 0x00; tx[0] = 0xaa; tx[1] = 0x00; tx[2] = targetAddr; tx[3] = Cmd.update_Transfer; tx[4] = (4 + length) & 0xff; tx[5] = ((4 + length)>>8) & 0xff; tx[6] = (startAddr>>0) & 0xff; tx[7] = (startAddr>>8) & 0xff; tx[8] = (startAddr>>16) & 0xff; tx[9] = (startAddr>>24) & 0xff; memcpy(tx+10, data, length); for(int idx = 0;idx<(tx[4] | tx[5]<<8);idx++) chksum ^= tx[6+idx]; tx[sizeof(tx)-1] = chksum; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3]) && (rx[6] == 0x00)) { result = PASS; } } return result; } unsigned char Update_Finish(unsigned char fd, unsigned char targetAddr) { unsigned char result = FAIL; unsigned char tx[7] = {0xaa, 0x00, targetAddr, Cmd.update_Finish, 0x04, 0x00, 0x00}; unsigned char rx[512]; unsigned char chksum = 0x00; unsigned char len = tranceive(fd, tx, sizeof(tx), rx); if(len > 6) { if (len < 6+(rx[4] | rx[5]<<8)) return result; for(int idx = 0;idx<(rx[4] | rx[5]<<8);idx++) { chksum ^= rx[6+idx]; } if((chksum == rx[6+(rx[4] | rx[5]<<8)]) && (rx[2] == tx[1]) && (rx[1] == tx[2]) && (rx[3] == tx[3]) && (rx[6] == 0x00)) { result = PASS; } } return result; }