// // pdisk - an editor for Apple format partition tables // // Written by Eryk Vershen // // Still under development (as of 15 January 1998) // /* * Copyright 1996,1997,1998 by Apple Computer, Inc. * All Rights Reserved * * Permission to use, copy, modify, and distribute this software and * its documentation for any purpose and without fee is hereby granted, * provided that the above copyright notice appears in all copies and * that both the copyright notice and this permission notice appear in * supporting documentation. * * APPLE COMPUTER DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE. * * IN NO EVENT SHALL APPLE COMPUTER BE LIABLE FOR ANY SPECIAL, INDIRECT, OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN ACTION OF CONTRACT, * NEGLIGENCE, OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION * WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ // for printf() #include #if defined(__linux__) || defined(__NetBSD__) #include #endif #ifdef __linux__ #include #else // for malloc() & free() #include #if !defined(__unix__) // for SIOUXsettings #include #endif #endif #ifdef __unix__ #include #endif // for strncpy() & strlen() #include // for O_RDONLY #include // for errno #include #ifdef __linux__ #include #include #include #endif #include "pdisk.h" #include "io.h" #include "partition_map.h" #include "pathname.h" #include "hfs_misc.h" #include "errors.h" #include "dump.h" #include "validate.h" #include "version.h" #include "util.h" // // Defines // #define ARGV_CHUNK 5 #define CFLAG_DEFAULT 0 #define DFLAG_DEFAULT 0 #define HFLAG_DEFAULT 0 #define INTERACT_DEFAULT 0 #define LFLAG_DEFAULT 0 #define RFLAG_DEFAULT 0 #define VFLAG_DEFAULT 0 // // Types // // // Global Constants // enum getopt_values { kLongOption = 0, kBadOption = '?', kOptionArg = 1000, kListOption = 1001, kLogicalOption = 1002 }; // // Global Variables // int lflag = LFLAG_DEFAULT; /* list the device */ char *lfile; /* list */ int vflag = VFLAG_DEFAULT; /* show version */ int hflag = HFLAG_DEFAULT; /* show help */ int dflag = DFLAG_DEFAULT; /* turn on debugging commands and printout */ int rflag = RFLAG_DEFAULT; /* open device read Only */ int interactive = INTERACT_DEFAULT; int cflag = CFLAG_DEFAULT; /* compute device size */ static int first_get = 1; // // Forward declarations // void do_change_map_size(partition_map_header *map); void do_update_dpme(partition_map *entry); void do_create_partition(partition_map_header *map, int get_type); void do_delete_partition(partition_map_header *map); void do_display_block(partition_map_header *map, char *alt_name); void do_display_entry(partition_map_header *map); void do_examine_patch_partition(partition_map_header *map); int do_expert(partition_map_header *map, char *name); void do_rename_partition(partition_map_header *map); void do_change_type(partition_map_header *map); void do_reorder(partition_map_header *map); void do_write_partition_map(partition_map_header *map); void edit(char *name, int ask_logical_size); int get_base_argument(long *number, partition_map_header *map); int get_command_line(int *argc, char ***argv); int get_size_argument(long *number, partition_map_header *map); int get_options(int argc, char **argv); void interact(void); void print_edit_notes(void); void print_expert_notes(void); void print_top_notes(void); // // Routines // int main(int argc, char **argv) { #if defined(__linux__) || defined(__unix__) int name_index; #else SIOUXSettings.rows = 100; printf("This app uses the SIOUX console library\n"); printf("Choose 'Quit' from the file menu to quit.\n\n"); printf("Use fake disk names (/dev/scsi.; i.e. /dev/scsi0.1, /dev/scsi1.3, etc.).