sdk例程:axi_spi_flash_fats移植 - minichao9901/TangNano-20k-Zynq-7020 GitHub Wiki
D1 关键点
使用原子的W25Qxx读写框架
- 使用原子的W25Qxx读写框架,只需要实现底层的3个函数即可:W25QXX_Read, W25QXX_Write_Page, W25QXX_Erase_Sector
- 原子的W25Qxx读写框架,对上层FATFS提供的函数有2个:W25QXX_Read, W25QXX_Write。这2个函数可以提供任意长度的读写,里面已经包含了Sector_Erase的过程。
- 对于axi_quadspi这个ip的standard模式,一定要加上XSP_MANUAL_SSELECT_OPTION模式,这样才能一次发送任意长度的数据。如果不加上,一次发送的数据不超过FIFO Size长度。
AXI_SPI_Init(&AXI_SPI0, XPAR_SPI_0_DEVICE_ID, XSP_MASTER_OPTION|XSP_MANUAL_SSELECT_OPTION);
FATFS移植
- FATFS的sector size注意不能小于512,不能超过4096。这个与W25QXX的Page不是一个概念。
- 对于W25Q128,由于其PageSize=256,刚开始的时候,我把FATFS的sector size也定义成256,折腾了2天,怎么也调不通。明明flash的读写函数已经调通了,但是FATFS就是不work。后来才发现这个问题。
- FATFS移植的注意点如下。sector_size按照512或者4096移植,都可以work。对于spi_flash推荐使用4096,这样可以提高效率。
- FF_USE_MKFS要开启,否则不能使用f_mkfs函数
备注:一般来说FF_MAX_SS == FF_MIN_SS即可,比如如果用sec=512,那么FF_MAX_SS = FF_MIN_SS=512; 如果用sec=4096,那么FF_MAX_SS = FF_MIN_SS=4096
D2 Sector_size=512移植的打印结果
hello
init
FlashID=0xEF 0x40 0x16
io_ctrl
read: 0
read: 63
Volume is not FAT formated; formating FAT
init
FlashID=0xEF 0x40 0x16
io_ctrl
io_ctrl
io_ctrl
write: 63
write: 64
write: 72
write: 76
write: 84
write: 92
write: 100
write: 0
io_ctrl
init
FlashID=0xEF 0x40 0x16
io_ctrl
read: 0
read: 63
Success to open SD card!
read: 76
0
write: 76
read: 64
0
15
write: 108
write: 64
read: 76
write: 76
io_ctrl
read: 108
15
www.openedv.com---www.openedv.com
src_str is equal to dest_str,SD card test success!
read: 64
read: 65
read: 66
read: 67
read: 68
read: 69
read: 70
read: 71
read: 72
read: 73
read: 74
read: 75
4042 KiB total drive space.
4041 KiB available.
D3 Sector_size=4096移植的打印结果
hello
init
FlashID=0xEF 0x40 0x16
io_ctrl
read: 0
read: 63
Success to open SD card!
read: 65
write: 65
read: 64
write: 64
read: 65
0
read: 64
0
15
write: 69
write: 64
read: 65
write: 65
io_ctrl
read: 69
15
www.openedv.com---www.openedv.com
src_str is equal to dest_str,SD card test success!
