diff --git a/Src/0_Tool/PMIC_Tool/PMIC_Cmd_Tool/external/FT4222/include/ftd2xx.h b/Src/0_Tool/PMIC_Tool/PMIC_Cmd_Tool/external/FT4222/include/ftd2xx.h index 00f4e2af..b2f99791 100644 --- a/Src/0_Tool/PMIC_Tool/PMIC_Cmd_Tool/external/FT4222/include/ftd2xx.h +++ b/Src/0_Tool/PMIC_Tool/PMIC_Cmd_Tool/external/FT4222/include/ftd2xx.h @@ -1,4 +1,4 @@ -/*++ +/*++ Copyright (c) 2001-2021 Future Technology Devices International Limited diff --git a/Src/0_Tool/PMIC_Tool/PMIC_Cmd_Tool/src/PMIC_Cmd_Tool.cpp b/Src/0_Tool/PMIC_Tool/PMIC_Cmd_Tool/src/PMIC_Cmd_Tool.cpp index e90cd1c8..d05b252c 100644 --- a/Src/0_Tool/PMIC_Tool/PMIC_Cmd_Tool/src/PMIC_Cmd_Tool.cpp +++ b/Src/0_Tool/PMIC_Tool/PMIC_Cmd_Tool/src/PMIC_Cmd_Tool.cpp @@ -29,22 +29,24 @@ typedef enum { // Function Prototypes FT_HANDLE InitializeFT4222(); + void currentPreciseTime(char* buf, size_t len); // 초(00)와 밀리초(000) 포맷으로 저장 (예: 45.123) void currentTime(char* buf, size_t len); // 현재 시간을 "HH:MM:SS" 형식으로 buf에 저장 void logPacket(const char* dir, uint8_t* data, int size, int hasCrc); // 로그 출력 (커스텀 포맷) uint8_t calcCRC8(uint8_t addrWithRw, uint8_t* data, int len); // CRC8 계산 (다항식 0x07, 초기값 0x00) int parseCommand(const char* dir); // 명령어 판별 (I2C_WRITE/w, I2C_READ/r) + void PMIC_I2C_Write(FT_HANDLE ftHandle, uint8_t slaveAddr, uint8_t regAddr, uint8_t value); // Address에 1바이트 Write with CRC, 그리고 Address를 Read해서 Write한 값과 비교 uint8_t PMIC_I2C_Read(FT_HANDLE ftHandle, uint8_t slaveAddr, uint8_t regAddr); // Address에서 1바이트 Read (CRC 계산 없음) + void toBinaryString(uint8_t val, char* outBuf); // 8비트 데이터를 "0000_0000" 형식의 문자열로 변환 bool Run_DebugMode_On(FT_HANDLE ftHandle); // Enter Debug Mode On bool Run_DebugMode_Off(FT_HANDLE ftHandle); // Enter Debug Mode Off void Run_CheckFaults(FT_HANDLE ftHandle); // Check All Fault Registers void Run_ReadChipInfo(FT_HANDLE ftHandle); // Read Chip Information (OTP/Version) void Irq_Clear(FT_HANDLE ftHandle); // PMIC Irq Clear -void Set_Reset(FT_HANDLE ftHandle); // PMIC Set Reset -void Set_Error(FT_HANDLE ftHandle); // PMIC Set Error - +void Set_Reset(FT_HANDLE ftHandle); // PMIC Set Reset +void Set_Error(FT_HANDLE ftHandle); // PMIC Set Error void Handle_ManualCommand(FT_HANDLE ftHandle, char* line); // Manual Command int main() @@ -161,334 +163,6 @@ int main() printf("Program terminated normally.\n"); return 0; -#if 0 - FT4222_STATUS ft4222Status; - //char addrInput[16]; - unsigned int tempAddr = 0; - uint8_t I2C_SLAVE_ADDR = 0; - unsigned long log_counter = 0; - char timeStr[16]; // 시간을 저장할 버퍼 (HH:MM:SS면 9바이트면 충분) - - currentTime(timeStr, sizeof(timeStr)); - //printf("현재 시간: %s\n", timeStr); - - // 1. FT4222 장치 연결 및 초기화 - FT_HANDLE ftHandle = InitializeFT4222(); - if (!ftHandle) return -1; - printf("PMIC I2C Packet Logger with FT4222\n \n"); - - - //printf("=================================================================================\n"); - /******************************************************************************************** - I2C Write - PMIC_I2C_Write(FT_HANDLE ftHandle, uint8_t slaveAddr, uint8_t regAddr, uint8_t value) - PMIC_I2C_Write(ftHandle, PMIC_I2C_SLAVE_ADDR, PMIC_Register_Address, Value); - ********************************************************************************************/ - //printf("=================================================================================\n"); - /******************************************************************************************** - I2C Read - PMIC_I2C_Read(FT_HANDLE ftHandle, uint8_t slaveAddr, uint8_t regAddr) - PMIC_I2C_Read(ftHandle, PMIC_I2C_SLAVE_ADDR, 0xAA); - ********************************************************************************************/ - - - - //for (int i = 0; i < 10000000; i++) { - //while (1) { - //} - - //for (int i = 0; i < 10000000; i++) { - //while (log_counter < 10 ){ - - // 예: 10번 while에 한 번만 실행 - //if (log_counter % 10 == 0) { - // 30ms 딜레이 - //Sleep(30); - - printf("Press Enter to I2C read...