STM32-FatFs移植进行外部flash读写操作

以下内容参照野火例程来写的,有条件或者还有疑问的地方可以阅读野火例程

一、工具

  1、STM32F103VET6单片机

  2、编译环境:TrueSTUDIO

  3、辅助工具:STM32CubeMX

二、创建一个裸机工程,配置三个GPIO引脚为输出模式用于控制LED灯

  1、调试接口打开

STM32-FatFs移植进行外部flash读写操作

 

 

   2、时钟源选择

STM32-FatFs移植进行外部flash读写操作

 

 

   3、时钟配置STM32-FatFs移植进行外部flash读写操作

 

 

   4、配置三个控制LED灯的GPIO引脚

STM32-FatFs移植进行外部flash读写操作

 

STM32-FatFs移植进行外部flash读写操作

 

 

 

三、移植FatFs文件系统

  1、找到固件库里面的FatFs文件

STM32-FatFs移植进行外部flash读写操作

 

 

   2、在自己的工程中创建一个FatFs文件夹(这里的FatFs文件夹不是直接在工程文件夹中创建的,而是在打开的工程中通过编译器创建的),文件夹中存放如下图对应的文件,其中cc936.c文件在option文件夹中

STM32-FatFs移植进行外部flash读写操作

  结果如下图

STM32-FatFs移植进行外部flash读写操作

  3、添加路径,新增的Bsp文件夹用于存放外设驱动程序,后面会用到

STM32-FatFs移植进行外部flash读写操作

 

 

   4、在Bsp文件夹中添加外部flash的驱动文件(这部分文件可以看我的STM32_SPI读写外部FLASH那一篇文章),并修改diskio.c和ffconf.h文件

  diskio.c文件修改:

/**
  * @brief  Gets Disk Status 
  * @param  pdrv: Physical drive number (0..)
  * @retval DSTATUS: Operation status
  */
DSTATUS disk_status (
    BYTE pdrv        /* Physical drive nmuber to identify the drive */
)
{
  DSTATUS stat;
  if(spi_flash_read_ID() == FLASH_ID)
  {
      stat = RES_OK;
  }
  else
  {
      stat = RES_ERROR;
  }
  return stat;
}

 

/**
  * @brief  Initializes a Drive
  * @param  pdrv: Physical drive number (0..)
  * @retval DSTATUS: Operation status
  */
DSTATUS disk_initialize (
    BYTE pdrv                /* Physical drive nmuber to identify the drive */
)
{
  DSTATUS stat = RES_OK;

  bsp_spi1_init();

  return stat;
}
/**
  * @brief  Reads Sector(s) 
  * @param  pdrv: Physical drive number (0..)
  * @param  *buff: Data buffer to store read data
  * @param  sector: Sector address (LBA)
  * @param  count: Number of sectors to read (1..128)
  * @retval DRESULT: Operation result
  */
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 res;
  sector += 512;
  spi1_flash_read(sector << 12, buff, count << 12);
  res = RES_OK;
  return res;
}
/**
  * @brief  Writes Sector(s)  
  * @param  pdrv: Physical drive number (0..)
  * @param  *buff: Data to be written
  * @param  sector: Sector address (LBA)
  * @param  count: Number of sectors to write (1..128)
  * @retval DRESULT: Operation result
  */
#if _USE_WRITE == 1
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 res;
  uint32_t write_addr;
  sector += 512;
  write_addr = sector << 12;
  spi1_flash_sector_erase(write_addr);
  spi1_flash_write(write_addr, (BYTE *)buff, count << 12);
  res = RES_OK;
  return res;
}
#endif /* _USE_WRITE == 1 */
/**
  * @brief  I/O control operation  
  * @param  pdrv: Physical drive number (0..)
  * @param  cmd: Control code
  * @param  *buff: Buffer to send/receive control data
  * @retval DRESULT: Operation result
  */
#if _USE_IOCTL == 1
DRESULT disk_ioctl (
    BYTE pdrv,        /* Physical drive nmuber (0..) */
    BYTE cmd,        /* Control code */
    void *buff        /* Buffer to send/receive control data */
)
{
  DRESULT res;
  switch(cmd)
  {
      case GET_SECTOR_COUNT:
          *(DWORD *)buff = 1536;
          break;
      case GET_SECTOR_SIZE:
          *(WORD *)buff = 4096;
          break;
      case GET_BLOCK_SIZE:
          *(DWORD *)buff = 1;
          break;
  }
  res = RES_OK;
  return res;
}
#endif /* _USE_IOCTL == 1 */
/**
  * @brief  Gets Time from RTC 
  * @param  None
  * @retval Time in DWORD
  */
__weak DWORD get_fattime (void)
{
  return ((DWORD)(2015 - 1980) << 25)|
         ((DWORD)(1 << 21))|
         ((DWORD)(1 << 16))|
         ((DWORD)(0 << 11))|
         ((DWORD)(0 << 5))|
         ((DWORD)(0 >> 1 ));
}

