stm32f4-sdio/FATFS/shimatta_sdio_driver/shimatta_sdio-driver.c

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/*
* shimatta_sdio-driver.c
*
* Created on: Apr 30, 2015
* Mario Hüttel
*/
#include <shimatta_sdio-driver.h>
#define SETAF(PORT,PIN,AF) PORT->AFR[(PIN < 8 ? 0 : 1)] |= AF << ((PIN < 8 ? PIN : (PIN - 8)) * 4)
#define READCTRL ((BLOCKSIZE << 4) | SDIO_DCTRL_DMAEN)
#define DMAP2M (DMA_SxCR_CHSEL_2 | DMA_SxCR_PBURST_0 | DMA_SxCR_MBURST_0 | DMA_SxCR_MSIZE_1 | DMA_SxCR_PSIZE_1 | DMA_SxCR_MINC | DMA_SxCR_PFCTRL)
#define DMAM2P (DMA_SxCR_CHSEL_2 | DMA_SxCR_PBURST_0 | DMA_SxCR_MBURST_0 | DMA_SxCR_MSIZE_1 | DMA_SxCR_PSIZE_1 | DMA_SxCR_MINC | DMA_SxCR_PFCTRL | DMA_SxCR_DIR_0)
#define SHORT_ANS 1
#define LONG_ANS 3
#define NO_ANS 0
#define CCRCFAIL -1
#define CTIMEOUT -2
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/* OCR Register Masks */
#define OCS_CCS (1<<30)
#define OCS_BUSY (1<<31)
typedef enum {ACMD41_RESP_INIT, ACMD41_RESP_ERR, ACMD41_RESP_SDSC, ACMD41_RESP_SDXC} ACMD41_RESP_t;
typedef enum {CMD8_RESP_TIMEOUT, CMD8_RESP_ACK, CMD8_RESP_ERR} CMD8_RESP_t;
typedef uint8_t CID_t;
void SDIO_InitModule();
int SDIO_sendCmd(uint8_t CMD, uint32_t arg, uint8_t expectedAns);
int SDIO_getResp(uint8_t expectedCMD, uint8_t typeOfAns, uint32_t* responseBuffer);
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void SDIO_wait_cmd_sent();
ACMD41_RESP_t SDIO_send_ACMD41(uint8_t HCS);
int SDIO_send_CMD55();
int SDIO_send_CMD2();
int SDIO_send_CMD3(uint16_t* rca);
int SDIO_send_CMD0();
CMD8_RESP_t SDIO_send_CMD8();
//BYTE rxtxbuffer[1<<BLOCKSIZE]; //Data RX and TX Buffer not needed anymore. thanks to DMA
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SDInfo_t cardInfo; // = {.type = CARD_NONE};
DSTATUS SDIO_status(){
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#if SDIO_ENABLE_INS==1
if (!((INS_PORT->IDR & INS_PIN) == INS_ACTIVE_LEVEL))
return STA_NODISK;
#endif /* SDIO_ENABLE_INS */
if (cardInfo.type == CARD_NONE) {
return STA_NOINIT;
}
#if SDIO_ENABLE_WRITEPROT==1
if (!((WRITEPROT_PORT->IDR & WRITEPROT_PIN) == WRITEPROT_ACTIVE_LEVEL))
return STA_PROTECT;
#endif /* SDIO_ENABLE_WRITEPROT */
return 0;
}
DSTATUS SDIO_initialize(){
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CMD8_RESP_t res8;
ACMD41_RESP_t resa41;
uint8_t hcs_flag = 0;
cardInfo.rca = 0;
cardInfo.type = CARD_NONE;
SDIO_InitModule();
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#if SDIO_ENABLE_WRITEPROT==1
WRITEPROT_PORT->PUPDR |= ((WRITEPROT_PULLUP ? 1 : 0)<<WRITEPROT_PIN*2);
#endif /* SDIO_ENABLE_WRITEPROT */
#if SDIO_ENABLE_INS==1
INS_PORT->PUPDR |= ((INS_PULLUP? 1 : 0)<<INS_PIN*2);
#endif /* SDIO_ENABLE_INS */
__DSB();
#if SDIO_ENABLE_INS==1
if (!((INS_PORT->IDR & INS_PIN) == INS_ACTIVE_LEVEL))
return STA_NODISK;
#endif /* SDIO_ENABLE_INS */
SDIO_send_CMD0();
res8 = SDIO_send_CMD8();
switch (res8) {
case CMD8_RESP_ACK: // SDV2 Card
hcs_flag = 1;
break;
case CMD8_RESP_ERR: // should not happen
return STA_NOINIT;
break;
case CMD8_RESP_TIMEOUT: // SDV1 Card
hcs_flag=0;
break;
default:
return STA_NOINIT;
break;
}
do {
resa41 = SDIO_send_ACMD41(hcs_flag);
}while(resa41 == ACMD41_RESP_INIT);
switch (resa41) {
case ACMD41_RESP_SDSC:
cardInfo.type = (hcs_flag ? SD_V2_SC : SD_V1);
break;
case ACMD41_RESP_SDXC:
cardInfo.type = SD_V2_HC;
break;
default:
return STA_NOINIT;
break;
}
if (SDIO_send_CMD2())
return STA_NOINIT;
if (SDIO_send_CMD3(&cardInfo.rca))
return STA_NOINIT;
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//TODO: Set block length
//TODO: Set 4 bit mode
//TODO:
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#if SDIO_ENABLE_WRITEPROT==1
