/* * mkfs.minix.c - make a linux (minix) file-system. * * (C) 1991 Linus Torvalds. This file may be redistributed as per * the Linux copyright. */ /* * DD.MM.YY * * 24.11.91 - Time began. Used the fsck sources to get started. * * 25.11.91 - Corrected some bugs. Added support for ".badblocks" * The algorithm for ".badblocks" is a bit weird, but * it should work. Oh, well. * * 25.01.92 - Added the -l option for getting the list of bad blocks * out of a named file. (Dave Rivers, rivers@ponds.uucp) * * 28.02.92 - Added %-information when using -c. * * 28.02.93 - Added support for other namelengths than the original * 14 characters so that I can test the new kernel routines.. * * 09.10.93 - Make exit status conform to that required by fsutil * (Rik Faith, faith@cs.unc.edu) * * 31.10.93 - Added inode request feature, for backup floppies: use * 32 inodes, for a news partition use more. * (Scott Heavner, sdh@po.cwru.edu) * * 03.01.94 - Added support for file system valid flag. * (Dr. Wettstein, greg%wind.uucp@plains.nodak.edu) * * 30.10.94 - Added support for v2 filesystem * (Andreas Schwab, schwab@issan.informatik.uni-dortmund.de) * * 09.11.94 - Added test to prevent overwrite of mounted fs adapted * from Theodore Ts'o's (tytso@athena.mit.edu) mke2fs * program. (Daniel Quinlan, quinlan@yggdrasil.com) * * 03.20.95 - Clear first 512 bytes of filesystem to make certain that * the filesystem is not misidentified as a MS-DOS FAT filesystem. * (Daniel Quinlan, quinlan@yggdrasil.com) * * 02.07.96 - Added small patch from Russell King to make the program a * good deal more portable (janl@math.uio.no) * * 06.29.11 - Overall cleanups for util-linux and v3 support * Davidlohr Bueso * * 06.20.15 - Do not infinite loop or crash on large devices * Joshua Hudson * */ #include #include #include #include #include #include #include #include #include #include #include #include #include "blkdev.h" #include "minix_programs.h" #include "nls.h" #include "pathnames.h" #include "bitops.h" #include "exitcodes.h" #include "strutils.h" #include "all-io.h" #include "closestream.h" #include "ismounted.h" #define XALLOC_EXIT_CODE MKFS_EX_ERROR #include "xalloc.h" #define MINIX_ROOT_INO 1 #define MINIX_BAD_INO 2 #define TEST_BUFFER_BLOCKS 16 #define MAX_GOOD_BLOCKS 512 #define MINIX_MAX_INODES 65535 #define DEFAULT_FS_VERSION 1 /* * Global variables used in minix_programs.h inline functions */ int fs_version = DEFAULT_FS_VERSION; char *super_block_buffer; static char *inode_buffer = NULL; #define Inode (((struct minix_inode *) inode_buffer) - 1) #define Inode2 (((struct minix2_inode *) inode_buffer) - 1) struct fs_control { char *device_name; /* device on a Minix file system is created */ int device_fd; /* open file descriptor of the device */ char *lockmode; /* as specified by --lock */ unsigned long long fs_blocks; /* device block count for the file system */ int fs_used_blocks; /* used blocks on a device */ int fs_bad_blocks; /* number of bad blocks found from device */ uint16_t fs_namelen; /* maximum length of filenames */ size_t fs_dirsize; /* maximum size of directory */ unsigned long fs_inodes; /* number of inodes */ int fs_magic; /* file