/* $NetBSD: newfs_msdos.c,v 1.18.2.1 2005/05/01 18:44:02 tron Exp $ */ /* * Copyright (c) 1998 Robert Nordier * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``AS IS'' AND ANY EXPRESS * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR(S) BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER * IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #define __USE_FILE_OFFSET64 #include #include #include #ifdef __FreeBSD__ #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef __NetBSD__ #include #include #endif #define MAXU16 0xffff /* maximum unsigned 16-bit quantity */ #define BPN 4 /* bits per nibble */ #define NPB 2 /* nibbles per byte */ #define DOSMAGIC 0xaa55 /* DOS magic number */ #define MINBPS 128 /* minimum bytes per sector */ #define MAXSPC 128 /* maximum sectors per cluster */ #define MAXNFT 16 /* maximum number of FATs */ #define DEFBLK 4096 /* default block size */ #define DEFBLK16 2048 /* default block size FAT16 */ #define DEFRDE 512 /* default root directory entries */ #define RESFTE 2 /* reserved FAT entries */ #define MINCLS12 1 /* minimum FAT12 clusters */ #define MINCLS16 0x1000 /* minimum FAT16 clusters */ #define MINCLS32 2 /* minimum FAT32 clusters */ #define MAXCLS12 0xfed /* maximum FAT12 clusters */ #define MAXCLS16 0xfff5 /* maximum FAT16 clusters */ #define MAXCLS32 0xffffff5 /* maximum FAT32 clusters */ #define mincls(fat) ((fat) == 12 ? MINCLS12 : \ (fat) == 16 ? MINCLS16 : \ MINCLS32) #define maxcls(fat) ((fat) == 12 ? MAXCLS12 : \ (fat) == 16 ? MAXCLS16 : \ MAXCLS32) #define mk1(p, x) \ (p) = (u_int8_t)(x) #define mk2(p, x) \ (p)[0] = (u_int8_t)(x), \ (p)[1] = (u_int8_t)((x) >> 010) #define mk4(p, x) \ (p)[0] = (u_int8_t)(x), \ (p)[1] = (u_int8_t)((x) >> 010), \ (p)[2] = (u_int8_t)((x) >> 020), \ (p)[3] = (u_int8_t)((x) >> 030) #define argto1(arg, lo, msg) argtou(arg, lo, 0xff, msg) #define argto2(arg, lo, msg) argtou(arg, lo, 0xffff, msg) #define argto4(arg, lo, msg) argtou(arg, lo, 0xffffffff, msg) #define argtox(arg, lo, msg) argtou(arg, lo, UINT_MAX, msg) #ifndef MAX #define MAX(x, y) ((x) > (y) ? (x) : (y)) #endif #ifndef MIN #define MIN(x, y) ((x) < (y) ? (x) : (y)) #endif static int powerof2(int x) { int i; for (i = 0; i < 32; i++) { if (x & 1) { x >>= 1; // if x is zero, then original x was a power of two return (x == 0); } x >>= 1; } return 0; } #ifndef howmany #define howmany(x, y) (((x)+((y)-1))/(y)) #endif #pragma pack(push, 1) struct bs { u_int8_t jmp[3]; /* bootstrap entry point */ u_int8_t oem[8]; /* OEM name and version */ }; #define BS_SIZE 11 struct bsbpb { u_int8_t bps[2]; /* bytes per sector */ u_int8_t spc; /* sectors per cluster */ u_int8_t res[2]; /* reserved sectors */ u_int8_t nft; /* number of FATs */ u_int8_t rde[2]; /* root directory entries */ u_int8_t sec[2]; /* total sectors */ u_int8_t mid; /* media descriptor */ u_int8_t spf[2]; /* sectors per