/* $OpenBSD: disklabel.c,v 1.151 2009/04/12 01:01:24 krw Exp $ */ /* * Copyright (c) 1987, 1993 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Symmetric Computer Systems. * * 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. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``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 REGENTS OR CONTRIBUTORS 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. */ #ifndef lint static const char copyright[] = "@(#) Copyright (c) 1987, 1993\n\ The Regents of the University of California. All rights reserved.\n"; #endif /* not lint */ #ifndef lint static const char rcsid[] = "$OpenBSD: disklabel.c,v 1.151 2009/04/12 01:01:24 krw Exp $"; #endif /* not lint */ #include #include #include #include #define DKTYPENAMES #include #include #include #include #include #include #include #include #include #include #include #include #include #include "pathnames.h" #include "extern.h" /* * Disklabel: read and write disklabels. * The label is usually placed on one of the first sectors of the disk. * Many machines also place a bootstrap in the same area, * in which case the label is embedded in the bootstrap. * The bootstrap source must leave space at the proper offset * for the label on such machines. */ #ifndef BBSIZE #define BBSIZE 8192 /* size of boot area, with label */ #endif #ifndef NUMBOOT #define NUMBOOT 0 #endif char *dkname, *specname, *fstabfile; char tmpfil[] = _PATH_TMPFILE; char *mountpoints[MAXPARTITIONS]; struct disklabel lab; char bootarea[BBSIZE]; #if NUMBOOT > 0 char namebuf[BBSIZE], *np = namebuf; int installboot; /* non-zero if we should install a boot program */ char *bootbuf; /* pointer to buffer with remainder of boot prog */ int bootsize; /* size of remaining boot program */ char *xxboot; /* primary boot */ char *bootxx; /* secondary boot */ char boot0[MAXPATHLEN]; void setbootflag(struct disklabel *); #endif enum { UNSPEC, EDIT, EDITOR, READ, RESTORE, SETWRITEABLE, WRITE, WRITEBOOT } op = UNSPEC; int aflag; int cflag; int dflag; int tflag; int verbose; int donothing; char print_unit; #ifdef DOSLABEL struct dos_partition *dosdp; /* DOS partition, if found */ struct dos_partition *findopenbsd(int, off_t, struct dos_partition **, int *); struct dos_partition *readmbr(int); #endif #ifdef DPMELABEL int dpme_label = 0; uint32_t dpme_obsd_start, dpme_obsd_size; int check_dpme(int, uint32_t *, uint32_t *); #endif void makedisktab(FILE *, struct disklabel *); void makelabel(char *, char *, struct disklabel *); int writelabel(int, char *, struct disklabel *); void l_perror(char *); int edit(struct disklabel *, int); int editit(const char *); char *skip(char *); char *word(char *); int getasciilabel(FILE *, struct disklabel *); int cmplabel(struct disklabel *, struct disklabel *); void usage(void); u_int64_t getnum(char *, u_int64_t, u_int64_t, const char **); int main(int argc, char *argv[]) { int ch, f, writeable, error = 0; struct disklabel *lp; FILE *t; while ((ch = getopt(argc, argv, "ABEf:NRWb:cdenp:s:tvw")) != -1) switch (ch) { case 'A': ++aflag; break; #if NUMBOOT > 0 case 'B': ++installboot; break; case 'b': xxboot = optarg; break; #endif case 'N': if (op != UNSPEC) usage(); writeable = 0; op = SETWRITEABLE; break; case 'R': if (op != UNSPEC) usage(); op = RESTORE; break; case 'W': if (op != UNSPEC) usage(); writeable = 1; op = SETWRITEABLE; break; case 'c': ++cflag; break; case 'd': ++dflag; break; case 'e': if (op != UNSPEC) usage(); op = EDIT; break; case 'E': if (op != UNSPEC) usage(); op = EDITOR; break; case 'f': fstabfile = optarg; break; case 't': ++tflag; break; case 'w': if (op != UNSPEC) usage(); op = WRITE; break; case 'p': if (strchr("bckmgt", optarg[0]) == NULL || optarg[1] != '\0') usage(); print_unit = optarg[0]; break; case 'n': donothing++; break; case 'v': verbose++; break; case '?': default: usage(); } argc -= optind; argv += optind; #if NUMBOOT > 0 if (installboot) { if (op == UNSPEC) op = WRITEBOOT; } else { if (op == UNSPEC) op = READ; } #else if (op == UNSPEC) op = READ; #endif if (argc < 1 || (fstabfile && !