system magic number */ unsigned int check_blocks:1; /* check for bad blocks */ }; static char root_block[MINIX_BLOCK_SIZE]; static char boot_block_buffer[512]; static unsigned short good_blocks_table[MAX_GOOD_BLOCKS]; static char *inode_map; static char *zone_map; #define zone_in_use(x) (isset(zone_map,(x)-get_first_zone()+1) != 0) #define mark_inode(x) (setbit(inode_map,(x))) #define unmark_inode(x) (clrbit(inode_map,(x))) #define mark_zone(x) (setbit(zone_map,(x)-get_first_zone()+1)) #define unmark_zone(x) (clrbit(zone_map,(x)-get_first_zone()+1)) static void __attribute__((__noreturn__)) usage(void) { FILE *out = stdout; fputs(USAGE_HEADER, out); fprintf(out, _(" %s [options] /dev/name [blocks]\n"), program_invocation_short_name); fputs(USAGE_OPTIONS, out); fputs(_(" -1 use Minix version 1\n"), out); fputs(_(" -2, -v use Minix version 2\n"), out); fputs(_(" -3 use Minix version 3\n"), out); fputs(_(" -n, --namelength maximum length of filenames\n"), out); fputs(_(" -i, --inodes number of inodes for the filesystem\n"), out); fputs(_(" -c, --check check the device for bad blocks\n"), out); fputs(_(" -l, --badblocks list of bad blocks from file\n"), out); fprintf(out, _( " --lock[=] use exclusive device lock (%s, %s or %s)\n"), "yes", "no", "nonblock"); fputs(USAGE_SEPARATOR, out); printf(USAGE_HELP_OPTIONS(25)); printf(USAGE_MAN_TAIL("mkfs.minix(8)")); exit(MKFS_EX_OK); } #ifdef TEST_SCRIPT static inline time_t mkfs_minix_time(time_t *t) { const char *str = getenv("MKFS_MINIX_TEST_SECOND_SINCE_EPOCH"); time_t sec; if (str && sscanf(str, "%ld", &sec) == 1) return sec; return time(t); } #else /* !TEST_SCRIPT */ # define mkfs_minix_time(x) time(x) #endif static void super_set_state(void) { switch (fs_version) { case 1: case 2: Super.s_state |= MINIX_VALID_FS; Super.s_state &= ~MINIX_ERROR_FS; break; default: /* v3 */ break; } } static void write_tables(const struct fs_control *ctl) { unsigned long imaps = get_nimaps(); unsigned long zmaps = get_nzmaps(); size_t buffsz = get_inode_buffer_size(); /* Mark the super block valid. */ super_set_state(); if (lseek(ctl->device_fd, 0, SEEK_SET)) err(MKFS_EX_ERROR, _("%s: seek to boot block failed " " in write_tables"), ctl->device_name); if (write_all(ctl->device_fd, boot_block_buffer, 512)) err(MKFS_EX_ERROR, _("%s: unable to clear boot sector"), ctl->device_name); if (MINIX_BLOCK_SIZE != lseek(ctl->device_fd, MINIX_BLOCK_SIZE, SEEK_SET)) err(MKFS_EX_ERROR, _("%s: seek failed in write_tables"), ctl->device_name); if (write_all(ctl->device_fd, super_block_buffer, MINIX_BLOCK_SIZE)) err(MKFS_EX_ERROR, _("%s: unable to write super-block"), ctl->device_name); if (write_all(ctl->device_fd, inode_map, imaps * MINIX_BLOCK_SIZE)) err(MKFS_EX_ERROR, _("%s: unable to write inode map"), ctl->device_name); if (write_all(ctl->device_fd, zone_map, zmaps * MINIX_BLOCK_SIZE)) err(MKFS_EX_ERROR, _("%s: unable to write zone map"), ctl->device_name); if (write_all(ctl->device_fd, inode_buffer, buffsz)) err(MKFS_EX_ERROR, _("%s: unable to write inodes"), ctl->device_name); } static void write_block(const struct fs_control *ctl, int blk, char * buffer) { if (blk * MINIX_BLOCK_SIZE != lseek(ctl->device_fd, blk * MINIX_BLOCK_SIZE, SEEK_SET)) errx(MKFS_EX_ERROR, _("%s: seek failed in write_block"), ctl->device_name); if (write_all(ctl->device_fd, buffer, MINIX_BLOCK_SIZE)) errx(MKFS_EX_ERROR, _("%s: write failed in write_block"), ctl->device_name); } static int get_free_block(struct fs_control *ctl) { unsigned int blk; unsigned int zones = get_nzones(); unsigned int first_zone = get_first_zone(); if (ctl->fs_used_blocks + 1 >= MAX_GOOD_BLOCKS) errx(MKFS_EX_ERROR, _("%s: too many bad blocks"), ctl->device_name); if (ctl->fs_used_blocks) blk = good_blocks_table[ctl->fs_used_blocks - 1] + 1; else blk = first_zone; while (blk < zones && zone_in_use(blk)) blk++; if (blk >= zones) errx(MKFS_EX_ERROR, _("%s: not enough good blocks"), ctl->device_name); good_blocks_table[ctl->fs_used_blocks] = blk; ctl->fs_used_blocks++; return blk; } static void mark_good_blocks(const struct fs_control *ctl) { int blk; for (blk=0 ; blk < ctl->fs_used_blocks ; blk++) mark_zone(good_blocks_table[blk]); } static inline int next(unsigned long zone) { unsigned long zones = get_nzones(); unsigned long first_zone = get_first_zone(); if (!zone) zone = first_zone-1; while (++zone < zones) if (zone_in_use(zone)) return zone; return 0; } static void make_bad_inode_v1(struct fs_control *ctl) { struct minix_inode * inode = &Inode[MINIX_BAD_INO]; int i,j,zone; int ind=0,dind=0; unsigned short ind_block[MINIX_BLOCK_SIZE>>1]; unsigned short dind_block[MINIX_BLOCK_SIZE>>1]; #define NEXT_BAD (zone = next(zone)) if (!ctl->fs_bad_blocks) return; mark_inode(MINIX_BAD_INO); inode->i_nlinks = 1; inode->i_time = mkfs_minix_time(NULL); inode->i_mode = S_IFREG + 0000; inode->i_size = ctl->fs_bad_blocks * MINIX_BLOCK_SIZE; zone = next(0); for (i=0 ; i<7 ; i++) { inode->i_zone[i] = zone; if (!NEXT_BAD) goto end_bad; } inode->i_zone[7] = ind = get_free_block(ctl); memset(ind_block,0,MINIX_BLOCK_SIZE); for (i=0 ; i<512 ; i++) { ind_block[i] = zone; if (!NEXT_BAD) goto end_bad; } inode->i_zone[8] = dind = get_free_block(ctl); memset(dind_block,0,MINIX_BLOCK_SIZE); for (i=0 ; i<512 ; i++) { write_block(ctl, ind,(char *) ind_block); dind_block[i] = ind = get_free_block(ctl); memset(ind_block,0,MINIX_BLOCK_SIZE); for (j=0 ; j<512 ; j++) { ind_block[j] = zone; if (!NEXT_BAD) goto end_bad; } } errx(MKFS_EX_ERROR, _("%s: too many bad blocks"), ctl->device_name); end_bad: if (ind) write_block(ctl, ind, (char *) ind_block); if (dind) write_block(ctl, dind, (char *) dind_block); } static void make_bad_inode_v2_v3 (struct fs_control *ctl) { struct minix2_inode *inode = &Inode2[MINIX_BAD_INO]; int i, j, zone; int ind = 0, dind = 0; unsigned long ind_block[MINIX_BLOCK_SIZE >> 2]; unsigned long dind_block[MINIX_BLOCK_SIZE >> 2]; if (!ctl->fs_bad_blocks) return; mark_inode (MINIX_BAD_INO); inode->i_nlinks = 1; inode->i_atime = inode->i_mtime = inode->i_ctime = mkfs_minix_time(NULL); inode->i_mode = S_IFREG + 0000; inode->i_size = ctl->fs_bad_blocks * MINIX_BLOCK_SIZE; zone = next (0); for (i = 0; i < 7; i++) { inode->i_zone[i] = zone; if (!NEXT_BAD) goto end_bad; } inode->i_zone[7] = ind = get_free_block (ctl); memset (ind_block, 