/** * @file mmc_card.cpp * * @date Dec 28, 2013 * @author Kot_dnz * @author Andrey Belomutskiy, (c) 2012-2020 * * default pinouts in case of SPI2 connected to MMC: PB13 - SCK, PB14 - MISO, PB15 - MOSI, PD4 - CS, 3.3v * default pinouts in case of SPI3 connected to MMC: PB3 - SCK, PB4 - MISO, PB5 - MOSI, PD4 - CS, 3.3v * * * todo: extract some logic into a controller file */ #include "global.h" #if EFI_FILE_LOGGING #include #include #include "mmc_card.h" #include "pin_repository.h" #include "ff.h" #include "hardware.h" #include "engine_configuration.h" #include "status_loop.h" #include "buffered_writer.h" #include "null_device.h" #include "thread_priority.h" #include "rtc_helper.h" #define SD_STATE_INIT "init" #define SD_STATE_MOUNTED "MOUNTED" #define SD_STATE_MOUNT_FAILED "MOUNT_FAILED" #define SD_STATE_OPEN_FAILED "OPEN_FAILED" #define SD_STATE_SEEK_FAILED "SEEK_FAILED" #define SD_STATE_NOT_INSERTED "NOT_INSERTED" #define SD_STATE_CONNECTING "CONNECTING" #define SD_STATE_NOT_CONNECTED "NOT_CONNECTED" static const char *sdStatus = SD_STATE_INIT; static bool fs_ready = false; EXTERN_ENGINE; #define F_SYNC_FREQUENCY 100 static int totalLoggedBytes = 0; static int fileCreatedCounter = 0; static int writeCounter = 0; static int totalWritesCounter = 0; static int totalSyncCounter = 0; /** * on't re-read SD card spi device after boot - it could change mid transaction (TS thread could preempt), * which will cause disaster (usually multiple-unlock of the same mutex in UNLOCK_SD_SPI) */ spi_device_e mmcSpiDevice = SPI_NONE; #define LOG_INDEX_FILENAME "index.txt" #define RUSEFI_LOG_PREFIX "re_" #define PREFIX_LEN 3 #define SHORT_TIME_LEN 13 #define LS_RESPONSE "ls_result" #define FILE_LIST_MAX_COUNT 20 #if HAL_USE_USB_MSD #include "hal_usb_msd.h" #if STM32_USB_USE_OTG2 USBDriver *usb_driver = &USBD2; #else USBDriver *usb_driver = &USBD1; #endif #endif /* HAL_USE_USB_MSD */ static THD_WORKING_AREA(mmcThreadStack, 3 * UTILITY_THREAD_STACK_SIZE); // MMC monitor thread #if HAL_USE_MMC_SPI /** * MMC driver instance. */ MMCDriver MMCD1; /* MMC/SD over SPI driver configuration.*/ static MMCConfig mmccfg = { NULL, &mmc_ls_spicfg, &mmc_hs_spicfg }; #define LOCK_SD_SPI lockSpi(mmcSpiDevice) #define UNLOCK_SD_SPI unlockSpi(mmcSpiDevice) #endif /* HAL_USE_MMC_SPI */ /** * fatfs MMC/SPI */ static NO_CACHE FATFS MMC_FS; static LoggingWithStorage logger("mmcCard"); static int fatFsErrors = 0; static void mmcUnMount(void); static void setSdCardReady(bool value) { fs_ready = value; } // print FAT error function static void printError(const char *str, FRESULT f_error) { if (fatFsErrors++ > 16) { // no reason to spam the console return; } scheduleMsg(&logger, "FATfs Error \"%s\" %d", str, f_error); } static FIL FDLogFile NO_CACHE; static FIL FDCurrFile NO_CACHE; // 10 because we want at least 4 character name #define MIN_FILE_INDEX 10 static int logFileIndex = MIN_FILE_INDEX; static char logName[_MAX_FILLER + 20]; static void printMmcPinout(void) { scheduleMsg(&logger, "MMC CS %s", hwPortname(CONFIG(sdCardCsPin))); // todo: we need to figure out the right SPI pinout, not just SPI2 // scheduleMsg(&logger, "MMC SCK %s:%d", portname(EFI_SPI2_SCK_PORT), EFI_SPI2_SCK_PIN); // scheduleMsg(&logger, "MMC MISO %s:%d", portname(EFI_SPI2_MISO_PORT), EFI_SPI2_MISO_PIN); // scheduleMsg(&logger, "MMC MOSI %s:%d", portname(EFI_SPI2_MOSI_PORT), EFI_SPI2_MOSI_PIN); } static void sdStatistics(void) { printMmcPinout(); scheduleMsg(&logger, "SD