read: 64
477 KiB total drive space.
477 KiB available.
512和4096的fs的结构体对比
2个的容量计算结果不一样:sec=512容量计算正确,sec=4096容量计算错误。原因在这个测试程序中已经注释的很清楚了,是以sec=512计算的:
/* Print the free space (assuming 512 bytes/sector) */
printf("%10lu KiB total drive space.\n%10lu KiB available.\n", tot_sect / 2, fre_sect / 2);
sec=4096速度会快很多,推荐使用sec=4096。 推荐的设置为:
#define SECTOR_SIZE 4096
#define BLOCK_SIZE 4096
#define SECTOR_COUNTS 1024 //4Mbyte
如果sec=512。 推荐的设置为:
#define SECTOR_SIZE 512
#define BLOCK_SIZE 4096
#define SECTOR_COUNTS (1024*8) //4Mbyte
注意4096时,qspi_read函数中的memmove会出现数组越界(AXI_SPI_Transfer(&AXI_SPI0, 0, pBuffer, txBuffer, NumByteToRead+data_offset)中,pBuffer会出现越界,因为写的数量超过它的长度)的情况,为此我们修改了W25QXX_Read函数,使用rxBuffer来接收数据,而rxBuffer的长度设置为不会出现越界的情况。
D3 附录
FATFS版本
下载v13可以了
程序只需要include一个ff.h就够了,非常简单
移植接口:diskio.c
#include "diskio.h"
#include "ff.h"
#include "xil_types.h"
#include "sleep.h"
#include "xil_printf.h"
#include "..\ACZ702_Lib\COMMON.h"
#define SECTOR_SIZE 4096
#define BLOCK_SIZE 65536
#define NUM_SECTORS 1024
// #define SECTOR_SIZE 512
// #define BLOCK_SIZE 4096
// #define NUM_SECTORS 8192
/*-----------------------------------------------------------------------*/
/* Get Disk Status */
/*-----------------------------------------------------------------------*/
/*****************************************************************************/
/**
*
* Gets the status of the disk.
* In case of SD, it checks whether card is present or not.
*
* @param pdrv - Drive number
*
* @return
* 0 Status ok
* STA_NOINIT Drive not initialized
* STA_NODISK No medium in the drive
* STA_PROTECT Write protected
*
* @note In case Card detect signal is not connected,
* this function will not be able to check if card is present.
*
******************************************************************************/
DSTATUS disk_status (
BYTE pdrv /* Drive number (0) */
)
{
return RES_OK;
}
/*-----------------------------------------------------------------------*/
/* Initialize Disk Drive */
/*-----------------------------------------------------------------------*/
/*****************************************************************************/
/**
*
* Initializes the drive.
* In case of SD, it initializes the host controller and the card.
* This function also selects additional settings such as bus width,
* speed and block size.
*
* @param pdrv - Drive number
*
* @return s - which contains an OR of the following information
* STA_NODISK Disk is not present
* STA_NOINIT Drive not initialized
* STA_PROTECT Drive is write protected
* 0 or only STA_PROTECT both indicate successful initialization.
*
* @note
*
******************************************************************************/
DSTATUS disk_initialize (
BYTE pdrv /* Physical drive number (0) */
)
{
xil_printf("init\n");
AXI_SPI_Init(&AXI_SPI0, XPAR_SPI_0_DEVICE_ID, XSP_MASTER_OPTION|XSP_MANUAL_SSELECT_OPTION);
FlashReadID();
return RES_OK;
}
/*-----------------------------------------------------------------------*/
/* Read Sector(s) */
/*-----------------------------------------------------------------------*/
/*****************************************************************************/
/**
*
* Reads the drive
* In case of SD, it reads the SD card using ADMA2 in polled mode.
