/* $OpenBSD: editor.c,v 1.268 2012/03/18 03:24:01 krw Exp $ */ /* * Copyright (c) 1997-2000 Todd C. Miller * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #define DKTYPENAMES #include #include #include #include #include #include #include #include #include #include #include "extern.h" #include "pathnames.h" /* flags for getuint64() */ #define DO_CONVERSIONS 0x00000001 #define DO_ROUNDING 0x00000002 #ifndef NUMBOOT #define NUMBOOT 0 #endif /* structure to describe a portion of a disk */ struct diskchunk { u_int64_t start; u_int64_t stop; }; /* used when sorting mountpoints in mpsave() */ struct mountinfo { char *mountpoint; int partno; }; /* used when allocating all space according to recommendations */ struct space_allocation { daddr64_t minsz; /* starts as blocks, xlated to sectors. */ daddr64_t maxsz; /* starts as blocks, xlated to sectors. */ int rate; /* % of extra space to use */ char *mp; }; /* entries for swap and var are changed by editor_allocspace() */ const struct space_allocation alloc_big[] = { { MEG(80), GIG(1), 5, "/" }, { MEG(80), MEG(256), 5, "swap" }, { MEG(120), GIG(4), 8, "/tmp" }, { MEG(80), GIG(4), 13, "/var" }, { MEG(900), GIG(2), 5, "/usr" }, { MEG(512), GIG(1), 3, "/usr/X11R6" }, { GIG(2), GIG(10), 10, "/usr/local" }, { GIG(1), GIG(2), 2, "/usr/src" }, #ifdef STATICLINKING { MEG(2600), GIG(3), 4, "/usr/obj" }, #else { MEG(1300), GIG(2), 4, "/usr/obj" }, #endif { GIG(1), GIG(300), 45, "/home" } /* Anything beyond this leave for the user to decide */ }; const struct space_allocation alloc_medium[] = { { MEG(800), GIG(2), 5, "/" }, { MEG(80), MEG(256), 10, "swap" }, { MEG(900), GIG(3), 78, "/usr" }, { MEG(256), GIG(2), 7, "/home" } }; const struct space_allocation alloc_small[] = { { MEG(700), GIG(4), 95, "/" }, { MEG(1), MEG(256), 5, "swap" } }; const struct space_allocation alloc_stupid[] = { { MEG(1), MEG(2048), 100, "/" } }; #ifndef nitems #define nitems(_a) (sizeof((_a)) / sizeof((_a)[0])) #endif const struct { const struct space_allocation *table; int sz; } alloc_table[] = { { alloc_big, nitems(alloc_big) }, { alloc_medium, nitems(alloc_medium) }, { alloc_small, nitems(alloc_small) }, { alloc_stupid, nitems(alloc_stupid) } }; void edit_parms(struct disklabel *); void editor_resize(struct disklabel *, char *); void editor_add(struct disklabel *, char *); void editor_change(struct disklabel *, char *); u_int64_t editor_countfree(struct disklabel *); void editor_delete(struct disklabel *, char *); void editor_help(void); void editor_modify(struct disklabel *, char *); void editor_name(struct disklabel *, char *); char *getstring(char *, char *, char *); u_int64_t getuint64(struct disklabel *, char *, char *, u_int64_t, u_int64_t, u_int64_t, int); int has_overlap(struct disklabel *); int partition_cmp(const void *, const void *); struct partition **sort_partitions(struct disklabel *); void getdisktype(struct disklabel *, char *, char *); void find_bounds(struct disklabel *); void set_bounds(struct disklabel *); void set_duid(struct disklabel *); struct diskchunk *free_chunks(struct disklabel *); void mpcopy(char **, char **); int micmp(const void *, const void *); int mpequal(char **, char **); int get_bsize(struct disklabel *, int); int get_fsize(struct disklabel *, int); int get_fstype(struct disklabel *, int); int get_mp(struct disklabel *, int); int get_offset(struct disklabel *, int); int get_size(struct disklabel *, int); void get_geometry(int, struct disklabel **); void set_geometry(struct disklabel *, struct disklabel *, struct disklabel *, char *); void zero_partitions(struct disklabel *); u_int64_t max_partition_size(struct disklabel *, int); void display_edit(struct disklabel *, char, u_int64_t); static u_int64_t starting_sector; static u_int64_t ending_sector; static int expert; static int overlap; /* * Simple partition editor. */ int editor(int f) { struct disklabel origlabel, lastlabel, tmplabel, newlab = lab; struct disklabel *disk_geop = NULL; struct partition *pp; FILE *fp; char buf[BUFSIZ], *cmd, *arg; char **omountpoints = NULL; char **origmountpoints = NULL, **tmpmountpoints = NULL; int i, error = 0; /* Alloc and init mount point info */ if (!