FAT */ u_int8_t spt[2]; /* sectors per track */ u_int8_t hds[2]; /* drive heads */ u_int8_t hid[4]; /* hidden sectors */ u_int8_t bsec[4]; /* big total sectors */ }; #define BSBPB_SIZE 25 struct bsxbpb { u_int8_t bspf[4]; /* big sectors per FAT */ u_int8_t xflg[2]; /* FAT control flags */ u_int8_t vers[2]; /* file system version */ u_int8_t rdcl[4]; /* root directory start cluster */ u_int8_t infs[2]; /* file system info sector */ u_int8_t bkbs[2]; /* backup boot sector */ u_int8_t rsvd[12]; /* reserved */ }; #define BSXBPB_SIZE 28 struct bsx { u_int8_t drv; /* drive number */ u_int8_t rsvd; /* reserved */ u_int8_t sig; /* extended boot signature */ u_int8_t volid[4]; /* volume ID number */ u_int8_t label[11]; /* volume label */ u_int8_t type[8]; /* file system type */ }; #define BSX_SIZE 26 struct de { u_int8_t namext[11]; /* name and extension */ u_int8_t attr; /* attributes */ u_int8_t rsvd[10]; /* reserved */ u_int8_t time[2]; /* creation time */ u_int8_t date[2]; /* creation date */ u_int8_t clus[2]; /* starting cluster */ u_int8_t size[4]; /* size */ #define DE_SIZE 32 }; #pragma pack(pop) struct bpb { u_int bps; /* bytes per sector */ u_int spc; /* sectors per cluster */ u_int res; /* reserved sectors */ u_int nft; /* number of FATs */ u_int rde; /* root directory entries */ u_int sec; /* total sectors */ u_int mid; /* media descriptor */ u_int spf; /* sectors per FAT */ u_int spt; /* sectors per track */ u_int hds; /* drive heads */ u_int hid; /* hidden sectors */ u_int bsec; /* big total sectors */ u_int bspf; /* big sectors per FAT */ u_int rdcl; /* root directory start cluster */ u_int infs; /* file system info sector */ u_int bkbs; /* backup boot sector */ }; static u_int8_t bootcode[] = { 0xfa, /* cli */ 0x31, 0xc0, /* xor ax,ax */ 0x8e, 0xd0, /* mov ss,ax */ 0xbc, 0x00, 0x7c, /* mov sp,7c00h */ 0xfb, /* sti */ 0x8e, 0xd8, /* mov ds,ax */ 0xe8, 0x00, 0x00, /* call $ + 3 */ 0x5e, /* pop si */ 0x83, 0xc6, 0x19, /* add si,+19h */ 0xbb, 0x07, 0x00, /* mov bx,0007h */ 0xfc, /* cld */ 0xac, /* lodsb */ 0x84, 0xc0, /* test al,al */ 0x74, 0x06, /* jz $ + 8 */ 0xb4, 0x0e, /* mov ah,0eh */ 0xcd, 0x10, /* int 10h */ 0xeb, 0xf5, /* jmp $ - 9 */ 0x30, 0xe4, /* xor ah,ah */ 0xcd, 0x16, /* int 16h */ 0xcd, 0x19, /* int 19h */ 0x0d, 0x0a, 'N', 'o', 'n', '-', 's', 'y', 's', 't', 'e', 'm', ' ', 'd', 'i', 's', 'k', 0x0d, 0x0a, 'P', 'r', 'e', 's', 's', ' ', 'a', 'n', 'y', ' ', 'k', 'e', 'y', ' ', 't', 'o', ' ', 'r', 'e', 'b', 'o', 'o', 't', 0x0d, 0x0a, 0 }; static void print_bpb(struct bpb *); static u_int ckgeom(const char *, u_int, const char *); static u_int argtou(const char *, u_int, u_int, const char *); static int oklabel(const char *); static void mklabel(u_int8_t *, const char *); static void setstr(u_int8_t *, const char *, size_t); static void usage(char* progname); /* * Construct a FAT12, FAT16, or FAT32 file system. */ int mkdosfs_main(int argc, char *argv[]) { static char opts[] = "NB:F:I:L:O:S:a:b:c:e:f:h:i:k:m:n:o:r:s:u:"; static const char *opt_B, *opt_L, *opt_O; static u_int opt_F, opt_I, opt_S, opt_a, opt_b, opt_c, opt_e; static u_int opt_h, opt_i, opt_k, opt_m, opt_n, opt_o, opt_r; static u_int opt_s, opt_u; static int opt_N; static int Iflag, mflag, oflag; char buf[MAXPATHLEN]; struct stat sb; struct timeval tv; struct bpb bpb; struct tm *tm; struct bs *bs; struct bsbpb *bsbpb; struct bsxbpb *bsxbpb; struct bsx *bsx; struct de *de; u_int8_t *img; const char *fname, *dtype, *bname; ssize_t n; time_t now; u_int fat, bss, rds, cls, dir, lsn, x, x1, x2; int ch, fd, fd1; char* progname = argv[0]; while ((ch = getopt(argc, argv, opts)) != -1) switch (ch) { case 'N': opt_N = 1; break; case 'B': opt_B = optarg; break; case 'F': if (strcmp(optarg, "12") && strcmp(optarg, "16") && strcmp(optarg, "32")) fprintf(stderr, "%s: bad FAT type\n", optarg); opt_F = atoi(optarg); break; case 'I': opt_I = argto4(optarg, 0, "volume ID"); Iflag = 1; break; case 'L': if (!oklabel(optarg)) fprintf(stderr, "%s: bad volume label\n", optarg); opt_L = optarg; break; case 'O': if (strlen(optarg) > 8) fprintf(stderr, "%s: bad OEM string\n", optarg); opt_O = optarg; break; case 'S': opt_S = argto2(optarg, 1, "bytes/sector"); break; case 'a': opt_a = argto4(optarg, 1, "sectors/FAT"); break; case 'b': opt_b = argtox(optarg, 1, "block size"); opt_c = 0; break; case 'c': opt_c = argto1(optarg, 1, "sectors/cluster"); opt_b = 0; break; case 'e': opt_e = argto2(optarg, 1, "directory entries"); break; case 'h': opt_h = argto2(optarg, 1, "drive heads"); break; case 'i': opt_i = argto2(optarg, 1, "info sector"); break; case 'k': opt_k = argto2(optarg, 1, "backup sector"); break; case 'm': opt_m = argto1(optarg, 0, "media descriptor"); mflag = 1; break; case 'n': opt_n = argto1(optarg, 1, "number of FATs"); break; case 'o': opt_o = argto4(optarg, 0, "hidden sectors"); oflag = 1; break; case 'r': opt_r = argto2(optarg, 1, "reserved sectors"); break; case 's': opt_s = argto4(optarg, 1, "file system size"); break; case 'u': opt_u = argto2(optarg, 1, "sectors/track"); break; default: usage(progname); } argc -= optind; argv += optind; if (argc < 1 || argc > 2) usage(progname); fname = *argv++; if (!strchr(fname, '/')) { snprintf(buf, sizeof(buf), "%sr%s", _PATH_DEV, fname); if (!(fname = strdup(buf))) fprintf(stderr, NULL); } dtype = *argv; if ((fd = open(fname, opt_N ? O_RDONLY : O_RDWR)) == -1 || fstat(fd, &sb)) fprintf(stderr, "%s\n", fname); memset(&bpb, 0, sizeof(bpb)); if (opt_h) bpb.hds = opt_h; if (opt_u) bpb.spt = opt_u; if (opt_S) bpb.bps = opt_S; if (opt_s) bpb.bsec = opt_s; if (oflag) bpb.hid = opt_o; bpb.bps = 512; // 512 bytes/sector bpb.spc = 8; // 4K clusters fprintf(stderr, "opening %s\n", fname); if ((fd1 = open(fname, O_RDONLY)) == -1) { fprintf(stderr, "failed