rtt-f030/bsp/lpc176x/drivers/sd.c

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#include <rtthread.h>
#include <dfs_fs.h>
#include "spi.h"
#include "sd.h"
/* 512 bytes for each sector */
#define SD_SECTOR_SIZE 512
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/* token for write operation */
#define TOKEN_SINGLE_BLOCK 0xFE
#define TOKEN_MULTI_BLOCK 0xFC
#define TOKEN_STOP_TRAN 0xFD
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/* Local variables */
static uint8_t CardType;
static SDCFG SDCfg;
static struct rt_device sdcard_device;
static struct dfs_partition part;
/* Local Function Prototypes */
static bool LPC17xx_SD_Init(void);
static uint8_t LPC17xx_SD_SendCmd(uint8_t cmd, uint32_t arg);
static bool LPC17xx_SD_ReadSector(uint32_t sector, uint8_t *buff, uint32_t count);
static bool LPC17xx_SD_ReadDataBlock(uint8_t *buff, uint32_t cnt);
static bool LPC17xx_SD_WriteSector(uint32_t sector, const uint8_t *buff, uint32_t count);
static bool LPC17xx_SD_WirteDataBlock(const uint8_t *buff, uint8_t token);
static bool LPC17xx_SD_ReadCfg(SDCFG *cfg);
static bool LPC17xx_SD_WaitForReady(void);
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/* wait until the card is not busy */
static bool LPC17xx_SD_WaitForReady(void)
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{
uint8_t res;
/* timeout should be large enough to make sure the write operaion can be completed. */
uint32_t timeout = 400000;
LPC17xx_SPI_SendByte(0xFF);
do
{
res = LPC17xx_SPI_RecvByte();
}
while ((res != 0xFF) && timeout--);
return (res == 0xFF ? true : false);
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}
/* Initialize SD/MMC card. */
static bool LPC17xx_SD_Init(void)
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{
uint32_t i, timeout;
uint8_t cmd, ct, ocr[4];
bool ret = false;
/* Initialize SPI interface and enable Flash Card SPI mode. */
LPC17xx_SPI_Init();
/* At least 74 clock cycles are required prior to starting bus communication */
for (i = 0; i < 80; i++) /* 80 dummy clocks */
{
LPC17xx_SPI_SendByte(0xFF);
}
ct = CT_NONE;
if (LPC17xx_SD_SendCmd(GO_IDLE_STATE, 0) == 0x1)
{
timeout = 50000;
if (LPC17xx_SD_SendCmd(CMD8, 0x1AA) == 1) /* SDHC */
{
/* Get trailing return value of R7 resp */
for (i = 0; i < 4; i++) ocr[i] = LPC17xx_SPI_RecvByte();
if (ocr[2] == 0x01 && ocr[3] == 0xAA) /* The card can work at vdd range of 2.7-3.6V */
{
/* Wait for leaving idle state (ACMD41 with HCS bit) */
while (timeout-- && LPC17xx_SD_SendCmd(SD_SEND_OP_COND, 1UL << 30));
/* Check CCS bit in the OCR */
if (timeout && LPC17xx_SD_SendCmd(READ_OCR, 0) == 0)
{
for (i = 0; i < 4; i++) ocr[i] = LPC17xx_SPI_RecvByte();
ct = (ocr[0] & 0x40) ? CT_SD2 | CT_BLOCK : CT_SD2;
}
}
else /* SDSC or MMC */
{
if (LPC17xx_SD_SendCmd(SD_SEND_OP_COND, 0) <= 1)
{
ct = CT_SD1;
cmd = SD_SEND_OP_COND; /* SDSC */
}
else
{
ct = CT_MMC;
cmd = SEND_OP_COND; /* MMC */
}
/* Wait for leaving idle state */
while (timeout-- && LPC17xx_SD_SendCmd(cmd, 0));
/* Set R/W block length to 512 */
if (!timeout || LPC17xx_SD_SendCmd(SET_BLOCKLEN, SD_SECTOR_SIZE) != 0)
ct = CT_NONE;
}
}
else /* SDSC or MMC */
{
if (LPC17xx_SD_SendCmd(SD_SEND_OP_COND, 0) <= 1)
{
ct = CT_SD1;
cmd = SD_SEND_OP_COND; /* SDSC */
}
else
{
ct = CT_MMC;
cmd = SEND_OP_COND; /* MMC */
}
/* Wait for leaving idle state */
while (timeout-- && LPC17xx_SD_SendCmd(cmd, 0));
