/* * $Id$ * * Copyright (C) 2002 ETC s.r.o. * * 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. * * Written by Marcel Telka , 2002. * * Documentation: * [1] Advanced Micro Devices, "Common Flash Memory Interface Specification Release 2.0", * December 1, 2001 * [2] Intel Corporation, "Intel PXA250 and PXA210 Application Processors * Developer's Manual", February 2002, Order Number: 278522-001 * [3] Intel Corporation, "Common Flash Interface (CFI) and Command Sets * Application Note 646", April 2000, Order Number: 292204-004 * [4] Advanced Micro Devices, "Common Flash Memory Interface Publication 100 Vendor & Device * ID Code Assignments", December 1, 2001, Volume Number: 96.1 * */ #include "sysdep.h" #include #include #include #include #include #include #include "bus.h" #include "flash.h" #include "jtag.h" extern flash_driver_t amd_32_flash_driver; extern flash_driver_t amd_8_flash_driver; extern flash_driver_t intel_32_flash_driver; extern flash_driver_t intel_16_flash_driver; extern flash_driver_t intel_8_flash_driver; flash_driver_t *flash_drivers[] = { &amd_32_flash_driver, &amd_8_flash_driver, &intel_32_flash_driver, &intel_16_flash_driver, &intel_8_flash_driver, NULL }; flash_driver_t *flash_driver = NULL; static void set_flash_driver( cfi_array_t *cfi_array ) { int i; cfi_query_structure_t *cfi = &cfi_array->cfi_chips[0]->cfi; flash_driver = NULL; for (i = 0; flash_drivers[i] != NULL; i++) if (flash_drivers[i]->autodetect( cfi_array )) { flash_driver = flash_drivers[i]; return; } printf( _("unknown flash - vendor id: %d (0x%04x)\n"), cfi->identification_string.pri_id_code, cfi->identification_string.pri_id_code ); } /* check for flashmem - set driver */ static void flashcheck( bus_t *bus, cfi_array_t **cfi_array ) { flash_driver = NULL; bus_prepare( bus ); printf( _("Note: Supported configuration is 2 x 16 bit or 1 x 16 bit only\n") ); *cfi_array = NULL; if (cfi_detect( bus, 0, cfi_array )) { cfi_array_free( *cfi_array ); printf( _("Flash not found!\n") ); return; } set_flash_driver( *cfi_array ); if (!flash_driver) { printf( _("Flash not supported!\n") ); return; } flash_driver->print_info( *cfi_array ); } void flashmsbin( bus_t *bus, FILE *f ) { uint32_t adr; cfi_query_structure_t *cfi; cfi_array_t *cfi_array; flashcheck( bus, &cfi_array ); if (!cfi_array || !flash_driver) { printf( _("no flash driver found\n") ); return; } cfi = &cfi_array->cfi_chips[0]->cfi; /* test sync bytes */ { char sync[8]; fread( &sync, sizeof (char), 7, f ); sync[7] = '\0'; if (strcmp( "B000FF\n", sync ) != 0) { printf( _("Invalid sync sequence!\n") ); return; } } /* erase memory blocks */ { uint32_t start; uint32_t len; int first, last; fread( &start, sizeof start, 1, f ); fread( &len, sizeof len, 1, f ); first = start / (cfi->device_geometry.erase_block_regions[0].erase_block_size * 2); last = (start + len - 1) / (cfi->device_geometry.erase_block_regions[0].erase_block_size * 2); for (; first <= last; first++) { adr = first * cfi->device_geometry.erase_block_regions[0].erase_block_size * 2; flash_driver->unlock_block( cfi_array, adr ); printf( _("block %d unlocked\n"), first ); printf( _("erasing block %d: %d\n"), first, flash_driver->erase_block( cfi_array, adr ) ); } } printf( _("program:\n") ); for (;;) { uint32_t a, l, c; fread( &a, sizeof a, 1, f ); fread( &l, sizeof l, 1, f ); fread( &c, sizeof c, 1, f ); if (feof( f )) { printf( _("Error: premature end of file\n") ); return; } printf( _("record: start = 0x%08X, len = 0x%08X, checksum = 0x%08X\n"), a, l, c ); if ((a == 0) && (c == 0)) break; if (l & 3) { printf( _("Error: Invalid record length!