 

  ffconf.h文件修改:

/*---------------------------------------------------------------------------/
/  FatFs - FAT file system module configuration file  R0.11 (C)ChaN, 2015
/---------------------------------------------------------------------------*/

#ifndef _FFCONF
#define _FFCONF 32020    /* Revision ID */

/*-----------------------------------------------------------------------------/
/ Additional user header to be used  
/-----------------------------------------------------------------------------*/


/*---------------------------------------------------------------------------/
/ Functions and Buffer Configurations
/---------------------------------------------------------------------------*/

#define    _FS_TINY                0    /* 0:Normal or 1:Tiny */
/* This option switches tiny buffer configuration. (0:Normal or 1:Tiny)
/  At the tiny configuration, size of the file object (FIL) is reduced _MAX_SS
/  bytes. Instead of private sector buffer eliminated from the file object,
/  common sector buffer in the file system object (FATFS) is used for the file
/  data transfer. */


#define _FS_READONLY            0    /* 0:Read/Write or 1:Read only */
/* This option switches read-only configuration. (0:Read/Write or 1:Read-only)
/  Read-only configuration removes writing API functions, f_write(), f_sync(),
/  f_unlink(), f_mkdir(), f_chmod(), f_rename(), f_truncate(), f_getfree()
/  and optional writing functions as well. */


#define _FS_MINIMIZE            0    /* 0 to 3 */
/* This option defines minimization level to remove some basic API functions.
/
/   0: All basic functions are enabled.
/   1: f_stat(), f_getfree(), f_unlink(), f_mkdir(), f_chmod(), f_utime(),
/      f_truncate() and f_rename() function are removed.
/   2: f_opendir(), f_readdir() and f_closedir() are removed in addition to 1.
/   3: f_lseek() function is removed in addition to 2. */


#define    _USE_STRFUNC            1    /* 0:Disable or 1-2:Enable */
/* This option switches string functions, f_gets(), f_putc(), f_puts() and
/  f_printf().
/
/  0: Disable string functions.
/  1: Enable without LF-CRLF conversion.
/  2: Enable with LF-CRLF conversion. */


#define _USE_FIND               0
/* This option switches filtered directory read feature and related functions,
/  f_findfirst() and f_findnext(). (0:Disable or 1:Enable) */


#define    _USE_MKFS               1
/* This option switches f_mkfs() function. (0:Disable or 1:Enable) */


#define    _USE_FASTSEEK           0
/* This option switches fast seek feature. (0:Disable or 1:Enable) */


#define _USE_LABEL              0
/* This option switches volume label functions, f_getlabel() and f_setlabel().
/  (0:Disable or 1:Enable) */


#define    _USE_FORWARD            0
/* This option switches f_forward() function. (0:Disable or 1:Enable)
/  To enable it, also _FS_TINY need to be set to 1. */

#define _USE_BUFF_WO_ALIGNMENT  0
/* This option is available only for usbh diskio interface and allow to disable
/  the management of the unaligned buffer.
/  When STM32 USB OTG HS or FS IP is used with internal DMA enabled, this define
/  must be set to 0 to align data into 32bits through an internal scratch buffer
/  before being processed by the DMA . Otherwise (DMA not used), this define must
/  be set to 1 to avoid Data alignment and improve the performance.
/  Please note that if _USE_BUFF_WO_ALIGNMENT is set to 1 and an unaligned 32bits
/  buffer is forwarded to the FatFs Write/Read functions, an error will be returned. 
/  (0: default value or 1: unaligned buffer return an error). */


/*---------------------------------------------------------------------------/
/ Locale and Namespace Configurations
/---------------------------------------------------------------------------*/