/* Set R/W block length to 512 */
if (!timeout || LPC17xx_SD_SendCmd(SET_BLOCKLEN, SD_SECTOR_SIZE) != 0)
ct = CT_NONE;
}
}
CardType = ct;
LPC17xx_SPI_Release();
if (ct) /* Initialization succeeded */
{
ret = true;
if (ct == CT_MMC)
{
LPC17xx_SPI_SetSpeed(SPI_SPEED_20MHz);
}
else
{
LPC17xx_SPI_SetSpeed(SPI_SPEED_20MHz);
}
}
else /* Initialization failed */
{
LPC17xx_SPI_Select();
LPC17xx_SD_WaitForReady();
LPC17xx_SPI_DeInit();
}
return ret;
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}
/*****************************************************************************
Send a Command to Flash card and get a Response
cmd: cmd index
arg: argument for the cmd
return the received response of the commond
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*****************************************************************************/
static uint8_t LPC17xx_SD_SendCmd(uint8_t cmd, uint32_t arg)
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{
uint32_t r1, n;
if (cmd & 0x80) /* ACMD<n> is the command sequence of CMD55-CMD<n> */
{
cmd &= 0x7F;
r1 = LPC17xx_SD_SendCmd(APP_CMD, 0); /* CMD55 */
if (r1 > 1) return r1; /* cmd send failed */
}
/* Select the card and wait for ready */
LPC17xx_SPI_DeSelect();
LPC17xx_SPI_Select();
if (LPC17xx_SD_WaitForReady() == false) return 0xFF;
LPC17xx_SPI_SendByte(0xFF); /* prepare 8 clocks */
LPC17xx_SPI_SendByte(cmd);
LPC17xx_SPI_SendByte(arg >> 24);
LPC17xx_SPI_SendByte(arg >> 16);
LPC17xx_SPI_SendByte(arg >> 8);
LPC17xx_SPI_SendByte(arg);
/* Checksum, should only be valid for the first command.CMD0 */
n = 0x01; /* Dummy CRC + Stop */
if (cmd == GO_IDLE_STATE) n = 0x95; /* Valid CRC for CMD0(0) */
if (cmd == CMD8) n = 0x87; /* Valid CRC for CMD8(0x1AA) */
LPC17xx_SPI_SendByte(n);
if (cmd == STOP_TRAN) LPC17xx_SPI_RecvByte(); /* Skip a stuff byte when stop reading */
n = 10; /* Wait for a valid response in timeout of 10 attempts */
do
{
r1 = LPC17xx_SPI_RecvByte();
}
while ((r1 & 0x80) && --n);
return (r1); /* Return with the response value */
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}
/*****************************************************************************
Read "count" Sector(s) starting from sector index "sector",
buff <- [sector, sector+1, ... sector+count-1]
if success, return true, otherwise return false
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*****************************************************************************/
static bool LPC17xx_SD_ReadSector(uint32_t sector, uint8_t *buff, uint32_t count)
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{
/* Convert to byte address if needed */
if (!(CardType & CT_BLOCK)) sector *= SD_SECTOR_SIZE;
if (count == 1) /* Single block read */
{
if ((LPC17xx_SD_SendCmd(READ_BLOCK, sector) == 0)
&& LPC17xx_SD_ReadDataBlock(buff, SD_SECTOR_SIZE))
count = 0;
}
else /* Multiple block read */
{
if (LPC17xx_SD_SendCmd(READ_MULT_BLOCK, sector) == 0)
{
do
{
if (!LPC17xx_SD_ReadDataBlock(buff, SD_SECTOR_SIZE)) break;
buff += SD_SECTOR_SIZE;
}
while (--count);
LPC17xx_SD_SendCmd(STOP_TRAN, 0); /* STOP_TRANSMISSION */
}
}
LPC17xx_SPI_Release();
return count ? false : true;
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}
/*****************************************************************************
read specified number of data to specified buffer.