(op == EDITOR | aflag))) usage(); dkname = argv[0]; f = opendev(dkname, (op == READ ? O_RDONLY : O_RDWR), OPENDEV_PART, &specname); if (f < 0) err(4, "%s", specname); #ifdef DOSLABEL /* * Check for presence of DOS partition table in * master boot record. Return pointer to OpenBSD * partition, if present. If no valid partition table, * return NULL. If valid partition table present, but no * partition to use, return a pointer to a non-386bsd * partition. */ dosdp = readmbr(f); #endif #ifdef DPMELABEL /* * Check for a MacOS DPME partition table, and find out the * area of the OpenBSD DPME partition, if any. */ dpme_label = check_dpme(f, &dpme_obsd_start, &dpme_obsd_size); #endif switch (op) { case EDIT: if (argc != 1) usage(); readlabel(f); error = edit(&lab, f); break; case EDITOR: if (argc != 1) usage(); readlabel(f); error = editor(&lab, f); break; case READ: if (argc != 1) usage(); readlabel(f); if (tflag) makedisktab(stdout, &lab); else display(stdout, &lab, print_unit, 1); error = checklabel(&lab); break; case RESTORE: if (argc < 2 || argc > 3) usage(); #if NUMBOOT > 0 if (installboot && argc == 3) makelabel(argv[2], NULL, &lab); #endif lp = makebootarea(bootarea, &lab, f); if (!(t = fopen(argv[1], "r"))) err(4, "%s", argv[1]); if (getasciilabel(t, lp)) error = writelabel(f, bootarea, lp); else error = 1; fclose(t); break; case SETWRITEABLE: if (!donothing) { if (ioctl(f, DIOCWLABEL, (char *)&writeable) < 0) err(4, "ioctl DIOCWLABEL"); } break; case WRITE: if (dflag | aflag) { readlabel(f); } else if (argc < 2 || argc > 3) usage(); else makelabel(argv[1], argc == 3 ? argv[2] : NULL, &lab); lp = makebootarea(bootarea, &lab, f); *lp = lab; if (checklabel(lp) == 0) error = writelabel(f, bootarea, lp); break; #if NUMBOOT > 0 case WRITEBOOT: { struct disklabel tlab; readlabel(f); tlab = lab; if (argc == 2) makelabel(argv[1], NULL, &lab); lp = makebootarea(bootarea, &lab, f); *lp = tlab; if (checklabel(lp) == 0) error = writelabel(f, bootarea, lp); break; } #endif default: break; } exit(error); } /* * Construct a prototype disklabel from /etc/disktab. As a side * effect, set the names of the primary and secondary boot files * if specified. */ void makelabel(char *type, char *name, struct disklabel *lp) { struct disklabel *dp; dp = getdiskbyname(type); if (dp == NULL) errx(1, "unknown disk type: %s", type); *lp = *dp; #if NUMBOOT > 0 /* * Set bootstrap name(s). * 1. If set from command line, use those, * 2. otherwise, check if disktab specifies them (b0 or b1), * 3. otherwise, makebootarea() will choose ones based on the name * of the disk special file. E.g. /dev/ra0 -> raboot, bootra */ if (!xxboot && lp->d_boot0) { if (*lp->d_boot0 != '/') (void)snprintf(boot0, sizeof boot0, "%s%s", _PATH_BOOTDIR, lp->d_boot0); else (void)strlcpy(boot0, lp->d_boot0, sizeof boot0); xxboot = boot0; } #endif /* d_packname is union d_boot[01], so zero */ memset(lp->d_packname, 0, sizeof(lp->d_packname)); if (name) (void)strncpy(lp->d_packname, name, sizeof(lp->d_packname)); } int writelabel(int f, char *boot, struct disklabel *lp) { #if NUMBOOT > 0 int writeable; off_t sectoffset = 0; #endif #if NUMBOOT > 0 setbootflag(lp); #endif lp->d_magic = DISKMAGIC; lp->d_magic2 = DISKMAGIC; lp->d_checksum = 0; lp->d_checksum = dkcksum(lp); #if NUMBOOT > 0 if (installboot) { #ifdef DOSLABEL struct partition *pp = &lp->d_partitions[2]; /* * If OpenBSD DOS partition is missing, or if * the label to be written is not within partition, * prompt first. Need to allow this in case operator * wants to convert the drive for dedicated use. * In this case, partition 'a' had better start at 0, * otherwise we reject the request as meaningless. -wfj */ if (dosdp && DL_GETPSIZE(pp) && (dosdp->dp_typ == DOSPTYP_OPENBSD)) { sectoffset = (off_t)letoh32(dosdp->dp_start) * lp->d_secsize; } else { if (dosdp) { int first, ch; printf("Erase the previous contents of the disk? [n]: "); fflush(stdout); first = ch = getchar(); while (ch != '\n' && ch != EOF) ch = getchar(); if (first != 'y' && first != 'Y') exit(0); } sectoffset = 0; } #endif /* * First set the kernel disk label, * then write a label to the raw disk. * If the SDINFO ioctl fails because it is unimplemented, * keep going; otherwise, the kernel consistency checks * may prevent us from changing the current (in-core) * label. */ if (!donothing) { if (ioctl(f, DIOCSDINFO, lp) < 0 && errno != ENODEV && errno != ENOTTY) { l_perror("ioctl DIOCSDINFO"); return (1); } } if (verbose) printf("writing label to block %lld (0x%qx)\n", (long long)sectoffset/DEV_BSIZE, (long long)sectoffset/DEV_BSIZE); if (!donothing) { if (lseek(f, sectoffset, SEEK_SET) < 0) { perror("lseek"); return (1); } /* * write enable label sector before write (if necessary), * disable after writing. */ writeable = 1; if (ioctl(f, DIOCWLABEL, &writeable) < 0) perror("ioctl DIOCWLABEL"); if (write(f, boot, lp->d_bbsize) != lp->d_bbsize) { perror("write"); return (1); } } /* * Output the remainder of the disklabel */ if (!donothing && bootbuf && write(f, bootbuf, bootsize) != bootsize) { perror("write"); return(1); } writeable = 0; if (!donothing) if (ioctl(f, DIOCWLABEL, &writeable) < 0) perror("ioctl DIOCWLABEL"); } else #endif /* NUMBOOT > 0 */ if (!donothing) { if (ioctl(f, DIOCWDINFO, lp) < 0) { l_perror("ioctl DIOCWDINFO"); return (1); } } #ifdef __vax__ if (lp->d_type == DTYPE_SMD && lp->d_flags & D_BADSECT) { off_t alt; int i; alt = lp->d_ncylinders * lp->d_secpercyl - lp->d_nsectors; for (i = 1; i < 11 && i < lp->d_nsectors; i += 2) { (void)lseek(f, (alt + i) * lp->d_secsize, SEEK_SET); if (!donothing) if (write(f, boot, lp->d_secsize) != lp->d_secsize) warn("alternate label %d write", i/2); } } #endif return (0); } void l_perror(char *s) { switch (errno) { case ESRCH: warnx("%s: No disk label on disk", s); break; case EINVAL: warnx("%s: Label magic number or checksum is wrong!\n" "(disklabel or kernel is out of date?)", s); break; case EBUSY: warnx("%s: Open partition would move or shrink", s); break; case EXDEV: warnx("%s: Labeled partition or 'a' partition must start " "at beginning of disk", s); break; default: warn("%s", s); break; } } #ifdef DOSLABEL struct dos_partition * findopenbsd(int f, off_t mbroff, struct dos_partition **first, int *n) { static struct dos_partition res; int mbr[DEV_BSIZE / sizeof(int)]; struct dos_partition *dp, *p; u_int16_t signature; u_int32_t start = 0; int part; /* Limit the number of recursions */ if (!(*n)--) return (NULL); /* * This must be done this way due to alignment restrictions * in for example mips processors. */ dp = (struct dos_partition *)mbr; if (lseek(f, (off_t)mbroff * DEV_BSIZE, SEEK_SET) < 0 || read(f, mbr, sizeof(mbr)) != sizeof(mbr)) return (NULL); signature = *((u_char *)mbr + DOSMBR_SIGNATURE_OFF) | (*((u_char *)mbr + DOSMBR_SIGNATURE_OFF + 1) << 8); bcopy((char *)mbr+DOSPARTOFF, (char *)mbr, sizeof(*dp) * NDOSPART); /* * If there is no signature and no OpenBSD partition this is probably * not an MBR. */ if (signature != DOSMBR_SIGNATURE) return (NULL); /* * Don't (yet) know disk geometry, use partition table to find OpenBSD * partition, and obtain disklabel from there. */ /* Check if table is valid. */ for (part = 0; part < NDOSPART; part++) { if ((dp[part].dp_flag & ~0x80) != 0) return (NULL); } /* Find OpenBSD partition. */ for (part = 0; part < NDOSPART; part++) { if (!letoh32(dp[part].dp_size)) continue; if (first && *first == NULL) { bcopy(&dp[part], &res, sizeof(struct dos_partition)); *first = &res; } switch (dp[part].dp_typ) { case DOSPTYP_OPENBSD: if (verbose) fprintf(stderr, "# Inside MBR partition %d: " "type %02X start %u size %u\n", part, dp[part].dp_typ, letoh32(dp[part].dp_start), letoh32(dp[part].dp_size)); bcopy(&dp[part], &res, sizeof(struct dos_partition)); res.dp_start = htole32((off_t)letoh32(res.dp_start) + mbroff); return (&res); case DOSPTYP_EXTEND: case DOSPTYP_EXTENDL: fprintf(stderr, "# Extended partition %d: " "type %02X start %u size %u\n", part, dp[part].dp_typ, letoh32(dp[part].dp_start), letoh32(dp[part].dp_size)); start = letoh32(dp[part].dp_start) + mbroff; p = findopenbsd(f, start, NULL, n); if (p != NULL) return (p); break; } } return (NULL); } /* * Fetch DOS partition table from disk. */ struct dos_partition * readmbr(int f) { struct dos_partition *dp, *first = NULL; int n = 8; dp = findopenbsd(f, DOSBBSECTOR, &first, &n); if (dp != NULL) return (dp); /* If no OpenBSD partition, find first used partition. */ if (first != NULL) { warnx("warning, DOS partition table with no valid OpenBSD partition"); return (first); } /* Table appears to be empty. */ return (NULL); } #endif #ifdef DPMELABEL int check_dpme(int f, uint32_t *start, uint32_t *size) { char sector[DEV_BSIZE]; unsigned int partno, partcnt; struct part_map_entry part; /* * Read what would be the first DPME partition, and * check for a valid signature. */ if (lseek(f, (off_t)DEV_BSIZE, SEEK_SET) < 0 || read(f, sector, sizeof(sector)) != sizeof(sector)) return (0); /* no direct derefence due to strict alignment */ memcpy(&part, sector, sizeof part); if (part.pmSig != PART_ENTRY_MAGIC) return (0); /* * If the signature matches, perform a few more sanity checks, * and then loop over the remaining partitions. We can safely * rely on the first entry being of the partition map type, * so it's ok to skip it. */ partcnt = part.pmMapBlkCnt; if (partcnt <= 1 || partcnt > 32) return (0); for (partno = 2; partno <= partcnt; partno++) { if (lseek(f, (off_t)partno * DEV_BSIZE, SEEK_SET) < 0 || read(f, sector, sizeof(sector)) != sizeof(sector)) return (0); /* no direct derefence due to strict alignment */ memcpy(&part, sector, sizeof part); if (part.pmSig != PART_ENTRY_MAGIC) return (0); if (strcasecmp(part.pmPartType, PART_TYPE_OPENBSD) == 0) { *start = part.pmPyPartStart; *size = part.pmPartBlkCnt; return (1); } } return (0); } #endif /* * Fetch requested disklabel into 'lab' using ioctl. */ void readlabel(int f) { if (cflag && ioctl(f, DIOCRLDINFO) < 0) err(4, "ioctl DIOCRLDINFO"); if (dflag | aflag) { if (ioctl(f, DIOCGPDINFO, &lab) < 0) err(4, "ioctl DIOCGPDINFO"); } else { if (ioctl(f, DIOCGDINFO, &lab) < 0) err(4, "ioctl DIOCGDINFO"); } if (aflag) editor_allocspace(&lab); } /* * Construct a bootarea (d_bbsize bytes) in the specified buffer ``boot'' * Returns a pointer to the disklabel portion of the bootarea. */ struct disklabel * makebootarea(char *boot, struct disklabel *dp, int f) { struct disklabel *lp; char *p; #if NUMBOOT > 0 char *dkbasename; int b; struct stat sb; #endif /* XXX */ if (dp->d_secsize == 0) { dp->d_secsize = DEV_BSIZE; dp->d_bbsize = BBSIZE; } lp = (struct disklabel *) (boot + (LABELSECTOR * dp->d_secsize) + LABELOFFSET); memset(lp, 0, sizeof *lp); #if NUMBOOT > 0 /* * If we are not installing a boot program but we are installing a * label on disk then we must read the current bootarea so we don't * clobber the existing boot. */ if (!installboot) return (lp); /* * We are installing a boot program. Determine the name(s) and * read them into the appropriate places in the boot area. */ if (!xxboot || !bootxx) { dkbasename = np; if ((p = strrchr(dkname, '/')) == NULL) p = dkname; else p++; while (*p && !isdigit(*p)) *np++ = *p++; *np++ = '\0'; if (!xxboot) { (void)snprintf(np, namebuf + sizeof namebuf - np, "%s%sboot", _PATH_BOOTDIR, dkbasename); if (access(np, F_OK) < 0 && dkbasename[0] == 'r') dkbasename++; xxboot = np; (void)snprintf(xxboot, namebuf + sizeof namebuf - np, "%s%sboot", _PATH_BOOTDIR, dkbasename); np += strlen(xxboot) + 1; } } if (verbose) warnx("bootstraps: xxboot = %s, bootxx = %s", xxboot, bootxx ? bootxx : "NONE"); /* * For NUMBOOT > 0 architectures (hp300/hppa/hppa64/landisk/vax) * up to d_bbsize bytes of ``xxboot'' go in bootarea, the rest * is remembered and written later following the bootarea. */ b = open(xxboot, O_RDONLY); if (b < 0) err(4, "%s", xxboot); if (read(b, boot, (int)dp->d_bbsize) < 0) err(4, "%s", xxboot); (void)fstat(b, &sb); bootsize = (int)sb.st_size - dp->d_bbsize; if (bootsize > 0) { /* XXX assume d_secsize is a power of two */ bootsize = (bootsize + dp->d_secsize-1) & ~(dp->d_secsize-1); bootbuf = (char *)malloc((size_t)bootsize); if (bootbuf == NULL) err(4, "%s", xxboot); if (read(b, bootbuf, bootsize) < 0) { free(bootbuf); err(4, "%s", xxboot); } } (void)close(b); #endif /* * Make sure no part of the bootstrap is written in the area * reserved for the label. */ for (p = (char *)lp; p < (char *)lp + sizeof(struct disklabel); p++) if (*p) errx(2, "Bootstrap doesn't leave room for disk label"); return (lp); } void makedisktab(FILE *f, struct disklabel *lp) { int i; char *did = "\\\n\t:"; struct partition *pp; if (lp->d_packname[0]) (void)fprintf(f, "%.*s|", (int)sizeof(lp->d_packname), lp->d_packname); if (lp->d_typename[0]) (void)fprintf(f, "%.*s|", (int)sizeof(lp->d_typename), lp->d_typename); (void)fputs("Automatically generated label:\\\n\t:dt=", f); if ((unsigned) lp->d_type < DKMAXTYPES) (void)fprintf(f, "%s:", dktypenames[lp->d_type]); else (void)fprintf(f, "unknown%d:", lp->d_type); (void)fprintf(f, "se#%u:", lp->d_secsize); (void)fprintf(f, "ns#%u:", lp->d_nsectors); (void)fprintf(f, "nt#%u:", lp->d_ntracks); (void)fprintf(f, "nc#%u:", lp->d_ncylinders); (void)fprintf(f, "sc#%u:", lp->d_secpercyl); (void)fprintf(f, "su#%llu:", DL_GETDSIZE(lp)); if (lp->d_rpm != 3600) { (void)fprintf(f, "%srm#%hu:", did, lp->d_rpm); did = ""; } if (lp->d_interleave != 1) { (void)fprintf(f, "%sil#%hu:", did, lp->d_interleave); did = ""; } if (lp->d_trackskew != 0) { (void)fprintf(f, "%ssk#%hu:", did, lp->d_trackskew); did = ""; } if (lp->d_cylskew != 0) { (void)fprintf(f, "%scs#%hu:", did, lp->d_cylskew); did = ""; } if (lp->d_headswitch != 0) { (void)fprintf(f, "%shs#%u:", did, lp->d_headswitch); did = ""; } if (lp->d_trkseek != 0) { (void)fprintf(f, "%sts#%u:", did, lp->d_trkseek); did = ""; } for (i = 0; i < NDDATA; i++) if (lp->d_drivedata[i]) (void)fprintf(f, "d%d#%u", i, lp->d_drivedata[i]); pp = lp->d_partitions; for (i = 0; i < lp->d_npartitions; i++, pp++) { if (DL_GETPSIZE(pp)) { char c = 'a' + i; (void)fprintf(f, "\\\n\t:"); (void)fprintf(f, "p%c#%llu:", c, DL_GETPSIZE(pp)); (void)fprintf(f, "o%c#%llu:", c, DL_GETPOFFSET(pp)); if (pp->p_fstype != FS_UNUSED) { if ((unsigned) pp->p_fstype < FSMAXTYPES) (void)fprintf(f, "t%c=%s:", c, fstypenames[pp->p_fstype]); else (void)fprintf(f, "t%c=unknown%d:", c, pp->p_fstype); } switch (pp->p_fstype) { case FS_UNUSED: break; case FS_BSDFFS: (void)fprintf(f, "b%c#%u:", c, DISKLABELV1_FFS_BSIZE(pp->p_fragblock)); (void)fprintf(f, "f%c#%u:", c, DISKLABELV1_FFS_FSIZE(pp->p_fragblock)); break; default: break; } } } (void)fputc('\n', f); (void)fflush(f); } double scale(u_int64_t sz, char unit, struct disklabel *lp) { double fsz; fsz = (double)sz * lp->d_secsize; switch (unit) { case 'B': return fsz; case 'C': return fsz / lp->d_secsize / lp->d_secpercyl; case 'K': return fsz / 1024; case 'M': return fsz / (1024 * 1024); case 'G': return fsz / (1024 * 1024 * 1024); case 'T': return fsz / (1024ULL * 1024 * 1024 * 1024); default: return -1.0; } } /* * Display a particular partition. */ void display_partition(FILE *f, struct disklabel *lp, int i, char unit) { volatile struct partition *pp = &lp->d_partitions[i]; double p_size, p_offset; p_size = scale(DL_GETPSIZE(pp), unit, lp); p_offset = scale(DL_GETPOFFSET(pp), unit, lp); if (DL_GETPSIZE(pp)) { u_int32_t frag = DISKLABELV1_FFS_FRAG(pp->p_fragblock); u_int32_t fsize = DISKLABELV1_FFS_FSIZE(pp->p_fragblock); if (p_size < 0) fprintf(f, " %c: %16llu %16llu ", 'a' + i, DL_GETPSIZE(pp), DL_GETPOFFSET(pp)); else fprintf(f, " %c: %15.*f%c %15.*f%c ", 'a' + i, unit == 'B' ? 0 : 1, p_size, unit, unit == 'B' ? 0 : 1, p_offset, unit); if ((unsigned) pp->p_fstype < FSMAXTYPES) fprintf(f, "%7.7s", fstypenames[pp->p_fstype]); else fprintf(f, "%7d", pp->p_fstype); switch (pp->p_fstype) { case FS_BSDFFS: fprintf(f, " %5u %5u %4hu ", fsize, fsize * frag, pp->p_cpg); break; default: fprintf(f, "%19.19s", ""); break; } if (mountpoints[i] != NULL) fprintf(f, "# %s", mountpoints[i]); putc('\n', f); } } void display(FILE *f, struct disklabel *lp, char unit, int all) { int i, j; double d; unit = toupper(unit); fprintf(f, "# %s:\n", specname); if ((unsigned) lp->d_type < DKMAXTYPES) fprintf(f, "type: %s\n", dktypenames[lp->d_type]); else fprintf(f, "type: %d\n", lp->d_type); fprintf(f, "disk: %.*s\n", (int)sizeof(lp->d_typename), lp->d_typename); fprintf(f, "label: %.*s\n", (int)sizeof(lp->d_packname), lp->d_packname); fprintf(f, "flags:"); if (lp->d_flags & D_BADSECT) fprintf(f, " badsect"); if (lp->d_flags & D_VENDOR) fprintf(f, " vendor"); putc('\n', f); fprintf(f, "bytes/sector: %u\n", lp->d_secsize); fprintf(f, "sectors/track: %u\n", lp->d_nsectors); fprintf(f, "tracks/cylinder: %u\n", lp->d_ntracks); fprintf(f, "sectors/cylinder: %u\n", lp->d_secpercyl); fprintf(f, "cylinders: %u\n", lp->d_ncylinders); d = scale(DL_GETDSIZE(lp), unit, lp); if (d < 0) fprintf(f, "total sectors: %llu\n", DL_GETDSIZE(lp)); else fprintf(f, "total bytes: %.*f%c\n", unit == 'B' ? 0 : 1, d, unit); fprintf(f, "rpm: %hu\n", lp->d_rpm); fprintf(f, "interleave: %hu\n", lp->d_interleave); fprintf(f, "trackskew: %hu\n", lp->d_trackskew); fprintf(f, "cylinderskew: %hu\n", lp->d_cylskew); fprintf(f, "headswitch: %u\t\t# microseconds\n", lp->d_headswitch); fprintf(f, "track-to-track seek: %u\t# microseconds\n", lp->d_trkseek); fprintf(f, "drivedata: "); for (i = NDDATA - 1; i >= 0; i--) if (lp->d_drivedata[i]) break; if (i < 0) i = 0; for (j = 0; j <= i; j++) fprintf(f, "%d ", lp->d_drivedata[j]); fprintf(f, "\n"); if (all) { fprintf(f, "\n%hu partitions:\n", lp->d_npartitions); fprintf(f, "# %16.16s %16.16s fstype [fsize bsize cpg]\n", "size", "offset"); for (i = 0; i < lp->d_npartitions; i++) display_partition(f, lp, i, unit); } fflush(f); } int edit(struct disklabel *lp, int f) { int first, ch, fd; struct disklabel label; FILE *fp; if ((fd = mkstemp(tmpfil)) == -1 || (fp = fdopen(fd, "w")) == NULL) { if (fd != -1) close(fd); warn("%s", tmpfil); return (1); } display(fp, lp, 0, 1); fprintf(fp, "\n# Notes:\n"); fprintf(fp, "# Up to 16 partitions are valid, named from 'a' to 'p'. Partition 'a' is\n" "# your root filesystem, 'b' is your swap, and 'c' should cover your whole\n" "# disk. Any other partition is free for any use. 'size' and 'offset' are\n" "# in 512-byte blocks. fstype should be '4.2BSD', 'swap', or 'none' or some\n" "# other values. fsize/bsize/cpg should typically be '2048 16384 16' for a\n" "# 4.2BSD filesystem (or '512 4096 16' except on alpha, sun4, ...)