/* * This file is part of the flashrom project. * * SPDX-License-Identifier: GPL-2.0-or-later * SPDX-FileCopyrightText: 2000 Silicon Integrated System Corporation * SPDX-FileCopyrightText: 2004 Tyan Corp * SPDX-FileCopyrightText: 2005-2008 coresystems GmbH * SPDX-FileCopyrightText: 2008,2009,2010 Carl-Daniel Hailfinger */ #include #include #include #include #include #include #include #include #include #include #include #include "flash.h" #include "flashchips.h" #include "fmap.h" #include "programmer.h" #include "libflashrom.h" #if CONFIG_RPMC_ENABLED == 1 #include "rpmc.h" #endif /* CONFIG_RPMC_ENABLED */ enum { OPTION_IFD = 0x0100, OPTION_FMAP, OPTION_FMAP_FILE, OPTION_FMAP_VERIFY, OPTION_FLASH_CONTENTS, OPTION_FLASH_NAME, OPTION_FLASH_SIZE, OPTION_WP_STATUS, OPTION_WP_SET_RANGE, OPTION_WP_SET_REGION, OPTION_WP_ENABLE, OPTION_WP_DISABLE, OPTION_WP_LIST, OPTION_PROGRESS, OPTION_SACRIFICE_RATIO, #if CONFIG_RPMC_ENABLED == 1 OPTION_RPMC_READ_DATA, OPTION_RPMC_WRITE_ROOT_KEY, OPTION_RPMC_UPDATE_HMAC_KEY, OPTION_RPMC_INCREMENT_COUNTER, OPTION_RPMC_GET_COUNTER, OPTION_RPMC_COUNTER_ADDRESS, OPTION_RPMC_KEY_DATA, OPTION_RPMC_KEY_FILE, #endif /* CONFIG_RPMC_ENABLED */ }; struct cli_options { bool read_it, extract_it, write_it, erase_it, verify_it; bool dont_verify_it, dont_verify_all; bool list_supported; char *filename; const struct programmer_entry *prog; char *pparam; bool ifd, fmap, fmap_verify; struct flashrom_layout *layout; struct layout_include_args *include_args; char *layoutfile; char *fmapfile; unsigned int wp_start, wp_len; bool enable_wp, disable_wp, print_wp_status; bool set_wp_range, set_wp_region, print_wp_ranges; char *wp_region; bool force; bool flash_name, flash_size; bool show_progress; char *logfile; char *referencefile; const char *chip_to_probe; int sacrifice_ratio; #if CONFIG_RPMC_ENABLED == 1 bool rpmc_read_data; bool rpmc_write_root_key; bool rpmc_update_hmac_key; bool rpmc_increment_counter; bool rpmc_get_counter; unsigned int rpmc_counter_address; uint32_t rpmc_key_data, rpmc_previous_counter_value; const char *rpmc_root_key_file; #endif /* CONFIG_RPMC_ENABLED */ }; static void cli_classic_usage(const char *name) { printf("Usage: %s [-h|-R|-L|" "\n\t-p [:] [-c ]\n" "\t\t(--flash-name|--flash-size|\n" "\t\t [-E|-x|(-r|-w|-v) []]\n" "\t\t [(-l |--ifd| --fmap|--fmap-file ) [-i [:]]...]\n" "\t\t [-n] [-N] [-f])]\n" "\t[-V[V[V]]] [-o ]\n\n", name); printf(" -h | --help print this help text\n" " -R | --version print version (release)\n" " -r | --read [] read flash and save to \n" " -w | --write [|-] write or the content provided\n" " on the standard input to flash\n" " -v | --verify [|-] verify flash against \n" " or the content provided on the standard input\n" " -E | --erase erase flash memory\n" " -V | --verbose more verbose output\n" " -c | --chip probe only for specified flash chip\n" " -f | --force force specific operations (see man page)\n" " -n | --noverify don't auto-verify\n" " -N | --noverify-all verify included regions only (cf. -i)\n" " -x | --extract extract regions to files\n" " -l | --layout read ROM layout from \n" " --wp-disable disable write protection\n" " --wp-enable enable write protection\n" " --wp-list list supported write protection ranges\n" " --wp-status show write protection status\n" " --wp-range=, set write protection range (use --wp-range=0,0\n" " to unprotect the entire flash)\n" " --wp-region set write protection region\n" " --flash-name read out the detected flash name\n" " --flash-size read out the detected flash size\n" " --fmap read ROM layout from fmap embedded in ROM\n" " --fmap-file read ROM layout from fmap in \n" " --fmap-verify read ROM layout from fmap and verify it matches file fmap\n" " --ifd read layout from an Intel Firmware Descriptor\n" " -i | --include [:] only read/write image from layout\n" " (optionally with data from )\n" " --image [:] deprecated, please use --include\n" " -o | --output log output to \n" " --flash-contents assume flash contents to be \n" " -L | --list-supported print supported devices\n" " --progress show progress percentage on the standard output\n" " --sacrifice-ratio Fraction (as a percentage, 0-50) of an erase block\n" " that may be erased even if unmodified. Larger values\n" " may complete programming faster, but may also hurt\n" " chip longevity by erasing cells unnecessarily.\n" " Default is 0, tradeoff is the speed of programming\n" " operation VS the longevity of the chip. Default is\n" " longevity.\n" " DANGEROUS! It wears your chip faster!\n" #if CONFIG_RPMC_ENABLED == 1 "RPMC COMMANDS\n" " --get-rpmc-status read the extended status\n" " --write-root-key write the root key register\n" " --update-hmac-key update the hmac key register\n" " --increment-counter \n" " increment rpmc counter\n" " --get-counter get rpmc counter\n" "RPMC OPTIONS\n" " --counter-address