0, MINIX_BLOCK_SIZE); for (i = 0; i < 256; i++) { ind_block[i] = zone; if (!NEXT_BAD) goto end_bad; } inode->i_zone[8] = dind = get_free_block (ctl); memset (dind_block, 0, MINIX_BLOCK_SIZE); for (i = 0; i < 256; i++) { write_block (ctl, ind, (char *) ind_block); dind_block[i] = ind = get_free_block (ctl); memset (ind_block, 0, MINIX_BLOCK_SIZE); for (j = 0; j < 256; j++) { ind_block[j] = zone; if (!NEXT_BAD) goto end_bad; } } /* Could make triple indirect block here */ errx(MKFS_EX_ERROR, _("%s: too many bad blocks"), ctl->device_name); end_bad: if (ind) write_block (ctl, ind, (char *) ind_block); if (dind) write_block (ctl, dind, (char *) dind_block); } static void make_bad_inode(struct fs_control *ctl) { if (fs_version < 2) { make_bad_inode_v1(ctl); return; } make_bad_inode_v2_v3(ctl); } static void make_root_inode_v1(struct fs_control *ctl) { struct minix_inode * inode = &Inode[MINIX_ROOT_INO]; mark_inode(MINIX_ROOT_INO); inode->i_zone[0] = get_free_block(ctl); inode->i_nlinks = 2; inode->i_time = mkfs_minix_time(NULL); if (ctl->fs_bad_blocks) inode->i_size = 3 * ctl->fs_dirsize; else { memset(&root_block[2 * ctl->fs_dirsize], 0, ctl->fs_dirsize); inode->i_size = 2 * ctl->fs_dirsize; } inode->i_mode = S_IFDIR + 0755; inode->i_uid = getuid(); if (inode->i_uid) inode->i_gid = getgid(); write_block(ctl, inode->i_zone[0],root_block); } static void make_root_inode_v2_v3 (struct fs_control *ctl) { struct minix2_inode *inode = &Inode2[MINIX_ROOT_INO]; mark_inode (MINIX_ROOT_INO); inode->i_zone[0] = get_free_block (ctl); inode->i_nlinks = 2; inode->i_atime = inode->i_mtime = inode->i_ctime = mkfs_minix_time(NULL); if (ctl->fs_bad_blocks) inode->i_size = 3 * ctl->fs_dirsize; else { memset(&root_block[2 * ctl->fs_dirsize], 0, ctl->fs_dirsize); inode->i_size = 2 * ctl->fs_dirsize; } inode->i_mode = S_IFDIR + 0755; inode->i_uid = getuid(); if (inode->i_uid) inode->i_gid = getgid(); write_block (ctl, inode->i_zone[0], root_block); } static void make_root_inode(struct fs_control *ctl) { char *tmp = root_block; if (fs_version == 3) { *(uint32_t *) tmp = 1; strcpy(tmp + 4, "."); tmp += ctl->fs_dirsize; *(uint32_t *) tmp = 1; strcpy(tmp + 4, ".."); tmp += ctl->fs_dirsize; *(uint32_t *) tmp = 2; strcpy(tmp + 4, ".badblocks"); } else { *(uint16_t *) tmp = 1; strcpy(tmp + 2, "."); tmp += ctl->fs_dirsize; *(uint16_t *) tmp = 1; strcpy(tmp + 2, ".."); tmp += ctl->fs_dirsize; *(uint16_t *) tmp = 2; strcpy(tmp + 2, ".badblocks"); } if (fs_version < 2) { make_root_inode_v1(ctl); return; } make_root_inode_v2_v3(ctl); } static void super_set_nzones(const struct fs_control *ctl) { switch (fs_version) { case 3: Super3.s_zones = ctl->fs_blocks; break; case 2: Super.s_zones = ctl->fs_blocks; break; default: /* v1 */ Super.s_nzones = ctl->fs_blocks; break; } } static void super_init_maxsize(void) { switch (fs_version) { case 3: Super3.s_max_size = 2147483647L; break; case 2: Super.s_max_size = 0x7fffffff; break; default: /* v1 */ Super.s_max_size = (7+512+512*512)*1024; break; } } static void super_set_map_blocks(const struct fs_control *ctl, unsigned long inodes) { switch (fs_version) { case 3: Super3.s_imap_blocks = UPPER(inodes + 