\n"); fclose(fp); for (;;) { if (editit(tmpfil) == -1) break; fp = fopen(tmpfil, "r"); if (fp == NULL) { warn("%s", tmpfil); break; } memset(&label, 0, sizeof(label)); if (getasciilabel(fp, &label)) { if (cmplabel(lp, &label) == 0) { puts("No changes."); fclose(fp); (void) unlink(tmpfil); return (0); } *lp = label; if (writelabel(f, bootarea, lp) == 0) { fclose(fp); (void) unlink(tmpfil); return (0); } } fclose(fp); printf("re-edit the label? [y]: "); fflush(stdout); first = ch = getchar(); while (ch != '\n' && ch != EOF) ch = getchar(); if (first == 'n' || first == 'N') break; } (void)unlink(tmpfil); return (1); } /* * Execute an editor on the specified pathname, which is interpreted * from the shell. This means flags may be included. * * Returns -1 on error, or the exit value on success. */ int editit(const char *pathname) { char *argp[] = {"sh", "-c", NULL, NULL}, *ed, *p; sig_t sighup, sigint, sigquit, sigchld; pid_t pid; int saved_errno, st, ret = -1; ed = getenv("VISUAL"); if (ed == NULL || ed[0] == '\0') ed = getenv("EDITOR"); if (ed == NULL || ed[0] == '\0') ed = _PATH_VI; if (asprintf(&p, "%s %s", ed, pathname) == -1) return (-1); argp[2] = p; sighup = signal(SIGHUP, SIG_IGN); sigint = signal(SIGINT, SIG_IGN); sigquit = signal(SIGQUIT, SIG_IGN); sigchld = signal(SIGCHLD, SIG_DFL); if ((pid = fork()) == -1) goto fail; if (pid == 0) { execv(_PATH_BSHELL, argp); _exit(127); } while (waitpid(pid, &st, 0) == -1) if (errno != EINTR) goto fail; if (!WIFEXITED(st)) errno = EINTR; else ret = WEXITSTATUS(st); fail: saved_errno = errno; (void)signal(SIGHUP, sighup); (void)signal(SIGINT, sigint); (void)signal(SIGQUIT, sigquit); (void)signal(SIGCHLD, sigchld); free(p); errno = saved_errno; return (ret); } char * skip(char *cp) { cp += strspn(cp, " \t"); if (*cp == '\0') return (NULL); return (cp); } char * word(char *cp) { cp += strcspn(cp, " \t"); if (*cp == '\0') return (NULL); *cp++ = '\0'; cp += strspn(cp, " \t"); if (*cp == '\0') return (NULL); return (cp); } /* Base the max value on the sizeof of the value we are reading */ #define GETNUM(field, nptr, min, errstr) \ getnum((nptr), (min), \ sizeof(field) == 8 ? LLONG_MAX : \ (sizeof(field) == 4 ? UINT_MAX : \ (sizeof(field) == 2 ? USHRT_MAX : UCHAR_MAX)), (errstr)) u_int64_t getnum(char *nptr, u_int64_t min, u_int64_t max, const char **errstr) { char *p, c; u_int64_t ret; for (p = nptr; *p != '\0' && !isspace(*p); p++) ; c = *p; *p = '\0'; ret = strtonum(nptr, min, max, errstr); *p = c; return (ret); } /* * Read an ascii label in from FILE f, * in the same format as that put out by display(), * and fill in lp. */ int getasciilabel(FILE *f, struct disklabel *lp) { char **cpp, *cp; const char *errstr; struct partition *pp; char *tp, *s, line[BUFSIZ]; int lineno = 0, errors = 0; u_int32_t v, fsize; u_int64_t lv; lp->d_version = 1; lp->d_bbsize = BBSIZE; /* XXX */ lp->d_sbsize = SBSIZE; /* XXX */ while (fgets(line, sizeof(line), f)) { lineno++; if ((cp = strpbrk(line, "#\r\n"))) *cp = '\0'; cp = skip(line); if (cp == NULL) continue; tp = strchr(cp, ':'); if (tp == NULL) { warnx("line %d: syntax error", lineno); errors++; continue; } *tp++ = '\0', tp = skip(tp); if (!strcmp(cp, "type")) { if (tp == NULL) tp = "unknown"; else if (strcasecmp(tp, "IDE") == 0) tp = "ESDI"; cpp = dktypenames; for (; cpp < &dktypenames[DKMAXTYPES]; cpp++) if ((s = *cpp) && !strcasecmp(s, tp)) { lp->d_type = cpp - dktypenames; goto next; } v = GETNUM(lp->d_type, tp, 0, &errstr); if (errstr || v >= DKMAXTYPES) warnx("line %d: warning, unknown disk type: %s", lineno, tp); lp->d_type = v; continue; } if (!strcmp(cp, "flags")) { for (v = 0; (cp = tp) && *cp != '\0';) { tp = word(cp); if (!strcmp(cp, "badsect")) v |= D_BADSECT; else if (!strcmp(cp, "vendor")) v |= D_VENDOR; else { warnx("line %d: bad flag: %s", lineno, cp); errors++; } } lp->d_flags = v; continue; } if (!strcmp(cp, "drivedata")) { int i; for (i = 0; (cp = tp) && *cp != '\0' && i < NDDATA;) { v = GETNUM(lp->d_drivedata[i], cp, 0, &errstr); if (errstr) warnx("line %d: bad drivedata %s", lineno, cp); lp->d_drivedata[i++] = v; tp = word(cp); } continue; } if (sscanf(cp, "%d partitions", &v) == 1) { if (v == 0 || v > MAXPARTITIONS) { warnx("line %d: bad # of partitions", lineno); lp->d_npartitions = MAXPARTITIONS; errors++; } else lp->d_npartitions = v; continue; } if (tp == NULL) tp = ""; if (!strcmp(cp, "disk")) { strncpy(lp->d_typename, tp, sizeof (lp->d_typename)); continue; } if (!strcmp(cp, "label")) { strncpy(lp->d_packname, tp, sizeof (lp->d_packname)); continue; } if (!strcmp(cp, "bytes/sector")) { v = GETNUM(lp->d_secsize, tp, 1, &errstr); if (errstr || (v % 512) != 0) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_secsize = v; continue; } if (!strcmp(cp, "sectors/track")) { v = GETNUM(lp->d_nsectors, tp, 1, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_nsectors = v; continue; } if (!strcmp(cp, "sectors/cylinder")) { v = GETNUM(lp->d_secpercyl, tp, 1, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_secpercyl = v; continue; } if (!strcmp(cp, "tracks/cylinder")) { v = GETNUM(lp->d_ntracks, tp, 1, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_ntracks = v; continue; } if (!strcmp(cp, "cylinders")) { v = GETNUM(lp->d_ncylinders, tp, 1, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_ncylinders = v; continue; } if (!strcmp(cp, "total sectors")) { lv = GETNUM(lv, tp, 1, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else { DL_SETDSIZE(lp, lv); } continue; } if (!strcmp(cp, "rpm")) { v = GETNUM(lp->d_rpm, tp, 1, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_rpm = v; continue; } if (!strcmp(cp, "interleave")) { v = GETNUM(lp->d_interleave, tp, 1, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_interleave = v; continue; } if (!strcmp(cp, "trackskew")) { v = GETNUM(lp->d_trackskew, tp, 0, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_trackskew = v; continue; } if (!strcmp(cp, "cylinderskew")) { v = GETNUM(lp->d_cylskew, tp, 0, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_cylskew = v; continue; } if (!strcmp(cp, "headswitch")) { v = GETNUM(lp->d_headswitch, tp, 0, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_headswitch = v; continue; } if (!strcmp(cp, "track-to-track seek")) { v = GETNUM(lp->d_trkseek, tp, 0, &errstr); if (errstr) { warnx("line %d: bad %s: %s", lineno, cp, tp); errors++; } else lp->d_trkseek = v; continue; } if ('a' <= *cp && *cp <= 'z' && cp[1] == '\0') { unsigned int part = *cp - 'a'; if (part >= lp->d_npartitions) { if (part >= MAXPARTITIONS) { warnx("line %d: bad partition name: %s", lineno, cp); errors++; continue; } else { lp->d_npartitions = part + 1; } } pp = &lp->d_partitions[part]; #define NXTNUM(n, field, errstr) { \ if (tp == NULL) { \ warnx("line %d: too few fields", lineno); \ errors++; \ break; \ } else \ cp = tp, tp = word(cp), (n) = GETNUM(field, cp, 0, errstr); \ } NXTNUM(lv, lv, &errstr); if (errstr) { warnx("line %d: bad partition size: %s", lineno, cp); errors++; } else { DL_SETPSIZE(pp, lv); } NXTNUM(lv, lv, &errstr); if (errstr) { warnx("line %d: bad partition offset: %s", lineno, cp); errors++; } else { DL_SETPOFFSET(pp, lv); } if (tp == NULL) { pp->p_fstype = FS_UNUSED; goto gottype; } cp = tp, tp = word(cp); cpp = fstypenames; for (; cpp < &fstypenames[FSMAXTYPES]; cpp++) if ((s = *cpp) && !strcasecmp(s, cp)) { pp->p_fstype = cpp - fstypenames; goto gottype; } if (isdigit(*cp)) v = GETNUM(pp->p_fstype, cp, 0, &errstr); else v = FSMAXTYPES; if (errstr || v >= FSMAXTYPES) { warnx("line %d: warning, unknown filesystem type: %s", lineno, cp); v = FS_UNUSED; } pp->p_fstype = v; gottype: switch (pp->p_fstype) { case FS_UNUSED: /* XXX */ if (tp == NULL) /* ok to skip fsize/bsize */ break; NXTNUM(fsize, fsize, &errstr); if (fsize == 0) break; NXTNUM(v, v, &errstr); pp->p_fragblock = DISKLABELV1_FFS_FRAGBLOCK(fsize, v / fsize); break; case FS_BSDFFS: NXTNUM(fsize, fsize, &errstr); if (fsize == 0) break; NXTNUM(v, v, &errstr); pp->p_fragblock = DISKLABELV1_FFS_FRAGBLOCK(fsize, v / fsize); NXTNUM(pp->p_cpg, pp->p_cpg, &errstr); break; default: break; } continue; } warnx("line %d: unknown field: %s", lineno, cp); errors++; next: ; } errors += checklabel(lp); return (errors == 0); } /* * Check disklabel for errors and fill in * derived fields according to supplied values. */ int checklabel(struct disklabel *lp) { struct partition *pp; int i, errors = 0; char part; if (lp->d_secsize == 0) { warnx("sector size %d", lp->d_secsize); return (1); } if (lp->d_nsectors == 0) { warnx("sectors/track %d", lp->d_nsectors); return (1); } if (lp->d_ntracks == 0) { warnx("tracks/cylinder %d", lp->d_ntracks); return (1); } if (lp->d_ncylinders == 0) { warnx("cylinders/unit %d", lp->d_ncylinders); errors++; } if (lp->d_rpm == 0) warnx("warning, revolutions/minute %d", lp->d_rpm); if (lp->d_secpercyl == 0) lp->d_secpercyl = lp->d_nsectors * lp->d_ntracks; if (DL_GETDSIZE(lp) == 0) DL_SETDSIZE(lp, (u_int64_t)lp->d_secpercyl * lp->d_ncylinders); #ifdef i386__notyet if (dosdp && dosdp->dp_size && (dosdp->dp_typ == DOSPTYP_OPENBSD)) { && DL_GETDSIZE(lp) > dosdp->dp_start + dosdp->dp_size) { warnx("exceeds DOS partition size"); errors++; DL_SETDSIZE(lp, dosdp->dp_start + dosdp->dp_size); } #endif if (lp->d_bbsize == 0) { warnx("boot block size %d", lp->d_bbsize); errors++; } else if (lp->d_bbsize % lp->d_secsize) warnx("warning, boot block