counter address (default: 0)\n" " --rpmc-root-key rpmc root key file\n" " --key-data hex number to use as key data (default: 0)\n" #endif /* CONFIG_RPMC_ENABLED */ "PROGRAMMER SELECTION OPTIONS\n" " -p | --programmer [:] specify the programmer device. One of\n"); list_programmers_linebreak(4, 80, 0); printf(".\n\nYou can specify one of -h, -R, -L, -E, -r, -w, -v" #if CONFIG_RPMC_ENABLED == 1 ", a RPMC command" #endif /* CONFIG_RPMC_ENABLED */ " or no operation.\n" "If no operation is specified, flashrom will only probe for flash chips.\n"); } static void cli_classic_abort_usage(const char *msg) { if (msg) fprintf(stderr, "%s", msg); printf("Please run \"flashrom --help\" for usage info.\n"); exit(1); } static void cli_classic_validate_singleop(int *operation_specified) { if (++(*operation_specified) > 1) { cli_classic_abort_usage("More than one operation specified. Aborting.\n"); } } static int check_filename(char *filename, const char *type) { if (!filename || (filename[0] == '\0')) { fprintf(stderr, "Error: No %s file specified.\n", type); return 1; } /* Not an error, but maybe the user intended to specify a CLI option instead of a file name. */ if (filename[0] == '-' && filename[1] != '\0') fprintf(stderr, "Warning: Supplied %s file name starts with -\n", type); return 0; } /* Ensure a file is open by means of fstat */ static bool check_file(FILE *file) { struct stat statbuf; if (fstat(fileno(file), &statbuf) < 0) return false; return true; } static int parse_wp_range(unsigned int *start, unsigned int *len) { char *delim = NULL; if (!optarg) { msg_gerr("Error: No wp-range values provided\n"); return -1; } if ((delim = strchr(optarg, ',')) != strrchr(optarg, ',') || delim == NULL || delim == optarg || *(delim + 1) == '\0') { msg_gerr("Error: Invalid wp-range argument format. Valid format is --wp-range ,\n"); return -1; } *start = strtoul(optarg, NULL, 0); *len = strtoul(delim+1, NULL, 0); return 0; } static int print_wp_range(struct flashrom_flashctx *flash, size_t start, size_t len) { /* Start address and length */ msg_ginfo("start=0x%08zx length=0x%08zx ", start, len); /* Easily readable description like 'none' or 'lower 1/8' */ size_t chip_len = flashrom_flash_getsize(flash); if (len == 0) { msg_ginfo("(none)"); } else if (len == chip_len) { msg_ginfo("(all)"); } else { const char *location = ""; if (start == 0) location = "lower "; if (start == chip_len - len) location = "upper "; /* Remove common factors of 2 to simplify */ /* the (range_len/chip_len) fraction. */ while ((chip_len % 2) == 0 && (len % 2) == 0) { chip_len /= 2; len /= 2; } msg_ginfo("(%s%zu/%zu)", location, len, chip_len); } return 0; } static const char *get_wp_error_str(int err) { switch (err) { case FLASHROM_WP_ERR_CHIP_UNSUPPORTED: return "WP operations are not implemented for this chip"; case FLASHROM_WP_ERR_READ_FAILED: return "failed to read the current WP configuration"; case FLASHROM_WP_ERR_WRITE_FAILED: return "failed to write the new WP configuration"; case FLASHROM_WP_ERR_VERIFY_FAILED: return "unexpected WP configuration read back from chip"; case FLASHROM_WP_ERR_MODE_UNSUPPORTED: return "the requested protection mode is not supported"; case FLASHROM_WP_ERR_RANGE_UNSUPPORTED: return "the requested protection range is not supported"; case FLASHROM_WP_ERR_RANGE_LIST_UNAVAILABLE: return "could not determine what protection ranges are available"; case FLASHROM_WP_ERR_UNSUPPORTED_STATE: return "can't operate on current WP configuration of the chip"; } return "unknown WP error"; } static int wp_cli( struct flashctx *flash, bool enable_wp, bool disable_wp, bool print_wp_status, bool print_wp_ranges, bool set_wp_range, uint32_t wp_start, uint32_t wp_len) { if (print_wp_ranges) { struct flashrom_wp_ranges *list; enum flashrom_wp_result ret = flashrom_wp_get_available_ranges(&list, flash); if (ret != FLASHROM_WP_OK) { msg_gerr("Failed to get list of protection ranges: %s\n", get_wp_error_str(ret)); return 1; } size_t count = flashrom_wp_ranges_get_count(list); msg_ginfo("Available protection ranges:\n"); for (size_t i = 0; i < count; i++) { size_t start, len; flashrom_wp_ranges_get_range(&start, &len, list, i); msg_ginfo("\t"); print_wp_range(flash, start, len); msg_ginfo("\n"); } flashrom_wp_ranges_release(list); } if (set_wp_range || disable_wp || enable_wp) { enum flashrom_wp_mode old_mode = FLASHROM_WP_MODE_DISABLED; struct flashrom_wp_cfg *cfg = NULL; enum flashrom_wp_result ret = flashrom_wp_cfg_new(&cfg); if (ret == FLASHROM_WP_OK) ret = flashrom_wp_read_cfg(cfg, flash); if (ret == FLASHROM_WP_OK) { /* Store current WP mode for printing help text if */ /* changing the cfg fails. */ old_mode = flashrom_wp_get_mode(cfg); if (set_wp_range) flashrom_wp_set_range(cfg, wp_start, wp_len); if (disable_wp) flashrom_wp_set_mode(cfg, FLASHROM_WP_MODE_DISABLED); if (enable_wp) flashrom_wp_set_mode(cfg, FLASHROM_WP_MODE_HARDWARE); ret = flashrom_wp_write_cfg(flash, cfg); } flashrom_wp_cfg_release(cfg); if (ret != FLASHROM_WP_OK) { msg_gerr("Failed to apply new WP settings: %s\n", get_wp_error_str(ret)); /* Warn user if active WP is likely to have caused failure */ if (ret == FLASHROM_WP_ERR_VERIFY_FAILED) { switch (old_mode) { case FLASHROM_WP_MODE_HARDWARE: msg_gerr("Note: hardware status register protection is enabled. " "The chip's WP# pin must be set to an inactive voltage " "level to be able to change the WP settings.\n"); break; case FLASHROM_WP_MODE_POWER_CYCLE: msg_gerr("Note: power-cycle status register protection is enabled. " "A power-off, power-on cycle is usually required to change " "the chip's WP settings.\n"); break; case FLASHROM_WP_MODE_PERMANENT: msg_gerr("Note: permanent status register protection is enabled. " "The chip's WP settings cannot be modified.