/* * Copyright (c) 2006-2021, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2017-08-08 Yang the first version */ #include #include #include "drv_sd.h" static struct mci_device *_mci_device; static uint8_t sdio_buffer[1024]; static rt_err_t rt_mci_init(rt_device_t dev) { rt_err_t result = RT_EOK; return result; } static rt_err_t rt_mci_open(rt_device_t dev, rt_uint16_t oflag) { return RT_EOK; } static rt_err_t rt_mci_close(rt_device_t dev) { return RT_EOK; } static rt_ssize_t rt_mci_read(rt_device_t dev, rt_off_t pos, void *buffer, rt_size_t size) { rt_uint8_t status = kStatus_Success; struct mci_device *mci = (struct mci_device *)dev; rt_mutex_take(&mci->lock, RT_WAITING_FOREVER); { /* non-aligned. */ uint32_t i; rt_size_t sector_adr; uint8_t* copy_buffer; sector_adr = pos; copy_buffer = (uint8_t*)buffer; for(i=0; icard, sdio_buffer, sector_adr, 1); memcpy(copy_buffer, sdio_buffer, mci->card.blockSize); sector_adr ++; copy_buffer += mci->card.blockSize; } } rt_mutex_release(&_mci_device->lock); if (status == kStatus_Success) return size; return 0; } static rt_ssize_t rt_mci_write(rt_device_t dev, rt_off_t pos, const void *buffer, rt_size_t size) { rt_uint8_t status = kStatus_Success; struct mci_device *mci = (struct mci_device *)dev; rt_mutex_take(&mci->lock, RT_WAITING_FOREVER); { /* non-aligned. */ uint32_t i; rt_size_t sector_adr; uint8_t* copy_buffer; sector_adr = pos; copy_buffer = (uint8_t*)buffer; for(i = 0; i < size; i++) { memcpy(sdio_buffer, copy_buffer, mci->card.blockSize); status = SD_WriteBlocks(&mci->card, sdio_buffer, sector_adr, 1); sector_adr ++; copy_buffer += mci->card.blockSize; } } /* release and exit */ rt_mutex_release(&_mci_device->lock); if (status == kStatus_Success) return size; return 0; } static rt_err_t rt_mci_control(rt_device_t dev, int cmd, void *args) { struct mci_device *mci = (struct mci_device *)dev; RT_ASSERT(dev != RT_NULL); if (cmd == RT_DEVICE_CTRL_BLK_GETGEOME) { struct rt_device_blk_geometry *geometry; geometry = (struct rt_device_blk_geometry *)args; if (geometry == RT_NULL) return -RT_ERROR; geometry->bytes_per_sector = mci->card.blockSize; geometry->block_size = mci->card.csd.eraseSectorSize; geometry->sector_count = mci->card.blockCount; } return RT_EOK; } void sdio_init_pins(void) { const uint32_t port2_pin10_config = ( IOCON_PIO_FUNC2 | /* Pin is configured as SD_CARD_DET_N */ IOCON_PIO_MODE_INACT | /* No addition pin function */ IOCON_PIO_INV_DI | /* Input function is not inverted */ IOCON_PIO_DIGITAL_EN | /* Enables digital function */ IOCON_PIO_INPFILT_OFF | /* Input filter disabled */ IOCON_PIO_SLEW_STANDARD | /* Standard mode, output slew rate control is enabled */ IOCON_PIO_OPENDRAIN_DI /* Open drain is disabled */ ); IOCON_PinMuxSet(IOCON, PORT2_IDX, PIN10_IDX, port2_pin10_config); /* PORT2 PIN10 (coords: P1) is configured as SD_CARD_DET_N */ const uint32_t port2_pin3_config = ( IOCON_PIO_FUNC2 | /* Pin is configured as SD_CLK */ IOCON_PIO_MODE_INACT | /* No addition pin function */ IOCON_PIO_INV_DI | /* Input function is not inverted */ IOCON_PIO_DIGITAL_EN | /* Enables digital function */ IOCON_PIO_INPFILT_OFF | /* Input filter disabled */ IOCON_PIO_SLEW_FAST | /* Fast mode, slew rate control is disabled */ IOCON_PIO_OPENDRAIN_DI /* Open drain