/* * This file is part of the flashrom project. * * Copyright (C) 2012, 2016 secunet Security Networks AG * (Written by Nico Huber for secunet) * * 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. */ /** * @mainpage * * Have a look at the Modules section for a function reference. */ #include #include #include #include #include "flash.h" #include "fmap.h" #include "programmer.h" #include "layout.h" #include "hwaccess.h" #include "ich_descriptors.h" #include "libflashrom.h" /** * @defgroup flashrom-general General * @{ */ /** Pointer to log callback function. */ static flashrom_log_callback *global_log_callback = NULL; /** * @brief Initialize libflashrom. * * @param perform_selfcheck If not zero, perform a self check. * @return 0 on success */ int flashrom_init(const int perform_selfcheck) { if (perform_selfcheck && selfcheck()) return 1; myusec_calibrate_delay(); return 0; } /** * @brief Shut down libflashrom. * @return 0 on success */ int flashrom_shutdown(void) { return 0; /* TODO: nothing to do? */ } /* TODO: flashrom_set_loglevel()? do we need it? For now, let the user decide in his callback. */ /** * @brief Set the log callback function. * * Set a callback function which will be invoked whenever libflashrom wants * to output messages. This allows frontends to do whatever they see fit with * such messages, e.g. write them to syslog, or to file, or print them in a * GUI window, etc. * * @param log_callback Pointer to the new log callback function. */ void flashrom_set_log_callback(flashrom_log_callback *const log_callback) { global_log_callback = log_callback; } /** @private */ int print(const enum flashrom_log_level level, const char *const fmt, ...) { if (global_log_callback) { int ret; va_list args; va_start(args, fmt); ret = global_log_callback(level, fmt, args); va_end(args); return ret; } return 0; } /** @} */ /* end flashrom-general */ /** * @defgroup flashrom-query Querying * @{ */ /** * @brief Returns flashrom version * @return flashrom version */ const char *flashrom_version_info(void) { return flashrom_version; } /** * @brief Returns list of supported programmers * @return List of supported programmers, or NULL if an error occurred */ const char **flashrom_supported_programmers(void) { enum programmer p = 0; const char **supported_programmers = malloc((PROGRAMMER_INVALID + 1) * sizeof(char*)); if (supported_programmers != NULL) { for (; p < PROGRAMMER_INVALID; ++p) { supported_programmers[p] = programmer_table[p].name; } } else { msg_gerr("Memory allocation error!\n"); } return supported_programmers; } /** * @brief Returns list of supported flash chips * @return List of supported flash chips, or NULL if an error occurred */ struct flashrom_flashchip_info *flashrom_supported_flash_chips(void) { unsigned int i = 0; struct flashrom_flashchip_info *supported_flashchips = malloc(flashchips_size * sizeof(*supported_flashchips)); if (supported_flashchips != NULL) { for (; i < flashchips_size; ++i) { supported_flashchips[i].vendor = flashchips[i].vendor; supported_flashchips[i].name = flashchips[i].name; supported_flashchips[i].tested.erase = (enum flashrom_test_state)flashchips[i].tested.erase; supported_flashchips[i].tested.probe = (enum flashrom_test_state)flashchips[i].tested.probe; supported_flashchips[i].tested.read = (enum flashrom_test_state)flashchips[i].tested.read; supported_flashchips[i].tested.write = (enum flashrom_test_state)flashchips[i].tested.write; supported_flashchips[i].total_size = flashchips[i].total_size; } } else { msg_gerr("Memory allocation error!\n"); } return supported_flashchips; } /** * @brief Returns list of supported mainboards * @return List of supported mainboards, or NULL if an error occurred */ struct flashrom_board_info *flashrom_supported_boards(void) { #if CONFIG_INTERNAL == 1 int boards_known_size = 0; int i = 0; const struct board_info *binfo = boards_known; while ((binfo++)->vendor) ++boards_known_size; binfo = boards_known; /* add place for {0} */ ++boards_known_size; struct flashrom_board_info *supported_boards = malloc(boards_known_size * sizeof(struct flashrom_board_info)); if (supported_boards != NULL) { for (; i < boards_known_size; ++i) { supported_boards[i].vendor = binfo[i].vendor; supported_boards[i].name = binfo[i].name; supported_boards[i].working = (enum flashrom_test_state) binfo[i].working; } } else { msg_gerr("Memory allocation error!