\n"); break; default: break; } } return 1; } if (disable_wp) msg_ginfo("Disabled hardware protection\n"); if (enable_wp) msg_ginfo("Enabled hardware protection\n"); if (set_wp_range) { msg_ginfo("Activated protection range: "); print_wp_range(flash, wp_start, wp_len); msg_ginfo("\n"); } } if (print_wp_status) { size_t start, len; enum flashrom_wp_mode mode; struct flashrom_wp_cfg *cfg = NULL; enum flashrom_wp_result ret = flashrom_wp_cfg_new(&cfg); if (ret == FLASHROM_WP_OK) ret = flashrom_wp_read_cfg(cfg, flash); if (ret != FLASHROM_WP_OK) { msg_gerr("Failed to get WP status: %s\n", get_wp_error_str(ret)); flashrom_wp_cfg_release(cfg); return 1; } flashrom_wp_get_range(&start, &len, cfg); mode = flashrom_wp_get_mode(cfg); flashrom_wp_cfg_release(cfg); msg_ginfo("Protection range: "); print_wp_range(flash, start, len); msg_ginfo("\n"); msg_ginfo("Protection mode: "); switch (mode) { case FLASHROM_WP_MODE_DISABLED: msg_ginfo("disabled"); break; case FLASHROM_WP_MODE_HARDWARE: msg_ginfo("hardware"); break; case FLASHROM_WP_MODE_POWER_CYCLE: msg_ginfo("power_cycle"); break; case FLASHROM_WP_MODE_PERMANENT: msg_ginfo("permanent"); break; default: msg_ginfo("unknown"); break; } msg_ginfo("\n"); } return 0; } #if CONFIG_RPMC_ENABLED == 1 static int rpmc_cli(struct flashctx *flash, const char *const key_file, const uint32_t key_data, const unsigned int counter_address, const uint32_t previous_counter, const bool op_read_data, const bool op_write_root_key, const bool op_update_hmac_key, const bool op_increment_counter, const bool op_get_counter) { if (op_write_root_key) { enum rpmc_result result = rpmc_write_root_key(flash, key_file, counter_address); if (result != RPMC_SUCCESS) { msg_gerr("Failed to write root key\n%s", rpmc_describe_result(result)); return 1; } msg_ginfo("Successfully wrote new root key for counter %u.\n", counter_address); } if (op_update_hmac_key) { enum rpmc_result result = rpmc_update_hmac_key(flash, key_file, key_data, counter_address); if (result != RPMC_SUCCESS) { msg_gerr("Failed to update hmac key\n%s", rpmc_describe_result(result)); return 1; } msg_ginfo("Successfully updated hmac key to 0x%08x for counter %u.\n", key_data, counter_address); } if (op_increment_counter) { enum rpmc_result result = rpmc_increment_counter(flash, key_file, key_data, counter_address, previous_counter); if (result != RPMC_SUCCESS) { msg_gerr("Failed to increment the counter\n%s", rpmc_describe_result(result)); return 1; } msg_ginfo("Successfully incremented counter %u.\n", counter_address); } if (op_get_counter) { uint32_t counter_value; enum rpmc_result result = rpmc_get_monotonic_counter(flash, key_file, key_data, counter_address, &counter_value); if (result != RPMC_SUCCESS) { msg_gerr("Failed to get the counter value\n%s", rpmc_describe_result(result)); return 1; } msg_ginfo("Returned counter value %u for counter %u\n", counter_value, counter_address); } if (op_read_data) { struct rpmc_status_register status; enum rpmc_result result = rpmc_read_data(flash, &status); if (result != RPMC_SUCCESS) { msg_gerr("Failed to read read rpmc data\n%s", rpmc_describe_result(result)); return 1; } msg_ginfo("Reading rpmc data returned:\n"); char bin_buffer[9]; uint8_t status_bits = status.status; for (int i = 7; i >= 0; i--){ bin_buffer[i] = '0' + (status_bits & 1); status_bits = status_bits >> 1; } bin_buffer[8] = '\0'; msg_ginfo("Extended Status: 0b%s\n", bin_buffer); msg_ginfo("Tag:\n"); for (size_t i = 0; i < RPMC_TAG_LENGTH; i++){ msg_ginfo("0x%02x ", status.tag[i]); } msg_ginfo("\n"); msg_ginfo("Counter: %u\n", status.counter_data); msg_ginfo("Signature:\n"); for (size_t i = 0; i < RPMC_SIGNATURE_LENGTH; i++){ msg_ginfo("0x%02x ", status.signature[i]); } msg_ginfo("\n"); } return 0; } #endif /* CONFIG_RPMC_ENABLED */ /** * @brief Reads content to buffer from one or more files. * * Reads content to supplied buffer from files. If a filename is specified for * individual regions using the partial read syntax ('-i [:]') * then this will read file data into the corresponding region in the * supplied buffer. * * @param layout The layout to be used. * @param buf Chip-sized buffer to write data to * @return 0 on success */ static int read_buf_from_include_args(const struct flashrom_layout *const layout, unsigned char *buf) { const struct romentry *entry = NULL; /* * Content will be read from -i args, so they must not overlap since * we need to know exactly what content to write to the ROM. */ if (included_regions_overlap(layout)) { msg_gerr("Error: Included regions must not overlap when writing.\n"); return 1; } while ((entry = layout_next_included(layout, entry))) { if (!entry->file) continue; const struct flash_region *region = &entry->region; if (read_buf_from_file(buf + region->start, region->end - region->start + 1, entry->file)) return 1; } return 0; } /** * @brief Writes content from buffer to one or more files. * * Writes content from supplied buffer to files. If a filename is specified for * individual regions using the partial read syntax ('-i [:]') * then this will write files using data from the corresponding region in the * supplied buffer. * * @param layout The layout to be used. * @param buf Chip-sized buffer to read data from * @return 0 on success */ static int write_buf_to_include_args(const struct flashrom_layout *const layout, unsigned char *buf) { const struct romentry *entry = NULL; while ((entry = layout_next_included(layout, entry))) { if (!entry->file) continue; const struct flash_region *region = &entry->region; if (write_buf_to_file(buf + region->start, region->end - region->start + 1, entry->file)) return 1; } return 0; } static char *get_optional_filename(char *argv[]) { char *filename = NULL; /* filename was supplied in optarg (i.e. -rfilename) */ if (optarg != NULL) filename = strdup(optarg); /* filename is on optind if it is not another flag (i.e. -r filename) * - is treated as stdin, so we still strdup in this case */ else if (optarg == NULL && argv[optind] != NULL && (argv[optind][0] != '-' || argv[optind][1] == '\0')) filename = strdup(argv[optind++]); return filename; } static int do_read(struct flashctx *const flash, const char *const filename) { int ret; unsigned long size = flashrom_flash_getsize(flash); unsigned char *buf = calloc(size, sizeof(unsigned char)); if (!buf) { msg_gerr("Memory allocation failed!