(omountpoints = calloc(MAXPARTITIONS, sizeof(char *))) || !(origmountpoints = calloc(MAXPARTITIONS, sizeof(char *))) || !(tmpmountpoints = calloc(MAXPARTITIONS, sizeof(char *)))) errx(4, "out of memory"); /* Don't allow disk type of "unknown" */ getdisktype(&newlab, "You need to specify a type for this disk.", specname); /* Get the on-disk geometries if possible */ get_geometry(f, &disk_geop); /* How big is the OpenBSD portion of the disk? */ find_bounds(&newlab); /* Make sure there is no partition overlap. */ if (has_overlap(&newlab)) errx(1, "can't run when there is partition overlap."); /* If we don't have a 'c' partition, create one. */ pp = &newlab.d_partitions[RAW_PART]; if (newlab.d_npartitions < 3 || DL_GETPSIZE(pp) == 0) { puts("No 'c' partition found, adding one that spans the disk."); if (newlab.d_npartitions < 3) newlab.d_npartitions = 3; DL_SETPOFFSET(pp, 0); DL_SETPSIZE(pp, DL_GETDSIZE(&newlab)); pp->p_fstype = FS_UNUSED; pp->p_fragblock = pp->p_cpg = 0; } #ifdef SUN_CYLCHECK if ((newlab.d_flags & D_VENDOR) & !aflag) { puts("This platform requires that partition offsets/sizes " "be on cylinder boundaries.\n" "Partition offsets/sizes will be rounded to the " "nearest cylinder automatically."); } #endif /* Set d_bbsize and d_sbsize as necessary */ if (newlab.d_bbsize == 0) newlab.d_bbsize = BBSIZE; if (newlab.d_sbsize == 0) newlab.d_sbsize = SBSIZE; /* Save the (U|u)ndo labels and mountpoints. */ mpcopy(origmountpoints, mountpoints); origlabel = newlab; lastlabel = newlab; puts("Label editor (enter '?' for help at any prompt)"); for (;;) { fputs("> ", stdout); if (fgets(buf, sizeof(buf), stdin) == NULL) { putchar('\n'); buf[0] = 'q'; buf[1] = '\0'; } if ((cmd = strtok(buf, " \t\r\n")) == NULL) continue; arg = strtok(NULL, " \t\r\n"); if ((*cmd != 'u') && (*cmd != 'U')) { /* * Save undo info in case the command tries to make * changes but decides not to. */ tmplabel = lastlabel; lastlabel = newlab; mpcopy(tmpmountpoints, omountpoints); mpcopy(omountpoints, mountpoints); } switch (*cmd) { case '?': case 'h': editor_help(); break; case 'A': if (ioctl(f, DIOCGPDINFO, &newlab) == 0) { ++aflag; editor_allocspace(&newlab); --aflag; } else newlab = lastlabel; break; case 'a': editor_add(&newlab, arg); break; case 'b': set_bounds(&newlab); break; case 'c': editor_change(&newlab, arg); break; case 'D': if (ioctl(f, DIOCGPDINFO, &newlab) == 0) { dflag = 1; for (i=0; id_partitions[i]; psz = DL_GETPSIZE(pp); pstart = DL_GETPOFFSET(pp); pend = pstart + psz; if (i != RAW_PART && psz != 0 && ((pstart >= starting_sector && pstart <= ending_sector) || (pend > starting_sector && pend < ending_sector))) { overlap = 1; break; } } physmem = getphysmem() / lp_org->d_secsize; cylsecs = lp_org->d_secpercyl; again: lp = &label; for (i=0; id_npartitions = MAXPARTITIONS; lastalloc = alloc_table[index].sz; alloc = malloc(lastalloc * sizeof(struct space_allocation)); if (alloc == NULL) errx(4, "out of memory"); memcpy(alloc, alloc_table[index].table, lastalloc * sizeof(struct space_allocation)); /* bump max swap based on phys mem, little physmem gets 2x swap */ if (index == 0) { if (physmem < 256LL * 1024 * 1024 / lp->d_secsize) alloc[1].maxsz = 2 * physmem; else alloc[1].maxsz += physmem; /* bump max /var to make room for 2 crash dumps */ alloc[3].maxsz += 2 * physmem; } xtrasecs = totsecs = editor_countfree(lp); for (i = 0; i < lastalloc; i++) { alloc[i].minsz = DL_BLKTOSEC(lp, alloc[i].minsz); alloc[i].maxsz = DL_BLKTOSEC(lp, alloc[i].maxsz); if (xtrasecs > alloc[i].minsz) xtrasecs -= alloc[i].minsz; else xtrasecs = 0; } for (i = 0; i < lastalloc; i++) { /* Find next available partition. */ for (j = 0; j < MAXPARTITIONS; j++) if (DL_GETPSIZE(&lp->d_partitions[j]) == 0) break; if (j == MAXPARTITIONS) { /* It did not work out, try next strategy */ free(alloc); if (++index < nitems(alloc_table)) goto again; else return; } partno = j; pp = &lp->d_partitions[j]; partmp = &mountpoints[j]; ap = &alloc[i]; /* Figure out the size of the partition. */ if (i == lastalloc - 1) { if (totsecs > ap->maxsz) secs = ap->maxsz; else secs = totsecs; #ifdef SUN_CYLCHECK goto cylinderalign; #endif } else { secs = ap->minsz; if (xtrasecs > 0) secs += (xtrasecs / 100) * ap->rate; if (secs > ap->maxsz) secs = ap->maxsz; #ifdef SUN_CYLCHECK cylinderalign: secs = ((secs + cylsecs - 1) / cylsecs) * cylsecs; #endif totsecs -= secs; #ifdef SUN_CYLCHECK while (totsecs < 0) { secs -= cylsecs; totsecs += cylsecs; } #endif } /* Find largest chunk of free space. */ chunks = free_chunks(lp); chunkstart = 0; chunksize = 0; for (j = 0; chunks[j].start != 0 || chunks[j].stop != 0; j++) if ((chunks[j].stop - chunks[j].start) > chunksize) { chunkstart = chunks[j].start; chunksize = chunks[j].stop - chunks[j].start; } #ifdef SUN_CYLCHECK if (lp->d_flags & D_VENDOR) { /* Align chunk to cylinder boundaries. */ chunksize -= chunksize % cylsecs; chunkstart = ((chunkstart + cylsecs - 1) / cylsecs) * cylsecs; } #endif /* See if partition can fit into chunk. */ if (secs > chunksize) { totsecs += secs - chunksize; secs = chunksize; } if (secs < ap->minsz) { /* It did not work out, try next strategy */ free(alloc); if (++index < nitems(alloc_table)) goto again; else return; } /* Everything seems ok so configure the partition. */ DL_SETPSIZE(pp, secs); DL_SETPOFFSET(pp, chunkstart); fragsize = (lp->d_secsize == DEV_BSIZE) ? 2048 : lp->d_secsize; if (secs * lp->d_secsize > 128ULL * 1024 * 1024 * 1024) fragsize *= 2; if (secs * lp->d_secsize > 512ULL * 1024 * 1024 * 1024) fragsize *= 2; #if defined (__sparc__) && !defined(__sparc64__) /* can't boot from > 8k boot blocks */ pp->p_fragblock = DISKLABELV1_FFS_FRAGBLOCK(i == 0 ? 1024 : fragsize, 8); #else pp->p_fragblock = DISKLABELV1_FFS_FRAGBLOCK(fragsize, 8); #endif pp->p_cpg = 1; if (ap->mp[0] != '/') pp->p_fstype = FS_SWAP; else { pp->p_fstype = FS_BSDFFS; get_bsize(lp, partno); free(*partmp); if ((*partmp = strdup(ap->mp)) == NULL) errx(4, "out of memory"); } } free(alloc); memcpy(lp_org, lp, sizeof(struct disklabel)); } /* * Resize a partition, moving all subsequent partitions */ void editor_resize(struct disklabel *lp, char *p) { struct disklabel label; struct partition *pp, *prev; daddr64_t secs, sz, off; #ifdef SUN_CYLCHECK daddr64_t cylsecs; #endif int partno, i; label = *lp; /* Change which partition? */ if (p == NULL) { p = getstring("partition to resize", "The letter of the partition to name, a - p.", NULL); } if (p == NULL) { fputs("Command aborted\n", stderr); return; } partno = p[0] - 'a'; if (partno < 0 || partno == RAW_PART || partno >= lp->d_npartitions) { fprintf(stderr, "Partition must be between 'a' and '%c' " "(excluding 'c').\n", 'a' + lp->d_npartitions - 1); return; } pp = &label.d_partitions[partno]; sz = DL_GETPSIZE(pp); if (sz == 0) { fputs("No such partition\n", stderr); return; } if (pp->p_fstype != FS_BSDFFS && pp->p_fstype != FS_SWAP) { fputs("Cannot resize spoofed partition\n", stderr); return; } secs = getuint64(lp, "[+|-]new size (with unit)", "new size or amount to grow (+) or shrink (-) partition including unit", sz, editor_countfree(lp), 0, DO_CONVERSIONS); if (secs <= 0) { fputs("Command aborted\n", stderr); return; } #ifdef SUN_CYLCHECK cylsecs = lp->d_secpercyl; if (secs > 0) secs = ((secs + cylsecs - 1) / cylsecs) * cylsecs; else secs = ((secs - cylsecs + 1) / cylsecs) * cylsecs; #endif if (DL_GETPOFFSET(pp) + secs > ending_sector) { fputs("Amount too big\n", stderr); return; } DL_SETPSIZE(pp, secs); get_bsize(&label, partno); /* * Pack partitions above the resized partition, leaving unused * partions alone. */ prev = pp; for (i = partno + 1; i < MAXPARTITIONS; i++) { if (i == RAW_PART) continue; pp = &label.d_partitions[i]; if (pp->p_fstype != FS_BSDFFS && pp->p_fstype != FS_SWAP) continue; sz = DL_GETPSIZE(pp); if (sz == 0) continue; off = DL_GETPOFFSET(prev) + DL_GETPSIZE(prev); if (off < ending_sector) { DL_SETPOFFSET(pp, off); if (off + DL_GETPSIZE(pp) > ending_sector) { DL_SETPSIZE(pp, ending_sector - off); fprintf(stderr, "Partition %c shrunk to make room\n", i + 'a'); } } else { fputs("No room left for all partitions\n", stderr); return; } get_bsize(&label, i); prev = pp; } *lp = label; } /* * Add a new partition. */ void editor_add(struct disklabel *lp, char *p) { struct partition *pp; struct diskchunk *chunks; char buf[2]; int i, partno, fragsize; u_int64_t freesectors, new_offset, new_size; freesectors = editor_countfree(lp); /* XXX - prompt user to steal space from another partition instead */ #ifdef SUN_CYLCHECK if ((lp->d_flags & D_VENDOR) && freesectors < lp->d_secpercyl) { fputs("No space left, you need to shrink a partition " "(need at least one full cylinder)\n", stderr); return; } #endif if (freesectors == 0) { fputs("No space left, you need to shrink a partition\n", stderr); return; } if (p == NULL) { /* * Use the first unused partition that is not 'c' as the * default partition in the prompt string. */ pp = &lp->d_partitions[0]; buf[0] = buf[1] = '\0'; for (partno = 0; partno < MAXPARTITIONS; partno++, pp++) { if (DL_GETPSIZE(pp) == 0 && partno != RAW_PART) { buf[0] = partno + 'a'; p = &buf[0]; break; } } p = getstring("partition", "The letter of the new partition, a - p.", p); } if (p == NULL) { fputs("Command aborted\n", stderr); return; } partno = p[0] - 'a'; if (partno < 0 || partno == RAW_PART || partno >= MAXPARTITIONS) { fprintf(stderr, "Partition must be between 'a' and '%c' " "(excluding 'c').\n", 'a' + MAXPARTITIONS - 1); return; } pp = &lp->d_partitions[partno]; if (pp->p_fstype != FS_UNUSED && DL_GETPSIZE(pp) != 0) { fprintf(stderr, "Partition '%c' exists. Delete it first.\n", p[0]); return; } /* * Increase d_npartitions if necessary. Ensure all new partitions are * zero'ed to avoid inadvertent overlaps. */ for(; lp->d_npartitions <= partno; lp->d_npartitions++) memset(&lp->d_partitions[lp->d_npartitions], 0, sizeof(*pp)); /* Make sure selected partition is zero'd too. */ memset(pp, 0, sizeof(*pp)); chunks = free_chunks(lp); /* * Since we know there's free space, there must be at least one * chunk. So find the largest chunk and assume we want to add the * partition in that free space. */ new_size = new_offset = 0; for (i = 0; chunks[i].start != 0 || chunks[i].stop != 0; i++) { if (chunks[i].stop - chunks[i].start > new_size) { new_size = chunks[i].stop - chunks[i].start; new_offset = chunks[i].start; } } DL_SETPSIZE(pp, new_size); DL_SETPOFFSET(pp, new_offset); pp->p_fstype = partno == 1 ? FS_SWAP : FS_BSDFFS; pp->p_cpg = 1; if (get_offset(lp, partno) == 0 && get_size(lp, partno) == 0) { fragsize = (lp->d_secsize == DEV_BSIZE) ? 2048 : lp->d_secsize; new_size = DL_GETPSIZE(pp) * lp->d_secsize; if (new_size > 128ULL * 1024 * 1024 * 1024) fragsize *= 2; if (new_size > 512ULL * 1024 * 1024 * 1024) fragsize *= 2; #if defined (__sparc__) && !defined(__sparc64__) /* can't boot from > 8k boot blocks */ pp->p_fragblock = DISKLABELV1_FFS_FRAGBLOCK(partno == 0 ? 1024 : fragsize, 8); #else pp->p_fragblock = DISKLABELV1_FFS_FRAGBLOCK(fragsize, 8); #endif if (get_fstype(lp, partno) == 0 && get_mp(lp, partno) == 0 && get_fsize(lp, partno) == 0 && get_bsize(lp, partno) == 0) return; } /* Bailed out at some point, so effectively delete the partition. */ memset(pp, 0, sizeof(*pp)); } /* * Set the mountpoint of an existing partition ('name'). */ void editor_name(struct disklabel *lp, char *p) { struct partition *pp; int partno; /* Change which partition? */ if (p == NULL) { p = getstring("partition to name", "The letter of the partition to name, a - p.", NULL); } if (p == NULL) { fputs("Command aborted\n", stderr); return; } partno = p[0] - 'a'; if (partno < 0 || partno == RAW_PART || partno >= lp->d_npartitions) { fprintf(stderr, "Partition must be between 'a' and '%c' " "(excluding 'c').