is disabled */ ); IOCON_PinMuxSet(IOCON, PORT2_IDX, PIN3_IDX, port2_pin3_config); /* PORT2 PIN3 (coords: B1) is configured as SD_CLK */ const uint32_t port2_pin4_config = ( IOCON_PIO_FUNC2 | /* Pin is configured as SD_CMD */ IOCON_PIO_MODE_INACT | /* No addition pin function */ IOCON_PIO_INV_DI | /* Input function is not inverted */ IOCON_PIO_DIGITAL_EN | /* Enables digital function */ IOCON_PIO_INPFILT_OFF | /* Input filter disabled */ IOCON_PIO_SLEW_FAST | /* Fast mode, slew rate control is disabled */ IOCON_PIO_OPENDRAIN_DI /* Open drain is disabled */ ); IOCON_PinMuxSet(IOCON, PORT2_IDX, PIN4_IDX, port2_pin4_config); /* PORT2 PIN4 (coords: D3) is configured as SD_CMD */ const uint32_t port2_pin5_config = ( IOCON_PIO_FUNC2 | /* Pin is configured as SD_POW_EN */ IOCON_PIO_MODE_INACT | /* No addition pin function */ IOCON_PIO_INV_DI | /* Input function is not inverted */ IOCON_PIO_DIGITAL_EN | /* Enables digital function */ IOCON_PIO_INPFILT_OFF | /* Input filter disabled */ IOCON_PIO_SLEW_STANDARD | /* Standard mode, output slew rate control is enabled */ IOCON_PIO_OPENDRAIN_DI /* Open drain is disabled */ ); IOCON_PinMuxSet(IOCON, PORT2_IDX, PIN5_IDX, port2_pin5_config); /* PORT2 PIN5 (coords: C1) is configured as SD_POW_EN */ const uint32_t port2_pin6_config = ( IOCON_PIO_FUNC2 | /* Pin is configured as SD_D(0) */ IOCON_PIO_MODE_INACT | /* No addition pin function */ IOCON_PIO_INV_DI | /* Input function is not inverted */ IOCON_PIO_DIGITAL_EN | /* Enables digital function */ IOCON_PIO_INPFILT_OFF | /* Input filter disabled */ IOCON_PIO_SLEW_FAST | /* Fast mode, slew rate control is disabled */ IOCON_PIO_OPENDRAIN_DI /* Open drain is disabled */ ); IOCON_PinMuxSet(IOCON, PORT2_IDX, PIN6_IDX, port2_pin6_config); /* PORT2 PIN6 (coords: F3) is configured as SD_D(0) */ const uint32_t port2_pin7_config = ( IOCON_PIO_FUNC2 | /* Pin is configured as SD_D(1) */ IOCON_PIO_MODE_INACT | /* No addition pin function */ IOCON_PIO_INV_DI | /* Input function is not inverted */ IOCON_PIO_DIGITAL_EN | /* Enables digital function */ IOCON_PIO_INPFILT_OFF | /* Input filter disabled */ IOCON_PIO_SLEW_FAST | /* Fast mode, slew rate control is disabled */ IOCON_PIO_OPENDRAIN_DI /* Open drain is disabled */ ); IOCON_PinMuxSet(IOCON, PORT2_IDX, PIN7_IDX, port2_pin7_config); /* PORT2 PIN7 (coords: J2) is configured as SD_D(1) */ const uint32_t port2_pin8_config = ( IOCON_PIO_FUNC2 | /* Pin is configured as SD_D(2) */ IOCON_PIO_MODE_INACT | /* No addition pin function */ IOCON_PIO_INV_DI | /* Input function is not inverted */ IOCON_PIO_DIGITAL_EN | /* Enables digital function */ IOCON_PIO_INPFILT_OFF | /* Input filter disabled */ IOCON_PIO_SLEW_FAST | /* Fast mode, slew rate control is disabled */ IOCON_PIO_OPENDRAIN_DI /* Open drain is disabled */ ); IOCON_PinMuxSet(IOCON, PORT2_IDX, PIN8_IDX, port2_pin8_config); /* PORT2 PIN8 (coords: F4) is configured as SD_D(2) */ const uint32_t port2_pin9_config = ( IOCON_PIO_FUNC2 | /* Pin is configured as SD_D(3) */ IOCON_PIO_MODE_INACT | /* No addition pin function */ IOCON_PIO_INV_DI | /* Input function is not inverted */ IOCON_PIO_DIGITAL_EN | /* Enables digital function */ IOCON_PIO_INPFILT_OFF | /* Input filter disabled */ IOCON_PIO_SLEW_FAST | /* Fast mode, slew rate control is disabled */ IOCON_PIO_OPENDRAIN_DI /* Open drain is disabled */ ); IOCON_PinMuxSet(IOCON, PORT2_IDX, PIN9_IDX, port2_pin9_config); /* PORT2 PIN9 (coords: K2) is configured as SD_D(3) */ const uint32_t port3_pin15_config = ( IOCON_PIO_FUNC2 | /* Pin is configured as SD_WR_PRT */ IOCON_PIO_MODE_INACT | /* No addition pin function */ IOCON_PIO_INV_DI | /* Input function is not inverted */ IOCON_PIO_DIGITAL_EN | /* Enables digital function */ IOCON_PIO_INPFILT_OFF | /* Input filter disabled */ IOCON_PIO_SLEW_STANDARD | /* Standard mode, output slew rate control is enabled */ IOCON_PIO_OPENDRAIN_DI /* Open drain is disabled */ ); IOCON_PinMuxSet(IOCON, PORT3_IDX, PIN15_IDX, port3_pin15_config); /* PORT3 PIN15 (coords: D2) is configured as SD_WR_PRT */ } sd_card_t g_sd; /*! @brief Data written to the card */ uint8_t g_dataWrite[FSL_SDMMC_DEFAULT_BLOCK_SIZE * 5U]; /*! @brief Data read from the card */ uint8_t g_dataRead[FSL_SDMMC_DEFAULT_BLOCK_SIZE * 5U]; rt_err_t mci_hw_init(const char *device_name) #if 0 { sd_card_t *card = &g_sd; bool isReadOnly; bool failedFlag = false; char ch = '0'; /* attach main clock to SDIF */ CLOCK_AttachClk(kMCLK_to_SDIO_CLK); /* need call this function to clear the halt bit in clock divider register */ CLOCK_SetClkDiv(kCLOCK_DivSdioClk, 1U, true); sdio_init_pins(); card->host.base = SDIF; card->host.sourceClock_Hz = CLOCK_GetFreq(kCLOCK_SDio); /* Init card. */ if (SD_Init(card)) { rt_kprintf("\r\nSD card init failed.\r\n"); return -1; } rt_kprintf("\r\nRead/Write/Erase the card continuously until encounter error......\r\n"); /* Check if card is readonly. */ isReadOnly = SD_CheckReadOnly(card); if (isReadOnly) { //while (true) { /*if (failedFlag || (ch == 'q')) { break; }*/ rt_kprintf("\r\nRead one data block......\r\n"); if (kStatus_Success != SD_ReadBlocks(card, g_dataRead, 2U, 1U)) { rt_kprintf("Read one data block failed.\r\n"); failedFlag = true; //continue; } rt_kprintf("Read multiple data blocks......\r\n"); if (kStatus_Success != SD_ReadBlocks(card, g_dataRead, 2U, 5U)) { rt_kprintf("Read multiple data blocks failed.\r\n"); failedFlag = true; //continue; } rt_kprintf( "\r\nInput 'q' to quit read process.\ \r\nInput other char to read data blocks again.\r\n"); //ch = GETCHAR(); //PUTCHAR(ch); } } else { memset(g_dataWrite, 0x67U, sizeof(g_dataWrite)); //while (true) { /*if (failedFlag || (ch == 'q')) { break; }*/ rt_kprintf("\r\nWrite/read one data block......\r\n"); if (kStatus_Success != SD_WriteBlocks(card, g_dataWrite, 2U, 1U)) { rt_kprintf("Write one data block failed.\r\n"); failedFlag = true; //continue; } memset(g_dataRead, 0U, sizeof(g_dataRead)); if (kStatus_Success != SD_ReadBlocks(card, g_dataRead, 2U, 1U)) { rt_kprintf("Read one data block failed.\r\n"); failedFlag = true; //continue; } rt_kprintf("Compare the read/write content......\r\n"); if (memcmp(g_dataRead, g_dataWrite, FSL_SDMMC_DEFAULT_BLOCK_SIZE)) { rt_kprintf("The read/write content isn't consistent.\r\n"); failedFlag = true; //continue; } rt_kprintf("The read/write content is consistent.\r\n"); rt_kprintf("Write/read multiple data blocks......\r\n"); if (kStatus_Success != SD_WriteBlocks(card, g_dataWrite, 2U, 5U)) { rt_kprintf("Write multiple data blocks failed.