\n"); return 1; } ret = flashrom_image_read(flash, buf, size); if (ret > 0) goto free_out; if (write_buf_to_include_args(get_layout(flash), buf)) { ret = 1; goto free_out; } if (filename) ret = write_buf_to_file(buf, size, filename); free_out: free(buf); return ret; } static int do_extract(struct flashctx *const flash) { prepare_layout_for_extraction(flash); return do_read(flash, NULL); } static int do_write(struct flashctx *const flash, const char *const filename, const char *const referencefile) { const size_t flash_size = flashrom_flash_getsize(flash); int ret = 1; uint8_t *const newcontents = malloc(flash_size); uint8_t *const refcontents = referencefile ? malloc(flash_size) : NULL; if (!newcontents || (referencefile && !refcontents)) { msg_gerr("Out of memory!\n"); goto _free_ret; } /* Read '-w' argument first... */ if (filename) { if (read_buf_from_file(newcontents, flash_size, filename)) goto _free_ret; } /* * ... then update newcontents with contents from files provided to '-i' * args if needed. */ if (read_buf_from_include_args(get_layout(flash), newcontents)) goto _free_ret; if (referencefile) { if (read_buf_from_file(refcontents, flash_size, referencefile)) goto _free_ret; } ret = flashrom_image_write(flash, newcontents, flash_size, refcontents); _free_ret: free(refcontents); free(newcontents); return ret; } static int do_verify(struct flashctx *const flash, const char *const filename) { const size_t flash_size = flashrom_flash_getsize(flash); int ret = 1; uint8_t *const newcontents = malloc(flash_size); if (!newcontents) { msg_gerr("Out of memory!\n"); goto _free_ret; } /* Read '-v' argument first... */ if (filename) { if (read_buf_from_file(newcontents, flash_size, filename)) goto _free_ret; } /* * ... then update newcontents with contents from files provided to '-i' * args if needed. */ if (read_buf_from_include_args(get_layout(flash), newcontents)) goto _free_ret; ret = flashrom_image_verify(flash, newcontents, flash_size); _free_ret: free(newcontents); return ret; } /* Returns the number of buses commonly supported by the current programmer and flash chip where the latter * can not be completely accessed due to size/address limits of the programmer. */ static unsigned int count_max_decode_exceedings(const struct flashctx *flash, const struct decode_sizes *max_rom_decode_) { unsigned int limitexceeded = 0; uint32_t size = flash->chip->total_size * 1024; enum chipbustype buses = flash->mst->buses_supported & flash->chip->bustype; if ((buses & BUS_PARALLEL) && (max_rom_decode_->parallel < size)) { limitexceeded++; msg_pdbg("Chip size %"PRIu32" kB is bigger than supported " "size %"PRIu32" kB of chipset/board/programmer " "for %s interface, " "probe/read/erase/write may fail. ", size / 1024, max_rom_decode_->parallel / 1024, "Parallel"); } if ((buses & BUS_LPC) && (max_rom_decode_->lpc < size)) { limitexceeded++; msg_pdbg("Chip size %"PRIu32" kB is bigger than supported " "size %"PRIu32" kB of chipset/board/programmer " "for %s interface, " "probe/read/erase/write may fail. ", size / 1024, max_rom_decode_->lpc / 1024, "LPC"); } if ((buses & BUS_FWH) && (max_rom_decode_->fwh < size)) { limitexceeded++; msg_pdbg("Chip size %"PRIu32" kB is bigger than supported " "size %"PRIu32" kB of chipset/board/programmer " "for %s interface, " "probe/read/erase/write may fail. ", size / 1024, max_rom_decode_->fwh / 1024, "FWH"); } if ((buses & BUS_SPI) && (max_rom_decode_->spi < size)) { limitexceeded++; msg_pdbg("Chip size %"PRIu32" kB is bigger than supported " "size %"PRIu32" kB of chipset/board/programmer " "for %s interface, " "probe/read/erase/write may fail. ", size / 1024, max_rom_decode_->spi / 1024, "SPI"); } return limitexceeded; } static void parse_options(int argc, char **argv, const char *optstring, const struct option *long_options, struct cli_options *options) { const char *name; int namelen, opt; int option_index = 0, operation_specified = 0; /* FIXME: Delay all operation_specified checks until after command * line parsing to allow --help overriding everything else. */ while ((opt = getopt_long(argc, argv, optstring, long_options, &option_index)) != EOF) { switch (opt) { case 'r': cli_classic_validate_singleop(&operation_specified); options->filename = get_optional_filename(argv); options->read_it = true; break; case 'w': cli_classic_validate_singleop(&operation_specified); options->filename = get_optional_filename(argv); options->write_it = true; break; case 'v': //FIXME: gracefully handle superfluous -v cli_classic_validate_singleop(&operation_specified); if (options->dont_verify_it) { cli_classic_abort_usage("--verify and --noverify are mutually exclusive. Aborting.\n"); } options->filename = get_optional_filename(argv); options->verify_it = true; break; case 'n': if (options->verify_it) { cli_classic_abort_usage("--verify and --noverify are mutually exclusive. Aborting.\n"); } options->dont_verify_it = true; break; case 'N': options->dont_verify_all = true; break; case 'x': cli_classic_validate_singleop(&operation_specified); options->extract_it = true; break; case 'c': options->chip_to_probe = strdup(optarg); break; case 'V': verbose_screen++; if (verbose_screen > FLASHROM_MSG_DEBUG2) verbose_logfile = verbose_screen; break; case 'E': cli_classic_validate_singleop(&operation_specified); options->erase_it = true; break; case 'f': options->force = true; break; case 'l': if (options->layoutfile) cli_classic_abort_usage("Error: --layout specified more than once. Aborting.\n"); if (options->ifd) cli_classic_abort_usage("Error: --layout and --ifd both specified. Aborting.\n"); if (options->fmap) cli_classic_abort_usage("Error: --layout and --fmap-file both specified. Aborting.\n"); options->layoutfile = strdup(optarg); break; case OPTION_IFD: if (options->layoutfile) cli_classic_abort_usage("Error: --layout and --ifd both specified. Aborting.