Mercurial > templog
view mmc.c @ 334:3b821541657d
hmac
| author | Matt Johnston <matt@ucc.asn.au> |
|---|---|
| date | Tue, 12 Jun 2012 00:35:23 +0800 |
| parents | 49e83333e546 |
| children |
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/*-----------------------------------------------------------------------*/ /* MMCv3/SDv1/SDv2 (in SPI mode) control module (C)ChaN, 2010 */ /*-----------------------------------------------------------------------*/ /* Only rcvr_spi(), xmit_spi(), disk_timerproc() and some macros */ /* are platform dependent. */ /*-----------------------------------------------------------------------*/ #include <avr/io.h> #include "diskio.h" /*-------------------------------------------------------------------------- Module Private Functions ---------------------------------------------------------------------------*/ /* Port Controls (Platform dependent) */ #define CS_LOW() PORTB &= ~1 /* MMC CS = L */ #define CS_HIGH() PORTB |= 1 /* MMC CS = H */ #define SOCKWP (PINB & 0x20) /* Write protected. yes:true, no:false, default:false */ #define SOCKINS (!(PINB & 0x10)) /* Card detected. yes:true, no:false, default:true */ #define FCLK_SLOW() SPCR = 0x52 /* Set slow clock (100k-400k) */ #define FCLK_FAST() SPCR = 0x50 /* Set fast clock (depends on the CSD) */ /* Definitions for MMC/SDC command */ #define CMD0 (0) /* GO_IDLE_STATE */ #define CMD1 (1) /* SEND_OP_COND (MMC) */ #define ACMD41 (0x80+41) /* SEND_OP_COND (SDC) */ #define CMD8 (8) /* SEND_IF_COND */ #define CMD9 (9) /* SEND_CSD */ #define CMD10 (10) /* SEND_CID */ #define CMD12 (12) /* STOP_TRANSMISSION */ #define ACMD13 (0x80+13) /* SD_STATUS (SDC) */ #define CMD16 (16) /* SET_BLOCKLEN */ #define CMD17 (17) /* READ_SINGLE_BLOCK */ #define CMD18 (18) /* READ_MULTIPLE_BLOCK */ #define CMD23 (23) /* SET_BLOCK_COUNT (MMC) */ #define ACMD23 (0x80+23) /* SET_WR_BLK_ERASE_COUNT (SDC) */ #define CMD24 (24) /* WRITE_BLOCK */ #define CMD25 (25) /* WRITE_MULTIPLE_BLOCK */ #define CMD55 (55) /* APP_CMD */ #define CMD58 (58) /* READ_OCR */ /* 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 */ static volatile DSTATUS Stat = STA_NOINIT; /* Disk status */ static volatile BYTE Timer1, Timer2; /* 100Hz decrement timer */ static BYTE CardType; /* Card type flags */ /*-----------------------------------------------------------------------*/ /* Transmit a byte to MMC via SPI (Platform dependent) */ /*-----------------------------------------------------------------------*/ #define xmit_spi(dat) SPDR=(dat); loop_until_bit_is_set(SPSR,SPIF) /*-----------------------------------------------------------------------*/ /* Receive a byte from MMC via SPI (Platform dependent) */ /*-----------------------------------------------------------------------*/ static BYTE rcvr_spi (void) { SPDR = 0xFF; loop_until_bit_is_set(SPSR, SPIF); return SPDR; } /* Alternative macro to receive data fast */ #define rcvr_spi_m(dst) SPDR=0xFF; loop_until_bit_is_set(SPSR,SPIF); *(dst)=SPDR /*-----------------------------------------------------------------------*/ /* Wait for card ready */ /*-----------------------------------------------------------------------*/ static int wait_ready (void) /* 1:OK, 0:Timeout */ { BYTE d; Timer2 = 50; /* Wait for ready in timeout of 500ms */ do d = rcvr_spi(); while (d != 0xFF && Timer2); return (d == 0xFF) ? 