lpc2387-mci.c
32.8 KB
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/*-----------------------------------------------------------------------*/
/* MMCv3/SDv1/SDv2 (in native mode via MCI) control module (C)ChaN, 2010 */
/*-----------------------------------------------------------------------*/
/* This program is opened under license policy of following trems.
/
/ Copyright (C) 2010, ChaN, all right reserved.
/
/ * This program is a free software and there is NO WARRANTY.
/ * No restriction on use. You can use, modify and redistribute it for
/ personal, non-profit or commercial use UNDER YOUR RESPONSIBILITY.
/ * Redistributions of source code must retain the above copyright notice.
/
/---------------------------------------------------------------------------*/
#include <string.h>
#include "cpu.h"
#include "VIC.h"
#include "xtimer.h"
#include "diskio.h"
#define ENABLE_DEBUG (0)
#include "debug.h"
/* --- MCI configurations --- */
#define N_BUF 4 /* Block transfer FIFO depth (>= 2) */
#define USE_4BIT 1 /* Use wide bus mode if SDC is detected */
#define PCLK 36000000UL /* PCLK supplied to MCI module */
#define MCLK_ID 400000UL /* MCICLK for ID state (100k-400k) */
#define MCLK_RW 18000000UL /* MCICLK for data transfer (PCLK divided by even number) */
/* This MCI driver assumes that MCLK_RW is CCLK/4 or slower. If block buffer underrun/overrun
/ occured due to any interrupt by higher priority process or slow external memory, increasing
/ N_BUF or decreasing MCLK_RW will solve it. */
/* ----- Port definitions ----- */
#define SOCKINS !(FIO0PIN2 & 0x20) /* Card detect switch */
#define SOCKWP (FIO0PIN2 & 0x04) /* Write protect switch */
/* ----- MMC/SDC command ----- */
#define CMD0 (0) /* GO_IDLE_STATE */
#define CMD1 (1) /* SEND_OP_COND (MMC) */
#define CMD2 (2) /* ALL_SEND_CID */
#define CMD3 (3) /* SEND_RELATIVE_ADDR */
#define ACMD6 (6|0x80) /* SET_BUS_WIDTH (SDC) */
#define CMD7 (7) /* SELECT_CARD */
#define CMD8 (8) /* SEND_IF_COND */
#define CMD9 (9) /* SEND_CSD */
#define CMD10 (10) /* SEND_CID */
#define CMD12 (12) /* STOP_TRANSMISSION */
#define CMD13 (13) /* SEND_STATUS */
#define ACMD13 (13|0x80) /* SD_STATUS (SDC) */
#define CMD16 (16) /* SET_BLOCKLEN */
#define CMD17 (17) /* READ_SINGLE_BLOCK */
#define CMD18 (18) /* READ_MULTIPLE_BLOCK */
#define CMD23 (23) /* SET_BLK_COUNT (MMC) */
#define ACMD23 (23|0x80) /* SET_WR_BLK_ERASE_COUNT (SDC) */
#define CMD24 (24) /* WRITE_BLOCK */
#define CMD25 (25) /* WRITE_MULTIPLE_BLOCK */
#define CMD32 (32) /* ERASE_ER_BLK_START */
#define CMD33 (33) /* ERASE_ER_BLK_END */
#define CMD38 (38) /* ERASE */
#define ACMD41 (41|0x80) /* SEND_OP_COND (SDC) */
#define CMD55 (55) /* APP_CMD */
/* Card type flags (CardType) */
#define CT_MMC 0x01 /* MMC ver 3 */
#define CT_SD1 0x02 /* SD ver 1 */
#define CT_SD2 0x04 /* SD ver 2 */
#define CT_SDC (CT_SD1|CT_SD2) /* SD */
#define CT_BLOCK 0x08 /* Block addressing */
/*--------------------------------------------------------------------------
Module Private Functions
---------------------------------------------------------------------------*/
static volatile diskio_sta_t Stat = DISKIO_STA_NOINIT; /* Disk status */
static unsigned short CardRCA; /* Assigned RCA */
static unsigned char CardType, /* Card type flag */
CardInfo[16 + 16 + 4]; /* CSD(16), CID(16), OCR(4) */