\n"); if (options->fmap) cli_classic_abort_usage("Error: --fmap-file and --ifd both specified. Aborting.\n"); options->ifd = true; break; case OPTION_FMAP_FILE: if (options->fmap) cli_classic_abort_usage("Error: --fmap, --fmap-file, or --fmap-verify specified " "more than once. Aborting.\n"); if (options->ifd) cli_classic_abort_usage("Error: --fmap-file and --ifd both specified. Aborting.\n"); if (options->layoutfile) cli_classic_abort_usage("Error: --fmap-file and --layout both specified. Aborting.\n"); options->fmapfile = strdup(optarg); options->fmap = true; break; case OPTION_FMAP: if (options->fmap) cli_classic_abort_usage("Error: --fmap, --fmap-file, or --fmap-verify specified " "more than once. Aborting.\n"); if (options->ifd) cli_classic_abort_usage("Error: --fmap and --ifd both specified. Aborting.\n"); if (options->layoutfile) cli_classic_abort_usage("Error: --layout and --fmap both specified. Aborting.\n"); options->fmap = true; break; case OPTION_FMAP_VERIFY: if (options->fmap) cli_classic_abort_usage("Error: --fmap, --fmap-file, or --fmap-verify specified " "more than once. Aborting.\n"); if (options->ifd) cli_classic_abort_usage("Error: --fmap-verify and --ifd both specified. Aborting.\n"); if (options->layoutfile) cli_classic_abort_usage("Error: --fmap-verify and --layout both specified. Aborting.\n"); if (options->read_it || options->verify_it) cli_classic_abort_usage("Error: --fmap-verify cannot be used with read or verify operations. Aborting.\n"); options->fmap = true; options->fmap_verify = true; break; case 'i': if (register_include_arg(&options->include_args, optarg)) cli_classic_abort_usage(NULL); break; case OPTION_FLASH_CONTENTS: if (options->referencefile) cli_classic_abort_usage("Error: --flash-contents specified more than once." "Aborting.\n"); options->referencefile = strdup(optarg); break; case OPTION_FLASH_NAME: cli_classic_validate_singleop(&operation_specified); options->flash_name = true; break; case OPTION_FLASH_SIZE: cli_classic_validate_singleop(&operation_specified); options->flash_size = true; break; case OPTION_WP_STATUS: options->print_wp_status = true; break; case OPTION_WP_LIST: options->print_wp_ranges = true; break; case OPTION_WP_SET_RANGE: if (parse_wp_range(&options->wp_start, &options->wp_len) < 0) cli_classic_abort_usage("Incorrect wp-range arguments provided.\n"); options->set_wp_range = true; break; case OPTION_WP_SET_REGION: options->set_wp_region = true; options->wp_region = strdup(optarg); break; case OPTION_WP_ENABLE: options->enable_wp = true; break; case OPTION_WP_DISABLE: options->disable_wp = true; break; case 'L': cli_classic_validate_singleop(&operation_specified); options->list_supported = true; break; case 'p': if (options->prog != NULL) { cli_classic_abort_usage("Error: --programmer specified " "more than once. You can separate " "multiple\nparameters for a programmer " "with \",\". Please see the man page " "for details.\n"); } size_t p; for (p = 0; p < programmer_table_size; p++) { name = programmer_table[p]->name; namelen = strlen(name); if (strncmp(optarg, name, namelen) == 0) { switch (optarg[namelen]) { case ':': options->pparam = strdup(optarg + namelen + 1); if (!strlen(options->pparam)) { free(options->pparam); options->pparam = NULL; } options->prog = programmer_table[p]; break; case '\0': options->prog = programmer_table[p]; break; default: /* The continue refers to the * for loop. It is here to be * able to differentiate between * foo and foobar. */ continue; } break; } } if (options->prog == NULL) { fprintf(stderr, "Error: Unknown programmer \"%s\". Valid choices are:\n", optarg); list_programmers_linebreak(0, 80, 0); msg_ginfo(".\n"); cli_classic_abort_usage(NULL); } break; case 'R': /* print_version() is always called during startup. */ cli_classic_validate_singleop(&operation_specified); exit(0); break; case 'h': cli_classic_validate_singleop(&operation_specified); cli_classic_usage(argv[0]); exit(0); break; case 'o': if (options->logfile) { fprintf(stderr, "Warning: -o/--output specified multiple times.\n"); free(options->logfile); } options->logfile = strdup(optarg); if (options->logfile[0] == '\0') { cli_classic_abort_usage("No log filename specified.\n"); } break; case OPTION_PROGRESS: options->show_progress = true; break; case OPTION_SACRIFICE_RATIO: /* It is okay to convert invalid input to 0. */ options->sacrifice_ratio = atoi(optarg); break; #if CONFIG_RPMC_ENABLED == 1 case OPTION_RPMC_READ_DATA: options->rpmc_read_data = true; break; case OPTION_RPMC_WRITE_ROOT_KEY: options->rpmc_write_root_key = true; break; case OPTION_RPMC_UPDATE_HMAC_KEY: options->rpmc_update_hmac_key = true; break; case OPTION_RPMC_INCREMENT_COUNTER: options->rpmc_increment_counter = true; options->rpmc_previous_counter_value = strtoumax(optarg, NULL, 10); break; case OPTION_RPMC_GET_COUNTER: options->rpmc_get_counter = true; break; case OPTION_RPMC_COUNTER_ADDRESS: options->rpmc_counter_address = strtoumax(optarg, NULL, 10); break; case OPTION_RPMC_KEY_DATA: options->rpmc_key_data = strtoumax(optarg, NULL, 16); break; case OPTION_RPMC_KEY_FILE: options->rpmc_root_key_file = strdup(optarg); break; #endif /* CONFIG_RPMC_ENABLED */ default: cli_classic_abort_usage(NULL); break; } } if (optind < argc) cli_classic_abort_usage("Error: Extra parameter found.