1, BITS_PER_BLOCK); Super3.s_zmap_blocks = UPPER(ctl->fs_blocks - (1 + get_nimaps() + inode_blocks()), BITS_PER_BLOCK + 1); Super3.s_firstdatazone = first_zone_data(); break; default: Super.s_imap_blocks = UPPER(inodes + 1, BITS_PER_BLOCK); Super.s_zmap_blocks = UPPER(ctl->fs_blocks - (1 + get_nimaps() + inode_blocks()), BITS_PER_BLOCK + 1); Super.s_firstdatazone = first_zone_data(); break; } } static void super_set_magic(const struct fs_control *ctl) { switch (fs_version) { case 3: Super3.s_magic = ctl->fs_magic; break; default: Super.s_magic = ctl->fs_magic; break; } } static void setup_tables(const struct fs_control *ctl) { unsigned long inodes, zmaps, imaps, zones, i; super_block_buffer = xcalloc(1, MINIX_BLOCK_SIZE); memset(boot_block_buffer,0,512); super_set_magic(ctl); if (fs_version == 3) { Super3.s_log_zone_size = 0; Super3.s_blocksize = MINIX_BLOCK_SIZE; } else { Super.s_log_zone_size = 0; } super_init_maxsize(); super_set_nzones(ctl); zones = get_nzones(); /* some magic nrs: 1 inode / 3 blocks for smaller filesystems, * for one inode / 16 blocks for large ones. mkfs will eventually * crab about too far when getting close to the maximum size. */ if (ctl->fs_inodes == 0) if (2048 * 1024 < ctl->fs_blocks) /* 2GB */ inodes = ctl->fs_blocks / 16; else if (512 * 1024 < ctl->fs_blocks) /* 0.5GB */ inodes = ctl->fs_blocks / 8; else inodes = ctl->fs_blocks / 3; else inodes = ctl->fs_inodes; /* Round up inode count to fill block size */ if (fs_version == 2 || fs_version == 3) inodes = ((inodes + MINIX2_INODES_PER_BLOCK - 1) & ~(MINIX2_INODES_PER_BLOCK - 1)); else inodes = ((inodes + MINIX_INODES_PER_BLOCK - 1) & ~(MINIX_INODES_PER_BLOCK - 1)); if (fs_version == 3) Super3.s_ninodes = inodes; else { if (inodes > MINIX_MAX_INODES) inodes = MINIX_MAX_INODES; Super.s_ninodes = inodes; } super_set_map_blocks(ctl, inodes); if (MINIX_MAX_INODES < first_zone_data()) errx(MKFS_EX_ERROR, _("First data block at %jd, which is too far (max %d).\n" "Try specifying fewer inodes by passing --inodes "), (intmax_t)first_zone_data(), MINIX_MAX_INODES); imaps = get_nimaps(); zmaps = get_nzmaps(); inode_map = xmalloc(imaps * MINIX_BLOCK_SIZE); zone_map = xmalloc(zmaps * MINIX_BLOCK_SIZE); memset(inode_map,0xff,imaps * MINIX_BLOCK_SIZE); memset(zone_map,0xff,zmaps * MINIX_BLOCK_SIZE); for (i = get_first_zone() ; idevice_fd, current_block * MINIX_BLOCK_SIZE, SEEK_SET) != current_block * MINIX_BLOCK_SIZE ) err(MKFS_EX_ERROR, _("%s: seek failed during testing of blocks"), ctl->device_name); /* Try the read */ got = read(ctl->device_fd, buffer, try * MINIX_BLOCK_SIZE); if (got < 0) got = 0; if (got & (MINIX_BLOCK_SIZE - 1 )) { printf(_("Weird values in do_check: probably bugs\n")); } got /= MINIX_BLOCK_SIZE; return got; } static unsigned int currently_testing = 0; static void alarm_intr(int alnum __attribute__ ((__unused__))) { unsigned long zones = get_nzones(); if (currently_testing >= zones) return; signal(SIGALRM,alarm_intr); alarm(5); if (!currently_testing) return; printf("%d ...", currently_testing); fflush(stdout); } static void check_blocks(struct fs_control *ctl) { size_t try, got; static char buffer[MINIX_BLOCK_SIZE * TEST_BUFFER_BLOCKS]; unsigned long zones = get_nzones(); unsigned long first_zone = get_first_zone(); currently_testing=0; signal(SIGALRM,alarm_intr); alarm(5); while (currently_testing < zones) { if (lseek(ctl->device_fd, currently_testing * MINIX_BLOCK_SIZE,SEEK_SET) != currently_testing*MINIX_BLOCK_SIZE) errx(MKFS_EX_ERROR, _("%s: seek failed in check_blocks"), ctl->device_name); try = TEST_BUFFER_BLOCKS; if (currently_testing + try > zones) try = zones-currently_testing; got = do_check(ctl, buffer, try, currently_testing); currently_testing += got; if (got == try) continue; if (currently_testing < first_zone) errx(MKFS_EX_ERROR, _("%s: bad blocks before data-area: " "cannot make fs"), ctl->device_name); mark_zone(currently_testing); ctl->fs_bad_blocks++; currently_testing++; } if (ctl->fs_bad_blocks > 0) printf(P_("%d bad block\n", "%d bad blocks\n", ctl->fs_bad_blocks), ctl->fs_bad_blocks); } static void get_list_blocks(struct fs_control *ctl, char *filename) { FILE *listfile; unsigned long blockno; listfile = fopen(filename,"r"); if (listfile == NULL) err(MKFS_EX_ERROR, _("%s: can't open file of bad blocks"), ctl->device_name); while (!feof(listfile)) { if (fscanf(listfile,"%lu\n", &blockno) != 1) { printf(_("badblock number input error on line %d\n"), ctl->fs_bad_blocks + 1); errx(MKFS_EX_ERROR, _("%s: cannot read badblocks file"), ctl->device_name); } mark_zone(blockno); ctl->fs_bad_blocks++; } fclose(listfile); if (ctl->fs_bad_blocks > 0) printf(P_("%d bad block\n", "%d bad blocks\n", ctl->fs_bad_blocks), ctl->fs_bad_blocks); } static int find_super_magic(const struct fs_control *ctl) { switch (fs_version) { case 1: if (ctl->fs_namelen == 14) return MINIX_SUPER_MAGIC; return MINIX_SUPER_MAGIC2; case 2: if (ctl->fs_namelen == 14) return MINIX2_SUPER_MAGIC; return MINIX2_SUPER_MAGIC2; case 3: return MINIX3_SUPER_MAGIC; default: abort(); } } static void determine_device_blocks(struct fs_control *ctl, const struct stat *statbuf) { unsigned long long dev_blocks = 0; if (S_ISBLK(statbuf->st_mode)) { int sectorsize; if (blkdev_get_sector_size(ctl->device_fd, §orsize) == -1) sectorsize = DEFAULT_SECTOR_SIZE; /* kernel < 2.3.3 */ if (MINIX_BLOCK_SIZE < sectorsize) errx(MKFS_EX_ERROR, _("block size smaller than physical " "sector size of %s"), ctl->device_name); if (blkdev_get_size(ctl->device_fd, &dev_blocks) == -1) errx(MKFS_EX_ERROR, _("cannot determine size of %s"), ctl->device_name); dev_blocks /= MINIX_BLOCK_SIZE; } else if (!S_ISBLK(statbuf->st_mode)) dev_blocks = statbuf->st_size / MINIX_BLOCK_SIZE; if (!ctl->fs_blocks) ctl->fs_blocks = dev_blocks; else if (dev_blocks < ctl->fs_blocks) errx(MKFS_EX_ERROR, _("%s: requested blocks (%llu) exceeds available (%llu) blocks\n"), ctl->device_name, ctl->fs_blocks, dev_blocks); if (ctl->fs_blocks < 10) errx(MKFS_EX_ERROR, _("%s: number of blocks too small"), ctl->device_name); if (fs_version == 1 && ctl->fs_blocks > MINIX_MAX_INODES) ctl->fs_blocks = MINIX_MAX_INODES; if (ctl->fs_blocks > (4 + ((MINIX_MAX_INODES - 4) * BITS_PER_BLOCK))) ctl->fs_blocks = 4 + ((MINIX_MAX_INODES - 4) * BITS_PER_BLOCK); /* Utter maximum: Clip. */ } static void check_user_instructions(struct