\n"); } return supported_boards; #else return NULL; #endif } /** * @brief Returns list of supported chipsets * @return List of supported chipsets, or NULL if an error occurred */ struct flashrom_chipset_info *flashrom_supported_chipsets(void) { #if CONFIG_INTERNAL == 1 int chipset_enables_size = 0; int i = 0; const struct penable *chipset = chipset_enables; while ((chipset++)->vendor_name) ++chipset_enables_size; chipset = chipset_enables; /* add place for {0}*/ ++chipset_enables_size; struct flashrom_chipset_info *supported_chipsets = malloc(chipset_enables_size * sizeof(*supported_chipsets)); if (supported_chipsets != NULL) { for (; i < chipset_enables_size; ++i) { supported_chipsets[i].vendor = chipset[i].vendor_name; supported_chipsets[i].chipset = chipset[i].device_name; supported_chipsets[i].vendor_id = chipset[i].vendor_id; supported_chipsets[i].chipset_id = chipset[i].device_id; supported_chipsets[i].status = (enum flashrom_test_state) chipset[i].status; } } else { msg_gerr("Memory allocation error!\n"); } return supported_chipsets; #else return NULL; #endif } /** * @brief Frees memory allocated by libflashrom API * @param Pointer to block of memory which should be freed * @return 0 on success */ int flashrom_data_free(void *const p) { free(p); return 0; } /** @} */ /* end flashrom-query */ /** * @defgroup flashrom-prog Programmers * @{ */ /** * @brief Initialize the specified programmer. * * Currently, only one programmer may be initialized at a time. * * @param[out] flashprog Points to a pointer of type struct flashrom_programmer * that will be set if programmer initialization succeeds. * *flashprog has to be shutdown by the caller with @ref * flashrom_programmer_shutdown. * @param[in] prog_name Name of the programmer to initialize. * @param[in] prog_param Pointer to programmer specific parameters. * @return 0 on success */ int flashrom_programmer_init(struct flashrom_programmer **const flashprog, const char *const prog_name, const char *const prog_param) { unsigned prog; for (prog = 0; prog < PROGRAMMER_INVALID; prog++) { if (strcmp(prog_name, programmer_table[prog].name) == 0) break; } if (prog >= PROGRAMMER_INVALID) { msg_ginfo("Error: Unknown programmer \"%s\". Valid choices are:\n", prog_name); list_programmers_linebreak(0, 80, 0); return 1; } return programmer_init(prog, prog_param); } /** * @brief Shut down the initialized programmer. * * @param flashprog The programmer to shut down. * @return 0 on success */ int flashrom_programmer_shutdown(struct flashrom_programmer *const flashprog) { return programmer_shutdown(); } /* TODO: flashrom_programmer_capabilities()? */ /** @} */ /* end flashrom-prog */ /** * @defgroup flashrom-flash Flash chips * @{ */ /** * @brief Probe for a flash chip. * * Probes for a flash chip and returns a flash context, that can be used * later with flash chip and @ref flashrom-ops "image operations", if * exactly one matching chip is found. * * @param[out] flashctx Points to a pointer of type struct flashrom_flashctx * that will be set if exactly one chip is found. *flashctx * has to be freed by the caller with @ref flashrom_flash_release. * @param[in] flashprog The flash programmer used to access the chip. * @param[in] chip_name Name of a chip to probe for, or NULL to probe for * all known chips. * @return 0 on success, * 3 if multiple chips were found, * 2 if no chip was found, * or 1 on any other error. */ int flashrom_flash_probe(struct flashrom_flashctx **const flashctx, const struct flashrom_programmer *const flashprog, const char *const chip_name) { int i, ret = 2; struct flashrom_flashctx second_flashctx = { 0, }; chip_to_probe = chip_name; /* chip_to_probe is global in flashrom.c */ *flashctx = malloc(sizeof(**flashctx)); if (!