*
* @param pdrv - Drive number
* @param *buff - Pointer to the data buffer to store read data
* @param sector - Start sector number
* @param count - Sector count
*
* @return
* RES_OK Read successful
* STA_NOINIT Drive not initialized
* RES_ERROR Read not successful
*
* @note
*
******************************************************************************/
DRESULT disk_read (
BYTE pdrv, /* Physical drive number (0) */
BYTE *buff, /* Pointer to the data buffer to store read data */
DWORD sector, /* Start sector number (LBA) */
UINT count /* Sector count (1..128) */
)
{
xil_printf("read: %d\n", sector);
for(;count>0;count--)
{
W25QXX_Read(buff,sector*SECTOR_SIZE,SECTOR_SIZE);
sector++;
buff+=SECTOR_SIZE;
}
return RES_OK;
}
/*-----------------------------------------------------------------------*/
/* Miscellaneous Functions */
/*-----------------------------------------------------------------------*/
DRESULT disk_ioctl (
BYTE pdrv, /* Physical drive number (0) */
BYTE cmd, /* Control code */
void *buff /* Buffer to send/receive control data */
)
{
DRESULT res = RES_OK;
switch(cmd)
{
case CTRL_SYNC:
res = RES_OK;
break;
case GET_SECTOR_SIZE:
*(WORD*)buff = SECTOR_SIZE;
res = RES_OK;
break;
case GET_BLOCK_SIZE:
*(WORD*)buff = BLOCK_SIZE/SECTOR_SIZE;
res = RES_OK;
break;
case GET_SECTOR_COUNT:
*(DWORD*)buff = NUM_SECTORS;
res = RES_OK;
break;
default:
res = RES_PARERR;
break;
}
xil_printf("io_ctrl\n");
return res;
}
/******************************************************************************/
/**
*
* This function is User Provided Timer Function for FatFs module
*
* @return DWORD
*
* @note None
*
****************************************************************************/
DWORD get_fattime (void)
{
return ((DWORD)(2010U - 1980U) << 25U) /* Fixed to Jan. 1, 2010 */
| ((DWORD)1 << 21)
| ((DWORD)1 << 16)
| ((DWORD)0 << 11)
| ((DWORD)0 << 5)
| ((DWORD)0 >> 1);
}
/*****************************************************************************/
/**
*
* Reads the drive
* In case of SD, it reads the SD card using ADMA2 in polled mode.
*
* @param pdrv - Drive number
* @param *buff - Pointer to the data to be written
* @param sector - Sector address
* @param count - Sector count
*
* @return
* RES_OK Read successful
* STA_NOINIT Drive not initialized
* RES_ERROR Read not successful
*
* @note
*
******************************************************************************/
DRESULT disk_write (
BYTE pdrv, /* Physical drive nmuber (0..) */
const BYTE *buff, /* Data to be written */
DWORD sector, /* Sector address (LBA) */
UINT count /* Number of sectors to write (1..128) */
)
{
xil_printf("write: %d\n", sector);
for(;count>0;count--)
{
W25QXX_Write((u8*)buff,sector*SECTOR_SIZE,SECTOR_SIZE);
buff+=SECTOR_SIZE;
sector++;
}
return RES_OK;
}
ffconf.h
普通的使用,设置以上2点即可
main.c
#include "ACZ702_Lib/COMMON.h"
#include "xil_cache.h"
#include "FATFS/ff.h"
qspi_buff_t qspi_buffer;
#include "xparameters.h"
#include "xil_printf.h"
#include "xdevcfg.h"
#define FILE_NAME "ZDYZ.txt" //定义文件名
const char src_str[30] = "www.openedv.com"; //定义文本内容
char dest_str[30] = "";
static FATFS fs; //文件系统
BYTE work[FF_MAX_SS];
//初始化文件系统