to open %s\n", fname); exit(1); } lseek(fd1, 0, SEEK_SET); off_t length = lseek(fd1, 0, SEEK_END); fprintf(stderr, "lseek returned %ld\n", length); if (length > 0) { bpb.bsec = length / bpb.bps; bpb.spt = bpb.bsec; // use FAT32 for 2 gig or greater if (length >= 2 *1024 *1024 *1024) { fat = 32; } else { fat = 16; } } close(fd1); fd1 = -1; if (!powerof2(bpb.bps)) fprintf(stderr, "bytes/sector (%u) is not a power of 2\n", bpb.bps); if (bpb.bps < MINBPS) fprintf(stderr, "bytes/sector (%u) is too small; minimum is %u\n", bpb.bps, MINBPS); if (!(fat = opt_F)) { if (!opt_e && (opt_i || opt_k)) fat = 32; } if ((fat == 32 && opt_e) || (fat != 32 && (opt_i || opt_k))) fprintf(stderr, "-%c is not a legal FAT%s option\n", fat == 32 ? 'e' : opt_i ? 'i' : 'k', fat == 32 ? "32" : "12/16"); if (fat == 32) bpb.rde = 0; if (opt_b) { if (!powerof2(opt_b)) fprintf(stderr, "block size (%u) is not a power of 2\n", opt_b); if (opt_b < bpb.bps) fprintf(stderr, "block size (%u) is too small; minimum is %u\n", opt_b, bpb.bps); if (opt_b > bpb.bps * MAXSPC) fprintf(stderr, "block size (%u) is too large; maximum is %u\n", opt_b, bpb.bps * MAXSPC); bpb.spc = opt_b / bpb.bps; } if (opt_c) { if (!powerof2(opt_c)) fprintf(stderr, "sectors/cluster (%u) is not a power of 2\n", opt_c); bpb.spc = opt_c; } if (opt_r) bpb.res = opt_r; if (opt_n) { if (opt_n > MAXNFT) fprintf(stderr, "number of FATs (%u) is too large; maximum is %u\n", opt_n, MAXNFT); bpb.nft = opt_n; } if (opt_e) bpb.rde = opt_e; if (mflag) { if (opt_m < 0xf0) fprintf(stderr, "illegal media descriptor (%#x)\n", opt_m); bpb.mid = opt_m; } if (opt_a) bpb.bspf = opt_a; if (opt_i) bpb.infs = opt_i; if (opt_k) bpb.bkbs = opt_k; bss = 1; bname = NULL; fd1 = -1; if (opt_B) { bname = opt_B; if (!strchr(bname, '/')) { snprintf(buf, sizeof(buf), "/boot/%s", bname); if (!(bname = strdup(buf))) fprintf(stderr, NULL); } if ((fd1 = open(bname, O_RDONLY)) == -1 || fstat(fd1, &sb)) fprintf(stderr, "%s", bname); if (!S_ISREG(sb.st_mode) || sb.st_size % bpb.bps || sb.st_size < bpb.bps || sb.st_size > bpb.bps * MAXU16) fprintf(stderr, "%s: inappropriate file type or format\n", bname); bss = sb.st_size / bpb.bps; } if (!bpb.nft) bpb.nft = 2; if (!fat) { if (bpb.bsec < (bpb.res ? bpb.res : bss) + howmany((RESFTE + (bpb.spc ? MINCLS16 : MAXCLS12 + 1)) * ((bpb.spc ? 16 : 12) / BPN), bpb.bps * NPB) * bpb.nft + howmany(bpb.rde ? bpb.rde : DEFRDE, bpb.bps / DE_SIZE) + (bpb.spc ? MINCLS16 : MAXCLS12 + 1) * (bpb.spc ? bpb.spc : howmany(DEFBLK, bpb.bps))) fat = 12; else if (bpb.rde || bpb.bsec < (bpb.res ? bpb.res : bss) + howmany((RESFTE + MAXCLS16) * 2, bpb.bps) * bpb.nft + howmany(DEFRDE, bpb.bps / DE_SIZE) + (MAXCLS16 + 1) * (bpb.spc ? bpb.spc : howmany(8192, bpb.bps))) fat = 16; else fat = 32; } x = bss; if (fat == 32) { if (!bpb.infs) { if (x == MAXU16 || x == bpb.bkbs) fprintf(stderr, "no room for info