/* SPDX-License-Identifier: MIT */ /* Copyright (C) 2014 by John Cronin * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include "crc32.h" #include "guid.h" #include "part.h" #include "part_ids.h" #include #include #include #include #include #include static void dump_help(char *fname); static int check_parts(); static int parse_opts(int argc, char **argv); static void write_output(); static size_t sect_size = 512; static long image_sects = 0; static long min_image_sects = 2048; static PART *first_part = NULL; static PART *last_part = NULL; static FILE *output = NULL; static GUID disk_guid; static int part_count; static int header_sectors; static int first_usable_sector; static int secondary_headers_sect; static int secondary_gpt_sect; int main(int argc, char **argv) { random_guid(&disk_guid); if (parse_opts(argc, argv) != 0) return -1; if (output == NULL) { fprintf(stderr, "no output file specifed\n"); dump_help(argv[0]); return -1; } if (first_part == NULL) { fprintf(stderr, "no partitions specified\n"); dump_help(argv[0]); return -1; } if (check_parts() != 0) return -1; write_output(); fclose(output); return 0; } static int parse_opts(int argc, char **argv) { int i = 1; int cur_part_id = 0; PART *cur_part = NULL; /* First, parse global options */ while (i < argc) { if (!strcmp(argv[i], "--output") || !strcmp(argv[i], "-o")) { i++; if (i == argc || argv[i][0] == '-') { fprintf(stderr, "no output file specified\n"); return -1; } output = fopen(argv[i], "w+"); if (output == NULL) { fprintf(stderr, "unable to open %s for writing (%s)\n", argv[i], strerror(errno)); return -1; } i++; } else if (!strcmp(argv[i], "--disk-guid")) { i++; if (i == argc || argv[i][0] == '-') { fprintf(stderr, "no disk guid file specified\n"); return -1; } if (parse_guid(argv[i], &disk_guid) != 0) { fprintf(stderr, "invalid disk uuid (%s)\n", argv[i]); return -1; } i++; } else if (!strcmp(argv[i], "--help") || !strcmp(argv[i], "-h")) { dump_help(argv[0]); return -1; } else if (!strcmp(argv[i], "--sector-size")) { i++; if (i == argc || argv[i][0] == '-') { fprintf(stderr, "sector size not specified\n"); return -1; } sect_size = atoi(argv[i]); if (sect_size < 512 || sect_size > 4096 || sect_size % 512) { fprintf(stderr, "invalid sector size (%zu) - must be " ">= 512 and <= 4096 and " "a multiple of 512", sect_size); return -1; } i++; } else if (!strcmp(argv[i], "--minimum-image-size") || !strcmp(argv[i], "-s")) { i++; if (i == argc || argv[i][0] == '-') { fprintf(stderr, "minimum image size not specified\n"); return -1; } min_image_sects = atoi(argv[i]); if (min_image_sects < 2048) { fprintf(stderr, "minimum image size must be at " "least 2048 sectors\n"); return -1; } i++; } else if (!strcmp(argv[i], "--image-size")) { i++; if (i == argc || argv[i][0] == '-') { fprintf(stderr, "image size not specified\n"); return -1; } image_sects = atoi(argv[i]); i++; } else if (!strcmp(argv[i], "--part") || !strcmp(argv[i], "-p")) break; else { fprintf(stderr, "unknown argument - %s\n", argv[i]); dump_help(argv[0]); return i; } } /* Now parse partitions */ while (i < argc) { if (!strcmp(argv[i], "--part") || !strcmp(argv[i], "-p")) { /* Store the current partition data if there is one */ if (cur_part != NULL) { if (last_part == NULL) { first_part = last_part = cur_part; cur_part->next = NULL; } else { last_part->next = cur_part; last_part = cur_part; cur_part->next = NULL; } } /* Allocate a new partition structure */ cur_part = calloc(1, sizeof(*cur_part)); if (cur_part == NULL) { fprintf(stderr, "out of memory allocating " "partition structure\n"); return -1; } cur_part_id++; cur_part->id = cur_part_id; /* Get the filename of the partition image */ i++; if (i == argc || argv[i][0] == '-') { fprintf(stderr, "no partition image specified for " "partition %i\n", cur_part_id); return -1; } cur_part->src = fopen(argv[i], "r"); if (cur_part->src == NULL) { fprintf(stderr, "unable to open partition image (%s) " "for partition (%i) - %s\n", argv[i], cur_part_id, strerror(errno)); return -1; } i++; } else if (!strcmp(argv[i], "--name") || !strcmp(argv[i], "-n")) { if (cur_part == NULL) { fprintf(stderr, "--part must be specified " "before --name