static volatile unsigned char XferStat, /* b3:MCI error, b2:Overrun, b1:Write, b0:Read */
XferWc, /* Write block counter */
XferWp, XferRp; /* R/W index of block FIFO */
static unsigned long DmaBuff[N_BUF][128] __attribute__((section(".usbdata"))); /* Block transfer FIFO */
static unsigned long LinkList [N_BUF][4] __attribute__((section(".usbdata"))); /* DMA link list */
void Isr_MCI(void) __attribute__((interrupt("IRQ")));
void Isr_GPDMA(void) __attribute__((interrupt("IRQ")));
/*-----------------------------------------------------------------------*/
/* Interrupt service routine for data transfer */
/*-----------------------------------------------------------------------*/
void Isr_MCI(void)
{
unsigned long ms;
unsigned char xs;
ms = MCI_STATUS & 0x073A; /* Clear MCI interrupt status */
MCI_CLEAR = ms;
xs = XferStat;
if (ms & 0x400) { /* A block transfer completed (DataBlockEnd) */
if (xs & 1) { /* In card read operation */
if (ms & 0x100) { /* When last block is received (DataEnd), */
GPDMA_SOFT_BREQ = 0x10; /* Pop off remaining data in the MCIFIFO */
}
unsigned char n = (XferWp + 1) % N_BUF; /* Next write buffer */
XferWp = n;
if (n == XferRp) {
xs |= 4; /* Check block overrun */
}
}
else { /* In card write operation */
unsigned char n = (XferRp + 1) % N_BUF; /* Next read buffer */
XferRp = n;
if (n == XferWp) {
xs |= 4; /* Check block underrun */
}
}
}
else { /* An MCI error occured (not DataBlockEnd) */
xs |= 8;
}
XferStat = xs;
VICVectAddr = 0;
}
void Isr_GPDMA(void)
{
if (GPDMA_INT_TCSTAT & BIT0) {
GPDMA_INT_TCCLR = 0x01; /* Clear GPDMA interrupt flag */
if (XferStat & 2) {
/* In write operation */
if (--XferWc == N_BUF) { /* Terminate LLI */
LinkList[XferRp % N_BUF][2] = 0;
}
}
}
else {
GPDMA_INT_TCCLR = 0x3;
}
VICVectAddr = 0;
}
/*-----------------------------------------------------------------------*/
/* Ready for data reception */
/*-----------------------------------------------------------------------*/
/**
* @param blks Number of blocks to receive (1..127)
* @param bs Block size (64 or 512)
* */
static void ready_reception(unsigned int blks, unsigned int bs)
{
unsigned int n;
unsigned long dma_ctrl;
/* ------ Setting up GPDMA Ch-0 ------ */
GPDMA_CH0_CFG &= 0xFFF80420; /* Disable ch-0 */
GPDMA_INT_TCCLR = 0x01; /* Clear interrupt flag */
dma_ctrl = 0x88492000 | (bs / 4); /* 1_000_1_0_00_010_010_010_010_************ */
/* Create link list */
for (n = 0; n < N_BUF; n++) {
LinkList[n][0] = (unsigned long)&MCI_FIFO;
LinkList[n][1] = (unsigned long)DmaBuff[n];
LinkList[n][2] = (unsigned long)LinkList[(n + 1) % N_BUF];
LinkList[n][3] = dma_ctrl;
}
/* Load first LLI */
GPDMA_CH0_SRC = LinkList[0][0];
GPDMA_CH0_DEST = LinkList[0][1];
GPDMA_CH0_LLI = LinkList[0][2];
GPDMA_CH0_CTRL = LinkList[0][3];
/* Enable ch-0 */
GPDMA_CH0_CFG |= 0x19009; /* *************_0_0_1_1_0_010_*_0000_*_0100_1 */
/* --------- Setting up MCI ---------- */
XferRp = 0;
XferWp = 0; /* Block FIFO R/W index */
XferStat = 1; /* Transfer status: MCI --> Memory */
MCI_DATA_LEN = bs * blks; /* Set total data length */
MCI_DATA_TMR = (unsigned long)(MCLK_RW * 0.2); /* Data timer: 0.2sec */
MCI_CLEAR = 0x72A; /* Clear status flags */
MCI_MASK0 = 0x72A; /* DataBlockEnd StartBitErr DataEnd RxOverrun DataTimeOut DataCrcFail */
for (n = 0; bs > 1; bs >>= 1, n += 0x10);