#define _CODE_PAGE              936
/* This option specifies the OEM code page to be used on the target system.
/  Incorrect setting of the code page can cause a file open failure.
/
/   932  - Japanese Shift_JIS (DBCS, OEM, Windows)
/   936  - Simplified Chinese GBK (DBCS, OEM, Windows)
/   949  - Korean (DBCS, OEM, Windows)
/   950  - Traditional Chinese Big5 (DBCS, OEM, Windows)
/   1250 - Central Europe (Windows)
/   1251 - Cyrillic (Windows)
/   1252 - Latin 1 (Windows)
/   1253 - Greek (Windows)
/   1254 - Turkish (Windows)
/   1255 - Hebrew (Windows)
/   1256 - Arabic (Windows)
/   1257 - Baltic (Windows)
/   1258 - Vietnam (OEM, Windows)
/   437  - U.S. (OEM)
/   720  - Arabic (OEM)
/   737  - Greek (OEM)
/   775  - Baltic (OEM)
/   850  - Multilingual Latin 1 (OEM)
/   858  - Multilingual Latin 1 + Euro (OEM)
/   852  - Latin 2 (OEM)
/   855  - Cyrillic (OEM)
/   866  - Russian (OEM)
/   857  - Turkish (OEM)
/   862  - Hebrew (OEM)
/   874  - Thai (OEM, Windows)
/   1    - ASCII (No extended character. Valid for only non-LFN configuration.) */


#define    _USE_LFN                2
#define    _MAX_LFN                255  /* Maximum LFN length to handle (12 to 255) */
/* The _USE_LFN option switches the LFN feature.
/
/   0: Disable LFN feature. _MAX_LFN has no effect.
/   1: Enable LFN with static working buffer on the BSS. Always NOT thread-safe.
/   2: Enable LFN with dynamic working buffer on the STACK.
/   3: Enable LFN with dynamic working buffer on the HEAP.
/
/  When enable the LFN feature, Unicode handling functions (option/unicode.c) must
/  be added to the project. The LFN working buffer occupies (_MAX_LFN + 1) * 2 bytes.
/  When use stack for the working buffer, take care on stack overflow. When use heap
/  memory for the working buffer, memory management functions, ff_memalloc() and
/  ff_memfree(), must be added to the project. */


#define    _LFN_UNICODE            0    /* 0:ANSI/OEM or 1:Unicode */
/* This option switches character encoding on the API. (0:ANSI/OEM or 1:Unicode)
/  To use Unicode string for the path name, enable LFN feature and set _LFN_UNICODE
/  to 1. This option also affects behavior of string I/O functions. */


#define _STRF_ENCODE            3
/* When _LFN_UNICODE is 1, this option selects the character encoding on the file to
/  be read/written via string I/O functions, f_gets(), f_putc(), f_puts and f_printf().
/
/  0: ANSI/OEM
/  1: UTF-16LE
/  2: UTF-16BE
/  3: UTF-8
/
/  When _LFN_UNICODE is 0, this option has no effect. */


#define _FS_RPATH               0
/* This option configures relative path feature.
/
/   0: Disable relative path feature and remove related functions.
/   1: Enable relative path feature. f_chdir() and f_chdrive() are available.
/   2: f_getcwd() function is available in addition to 1.
/
/  Note that directory items read via f_readdir() are affected by this option. */


/*---------------------------------------------------------------------------/
/ Drive/Volume Configurations
/---------------------------------------------------------------------------*/

#define _VOLUMES                2
/* Number of volumes (logical drives) to be used. */


#define _STR_VOLUME_ID          0
#define _VOLUME_STRS            "RAM","NAND","CF","SD1","SD2","USB1","USB2","USB3"
/* _STR_VOLUME_ID option switches string volume ID feature.
/  When _STR_VOLUME_ID is set to 1, also pre-defined strings can be used as drive
/  number in the path name. _VOLUME_STRS defines the drive ID strings for each
/  logical drives. Number of items must be equal to _VOLUMES. Valid characters for
/  the drive ID strings are: A-Z and 0-9. */


#define    _MULTI_PARTITION        0
/* This option switches multi-partition feature. By default (0), each logical drive
/  number is bound to the same physical drive number and only an FAT volume found on
/  the physical drive will be mounted. When multi-partition feature is enabled (1),
/  each logical drive number is bound to arbitrary physical drive and partition
/  listed in the VolToPart[]. Also f_fdisk() funciton will be available. */


#define    _MIN_SS                 512
#define    _MAX_SS                 4096
/* These options configure the range of sector size to be supported. (512, 1024,
/  2048 or 4096) Always set both 512 for most systems, all type of memory cards and
/  harddisk. But a larger value may be required for on-board flash memory and some
/  type of optical media. When _MAX_SS is larger than _MIN_SS, FatFs is configured
/  to variable sector size and GET_SECTOR_SIZE command must be implemented to the
/  disk_ioctl() function. */