\n\n"); SIOUXSettings.autocloseonquit = 0; /* Do we close the SIOUX window on program termination ... */ SIOUXSettings.asktosaveonclose = 0; /* Do we offer to save on a close ... */ #endif init_program_name(argv); if (sizeof(DPME) != PBLOCK_SIZE) { fatal(-1, "Size of partion map entry (%d) " "is not equal to block size (%d)\n", sizeof(DPME), PBLOCK_SIZE); } if (sizeof(Block0) != PBLOCK_SIZE) { fatal(-1, "Size of block zero structure (%d) " "is not equal to block size (%d)\n", sizeof(Block0), PBLOCK_SIZE); } if (strcmp(VERSION, get_version_string()) != 0) { fatal(-1, "Version string static form (%s) does not match dynamic form (%s)\n", VERSION, get_version_string()); } #if defined(__linux__) || defined(__unix__) name_index = get_options(argc, argv); if (vflag) { printf("version " VERSION " (" RELEASE_DATE ")\n"); } if (hflag) { do_help(); } else if (interactive) { interact(); } else if (lflag) { if (lfile != NULL) { dump(lfile); } else if (name_index < argc) { while (name_index < argc) { dump(argv[name_index++]); } } else { #ifdef __linux__ list_all_disks(); #else usage("no device argument"); do_help(); #endif } } else if (name_index < argc) { while (name_index < argc) { edit(argv[name_index++], 0); } } else if (!vflag) { usage("no device argument"); do_help(); } return 0; #else interactive = 1; interact(); SIOUXSettings.autocloseonquit = 1; //printf("Processing stopped: Choose 'Quit' from the file menu to quit.\n\n"); exit(0); #endif } void print_top_notes() { printf("Notes:\n"); printf(" Disks have fake names of the form /dev/scsi.\n"); printf(" For example, /dev/scsi0.1, /dev/scsi1.3, and so on.\n"); printf(" Linux style names are also allowed (i.e /dev/sda or /dev/hda).\n"); printf(" Due to some technical problems these names may not match\n"); printf(" the 'real' linux names.\n"); printf("\n"); } void interact() { char *name; int command; int ask_logical_size; while (get_command("Top level command (? for help): ", first_get, &command)) { first_get = 0; ask_logical_size = 0; switch (command) { case '?': print_top_notes(); // fall through case 'H': case 'h': printf("Commands are:\n"); printf(" h print help\n"); printf(" v print the version number and release date\n"); printf(" l list device's map\n"); #ifdef __linux__ printf(" L list all devices' maps\n"); #endif printf(" e edit device's map\n"); printf(" E (edit map with specified block size)\n"); printf(" r toggle readonly flag\n"); printf(" f toggle show filesystem name flag\n"); if (dflag) { printf(" a toggle abbreviate flag\n"); printf(" p toggle physical flag\n"); printf(" c toggle compute size flag\n"); printf(" d toggle debug flag\n"); printf(" x examine block n of device\n"); } printf(" q quit the program\n"); break; case 'Q': case 'q': return; break; case 'V': case 'v': printf("version " VERSION " (" RELEASE_DATE ")\n"); break; #ifdef __linux__ case 'L': list_all_disks(); break; #endif case 'l': if (get_string_argument("Name of device: ", &name, 1) == 0) { bad_input("Bad name"); break; } dump(name); free(name); break; case 'E': ask_logical_size = 1; case 'e': if (get_string_argument("Name of device: ", &name, 1) == 0) { bad_input("Bad name"); break; } edit(name, ask_logical_size); free(name); break; case 'R': case 'r': if (rflag) { rflag = 0; } else { rflag = 1; } printf("Now in %s mode.\n", (rflag)?"readonly":"read/write"); break; case 'F': case 'f': if (fflag) { fflag = 0; } else { fflag = 1; } printf("Now in show %s name mode.\n", (fflag)?"filesystem":"partition"); break; case 'A': case 'a': if (dflag) { if (aflag) { aflag = 0; } else { aflag = 1; } printf("Now in %s mode.\n", (aflag)?"abbreviate":"full type"); } else { goto do_error; } break; case 'P': case 'p': if (dflag) { if (pflag) { pflag = 0; } else { pflag = 1; } printf("Now in %s mode.\n", (pflag)?"physical":"logical"); } else { goto do_error; } break; case 'D': case 'd': if (dflag) { dflag = 0; } else { dflag = 1; } printf("Now in %s mode.\n", (dflag)?"debug":"normal"); break; case 'C': case 'c': if (dflag) { if (cflag) { cflag = 0; } else { cflag = 1; } printf("Now in %s device size mode.