MCI_DATA_CTRL = n | 0xB; /* Start to receive data blocks */
}
/*-----------------------------------------------------------------------*/
/* Start to transmit a data block */
/*-----------------------------------------------------------------------*/
#if _READONLY == 0
/*
* @param blks Number of blocks to be transmitted (1..127)
* */
static void start_transmission(unsigned char blks)
{
unsigned int n;
unsigned long dma_ctrl;
/* ------ Setting up GPDMA Ch-0 ------ */
GPDMA_CH0_CFG &= 0xFFF80420; /* Disable ch-0 */
GPDMA_INT_TCCLR = 0x01; /* Clear interrupt flag */
dma_ctrl = 0x84492080; /* 1_000_0_1_00_010_010_010_010_000010000000 */
/* Create link list */
for (n = 0; n < N_BUF; n++) {
LinkList[n][0] = (unsigned long)DmaBuff[n];
LinkList[n][1] = (unsigned long)&MCI_FIFO;
LinkList[n][2] = (n == (unsigned int) (blks - 1)) ? 0 : (unsigned long)LinkList[(n + 1) % N_BUF];
LinkList[n][3] = dma_ctrl;
}
/* Load first LLI */
GPDMA_CH0_SRC = LinkList[0][0];
GPDMA_CH0_DEST = LinkList[0][1];
GPDMA_CH0_LLI = LinkList[0][2];
GPDMA_CH0_CTRL = LinkList[0][3];
/* Enable ch-0 */
GPDMA_CH0_CFG |= 0x18901; /* *************_0_0_1_1_0_001_*_0100_*_0000_1 */
/* --------- Setting up MCI ---------- */
XferRp = 0; /* Block FIFO read index */
XferWc = blks;
XferStat = 2; /* Transfer status: Memroy --> MCI */
MCI_DATA_LEN = 512 * (blks + 1); /* Set total data length */
MCI_DATA_TMR = (unsigned long)(MCLK_RW * 0.5); /* Data timer: 0.5sec */
MCI_CLEAR = 0x51A; /* Clear status flags */
MCI_MASK0 = 0x51A; /* DataBlockEnd DataEnd TxUnderrun DataTimeOut DataCrcFail */
MCI_DATA_CTRL = (9 << 4) | 0x9; /* Start to transmit data blocks */
}
#endif /* _READONLY */
/*-----------------------------------------------------------------------*/
/* Stop data transfer */
/*-----------------------------------------------------------------------*/
static void stop_transfer(void)
{
MCI_MASK0 = 0; /* Disable MCI interrupt */
MCI_DATA_CTRL = 0; /* Stop MCI data transfer */
GPDMA_CH0_CFG &= 0xFFF80420; /* Disable DMA ch-0 */
}
/*-----------------------------------------------------------------------*/
/* Power Control (Device dependent) */
/*-----------------------------------------------------------------------*/
static int power_status(void)
{
return (MCI_POWER & 3) ? 1 : 0;
}
static void power_on(void)
{
/* Enable MCI and GPDMA clock */
PCONP |= (3 << 28);
/* Enable GPDMA controller with little-endian */
GPDMA_CH0_CFG &= 0xFFF80000; /* Disable DMA ch-0 */
GPDMA_CONFIG = 0x01;
/* Select PCLK for MCI, CCLK/2 = 36MHz */
PCLKSEL1 = (PCLKSEL1 & 0xFCFFFFFF) | 0x02000000;
//0.19 0.20 0.21 0.22
PINMODE1 &= ~((BIT6 | BIT7) | (BIT8 | BIT9) | (BIT10 | BIT11) | (BIT12 | BIT13));
PINMODE1 |= (BIT7) | (BIT9) | (BIT11) | (BIT13); // no resistors
//2.11 2.12 2.13
PINMODE4 &= ~((BIT22 | BIT23) | (BIT24 | BIT25) | (BIT26 | BIT27));
PINMODE4 |= (BIT23) | (BIT25) | (BIT27); // no resistors
/* Attach MCI unit to I/O pad */
PINSEL1 = (PINSEL1 & 0xFFFFC03F) | 0x00002A80; /* MCICLK, MCICMD, MCIDATA0, MCIPWR */
#if USE_4BIT
PINSEL4 = (PINSEL4 & 0xF03FFFFF) | 0x0A800000; /* MCIDATA1-3 */
#endif
MCI_MASK0 = 0;
MCI_COMMAND = 0;
MCI_DATA_CTRL = 0;
// pin 0.21 high active
SCS |= 0x08;
/* Register interrupt handlers for MCI,DMA event */
//RegisterIrq(MCI_INT, Isr_MCI, PRI_LOWEST-1);
install_irq(MCI_INT, Isr_MCI, 5);