enabled=%s status=%s", boolToString(CONFIG(isSdCardEnabled)), sdStatus); printSpiConfig(&logger, "SD", mmcSpiDevice); if (isSdCardAlive()) { scheduleMsg(&logger, "filename=%s size=%d", logName, totalLoggedBytes); } } static void incLogFileName(void) { memset(&FDCurrFile, 0, sizeof(FIL)); // clear the memory FRESULT err = f_open(&FDCurrFile, LOG_INDEX_FILENAME, FA_READ); // This file has the index for next log file name char data[_MAX_FILLER]; UINT result = 0; if (err != FR_OK && err != FR_EXIST) { logFileIndex = MIN_FILE_INDEX; scheduleMsg(&logger, "%s: not found or error: %d", LOG_INDEX_FILENAME, err); } else { f_read(&FDCurrFile, (void*)data, sizeof(data), &result); scheduleMsg(&logger, "Got content [%s] size %d", data, result); f_close(&FDCurrFile); if (result < 5) { data[result] = 0; logFileIndex = maxI(MIN_FILE_INDEX, atoi(data)); if (absI(logFileIndex) == ERROR_CODE) { logFileIndex = MIN_FILE_INDEX; } else { logFileIndex++; // next file would use next file name } } else { logFileIndex = MIN_FILE_INDEX; } } err = f_open(&FDCurrFile, LOG_INDEX_FILENAME, FA_OPEN_ALWAYS | FA_WRITE); itoa10(data, logFileIndex); f_write(&FDCurrFile, (void*)data, strlen(data), &result); f_close(&FDCurrFile); scheduleMsg(&logger, "Done %d", logFileIndex); } static void prepareLogFileName(void) { strcpy(logName, RUSEFI_LOG_PREFIX); char *ptr; #if HAL_USE_USB_MSD bool result = dateToStringShort(&logName[PREFIX_LEN]); #else // TS SD protocol supports only short 8 symbol file names :( bool result = false; #endif if (result) { ptr = &logName[PREFIX_LEN + SHORT_TIME_LEN]; } else { ptr = itoa10(&logName[PREFIX_LEN], logFileIndex); } strcat(ptr, DOT_MLG); } /** * @brief Create a new file with the specified name * * This function saves the name of the file in a global variable * so that we can later append to that file */ static void createLogFile(void) { memset(&FDLogFile, 0, sizeof(FIL)); // clear the memory prepareLogFileName(); FRESULT err = f_open(&FDLogFile, logName, FA_OPEN_ALWAYS | FA_WRITE); // Create new file if (err != FR_OK && err != FR_EXIST) { sdStatus = SD_STATE_OPEN_FAILED; warning(CUSTOM_ERR_SD_MOUNT_FAILED, "SD: mount failed"); printError("FS mount failed", err); // else - show error return; } err = f_lseek(&FDLogFile, f_size(&FDLogFile)); // Move to end of the file to append data if (err) { sdStatus = SD_STATE_SEEK_FAILED; warning(CUSTOM_ERR_SD_SEEK_FAILED, "SD: seek failed"); printError("Seek error", err); return; } f_sync(&FDLogFile); setSdCardReady(true); // everything Ok } static void removeFile(const char *pathx) { if (!isSdCardAlive()) { scheduleMsg(&logger, "Error: No File system is mounted"); return; } f_unlink(pathx); } int mystrncasecmp(const char *s1, const char *s2, size_t n) { if (n != 0) { const char *us1 = (const char *)s1; const char *us2 = (const char *)s2; do { if (mytolower(*us1) != mytolower(*us2)) return (mytolower(*us1) - mytolower(*us2)); if (*us1++ == '\0') break; us2++; } while (--n != 0); } return (0); } static void listDirectory(const char *path) { if (!isSdCardAlive()) { scheduleMsg(&logger, "Error: No File system is mounted"); return; } DIR dir; FRESULT res = f_opendir(&dir, path); if (res != FR_OK) { scheduleMsg(&logger, "Error opening directory %s", path); return; } scheduleMsg(&logger, LS_RESPONSE); for (int count = 0;count < FILE_LIST_MAX_COUNT;) { FILINFO fno; res = f_readdir(&dir, &fno); if (res != FR_OK || fno.fname[0] == 0) { break; } if (fno.fname[0] == '.') { continue; } if ((fno.fattrib & AM_DIR) || mystrncasecmp(RUSEFI_LOG_PREFIX, fno.fname, sizeof(RUSEFI_LOG_PREFIX) - 1)) { continue; } scheduleMsg(&logger, "logfile%lu:%s", fno.fsize, fno.fname); count++; // scheduleMsg(&logger, "%c%c%c%c%c %u/%02u/%02u %02u:%02u %9lu %-12s", (fno.fattrib & AM_DIR) ? 