\n") ); return; } while (l) { uint32_t data; printf( _("addr: 0x%08X"), a ); printf( "\r" ); fflush(stdout); fread( &data, sizeof data, 1, f ); if (flash_driver->program( cfi_array, a, data )) { printf( _("\nflash error\n") ); return; } a += 4; l -= 4; } } printf( "\n" ); flash_driver->readarray( cfi_array ); fseek( f, 15, SEEK_SET ); printf( _("verify:\n") ); for (;;) { uint32_t a, l, c; fread( &a, sizeof a, 1, f ); fread( &l, sizeof l, 1, f ); fread( &c, sizeof c, 1, f ); if (feof( f )) { printf( _("Error: premature end of file\n") ); return; } printf( _("record: start = 0x%08X, len = 0x%08X, checksum = 0x%08X\n"), a, l, c ); if ((a == 0) && (c == 0)) break; if (l & 3) { printf( _("Error: Invalid record length!\n") ); return; } while (l) { uint32_t data, readed; printf( _("addr: 0x%08X"), a ); printf( "\r" ); fflush( stdout ); fread( &data, sizeof data, 1, f ); readed = bus_read( bus, a ); if (data != readed) { printf( _("\nverify error: 0x%08X vs. 0x%08X at addr %08X\n"), readed, data, a ); return; } a += 4; l -= 4; } } printf( _("\nDone.\n") ); cfi_array_free( cfi_array ); } void flashmem( bus_t *bus, FILE *f, uint32_t addr ) { uint32_t adr; cfi_query_structure_t *cfi; cfi_array_t *cfi_array; int *erased; int i; flashcheck( bus, &cfi_array ); if (!cfi_array || !flash_driver) { printf( _("no flash driver found\n") ); return; } cfi = &cfi_array->cfi_chips[0]->cfi; erased = malloc( cfi->device_geometry.erase_block_regions[0].number_of_erase_blocks * sizeof *erased ); if (!erased) { printf( _("Out of memory!\n") ); return; } for (i = 0; i < cfi->device_geometry.erase_block_regions[0].number_of_erase_blocks; i++) erased[i] = 0; printf( _("program:\n") ); adr = addr; while (!feof( f )) { uint32_t data; #define BSIZE 4096 uint8_t b[BSIZE]; int bc = 0, bn = 0; int block_no = adr / (cfi->device_geometry.erase_block_regions[0].erase_block_size * flash_driver->bus_width / 2); if (!erased[block_no]) { flash_driver->unlock_block( cfi_array, adr ); printf( _("\nblock %d unlocked\n"), block_no ); printf( _("erasing block %d: %d\n"), block_no, flash_driver->erase_block( cfi_array, adr ) ); erased[block_no] = 1; } bn = fread( b, 1, BSIZE, f ); for (bc = 0; bc < bn; bc += flash_driver->bus_width) { int j; printf( _("addr: 0x%08X"), adr ); printf( "\r" ); fflush( stdout ); data = 0; for (j = 0; j < flash_driver->bus_width; j++) if (big_endian) data = (data << 8) | b[bc + j]; else data |= b[bc + j] << (j * 8); if (flash_driver->program( cfi_array, adr, data )) { printf( _("\nflash error\n") ); return; } adr += flash_driver->bus_width; } } printf( "\n" ); flash_driver->readarray( cfi_array ); fseek( f, 0, SEEK_SET ); printf( _("verify:\n") ); fflush( stdout ); adr = addr; while (!feof( f )) { uint8_t buf[16]; uint32_t data; uint32_t readed; int j; if (fread( buf, flash_driver->bus_width, 1, f ) != 1) { if (feof(f)) break; printf( _("Error during file read.\n") ); return; } data = 0; for (j = 0; j < flash_driver->bus_width; j++) if (big_endian) data = (data << 8) | buf[j]; else data |= buf[j] << (j * 8); printf( _("addr: 0x%08X"), adr ); printf( "\r" ); fflush( stdout ); readed = bus_read( bus, adr ); if (data != readed) { printf( _("\nverify error:\nreaded: 0x%08X\nexpected: 0x%08X\n"), readed, data ); return; } adr += flash_driver->bus_width; } printf( _("\nDone.\n") ); free( erased ); cfi_array_free( cfi_array ); } void flasherase( bus_t *bus, uint32_t addr, int number ) { cfi_query_structure_t *cfi; cfi_array_t *cfi_array; int i; printf( _("addr: 0x%08X\n"), addr); flashcheck( bus, &cfi_array ); if (!cfi_array || !flash_driver) { printf( _("no flash driver found\n") ); return; } cfi = &cfi_array->cfi_chips[0]->cfi; printf( _("program:\n") ); for (i = 1; i <= number; i++) { int addr_block = (cfi->device_geometry.erase_block_regions[0].erase_block_size * flash_driver->bus_width / 2); int block_no = addr / addr_block; printf( _("addr: 0x%08X\n"), addr); fflush(stdout); flash_driver->unlock_block( cfi_array, addr ); printf( _("block %d unlocked\n"), block_no ); printf( _("erasing block %d: %d\n"), block_no, flash_driver->erase_block( cfi_array, addr ) ); addr |= (addr_block - 1); addr += 1; } printf( _("\nDone.\n") ); cfi_array_free( cfi_array ); /* BYPASS */ // parts_set_instruction( ps, "BYPASS" ); // chain_shift_instructions( chain ); }