//RegisterIrq(GPDMA_INT, Isr_GPDMA, PRI_LOWEST-1);
install_irq(GPDMA_INT, Isr_GPDMA, 5);
/* Power-on (VCC is always tied to the socket on this board) */
MCI_POWER = 0x01; /* Power on */
//for (Timer[0] = 10; Timer[0]; ) ; /* 10ms */
xtimer_usleep(1000);
MCI_POWER = 0x03; /* Enable signals */
}
static void power_off(void)
{
MCI_MASK0 = 0;
MCI_COMMAND = 0;
MCI_DATA_CTRL = 0;
MCI_POWER = 0; /* Power-off */
MCI_CLOCK = 0;
// pin 0.21 low inactive
SCS &= ~0x08;
//0.21 MCI led Pin (turns sd card off, too)
//0.19 0.20 0.21 0.22 with pull-down
PINMODE1 |= (BIT6 | BIT7) | (BIT8 | BIT9) | (BIT10 | BIT11) | (BIT12 | BIT13);
PINSEL1 &= ~((BIT6 | BIT7) | (BIT8 | BIT9) | (BIT10 | BIT11) | (BIT12 | BIT13));
// Pins should be now configured as standard input (see board_init.c if you accidentally reconfigured them)
//2.11 2.12 2.13 with pull-down
PINMODE4 |= (BIT22 | BIT23) | (BIT24 | BIT25) | (BIT26 | BIT27);
PINSEL4 &= ~((BIT22 | BIT23) | (BIT24 | BIT25) | (BIT26 | BIT27));
// Pins should be now configured as standard input (see board_init.c if you accidentally reconfigured them)
Stat |= DISKIO_STA_NOINIT;
}
/*-----------------------------------------------------------------------*/
/* Send a command packet to the card and receive a response */
/*-----------------------------------------------------------------------*/
/*
* @param idx Command index (bit[5..0]), ACMD flag (bit7)
* @param arg Command argument
* @param rt Expected response type. None(0), Short(1) or Long(2)
* @param *buff Response return buffer
* @return 1 when function succeeded otherwise returns 0
* */
static int send_cmd(unsigned int idx, unsigned long arg, unsigned int rt, unsigned long *buff)
{
unsigned int s, mc;
assert(buff != NULL);
if (idx & 0x80) { /* Send a CMD55 prior to the specified command if it is ACMD class */
if (!send_cmd(CMD55, (unsigned long)CardRCA << 16, 1, buff) /* When CMD55 is faild, */
|| !(buff[0] & 0x00000020)) {
return 0; /* exit with error */
}
}
idx &= 0x3F; /* Mask out ACMD flag */
do { /* Wait while CmdActive bit is set */
MCI_COMMAND = 0; /* Cancel to transmit command */
MCI_CLEAR = 0x0C5; /* Clear status flags */
for (s = 0; s < 10; s++) {
MCI_STATUS; /* Skip lock out time of command reg. */
}
}
while (MCI_STATUS & 0x00800);
MCI_ARGUMENT = arg; /* Set the argument into argument register */
mc = 0x400 | idx; /* Enable bit + index */
if (rt == 1) {
mc |= 0x040; /* Set Response bit to reveice short resp */
}
if (rt > 1) {
mc |= 0x0C0; /* Set Response and LongResp bit to receive long resp */
}
MCI_COMMAND = mc; /* Initiate command transaction */
//Timer[1] = 100;
uint32_t timerstart = xtimer_now_usec();
while (1) { /* Wait for end of the cmd/resp transaction */
//if (!Timer[1]) return 0;
if ((xtimer_now_usec() - timerstart) > 10000) {
return 0;
}
s = MCI_STATUS; /* Get the transaction status */
if (rt == 0) {
if (s & 0x080) {
return 1; /* CmdSent */
}
}
else {
if (s & 0x040) {
break; /* CmdRespEnd */
}
if (s & 0x001) {
/* CmdCrcFail */
if (idx == 1 || idx == 12 || idx == 41) { /* Ignore CRC error on CMD1/12/41 */
break;
}
return 0;
}
if (s & 0x004) {
return 0; /* CmdTimeOut */
}
}
}
buff[0] = MCI_RESP0; /* Read the response words */
if (rt == 2) {
buff[1] = MCI_RESP1;
buff[2] = MCI_RESP2;
buff[3] = MCI_RESP3;
}
return 1; /* Return with success */
}