sector\n"); bpb.infs = x; } if (bpb.infs != MAXU16 && x <= bpb.infs) x = bpb.infs + 1; if (!bpb.bkbs) { if (x == MAXU16) fprintf(stderr, "no room for backup sector\n"); bpb.bkbs = x; } else if (bpb.bkbs != MAXU16 && bpb.bkbs == bpb.infs) fprintf(stderr, "backup sector would overwrite info sector\n"); if (bpb.bkbs != MAXU16 && x <= bpb.bkbs) x = bpb.bkbs + 1; } if (!bpb.res) bpb.res = fat == 32 ? MAX(x, MAX(16384 / bpb.bps, 4)) : x; else if (bpb.res < x) fprintf(stderr, "too few reserved sectors (need %d have %d)\n", x, bpb.res); if (fat != 32 && !bpb.rde) bpb.rde = DEFRDE; rds = howmany(bpb.rde, bpb.bps / DE_SIZE); if (!bpb.spc) for (bpb.spc = howmany(fat == 16 ? DEFBLK16 : DEFBLK, bpb.bps); bpb.spc < MAXSPC && bpb.res + howmany((RESFTE + maxcls(fat)) * (fat / BPN), bpb.bps * NPB) * bpb.nft + rds + (u_int64_t)(maxcls(fat) + 1) * bpb.spc <= bpb.bsec; bpb.spc <<= 1); if (fat != 32 && bpb.bspf > MAXU16) fprintf(stderr, "too many sectors/FAT for FAT12/16\n"); x1 = bpb.res + rds; x = bpb.bspf ? bpb.bspf : 1; if (x1 + (u_int64_t)x * bpb.nft > bpb.bsec) fprintf(stderr, "meta data exceeds file system size\n"); x1 += x * bpb.nft; x = (u_int64_t)(bpb.bsec - x1) * bpb.bps * NPB / (bpb.spc * bpb.bps * NPB + fat / BPN * bpb.nft); x2 = howmany((RESFTE + MIN(x, maxcls(fat))) * (fat / BPN), bpb.bps * NPB); if (!bpb.bspf) { bpb.bspf = x2; x1 += (bpb.bspf - 1) * bpb.nft; } cls = (bpb.bsec - x1) / bpb.spc; x = (u_int64_t)bpb.bspf * bpb.bps * NPB / (fat / BPN) - RESFTE; if (cls > x) cls = x; if (bpb.bspf < x2) fprintf(stderr, "warning: sectors/FAT limits file system to %u clusters\n", cls); if (cls < mincls(fat)) fprintf(stderr, "%u clusters too few clusters for FAT%u, need %u\n", cls, fat, mincls(fat)); if (cls > maxcls(fat)) { cls = maxcls(fat); bpb.bsec = x1 + (cls + 1) * bpb.spc - 1; fprintf(stderr, "warning: FAT type limits file system to %u sectors\n", bpb.bsec); } printf("%s: %u sector%s in %u FAT%u cluster%s " "(%u bytes/cluster)\n", fname, cls * bpb.spc, cls * bpb.spc == 1 ? "" : "s", cls, fat, cls == 1 ? "" : "s", bpb.bps * bpb.spc); if (!bpb.mid) bpb.mid = !bpb.hid ? 0xf0 : 0xf8; if (fat == 32) bpb.rdcl = RESFTE; if (bpb.hid + bpb.bsec <= MAXU16) { bpb.sec = bpb.bsec; bpb.bsec = 0; } if (fat != 32) { bpb.spf = bpb.bspf; bpb.bspf = 0; } ch = 0; if (fat == 12) ch = 1; /* 001 Primary DOS with 12 bit FAT */ else if (fat == 16) { if (bpb.bsec == 0) ch = 4; /* 004 Primary DOS with 16 bit FAT <32M */ else ch = 6; /* 006 Primary 'big' DOS, 16-bit FAT (> 32MB) */ /* * XXX: what about: * 014 DOS (16-bit FAT) - LBA * ? */ } else if (fat == 32) { ch = 11; /* 011 Primary DOS with 32 bit FAT */ /* * XXX: what about: * 012 Primary DOS with 32 bit FAT - LBA * ? */ } if (ch != 0) printf("MBR type: %d\n", ch); print_bpb(&bpb); if (!opt_N) { gettimeofday(&tv, NULL); now = tv.tv_sec; tm = localtime(&now); if (!