#define    _USE_TRIM                0
/* This option switches ATA-TRIM feature. (0:Disable or 1:Enable)
/  To enable Trim feature, also CTRL_TRIM command should be implemented to the
/  disk_ioctl() function. */


#define _FS_NOFSINFO            0
/* If you need to know correct free space on the FAT32 volume, set bit 0 of this
/  option, and f_getfree() function at first time after volume mount will force
/  a full FAT scan. Bit 1 controls the use of last allocated cluster number.
/
/  bit0=0: Use free cluster count in the FSINFO if available.
/  bit0=1: Do not trust free cluster count in the FSINFO.
/  bit1=0: Use last allocated cluster number in the FSINFO if available.
/  bit1=1: Do not trust last allocated cluster number in the FSINFO.
*/

/*---------------------------------------------------------------------------/
/ System Configurations
/---------------------------------------------------------------------------*/

#define _FS_NORTC    0
#define _NORTC_MON    1
#define _NORTC_MDAY    1
#define _NORTC_YEAR    2015
/* The _FS_NORTC option switches timestamp feature. If the system does not have
/  an RTC function or valid timestamp is not needed, set _FS_NORTC to 1 to disable
/  the timestamp feature. All objects modified by FatFs will have a fixed timestamp
/  defined by _NORTC_MON, _NORTC_MDAY and _NORTC_YEAR.
/  When timestamp feature is enabled (_FS_NORTC    == 0), get_fattime() function need
/  to be added to the project to read current time form RTC. _NORTC_MON,
/  _NORTC_MDAY and _NORTC_YEAR have no effect. 
/  These options have no effect at read-only configuration (_FS_READONLY == 1). */


#define    _FS_LOCK                0
/* The _FS_LOCK option switches file lock feature to control duplicated file open
/  and illegal operation to open objects. This option must be 0 when _FS_READONLY
/  is 1.
/
/  0:  Disable file lock feature. To avoid volume corruption, application program
/      should avoid illegal open, remove and rename to the open objects.
/  >0: Enable file lock feature. The value defines how many files/sub-directories
/      can be opened simultaneously under file lock control. Note that the file
/      lock feature is independent of re-entrancy. */


#define _FS_REENTRANT           0
#define _FS_TIMEOUT             1000
#define    _SYNC_t                 HANDLE
/* The _FS_REENTRANT option switches the re-entrancy (thread safe) of the FatFs
/  module itself. Note that regardless of this option, file access to different
/  volume is always re-entrant and volume control functions, f_mount(), f_mkfs()
/  and f_fdisk() function, are always not re-entrant. Only file/directory access
/  to the same volume is under control of this feature.
/
/   0: Disable re-entrancy. _FS_TIMEOUT and _SYNC_t have no effect.
/   1: Enable re-entrancy. Also user provided synchronization handlers,
/      ff_req_grant(), ff_rel_grant(), ff_del_syncobj() and ff_cre_syncobj()
/      function, must be added to the project. Samples are available in
/      option/syscall.c.
/
/  The _FS_TIMEOUT defines timeout period in unit of time tick.
/  The _SYNC_t defines O/S dependent sync object type. e.g. HANDLE, ID, OS_EVENT*,
/  SemaphoreHandle_t and etc.. */


#define _WORD_ACCESS            0
/* The _WORD_ACCESS option is an only platform dependent option. It defines
/  which access method is used to the word data on the FAT volume.
/
/   0: Byte-by-byte access. Always compatible with all platforms.
/   1: Word access. Do not choose this unless under both the following conditions.
/
/  * Address misaligned memory access is always allowed to ALL instructions.
/  * Byte order on the memory is little-endian.
/
/  If it is the case, _WORD_ACCESS can also be set to 1 to reduce code size.
/  Following table shows allowable settings of some processor types.
/
/   ARM7TDMI    0           ColdFire    0           V850E       0
/   Cortex-M3   0           Z80         0/1         V850ES      0/1
/   Cortex-M0   0           x86         0/1         TLCS-870    0/1
/   AVR         0/1         RX600(LE)   0/1         TLCS-900    0/1
/   AVR32       0           RL78        0           R32C        0
/   PIC18       0/1         SH-2        0           M16C        0/1
/   PIC24       0           H8S         0           MSP430      0
/   PIC32       0           H8/300H     0           8051        0/1
*/