1 : 0; } /*-----------------------------------------------------------------------*/ /* Deselect the card and release SPI bus */ /*-----------------------------------------------------------------------*/ static void deselect (void) { CS_HIGH(); rcvr_spi(); /* Dummy clock (force DO hi-z for multiple slave SPI) */ } /*-----------------------------------------------------------------------*/ /* Select the card and wait for ready */ /*-----------------------------------------------------------------------*/ static int select (void) /* 1:Successful, 0:Timeout */ { CS_LOW(); rcvr_spi(); /* Dummy clock (force DO enabled) */ if (wait_ready()) return 1; /* OK */ deselect(); return 0; /* Timeout */ } /*-----------------------------------------------------------------------*/ /* Power Control (Platform dependent) */ /*-----------------------------------------------------------------------*/ /* When the target system does not support socket power control, there */ /* is nothing to do in these functions and chk_power always returns 1. */ static int power_status(void) /* Socket power state: 0=off, 1=on */ { return 0; // matt //return (PORTE & 0x80) ? 0 : 1; } static void power_on (void) { // matt #if 0 PORTE &= ~0x80; /* Socket power on */ for (Timer1 = 2; Timer1; ); /* Wait for 20ms */ PORTB = 0b10110101; /* Enable drivers */ DDRB = 0b11000111; #endif SPCR = 0x52; /* Enable SPI function in mode 0 */ SPSR = 0x01; /* SPI 2x mode */ } static void power_off (void) { SPCR = 0; /* Disable SPI function */ DDRB = 0b11000000; /* Disable drivers */ PORTB = 0b10110000; // matt #if 0 PORTE |= 0x80; /* Socket power off */ #endif Stat |= STA_NOINIT; } /*-----------------------------------------------------------------------*/ /* Receive a data packet from MMC */ /*-----------------------------------------------------------------------*/ static int rcvr_datablock ( BYTE *buff, /* Data buffer to store received data */ UINT btr /* Byte count (must be multiple of 4) */ ) { BYTE token; Timer1 = 20; do { /* Wait for data packet in timeout of 200ms */ token = rcvr_spi(); } while ((token == 0xFF) && Timer1); if(token != 0xFE) return 0; /* If not valid data token, retutn with error */ do { /* Receive the data block into buffer */ rcvr_spi_m(buff++); rcvr_spi_m(buff++); rcvr_spi_m(buff++); rcvr_spi_m(buff++); } while (btr -= 4); rcvr_spi(); /* Discard CRC */ rcvr_spi(); return 1; /* Return with success */ } /*-----------------------------------------------------------------------*/ /* Send a data packet to MMC */ /*-----------------------------------------------------------------------*/ static int xmit_datablock ( const BYTE *buff, /* 512 byte data block to be transmitted */ BYTE token /* Data/Stop token */ ) { BYTE resp, wc; if (!wait_ready()) return 0; xmit_spi(token); /* Xmit data token */ if (token != 0xFD) { /* Is data token */ wc = 0; do { /* Xmit the 512 byte data block to MMC */ xmit_spi(*buff++); xmit_spi(*buff++); } while (--wc); xmit_spi(0xFF); /* CRC (Dummy) */ xmit_spi(0xFF); resp = rcvr_spi(); /* Reveive data response */ if ((resp & 0x1F) != 0x05) /* If not accepted, return with error */ return 0; } return 1; } /*-----------------------------------------------------------------------*/ /* Send a command packet to MMC */ /*-----------------------------------------------------------------------*/ static BYTE send_cmd ( /* Returns R1 resp (bit7==1:Send failed) */ BYTE cmd, /* Command index */ DWORD arg /* Argument */ ) { BYTE n, res; if (cmd & 0x80) { /* ACMD<n> is the command sequense of CMD55-CMD<n> */ cmd &= 0x7F; res = send_cmd(CMD55, 0); if (res > 1) return res; } /* Select the card and wait for ready */ deselect(); if (!select()) return 0xFF; /* Send command packet */ xmit_spi(0x40 | cmd); /* Start + Command index */ xmit_spi((BYTE)(arg >> 24)); /* Argument[31..24] */ xmit_spi((BYTE)(arg >> 16)); /* Argument[23..16] */ xmit_spi((BYTE)(arg >> 8)); /* Argument[15..8] */ xmit_spi((BYTE)arg); /* Argument[7..0] */ n = 0x01; /* Dummy CRC + Stop */ if (cmd == CMD0) n = 0x95; /* Valid CRC for CMD0(0) */ if (cmd == CMD8) n = 0x87; /* Valid CRC for CMD8(0x1AA) */ xmit_spi(n); /* Receive command response */ if (cmd == CMD12) rcvr_spi(); /* Skip a stuff byte when stop reading */ n = 10; /* Wait for a valid response in timeout of 10 attempts */ do res = rcvr_spi(); while ((res & 0x80) && --n); return res; /* Return with the response value */ } /*-------------------------------------------------------------------------- Public