/*-----------------------------------------------------------------------*/
/* Wait card ready */
/*-----------------------------------------------------------------------*/
/**
* @param tmr Timeout in unit of 1ms
* @returns 1 when card is tran state, otherwise returns 0
*/
static int wait_ready(unsigned short tmr)
{
unsigned long rc;
uint32_t stoppoll = xtimer_now_usec() + tmr * US_PER_MS;
bool bBreak = false;
while (xtimer_now_usec() < stoppoll/*Timer[0]*/) {
if (send_cmd(CMD13, (unsigned long) CardRCA << 16, 1, &rc) && ((rc & 0x01E00) == 0x00800)) {
bBreak = true;
break;
}
/* This loop will take a time. Insert rot_rdq() here for multitask envilonment. */
}
return bBreak;//Timer[0] ? 1 : 0;
}
/*-----------------------------------------------------------------------*/
/* Swap byte order */
/*-----------------------------------------------------------------------*/
static void bswap_cp(unsigned char *dst, const unsigned long *src)
{
unsigned long d;
d = *src;
*dst++ = (unsigned char)(d >> 24);
*dst++ = (unsigned char)(d >> 16);
*dst++ = (unsigned char)(d >> 8);
*dst++ = (unsigned char)(d >> 0);
}
/*--------------------------------------------------------------------------
Public Functions
---------------------------------------------------------------------------*/
/*-----------------------------------------------------------------------*/
/* Initialize Disk Drive */
/*-----------------------------------------------------------------------*/
diskio_sta_t mci_initialize(void)
{
unsigned int cmd, n;
unsigned long resp[4];
unsigned char ty;
if (Stat & DISKIO_STA_NODISK) {
return Stat; /* No card in the socket */
}
power_off();
xtimer_usleep(1000);
power_on(); /* Force socket power on */
MCI_CLOCK = 0x100 | (PCLK / MCLK_ID / 2 - 1); /* Set MCICLK = MCLK_ID */
//for (Timer[0] = 2; Timer[0]; );
xtimer_usleep(250);
send_cmd(CMD0, 0, 0, NULL); /* Enter idle state */
CardRCA = 0;
/*---- Card is 'idle' state ----*/
/* Initialization timeout of 1000 msec */
uint32_t start = xtimer_now_usec();
/* SDC Ver2 */
if (send_cmd(CMD8, 0x1AA, 1, resp) && (resp[0] & 0xFFF) == 0x1AA) {
/* The card can work at vdd range of 2.7-3.6V */
DEBUG("SDC Ver. 2\n");
do {
/* Wait while card is busy state (use ACMD41 with HCS bit) */
/* This loop will take a time. Insert wai_tsk(1) here for multitask envilonment. */
if (xtimer_now_usec() > (start + 1000000/* !Timer[0] */)) {
DEBUG("%s, %d: Timeout #1\n", RIOT_FILE_RELATIVE, __LINE__);
goto di_fail;
}
}
while (!send_cmd(ACMD41, 0x40FF8000, 1, resp) || !(resp[0] & 0x80000000));
ty = (resp[0] & 0x40000000) ? CT_SD2 | CT_BLOCK : CT_SD2; /* Check CCS bit in the OCR */
}
else { /* SDC Ver1 or MMC */
if (send_cmd(ACMD41, 0x00FF8000, 1, resp)) {
DEBUG("SDC Ver. 1\n");
ty = CT_SD1;
cmd = ACMD41; /* ACMD41 is accepted -> SDC Ver1 */
}
else {
DEBUG("MMC\n");
ty = CT_MMC;
cmd = CMD1; /* ACMD41 is rejected -> MMC */
}
do {
/* Wait while card is busy state (use ACMD41 or CMD1) */
DEBUG("%s, %d: %lX\n", RIOT_FILE_RELATIVE, __LINE__, resp[0]);
/* This loop will take a time. Insert wai_tsk(1) here for multitask envilonment. */
if (xtimer_now_usec() > (start + 1000000/* !Timer[0] */)) {
DEBUG("now: %lu, started at: %lu\n", xtimer_now_usec(), start);
DEBUG("%s, %d: Timeout #2\n", RIOT_FILE_RELATIVE, __LINE__);
goto di_fail;
}
}
while (!send_cmd(cmd, 0x00FF8000, 1, resp) || !(resp[0] & 0x80000000));