\n", (cflag)?"always compute":"use existing"); } else { goto do_error; } break; case 'X': case 'x': if (dflag) { do_display_block(0, 0); } else { goto do_error; } break; default: do_error: bad_input("No such command (%c)", command); break; } } } #if defined(__linux__) || defined(__unix__) int get_options(int argc, char **argv) { int c; #if defined(__linux__) || defined(__NetBSD__) static struct option long_options[] = { // name has_arg &flag val {"help", no_argument, 0, 'h'}, {"list", optional_argument, 0, kListOption}, {"version", no_argument, 0, 'v'}, {"debug", no_argument, 0, 'd'}, {"readonly", no_argument, 0, 'r'}, {"abbr", no_argument, 0, 'a'}, {"fname", no_argument, 0, 'f'}, {"logical", no_argument, 0, kLogicalOption}, {"interactive", no_argument, 0, 'i'}, {"compute_size", no_argument, 0, 'c'}, {0, 0, 0, 0} }; int option_index = 0; #else extern int opterr; /* who does error messages */ extern int optopt; /* char that caused the error */ int getopt_error; /* getopt choked */ #endif extern int optind; /* next argv index */ extern char *optarg; /* pointer to argument */ int flag = 0; lflag = LFLAG_DEFAULT; lfile = NULL; vflag = VFLAG_DEFAULT; hflag = HFLAG_DEFAULT; dflag = DFLAG_DEFAULT; rflag = RFLAG_DEFAULT; aflag = AFLAG_DEFAULT; pflag = PFLAG_DEFAULT; interactive = INTERACT_DEFAULT; cflag = CFLAG_DEFAULT; fflag = FFLAG_DEFAULT; #if defined(__linux__) || defined(__NetBSD__) optind = 0; // reset option scanner logic while ((c = getopt_long(argc, argv, "hlvdraLicf", long_options, &option_index)) >= 0) #else opterr = 0; /* tell getopt to be quiet */ while ((c = getopt(argc, argv, "hlvdraLicf")) != EOF) #endif { #if !(defined(__linux__) || defined(__NetBSD__)) if (c == '?') { getopt_error = 1; c = optopt; } else { getopt_error = 0; } #endif switch (c) { case kLongOption: // option_index would be used here break; case 'h': hflag = (HFLAG_DEFAULT)?0:1; break; case kListOption: if (optarg != NULL) { lfile = optarg; } // fall through case 'l': lflag = (LFLAG_DEFAULT)?0:1; break; case 'v': vflag = (VFLAG_DEFAULT)?0:1; break; case 'd': dflag = (DFLAG_DEFAULT)?0:1; break; case 'c': cflag = (CFLAG_DEFAULT)?0:1; break; case 'r': rflag = (RFLAG_DEFAULT)?0:1; break; case 'f': fflag = (FFLAG_DEFAULT)?0:1; break; case 'i': interactive = (INTERACT_DEFAULT)?0:1; break; case 'a': aflag = (AFLAG_DEFAULT)?0:1; break; case 'L': case kLogicalOption: pflag = (PFLAG_DEFAULT)?0:1; break; case kBadOption: default: flag = 1; break; } } if (flag) { usage("bad arguments"); } return optind; } #endif void print_edit_notes() { printf("Notes:\n"); printf(" Base and length fields are blocks, which vary in size between media.\n"); printf(" The base field can be p; i.e. use the base of the nth partition.\n"); printf(" The length field can be a length followed by k, m, g or t to indicate\n"); printf(" kilo, mega, giga, or tera bytes; also the length can be p; i.e. use\n"); printf(" the length of the nth partition.\n"); printf(" The name of a partition is descriptive text.\n"); printf("\n"); } // // Edit the file // void edit(char *name, int ask_logical_size) { partition_map_header *map; int command; int order; int get_type; int valid_file; map = open_partition_map(name, &valid_file, ask_logical_size); if (!valid_file) { return; } printf("Edit %s -\n", name); #if 0 /* this check is not found in linux fdisk-0.1 */ if (map != NULL && map->blocks_in_map > MAX_LINUX_MAP) { error(-1, "Map contains more than %d blocks - Linux may have trouble", MAX_LINUX_MAP); } #endif while (get_command("Command (? for help): ", first_get, &command)) { first_get = 0; order = 1; get_type = 0; switch (command) { case '?': print_edit_notes(); // fall through case 'H': case 'h': printf("Commands are:\n"); printf(" C (create with type also specified)\n"); printf(" c create new partition (standard unix root)\n"); printf(" d delete a partition\n"); printf(" h