Functions ---------------------------------------------------------------------------*/ /*-----------------------------------------------------------------------*/ /* Initialize Disk Drive */ /*-----------------------------------------------------------------------*/ DSTATUS disk_initialize ( BYTE drv /* Physical drive nmuber (0) */ ) { BYTE n, cmd, ty, ocr[4]; if (drv) return STA_NOINIT; /* Supports only single drive */ if (Stat & STA_NODISK) return Stat; /* No card in the socket */ power_on(); /* Force socket power on */ FCLK_SLOW(); for (n = 10; n; n--) rcvr_spi(); /* 80 dummy clocks */ ty = 0; if (send_cmd(CMD0, 0) == 1) { /* Enter Idle state */ Timer1 = 100; /* Initialization timeout of 1000 msec */ if (send_cmd(CMD8, 0x1AA) == 1) { /* SDv2? */ for (n = 0; n < 4; n++) ocr[n] = rcvr_spi(); /* Get trailing return value of R7 resp */ if (ocr[2] == 0x01 && ocr[3] == 0xAA) { /* The card can work at vdd range of 2.7-3.6V */ while (Timer1 && send_cmd(ACMD41, 1UL << 30)); /* Wait for leaving idle state (ACMD41 with HCS bit) */ if (Timer1 && send_cmd(CMD58, 0) == 0) { /* Check CCS bit in the OCR */ for (n = 0; n < 4; n++) ocr[n] = rcvr_spi(); ty = (ocr[0] & 0x40) ? CT_SD2 | CT_BLOCK : CT_SD2; /* SDv2 */ } } } else { /* SDv1 or MMCv3 */ if (send_cmd(ACMD41, 0) <= 1) { ty = CT_SD1; cmd = ACMD41; /* SDv1 */ } else { ty = CT_MMC; cmd = CMD1; /* MMCv3 */ } while (Timer1 && send_cmd(cmd, 0)); /* Wait for leaving idle state */ if (!Timer1 || send_cmd(CMD16, 512) != 0) /* Set R/W block length to 512 */ ty = 0; } } CardType = ty; deselect(); if (ty) { /* Initialization succeded */ Stat &= ~STA_NOINIT; /* Clear STA_NOINIT */ FCLK_FAST(); } else { /* Initialization failed */ power_off(); } return Stat; } /*-----------------------------------------------------------------------*/ /* Get Disk Status */ /*-----------------------------------------------------------------------*/ DSTATUS disk_status ( BYTE drv /* Physical drive nmuber (0) */ ) { if (drv) return STA_NOINIT; /* Supports only single drive */ return Stat; } /*-----------------------------------------------------------------------*/ /* Read Sector(s) */ /*-----------------------------------------------------------------------*/ DRESULT disk_read ( BYTE drv, /* Physical drive nmuber (0) */ BYTE *buff, /* Pointer to the data buffer to store read data */ DWORD sector, /* Start sector number (LBA) */ BYTE count /* Sector count (1..255) */ ) { if (drv || !count) return RES_PARERR; if (Stat & STA_NOINIT) return RES_NOTRDY; if (!(CardType & CT_BLOCK)) sector *= 512; /* Convert to byte address if needed */ if (count == 1) { /* Single block read */ if ((send_cmd(CMD17, sector) == 0) /* READ_SINGLE_BLOCK */ && rcvr_datablock(buff, 512)) count = 0; } else { /* Multiple block read */ if (send_cmd(CMD18, sector) == 0) { /* READ_MULTIPLE_BLOCK */ do { if (!rcvr_datablock(buff, 512)) break; buff += 512; } while (--count); send_cmd(CMD12, 0); /* STOP_TRANSMISSION */ } } deselect(); return count ? RES_ERROR : RES_OK; } /*-----------------------------------------------------------------------*/ /* Write Sector(s) */ /*-----------------------------------------------------------------------*/ DRESULT disk_write ( BYTE drv, /* Physical drive nmuber (0) */ const BYTE *buff, /* Pointer to the data to be written */ DWORD sector, /* Start sector number (LBA) */ BYTE count /* Sector count (1..255) */ ) { if (drv || !count) return RES_PARERR; if (Stat & STA_NOINIT) return RES_NOTRDY; if (Stat & STA_PROTECT) return RES_WRPRT; if (!