(img = malloc(bpb.bps))) fprintf(stderr, NULL); dir = bpb.res + (bpb.spf ? bpb.spf : bpb.bspf) * bpb.nft; for (lsn = 0; lsn < dir + (fat == 32 ? bpb.spc : rds); lsn++) { x = lsn; if (opt_B && fat == 32 && bpb.bkbs != MAXU16 && bss <= bpb.bkbs && x >= bpb.bkbs) { x -= bpb.bkbs; if (!x && lseek(fd1, 0, SEEK_SET)) fprintf(stderr, "lseek failed for %s\n", bname); } if (opt_B && x < bss) { if ((n = read(fd1, img, bpb.bps)) == -1) fprintf(stderr, "%s\n", bname); if (n != bpb.bps) fprintf(stderr, "%s: can't read sector %u\n", bname, x); } else memset(img, 0, bpb.bps); if (!lsn || (fat == 32 && bpb.bkbs != MAXU16 && lsn == bpb.bkbs)) { x1 = BS_SIZE; bsbpb = (struct bsbpb *)(img + x1); mk2(bsbpb->bps, bpb.bps); mk1(bsbpb->spc, bpb.spc); mk2(bsbpb->res, bpb.res); mk1(bsbpb->nft, bpb.nft); mk2(bsbpb->rde, bpb.rde); mk2(bsbpb->sec, bpb.sec); mk1(bsbpb->mid, bpb.mid); mk2(bsbpb->spf, bpb.spf); mk2(bsbpb->spt, bpb.spt); mk2(bsbpb->hds, bpb.hds); mk4(bsbpb->hid, bpb.hid); mk4(bsbpb->bsec, bpb.bsec); x1 += BSBPB_SIZE; if (fat == 32) { bsxbpb = (struct bsxbpb *)(img + x1); mk4(bsxbpb->bspf, bpb.bspf); mk2(bsxbpb->xflg, 0); mk2(bsxbpb->vers, 0); mk4(bsxbpb->rdcl, bpb.rdcl); mk2(bsxbpb->infs, bpb.infs); mk2(bsxbpb->bkbs, bpb.bkbs); x1 += BSXBPB_SIZE; } bsx = (struct bsx *)(img + x1); mk1(bsx->sig, 0x29); if (Iflag) x = opt_I; else x = (((u_int)(1 + tm->tm_mon) << 8 | (u_int)tm->tm_mday) + ((u_int)tm->tm_sec << 8 | (u_int)(tv.tv_usec / 10))) << 16 | ((u_int)(1900 + tm->tm_year) + ((u_int)tm->tm_hour << 8 | (u_int)tm->tm_min)); mk4(bsx->volid, x); mklabel(bsx->label, opt_L ? opt_L : "NO_NAME"); snprintf(buf, sizeof(buf), "FAT%u", fat); setstr(bsx->type, buf, sizeof(bsx->type)); if (!opt_B) { x1 += BSX_SIZE; bs = (struct bs *)img; mk1(bs->jmp[0], 0xeb); mk1(bs->jmp[1], x1 - 2); mk1(bs->jmp[2], 0x90); setstr(bs->oem, opt_O ? opt_O : "NetBSD", sizeof(bs->oem)); memcpy(img + x1, bootcode, sizeof(bootcode)); mk2(img + bpb.bps - 2, DOSMAGIC); } } else if (fat == 32 && bpb.infs != MAXU16 && (lsn == bpb.infs || (bpb.bkbs != MAXU16 && lsn == bpb.bkbs + bpb.infs))) { mk4(img, 0x41615252); mk4(img + bpb.bps - 28, 0x61417272); mk4(img + bpb.bps - 24, 0xffffffff); mk4(img + bpb.bps - 20, bpb.rdcl); mk2(img + bpb.bps - 2, DOSMAGIC); } else if (lsn >= bpb.res && lsn < dir && !((lsn - bpb.res) % (bpb.spf ? bpb.spf : bpb.bspf))) { mk1(img[0], bpb.mid); for (x = 1; x < fat * (fat == 32 ? 3 : 2) / 8; x++) mk1(img[x], fat == 32 && x % 4 == 3 ? 0x0f : 0xff); } else if (lsn == dir && opt_L) { de = (struct de *)img; mklabel(de->namext, opt_L); mk1(de->attr, 050); x = (u_int)tm->tm_hour << 11 | (u_int)tm->tm_min << 5 | (u_int)tm->tm_sec >> 1; mk2(de->time, x); x = (u_int)(tm->tm_year - 80) << 9 | (u_int)(tm->tm_mon + 1) << 5 | (u_int)tm->tm_mday; mk2(de->date, x); } if ((n = write(fd, img, bpb.bps)) == -1) fprintf(stderr, "%s\n", fname); if (n != bpb.bps) fprintf(stderr, "%s: can't write sector %u\n", fname, lsn); } } return 