/* * Copyright (C) 2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "bootloader.h" #include "common.h" #include "mtdutils/mtdutils.h" #include "roots.h" #include #include #include static const char *CACHE_NAME = "CACHE:"; static const char *MISC_NAME = "MISC:"; static const int MISC_PAGES = 3; // number of pages to save static const int MISC_COMMAND_PAGE = 1; // bootloader command is this page #ifdef LOG_VERBOSE static void dump_data(const char *data, int len) { int pos; for (pos = 0; pos < len; ) { printf("%05x: %02x", pos, data[pos]); for (++pos; pos < len && (pos % 24) != 0; ++pos) { printf(" %02x", data[pos]); } printf("\n"); } } #endif int get_bootloader_message(struct bootloader_message *out) { size_t write_size; const MtdPartition *part = get_root_mtd_partition(MISC_NAME); if (part == NULL || mtd_partition_info(part, NULL, NULL, &write_size)) { LOGE("Can't find %s\n", MISC_NAME); return -1; } MtdReadContext *read = mtd_read_partition(part); if (read == NULL) { LOGE("Can't open %s\n(%s)\n", MISC_NAME, strerror(errno)); return -1; } const ssize_t size = write_size * MISC_PAGES; char data[size]; ssize_t r = mtd_read_data(read, data, size); if (r != size) LOGE("Can't read %s\n(%s)\n", MISC_NAME, strerror(errno)); mtd_read_close(read); if (r != size) return -1; #ifdef LOG_VERBOSE printf("\n--- get_bootloader_message ---\n"); dump_data(data, size); printf("\n"); #endif memcpy(out, &data[write_size * MISC_COMMAND_PAGE], sizeof(*out)); return 0; } int set_bootloader_message(const struct bootloader_message *in) { size_t write_size; const MtdPartition *part = get_root_mtd_partition(MISC_NAME); if (part == NULL || mtd_partition_info(part, NULL, NULL, &write_size)) { LOGE("Can't find %s\n", MISC_NAME); return -1; } MtdReadContext *read = mtd_read_partition(part); if (read == NULL) { LOGE("Can't open %s\n(%s)\n", MISC_NAME, strerror(errno)); return -1; } ssize_t size = write_size * MISC_PAGES; char data[size]; ssize_t r = mtd_read_data(read, data, size); if (r != size) LOGE("Can't read %s\n(%s)\n", MISC_NAME, strerror(errno)); mtd_read_close(read); if (r != size) return -1; memcpy(&data[write_size * MISC_COMMAND_PAGE], in, sizeof(*in)); #ifdef LOG_VERBOSE printf("\n--- set_bootloader_message ---\n"); dump_data(data, size); printf("\n"); #endif MtdWriteContext *write = mtd_write_partition(part); if (write == NULL) { LOGE("Can't open %s\n(%s)\n", MISC_NAME, strerror(errno)); return -1; } if (mtd_write_data(write, data, size) != size) { LOGE("Can't write %s\n(%s)\n", MISC_NAME, strerror(errno)); mtd_write_close(write); return -1; } if (mtd_write_close(write)) { LOGE("Can't finish %s\n(%s)\n", MISC_NAME, strerror(errno)); return -1; } LOGI("Set boot command \"%s\"\n", in->command[0] != 255 ? in->command : ""); return 0; } /* Update Image * * - will be stored in the "cache" partition * - bad blocks will be ignored, like boot.img and recovery.img * - the first block will be the image header (described below) * - the size is in BYTES, inclusive of the header * - offsets are in BYTES from the start of the update header * - two raw bitmaps will be included, the "busy" and "fail" bitmaps * - for dream, the bitmaps will be 320x480x16bpp RGB565 */ #define UPDATE_MAGIC "MSM-RADIO-UPDATE" #define UPDATE_MAGIC_SIZE 16 #define UPDATE_VERSION 0x00010000 struct update_header { unsigned char MAGIC[UPDATE_MAGIC_SIZE]; unsigned version; unsigned size; unsigned image_offset; unsigned image_length; unsigned bitmap_width; unsigned bitmap_height; unsigned bitmap_bpp; unsigned busy_bitmap_offset; unsigned busy_bitmap_length; unsigned fail_bitmap_offset; unsigned fail_bitmap_length; }; #define LOG_MAGIC "LOGmagic" #define LOG_MAGIC_SIZE 8 int write_update_for_bootloader( const char *update, int update_length, int bitmap_width, int bitmap_height, int bitmap_bpp, const char *busy_bitmap, const char *fail_bitmap, const char *log_filename) { if (ensure_root_path_unmounted(CACHE_NAME)) { LOGE("Can't unmount %s\n", CACHE_NAME); return -1; } const MtdPartition *part = get_root_mtd_partition(CACHE_NAME); if (part == NULL) { LOGE("Can't find %s\n", CACHE_NAME); return -1; } MtdWriteContext *write = mtd_write_partition(part); if (write == NULL) { LOGE("Can't open %s\n(%s)\n", CACHE_NAME, strerror(errno)); return -1; } /* Write an invalid (zero) header first, to disable any previous * update and any other structured contents (like a filesystem), * and as a placeholder for the amount of space required. */ struct update_header header; memset(&header, 0, sizeof(header)); const ssize_t header_size = sizeof(header); if (mtd_write_data(write, (char*) &header, header_size) != header_size) { LOGE("Can't write header to %s\n(%s)\n", CACHE_NAME, strerror(errno)); mtd_write_close(write); return -1; } /* Write each section individually block-aligned, so we can write * each block independently without complicated buffering. */ memcpy(&header.MAGIC, UPDATE_MAGIC, UPDATE_MAGIC_SIZE); header.version = UPDATE_VERSION; header.size = header_size; if (log_filename != NULL) { // Write 1 byte into the following block, then fill to the end // in order to reserve that block. We'll use the block to // send a copy of the log through to the next invocation of // recovery. We write the log as late as possible in order to // capture any messages emitted by this function. mtd_erase_blocks(write, 0); if (mtd_write_data(write, (char*) &header, 1) != 1) { LOGE("Can't write log block to %s\n(%s)\n", CACHE_NAME, strerror(errno)); mtd_write_close(write); return -1; } } off_t image_start_pos = mtd_erase_blocks(write, 0); header.image_length = update_length; if ((int) header.image_offset == -1 || mtd_write_data(write, update, update_length) != update_length) { LOGE("Can't write update to %s\n(%s)\n", CACHE_NAME, strerror(errno)); mtd_write_close(write); return -1; } off_t busy_start_pos = mtd_erase_blocks(write, 0); header.image_offset = mtd_find_write_start(write, image_start_pos); header.bitmap_width = bitmap_width; header.bitmap_height = bitmap_height; header.bitmap_bpp = bitmap_bpp; int bitmap_length = (bitmap_bpp + 7) / 8 * bitmap_width * bitmap_height; header.busy_bitmap_length = busy_bitmap != NULL ? bitmap_length : 0; if ((int) header.busy_bitmap_offset == -1 || mtd_write_data(write, busy_bitmap, bitmap_length) != bitmap_length) { LOGE("Can't write bitmap to %s\n(%s)\n", CACHE_NAME, strerror(errno)); mtd_write_close(write); return -1; } off_t fail_start_pos = mtd_erase_blocks(write, 0); header.busy_bitmap_offset = mtd_find_write_start(write, busy_start_pos); header.fail_bitmap_length = fail_bitmap != NULL ? bitmap_length : 0; if ((int) header.fail_bitmap_offset == -1 || mtd_write_data(write, fail_bitmap, bitmap_length) != bitmap_length) { LOGE("Can't write bitmap to %s\n(%s)\n", CACHE_NAME, strerror(errno)); mtd_write_close(write); return -1; } mtd_erase_blocks(write, 0); header.fail_bitmap_offset = mtd_find_write_start(write, fail_start_pos); /* Write the header last, after all the blocks it refers to, so that * when the magic number is installed everything is valid. */ if (mtd_write_close(write)) { LOGE("Can't finish writing %s\n(%s)\n", CACHE_NAME, strerror(errno)); return -1; } write = mtd_write_partition(part); if (write == NULL) { LOGE("Can't reopen %s\n(%s)\n", CACHE_NAME, strerror(errno)); return -1; } if (mtd_write_data(write, (char*) &header, header_size) != header_size) { LOGE("Can't rewrite header to %s\n(%s)\n", CACHE_NAME, strerror(errno)); mtd_write_close(write); return -1; } if (log_filename != NULL) { size_t erase_size; if (mtd_partition_info(part, NULL, &erase_size, NULL) != 0) { LOGE("Error reading block size\n(%s)\n", strerror(errno)); mtd_write_close(write); return -1; } mtd_erase_blocks(write, 0); if (erase_size > 0) { char* log = malloc(erase_size); FILE* f = fopen(log_filename, "rb"); // The fseek() may fail if it tries to go before the // beginning of the log, but that's okay because we want // to be positioned at the start anyway. fseek(f, -(erase_size-sizeof(size_t)-LOG_MAGIC_SIZE), SEEK_END); memcpy(log, LOG_MAGIC, LOG_MAGIC_SIZE); size_t read = fread(log+sizeof(size_t)+LOG_MAGIC_SIZE, 1, erase_size-sizeof(size_t)-LOG_MAGIC_SIZE, f); LOGI("read %d bytes from log\n", (int)read); *(size_t *)(log + LOG_MAGIC_SIZE) = read; fclose(f); if (mtd_write_data(write, log, erase_size) != erase_size) { LOGE("failed to store log in cache partition\n(%s)\n", strerror(errno)); mtd_write_close(write); } free(log); } } if (mtd_erase_blocks(write, 0) != image_start_pos) { LOGE("Misalignment rewriting %s\n(%s)\n", CACHE_NAME, strerror(errno)); mtd_write_close(write); return -1; } if (mtd_write_close(write)) { LOGE("Can't finish header of %s\n(%s)\n", CACHE_NAME, strerror(errno)); return -1; } return 0; } void recover_firmware_update_log() { printf("recovering log from before firmware update\n"); const MtdPartition *part = get_root_mtd_partition(CACHE_NAME); if (part == NULL) { LOGE("Can't find %s\n", CACHE_NAME); return; } MtdReadContext* read = mtd_read_partition(part); size_t erase_size; if (mtd_partition_info(part, NULL, &erase_size, NULL) != 0) { LOGE("Error reading block size\n(%s)\n", strerror(errno)); mtd_read_close(read); return; } char* buffer = malloc(erase_size); if (mtd_read_data(read, buffer, erase_size) != erase_size) { LOGE("Error reading header block\n(%s)\n", strerror(errno)); mtd_read_close(read); free(buffer); return; } if (mtd_read_data(read, buffer, erase_size) != erase_size) { LOGE("Error reading log block\n(%s)\n", strerror(errno)); mtd_read_close(read); free(buffer); return; } mtd_read_close(read); if (memcmp(buffer, LOG_MAGIC, LOG_MAGIC_SIZE) != 0) { LOGE("No log from before firmware install\n"); free(buffer); return; } size_t log_size = *(size_t *)(buffer + LOG_MAGIC_SIZE); LOGI("header has %d bytes of log\n", (int)log_size); printf("\n###\n### START RECOVERED LOG\n###\n\n"); fwrite(buffer + sizeof(size_t) + LOG_MAGIC_SIZE, 1, log_size, stdout); printf("\n\n###\n### END RECOVERED LOG\n###\n\n"); free(buffer); }