int platform_init_fs()
{
FRESULT status;
TCHAR *Path = "0:";
//注册一个工作区(挂载分区文件系统)
//在使用任何其它文件函数之前,必须使用f_mount函数为每个使用卷注册一个工作区
status = f_mount(&fs, Path, 1); //挂载SD卡
if (status != FR_OK) {
xil_printf("Volume is not FAT formated; formating FAT\r\n");
//格式化SD卡
status = f_mkfs(Path, FM_ANY, 0, work, sizeof work);
if (status != FR_OK) {
xil_printf("Unable to format fs\r\n");
return -1;
}
//格式化之后,重新挂载SD卡
status = f_mount(&fs, Path, 1);
if (status != FR_OK) {
xil_printf("Unable to mount fs\r\n");
return -1;
}
}
return 0;
}
//挂载SD(TF)卡
int sd_mount()
{
FRESULT status;
//初始化文件系统(挂载SD卡,如果挂载不成功,则格式化SD卡)
status = platform_init_fs();
if(status){
xil_printf("ERROR: f_mount returned %d!\n",status);
return XST_FAILURE;
}
return XST_SUCCESS;
}
//SD卡写数据
int sd_write_data(char *file_name,u32 src_addr,u32 byte_len)
{
FIL fil; //文件对象
UINT bw; //f_write函数返回已写入的字节数
FRESULT status;
//打开一个文件,如果不存在,则创建一个文件
status=f_open(&fil,file_name,FA_CREATE_ALWAYS | FA_WRITE);
xil_printf("%d\n", status);
//移动打开的文件对象的文件读/写指针 0:指向文件开头
f_lseek(&fil, 0);
//向文件中写入数据
status==f_write(&fil,(void*) src_addr,byte_len,&bw);
xil_printf("%d\n", status);
xil_printf("%d\r\n", bw);
//关闭文件
f_close(&fil);
return 0;
}
//SD卡读数据
int sd_read_data(char *file_name,u32 src_addr,u32 byte_len)
{
FIL fil; //文件对象
UINT br; //f_read函数返回已读出的字节数
//打开一个只读的文件
f_open(&fil,file_name,FA_READ);
//移动打开的文件对象的文件读/写指针 0:指向文件开头
f_lseek(&fil,0);
//从SD卡中读出数据
f_read(&fil,(void*)src_addr,byte_len,&br);
xil_printf("%d\r\n", br);
//关闭文件
f_close(&fil);
return 0;
}
//main函数
int main_fats()
{
int status,len;
status = sd_mount(); //挂载SD卡
if(status != XST_SUCCESS){
xil_printf("Failed to open SD card!\n");
return 0;
}
else
xil_printf("Success to open SD card!\n");
len = strlen(src_str); //计算字符串长度
//SD卡写数据
sd_write_data(FILE_NAME,(u32)src_str,len);
//SD卡读数据
sd_read_data(FILE_NAME,(u32)dest_str,len);
xil_printf("%s---%s\n", src_str, dest_str);
//比较写入的字符串和读出的字符串是否相等
if (strcmp(src_str, dest_str) == 0)
xil_printf("src_str is equal to dest_str,SD card test success!\n");
else
xil_printf("src_str is not equal to dest_str,SD card test failed!\n");
DWORD fre_clust, fre_sect, tot_sect;
/* Get volume information and free clusters of drive 1 */
FATFS *pfs=&fs;
f_getfree("0:", &fre_clust, &pfs);
/* Get total sectors and free sectors */
tot_sect = (fs.n_fatent - 2) * fs.csize;
fre_sect = fre_clust * fs.csize;
/* Print the free space (assuming 512 bytes/sector) */
printf("%10lu KiB total drive space.\n%10lu KiB available.\n", tot_sect / 2, fre_sect / 2);
return 0;
}
int main_qspi_write_read_test(void)
{
/*这里XSP_MANUAL_SSELECT_OPTION非常重要,对于spi普通模式,XSP_MANUAL_SSELECT_OPTION勾选表示自动管理NSS*/
/*如果不勾选,那么一次只能发送不超过FIFO Size的数量,这是没法用的*/
AXI_SPI_Init(&AXI_SPI0, XPAR_SPI_0_DEVICE_ID, XSP_MASTER_OPTION|XSP_MANUAL_SSELECT_OPTION);
FlashReadID();
qspi_buffer.wr_length=4096;
qspi_buffer.rd_length=4096;
qspi_buffer.wr_en=1;
qspi_buffer.rd_en=1;
qspi_buffer.flash_start_addr=69*4096;
for(int i=0; i<4096; i++){
qspi_buffer.wr_buff[i]=i*i;
qspi_buffer.rd_buff[i]=0;
}
//W25QXX_Write(qspi_buffer.wr_buff, qspi_buffer.flash_start_addr, qspi_buffer.wr_length);
W25QXX_Read(qspi_buffer.rd_buff, qspi_buffer.flash_start_addr, qspi_buffer.rd_length);