\r\n"); failedFlag = true; //continue; } memset(g_dataRead, 0U, sizeof(g_dataRead)); if (kStatus_Success != SD_ReadBlocks(card, g_dataRead, 2U, 5U)) { rt_kprintf("Read multiple data blocks failed.\r\n"); failedFlag = true; //continue; } rt_kprintf("Compare the read/write content......\r\n"); if (memcmp(g_dataRead, g_dataWrite, FSL_SDMMC_DEFAULT_BLOCK_SIZE)) { rt_kprintf("The read/write content isn't consistent.\r\n"); failedFlag = true; //continue; } rt_kprintf("The read/write content is consistent.\r\n"); rt_kprintf("Erase multiple data blocks......\r\n"); if (kStatus_Success != SD_EraseBlocks(card, 2U, 5U)) { rt_kprintf("Erase multiple data blocks failed.\r\n"); failedFlag = true; //continue; } rt_kprintf( "\r\nInput 'q' to quit read/write/erase process.\ \r\nInput other char to read/write/erase data blocks again.\r\n"); //ch = GETCHAR(); //PUTCHAR(ch); } } rt_kprintf("\r\nThe example will not read/write data blocks again.\r\n"); SD_Deinit(card); } #else { _mci_device = (struct mci_device *)rt_malloc(sizeof(struct mci_device)); if (_mci_device == RT_NULL) { rt_kprintf("mci_hw_init _mci_device rt_malloc failed!\n"); return -RT_ERROR; } rt_memset(_mci_device, 0, sizeof(struct mci_device)); /* attach main clock to SDIF */ CLOCK_AttachClk(kMCLK_to_SDIO_CLK); /* need call this function to clear the halt bit in clock divider register */ CLOCK_SetClkDiv(kCLOCK_DivSdioClk, 1U, true); sdio_init_pins(); /* Save host information. */ _mci_device->card.host.base = SDIF; _mci_device->card.host.sourceClock_Hz = CLOCK_GetFreq(kCLOCK_SDio); if (kStatus_Success != SD_Init(&_mci_device->card)) { SD_Deinit(&_mci_device->card); memset(&_mci_device->card, 0U, sizeof(_mci_device->card)); rt_kprintf("SD_Init failed!\n"); return -RT_ERROR; } /* follow the page: https://community.nxp.com/thread/454769 The issue concerns sdmmc library bug (I finally solved) in SD_Init() in the file sdmmc/src/fsl_sd.c:SD_SelectBusTiming() calls SD_SwitchFunction() which sets block size to 64bytes (512bits).Therefore SD_SetBlockSize(card, FSL_SDMMC_DEFAULT_BLOCK_SIZE) should be called again before SD_Init() exits. */ if (kStatus_Success != SDMMC_SetBlockSize(_mci_device->card.host.base, _mci_device->card.host.transfer, FSL_SDMMC_DEFAULT_BLOCK_SIZE)) { SD_Deinit(&_mci_device->card); memset(&_mci_device->card, 0U, sizeof(_mci_device->card)); rt_kprintf("SD_Init failed!\n"); return -RT_ERROR; } /* initialize mutex lock */ rt_mutex_init(&_mci_device->lock, device_name, RT_IPC_FLAG_PRIO); /* create finish event */ _mci_device->finish_event = rt_event_create(device_name, RT_IPC_FLAG_FIFO); /* register sdcard device */ _mci_device->parent.type = RT_Device_Class_Block; _mci_device->geometry.bytes_per_sector = 0; _mci_device->geometry.sector_count = 0; _mci_device->geometry.block_size = 0; _mci_device->parent.init = rt_mci_init; _mci_device->parent.open = rt_mci_open; _mci_device->parent.close = rt_mci_close; _mci_device->parent.read = rt_mci_read; _mci_device->parent.write = rt_mci_write; _mci_device->parent.control = rt_mci_control; /* no private, no callback */ _mci_device->parent.user_data = RT_NULL; _mci_device->parent.rx_indicate = RT_NULL; _mci_device->parent.tx_complete = RT_NULL; rt_device_register(&_mci_device->parent, device_name, RT_DEVICE_FLAG_RDWR | RT_DEVICE_FLAG_REMOVABLE ); return RT_EOK; } #endif