'D' : '-', // (fno.fattrib & AM_RDO) ? 'R' : '-', (fno.fattrib & AM_HID) ? 'H' : '-', // (fno.fattrib & AM_SYS) ? 'S' : '-', (fno.fattrib & AM_ARC) ? 'A' : '-', (fno.fdate >> 9) + 1980, // (fno.fdate >> 5) & 15, fno.fdate & 31, (fno.ftime >> 11), (fno.ftime >> 5) & 63, fno.fsize, // fno.fname); } } /* * MMC card un-mount. */ static void mmcUnMount(void) { if (!isSdCardAlive()) { scheduleMsg(&logger, "Error: No File system is mounted. \"mountsd\" first"); return; } f_close(&FDLogFile); // close file f_sync(&FDLogFile); // sync ALL #if HAL_USE_MMC_SPI mmcDisconnect(&MMCD1); // Brings the driver in a state safe for card removal. mmcStop(&MMCD1); // Disables the MMC peripheral. UNLOCK_SD_SPI; #endif #ifdef EFI_SDC_DEVICE sdcDisconnect(&EFI_SDC_DEVICE); sdcStop(&EFI_SDC_DEVICE); #endif f_mount(NULL, 0, 0); // FATFS: Unregister work area prior to discard it memset(&FDLogFile, 0, sizeof(FIL)); // clear FDLogFile setSdCardReady(false); // status = false scheduleMsg(&logger, "MMC/SD card removed"); } #if HAL_USE_USB_MSD static NO_CACHE uint8_t blkbuf[MMCSD_BLOCK_SIZE]; static const scsi_inquiry_response_t scsi_inquiry_response = { 0x00, /* direct access block device */ 0x80, /* removable */ 0x04, /* SPC-2 */ 0x02, /* response data format */ 0x20, /* response has 0x20 + 4 bytes */ 0x00, 0x00, 0x00, "rusEFI", "SD Card", {'v',CH_KERNEL_MAJOR+'0','.',CH_KERNEL_MINOR+'0'} }; static binary_semaphore_t usbConnectedSemaphore; void onUsbConnectedNotifyMmcI() { chBSemSignalI(&usbConnectedSemaphore); } #endif /* HAL_USE_USB_MSD */ #if HAL_USE_MMC_SPI /* * Attempts to initialize the MMC card. * Returns a BaseBlockDevice* corresponding to the SD card if successful, otherwise nullptr. */ static BaseBlockDevice* initializeMmcBlockDevice() { if (!CONFIG(isSdCardEnabled)) { return nullptr; } // Configures and activates the MMC peripheral. mmcSpiDevice = CONFIG(sdCardSpiDevice); efiAssert(OBD_PCM_Processor_Fault, mmcSpiDevice != SPI_NONE, "SD card enabled, but no SPI device configured!", nullptr); // todo: reuse initSpiCs method? mmc_hs_spicfg.ssport = mmc_ls_spicfg.ssport = getHwPort("mmc", CONFIG(sdCardCsPin)); mmc_hs_spicfg.sspad = mmc_ls_spicfg.sspad = getHwPin("mmc", CONFIG(sdCardCsPin)); mmccfg.spip = getSpiDevice(mmcSpiDevice); // Invalid SPI device, abort. if (!mmccfg.spip) { return nullptr; } // We think we have everything for the card, let's try to mount it! mmcObjectInit(&MMCD1); mmcStart(&MMCD1, &mmccfg); // Performs the initialization procedure on the inserted card. LOCK_SD_SPI; sdStatus = SD_STATE_CONNECTING; if (mmcConnect(&MMCD1) != HAL_SUCCESS) { sdStatus = SD_STATE_NOT_CONNECTED; UNLOCK_SD_SPI; return nullptr; } return reinterpret_cast(&MMCD1); } #endif /* HAL_USE_MMC_SPI */ // Some ECUs are wired for SDIO/SDMMC instead of SPI #ifdef EFI_SDC_DEVICE static const SDCConfig sdcConfig = { SDC_MODE_4BIT }; static BaseBlockDevice* initializeMmcBlockDevice() { if (!CONFIG(isSdCardEnabled)) { return nullptr; } sdcStart(&EFI_SDC_DEVICE, &sdcConfig); sdStatus = SD_STATE_CONNECTING; if (sdcConnect(&EFI_SDC_DEVICE) != HAL_SUCCESS) { sdStatus = SD_STATE_NOT_CONNECTED; return nullptr; } return reinterpret_cast(&EFI_SDC_DEVICE); } #endif /* EFI_SDC_DEVICE */ // Initialize and mount the SD card. // Returns true if the filesystem was successfully mounted for writing. static bool mountMmc() { auto cardBlockDevice = initializeMmcBlockDevice(); #if HAL_USE_USB_MSD // Wait for the USB stack to wake up, or a 5 second timeout, whichever occurs first msg_t usbResult = chBSemWaitTimeout(&usbConnectedSemaphore, TIME_MS2I(5000)); bool hasUsb = usbResult == MSG_OK; msdObjectInit(&USBMSD1); // If we have a device AND USB is connected, mount the card to USB, otherwise // mount the null device and try to mount the filesystem ourselves if (cardBlockDevice && hasUsb) { // Mount the real card to USB msdStart(&USBMSD1, usb_driver, cardBlockDevice, blkbuf, &scsi_inquiry_response, NULL); // At this point we're done: don't try to write files ourselves return false; } else { // Mount a "no media" device to USB msdMountNullDevice(&USBMSD1, usb_driver, blkbuf, &scsi_inquiry_response); } #endif // if no card, don't try to mount FS if (!cardBlockDevice) { return false; } // We were able to connect the SD card, mount the filesystem memset(&MMC_FS, 0, sizeof(FATFS)); if (f_mount(&MMC_FS, "/", 1) == FR_OK) { sdStatus = SD_STATE_MOUNTED; incLogFileName(); createLogFile(); fileCreatedCounter++; scheduleMsg(&logger, "MMC/SD mounted!"); return true; } else { sdStatus = SD_STATE_MOUNT_FAILED; return false; } } struct SdLogBufferWriter final : public BufferedWriter<512> { bool failed = false; size_t writeInternal(const char* buffer, size_t count) override { size_t bytesWritten; totalLoggedBytes += count; FRESULT err = f_write(&FDLogFile, buffer, count, &bytesWritten); if (bytesWritten != count) { printError("write error or disk full", err); // error or disk full // Close file and unmount volume mmcUnMount(); failed = true; return 0; } else { writeCounter++; totalWritesCounter++; if (writeCounter >= F_SYNC_FREQUENCY) { /** * Performance optimization: not f_sync after each line, f_sync is probably a heavy operation * todo: one day someone should actually measure the relative cost of f_sync */ f_sync(&FDLogFile); totalSyncCounter++; writeCounter = 0; } } return bytesWritten; } }; static NO_CACHE SdLogBufferWriter logBuffer; static THD_FUNCTION(MMCmonThread, arg) { (void)arg; chRegSetThreadName("MMC Card Logger"); if (!mountMmc()) { // no card present (or mounted via USB), don't do internal logging return; } while (true) { // if the SPI device got un-picked somehow, cancel SD card if (CONFIG(sdCardSpiDevice) == SPI_NONE) { return; } if (CONFIG(debugMode) == DBG_SD_CARD) { tsOutputChannels.debugIntField1 = totalLoggedBytes; tsOutputChannels.debugIntField2 = totalWritesCounter; tsOutputChannels.debugIntField3 = totalSyncCounter; tsOutputChannels.debugIntField4 = fileCreatedCounter; } writeLogLine(logBuffer); // Something went wrong (already handled), so cancel further writes if (logBuffer.failed) { return; } auto period = CONFIG(sdCardPeriodMs); if (period > 0) { chThdSleepMilliseconds(period); } } } bool isSdCardAlive(void) { return fs_ready; } void initMmcCard(void) { logName[0] = 0; #if HAL_USE_USB_MSD chBSemObjectInit(&usbConnectedSemaphore, true); #endif chThdCreateStatic(mmcThreadStack, sizeof(mmcThreadStack), PRIO_MMC, (tfunc_t)(void*) MMCmonThread, NULL); addConsoleAction("sdinfo", sdStatistics); addConsoleActionS("ls", listDirectory); addConsoleActionS("del", removeFile); addConsoleAction("incfilename", incLogFileName); } #endif /* EFI_FILE_LOGGING */