#endif /* _FFCONF */

 

  尤其要注意的地方,这里的设置要和你操作的存储器匹配,我的FLASH每一个扇区是4kbyte

STM32-FatFs移植进行外部flash读写操作

 

 

   下面的配置是支持简体中文,使用长文件名并使用栈作为缓冲区

STM32-FatFs移植进行外部flash读写操作

 四、测试程序

FATFS fs;                                                    /* FatFs文件系统对象 */
FIL fnew;                                                    /* 文件对象 */
FRESULT res_flash;                                            /* 文件操作结果 */
UINT fnum;                                                      /* 文件成功读写数量 */
BYTE ReadBuffer[1024]={0};                                    /* 读缓冲区 */
BYTE WriteBuffer[] = "这是一个测试程序\r\n";

 

 

    /* 挂载外部flash */
    res_flash = f_mount(&fs,"1:",1);
    /* 如果没有文件系统就格式化创建创建文件系统 */
    if(res_flash == FR_NO_FILESYSTEM)
    {
        /* 格式化 */
        res_flash=f_mkfs("1:",0,0);

        if(res_flash == FR_OK)
        {
            /* 格式化后,先取消挂载 */
            res_flash = f_mount(NULL,"1:",1);
            /* 重新挂载    */
            res_flash = f_mount(&fs,"1:",1);
        }
        else
        {
            /* 红灯常亮 */
            HAL_GPIO_WritePin(GPIOB, GPIO_PIN_5, 0);
            while(1);
        }
        /* 绿灯常亮 */
        HAL_GPIO_WritePin(GPIOB, GPIO_PIN_0, 0);
    }
    else if(res_flash != FR_OK)
    {
        /* 红灯常亮 */
        HAL_GPIO_WritePin(GPIOB, GPIO_PIN_5, 0);
        while(1);
    }
    /* 打开文件,如果没有文件就创建 */
    res_flash = f_open(&fnew, "1:FatFs测试文件.txt",FA_CREATE_ALWAYS | FA_WRITE );
    if ( res_flash == FR_OK )
    {
        /* 绿灯灭 */
        HAL_GPIO_WritePin(GPIOB, GPIO_PIN_0, 1);
        /* 将指定存储区内容写入到文件内 */
        res_flash = f_write(&fnew,WriteBuffer,sizeof(WriteBuffer),&fnum);
        if(res_flash == FR_OK)
        {
            /* 蓝灯亮 */
            HAL_GPIO_WritePin(GPIOB, GPIO_PIN_1, 0);
        }
        else
        {
            /* 不再读写,关闭文件 */
            f_close(&fnew);
            /* 红灯常亮 */
            HAL_GPIO_WritePin(GPIOB, GPIO_PIN_5, 0);
            while(1);
        }
        /* 不再读写,关闭文件 */
        f_close(&fnew);
    }
    else
    {
        /* 红灯常亮 */
        HAL_GPIO_WritePin(GPIOB, GPIO_PIN_5, 0);
        while(1);
    }
    /* 打开文件 */
    res_flash = f_open(&fnew, "1:FatFs测试文件.txt",FA_OPEN_EXISTING | FA_READ);
    if(res_flash == FR_OK)
    {
        /* 蓝灯灭 */
        HAL_GPIO_WritePin(GPIOB, GPIO_PIN_1, 1);

        res_flash = f_read(&fnew, ReadBuffer, sizeof(ReadBuffer), &fnum);
        if(res_flash==FR_OK)
        {
            /* 绿灯亮 */
            HAL_GPIO_WritePin(GPIOB, GPIO_PIN_0, 0);
        }
        else
        {
            /* 不再读写,关闭文件 */
            f_close(&fnew);
            /* 红灯常亮 */
            HAL_GPIO_WritePin(GPIOB, GPIO_PIN_5, 0);
            while(1);
        }
    }
    else
    {
        /* 红灯常亮 */
        HAL_GPIO_WritePin(GPIOB, GPIO_PIN_5, 0);
        while(1);
    }
    /* 不再读写,关闭文件 */
    f_close(&fnew);

    /* 不再使用文件系统,取消挂载文件系统 */
    f_mount(NULL,"1:",1);

 

五、测试结果

  为了更直观确定文件系统成功完成操作,我同时把外部flash通过USB接口模拟成U盘,在电脑上可以直接查看到写进去的文件及其内容

STM32-FatFs移植进行外部flash读写操作

 

 

 

#endif

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