\n"); } static void free_options(struct cli_options *options) { cleanup_include_args(&options->include_args); free(options->filename); free(options->fmapfile); free(options->referencefile); free(options->layoutfile); free(options->pparam); free(options->wp_region); free(options->logfile); free((char *)options->chip_to_probe); } int main(int argc, char *argv[]) { const struct flashchip *chip = NULL; char *tempstr = NULL; int i, j; int ret = 0; int all_matched_count = 0; const char **all_matched_names = NULL; time_t time_start, time_end; struct flashctx *context = NULL; /* holds the active detected chip and other info */ ret = flashrom_create_context(&context); if (ret) { msg_gerr("Failed to allocate flash context. Aborting"); return 1; } struct cli_options options = { 0 }; static const char optstring[] = "r::Rw::v::nNVEfc:l:i:p:Lzho:x"; static const struct option long_options[] = { {"read", 2, NULL, 'r'}, {"write", 2, NULL, 'w'}, {"erase", 0, NULL, 'E'}, {"verify", 2, NULL, 'v'}, {"noverify", 0, NULL, 'n'}, {"noverify-all", 0, NULL, 'N'}, {"extract", 0, NULL, 'x'}, {"chip", 1, NULL, 'c'}, {"verbose", 0, NULL, 'V'}, {"force", 0, NULL, 'f'}, {"layout", 1, NULL, 'l'}, {"ifd", 0, NULL, OPTION_IFD}, {"fmap", 0, NULL, OPTION_FMAP}, {"fmap-file", 1, NULL, OPTION_FMAP_FILE}, {"fmap-verify", 0, NULL, OPTION_FMAP_VERIFY}, {"image", 1, NULL, 'i'}, // (deprecated): back compatibility. {"include", 1, NULL, 'i'}, {"flash-contents", 1, NULL, OPTION_FLASH_CONTENTS}, {"flash-name", 0, NULL, OPTION_FLASH_NAME}, {"flash-size", 0, NULL, OPTION_FLASH_SIZE}, {"get-size", 0, NULL, OPTION_FLASH_SIZE}, // (deprecated): back compatibility. {"wp-status", 0, NULL, OPTION_WP_STATUS}, {"wp-list", 0, NULL, OPTION_WP_LIST}, {"wp-range", 1, NULL, OPTION_WP_SET_RANGE}, {"wp-region", 1, NULL, OPTION_WP_SET_REGION}, {"wp-enable", 0, NULL, OPTION_WP_ENABLE}, {"wp-disable", 0, NULL, OPTION_WP_DISABLE}, {"list-supported", 0, NULL, 'L'}, {"programmer", 1, NULL, 'p'}, {"help", 0, NULL, 'h'}, {"version", 0, NULL, 'R'}, {"output", 1, NULL, 'o'}, {"progress", 0, NULL, OPTION_PROGRESS}, {"sacrifice-ratio", 1, NULL, OPTION_SACRIFICE_RATIO}, #if CONFIG_RPMC_ENABLED == 1 {"get-rpmc-status", 0, NULL, OPTION_RPMC_READ_DATA}, {"write-root-key", 0, NULL, OPTION_RPMC_WRITE_ROOT_KEY}, {"update-hmac-key", 0, NULL, OPTION_RPMC_UPDATE_HMAC_KEY}, {"increment-counter", 1, NULL, OPTION_RPMC_INCREMENT_COUNTER}, {"get-counter", 0, NULL, OPTION_RPMC_GET_COUNTER}, {"counter-address", 1, NULL, OPTION_RPMC_COUNTER_ADDRESS}, {"key-data", 1, NULL, OPTION_RPMC_KEY_DATA}, {"rpmc-root-key", 1, NULL, OPTION_RPMC_KEY_FILE}, #endif /* CONFIG_RPMC_ENABLED */ {NULL, 0, NULL, 0}, }; /* * Safety-guard against a user who has (mistakenly) closed * stdout or stderr before exec'ing flashrom. We disable * logging in this case to prevent writing log data to a flash * chip when a flash device gets opened with fd 1 or 2. */ if (check_file(stdout) && check_file(stderr)) { /* This is maximum log level for callback to be invoked, * and cli wants callback to be always invoked. */ flashrom_set_log_level(FLASHROM_MSG_SPEW); flashrom_set_log_callback(&flashrom_print_cb); } print_version(); print_banner(); setbuf(stdout, NULL); parse_options(argc, argv, optstring, long_options, &options); if (options.filename && check_filename(options.filename, "image")) cli_classic_abort_usage(NULL); if (options.layoutfile && check_filename(options.layoutfile, "layout")) cli_classic_abort_usage(NULL); if (options.fmapfile && check_filename(options.fmapfile, "fmap")) cli_classic_abort_usage(NULL); if (options.referencefile && check_filename(options.referencefile, "reference")) cli_classic_abort_usage(NULL); if (options.logfile && check_filename(options.logfile, "log")) cli_classic_abort_usage(NULL); if (options.logfile && open_logfile(options.logfile)) cli_classic_abort_usage(NULL); if (options.list_supported) { if (print_supported()) ret = 1; goto out; } start_logging(); print_buildinfo(); msg_gdbg("Command line (%i args):", argc - 1); for (i = 0; i < argc; i++) { msg_gdbg(" %s", argv[i]); } msg_gdbg("\n"); if (options.layoutfile && layout_from_file(&options.layout, options.layoutfile)) { ret = 1; goto out; } if (!options.ifd && !options.fmap && process_include_args(options.layout, options.include_args)) { ret = 1; goto out; } /* Does a chip with the requested name exist in the flashchips array? */ if (options.chip_to_probe) { for (chip = flashchips; chip && chip->name; chip++) if (!strcmp(chip->name, options.chip_to_probe)) break; if (!chip || !chip->name) { msg_cerr("Error: Unknown chip '%s' specified.\n", options.chip_to_probe); msg_gerr("Run flashrom -L to view the hardware supported in this flashrom version.\n"); ret = 1; goto out; } /* Keep chip around for later usage in case a forced read is requested. */ } if (options.prog == NULL) { const struct programmer_entry *const default_programmer = CONFIG_DEFAULT_PROGRAMMER_NAME; if (default_programmer) { options.prog = default_programmer; /* We need to strdup here because we free(pparam) unconditionally later. */ options.pparam = strdup(CONFIG_DEFAULT_PROGRAMMER_ARGS); msg_pinfo("Using default programmer \"%s\" with arguments \"%s\".\n", default_programmer->name, options.pparam); } else { msg_perr("Please select a programmer with the --programmer parameter.\n" #if CONFIG_INTERNAL == 1 "To choose the mainboard of this computer use 'internal'. " #endif "Valid choices are:\n"); list_programmers_linebreak(0, 80, 0); msg_ginfo(".\n"); ret = 1; goto out; } } /* FIXME: Delay calibration should happen in programmer code. */ if (flashrom_init(1)) exit(1); time(&time_start); if (programmer_init(options.prog, options.pparam)) { msg_perr("Error: Programmer initialization failed.\n"); ret = 1; goto out_shutdown; } tempstr = flashbuses_to_text(get_buses_supported()); msg_pdbg("The following protocols are supported: %s.