(CardType & CT_BLOCK)) sector *= 512; /* Convert to byte address if needed */ if (count == 1) { /* Single block write */ if ((send_cmd(CMD24, sector) == 0) /* WRITE_BLOCK */ && xmit_datablock(buff, 0xFE)) count = 0; } else { /* Multiple block write */ if (CardType & CT_SDC) send_cmd(ACMD23, count); if (send_cmd(CMD25, sector) == 0) { /* WRITE_MULTIPLE_BLOCK */ do { if (!xmit_datablock(buff, 0xFC)) break; buff += 512; } while (--count); if (!xmit_datablock(0, 0xFD)) /* STOP_TRAN token */ count = 1; } } deselect(); return count ? RES_ERROR : RES_OK; } /*-----------------------------------------------------------------------*/ /* Miscellaneous Functions */ /*-----------------------------------------------------------------------*/ DRESULT disk_ioctl ( BYTE drv, /* Physical drive nmuber (0) */ BYTE ctrl, /* Control code */ void *buff /* Buffer to send/receive control data */ ) { DRESULT res; BYTE n, csd[16], *ptr = buff; WORD csize; if (drv) return RES_PARERR; res = RES_ERROR; if (ctrl == CTRL_POWER) { switch (ptr[0]) { case 0: /* Sub control code (POWER_OFF) */ power_off(); /* Power off */ res = RES_OK; break; case 1: /* Sub control code (POWER_GET) */ ptr[1] = (BYTE)power_status(); res = RES_OK; break; default : res = RES_PARERR; } } else { if (Stat & STA_NOINIT) return RES_NOTRDY; switch (ctrl) { case CTRL_SYNC : /* Make sure that no pending write process. Do not remove this or written sector might not left updated. */ if (select()) { deselect(); res = RES_OK; } break; case GET_SECTOR_COUNT : /* Get number of sectors on the disk (DWORD) */ if ((send_cmd(CMD9, 0) == 0) && rcvr_datablock(csd, 16)) { if ((csd[0] >> 6) == 1) { /* SDC ver 2.00 */ csize = csd[9] + ((WORD)csd[8] << 8) + 1; *(DWORD*)buff = (DWORD)csize << 10; } else { /* SDC ver 1.XX or MMC*/ n = (csd[5] & 15) + ((csd[10] & 128) >> 7) + ((csd[9] & 3) << 1) + 2; csize = (csd[8] >> 6) + ((WORD)csd[7] << 2) + ((WORD)(csd[6] & 3) << 10) + 1; *(DWORD*)buff = (DWORD)csize << (n - 9); } res = RES_OK; } break; case GET_SECTOR_SIZE : /* Get R/W sector size (WORD) */ *(WORD*)buff = 512; res = RES_OK; break; case GET_BLOCK_SIZE : /* Get erase block size in unit of sector (DWORD) */ if (CardType & CT_SD2) { /* SDv2? */ if (send_cmd(ACMD13, 0) == 0) { /* Read SD status */ rcvr_spi(); if (rcvr_datablock(csd, 16)) { /* Read partial block */ for (n = 64 - 16; n; n--) rcvr_spi(); /* Purge trailing data */ *(DWORD*)buff = 16UL << (csd[10] >> 4); res = RES_OK; } } } else { /* SDv1 or MMCv3 */ if ((send_cmd(CMD9, 0) == 0) && rcvr_datablock(csd, 16)) { /* Read CSD */ if (CardType & CT_SD1) { /* SDv1 */ *(DWORD*)buff = (((csd[10] & 63) << 1) + ((WORD)(csd[11] & 128) >> 7) + 1) << ((csd[13] >> 6) - 1); } else { /* MMCv3 */ *(DWORD*)buff = ((WORD)((csd[10] & 124) >> 2) + 1) * (((csd[11] & 3) << 3) + ((csd[11] & 224) >> 5) + 1); } res = RES_OK; } } break; case MMC_GET_TYPE : /* Get card type flags (1 byte) */ *ptr = CardType; res = RES_OK; break; case MMC_GET_CSD : /* Receive CSD as a data block (16 bytes) */ if (send_cmd(CMD9, 0) == 0 /* READ_CSD */ && rcvr_datablock(ptr, 16)) res = RES_OK; break; case MMC_GET_CID : /* Receive CID as a data block (16 bytes) */ if (send_cmd(CMD10, 0) == 0 /* READ_CID */ && rcvr_datablock(ptr, 16)) res = RES_OK; break; case MMC_GET_OCR : /* Receive OCR as an R3 resp (4 bytes) */ if (send_cmd(CMD58, 0) == 0) { /* READ_OCR */ for (n = 4; n; n--) *ptr++ = rcvr_spi(); res = RES_OK; } break; case MMC_GET_SDSTAT : /* Receive SD statsu as a data block (64 bytes) */ if (send_cmd(ACMD13, 0) == 0) { /* SD_STATUS */ rcvr_spi(); if (rcvr_datablock(ptr, 64)) res = RES_OK; } break; default: res = RES_PARERR; } deselect(); } return res; } /*-----------------------------------------------------------------------*/ /* Device Timer Interrupt Procedure */ /*-----------------------------------------------------------------------*/ /* This function must be called in period of 10ms */ void disk_timerproc (void) { BYTE n, s; n = Timer1; /* 100Hz decrement timer */ if (n) Timer1 = --n; n = Timer2; if (n) Timer2 = --n; s = Stat; if (SOCKWP) /* Write protected */ s |= STA_PROTECT; else /* Write enabled */ s &= ~STA_PROTECT; if (SOCKINS) /* Card inserted */ s &= ~STA_NODISK; else /* Socket empty */ s |= (STA_NODISK | STA_NOINIT); Stat = s; /* Update MMC status */ }