help\n"); printf(" i initialize partition map\n"); printf(" n (re)name a partition\n"); printf(" P (print ordered by base address)\n"); printf(" p print the partition table\n"); printf(" q quit editing\n"); printf(" r reorder partition entry in map\n"); printf(" s change size of partition map\n"); printf(" t change a partition's type\n"); if (!rflag) { printf(" w write the partition table\n"); } if (dflag) { printf(" x extra extensions for experts\n"); } break; case 'P': order = 0; // fall through case 'p': dump_partition_map(map, order); break; case 'Q': case 'q': if (map && map->changed) { if (get_okay("Discard changes? [n/y]: ", 0) != 1) { break; } } flush_to_newline(1); goto finis; break; case 'I': case 'i': map = init_partition_map(name, map); break; case 'C': get_type = 1; // fall through case 'c': do_create_partition(map, get_type); break; case 'N': case 'n': do_rename_partition(map); break; case 'D': case 'd': do_delete_partition(map); break; case 'R': case 'r': do_reorder(map); break; case 'S': case 's': do_change_map_size(map); break; case 'T': case 't': do_change_type(map); break; case 'X': case 'x': if (!dflag) { goto do_error; } else if (do_expert(map, name)) { flush_to_newline(1); goto finis; } break; case 'W': case 'w': if (!rflag) { do_write_partition_map(map); } else { goto do_error; } break; default: do_error: bad_input("No such command (%c)", command); break; } } finis: close_partition_map(map); } void do_update_dpme(partition_map *entry) { int slice = 0; if (!entry) return; dpme_init_flags(entry->data); entry->HFS_name = get_HFS_name(entry, &entry->HFS_kind); if (istrncmp(entry->data->dpme_type, kUnixType, DPISTRLEN) == 0) { printf("Available partition slices for %s:\n",entry->data->dpme_type); printf(" a root partition\n"); printf(" b swap partition\n"); printf(" c do not set any bzb bits\n"); printf(" g user partition\n"); printf("Other lettered values will create user partitions\n"); get_command("Select a slice for default bzb values: ",0,&slice); } bzb_init_slice((BZB *)entry->data->dpme_bzb,slice); entry->the_map->changed = 1; } void do_create_partition(partition_map_header *map, int get_type) { long base; long length; char *name = 0; char *type_name = 0; if (map == NULL) { bad_input("No partition map exists"); return; } if (!rflag && map->writable == 0) { printf("The map is not writable.\n"); } // XXX add help feature (i.e. '?' in any argument routine prints help string) if (get_base_argument(&base, map) == 0) { return; } if (get_size_argument(&length, map) == 0) { return; } if (get_string_argument("Name of partition: ", &name, 1) == 0) { bad_input("Bad name"); return; } if (get_type == 0) { add_partition_to_map(name, kUnixType, base, length, map); #if 0 /* this check is not found in linux fdisk-0.1 */ if (map->blocks_in_map > MAX_LINUX_MAP) { error(-1, "Map contains more than %d blocks - Linux may have trouble", MAX_LINUX_MAP); } goto xit1; #endif } else if (get_string_argument("Type of partition: ", &type_name, 1) == 0) { bad_input("Bad type"); goto xit1; } else { if (istrncmp(type_name, kFreeType, DPISTRLEN) == 0) { bad_input("Can't create a partition with the Free type"); goto xit2; } if (istrncmp(type_name, kMapType, DPISTRLEN) == 0) { bad_input("Can't create a partition with the Map type"); goto xit2; } add_partition_to_map(name, type_name, base, length, map); #if 0 /* this check is not found in linux fdisk-0.1 */ if (map->blocks_in_map > MAX_LINUX_MAP) { error(-1, "Map contains more than %d blocks - Linux may have trouble", MAX_LINUX_MAP); } #endif } do_update_dpme(find_entry_by_base(base,map)); xit2: if (type_name) free(type_name); xit1: if (name) free(name); return; } int get_base_argument(long *number, partition_map_header *map) { partition_map * entry; int result = 0; if (get_number_argument("First block: ", number, kDefault) == 0) { bad_input("Bad