}
CardType = ty; /* Save card type */
bswap_cp(&CardInfo[32], resp); /* Save OCR */
/*---- Card is 'ready' state ----*/
if (!send_cmd(CMD2, 0, 2, resp)) {
DEBUG("%s, %d: Failed entering ident state", RIOT_FILE_RELATIVE,
__LINE__);
goto di_fail; /* Enter ident state */
}
for (n = 0; n < 4; n++) {
bswap_cp(&CardInfo[n * 4 + 16], &resp[n]); /* Save CID */
}
/*---- Card is 'ident' state ----*/
if (ty & CT_SDC) { /* SDC: Get generated RCA and save it */
if (!send_cmd(CMD3, 0, 1, resp)) {
DEBUG("%s, %d: Failed generating RCA\n", RIOT_FILE_RELATIVE, __LINE__);
goto di_fail;
}
CardRCA = (unsigned short)(resp[0] >> 16);
}
else { /* MMC: Assign RCA to the card */
if (!send_cmd(CMD3, 1 << 16, 1, resp)) {
goto di_fail;
}
CardRCA = 1;
}
/*---- Card is 'stby' state ----*/
if (!send_cmd(CMD9, (unsigned long)CardRCA << 16, 2, resp)) { /* Get CSD and save it */
goto di_fail;
}
for (n = 0; n < 4; n++) {
bswap_cp(&CardInfo[n * 4], &resp[n]);
}
if (!send_cmd(CMD7, (unsigned long)CardRCA << 16, 1, resp)) { /* Select card */
//printf("MCI CMD7 fail\n");
goto di_fail;
}
/*---- Card is 'tran' state ----*/
if (!(ty & CT_BLOCK)) { /* Set data block length to 512 (for byte addressing cards) */
if (!send_cmd(CMD16, 512, 1, resp) || (resp[0] & 0xFDF90000)) {
//printf("MCI CMD16 fail\n");
goto di_fail;
}
}
#if USE_4BIT
if (ty & CT_SDC) { /* Set wide bus mode (for SDCs) */
if (!send_cmd(ACMD6, 2, 1, resp) /* Set bus mode of SDC */
|| (resp[0] & 0xFDF90000)) {
//printf("MCI ACMD6 fail\n");
goto di_fail;
}
MCI_CLOCK |= 0x800; /* Set bus mode of MCI */
}
#endif
MCI_CLOCK = (MCI_CLOCK & 0xF00) | 0x200 | (PCLK / MCLK_RW / 2 - 1); /* Set MCICLK = MCLK_RW, power-save mode */
Stat &= ~DISKIO_STA_NOINIT; /* Clear DISKIO_STA_NOINIT */
return Stat;
di_fail:
power_off();
Stat |= DISKIO_STA_NOINIT; /* Set DISKIO_STA_NOINIT */
return Stat;
}
/*-----------------------------------------------------------------------*/
/* Get Disk Status */
/*-----------------------------------------------------------------------*/
diskio_sta_t mci_status(void)
{
return Stat;
}
/*-----------------------------------------------------------------------*/
/* Read Sector(s) */
/*-----------------------------------------------------------------------*/
/**
* @param buff Pointer to the data buffer to store read data
* @param sector Start sector number (LBA)
* @param count Sector count (1..127)
*/
diskio_result_t mci_read(unsigned char *buff, unsigned long sector, unsigned char count)
{
unsigned long resp;
unsigned int cmd;
if (count < 1 || count > 127) {
return DISKIO_RES_PARERR; /* Check parameter */
}
if (Stat & DISKIO_STA_NOINIT) {
return DISKIO_RES_NOTRDY; /* Check drive status */
}
if (!(CardType & CT_BLOCK)) {
sector *= 512; /* Convert LBA to byte address if needed */
}
if (!wait_ready(500)) {
return DISKIO_RES_ERROR; /* Make sure that card is tran state */
}
ready_reception(count, 512); /* Ready to receive data blocks */
cmd = (count > 1) ? CMD18 : CMD17; /* Transfer type: Single block or Multiple block */
if (send_cmd(cmd, sector, 1, &resp) /* Start to read */
&& !(resp & 0xC0580000)) {
unsigned char rp = 0;
do {
while ((rp == XferWp) && !(XferStat & 0xC)) {
/* Wait for block arrival */
/* This loop will take a time. Replace it with sync process for multitask envilonment. */
}
if (XferStat & 0xC) {
