/*-----------------------------------------------------------------------*/ /* Low level disk I/O module skeleton for FatFs (C)ChaN, 2014 */ /*-----------------------------------------------------------------------*/ /* If a working storage control module is available, it should be */ /* attached to the FatFs via a glue function rather than modifying it. */ /* This is an example of glue functions to attach various exsisting */ /* storage control modules to the FatFs module with a defined API. */ /*-----------------------------------------------------------------------*/ #include "diskio.h" /* FatFs lower layer API */ // #include "atadrive.h" /* Example: ATA drive control */ #include "nand_flash.h" #include "sdcard.h" /* Example: MMC/SDC contorl */ // #include "usbdisk.h" /* Example: USB drive control */ #include "string.h" #ifdef FS_USB #include "usbh_bsp_msc.h" /* 底层驱动 */ #endif /* Definitions of physical drive number for each drive */ /* 为每个设备定义一个物理编号 */ #define FS_SD 0 // SD卡 #define FS_NAND 1 // 预留外部SPI Flash使用 // #define ATA 0 /* Example: Map ATA drive to drive number 0 */ // #define MMC 1 /* Example: Map MMC/SD card to drive number 1 */ // #define FS_USB 2 /* Example: Map USB drive to drive number 2 */ #define SD_BLOCKSIZE 512 extern SD_CardInfo SDCardInfo; /*-----------------------------------------------------------------------*/ /* 获取设备状态 */ /*-----------------------------------------------------------------------*/ DSTATUS disk_status( BYTE pdrv /* Physical drive nmuber to identify the drive */ ) { DSTATUS status = STA_NOINIT; switch (pdrv) { case FS_SD: status &= ~STA_NOINIT; break; case FS_NAND: status = 0; break; #ifdef FS_USB case FS_USB: status = 0; break; #endif } return status; } /*-----------------------------------------------------------------------*/ /* Inidialize a Drive */ /*-----------------------------------------------------------------------*/ DSTATUS disk_initialize( BYTE pdrv /* Physical drive nmuber to identify the drive */ ) { DSTATUS status = STA_NOINIT; switch (pdrv) { case FS_SD: if (SD_Init() == SD_OK) { status &= ~STA_NOINIT; } else { status = STA_NOINIT; } break; case FS_NAND: if (nand_flash_init() == NAND_OK) { status = RES_OK; } else { /* 如果初始化失败,请执行低级格式化 */ printf("NAND_Init() Error! \r\n"); status = RES_ERROR; } break; #ifdef FS_USB case FS_USB: if (HCD_IsDeviceConnected(&USB_OTG_Core)) { status &= ~STA_NOINIT; } break; #endif } return status; } /*-----------------------------------------------------------------------*/ /* Read Sector(s) */ /*-----------------------------------------------------------------------*/ DRESULT disk_read( BYTE pdrv, /* Physical drive nmuber to identify the drive */ BYTE *buff, /* Data buffer to store read data */ DWORD sector, /* Sector address in LBA */ UINT count /* Number of sectors to read */ ) { DRESULT status = RES_PARERR; SD_Error SD_state = SD_OK; switch (pdrv) { case FS_SD: if ((DWORD)buff & 3) { DRESULT res = RES_OK; DWORD scratch[SD_BLOCKSIZE / 4]; while (count--) { res = disk_read(FS_SD, (void *)scratch, sector++, 1); if (res != RES_OK) { break; } memcpy(buff, scratch, SD_BLOCKSIZE); buff += SD_BLOCKSIZE; } return res; } SD_state = SD_ReadMultiBlocks(buff, sector * SD_BLOCKSIZE, SD_BLOCKSIZE, count); if (SD_state == SD_OK) { /* Check if the Transfer is finished */ SD_state = SD_WaitReadOperation(); while (SD_GetStatus() != SD_TRANSFER_OK) ; } if (SD_state != SD_OK) status = RES_PARERR; else status = RES_OK; break; case FS_NAND: if (NAND_OK == NAND_ReadMultiSectors(buff, sector, 512, count)) { status = RES_OK; } else { printf("NAND_ReadMultiSectors() Error! sector = %d, count = %d \r\n", sector, count); status = RES_ERROR; } break; #ifdef FS_USB case FS_USB: { BYTE res = USBH_MSC_OK; if (HCD_IsDeviceConnected(&USB_OTG_Core)) { do { res = USBH_MSC_Read10(&USB_OTG_Core, buff, sector, 512 * count); USBH_MSC_HandleBOTXfer(&USB_OTG_Core, &USB_Host); if (!HCD_IsDeviceConnected(&USB_OTG_Core)) { break; } } while (res == USBH_MSC_BUSY); } if (res == USBH_MSC_OK) { status = RES_OK; } else { status = RES_ERROR; } } #endif break; } return status; } /*-----------------------------------------------------------------------*/ /* Write Sector(s) */ /*-----------------------------------------------------------------------*/ #if _USE_WRITE DRESULT disk_write( BYTE pdrv, /* Physical drive nmuber to identify the drive */ const BYTE *buff, /* Data to be written */ DWORD sector, /* Sector address in LBA */ UINT count /* Number of sectors to write */ ) { DRESULT status = RES_PARERR; SD_Error SD_state = SD_OK; if (!count) { return RES_PARERR; /* Check parameter */ } switch (pdrv) { case FS_SD: /* SD CARD */ if ((DWORD)buff & 3) { DRESULT res = RES_OK; DWORD scratch[SD_BLOCKSIZE / 4]; while (count--) { memcpy(scratch, buff, SD_BLOCKSIZE); res = disk_write(FS_SD, (void *)scratch, sector++, 1); if (res != RES_OK) { break; } buff += SD_BLOCKSIZE; } return res; } SD_state = SD_WriteMultiBlocks((uint8_t *)buff, sector * SD_BLOCKSIZE, SD_BLOCKSIZE, count); if (SD_state == SD_OK) { /* Check if the Transfer is finished */ SD_state = SD_WaitWriteOperation(); /* Wait until end of DMA transfer */ while (SD_GetStatus() != SD_TRANSFER_OK) ; } if (SD_state != SD_OK) status = RES_PARERR; else status = RES_OK; break; case FS_NAND: if (NAND_OK == NAND_WriteMultiSectors((uint8_t *)buff, sector, 512, count)) { status = RES_OK; } else { printf("NAND_ReadMultiSectors() Error! sector = %d, count = %d \r\n", sector, count); status = RES_ERROR; } break; #ifdef FS_USB case FS_USB: { BYTE res = USBH_MSC_OK; if (HCD_IsDeviceConnected(&USB_OTG_Core)) { do { res = USBH_MSC_Write10(&USB_OTG_Core, (BYTE *)buff, sector, 512 * count); USBH_MSC_HandleBOTXfer(&USB_OTG_Core, &USB_Host); if (!HCD_IsDeviceConnected(&USB_OTG_Core)) { break; } } while (res == USBH_MSC_BUSY); } if (res == USBH_MSC_OK) { status = RES_OK; } else { status = RES_ERROR; } } #endif break; } return status; } #endif /*-----------------------------------------------------------------------*/ /* Miscellaneous Functions */ /*-----------------------------------------------------------------------*/ #if _USE_IOCTL DRESULT disk_ioctl( BYTE pdrv, /* Physical drive nmuber (0..) */ BYTE cmd, /* Control code */ void *buff /* Buffer to send/receive control data */ ) { DRESULT status = RES_PARERR; switch (pdrv) { case FS_SD: /* SD CARD */ switch (cmd) { // Get R/W sector size (WORD) case GET_SECTOR_SIZE: *(WORD *)buff = SD_BLOCKSIZE; break; // Get erase block size in unit of sector (DWORD) case GET_BLOCK_SIZE: *(DWORD *)buff = 1; // SDCardInfo.CardBlockSize; break; case GET_SECTOR_COUNT: *(DWORD *)buff = SDCardInfo.CardCapacity / SDCardInfo.CardBlockSize; break; case CTRL_SYNC: break; } status = RES_OK; break; case FS_NAND: status = RES_OK; break; #ifdef FS_USB case FS_USB: // if (Stat & STA_NOINIT) return RES_NOTRDY; switch (cmd) { case CTRL_SYNC: /* Make sure that no pending write process */ status = RES_OK; break; case GET_SECTOR_COUNT: /* Get number of sectors on the disk (DWORD) */ *(DWORD *)buff = (DWORD)USBH_MSC_Param.MSCapacity; status = RES_OK; break; case GET_SECTOR_SIZE: /* Get R/W sector size (WORD) */ *(WORD *)buff = 512; status = RES_OK; break; case GET_BLOCK_SIZE: /* Get erase block size in unit of sector (DWORD) */ *(DWORD *)buff = 512; status = RES_OK; break; default: status = RES_PARERR; break; } #endif break; } return status; } /* ********************************************************************************************************* * 函 数 名: get_fattime * 功能说明: 获得系统时间,用于改写文件的创建和修改时间。 * 形 参:无 * 返 回 值: 无 ********************************************************************************************************* */ // __weak DWORD get_fattime(void) // { // /* 如果有全局时钟,可按下面的格式进行时钟转换. 这个例子是2013-01-01 00:00:00 */ // return ((DWORD)(2013 - 1980) << 25) /* Year = 2013 */ // | ((DWORD)1 << 21) /* Month = 1 */ // | ((DWORD)1 << 16) /* Day_m = 1*/ // | ((DWORD)0 << 11) /* Hour = 0 */ // | ((DWORD)0 << 5) /* Min = 0 */ // | ((DWORD)0 >> 1); /* Sec = 0 */ // } #endif