\n", tempstr ? tempstr : "?"); free(tempstr); all_matched_count = flashrom_flash_probe_v2(context, &all_matched_names, NULL, options.chip_to_probe); if (all_matched_count == -1) { /* -1 is the ret code which means "something went wrong". * Multiple match and no match are different ret codes. * More details about the error were printed during actual probing. */ msg_cerr("Error: probing failed.\n"); ret = 1; goto out_shutdown; } if (all_matched_count > 1) { msg_cinfo("Multiple flash chip definitions match the detected chip(s): \"%s\"", context->chip->name); for (int ind = 1; ind < all_matched_count; ind++) msg_cinfo(", \"%s\"", all_matched_names[ind]); msg_cinfo("\nPlease specify which chip definition to use with the -c option.\n"); ret = 1; goto out_shutdown; } else if (!all_matched_count) { msg_cinfo("No EEPROM/flash device found.\n"); if (!options.force || !options.chip_to_probe) { msg_cinfo("Note: flashrom can never write if the flash chip isn't found " "automatically.\n"); } if (options.force && options.read_it && options.chip_to_probe) { struct registered_master *mst; int compatible_masters = 0; msg_cinfo("Force read (-f -r -c) requested, pretending the chip is there:\n"); /* This loop just counts compatible controllers. */ for (j = 0; j < registered_master_count; j++) { mst = ®istered_masters[j]; /* chip is still set from the chip_to_probe earlier in this function. */ if (mst->buses_supported & chip->bustype) compatible_masters++; } if (!compatible_masters) { msg_cinfo("No compatible controller found for the requested flash chip.\n"); ret = 1; goto out_shutdown; } if (compatible_masters > 1) msg_cinfo("More than one compatible controller found for the requested flash " "chip, using the first one.\n"); int force_probe_ret = ERROR_FLASHROM_PROBE_NO_CHIPS_FOUND; for (j = 0; j < registered_master_count; j++) { mst = ®istered_masters[j]; force_probe_ret = probe_flash(mst, 0, context, 1, options.chip_to_probe); if (force_probe_ret >= 0) break; } if (force_probe_ret < 0) { // FIXME: This should never happen! Ask for a bug report? msg_cinfo("Probing for flash chip '%s' failed.\n", options.chip_to_probe); ret = 1; goto out_shutdown; } msg_cinfo("Please note that forced reads most likely contain garbage.\n"); flashrom_flag_set(context, FLASHROM_FLAG_FORCE, options.force); ret = do_read(context, options.filename); free(context->chip); goto out_shutdown; } ret = 1; goto out_shutdown; } else if (!options.chip_to_probe) { /* repeat for convenience when looking at foreign logs */ tempstr = flashbuses_to_text(context->chip->bustype); msg_gdbg("Found %s flash chip \"%s\" (%d kB, %s).\n", context->chip->vendor, context->chip->name, context->chip->total_size, tempstr ? tempstr : "?"); free(tempstr); } struct cli_progress cli_progress = {0}; if (options.show_progress) flashrom_set_progress_callback_v2(context, &flashrom_progress_cb, &cli_progress); print_chip_support_status(context->chip); unsigned int limitexceeded = count_max_decode_exceedings(context, &max_rom_decode); if (limitexceeded > 0 && !options.force) { enum chipbustype commonbuses = context->mst->buses_supported & context->chip->bustype; /* Sometimes chip and programmer have more than one bus in common, * and the limit is not exceeded on all buses. Tell the user. */ if ((bitcount(commonbuses) > limitexceeded)) { msg_pdbg("There is at least one interface available which could support the size of\n" "the selected flash chip.\n"); } msg_cerr("This flash chip is too big for this programmer (--verbose/-V gives details).\n" "Use --force/-f to override at your own risk.\n"); ret = 1; goto out_shutdown; } const bool any_wp_op = options.set_wp_range || options.set_wp_region || options.enable_wp || options.disable_wp || options.print_wp_status || options.print_wp_ranges; const bool any_rpmc_op = #if CONFIG_RPMC_ENABLED == 1 options.rpmc_read_data || options.rpmc_write_root_key || options.rpmc_update_hmac_key || options.rpmc_increment_counter || options.rpmc_get_counter; #else false; #endif /* CONFIG_RPMC_ENABLED */ const bool any_op = options.read_it || options.write_it || options.verify_it || options.erase_it || options.flash_name || options.flash_size || options.extract_it || any_wp_op || any_rpmc_op; if (!any_op) { msg_ginfo("No operations were specified.\n"); goto out_shutdown; } if (options.enable_wp && options.disable_wp) { msg_ginfo("Error: --wp-enable and --wp-disable are mutually exclusive\n"); ret = 1; goto out_shutdown; } if (options.set_wp_range && options.set_wp_region) { msg_gerr("Error: Cannot use both --wp-range and --wp-region simultaneously.\n"); ret = 1; goto out_shutdown; } /* * Common rules for -r/-w/-v syntax parsing: * * - If no filename is specified at all, quit. * * - If a file is specified for -r/-w/-v and no files are specified with * -i args (or -i is not used), then that file will be used for reading/ * writing/verifying the entire ROM. * * - If no filename is specified for -r/-w/-v, but files are specified * for -i, then the number of file arguments for -i options must be * equal to the total number of -i options. * * Rules for reading: * * - If files are specified for -i args but not -r, do partial reads for * each -i arg, creating a new file for each region. Each -i option * must specify a filename. * * - If filenames are specified for -r and -i args, then: * - Do partial read for each -i arg, creating a new file for * each region where a filename is provided (-i region:filename). * - Create a ROM-sized file with partially filled content. For each * -i arg, fill the corresponding offset with content from ROM. * * Rules for writing and verifying: * * - If files are specified for both -w/-v and -i args, -i files take * priority (files specified for -w/-v are unused). * * - If files are specified for -i args but not -w, do partial writes * for each -i arg. Likewise for -v and -i args. All -i args must * supply a filename. Any omission is considered ambiguous. * * - Regions with a filename associated must not overlap. This is also * considered ambiguous. Note: This is checked later since it requires * processing the layout/fmap first. */ if ((options.read_it | options.write_it | options.verify_it) && !options.filename) { if (!options.include_args) { msg_gerr("Error: No image file specified.