buff: Data buffer to store received data
cnt: Byte count (must be multiple of 4, normally 512)
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*****************************************************************************/
static bool LPC17xx_SD_ReadDataBlock(uint8_t *buff, uint32_t cnt)
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{
uint8_t token;
uint32_t timeout;
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timeout = 20000;
do /* Wait for data packet in timeout of 100ms */
{
token = LPC17xx_SPI_RecvByte();
}
while ((token == 0xFF) && timeout--);
if (token != 0xFE) return false; /* If not valid data token, return with error */
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#if USE_FIFO
LPC17xx_SPI_RecvBlock_FIFO(buff, cnt);
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#else
do /* Receive the data block into buffer */
{
*buff++ = LPC17xx_SPI_RecvByte();
*buff++ = LPC17xx_SPI_RecvByte();
*buff++ = LPC17xx_SPI_RecvByte();
*buff++ = LPC17xx_SPI_RecvByte();
}
while (cnt -= 4);
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#endif /* USE_FIFO */
LPC17xx_SPI_RecvByte(); /* Discard CRC */
LPC17xx_SPI_RecvByte();
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return true; /* Return with success */
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}
/*****************************************************************************
Write "count" Sector(s) starting from sector index "sector",
buff -> [sector, sector+1, ... sector+count-1]
if success, return true, otherwise return false
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*****************************************************************************/
static bool LPC17xx_SD_WriteSector(uint32_t sector, const uint8_t *buff, uint32_t count)
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{
if (!(CardType & CT_BLOCK)) sector *= 512; /* Convert to byte address if needed */
if (count == 1) /* Single block write */
{
if ((LPC17xx_SD_SendCmd(WRITE_BLOCK, sector) == 0)
&& LPC17xx_SD_WirteDataBlock(buff, TOKEN_SINGLE_BLOCK))
count = 0;
}
else /* Multiple block write */
{
if (CardType & CT_SDC) LPC17xx_SD_SendCmd(SET_WR_BLK_ERASE_COUNT, count);
if (LPC17xx_SD_SendCmd(WRITE_MULT_BLOCK, sector) == 0)
{
do
{
if (!LPC17xx_SD_WirteDataBlock(buff, TOKEN_MULTI_BLOCK)) break;
buff += 512;
}
while (--count);
#if 1
if (!LPC17xx_SD_WirteDataBlock(0, TOKEN_STOP_TRAN)) /* STOP_TRAN token */
count = 1;
#else
LPC17xx_SPI_SendByte(TOKEN_STOP_TRAN);
#endif
}
}
LPC17xx_SPI_Release();
return count ? false : true;
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}
/*****************************************************************************
Write 512 bytes
buffer: 512 byte data block to be transmitted
token: 0xFE -> single block
0xFC -> multi block
0xFD -> Stop
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*****************************************************************************/
static bool LPC17xx_SD_WirteDataBlock(const uint8_t *buff, uint8_t token)
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{
uint8_t resp, i;
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i = i; // avoid warning
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LPC17xx_SPI_SendByte(token); /* send data token first*/
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if (token != TOKEN_STOP_TRAN)
{
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#if USE_FIFO
LPC17xx_SPI_SendBlock_FIFO(buff);
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#else
/* Send data. */
for (i = 512 / 4; i ; i--)
{
LPC17xx_SPI_SendByte(*buff++);
LPC17xx_SPI_SendByte(*buff++);
LPC17xx_SPI_SendByte(*buff++);
LPC17xx_SPI_SendByte(*buff++);
}
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#endif /* USE_FIFO */
LPC17xx_SPI_SendByte(0xFF); /* 16-bit CRC (Dummy) */
LPC17xx_SPI_SendByte(0xFF);
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resp = LPC17xx_SPI_RecvByte(); /* Receive data response */
if ((resp & 0x1F) != 0x05) /* If not accepted, return with error */
return false;
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if (LPC17xx_SD_WaitForReady() == false) /* Wait while Flash Card is busy. */
return false;
}
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return true;
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}
/* Read MMC/SD Card device configuration. */
static bool LPC17xx_SD_ReadCfg(SDCFG *cfg)
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{
uint8_t i;
uint16_t csize;
uint8_t n, csd[16];
bool retv = false;
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/* Read the OCR - Operations Condition Register. */
if (LPC17xx_SD_SendCmd(READ_OCR, 0) != 0x00) goto x;
for (i = 0; i < 4; i++) cfg->ocr[i] = LPC17xx_SPI_RecvByte();
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/* Read the CID - Card Identification. */
if ((LPC17xx_SD_SendCmd(SEND_CID, 0) != 0x00) ||
(LPC17xx_SD_ReadDataBlock(cfg->cid, 16) == false))
goto x;