break; /* Abort if any error has occured */
}
copy_al2un(buff, DmaBuff[rp], 512); /* Pop an block */
XferRp = rp = (rp + 1) % N_BUF; /* Next DMA buffer */
if (XferStat & 0xC) {
break; /* Abort if overrun has occured */
}
buff += 512; /* Next user buffer address */
} while (--count);
if (cmd == CMD18) { /* Terminate to read (MB) */
send_cmd(CMD12, 0, 1, &resp);
}
}
stop_transfer(); /* Close data path */
return count ? DISKIO_RES_ERROR : DISKIO_RES_OK;
}
/*-----------------------------------------------------------------------*/
/* Write Sector(s) */
/*-----------------------------------------------------------------------*/
#if _READONLY == 0
/**
* @param buff Pointer to the data to be written
* @param sector Start sector number (LBA)
* @param count Sector count (1..127)
* */
diskio_result_t mci_write(const unsigned char *buff, unsigned long sector, unsigned char count)
{
unsigned long rc;
unsigned int cmd;
unsigned char wp, xc;
if (count < 1 || count > 127) {
return DISKIO_RES_PARERR; /* Check parameter */
}
if (Stat & DISKIO_STA_NOINIT) {
return DISKIO_RES_NOTRDY; /* Check drive status */
}
if (Stat & DISKIO_STA_PROTECT) {
return DISKIO_RES_WRPRT; /* Check write protection */
}
if (!(CardType & CT_BLOCK)) {
sector *= 512; /* Convert LBA to byte address if needed */
}
if (!wait_ready(500)) {
return DISKIO_RES_ERROR; /* Make sure that card is tran state */
}
if (count == 1) { /* Single block write */
cmd = CMD24;
}
else { /* Multiple block write */
cmd = (CardType & CT_SDC) ? ACMD23 : CMD23;
if (!send_cmd(cmd, count, 1, &rc) /* Preset number of blocks to write */
|| (rc & 0xC0580000)) {
return DISKIO_RES_ERROR;
}
cmd = CMD25;
}
if (!send_cmd(cmd, sector, 1, &rc) /* Send a write command */
|| (rc & 0xC0580000)) {
return DISKIO_RES_ERROR;
}
wp = 0;
xc = count;
do { /* Fill block FIFO */
copy_un2al(DmaBuff[wp], (unsigned char *)(unsigned int)buff, 512); /* Push a block */
wp++; /* Next DMA buffer */
count--;
buff += 512; /* Next user buffer address */
}
while (count && wp < N_BUF);
XferWp = wp = wp % N_BUF;
start_transmission(xc); /* Start transmission */
while (count) {
while ((wp == XferRp) && !(XferStat & 0xC)) { /* Wait for block FIFO not full */
/* This loop will take a time. Replace it with sync process for multitask envilonment. */
}
if (XferStat & 0xC) {
break; /* Abort if block underrun or any MCI error has occured */
}
copy_un2al(DmaBuff[wp], (unsigned char *)(unsigned int)buff, 512); /* Push a block */
XferWp = wp = (wp + 1) % N_BUF; /* Next DMA buffer */
if (XferStat & 0xC) {
break; /* Abort if block underrun has occured */
}
count--;
buff += 512; /* Next user buffer address */
}
while (!(XferStat & 0xC)) {} /* Wait for all blocks sent (block underrun) */
if (XferStat & 0x8) {
count = 1; /* Abort if any MCI error has occured */
}
stop_transfer(); /* Close data path */
if (cmd == CMD25 && (CardType & CT_SDC)) { /* Terminate to write (SDC w/MB) */
send_cmd(CMD12, 0, 1, &rc);
}
return count ? DISKIO_RES_ERROR : DISKIO_RES_OK;
}
#endif /* _READONLY */
/*-----------------------------------------------------------------------*/
/* Miscellaneous Functions */
/*-----------------------------------------------------------------------*/
diskio_result_t mci_ioctl(
unsigned char ctrl, /* Control code */
void *buff /* Buffer to send/receive data block */