for (int Count = 0; Count < qspi_buffer.rd_length; Count++) {
printf("%d: %x--%x\n", Count, qspi_buffer.wr_buff[Count], qspi_buffer.rd_buff[Count]);
}
return 0;
}
int main(void)
{
//Xil_DCacheDisable();
xil_printf("hello\r\n");
main_fats();
//main_qspi_write_read_test();
}
qspi.c/h
#include "QspiFlash.h"
#include "COMMON.h"
#define WRITE_STATUS_CMD 0x01
#define WRITE_CMD 0x02
#define READ_CMD 0x03
#define WRITE_DISABLE_CMD 0x04
#define READ_STATUS_CMD 0x05
#define WRITE_ENABLE_CMD 0x06
#define FAST_READ_CMD 0x0B
#define DUAL_READ_CMD 0x3B
#define QUAD_READ_CMD 0x6B
#define BULK_ERASE_CMD 0xC7
#define SEC_ERASE_CMD 0x20 /*xilinx demo程序有错误,进行了修改*/
#define READ_ID 0x9F
#define COMMAND_OFFSET 0 /* FLASH instruction */
#define ADDRESS_1_OFFSET 1 /* MSB byte of address to read or write */
#define ADDRESS_2_OFFSET 2 /* Middle byte of address to read or write */
#define ADDRESS_3_OFFSET 3 /* LSB byte of address to read or write */
#define DATA_OFFSET 4 /* Start of Data for Read/Write */
#define DUMMY_OFFSET 4 /* Dummy byte offset for fast, dual and quad
* reads
*/
#define DUMMY_SIZE 1 /* Number of dummy bytes for fast, dual and
* quad reads
*/
#define RD_ID_SIZE 4 /* Read ID command + 3 bytes ID response */
#define BULK_ERASE_SIZE 1 /* Bulk Erase command size */
#define SEC_ERASE_SIZE 4 /* Sector Erase command + Sector address */
/*
* The following constants specify the extra bytes which are sent to the
* FLASH on the QSPI interface, that are not data, but control information
* which includes the command and address
*/
#define OVERHEAD_SIZE 4
#define PAGE_SIZE 256
#define SECTOR_SIZE 4096
#define NUM_PAGES 16384
#define NUM_SECTORS 1024
u8 txBuffer[256+4];
u8 rxBuffer[4096+4];
void FlashReadID(void) {
txBuffer[0] = 0x9f;
txBuffer[1] = 0x23; /* 3 dummy bytes */
txBuffer[2] = 0x08;
txBuffer[3] = 0x09;
AXI_SPI_Transfer(&AXI_SPI0, 0, rxBuffer, txBuffer, 4);
xil_printf("FlashID=0x%x 0x%x 0x%x\n\r", rxBuffer[1], rxBuffer[2],
rxBuffer[3]);
}
//读取SPI FLASH,仅支持QPI模式
//在指定地址开始读取指定长度的数据
//pBuffer:数据存储区
//ReadAddr:开始读取的地址(最大32bit)
//NumByteToRead:要读取的字节数(最大65535)
// void W25QXX_Read(u8* pBuffer,u32 ReadAddr,u16 NumByteToRead)
// {
// u8 data_offset=4; /*需要根据不同读命令进行调整*/
// txBuffer[0] = 0x03;
// txBuffer[1] = (u8) ((ReadAddr & 0xFF0000) >> 16);
// txBuffer[2] = (u8) ((ReadAddr & 0xFF00) >> 8);
// txBuffer[3] = (u8) (ReadAddr & 0xFF);
// AXI_SPI_Transfer(&AXI_SPI0, 0, pBuffer, txBuffer, NumByteToRead+data_offset);
/*注意,用在FATFS中,当sector_size=4096时,会出现数组越界,为此采用了下面的写法*/
// memmove(pBuffer, pBuffer+data_offset, NumByteToRead); /*这句非常关键!!*/
// }
void W25QXX_Read(u8* pBuffer,u32 ReadAddr,u16 NumByteToRead)
{
u8 data_offset=4; /*需要根据不同读命令进行调整*/
txBuffer[0] = 0x03;
txBuffer[1] = (u8) ((ReadAddr & 0xFF0000) >> 16);
txBuffer[2] = (u8) ((ReadAddr & 0xFF00) >> 8);
txBuffer[3] = (u8) (ReadAddr & 0xFF);
AXI_SPI_Transfer(&AXI_SPI0, 0, rxBuffer, txBuffer, NumByteToRead+data_offset);
memmove(pBuffer, rxBuffer+data_offset, NumByteToRead); /*这句非常关键!!*/
}
//SPI在一页(0~65535)内写入少于256个字节的数据
//在指定地址开始写入最大256字节的数据
//pBuffer:数据存储区
//WriteAddr:开始写入的地址(最大32bit)
//NumByteToWrite:要写入的字节数(最大256),该数不应该超过该页的剩余字节数!!!