block number"); } else { result = 1; if (get_partition_modifier()) { entry = find_entry_by_disk_address(*number, map); if (entry == NULL) { bad_input("Bad partition number"); result = 0; } else { *number = entry->data->dpme_pblock_start; } } } return result; } int get_size_argument(long *number, partition_map_header *map) { partition_map * entry; int result = 0; unsigned long multiple; if (get_number_argument("Length in blocks: ", number, kDefault) == 0) { bad_input("Bad length"); } else { multiple = get_multiplier(map->logical_block); if (multiple == 0) { bad_input("Bad multiplier"); } else if (multiple != 1) { *number *= multiple; result = 1; } else if (get_partition_modifier()) { entry = find_entry_by_disk_address(*number, map); if (entry == NULL) { bad_input("Bad partition number"); } else { *number = entry->data->dpme_pblocks; result = 1; } } else { result = 1; } } return result; } void do_rename_partition(partition_map_header *map) { partition_map * entry; long ix; char *name; if (map == NULL) { bad_input("No partition map exists"); return; } if (!rflag && map->writable == 0) { printf("The map is not writable.\n"); } if (get_number_argument("Partition number: ", &ix, kDefault) == 0) { bad_input("Bad partition number"); return; } if (get_string_argument("New name of partition: ", &name, 1) == 0) { bad_input("Bad name"); return; } // find partition and change it entry = find_entry_by_disk_address(ix, map); if (entry == NULL) { printf("No such partition\n"); } else { // stuff name into partition map entry data strncpy(entry->data->dpme_name, name, DPISTRLEN); map->changed = 1; } free(name); return; } void do_change_type(partition_map_header *map) { partition_map * entry; long ix; char *type = NULL; if (map == NULL) { bad_input("No partition map exists"); return; } if (!rflag && map->writable == 0) { printf("The map is not writeable.\n"); } if (get_number_argument("Partition number: ", &ix, kDefault) == 0) { bad_input("Bad partition number"); return; } entry = find_entry_by_disk_address(ix, map); if (entry == NULL ) { printf("No such partition\n"); goto out; } printf("Existing partition type ``%s''.\n", entry->data->dpme_type); if (get_string_argument("New type of partition: ", &type, 1) == 0) { bad_input("Bad type"); goto out; } strncpy(entry->data->dpme_type, type, DPISTRLEN); do_update_dpme(entry); map->changed = 1; out: if (type) free(type); return; } void do_delete_partition(partition_map_header *map) { partition_map * cur; long ix; if (map == NULL) { bad_input("No partition map exists"); return; } if (!rflag && map->writable == 0) { printf("The map is not writable.\n"); } if (get_number_argument("Partition number: ", &ix, kDefault) == 0) { bad_input("Bad partition number"); return; } // find partition and delete it cur = find_entry_by_disk_address(ix, map); if (cur == NULL) { printf("No such partition\n"); } else { delete_partition_from_map(cur); } } void do_reorder(partition_map_header *map) { long old_index; long ix; if (map == NULL) { bad_input("No partition map exists"); return; } if (!rflag && map->writable == 0) { printf("The map is not writable.\n"); } if (get_number_argument("Partition number: ", &old_index, kDefault) == 0) { bad_input("Bad partition number"); return; } if (get_number_argument("New number: ", &ix, kDefault) == 0) { bad_input("Bad partition number"); return; } move_entry_in_map(old_index, ix, map); } void do_write_partition_map(partition_map_header *map) { if (map == NULL) { bad_input("No partition map exists"); return; } if (map->changed == 0 && map->written == 0) { bad_input("The map has not been changed."); return; } if (map->writable == 0) { bad_input("The map is not writable."); return; } #if 0 /* this check is not found in linux fdisk-0.1 */ if (map->blocks_in_map > MAX_LINUX_MAP) { error(-1, "Map contains more than %d blocks - Linux may have trouble", MAX_LINUX_MAP); } #endif printf("Writing the map destroys what was there before. "); if (get_okay("Is that okay? [n/y]: ", 0) != 1) { return; } write_partition_map(map); map->changed = 0; map->written = 1; // exit(0); } void print_expert_notes() { printf("Notes:\n"); printf(" The expert commands are for low level and experimental features.