/* * (C) Copyright 2009 * ST-Ericsson, * * See file CREDITS for list of people who contributed to this * project. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA */ #include #include #include #include "gpio.h" #include "mmc.h" // MMC api #include "mmc_utils.h" // to access MMC #include "mmc_p.h" // t_mmc_register definition u32 MMCBuffer[1024] ; static int IS_SD_CARD; /* --- exported from other modules ---------------------------------------- */ static u8 selected_card = 0; extern t_mmc_error mmc_cmderror_2 (void); extern t_mmc_error mmc_cmdresp2error_2 (void); extern t_mmc_error mmc_cmdresp3error_2 (void); extern t_mmc_error mmc_cmdresp145error_2 (u8 cmd); extern t_mmc_error mmc_cmdreadresp (u32 * tempbuff); extern t_mmc_error mmc_waitcmdreadresp (void); extern t_mmc_error mmc_cmdwriteresp (u8 cardno, u32 * tempbuff, u16 total_num_of_bytes); extern t_mmc_error mmc_waitcmdwriteresp (u8 cardno, u32 * tempbuff, u16 total_num_of_bytes); extern t_mmc_register *t_mmc0; extern u32 t_mmc_rel_addr; t_mmc_boot_record mmc_boot_record; void mmc_copyByteH (u8 * sourceAddr, u8 * destAddress, int size) { int i; for (i = 0; i < size; i++) { *(destAddress + i) = *(sourceAddr + i); } } void mmc_shift_memH (int num_of_words, u32 * start_address, u32 * dest_address, u32 shift) { u32 *address; int word = 0; u32 high; int i, word_offset, bit_offset; word_offset = (int) (shift / 32); bit_offset = (int) (shift % 32); for (i = 0; i < num_of_words; i++) { *(dest_address + i) = 0; } for (i = word_offset; i < num_of_words; i++) { *(dest_address + i - word_offset) = *(start_address + i); } address = dest_address; for (word = 0; word < num_of_words - 1; word++) { *address = (*address) >> bit_offset; address++; high = (*address << (32 - bit_offset)); *(address - 1) |= high; } *address = (*address) >> bit_offset; } u8 convert_from_bytes_to_power_of_two (u16 no_of_bytes) { u8 count = 0; while (no_of_bytes != 1) { no_of_bytes >>= 1; count++; } return count; } t_mmc_error mmc_enable () { t_mmc_error error = MMC_OK; t_mmc_command_control commcontrol; t_bool validvoltage = FALSE; u32 arg, response; int i; IS_SD_CARD = 0; selected_card = 0; t_mmc0->mmc_Power = 0x1BF; t_mmc0->mmc_Clock = 0x41FF; commcontrol.IsRespExpected = FALSE; commcontrol.IsLongResp = FALSE; commcontrol.IsInterruptMode = FALSE; commcontrol.IsPending = FALSE; commcontrol.cmdpath = MMC_ENABLE; error = mmc_sendcommand (MMC_GO_IDLE_STATE, 0x00000000, commcontrol); error = mmc_cmderror_2 (); //// Added by Chris Sebastian for SD Card support: //// Send ACMD41. If we do not get a response, it is not an SD card. //// If we do get a response, loop until card is not busy. commcontrol.IsRespExpected = TRUE; commcontrol.IsLongResp = FALSE; commcontrol.IsInterruptMode = FALSE; commcontrol.IsPending = FALSE; commcontrol.cmdpath = MMC_ENABLE; for(i = 200; i; i--) { error = mmc_sendcommand (MMC_APP_CMD, 0x00000000, commcontrol); // Let the card know that the next command is an app-cmd. error = mmc_cmdresp145error_2(MMC_APP_CMD); error = mmc_sendcommand (SD_SEND_OP_COND, 0x00060000, commcontrol); // I got the 0x00060000 from Linux kernel source. error = mmc_cmdresp3error_2 (); t_mmc0->mmc_Clear = ClrStaticFlags; //clear all the static status flags. CmdResp3Error_2 leaves some bits set. if (t_mmc0->mmc_Response0 & 0x80000000) { printf("SD card detected \n"); IS_SD_CARD = 1; return MMC_OK; // SD CARD DETECTED. Do not continue with MMC init logic. Quick escape! } } commcontrol.IsRespExpected = FALSE; commcontrol.IsLongResp = FALSE; commcontrol.IsInterruptMode = FALSE; commcontrol.IsPending = FALSE; commcontrol.cmdpath = MMC_ENABLE; error = mmc_sendcommand (MMC_GO_IDLE_STATE, 0x00000000, commcontrol); error = mmc_cmderror_2 (); arg = 0x00060000; // High Voltage MMC, byte mode. Was 0x00FFC000, but that writes to reserved bits... while (!validvoltage) { // send CMD1 (SEND_OP_COND) commcontrol.IsRespExpected = TRUE; error = mmc_sendcommand (MMC_SEND_OP_COND, arg, commcontrol); error = mmc_cmdresp3error_2 (); if (error != MMC_OK) { goto end; } mmc_getresponse (MMC_SHORT_RESP, &response); arg = response; validvoltage = (t_bool) (((response >> 31) == 1) ? 1 : 0); } end: return error; } t_mmc_error mmc_disable () { t_mmc_error error = MMC_OK; t_mmc_power_state powerstate = MMC_POWER_OFF; error = mmc_setpowerstate (powerstate); return error; } t_mmc_error mmc_initCard () { t_mmc_error error = MMC_OK; t_mmc_command_control commcontrol; t_mmc_bus_configuration busconfig; t_mmc_clock_control clockcontrol; // send CMD2 (ALL_SEND_CID) commcontrol.IsRespExpected = TRUE; commcontrol.IsLongResp = TRUE; commcontrol.IsInterruptMode = FALSE; commcontrol.IsPending = FALSE; commcontrol.cmdpath = MMC_ENABLE; error = mmc_sendcommand (MMC_ALL_SEND_CID, 0x00000000, commcontrol); error = mmc_cmdresp2error_2 (); // error is MMC_CMD_CRC_FAIL on COB board ?! // if( error != MMC_OK) // goto end; // send CMD3 (SET_RELATIVE_ADDR) commcontrol.IsLongResp = FALSE; error = mmc_sendcommand (MMC_SET_REL_ADDR, t_mmc_rel_addr, commcontrol); error = mmc_cmdresp145error_2 (MMC_SET_REL_ADDR); if(IS_SD_CARD) { t_mmc_rel_addr = t_mmc0->mmc_Response0 & 0xFFFF0000; } if (error != MMC_OK) { goto end; } busconfig.mode = MMC_PUSH_PULL; busconfig.rodctrl = MMC_DISABLE; error = mmc_configbus (busconfig); clockcontrol.pwrsave= MMC_DISABLE; clockcontrol.bypass = MMC_DISABLE; clockcontrol.widebus= MMC_DISABLE; error = mmc_setclockfrequency (0x0A); // 12MHz if (error != MMC_OK) { goto end; } error = mmc_configclockcontrol (clockcontrol); if (error != MMC_OK) { goto end; } end: return error; } t_mmc_error mmc_readblock (u8 cardno, u32 addr, u32 * readbuff, u16 blocksize, t_mmc_transfer_mode mmc_transfer_mode) { t_mmc_error error = MMC_OK; u8 power; t_mmc_command_control commcontrol; u32 response; commcontrol.IsRespExpected = TRUE ; commcontrol.IsLongResp = FALSE ; commcontrol.IsInterruptMode = FALSE ; commcontrol.IsPending = FALSE ; commcontrol.cmdpath = MMC_ENABLE ; error = mmc_setdatapath (MMC_DISABLE); error = mmc_handledma (MMC_DISABLE); if (error != MMC_OK) { goto end; } // send command for selecting the card if (cardno != selected_card) { error = mmc_sendcommand (MMC_SEL_DESEL_CARD, t_mmc_rel_addr, commcontrol); error = mmc_cmdresp145error_2 (MMC_SEL_DESEL_CARD); if (error != MMC_OK) { goto end; } else { selected_card = cardno; } } error = mmc_getresponse (MMC_SHORT_RESP, &response); if (response & 0x02000000) { return MMC_LOCK_UNLOCK_FAILED; } // set the block size,both on controller and card if ((blocksize > 0) && (blocksize <= 2048) && ((blocksize & (blocksize - 1)) == 0)) { power = convert_from_bytes_to_power_of_two (blocksize); error = mmc_setdatablocklength (power); error = mmc_sendcommand (MMC_SET_BLOCKLEN, (u32) blocksize, commcontrol); error = mmc_cmdresp145error_2 (MMC_SET_BLOCKLEN); if (error != MMC_OK) { return error; } } else { error = MMC_INVALID_PARAMETER; goto end; } error = mmc_setdatalength (blocksize ); error = mmc_setdatatimeout (0xefffffff ); error = mmc_settransferdirection (MMC_READ ); error = mmc_settransfertype (MMC_BLOCK ); error = mmc_setdatapath (MMC_ENABLE); //t_mmc0->mmc_DataCtrl |= (ReadDir & ~StreamMode) | DataPathEnable; error = mmc_sendcommand (MMC_READ_SINGLE_BLOCK, addr, commcontrol); error = mmc_cmdresp145error_2 (MMC_READ_SINGLE_BLOCK); if (error != MMC_OK) { goto end; } if (mmc_transfer_mode == MMCDMA) { error = mmc_waitcmdreadresp (); } else { error = mmc_cmdreadresp (readbuff); } if (error != MMC_OK) { goto end; } end: return error; } t_mmc_error mmc_writeblock (u8 cardno, u32 addr, u32 * writebuff, u16 blocksize, t_mmc_transfer_mode mmc_transfer_mode) { t_mmc_error error = MMC_OK; u8 power; t_mmc_command_control commcontrol; u32 response; commcontrol.IsRespExpected = TRUE; commcontrol.IsLongResp = FALSE; commcontrol.IsInterruptMode = FALSE; commcontrol.IsPending = FALSE; commcontrol.cmdpath = MMC_ENABLE; error = mmc_setdatapath (MMC_DISABLE); error = mmc_handledma (MMC_DISABLE); error = mmc_settransferdirection(MMC_WRITE); error = mmc_settransfertype (MMC_BLOCK); if (cardno != selected_card) { error = mmc_sendcommand (MMC_SEL_DESEL_CARD, t_mmc_rel_addr, commcontrol); error = mmc_cmdresp145error_2 (MMC_SEL_DESEL_CARD); if (error != MMC_OK) { goto end; } else { selected_card = cardno; } } mmc_getresponse (MMC_SHORT_RESP, &response); if (response & 0x02000000) { return MMC_LOCK_UNLOCK_FAILED; } // set the block size,both on controller and card if ((blocksize > 0) && (blocksize <= 2048) && (((blocksize & (blocksize - 1)) == 0))) { power = convert_from_bytes_to_power_of_two (blocksize); error = mmc_setdatablocklength (power); error = mmc_sendcommand (MMC_SET_BLOCKLEN, (u32) blocksize, commcontrol); error = mmc_cmdresp145error_2 (MMC_SET_BLOCKLEN); if (error != MMC_OK) { goto end; } } else { error = MMC_INVALID_PARAMETER; goto end; } error = mmc_setdatalength (blocksize); error = mmc_setdatatimeout (0xefffffff); error = mmc_settransferdirection (MMC_WRITE); error = mmc_settransfertype (MMC_BLOCK); error = mmc_setdatapath (MMC_ENABLE); error = mmc_sendcommand (MMC_WRITE_SINGLE_BLOCK, addr, commcontrol); error = mmc_cmdresp145error_2 (MMC_WRITE_SINGLE_BLOCK); if (error != MMC_OK) { goto end; } if (mmc_transfer_mode == MMCDMA) { error = mmc_waitcmdwriteresp (cardno, writebuff, blocksize); } else { error = mmc_cmdwriteresp (cardno, writebuff, blocksize); } if (error != MMC_OK) { goto end; } end: return error; } t_mmc_error mmc_readcsd (u32 * CSD) { t_mmc_error error = MMC_OK; t_mmc_command_control