void W25QXX_Write_Page(u8* pBuffer,u32 WriteAddr,u16 NumByteToWrite)
{
txBuffer[0] = 0x06;
AXI_SPI_Transfer(&AXI_SPI0, 0, NULL, txBuffer, 1);
u8 data_offset=4;
memmove(txBuffer+data_offset, pBuffer, NumByteToWrite); /*这句非常关键!!*/
txBuffer[0] = 0x02;
txBuffer[1] = (u8) ((WriteAddr & 0xFF0000) >> 16);
txBuffer[2] = (u8) ((WriteAddr & 0xFF00) >> 8);
txBuffer[3] = (u8) (WriteAddr & 0xFF);
AXI_SPI_Transfer(&AXI_SPI0, 0, NULL, txBuffer, NumByteToWrite+data_offset);
usleep(20*1000);
}
//擦除一个扇区
//Dst_Addr:扇区地址 根据实际容量设置
//擦除一个扇区的最少时间:150ms
void W25QXX_Erase_Sector(u32 Dst_Addr)
{
txBuffer[0] = 0x06;
AXI_SPI_Transfer(&AXI_SPI0, 0, NULL, txBuffer, 1);
Dst_Addr*=SECTOR_SIZE;
txBuffer[0] = 0x20;
txBuffer[1] = (u8) ((Dst_Addr & 0xFF0000) >> 16);
txBuffer[2] = (u8) ((Dst_Addr & 0xFF00) >> 8);
txBuffer[3] = (u8) (Dst_Addr & 0xFF);
AXI_SPI_Transfer(&AXI_SPI0, 0, NULL, txBuffer, 4);
usleep(200*1000);
}
/****************************************************************************************************/
/****************************************************************************************************/
//无检验写SPI FLASH
//必须确保所写的地址范围内的数据全部为0XFF,否则在非0XFF处写入的数据将失败!
//具有自动换页功能
//在指定地址开始写入指定长度的数据,但是要确保地址不越界!
//pBuffer:数据存储区
//WriteAddr:开始写入的地址(最大32bit)
//NumByteToWrite:要写入的字节数(最大65535)
//CHECK OK
void W25QXX_Write_NoCheck(u8* pBuffer,u32 WriteAddr,u16 NumByteToWrite)
{
u16 pageremain;
pageremain=256-WriteAddr%256; //单页剩余的字节数
if(NumByteToWrite<=pageremain)pageremain=NumByteToWrite;//不大于256个字节
while(1)
{
W25QXX_Write_Page(pBuffer,WriteAddr,pageremain);
if(NumByteToWrite==pageremain)break;//写入结束了
else //NumByteToWrite>pageremain
{
pBuffer+=pageremain;
WriteAddr+=pageremain;
NumByteToWrite-=pageremain; //减去已经写入了的字节数
if(NumByteToWrite>256)pageremain=256; //一次可以写入256个字节
else pageremain=NumByteToWrite; //不够256个字节了
}
}
}
//写SPI FLASH
//在指定地址开始写入指定长度的数据
//该函数带擦除操作!