\n"); printf(" These commands are available only when debug mode is on.\n"); printf("\n"); } int do_expert(partition_map_header *map, char *name) { int command; int quit = 0; while (get_command("Expert command (? for help): ", first_get, &command)) { first_get = 0; switch (command) { case '?': print_expert_notes(); // fall through case 'H': case 'h': printf("Commands are:\n"); printf(" h print help\n"); printf(" d dump block n\n"); printf(" p print the partition table\n"); if (dflag) { printf(" P (show data structures - debugging)\n"); } printf(" f full display of nth entry\n"); printf(" v validate map\n"); printf(" e examine patch partition\n"); printf(" q return to main edit menu\n"); printf(" Q quit editing\n"); break; case 'q': flush_to_newline(1); goto finis; break; case 'Q': if (map->changed) { if (get_okay("Discard changes? [n/y]: ", 0) != 1) { break; } } quit = 1; goto finis; break; case 'P': if (dflag) { show_data_structures(map); break; } // fall through case 'p': dump_partition_map(map, 1); break; case 'D': case 'd': do_display_block(map, name); break; case 'F': case 'f': do_display_entry(map); break; case 'V': case 'v': validate_map(map); break; case 'E': case 'e': do_examine_patch_partition(map); break; default: bad_input("No such command (%c)", command); break; } } finis: return quit; } void do_change_map_size(partition_map_header *map) { long size; if (map == NULL) { bad_input("No partition map exists"); return; } if (!rflag && map->writable == 0) { printf("The map is not writable.\n"); } if (get_number_argument("New size: ", &size, kDefault) == 0) { bad_input("Bad size"); return; } resize_map(size, map); } void do_display_block(partition_map_header *map, char *alt_name) { MEDIA m; long number; char *name; static unsigned char *display_block; static int display_g; int g; static long next_number = -1; if (map != NULL) { name = 0; m = map->m; g = map->logical_block; } else { if (alt_name == 0) { if (get_string_argument("Name of device: ", &name, 1) == 0) { bad_input("Bad name"); return; } } else { name = strdup(alt_name); } m = open_pathname_as_media(name, O_RDONLY); if (m == 0) { error(errno, "can't open file '%s'", name); free(name); return; } g = media_granularity(m); if (g < PBLOCK_SIZE) { g = PBLOCK_SIZE; } } if (get_number_argument("Block number: ", &number, next_number) == 0) { bad_input("Bad block number"); goto xit; } if (display_block == NULL || display_g < g) { if (display_block != NULL) { free(display_block); display_g = 0; } display_block = (unsigned char *) malloc(g); if (display_block == NULL) { error(errno, "can't allocate memory for display block buffer"); goto xit; } display_g = g; } if (read_media(m, ((long long)number) * g, g, (char *)display_block) != 0) { printf("block %ld -", number); dump_block((unsigned char*) display_block, g); next_number = number + 1; } xit: if (name) { close_media(m); free(name); } return; } void do_display_entry(partition_map_header *map) { long number; if (map == NULL) { bad_input("No partition map exists"); return; } if (get_number_argument("Partition number: ", &number, kDefault) == 0) { bad_input("Bad partition number"); return; } if (number == 0) { full_dump_block_zero(map); } else { full_dump_partition_entry(map, number); } } void do_examine_patch_partition(partition_map_header *map) { partition_map * entry; if (map == NULL) { bad_input("No partition map exists"); return; } entry = find_entry_by_type(kPatchType, map); if (entry == NULL) { printf("No patch partition\n"); } else { display_patches(entry); } }