\n"); ret = 1; goto out_shutdown; } if (check_include_args_filename(options.include_args)) { ret = 1; goto out_shutdown; } } if (options.flash_name) { if (context->chip->vendor && context->chip->name) { printf("vendor=\"%s\" name=\"%s\"\n", context->chip->vendor, context->chip->name); } else { ret = -1; } goto out_shutdown; } if (options.flash_size) { printf("%zu\n", flashrom_flash_getsize(context)); goto out_shutdown; } if (options.sacrifice_ratio) { if (options.sacrifice_ratio < 0 || options.sacrifice_ratio > 50) { msg_ginfo("Invalid input of sacrifice ratio, valid 0-50. Fallback to default value 0.\n"); options.sacrifice_ratio = 0; } context->sacrifice_ratio = options.sacrifice_ratio; } if (options.ifd && (flashrom_layout_read_from_ifd(&options.layout, context, NULL, 0) || process_include_args(options.layout, options.include_args))) { ret = 1; goto out_shutdown; } else if (options.fmap && options.fmapfile) { struct stat s; if (stat(options.fmapfile, &s) != 0) { msg_gerr("Failed to stat fmapfile \"%s\"\n", options.fmapfile); ret = 1; goto out_shutdown; } size_t fmapfile_size = s.st_size; uint8_t *fmapfile_buffer = malloc(fmapfile_size); if (!fmapfile_buffer) { ret = 1; goto out_shutdown; } if (read_buf_from_file(fmapfile_buffer, fmapfile_size, options.fmapfile)) { ret = 1; free(fmapfile_buffer); goto out_shutdown; } if (flashrom_layout_read_fmap_from_buffer(&options.layout, context, fmapfile_buffer, fmapfile_size) || process_include_args(options.layout, options.include_args)) { ret = 1; free(fmapfile_buffer); goto out_shutdown; } free(fmapfile_buffer); } else if (options.fmap) { /* Read layout from ROM fmap */ if (flashrom_layout_read_fmap_from_rom(&options.layout, context, 0, flashrom_flash_getsize(context)) || process_include_args(options.layout, options.include_args)) { ret = 1; goto out_shutdown; } if (options.fmap_verify) { struct flashrom_layout *file_layout = NULL; struct stat s; if (stat(options.filename, &s) != 0) { msg_gerr("Failed to stat the file \"%s\"\n", options.filename); ret = 1; goto out_release; } size_t fmapfile_size = s.st_size; uint8_t *file_buffer = malloc(fmapfile_size); if (!file_buffer) { ret = 1; goto out_release; } if (read_buf_from_file(file_buffer, fmapfile_size, options.filename)) { ret = 1; free(file_buffer); goto out_release; } /* Read layout from file fmap */ if (flashrom_layout_read_fmap_from_buffer(&file_layout, context, file_buffer, flashrom_flash_getsize(context)) || process_include_args(file_layout, options.include_args)) { ret = 1; free(file_buffer); goto out_release; } free(file_buffer); /* compare the two layouts */ if (flashrom_layout_compare(options.layout, file_layout)) { msg_cerr("FMAP layouts do not match! Aborting.\n"); flashrom_layout_release(file_layout); ret = 1; goto out_release; } flashrom_layout_release(file_layout); msg_cinfo("FMAP layouts match.\n"); } } flashrom_layout_set(context, options.layout); if (any_wp_op) { if (options.set_wp_region && options.wp_region) { if (!options.layout) { msg_gerr("Error: A flash layout must be specified to use --wp-region.\n"); ret = 1; goto out_release; } ret = flashrom_layout_get_region_range(options.layout, options.wp_region, &options.wp_start, &options.wp_len); if (ret) { msg_gerr("Error: Region %s not found in flash layout.\n", options.wp_region); goto out_release; } options.set_wp_range = true; } ret = wp_cli( context, options.enable_wp, options.disable_wp, options.print_wp_status, options.print_wp_ranges, options.set_wp_range, options.wp_start, options.wp_len ); if (ret) goto out_release; } flashrom_flag_set(context, FLASHROM_FLAG_FORCE, options.force); #if CONFIG_INTERNAL == 1 flashrom_flag_set(context, FLASHROM_FLAG_FORCE_BOARDMISMATCH, force_boardmismatch); #endif flashrom_flag_set(context, FLASHROM_FLAG_VERIFY_AFTER_WRITE, !options.dont_verify_it); flashrom_flag_set(context, FLASHROM_FLAG_VERIFY_WHOLE_CHIP, !options.dont_verify_all); /* FIXME: We should issue an unconditional chip reset here. This can be * done once we have a .reset function in struct flashchip. * Give the chip time to settle. */ programmer_delay(context, 100000); if (options.read_it) ret = do_read(context, options.filename); else if (options.extract_it) ret = do_extract(context); else if (options.erase_it) { ret = flashrom_flash_erase(context); } else if (options.write_it) ret = do_write(context, options.filename, options.referencefile); else if (options.verify_it) ret = do_verify(context, options.filename); #if CONFIG_RPMC_ENABLED == 1 if (any_rpmc_op && ret == 0) { ret = rpmc_cli(context, options.rpmc_root_key_file, options.rpmc_key_data, options.rpmc_counter_address, options.rpmc_previous_counter_value, options.rpmc_read_data, options.rpmc_write_root_key, options.rpmc_update_hmac_key, options.rpmc_increment_counter, options.rpmc_get_counter); } #endif /* CONFIG_RPMC_ENABLED */ out_release: flashrom_layout_release(options.layout); out_shutdown: flashrom_programmer_shutdown(NULL); out: flashrom_data_free(all_matched_names); flashrom_flash_release(context); free_options(&options); time(&time_end); msg_gdbg("Runtime from programmer init to shutdown: %dmin%2dsec\n", (int)(difftime(time_end, time_start) / 60), (int)(difftime(time_end, time_start)) % 60); ret |= close_logfile(); return ret; }