if (!((WRITEPROT_PORT->IDR & WRITEPROT_PIN) == WRITEPROT_ACTIVE_LEVEL))
return STA_PROTECT;
#endif /* SDIO_ENABLE_WRITEPROT */
return 0;
}
DRESULT SDIO_disk_read(BYTE *buff, DWORD sector, UINT count){
return RES_OK;
}
DRESULT SDIO_disk_write(const BYTE *buff, DWORD sector, UINT count){
return RES_OK;
}
DRESULT SDIO_disk_ioctl(BYTE cmd, void* buff){
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DRESULT res = RES_OK;
switch(cmd) {
case GET_BLOCK_SIZE:
*((DWORD*)buff) = 0x01;
break;
case GET_SECTOR_SIZE:
*((WORD*)buff) = (1<<BLOCKSIZE);
break;
case GET_SECTOR_COUNT:
res = RES_ERROR;
//TODO: Implement
break;
case CTRL_SYNC:
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res = RES_OK;
//No cache
//Nothing to do
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break;
default:
res = RES_PARERR;
break;
}
return res;
}
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DWORD __attribute__((weak)) get_fattime(){
return 0;
}
void SDIO_InitModule(){
//Init Clocks
RCC->AHB1ENR |= PORTCLKMASK;
RCC->APB2ENR |= RCC_APB2ENR_SDIOEN;
//Init Alternate Functions
CLKPORT->MODER |= (2<<CLKPIN*2);
D0PORT->MODER |= (2<<D0PIN*2);
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D0PORT->PUPDR |= (1<<D0PIN*2);
#if BUSWIDTH==1
D1PORT->MODER |= (2<<D1PIN*2);
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D1PORT->PUPDR |= (1<<D1PIN*2);
D2PORT->MODER |= (2<<D2PIN*2);
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D2PORT->PUPDR |= (1<<D2PIN*2);
D3PORT->MODER |= (2<<D3PIN*2);
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D3PORT->PUPDR |= (1<<D3PIN*2);
#endif
//CLKPORT->AFR[(CLKPIN < 8 ? 0 : 1)] |= ALTFUNC << ((CLKPIN < 8 ? CLKPIN : (CLKPIN - 8)) * 4);
SETAF(CLKPORT, CLKPIN, ALTFUNC);
SETAF(D0PORT, D0PIN, ALTFUNC);
#if BUSWIDTH==1
SETAF(D1PORT, D1PIN, ALTFUNC);
SETAF(D2PORT, D2PIN, ALTFUNC);
SETAF(D3PORT, D3PIN, ALTFUNC);
#endif
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//Init Module
//Set CLK Control Register
SDIO->CLKCR = (HW_FLOW<<14) | (BUSWIDTH<<11) | SDIO_CLKCR_CLKEN | (INITCLK & SDIO_CLKCR_CLKDIV);
//Set Data Timeout
SDIO->DTIMER = DTIMEOUT;
//Set Data Parameters
//SDIO->DCTRL = (BLOCKSIZE << 4) | SDIO_DCTRL_DMAEN;
//Set Power Register: Power up Card CLK
SDIO->POWER = SDIO_POWER_PWRCTRL_0 | SDIO_POWER_PWRCTRL_1;
}
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//Send Command
//Clear respone Flags
//->CRC Fail, complete response, Timeout
int SDIO_sendCmd(uint8_t CMD, uint32_t arg, uint8_t expectedAns){
//Clear Flags
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SDIO->ICR = SDIO_ICR_CCRCFAILC | SDIO_ICR_CMDRENDC | SDIO_ICR_CTIMEOUTC | SDIO_ICR_CMDSENTC;
//Send command
SDIO->ARG = arg;
SDIO->CMD = (CMD & SDIO_CMD_CMDINDEX) | SDIO_CMD_CPSMEN | SDIO_CMD_WAITPEND | ((expectedAns << 6) & SDIO_CMD_WAITRESP);
return 0;
}
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void SDIO_wait_cmd_sent() {
while (!(SDIO->STA & SDIO_STA_CMDSENT));
SDIO->ICR |= SDIO_ICR_CMDSENTC;
}
int SDIO_getResp(uint8_t expectedCMD, uint8_t typeOfAns, uint32_t *responseBuffer) {
//Return with success because no data is needed
if (typeOfAns == NO_ANS) return 0;
//Wait for error or success
while (1) {
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if (SDIO->STA & SDIO_STA_CMDREND) break; //Correct Respone Received
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//Exclude ACMD41 from valid CRC check
if ((SDIO->STA & SDIO_STA_CCRCFAIL)) {
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if(expectedCMD == 0x3f) {
//This command does not have a CRC...Doushite....