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/* Read the CSD - Card Specific Data. */
if ((LPC17xx_SD_SendCmd(SEND_CSD, 0) != 0x00) ||
(LPC17xx_SD_ReadDataBlock(cfg->csd, 16) == false))
goto x;
cfg -> sectorsize = SD_SECTOR_SIZE;
/* Get number of sectors on the disk (DWORD) */
if ((cfg->csd[0] >> 6) == 1) /* SDC ver 2.00 */
{
csize = cfg->csd[9] + ((uint16_t)cfg->csd[8] << 8) + 1;
cfg -> sectorcnt = (uint32_t)csize << 10;
}
else /* SDC ver 1.XX or MMC*/
{
n = (cfg->csd[5] & 15) + ((cfg->csd[10] & 128) >> 7) + ((cfg->csd[9] & 3) << 1) + 2; // 19
csize = (cfg->csd[8] >> 6) + ((uint16_t)cfg->csd[7] << 2) + ((uint16_t)(cfg->csd[6] & 3) << 10) + 1; // 3752
cfg -> sectorcnt = (uint32_t)csize << (n - 9); // 3842048
}
cfg->size = cfg -> sectorcnt * cfg -> sectorsize; // 512*3842048=1967128576Byte (1.83GB)
/* Get erase block size in unit of sector (DWORD) */
if (CardType & CT_SD2) /* SDC ver 2.00 */
{
if (LPC17xx_SD_SendCmd(SD_STATUS /*ACMD13*/, 0) == 0) /* Read SD status */
{
LPC17xx_SPI_RecvByte();
if (LPC17xx_SD_ReadDataBlock(csd, 16)) /* Read partial block */
{
for (n = 64 - 16; n; n--) LPC17xx_SPI_RecvByte(); /* Purge trailing data */
cfg->blocksize = 16UL << (csd[10] >> 4);
retv = true;
}
}
}
else /* SDC ver 1.XX or MMC */
{
if ((LPC17xx_SD_SendCmd(SEND_CSD, 0) == 0) && LPC17xx_SD_ReadDataBlock(csd, 16)) /* Read CSD */
{
if (CardType & CT_SD1) /* SDC ver 1.XX */
{
cfg->blocksize = (((csd[10] & 63) << 1) + ((uint16_t)(csd[11] & 128) >> 7) + 1) << ((csd[13] >> 6) - 1);
}
else /* MMC */
{
// cfg->blocksize = ((uint16_t)((buf[10] & 124) >> 2) + 1) * (((buf[11] & 3) << 3) + ((buf[11] & 224) >> 5) + 1);
cfg->blocksize = ((uint16_t)((cfg->csd[10] & 124) >> 2) + 1) * (((cfg->csd[10] & 3) << 3) + ((cfg->csd[11] & 224) >> 5) + 1);
}
retv = true;
}
}
x:
LPC17xx_SPI_Release();
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return (retv);
}
static rt_err_t rt_sdcard_init(rt_device_t dev)
{
return RT_EOK;
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}
static rt_err_t rt_sdcard_open(rt_device_t dev, rt_uint16_t oflag)
{
return RT_EOK;
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}
static rt_err_t rt_sdcard_close(rt_device_t dev)
{
return RT_EOK;
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}
static rt_size_t rt_sdcard_read(rt_device_t dev, rt_off_t pos, void *buffer, rt_size_t size)
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{
bool status;
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status = LPC17xx_SD_ReadSector(part.offset + pos, buffer, size);
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if (status == true) return size;
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rt_kprintf("read failed: %d, pos 0x%08x, size %d\n", status, pos, size);
return 0;
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}
static rt_size_t rt_sdcard_write(rt_device_t dev, rt_off_t pos, const void *buffer, rt_size_t size)
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{
bool status;
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status = LPC17xx_SD_WriteSector(part.offset + pos, buffer, size);
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if (status == true) return size;
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rt_kprintf("write failed: %d, pos 0x%08x, size %d\n", status, pos, size);
return 0;
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}
static rt_err_t rt_sdcard_control(rt_device_t dev, rt_uint8_t cmd, void *args)
{
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 = SDCfg.sectorsize;
geometry->block_size = SDCfg.blocksize;
geometry->sector_count = SDCfg.sectorcnt;
}
return RT_EOK;
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}
void rt_hw_sdcard_init()
{
if (LPC17xx_SD_Init() && LPC17xx_SD_ReadCfg(&SDCfg))
{
bool status;
rt_uint8_t *sector;
/* get the first sector to read partition table */
sector = (rt_uint8_t *) rt_malloc(512);
if (sector == RT_NULL)
{
rt_kprintf("allocate partition sector buffer failed\n");
return;
}
status = LPC17xx_SD_ReadSector(0, sector, 1);
if (status == true)
{
/* get the first partition */
if (dfs_filesystem_get_partition(&part, sector, 0) != 0)
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{
/* there is no partition */
part.offset = 0;
part.size = 0;
}
}
else
{
/* there is no partition table */
part.offset = 0;
part.size = 0;
}
/* release sector buffer */
rt_free(sector);
/* register sdcard device */
sdcard_device.type = RT_Device_Class_Block;
sdcard_device.init = rt_sdcard_init;
sdcard_device.open = rt_sdcard_open;
sdcard_device.close = rt_sdcard_close;
sdcard_device.read = rt_sdcard_read;
sdcard_device.write = rt_sdcard_write;
sdcard_device.control = rt_sdcard_control;
/* no private */
sdcard_device.user_data = &SDCfg;
rt_device_register(&sdcard_device, "sd0",
RT_DEVICE_FLAG_RDWR | RT_DEVICE_FLAG_REMOVABLE | RT_DEVICE_FLAG_STANDALONE);
return;
}
rt_kprintf("sdcard init failed\n");
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}