//pBuffer:数据存储区
//WriteAddr:开始写入的地址(最大32bit)
//NumByteToWrite:要写入的字节数(最大65535)
u8 W25QXX_BUFFER[4096];
void W25QXX_Write(u8* pBuffer,u32 WriteAddr,u16 NumByteToWrite)
{
u32 secpos;
u16 secoff;
u16 secremain;
u16 i;
u8 * W25QXX_BUF;
W25QXX_BUF=W25QXX_BUFFER;
secpos=WriteAddr/4096;//扇区地址
secoff=WriteAddr%4096;//在扇区内的偏移
secremain=4096-secoff;//扇区剩余空间大小
//printf("ad:%X,nb:%X\r\n",WriteAddr,NumByteToWrite);//测试用
if(NumByteToWrite<=secremain)secremain=NumByteToWrite;//不大于4096个字节
while(1)
{
W25QXX_Read(W25QXX_BUF,secpos*4096,4096);//读出整个扇区的内容
for(i=0;i<secremain;i++)//校验数据
{
if(W25QXX_BUF[secoff+i]!=0XFF)break;//需要擦除
}
if(i<secremain)//需要擦除
{
W25QXX_Erase_Sector(secpos);//擦除这个扇区
for(i=0;i<secremain;i++) //复制
{
W25QXX_BUF[i+secoff]=pBuffer[i];
}
W25QXX_Write_NoCheck(W25QXX_BUF,secpos*4096,4096);//写入整个扇区
}else W25QXX_Write_NoCheck(pBuffer,WriteAddr,secremain);//写已经擦除了的,直接写入扇区剩余区间.
if(NumByteToWrite==secremain)break;//写入结束了
else//写入未结束
{
secpos++;//扇区地址增1
secoff=0;//偏移位置为0
pBuffer+=secremain; //指针偏移
WriteAddr+=secremain;//写地址偏移
NumByteToWrite-=secremain; //字节数递减
if(NumByteToWrite>4096)secremain=4096; //下一个扇区还是写不完
else secremain=NumByteToWrite; //下一个扇区可以写完了
}
};
}
#ifndef QSPI_FLASH_H_
#define QSPI_FLASH_H_
#include "COMMON.h"
typedef struct{
u8 wr_buff[1024*1024];
u8 rd_buff[1024*1024];
u32 wr_length;
u32 rd_length;
u32 flash_start_addr;
u8 wr_en;
u8 rd_en;
} qspi_buff_t;
void FlashReadID(void);
void W25QXX_Read(u8* pBuffer,u32 ReadAddr,u16 NumByteToRead);
void W25QXX_Write(u8* pBuffer,u32 WriteAddr,u16 NumByteToWrite);
void W25QXX_Erase_Sector(u32 Dst_Addr);
#endif /* QSPI_FLASH_H_ */
D4 补充说明
关于disk_ioctrl函数的移植问题,以及spi_flash的sector与fatfs的sector的差别。
https://blog.csdn.net/weixin_47579878/article/details/135721025
D5 FATFS官网上3个漂亮的函数
查找指定类型文件,可以用通配符
http://elm-chan.org/fsw/ff/doc/findfirst.html
遍历文件夹,并打印出所有的文件
http://elm-chan.org/fsw/ff/doc/readdir.html
结果运行
int run_demo()
{
demo_find_files();
demo_scan_files();
demo_list_dir();
return 0;
}
int main(void)
{
//Xil_DCacheDisable();
//main_uart_wr_to_qspi();
xil_printf("hello\r\n");
//main_fats();
//main_qspi_write_read_test();
//main_uart_wr_to_qspi_fats();
run_demo();
}
看起来demo_scan_files()这个最好用,它不仅列出了有哪些文件,还列出了文件的大小。这个很好。