break;//Hopefully the response is correct. Even without CRC....
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} else
return CCRCFAIL;
}
if (SDIO->STA & SDIO_STA_CTIMEOUT)
return CTIMEOUT;
}
//Valid Respone Received
if ((SDIO->RESPCMD & SDIO_RESPCMD_RESPCMD) != expectedCMD) return -1; //Not the expected respose
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//If case of a correct Response
*(responseBuffer++) = SDIO->RESP1;
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//Long response.
if (typeOfAns == LONG_ANS) {
*(responseBuffer++) = SDIO->RESP2;
*(responseBuffer++) = SDIO->RESP3;
*(responseBuffer++) = SDIO->RESP4;
}
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}
int SDIO_send_CMD55(){
int retry = 0x20;
StatusConv_t converter;
uint32_t response;
do {
//Execute Command and check for valid response
SDIO_sendCmd(55, cardInfo.rca, SHORT_ANS);
if (!SDIO_getResp(55, SHORT_ANS, &response))
{
//Response valid. Check if Card has accepted switch to application command mode
converter.value = response;
if (converter.statusstruct.APP_CMD == 1)
return 0;
}
}while(--retry > 0);
return -1;
}
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ACMD41_RESP_t SDIO_send_ACMD41(uint8_t HCS){
uint32_t response;
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int retry = 0x20;
if (SDIO_send_CMD55()) return -1;
do {
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SDIO_sendCmd(41, (HCS ? (1<<30) : 0) | (1<<28), SHORT_ANS);
if (!SDIO_getResp(0x3F, SHORT_ANS, &response)) {
if (response & OCS_BUSY) { // Card is ready... Who knows why this bit is called busy...
if (response & OCS_CCS) {
return ACMD41_RESP_SDXC;
} else {
return ACMD41_RESP_SDSC;
}
} else {
return ACMD41_RESP_INIT;
}
}
}while(--retry > 0);
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return ACMD41_RESP_ERR;
}
int SDIO_send_CMD2() {
uint32_t response[4];
int retry = 0x20;
do {
SDIO_sendCmd(2, 0, LONG_ANS);
if (!SDIO_getResp(0x3F, LONG_ANS, response)) return 0;
}while(retry-- > 0);
}
int SDIO_send_CMD3(uint16_t* rca) {
uint32_t response;
int retry = 0x20;
do {
SDIO_sendCmd(3, 0, SHORT_ANS);
if (!SDIO_getResp(3, SHORT_ANS, &response)) {
// TODO: Do some *optional* checking
*rca = ((response & 0xFFFF0000) >> 16);
return 0;
}
}while(retry-- > 0);
return -1;
}
int SDIO_send_CMD0() {
SDIO_sendCmd(0, 0, NO_ANS);
SDIO_wait_cmd_sent();
return 0;
}
CMD8_RESP_t SDIO_send_CMD8() {
uint32_t response;
int res = 0;
int retry = 0x20;
do {
SDIO_sendCmd(8, 0x1CC, SHORT_ANS);
res = SDIO_getResp(8, SHORT_ANS, &response);
if (res == 0) {
if (response & 0x100)
return CMD8_RESP_ACK;
else
return CMD8_RESP_ERR;
}
}while(retry-- > 0);
return CMD8_RESP_TIMEOUT;
}