fs_control *ctl) { switch (fs_version) { case 1: case 2: if (ctl->fs_namelen == 14 || ctl->fs_namelen == 30) ctl->fs_dirsize = ctl->fs_namelen + 2; else errx(MKFS_EX_ERROR, _("unsupported name length: %d"), ctl->fs_namelen); break; case 3: if (ctl->fs_namelen == 60) ctl->fs_dirsize = ctl->fs_namelen + 4; else errx(MKFS_EX_ERROR, _("unsupported name length: %d"), ctl->fs_namelen); break; default: errx(MKFS_EX_ERROR, _("unsupported minix file system version: %d"), fs_version); } ctl->fs_magic = find_super_magic(ctl); } int main(int argc, char ** argv) { struct fs_control ctl = { .fs_namelen = 30, /* keep in sync with DEFAULT_FS_VERSION */ 0 }; int i; struct stat statbuf; char * listfile = NULL; enum { OPT_LOCK = CHAR_MAX + 1 }; static const struct option longopts[] = { {"namelength", required_argument, NULL, 'n'}, {"inodes", required_argument, NULL, 'i'}, {"check", no_argument, NULL, 'c'}, {"badblocks", required_argument, NULL, 'l'}, {"version", no_argument, NULL, 'V'}, {"help", no_argument, NULL, 'h'}, {"lock",optional_argument, NULL, OPT_LOCK}, {NULL, 0, NULL, 0} }; setlocale(LC_ALL, ""); bindtextdomain(PACKAGE, LOCALEDIR); textdomain(PACKAGE); close_stdout_atexit(); strutils_set_exitcode(MKFS_EX_USAGE); while ((i = getopt_long(argc, argv, "1v23n:i:cl:Vh", longopts, NULL)) != -1) switch (i) { case '1': fs_version = 1; break; case 'v': /* kept for backwards compatibility */ warnx(_("-v is ambiguous, use '-2' instead")); /* fallthrough */ case '2': fs_version = 2; break; case '3': fs_version = 3; ctl.fs_namelen = 60; break; case 'n': ctl.fs_namelen = strtou16_or_err(optarg, _("failed to parse maximum length of filenames")); break; case 'i': ctl.fs_inodes = strtoul_or_err(optarg, _("failed to parse number of inodes")); break; case 'c': ctl.check_blocks = 1; break; case 'l': listfile = optarg; break; case OPT_LOCK: ctl.lockmode = "1"; if (optarg) { if (*optarg == '=') optarg++; ctl.lockmode = optarg; } break; case 'V': print_version(MKFS_EX_OK); case 'h': usage(); default: errtryhelp(MKFS_EX_USAGE); } argc -= optind; argv += optind; if (argc > 0) { ctl.device_name = argv[0]; argc--; argv++; } if (argc > 0) ctl.fs_blocks = strtoul_or_err(argv[0], _("failed to parse number of blocks")); if (!ctl.device_name) { warnx(_("no device specified")); errtryhelp(MKFS_EX_USAGE); } check_user_instructions(&ctl); if (is_mounted(ctl.device_name)) errx(MKFS_EX_ERROR, _("%s is mounted; will not make a filesystem here!"), ctl.device_name); if (stat(ctl.device_name, &statbuf) < 0) err(MKFS_EX_ERROR, _("stat of %s failed"), ctl.device_name); ctl.device_fd = open_blkdev_or_file(&statbuf, ctl.device_name, O_RDWR); if (ctl.device_fd < 0) err(MKFS_EX_ERROR, _("cannot open %s"), ctl.device_name); if (blkdev_lock(ctl.device_fd, ctl.device_name, ctl.lockmode) != 0) exit(MKFS_EX_ERROR); determine_device_blocks(&ctl, &statbuf); setup_tables(&ctl); if (ctl.check_blocks) check_blocks(&ctl); else if (listfile) get_list_blocks(&ctl, listfile); make_root_inode(&ctl); make_bad_inode(&ctl); mark_good_blocks(&ctl); write_tables(&ctl); if (close_fd(ctl.device_fd) != 0) err(MKFS_EX_ERROR, _("write failed")); return MKFS_EX_OK; }