0; } /* * Print out BPB values. */ static void print_bpb(struct bpb *bpb) { printf("bps=%u spc=%u res=%u nft=%u", bpb->bps, bpb->spc, bpb->res, bpb->nft); if (bpb->rde) printf(" rde=%u", bpb->rde); if (bpb->sec) printf(" sec=%u", bpb->sec); printf(" mid=%#x", bpb->mid); if (bpb->spf) printf(" spf=%u", bpb->spf); printf(" spt=%u hds=%u hid=%u", bpb->spt, bpb->hds, bpb->hid); if (bpb->bsec) printf(" bsec=%u", bpb->bsec); if (!bpb->spf) { printf(" bspf=%u rdcl=%u", bpb->bspf, bpb->rdcl); printf(" infs="); printf(bpb->infs == MAXU16 ? "%#x" : "%u", bpb->infs); printf(" bkbs="); printf(bpb->bkbs == MAXU16 ? "%#x" : "%u", bpb->bkbs); } printf("\n"); } /* * Check a disk geometry value. */ static u_int ckgeom(const char *fname, u_int val, const char *msg) { if (!val) fprintf(stderr, "%s: no default %s\n", fname, msg); if (val > MAXU16) fprintf(stderr, "%s: illegal %s\n", fname, msg); return val; } /* * Convert and check a numeric option argument. */ static u_int argtou(const char *arg, u_int lo, u_int hi, const char *msg) { char *s; u_long x; errno = 0; x = strtoul(arg, &s, 0); if (errno || !*arg || *s || x < lo || x > hi) fprintf(stderr, "%s: bad %s\n", arg, msg); return x; } /* * Check a volume label. */ static int oklabel(const char *src) { int c, i; for (i = 0; i <= 11; i++) { c = (u_char)*src++; if (c < ' ' + !i || strchr("\"*+,./:;<=>?[\\]|", c)) break; } return i && !c; } /* * Make a volume label. */ static void mklabel(u_int8_t *dest, const char *src) { int c, i; for (i = 0; i < 11; i++) { c = *src ? toupper((unsigned char)*src++) : ' '; *dest++ = !i && c == '\xe5' ? 5 : c; } } /* * Copy string, padding with spaces. */ static void setstr(u_int8_t *dest, const char *src, size_t len) { while (len--) *dest++ = *src ? *src++ : ' '; } /* * Print usage message. */ static void usage(char* progname) { fprintf(stderr, "usage: %s [ -options ] special [disktype]\n", progname); fprintf(stderr, "where the options are:\n"); fprintf(stderr, "\t-N don't create file system: " "just print out parameters\n"); fprintf(stderr, "\t-B get bootstrap from file\n"); fprintf(stderr, "\t-F FAT type (12, 16, or 32)\n"); fprintf(stderr, "\t-I volume ID\n"); fprintf(stderr, "\t-L volume label\n"); fprintf(stderr, "\t-O OEM string\n"); fprintf(stderr, "\t-S bytes/sector\n"); fprintf(stderr, "\t-a sectors/FAT\n"); fprintf(stderr, "\t-b block size\n"); fprintf(stderr, "\t-c sectors/cluster\n"); fprintf(stderr, "\t-e root directory entries\n"); fprintf(stderr, "\t-h drive heads\n"); fprintf(stderr, "\t-i file system info sector\n"); fprintf(stderr, "\t-k backup boot sector\n"); fprintf(stderr, "\t-m media descriptor\n"); fprintf(stderr, "\t-n number of FATs\n"); fprintf(stderr, "\t-o hidden sectors\n"); fprintf(stderr, "\t-r reserved sectors\n"); fprintf(stderr, "\t-s file system size (sectors)\n"); fprintf(stderr, "\t-u sectors/track\n"); exit(1); }