argument\n"); return -1; } i++; if (i == argc || argv[i][0] == '-') { fprintf(stderr, "partition name not specified %i\n", cur_part_id); return -1; } cur_part->name = argv[i]; i++; } else if (!strcmp(argv[i], "--type") || (!strcmp(argv[i], "-t"))) { if (cur_part == NULL) { fprintf(stderr, "--part must be specifed " "before --type argument\n"); return -1; } i++; if (i == argc || argv[i][0] == '-') { fprintf(stderr, "partition type not specified %i\n", cur_part_id); return -1; } if (parse_guid(argv[i], &cur_part->type) != 0) { fprintf(stderr, "invalid partition type (%s) for " "partition %i\n", argv[i], cur_part_id); return -1; } i++; } else if (!strcmp(argv[i], "--uuid") || (!strcmp(argv[i], "-u"))) { if (cur_part == NULL) { fprintf(stderr, "--part must be specifed " "before --uuid argument\n"); return -1; } i++; if (i == argc || argv[i][0] == '-') { fprintf(stderr, "partition uuid not specified %i\n", cur_part_id); return -1; } if (parse_guid(argv[i], &cur_part->uuid) != 0) { fprintf(stderr, "invalid partition uuid (%s) for " "partition %i\n", argv[i], cur_part_id); return -1; } i++; } else { fprintf(stderr, "unknown argument - %s\n", argv[i]); dump_help(argv[0]); return i; } } if (cur_part != NULL) { if (last_part == NULL) { first_part = last_part = cur_part; cur_part->next = NULL; } else { last_part->next = cur_part; last_part = cur_part; cur_part->next = NULL; } } return 0; } static void dump_help(char *fname) { printf("Usage: %s -o [-h] [--disk-guid GUID] " "[--sector-size sect_size] [-s min_image_size] " "[partition def 0] [part def 1] ... [part def n]\n" " Partition definition: --part --type " "[--uuid uuid] [--name name]\n" " Please see the README file for further information\n", fname); } static int check_parts() { /* Iterate through the partitions, checking validity */ int cur_part_id = 0; int cur_sect; PART *cur_part; int header_length; int needed_file_length; /* Count partitions */ cur_part = first_part; part_count = 0; while (cur_part) { part_count++; cur_part = cur_part->next; } /* Determine the sectors needed for MBR, GPT header and partition * entries */ cur_sect = 2; /* MBR + GPT header */ header_length = part_count * 128; header_sectors = header_length / sect_size; if (header_length % sect_size) header_sectors++; /* The GPT entry array must be a minimum of 16,384 bytes (reports * wikipedia and testdisk, but not the UEFI spec) */ if (header_sectors < (int)(16384 / sect_size)) header_sectors = (int)(16384 / sect_size); cur_sect += header_sectors; first_usable_sector = cur_sect; cur_part = first_part; while (cur_part) { long cur_part_file_len; cur_part_id++; if (guid_is_zero(&cur_part->type)) { fprintf(stderr, "partition type not specified for partition " "%i\n", cur_part_id); return -1; } if (guid_is_zero(&cur_part->uuid)) random_guid(&cur_part->uuid); if (cur_part->sect_start == 0) cur_part->sect_start = cur_sect; else if (cur_part->sect_start < cur_sect) { fprintf(stderr, "unable to start partition %i at sector %i " "(would conflict with other data)\n", cur_part_id, cur_part->sect_start); return -1; } if (cur_part->name == NULL) { cur_part->name = malloc(128); sprintf(cur_part->name, "part%i", cur_part_id); } fseek(cur_part->src, 0, SEEK_END); cur_part_file_len = ftell(cur_part->src); fseek(cur_part->src, 0, SEEK_SET); if (cur_part->sect_length == 0) { cur_part->sect_length = cur_part_file_len / sect_size; if (cur_part_file_len % sect_size) cur_part->sect_length++; } cur_sect = cur_part->sect_start + cur_part->sect_length; cur_part = cur_part->next; } /* Add space for the secondary GPT */ needed_file_length = cur_sect + 1 + header_sectors; if (image_sects == 0) { if (needed_file_length > min_image_sects) image_sects = needed_file_length; else image_sects = min_image_sects; } else if (image_sects < needed_file_length) { fprintf(stderr, "requested image size (%zu) is too small to hold the " "partitions\n", image_sects * sect_size); return -1; } secondary_headers_sect = image_sects - 1 - header_sectors; secondary_gpt_sect = image_sects - 1; return 0; } static void panic(const char *msg) { fprintf(stderr, "panic: %s", msg); exit(EXIT_FAILURE); } static void write_output() { int i; uint8_t *mbr, *gpt, *gpt2, *parts, *image_buf; PART *cur_part; /* Write MBR */ mbr = calloc(1, sect_size); if (mbr == NULL) { panic("calloc failed"); } *(uint32_t *)&mbr[446] = 0x00020000; /* boot indicator = 0, start CHS = 0x000200 */ mbr[446 + 4] = 0xee; /* OSType = GPT Protective */ mbr[446 + 5] = 0xff; mbr[446 + 6] = 0xff; mbr[446 + 7] = 0xff; /* EndingCHS = 0xffffff */ *(uint32_t *)&mbr[446 + 8] = 0x1; /* StartingLBA = 1 */ if (image_sects > 0xffffffff) *(uint32_t *)&mbr[446 + 12] = 0xffffffff; else *(uint32_t *)&mbr[446 + 12] = (uint32_t)image_sects - 1; mbr[510] = 0x55; mbr[511] = 0xaa; /* Signature */ if (fwrite(mbr, 1, sect_size, output) != sect_size) { panic("fwrite failed"); } /* Define GPT headers */ gpt = calloc(1, sect_size); if (gpt == NULL) { panic("calloc failed"); } gpt2 = calloc(1, sect_size); if (gpt2 == NULL) { panic("calloc failed"); } *(uint64_t *)&gpt[0] = 0x5452415020494645ULL; /* Signature */ *(uint32_t *)&gpt[8] = 0x00010000UL; /* Revision */ *(uint32_t *)&gpt[12] = 96; /* HeaderSize */ *(uint32_t *)&gpt[16] = 0; /* HeaderCRC32 */ *(uint32_t *)&gpt[20] = 0; /* Reserved */ *(uint64_t *)&gpt[24] = 0x1; /* MyLBA */ *(uint64_t *)&gpt[32] = secondary_gpt_sect; /* AlternateLBA */ *(uint64_t *)&gpt[40] = first_usable_sector; /* FirstUsableLBA */ *(uint64_t *)&gpt[48] = secondary_headers_sect - 1; /* LastUsableLBA */ guid_to_bytestring(&gpt[56], &disk_guid); /* DiskGUID */ *(uint64_t *)&gpt[72] = 0x2; /* PartitionEntryLBA */ *(uint32_t *)&gpt[80] = part_count; /* NumberOfPartitionEntries */ *(uint32_t *)&gpt[84] = 128; /* SizeOfPartitionEntry */ *(uint32_t *)&gpt[88] = 0; /* PartitionEntryArrayCRC32 */ /* Define GPT partition entries */ parts = calloc(header_sectors, sect_size); if (parts == NULL) { panic("calloc failed"); } cur_part = first_part; i = 0; while (cur_part) { int char_id; guid_to_bytestring(&parts[i * 128], &cur_part->type); /* PartitionTypeGUID */ guid_to_bytestring(&parts[i * 128 + 16], &cur_part->uuid); /* UniquePartitionGUID */ *(uint64_t *)&parts[i * 128 + 32] = cur_part->sect_start; /* StartingLBA */ *(uint64_t *)&parts[i * 128 + 40] = cur_part->sect_start + cur_part->sect_length - 1; /* EndingLBA */ *(uint64_t *)&parts[i * 128 + 48] = cur_part->attrs; /* Attributes */ for (char_id = 0; char_id < (int)strlen(cur_part->name) && char_id < 35; char_id++) *(uint16_t *)&parts[i * 128 + 56 + char_id * 2] = (uint16_t)cur_part->name[char_id]; i++; cur_part = cur_part->next; } /* Do CRC calculations on the partition table entries and GPT headers */ CalculateCrc32(parts, part_count * 128, (uint32_t *)&gpt[88]); CalculateCrc32(gpt, 96, (uint32_t *)&gpt[16]); memcpy(gpt2, gpt, 96); *(uint32_t *)&gpt2[16] = 0; /* HeaderCRC32 */ *(uint64_t *)&gpt2[24] = secondary_gpt_sect; /* MyLBA */ *(uint64_t *)&gpt2[32] = 0x1; /* AlternateLBA */ *(uint64_t *)&gpt2[72] = secondary_headers_sect; /* PartitionEntryLBA */ CalculateCrc32(gpt2, 96, (uint32_t *)&gpt2[16]); /* Write primary GPT and headers */ if (fwrite(gpt, 1, sect_size, output) != sect_size) { panic("fwrite failed"); } if (fwrite(parts, 1, header_sectors * sect_size, output) != header_sectors * sect_size) { panic("fwrite failed"); } /* Write partitions */ cur_part = first_part; image_buf = malloc(sect_size); while (cur_part) { size_t bytes_read; size_t bytes_written = 0; fseek(output, cur_part->sect_start * sect_size, SEEK_SET); while ((bytes_read = fread( image_buf, 1, sect_size, cur_part->src)) > 0) { size_t bytes_to_write = bytes_read; /* Determine how much to write */ if ((bytes_written + bytes_to_write) > (size_t)(cur_part->sect_length * sect_size)) bytes_to_write = cur_part->sect_length * sect_size - bytes_written; if (fwrite(image_buf, 1, bytes_to_write, output) != bytes_to_write) { panic("fwrite failed"); } bytes_written += bytes_to_write; } cur_part = cur_part->next; } /* Write secondary GPT partition headers and header */ fseek(output, secondary_headers_sect * sect_size, SEEK_SET); if (fwrite(parts, 1, header_sectors * sect_size, output) != header_sectors * sect_size) { panic("fwrite failed"); } fseek(output, secondary_gpt_sect * sect_size, SEEK_SET); if (fwrite(gpt2, 1, sect_size, output) != sect_size) { panic("fwrite failed"); } }