size %% sector-size != 0"); if (lp->d_sbsize == 0) { warnx("super block size %d", lp->d_sbsize); errors++; } else if (lp->d_sbsize % lp->d_secsize) warnx("warning, super block size %% sector-size != 0"); if (lp->d_npartitions > MAXPARTITIONS) warnx("warning, number of partitions (%d) > MAXPARTITIONS (%d)", lp->d_npartitions, MAXPARTITIONS); for (i = 0; i < lp->d_npartitions; i++) { part = 'a' + i; pp = &lp->d_partitions[i]; if (DL_GETPSIZE(pp) == 0 && DL_GETPOFFSET(pp) != 0) warnx("warning, partition %c: size 0, but offset %lld", part, DL_GETPOFFSET(pp)); #ifdef SUN_CYLCHECK if (lp->d_flags & D_VENDOR) { if (i != RAW_PART && DL_GETPSIZE(pp) % lp->d_secpercyl) warnx("warning, partition %c: size %% " "cylinder-size != 0", part); if (i != RAW_PART && DL_GETPOFFSET(pp) % lp->d_secpercyl) warnx("warning, partition %c: offset %% " "cylinder-size != 0", part); } #endif #ifdef SUN_AAT0 if ((lp->d_flags & D_VENDOR) && i == 0 && DL_GETPSIZE(pp) != 0 && DL_GETPOFFSET(pp) != 0) { warnx("this architecture requires partition 'a' to " "start at sector 0"); errors++; } #endif if (DL_GETPOFFSET(pp) > DL_GETDSIZE(lp)) { warnx("partition %c: offset past end of unit", part); errors++; } if (DL_GETPOFFSET(pp) + DL_GETPSIZE(pp) > DL_GETDSIZE(lp)) { warnx("partition %c: partition extends past end of unit", part); errors++; } #if 0 if (pp->p_frag == 0 && pp->p_fsize != 0) { warnx("partition %c: block size < fragment size", part); errors++; } #endif } for (; i < MAXPARTITIONS; i++) { part = 'a' + i; pp = &lp->d_partitions[i]; if (DL_GETPSIZE(pp) || DL_GETPOFFSET(pp)) warnx("warning, unused partition %c: size %lld offset %lld", 'a' + i, DL_GETPSIZE(pp), DL_GETPOFFSET(pp)); } return (errors); } #if NUMBOOT > 0 /* * If we are installing a boot program that doesn't fit in d_bbsize * we need to mark those partitions that the boot overflows into. * This allows newfs to prevent creation of a filesystem where it might * clobber bootstrap code. */ void setbootflag(struct disklabel *lp) { struct partition *pp; int i, errors = 0; daddr64_t bend; char part; if (bootbuf == NULL) return; bend = bootsize / lp->d_secsize; for (i = 0; i < lp->d_npartitions; i++) { if (i == RAW_PART) /* It will *ALWAYS* overlap 'c'. */ continue; pp = &lp->d_partitions[i]; if (DL_GETPSIZE(pp) == 0) /* Partition is unused. */ continue; if (bend <= DL_GETPOFFSET(pp)) { /* Boot blocks end before this partition starts. */ if (pp->p_fstype == FS_BOOT) pp->p_fstype = FS_UNUSED; continue; } part = 'a' + i; switch (pp->p_fstype) { case FS_BOOT: /* Already marked. */ break; case FS_UNUSED: /* Mark. */ pp->p_fstype = FS_BOOT; warnx("warning, boot overlaps partition %c, %s", part, "marked as FS_BOOT"); break; default: warnx("boot overlaps used partition %c", part); errors++; break; } } if (errors) errx(4, "cannot install boot program"); } #endif int cmplabel(struct disklabel *lp1, struct disklabel *lp2) { struct disklabel lab1 = *lp1; struct disklabel lab2 = *lp2; /* We don't compare these fields */ lab1.d_magic = lab2.d_magic; lab1.d_magic2 = lab2.d_magic2; lab1.d_checksum = lab2.d_checksum; lab1.d_bbsize = lab2.d_bbsize; lab1.d_sbsize = lab2.d_sbsize; return (memcmp(&lab1, &lab2, sizeof(struct disklabel))); } void usage(void) { char *boot = ""; char *blank = " "; char *Bflag = ""; #if NUMBOOT == 1 Bflag = "B"; boot = " [-b boot1]"; #endif fprintf(stderr, "usage: disklabel [-c | -d | -t] [-Av] [-p unit] disk\t\t(read)\n"); fprintf(stderr, " disklabel -w [-c | -d] [-Anv] disk disktype [packid]\t(write)\n"); fprintf(stderr, " disklabel -e [-c | -d] [-Anv] disk\t\t\t(edit)\n"); fprintf(stderr, " disklabel -E [-c | -d] [-Anv] [-f tempfile] disk\t\t(simple editor)\n"); fprintf(stderr, " disklabel -R [-nv] disk protofile\t\t\t(restore)\n"); fprintf(stderr, " disklabel -N | -W [-nv] disk\t\t\t\t(protect)\n\n"); #if NUMBOOT > 0 fprintf(stderr, "%sdisklabel -B [-nv]%s disk [disktype] (boot)\n", blank, boot); #endif fprintf(stderr, "%sdisklabel -%sw [-nv]%s disk disktype [packid] (write)\n", blank, Bflag, boot); fprintf(stderr, "%sdisklabel -%sR [-nv]%s disk protofile [disktype] (restore)\n\n", blank, Bflag, boot); fprintf(stderr, "`disk' may be of the form: sd0 or /dev/rsd0%c.\n", 'a'+RAW_PART); fprintf(stderr, "`disktype' is an entry from %s, see disktab(5) for more info.\n", DISKTAB); fprintf(stderr, "`packid' is an identification string for the device.\n"); fprintf(stderr, "`protofile' is the output from the read cmd form; -R is powerful.\n"); #ifdef SEEALSO fprintf(stderr, "For procedures specific to this architecture see: %s\n", SEEALSO); #endif exit(1); }