)
{
diskio_result_t res;
unsigned char *ptr = (unsigned char *)buff;
unsigned long resp[4], d, *dp, st, ed;
if (Stat & DISKIO_STA_NOINIT) {
return DISKIO_RES_NOTRDY;
}
res = DISKIO_RES_ERROR;
switch(ctrl) {
case CTRL_SYNC : /* Make sure that all data has been written on the media */
if (wait_ready(500)) { /* Wait for card enters tarn state */
res = DISKIO_RES_OK;
}
break;
case GET_SECTOR_COUNT : /* Get number of sectors on the disk (unsigned long) */
if ((CardInfo[0] >> 6) == 1) { /* SDC CSD v2.0 */
d = ((unsigned short)CardInfo[8] << 8) + CardInfo[9] + 1;
*(unsigned long *)buff = d << 10;
}
else { /* MMC or SDC CSD v1.0 */
unsigned char b = (CardInfo[5] & 15) + ((CardInfo[10] & 128) >> 7) + ((CardInfo[9] & 3) << 1) + 2;
d = (CardInfo[8] >> 6) + ((unsigned short)CardInfo[7] << 2) + ((unsigned short)(CardInfo[6] & 3) << 10) + 1;
*(unsigned long *)buff = d << (b - 9);
}
res = DISKIO_RES_OK;
break;
case GET_SECTOR_SIZE : /* Get sectors on the disk (unsigned short) */
*(unsigned short *)buff = 512;
res = DISKIO_RES_OK;
break;
case GET_BLOCK_SIZE : /* Get erase block size in unit of sectors (unsigned long) */
if (CardType & CT_SD2) { /* SDC ver 2.00 */
*(unsigned long *)buff = 16UL << (CardInfo[10] >> 4);
}
else { /* SDC ver 1.XX or MMC */
if (CardType & CT_SD1) { /* SDC v1 */
*(unsigned long *)buff = (((CardInfo[10] & 63) << 1) + ((unsigned short)(CardInfo[11] & 128) >> 7) + 1) << ((CardInfo[13] >> 6) - 1);
}
else { /* MMC */
*(unsigned long *)buff = ((unsigned short)((CardInfo[10] & 124) >> 2) + 1) * (((CardInfo[11] & 3) << 3) + ((CardInfo[11] & 224) >> 5) + 1);
}
}
res = DISKIO_RES_OK;
break;
case CTRL_ERASE_SECTOR : /* Erase a block of sectors */
if (!(CardType & CT_SDC) || (!(CardInfo[0] >> 6) && !(CardInfo[10] & 0x40))) {
break; /* Check if sector erase can be applied to the card */
}
dp = (unsigned long *)buff;
st = dp[0];
ed = dp[1];
if (!(CardType & CT_BLOCK)) {
st *= 512;
ed *= 512;
}
if (send_cmd(CMD32, st, 1, resp) && send_cmd(CMD33, ed, 1, resp) && send_cmd(CMD38, 0, 1, resp) && wait_ready(30000)) {
res = DISKIO_RES_OK;
}
break;
case CTRL_POWER :
switch(ptr[0]) {
case 0: /* Sub control code == 0 (POWER_OFF) */
power_off(); /* Power off */
res = DISKIO_RES_OK;
break;
case 1: /* Sub control code == 1 (POWER_GET) */
ptr[1] = (unsigned char)power_status();
res = DISKIO_RES_OK;
break;
default :
res = DISKIO_RES_PARERR;
}
break;
case MMC_GET_TYPE : /* Get card type flags (1 byte) */
*ptr = CardType;
res = DISKIO_RES_OK;
break;
case MMC_GET_CSD : /* Get CSD (16 bytes) */
memcpy(buff, &CardInfo[0], 16);
res = DISKIO_RES_OK;
break;
case MMC_GET_CID : /* Get CID (16 bytes) */
memcpy(buff, &CardInfo[16], 16);
res = DISKIO_RES_OK;
break;
case MMC_GET_OCR : /* Get OCR (4 bytes) */
memcpy(buff, &CardInfo[32], 4);
res = DISKIO_RES_OK;
break;
case MMC_GET_SDSTAT : /* Receive SD status as a data block (64 bytes) */
if (CardType & CT_SDC) { /* SDC */
if (wait_ready(500)) {
ready_reception(1, 64); /* Ready to receive data blocks */
if (send_cmd(ACMD13, 0, 1, resp) /* Start to read */
&& !(resp[0] & 0xC0580000)) {
while ((XferWp == 0) && !(XferStat & 0xC)) {}
if (!(XferStat & 0xC)) {
copy_al2un((unsigned char *)buff, DmaBuff[0], 64);
res = DISKIO_RES_OK;
}
}
}
stop_transfer(); /* Close data path */
}
break;
default:
res = DISKIO_RES_PARERR;
}
return res;
}