*flashctx) return 1; memset(*flashctx, 0, sizeof(**flashctx)); for (i = 0; i < registered_master_count; ++i) { int flash_idx = -1; if (!ret || (flash_idx = probe_flash(®istered_masters[i], 0, *flashctx, 0)) != -1) { ret = 0; /* We found one chip, now check that there is no second match. */ if (probe_flash(®istered_masters[i], flash_idx + 1, &second_flashctx, 0) != -1) { ret = 3; break; } } } if (ret) { free(*flashctx); *flashctx = NULL; } return ret; } /** * @brief Returns the size of the specified flash chip in bytes. * * @param flashctx The queried flash context. * @return Size of flash chip in bytes. */ size_t flashrom_flash_getsize(const struct flashrom_flashctx *const flashctx) { return flashctx->chip->total_size * 1024; } /** * @brief Free a flash context. * * @param flashctx Flash context to free. */ void flashrom_flash_release(struct flashrom_flashctx *const flashctx) { free(flashctx); } /** * @brief Set a flag in the given flash context. * * @param flashctx Flash context to alter. * @param flag Flag that is to be set / cleared. * @param value Value to set. */ void flashrom_flag_set(struct flashrom_flashctx *const flashctx, const enum flashrom_flag flag, const bool value) { switch (flag) { case FLASHROM_FLAG_FORCE: flashctx->flags.force = value; break; case FLASHROM_FLAG_FORCE_BOARDMISMATCH: flashctx->flags.force_boardmismatch = value; break; case FLASHROM_FLAG_VERIFY_AFTER_WRITE: flashctx->flags.verify_after_write = value; break; case FLASHROM_FLAG_VERIFY_WHOLE_CHIP: flashctx->flags.verify_whole_chip = value; break; } } /** * @brief Return the current value of a flag in the given flash context. * * @param flashctx Flash context to read from. * @param flag Flag to be read. * @return Current value of the flag. */ bool flashrom_flag_get(const struct flashrom_flashctx *const flashctx, const enum flashrom_flag flag) { switch (flag) { case FLASHROM_FLAG_FORCE: return flashctx->flags.force; case FLASHROM_FLAG_FORCE_BOARDMISMATCH: return flashctx->flags.force_boardmismatch; case FLASHROM_FLAG_VERIFY_AFTER_WRITE: return flashctx->flags.verify_after_write; case FLASHROM_FLAG_VERIFY_WHOLE_CHIP: return flashctx->flags.verify_whole_chip; default: return false; } } /** @} */ /* end flashrom-flash */ /** * @defgroup flashrom-layout Layout handling * @{ */ /** * @brief Read a layout from the Intel ICH descriptor in the flash. * * Optionally verify that the layout matches the one in the given * descriptor dump. * * @param[out] layout Points to a struct flashrom_layout pointer that * gets set if the descriptor is read and parsed * successfully. * @param[in] flashctx Flash context to read the descriptor from flash. * @param[in] dump The descriptor dump to compare to or NULL. * @param[in] len The length of the descriptor dump. * * @return 0 on success, * 6 if descriptor parsing isn't implemented for the host, * 5 if the descriptors don't match, * 4 if the descriptor dump couldn't be parsed, * 3 if the descriptor on flash couldn't be parsed, * 2 if the descriptor on flash couldn't be read, * 1 on any other error. */ int flashrom_layout_read_from_ifd(struct flashrom_layout **const layout, struct flashctx *const flashctx, const void *const dump, const size_t len) { #ifndef __FLASHROM_LITTLE_ENDIAN__ return 6; #else struct ich_layout dump_layout; int ret = 1; void *const desc = malloc(0x1000); struct ich_layout *const chip_layout = malloc(sizeof(*chip_layout)); if (!desc || !chip_layout) { msg_gerr("Out of memory!\n"); goto _free_ret; } if (prepare_flash_access(flashctx, true, false, false, false)) goto _free_ret; msg_cinfo("Reading ich descriptor... "); if (flashctx->chip->read(flashctx, desc, 0, 0x1000)) { msg_cerr("Read operation failed!\n"); msg_cinfo("FAILED.\n"); ret = 2; goto _finalize_ret; } msg_cinfo("done.\n"); if (layout_from_ich_descriptors(chip_layout, desc, 0x1000)) { msg_cerr("Couldn't parse the descriptor!\n"); ret = 3; goto _finalize_ret; } if (dump) { if (layout_from_ich_descriptors(&dump_layout, dump, len)) { msg_cerr("Couldn't parse the descriptor!