commcontrol; u32 buf[4]; // send CMD9 (SEND CSD) commcontrol.IsRespExpected = TRUE; commcontrol.IsLongResp = TRUE; commcontrol.IsInterruptMode = FALSE; commcontrol.IsPending = FALSE; commcontrol.cmdpath = MMC_ENABLE; error = mmc_sendcommand (MMC_SEND_CSD, t_mmc_rel_addr, commcontrol); error = mmc_cmdresp2error_2 (); if (error != MMC_OK) { goto end; } error = mmc_getresponse (MMC_LONG_RESP, buf); CSD[0] = buf[3]; CSD[1] = buf[2]; CSD[2] = buf[1]; CSD[3] = buf[0]; end: return error; } t_mmc_error mmc_readcid (u32 * CID) { t_mmc_error error = MMC_OK; t_mmc_command_control commcontrol; u32 buf[4]; // send CMD9 (SEND CSD) commcontrol.IsRespExpected = TRUE; commcontrol.IsLongResp = TRUE; commcontrol.IsInterruptMode = FALSE; commcontrol.IsPending = FALSE; commcontrol.cmdpath = MMC_ENABLE; error = mmc_sendcommand (MMC_SEND_CID, t_mmc_rel_addr, commcontrol); error = mmc_cmdresp2error_2 (); if (error != MMC_OK) { goto end; } error = mmc_getresponse (MMC_LONG_RESP, buf); CID[0] = buf[3]; CID[1] = buf[2]; CID[2] = buf[1]; CID[3] = buf[0]; end: return error; } t_mmc_error mmc_read_file (char *filename, u32 address, u32 * FileSize) { u8 *mem_address = (u8 *) address; u8 sector[512]; u16 BytesPerSector; u32 BRStartSector; u32 FATStartSector; u32 DataStartSector; u32 FileStartSector; u16 SectorsPerFAT; u8 SectorsPerCluster; u8 k; u16 MaxRDEntries; u16 ReservedSectors; u32 RDStartSector, j; char nomefile[12] = " "; int filelength; u16 FileStartCluster = 0; t_mmc_error response, response2; int i, goout, found, result = PASS; u32 CSD[4]; char mmcfilename[] = " "; char *dotpos; /////////// Attention please: ///////////////////// // // // if other Alternate function apart from MMCI // // are selected, the MMCI I/F has some problems // // // //////////////////////////////////////////////////// gpio_altfuncenable(GPIO_ALT_SD_CARD0, "MMC"); // Power-on the controller response = mmc_enable (); if (response != MMC_OK) { response = mmc_enable (); // This actually IS necessary because it takes time for newly-inserted cards initialize. ~Chris S. if (response != MMC_OK) { printf ("Error in card power on\n"); result = FAIL; goto end; } } // Initialise the cards on the bus, if any response = mmc_initCard (); if (response != MMC_OK) { printf ("Error in card initialization\n"); result = FAIL; goto end; } // Get card info: CID, CSD, RCA registers response = mmc_readcsd (CSD); if (response != MMC_OK) { printf ("Error while fetching card info\n"); result = FAIL; goto end; } // Read the MBR response = mmc_readblock (1, 0, (u32 *) sector, 512, MMCPOLLING); if (response != MMC_OK) { printf ("Error while reading boot record\n"); result = FAIL; goto end; } if (sector[446] == 0x00 || sector[446] == 0x80) { // found a MBR at the beginning of card BRStartSector = sector[454]; } else { // BR at the beginning of card BRStartSector = 0x00; } // Read the BR response = mmc_readblock (1, (u32) (512 * BRStartSector), (u32 *) & mmc_boot_record, 512, MMCPOLLING); k = 0; while (response == MMC_DATA_CRC_FAIL && (k < 2)) { response = mmc_readblock (1, (u32) (512 * BRStartSector), (u32 *) & mmc_boot_record, 512, MMCPOLLING); k++; } if (response != MMC_OK) { printf ("Error while reading boot record\n"); result = FAIL; goto end; } mmc_copyByteH (mmc_boot_record.BytesPerSector, (u8 *) & BytesPerSector, 2); mmc_copyByteH (mmc_boot_record.ReservedSectors, (u8 *) & ReservedSectors, 2); FATStartSector = BRStartSector + ReservedSectors; // the field at offset 15 contains the number of reserved sectors at // the beginning of the media including the boot sector mmc_copyByteH (mmc_boot_record.SectorsPerFat, (u8 *) & SectorsPerFAT, 2); SectorsPerCluster = mmc_boot_record.SectorsPerCluster[0]; mmc_copyByteH (mmc_boot_record.NumOfRootEntries, (u8 *) & MaxRDEntries, 2); FATStartSector += SectorsPerFAT; RDStartSector = FATStartSector + SectorsPerFAT; DataStartSector = RDStartSector + (u32) ((MaxRDEntries * 32) / 512); // convert filename into mmc compatible file name (upper case , <= 8+3 char, no dot, no extension) filelength = strlen (filename); dotpos = strchr (filename, '.'); if (dotpos == NULL) { // no dot if (filelength <= 8) { for (j = 0; j < filelength; j++) { mmcfilename[j] = (char) toupper (filename[j]); } } else { for (j = 0; j < 6; j++) { mmcfilename[j] = (char) toupper (filename[j]); } mmcfilename[7] = '~'; mmcfilename[8] = '1'; filelength = 8; } } else { // dot if ((dotpos - filename) <= 8) { for (j = 0; j < (dotpos - filename); j++) { mmcfilename[j] = (char) toupper (filename[j]); } for (; j < 8; j++) { mmcfilename[j] = ' '; } // copy 3 char after . mmcfilename[j++] = (char) toupper (dotpos[1]); mmcfilename[j++] = (char) toupper (dotpos[2]); mmcfilename[j++] = (char) toupper (dotpos[3]); } else { for (j = 0; j < 6; j++) { mmcfilename[j] = (char) toupper (filename[j]); } mmcfilename[6] = '~'; mmcfilename[7] = '1'; // copy 3 char after . mmcfilename[8] = (char) toupper (dotpos[1]); mmcfilename[9] = (char) toupper (dotpos[2]); mmcfilename[10] = (char) toupper (dotpos[3]); } filelength = 11; } mmcfilename[11] = '\0'; // search Root Directory for entry filename goout = 0; found = 0; for (j = 0; j < (DataStartSector - RDStartSector); j++) { if (goout == 1) break; response = mmc_readblock (1, (u32) ((RDStartSector + j) * 512), (u32 *) sector, 512, MMCPOLLING); if (response != MMC_OK) { printf ("Error while reading root directory\n"); result = FAIL; goto end; } for (i = 0; i < 512; i += 32) { strncpy (nomefile, (char *) §or[i], filelength); if (strcmp (nomefile, mmcfilename) == 0) { mmc_copyByteH (§or[i + 26], (u8 *) & FileStartCluster, 2); mmc_copyByteH (§or[i + 28], (u8 *) FileSize, 4); FileStartCluster -= 2; goout = 1; found = 1; break; } if (nomefile[0] == 0) { // end of Root Directory goout = 1; break; } } } // size of file : *FileSize ( 32 bits quantum) // number of bytes per sector : BytesPerSector // Beginning of file : FileStartSector printf ("Bytes per sector : %d \n", BytesPerSector ); printf ("Sectors per cluster : %d \n", SectorsPerCluster ); if (found) { u32 remaining = *FileSize ; u32 count; u32 burstsize = BytesPerSector ; FileStartSector = ( DataStartSector + (u32)(FileStartCluster * SectorsPerCluster)) ; printf ("Reading file %s from MMC ..., start sector = %d, address 0x%x \n",filename,FileStartSector,address); count = SectorsPerCluster - (FileStartSector % SectorsPerCluster) ; FileStartSector = FileStartSector * BytesPerSector; // the first burst might be different to align of clusters do { if ( remaining >= burstsize ) { // read straight burst k = 0; do { response = mmc_readblock (1, (u32) FileStartSector , (u32 *) mem_address, burstsize , MMCPOLLING); k++; } while ((response==MMC_DATA_CRC_FAIL)&&(k<4)); if ( k != 1) printf ("!"); FileStartSector += burstsize; mem_address += burstsize; remaining -= burstsize; } else { // read burst +1 and perform memcpy burstsize = ((remaining + (BytesPerSector-1))/BytesPerSector) * BytesPerSector ; k = 0; do { response = mmc_readblock (1, (u32) FileStartSector , (u32 *) MMCBuffer , burstsize , MMCPOLLING); k++; } while ((response==MMC_DATA_CRC_FAIL)&&(k<4)); if ( k != 1) printf ("!"); memcpy ((char *) mem_address, (char *)MMCBuffer,remaining); remaining = 0; } if (response != MMC_OK) { printf ("Error while reading file %s\n", filename); result = FAIL; goto end; } } while ( remaining ); } else { printf ("Unable to find %s on Multi Media Card\n", filename); response = MMC_INVALID_PARAMETER; result = FAIL; goto end; } end: gpio_altfuncdisable(GPIO_ALT_SD_CARD0, "MMC"); response2 = mmc_disable (); return response; } t_mmc_error display_file_list (char *extension) { u32 i, j, k, goout; u32 FATStartSector; u8 SectorsPerCluster; u32 RDStartSector; u32 DataStartSector; u16 BytesPerSector; u32 BRStartSector; u16 SectorsPerFAT; u16 MaxRDEntries; u16 ReservedSectors; u8 sector[512]; t_mmc_error response; t_mmc_error response2; u32 CSD[4]; char nomefile[12] = " "; char name[9] = " "; char extent[4] = " "; u32 FileSize; //printf("disp:: start\n"); gpio_altfuncenable(GPIO_ALT_SD_CARD0, "MMC"); // Power-on the controller response = mmc_enable (); if (response != MMC_OK) { response = mmc_enable (); // This actually IS necessary because it takes time for newly-inserted cards initialize. ~Chris S. if (response != MMC_OK) { printf ("Error in card power on, response is %d\n", response); goto end; } } // Initialise the cards on the bus, if any response = mmc_initCard (); if (response != MMC_OK) { printf ("1. Error in card initialization\n"); goto end; } // Get card info: CID, CSD, RCA registers response = mmc_readcsd (CSD); if (response != MMC_OK) { printf ("Error while fetching card info\n"); goto end; } // Read the MBR response = mmc_readblock (1, 0, (u32 *) sector, 512, MMCPOLLING); if (response != MMC_OK) { printf ("Error while reading boot record\n"); goto end; } if (sector[446] == 0x00 || sector[446] == 0x80) { // found a MBR at the beginning of card BRStartSector = sector[454]; } else { // BR at the beginning of card BRStartSector = 0x00; } // Read the BR response = mmc_readblock (1, (u32) (512 * BRStartSector), (u32 *) & mmc_boot_record, 512, MMCPOLLING); k = 0; while (response == MMC_DATA_CRC_FAIL && (k < 2)) { response = mmc_readblock (1, (u32) (512 * BRStartSector), (u32 *) & mmc_boot_record, 512, MMCPOLLING); k++; } if (response != MMC_OK) { printf ("Error while reading boot record\n"); goto end; } mmc_copyByteH (mmc_boot_record.BytesPerSector, (u8 *) & BytesPerSector, 2); mmc_copyByteH (mmc_boot_record.ReservedSectors, (u8 *) & ReservedSectors, 2); FATStartSector = BRStartSector + ReservedSectors; // the field at offset 15 contains the number of reserved sectors at // the beginning of the media including the boot sector mmc_copyByteH (mmc_boot_record.SectorsPerFat, (u8 *) & SectorsPerFAT, 2); SectorsPerCluster = mmc_boot_record.SectorsPerCluster[0]; mmc_copyByteH (mmc_boot_record.NumOfRootEntries, (u8 *) & MaxRDEntries, 2); FATStartSector += SectorsPerFAT; RDStartSector = FATStartSector + SectorsPerFAT; DataStartSector = RDStartSector + (u32) ((MaxRDEntries * 32) / 512); // search Root Directory for entry filename goout = 0; printf ("file \t\t size\n"); for (j = 0; j < (DataStartSector - RDStartSector); j++) { printf(" disp:: data start \n"); if (goout == 1) { break; } response = mmc_readblock (1, (u32) ((RDStartSector + j) * 512), (u32 *) sector, 512, MMCPOLLING); k = 0; while (response == MMC_DATA_CRC_FAIL && (k < 2)) { response = mmc_readblock (1, (u32) ((RDStartSector + j) * 512), (u32 *) sector, 512, MMCPOLLING); k++; } if (response != MMC_OK) { printf ("Error while reading root directory\n"); goto end; } for (i = 0; i < 512; i += 32) { strncpy (nomefile, (char *) §or[i], 11); if (nomefile[0] == 0) // end of Root Directory { goout = 1; break; } if (nomefile[0] != 0xE5) // not deleted file only { for (k = 0; k < 3; k++) { extent[k] = (char) toupper (extension[k]); } if ((strncmp (&nomefile[8], extent, strlen (extension)) == 0) || (*extension == '*')) { mmc_copyByteH (§or[i + 28], (u8 *) & FileSize, 4); k = 0; while ((nomefile[k] != 0x20) && (k < 8)) { name[k] = (char) tolower (nomefile[k]); k++; } name[k] = '\0'; for (k = 0; k < 3; k++) { extent[k] = (char) tolower (nomefile[k + 8]); } printf ("%s.%s \t %10ld\n", name, extent, FileSize); } } } } end: gpio_altfuncdisable(GPIO_ALT_SD_CARD0, "MMC"); response2 = mmc_disable (); //printf("disp:: done \n"); return response; } /* * command line commands */ static char mmc_cmdbuffer[1024] ; int copy_file_mmc (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { unsigned long address; unsigned long filesize; int load_result; char filename[30]; strcpy(filename , argv[1]); address = simple_strtoul (argv[2], 0, 16); printf("copy_file_mmc : filename = %s\n", filename); printf("copy_file_mmc : address = %x\n", address); load_result = mmc_read_file(filename, address, &filesize); if (load_result != 0) { printf("copy_file_mmc error : in loading file \n"); } return(load_result); } int mmc_read_cmd_file (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { unsigned long filesize; int load_result; load_result = mmc_read_file("command.txt", (unsigned long)&mmc_cmdbuffer, &filesize); if (load_result != 0) { printf("mmc_read_cmd_file error : in loading file \n"); } else { setenv ("bootcmd", mmc_cmdbuffer); } return(load_result); } U_BOOT_CMD( copy_file_mmc, 3, 0, copy_file_mmc, "- copy file from mmc card\n", "filename address\n" " - load binary file from the MMC/SD card to a memory address\n" ); U_BOOT_CMD( mmc_read_cmd_file, 1, 0, mmc_read_cmd_file, "- copy command file from mmc card\n", NULL ); /* ------------------------------- End of file ---------------------------- */