\n"); - (void)getchar(); - - //Regulation Register - printf("Regulation Register\n"); - // Page00 - //PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x00); - //PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x00); - - // IO_CHIPVERSION_REGU & IO_DIEID3_REGU - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x00); //0x000 - IO_PAGE_REGU - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x01); //0x001 - IO_CHIPNAME_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x02); //0x002 - IO_CHIPVERSION_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x03); //0x003 - IO_DIEID3_REGU - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x04); //0x004 - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x05); //0x005 - - //PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x02); - //PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x02); - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x23); - - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x30); //0x030 - FLT_MASK_OTP(OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x31); //0x031 - FLT_MASK_TEMP(OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x32); //0x032 - FLT_MASK_BUCK1(OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x33); //0x033 - FLT_MASK_BUCK2(OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x34); //0x034 - FLT_MASK_BUCK3(OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x35); //0x035 - FLT_MASK_BUCK4(OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x36); //0x036 - FLT_MASK_BUCK5(OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x37); //0x037 - FLT_MASK_LDO(OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x38); //0x038 - FLT_MASK_IF(OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x40); //0x040 - FLT_RECORD_OTP - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x41); //0x041 - FLT_RECORD_TEMP - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x42); //0x042 - FLT_RECORD_BUCK1 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x43); //0x043 - FLT_RECORD_BUCK2 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x44); //0x044 - FLT_RECORD_BUCK3 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x45); //0x045 - FLT_RECORD_BUCK4 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x46); //0x046 - FLT_RECORD_BUCK5 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x47); //0x047 - FLT_RECORD_LDO - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x48); //0x048 - FLT_RECORD_IF - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x49); //0x049 - FLT_RECORD_LDO_DISC_DET - - // Page02 - //PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x02); - //PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x02); - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x20); - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x21); - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x22); //0x222 - I_OTP_VERSION - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x23); //0x223 - I_OTP_INTERNALVERSION - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x24); - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x25); - - // IO_CHIPVERSION_REGU & IO_DIEID3_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x02); //0x002 - IO_CHIPVERSION_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x03); //0x003 - IO_DIEID3_REGU - - /* Protection Register */ - printf("Protection Register\n"); - // Read IO_CHIPNAME & IO_DIEID3 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x02); //0x002 - IO_CHIPNAME - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x03); //0x003 - IO_DIEID3 - - // Read FLT Register - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x10); //0x010 - FUSA_STATUS_1 - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x11); //0x011 - FUSA_STATUS_2 - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x12); //0x012 - FUSA_STATUS_2A - //PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x13); //0x013 - FUSA_STATUS_3 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x14); //0x014 - FUSA_STATUS_4 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x19); //0x019 - FLT_RECORD_A - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1A); //0x01A - FLT_RECORD_B - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1B); //0x01B - FLT_RECORD_GND_AVIN - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1C); //0x01C - FLT_RECORD_BG_Temp - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1D); //0x01D - FLT_RECORD_IntLDOs - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1E); //0x01E - FLT_RECORD_ExtLDOs - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1F); //0x01F - FLT_RECORD_BUCKS_B - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x20); //0x01E - FLT_RECORD_BUCKS_A - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x21); //0x01F - FLT_RECORD_ExtINPs_7_0 - - // Read IO_CHIPNAME & IO_DIEID3 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x02); //0x002 - IO_CHIPNAME - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x03); //0x003 - IO_DIEID3 - - - //} - //} - //log_counter++; - //} - -#if 0 - //Regulation Register - printf("[Page-0]=================================================================================\n"); - PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x00); - PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x00); - - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x00); //0x000 - IO_PAGE_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x01); //0x001 - IO_CHIPNAME_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x02); //0x002 - IO_CHIPVERSION_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x03); //0x003 - IO_DIEID3_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x04); //0x004 - IO_DIEID2_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x05); //0x005 - IO_DIEID1_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x06); //0x006 - IO_DIEID0_REGU - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x0A); //0x00A - OTP_VERSION_REGU - - //Fault register data: Protection Register, Address 0x010 ~0x014, 0x019 ~0x021 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x10); //0x010 - FUSA_STATUS_1 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x11); //0x011 - FUSA_STATUS_2 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x12); //0x012 - FUSA_STATUS_2A - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x13); //0x013 - FUSA_STATUS_3 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x14); //0x014 - FUSA_STATUS_4 - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x19); //0x019 - FLT_RECORD_A - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1A); //0x01A - FLT_RECORD_B - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1B); //0x01B - FLT_RECORD_GND_AVIN - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1C); //0x01C - FLT_RECORD_BG_Temp - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1D); //0x01D - FLT_RECORD_IntLDOs - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1E); //0x01E - FLT_RECORD_ExtLDOs - PMIC_I2C_Read(ftHandle, PMIC_ADDR_PROTECTION, 0x1F); //0x01F - FLT_RECORD_BUCKS_B - - - printf("[Page-1]=================================================================================\n"); - PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x01); - PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x01); - - - printf("[Page-2]=================================================================================\n"); - PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x02); - PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x02); - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x20); //0x020 - FLT_RECORD_BUCKS_A - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x21); //0x021 - FLT_RECORD_ExtINPs_7_0 - - - printf("[PMIC_RAA271005_INIT]====================================================================\n"); - PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x01); - PMIC_I2C_Write(ftHandle, PMIC_ADDR_REGULATION, 0x00, 0x01); - - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x07); //0x107 - WDT_CFG0 (OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x08); //0x108 - WDT_CFG1 (OTP) //WDT_ULCNT, WDT_LLCNT - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x09); //0x109 - WDT_CFG2 (OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x16); //0x116 - FUSA_TIMER_1 (OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x17); //0x117 - FUSA_TIMER_2 (OTP) - PMIC_I2C_Read(ftHandle, PMIC_ADDR_REGULATION, 0x2C); //0x12C - FLT_MASK_B (OTP) - - //Protection Register - -#endif - - - - -#if 0 - printf("I2C Address\n Regulation Register is 0x54\n Protection Register is 0x55\n \nEnter 7-bit I2C Slave Address (hex): "); - if (scanf_s("%15s", addrInput, (unsigned)_countof(addrInput)) != 1) { - printf("입력 오류\n"); - return -1; - } - if (sscanf_s(addrInput, "%x", &tempAddr) != 1) { - printf("잘못된 주소 입력\n"); - return -1; - } - I2C_SLAVE_ADDR = (uint8_t)tempAddr; - - printf("슬레이브 주소 설정됨: 0x%02X\n", I2C_SLAVE_ADDR); - - getchar(); // 버퍼 클리어 - - printf("사용법: I2C_WRITE 또는 w \n"); - printf(" I2C_READ (항상 2바이트 읽음) 또는 r\n"); - printf("exit 또틑 e 입력 시 종료\n"); -#endif - - char line[256]; - while (1) { - printf("> "); - if (!fgets(line, sizeof(line), stdin)) break; - - line[strcspn(line, "\r\n")] = 0; // 개행 제거 - if (strcmp(line, "exit") == 0) break; - if (strcmp(line, "e") == 0) break; - if (strlen(line) == 0) continue; - - char* context = NULL; - char* token = strtok_s(line, " ", &context); - if (!token) continue; - - for (char* p = token; *p; p++) *p = toupper(*p); - - int command = parseCommand(token); - - if (command == 1) { // I2C_WRITE - uint8_t bytes[256]; - int len = 0; - - while ((token = strtok_s(NULL, " ", &context)) != NULL) { - unsigned int val; - if (sscanf_s(token, "%x", &val) == 1) { - bytes[len++] = (uint8_t)val; - } - else { - printf("잘못된 HEX 값: %s\n", token); - } - } - - if (len == 0) { - printf("전송할 데이터가 없습니다.\n"); - continue; - } - - uint8_t addrWithRw = (I2C_SLAVE_ADDR << 1) | 0x00; - uint8_t crc = calcCRC8(addrWithRw, bytes, len); - bytes[len++] = crc; - - uint16 transferred = 0; - ft4222Status = FT4222_I2CMaster_Write(ftHandle, - I2C_SLAVE_ADDR, - bytes, - (uint16)len, - &transferred); - - if (ft4222Status != FT4222_OK) { - printf("I2C Write 실패\n"); - } - else { - logPacket("I2C_WRITE", bytes, len, 1); - } - } - else if (command == 2) { // I2C_READ - uint8_t bytes[256]; - uint16 transferred = 0; - FT4222_STATUS st; - int len = 0; - - while ((token = strtok_s(NULL, " ", &context)) != NULL) { - unsigned int val; - if (sscanf_s(token, "%x", &val) == 1) { - bytes[len++] = (uint8_t)val; - } - else { - printf("잘못된 HEX 값: %s\n", token); - } - } - - if (len == 0) { - printf("전송할 데이터가 없습니다.\n"); - continue; - } - - uint8_t addrWithRw = (I2C_SLAVE_ADDR << 1) | 0x00; - uint8_t crc = calcCRC8(addrWithRw, bytes, len); - bytes[len++] = crc; - - st = FT4222_I2CMaster_Write(ftHandle, - I2C_SLAVE_ADDR, - bytes, - (uint16)len, - &transferred); - - if (st != FT4222_OK) { - printf("Read용 Address Write 실패\n"); - return 0; - } - - // 🔹 Register Address에서 2바이트 Read (Value + CRC) - uint8_t rx[2] = { 0 }; - st = FT4222_I2CMaster_Read(ftHandle, - I2C_SLAVE_ADDR, - rx, - 2, - &transferred); - - if (st != FT4222_OK) { - printf("I2C Read 실패\n"); - return 0; - } - else { - printf("Read 결과: [Address = 0x%02X], [Value = 0x%02X], [CRC = 0x%02X]\n", - bytes[0], rx[0], rx[1]); - } - } - else { - printf("첫 단어는 I2C_WRITE(w) 또는 I2C_READ(r) 여야 합니다.\n"); - } - } - - FT_Close(ftHandle); - return 0; -#endif } FT_HANDLE InitializeFT4222() {