\n"); ret = 4; goto _finalize_ret; } if (chip_layout->base.num_entries != dump_layout.base.num_entries || memcmp(chip_layout->entries, dump_layout.entries, sizeof(dump_layout.entries))) { msg_cerr("Descriptors don't match!\n"); ret = 5; goto _finalize_ret; } } *layout = (struct flashrom_layout *)chip_layout; ret = 0; _finalize_ret: finalize_flash_access(flashctx); _free_ret: if (ret) free(chip_layout); free(desc); return ret; #endif } #ifdef __FLASHROM_LITTLE_ENDIAN__ static int flashrom_layout_parse_fmap(struct flashrom_layout **layout, struct flashctx *const flashctx, const struct fmap *const fmap) { int i; struct flashrom_layout *l = get_global_layout(); if (!fmap || !l) return 1; if (l->num_entries + fmap->nareas > MAX_ROMLAYOUT) { msg_gerr("Cannot add fmap entries to layout - Too many entries.\n"); return 1; } for (i = 0; i < fmap->nareas; i++) { l->entries[l->num_entries].start = fmap->areas[i].offset; l->entries[l->num_entries].end = fmap->areas[i].offset + fmap->areas[i].size - 1; l->entries[l->num_entries].included = false; l->entries[l->num_entries].name = strndup((const char *)fmap->areas[i].name, FMAP_STRLEN); if (!l->entries[l->num_entries].name) { msg_gerr("Error adding layout entry: %s\n", strerror(errno)); return 1; } msg_gdbg("fmap %08x - %08x named %s\n", l->entries[l->num_entries].start, l->entries[l->num_entries].end, l->entries[l->num_entries].name); l->num_entries++; } *layout = l; return 0; } #endif /* __FLASHROM_LITTLE_ENDIAN__ */ /** * @brief Read a layout by searching the flash chip for fmap. * * @param[out] layout Points to a struct flashrom_layout pointer that * gets set if the fmap is read and parsed successfully. * @param[in] flashctx Flash context * @param[in] offset Offset to begin searching for fmap. * @param[in] offset Length of address space to search. * * @return 0 on success, * 3 if fmap parsing isn't implemented for the host, * 2 if the fmap couldn't be read, * 1 on any other error. */ int flashrom_layout_read_fmap_from_rom(struct flashrom_layout **const layout, struct flashctx *const flashctx, off_t offset, size_t len) { #ifndef __FLASHROM_LITTLE_ENDIAN__ return 3; #else struct fmap *fmap = NULL; int ret = 0; msg_gdbg("Attempting to read fmap from ROM content.\n"); if (fmap_read_from_rom(&fmap, flashctx, offset, len)) { msg_gerr("Failed to read fmap from ROM.\n"); return 1; } msg_gdbg("Adding fmap layout to global layout.\n"); if (flashrom_layout_parse_fmap(layout, flashctx, fmap)) { msg_gerr("Failed to add fmap regions to layout.\n"); ret = 1; } free(fmap); return ret; #endif } /** * @brief Read a layout by searching buffer for fmap. * * @param[out] layout Points to a struct flashrom_layout pointer that * gets set if the fmap is read and parsed successfully. * @param[in] flashctx Flash context * @param[in] buffer Buffer to search in * @param[in] size Size of buffer to search * * @return 0 on success, * 3 if fmap parsing isn't implemented for the host, * 2 if the fmap couldn't be read, * 1 on any other error. */ int flashrom_layout_read_fmap_from_buffer(struct flashrom_layout **const layout, struct flashctx *const flashctx, const uint8_t *const buf, size_t size) { #ifndef __FLASHROM_LITTLE_ENDIAN__ return 3; #else struct fmap *fmap = NULL; int ret = 1; if (!buf || !size) goto _ret; msg_gdbg("Attempting to read fmap from buffer.\n"); if (fmap_read_from_buffer(&fmap, buf, size)) { msg_gerr("Failed to read fmap from buffer.\n"); goto _ret; } msg_gdbg("Adding fmap layout to global layout.\n"); if (flashrom_layout_parse_fmap(layout, flashctx, fmap)) { msg_gerr("Failed to add fmap regions to layout.\n"); goto _free_ret; } ret = 0; _free_ret: free(fmap); _ret: return ret; #endif } /** * @brief Set the active layout for a flash context. * * Note: This just sets a pointer. The caller must not release the layout * as long as he uses it through the given flash context. * * @param flashctx Flash context whose layout will be set. * @param layout Layout to bet set. */ void flashrom_layout_set(struct flashrom_flashctx *const flashctx, const struct flashrom_layout *const layout) { flashctx->layout = layout; } /** @} */ /* end flashrom-layout */