\n", 'a' + lp->d_npartitions - 1); return; } pp = &lp->d_partitions[partno]; if (pp->p_fstype == FS_UNUSED && DL_GETPSIZE(pp) == 0) { fprintf(stderr, "Partition '%c' is not in use.\n", p[0]); return; } /* Not all fstypes can be named */ if (pp->p_fstype == FS_UNUSED || pp->p_fstype == FS_SWAP || pp->p_fstype == FS_BOOT || pp->p_fstype == FS_OTHER || pp->p_fstype == FS_RAID) { fprintf(stderr, "You cannot name a filesystem of type %s.\n", fstypenames[lp->d_partitions[partno].p_fstype]); return; } get_mp(lp, partno); } /* * Change an existing partition. */ void editor_modify(struct disklabel *lp, char *p) { struct partition origpart, *pp; int partno; /* Change which partition? */ if (p == NULL) { p = getstring("partition to modify", "The letter of the partition to modify, a - p.", NULL); } if (p == NULL) { fputs("Command aborted\n", stderr); return; } partno = p[0] - 'a'; if (partno < 0 || partno == RAW_PART || partno >= lp->d_npartitions) { fprintf(stderr, "Partition must be between 'a' and '%c' " "(excluding 'c').\n", 'a' + lp->d_npartitions - 1); return; } pp = &lp->d_partitions[partno]; if (pp->p_fstype == FS_UNUSED && DL_GETPSIZE(pp) == 0) { fprintf(stderr, "Partition '%c' is not in use.\n", p[0]); return; } origpart = *pp; if (get_offset(lp, partno) == 0 && get_size(lp, partno) == 0 && get_fstype(lp, partno) == 0 && get_mp(lp, partno) == 0 && get_fsize(lp, partno) == 0 && get_bsize(lp, partno) == 0) return; /* Bailed out at some point, so undo any changes. */ *pp = origpart; } /* * Delete an existing partition. */ void editor_delete(struct disklabel *lp, char *p) { struct partition *pp; int partno; if (p == NULL) { p = getstring("partition to delete", "The letter of the partition to delete, a - p, or '*'.", NULL); } if (p == NULL) { fputs("Command aborted\n", stderr); return; } if (p[0] == '*') { zero_partitions(lp); return; } partno = p[0] - 'a'; if (partno < 0 || partno == RAW_PART || partno >= lp->d_npartitions) { fprintf(stderr, "Partition must be between 'a' and '%c' " "(excluding 'c').\n", 'a' + lp->d_npartitions - 1); return; } pp = &lp->d_partitions[partno]; if (pp->p_fstype == FS_UNUSED && DL_GETPSIZE(pp) == 0) { fprintf(stderr, "Partition '%c' is not in use.\n", p[0]); return; } /* Really delete it (as opposed to just setting to "unused") */ memset(pp, 0, sizeof(*pp)); free(mountpoints[partno]); mountpoints[partno] = NULL; } /* * Change the size of an existing partition. */ void editor_change(struct disklabel *lp, char *p) { struct partition *pp; int partno; if (p == NULL) { p = getstring("partition to change size", "The letter of the partition to change size, a - p.", NULL); } if (p == NULL) { fputs("Command aborted\n", stderr); return; } partno = p[0] - 'a'; if (partno < 0 || partno == RAW_PART || partno >= lp->d_npartitions) { fprintf(stderr, "Partition must be between 'a' and '%c' " "(excluding 'c').\n", 'a' + lp->d_npartitions - 1); return; } pp = &lp->d_partitions[partno]; if (DL_GETPSIZE(pp) == 0) { fprintf(stderr, "Partition '%c' is not in use.\n", p[0]); return; } printf("Partition %c is currently %llu sectors in size, and can have " "a maximum\nsize of %llu sectors.\n", p[0], DL_GETPSIZE(pp), max_partition_size(lp, partno)); /* Get new size */ get_size(lp, partno); } /* * Sort the partitions based on starting offset. * This assumes there can be no overlap. */ int partition_cmp(const void *e1, const void *e2) { struct partition *p1 = *(struct partition **)e1; struct partition *p2 = *(struct partition **)e2; u_int64_t o1 = DL_GETPOFFSET(p1); u_int64_t o2 = DL_GETPOFFSET(p2); if (o1 < o2) return -1; else if (o1 > o2) return 1; else return 0; } char * getstring(char *prompt, char *helpstring, char *oval) { static char buf[BUFSIZ]; int n; buf[0] = '\0'; do { printf("%s: [%s] ", prompt, oval ? oval : ""); if (fgets(buf, sizeof(buf), stdin) == NULL) { buf[0] = '\0'; if (feof(stdin)) { clearerr(stdin); putchar('\n'); return(NULL); } } n = strlen(buf); if (n > 0 && buf[n-1] == '\n') buf[--n] = '\0'; if (buf[0] == '?') puts(helpstring); else if (oval != NULL && buf[0] == '\0') strlcpy(buf, oval, sizeof(buf)); } while (buf[0] == '?'); return(&buf[0]); } /* * Returns ULLONG_MAX on error * Usually only called by helper functions. */ u_int64_t getuint64(struct disklabel *lp, char *prompt, char *helpstring, u_int64_t oval, u_int64_t maxval, u_int64_t offset, int flags) { char buf[BUFSIZ], *endptr, *p, operator = '\0'; u_int64_t rval = oval; int64_t mult = 1; size_t n; double d, percent = 1.0; /* We only care about the remainder */ offset = offset % lp->d_secpercyl; buf[0] = '\0'; do { printf("%s: [%llu] ", prompt, oval); if (fgets(buf, sizeof(buf), stdin) == NULL) { buf[0] = '\0'; if (feof(stdin)) { clearerr(stdin); putchar('\n'); return(ULLONG_MAX - 1); } } n = strlen(buf); if (n > 0 && buf[n-1] == '\n') buf[--n] = '\0'; if (buf[0] == '?') puts(helpstring); } while (buf[0] == '?'); if (buf[0] == '*' && buf[1] == '\0') { rval = maxval; } else { /* deal with units */ if (buf[0] != '\0' && n > 0) { if ((flags & DO_CONVERSIONS)) { switch (tolower(buf[n-1])) { case 'c': mult = lp->d_secpercyl; buf[--n] = '\0'; break; case 'b': mult = -(int64_t)lp->d_secsize; buf[--n] = '\0'; break; case 'k': if (lp->d_secsize > 1024) mult = -(int64_t)lp->d_secsize / 1024LL; else mult = 1024LL / lp->d_secsize; buf[--n] = '\0'; break; case 'm': mult = (1024LL * 1024) / lp->d_secsize; buf[--n] = '\0'; break; case 'g': mult = (1024LL * 1024 * 1024) / lp->d_secsize; buf[--n] = '\0'; break; case 't': mult = (1024LL * 1024 * 1024 * 1024) / lp->d_secsize; buf[--n] = '\0'; break; case '%': buf[--n] = '\0'; p = &buf[0]; if (*p == '+' || *p == '-') operator = *p++; percent = strtod(p, NULL) / 100.0; snprintf(buf, sizeof(buf), "%lld", DL_GETDSIZE(lp)); break; case '&': buf[--n] = '\0'; p = &buf[0]; if (*p == '+' || *p == '-') operator = *p++; percent = strtod(p, NULL) / 100.0; snprintf(buf, sizeof(buf), "%lld", maxval); break; } } /* Did they give us an operator? */ p = &buf[0]; if (*p == '+' || *p == '-') operator = *p++; endptr = p; errno = 0; d = strtod(p, &endptr); if (errno == ERANGE) rval = ULLONG_MAX; /* too big/small */ else if (*endptr != '\0') { errno = EINVAL; /* non-numbers in str */ rval = ULLONG_MAX; } else { /* XXX - should check for overflow */ if (mult > 0) rval = d * mult * percent; else /* Negative mult means divide (fancy) */ rval = d / (-mult) * percent; /* Apply the operator */ if (operator == '+') rval += oval; else if (operator == '-') rval = oval - rval; } } } if ((flags & DO_ROUNDING) && rval != ULLONG_MAX) { /* Round to nearest cylinder unless given in sectors */ if ( #ifdef SUN_CYLCHECK ((lp->d_flags & D_VENDOR) || mult != 1) && #else mult != 1 && #endif (rval + offset) % lp->d_secpercyl != 0) { u_int64_t cyls; /* Round to higher cylinder but no more than maxval */ cyls = (rval / lp->d_secpercyl) + 1; if ((cyls * lp->d_secpercyl) - offset > maxval) cyls--; rval = (cyls * lp->d_secpercyl) - offset; if (!aflag) printf("Rounding size to cylinder (%d sectors)" ": %llu\n", lp->d_secpercyl, rval); } } return(rval); } /* * Check for partition overlap in lp and prompt the user to resolve the overlap * if any is found. Returns 1 if unable to resolve, else 0. */ int has_overlap(struct disklabel *lp) { struct partition **spp; int c, i, j; char buf[BUFSIZ]; /* Get a sorted list of the in-use partitions. */ spp = sort_partitions(lp); /* If there are less than two partitions in use, there is no overlap. */ if (spp[1] == NULL) return(0); /* Now that we have things sorted by starting sector check overlap */ for (i = 0; spp[i] != NULL; i++) { for (j = i + 1; spp[j] != NULL; j++) { /* `if last_sec_in_part + 1 > first_sec_in_next_part' */ if (DL_GETPOFFSET(spp[i]) + DL_GETPSIZE(spp[i]) > DL_GETPOFFSET(spp[j])) { /* Overlap! Convert to real part numbers. */ i = ((char *)spp[i] - (char *)lp->d_partitions) / sizeof(**spp); j = ((char *)spp[j] - (char *)lp->d_partitions) / sizeof(**spp); printf("\nError, partitions %c and %c overlap:" "\n", 'a' + i, 'a' + j); printf("# %16.16s %16.16s fstype " "[fsize bsize cpg]\n", "size", "offset"); display_partition(stdout, lp, i, 0); display_partition(stdout, lp, j, 0); /* Get partition to disable or ^D */ do { printf("Disable which one? " "(^D to abort) [%c %c] ", 'a' + i, 'a' + j); buf[0] = '\0'; if (!fgets(buf, sizeof(buf), stdin)) { putchar('\n'); return(1); /* ^D */ } c = buf[0] - 'a'; } while (buf[1] != '\n' && buf[1] != '\0' && c != i && c != j); /* Mark the selected one as unused */ lp->d_partitions[c].p_fstype = FS_UNUSED; return (has_overlap(lp)); } } } return(0); } void edit_parms(struct disklabel *lp) { char *p; u_int64_t freesectors, ui; struct disklabel oldlabel = *lp; printf("Changing device parameters for %s:\n", specname); /* disk type */ for (;;) { p = getstring("disk type", "What kind of disk is this? Usually SCSI, ESDI, ST506, or " "floppy (use ESDI for IDE).", dktypenames[lp->d_type]); if (p == NULL) { fputs("Command aborted\n", stderr); return; } if (strcasecmp(p, "IDE") == 0) ui = DTYPE_ESDI; else for (ui = 1; ui < DKMAXTYPES && strcasecmp(p, dktypenames[ui]); ui++) ; if (ui < DKMAXTYPES) { break; } else { printf("\"%s\" is not a valid disk type.\n", p); fputs("Valid types are: ", stdout); for (ui = 1; ui < DKMAXTYPES; ui++) { printf("\"%s\"", dktypenames[ui]); if (ui < DKMAXTYPES - 1) fputs(", ", stdout); } putchar('\n'); } } lp->d_type = ui; /* pack/label id */ p = getstring("label name", "15 char string that describes this label, usually the disk name.", lp->d_packname); if (p == NULL) { fputs("Command aborted\n", stderr); *lp = oldlabel; /* undo damage */ return; } strncpy(lp->d_packname, p, sizeof(lp->d_packname)); /* checked */ /* sectors/track */ for (;;) { ui = getuint64(lp, "sectors/track", "The Number of sectors per track.", lp->d_nsectors, lp->d_nsectors, 0, 0); if (ui == ULLONG_MAX - 1) { fputs("Command aborted\n", stderr); *lp = oldlabel; /* undo damage */ return; } if (ui == ULLONG_MAX) fputs("Invalid entry\n", stderr); else break; } lp->d_nsectors = ui; /* tracks/cylinder */ for (;;) { ui = getuint64(lp, "tracks/cylinder", "The number of tracks per cylinder.", lp->d_ntracks, lp->d_ntracks, 0, 0); if (ui == ULLONG_MAX - 1) { fputs("Command aborted\n", stderr); *lp = oldlabel; /* undo damage */ return; } else if (ui == ULLONG_MAX) fputs("Invalid entry\n", stderr); else break; } lp->d_ntracks = ui; /* sectors/cylinder */ for (;;) { ui = getuint64(lp, "sectors/cylinder", "The number of sectors per cylinder (Usually sectors/track " "* tracks/cylinder).", lp->d_secpercyl, lp->d_secpercyl, 0, 0); if (ui == ULLONG_MAX - 1) { fputs("Command aborted\n", stderr); *lp = oldlabel; /* undo damage */ return; } else if (ui == ULLONG_MAX) fputs("Invalid entry\n", stderr); else break; } lp->d_secpercyl = ui; /* number of cylinders */ for (;;) { ui = getuint64(lp, "number of cylinders", "The total number of cylinders on the disk.", lp->d_ncylinders, lp->d_ncylinders, 0, 0); if (ui == ULLONG_MAX - 1) { fputs("Command aborted\n", stderr); *lp = oldlabel; /* undo damage */ return; } else if (ui == ULLONG_MAX) fputs("Invalid entry\n", stderr); else break; } lp->d_ncylinders = ui; /* total sectors */ for (;;) { u_int64_t nsec = MAX(DL_GETDSIZE(lp), (u_int64_t)lp->d_ncylinders * lp->d_secpercyl); ui = getuint64(lp, "total sectors", "The total number of sectors on the disk.", nsec, nsec, 0, 0); if (ui == ULLONG_MAX - 1) { fputs("Command aborted\n", stderr); *lp = oldlabel; /* undo damage */ return; } else if (ui == ULLONG_MAX) fputs("Invalid entry\n", stderr); else if (ui > DL_GETDSIZE(lp) && ending_sector == DL_GETDSIZE(lp)) { puts("You may want to increase the size of the 'c' " "partition."); break; } else if (ui < DL_GETDSIZE(lp) && ending_sector == DL_GETDSIZE(lp)) { /* shrink free count */ freesectors = editor_countfree(lp); if (DL_GETDSIZE(lp) - ui > freesectors) fprintf(stderr, "Not enough free space to shrink by %llu " "sectors (only %llu sectors left)\n", DL_GETDSIZE(lp) - ui, freesectors); else break; } else break; } /* Adjust ending_sector if necessary. */ if (ending_sector > ui) { ending_sector = ui; DL_SETBEND(lp, ending_sector); } DL_SETDSIZE(lp, ui); } struct partition ** sort_partitions(struct disklabel *lp) { static struct partition *spp[MAXPARTITIONS+2]; int i, npartitions; memset(spp, 0, sizeof(spp)); for (npartitions = 0, i = 0; i < lp->d_npartitions; i++) { if (lp->d_partitions[i].p_fstype != FS_UNUSED && lp->d_partitions[i].p_fstype != FS_BOOT && DL_GETPSIZE(&lp->d_partitions[i]) != 0) spp[npartitions++] = &lp->d_partitions[i]; } /* * Sort the partitions based on starting offset. * This is safe because we guarantee no overlap. */ if (npartitions > 1) if (heapsort((void *)spp, npartitions, sizeof(spp[0]), partition_cmp)) err(4, "failed to sort partition table"); return(spp); } /* * Get a valid disk type if necessary. */ void getdisktype(struct disklabel *lp, char *banner, char *dev) { int i; char *s, *def = "SCSI"; struct dtypes { char *dev; char *type; } dtypes[] = { { "sd", "SCSI" }, { "rz", "SCSI" }, { "wd", "IDE" }, { "fd", "FLOPPY" }, { "xd", "SMD" }, { "xy", "SMD" }, { "hd", "HP-IB" }, { "ccd", "CCD" }, /* deprecated */ { "vnd", "VND" }, { "svnd", "VND" }, { NULL, NULL } }; if ((s = basename(dev)) != NULL) { if (*s == 'r') s++; i = strcspn(s, "0123456789"); s[i] = '\0'; dev = s; for (i = 0; dtypes[i].dev != NULL; i++) { if (strcmp(dev, dtypes[i].dev) == 0) { def = dtypes[i].type; break; } } } if (lp->d_type > DKMAXTYPES || lp->d_type == 0) { puts(banner); puts("Possible values are:"); printf("\"IDE\", "); for (i = 1; i < DKMAXTYPES; i++) { printf("\"%s\"", dktypenames[i]); if (i < DKMAXTYPES - 1) fputs(", ", stdout); } putchar('\n'); for (;;) { s = getstring("Disk type", "What kind of disk is this? Usually SCSI, IDE, " "ESDI, ST506, or floppy.", def); if (s == NULL) continue; if (strcasecmp(s, "IDE") == 0) { lp->d_type = DTYPE_ESDI; return; } for (i = 1; i < DKMAXTYPES; i++) if (strcasecmp(s, dktypenames[i]) == 0) { lp->d_type = i; return; } printf("\"%s\" is not a valid disk type.\n", s); fputs("Valid types are: ", stdout); for (i = 1; i < DKMAXTYPES; i++) { printf("\"%s\"", dktypenames[i]); if (i < DKMAXTYPES - 1) fputs(", ", stdout); } putchar('\n'); } } } /* * Get beginning and ending sectors of the OpenBSD portion of the disk * from the user. */ void set_bounds(struct disklabel *lp) { u_int64_t ui, start_temp; /* Starting sector */ do { ui = getuint64(lp, "Starting sector", "The start of the OpenBSD portion of the disk.", starting_sector, DL_GETDSIZE(lp), 0, 0); if (ui == ULLONG_MAX - 1) { fputs("Command aborted\n", stderr); return; } } while (ui >= DL_GETDSIZE(lp)); start_temp = ui; /* Size */ do { ui = getuint64(lp, "Size ('*' for entire disk)", "The size of the OpenBSD portion of the disk ('*' for the " "entire disk).", ending_sector - starting_sector, DL_GETDSIZE(lp) - start_temp, 0, 0); if (ui == ULLONG_MAX - 1) { fputs("Command aborted\n", stderr); return; } } while (ui > DL_GETDSIZE(lp) - start_temp); ending_sector = start_temp + ui; DL_SETBEND(lp, ending_sector); starting_sector = start_temp; DL_SETBSTART(lp, starting_sector); } /* * Allow user to interactively change disklabel UID. */ void set_duid(struct disklabel *lp) { char *s; int i; printf("The disklabel UID is currently: " "%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx\n", lp->d_uid[0], lp->d_uid[1], lp->d_uid[2], lp->d_uid[3], lp->d_uid[4], lp->d_uid[5], lp->d_uid[6], lp->d_uid[7]); do { s = getstring("duid", "The disklabel UID, given as a 16 " "character hexadecimal string.", NULL); if (s == NULL || strlen(s) == 0) { fputs("Command aborted\n", stderr); return; } i = duid_parse(lp, s); if (i != 0) fputs("Invalid UID entered.\n", stderr); } while (i != 0); } /* * Return a list of the "chunks" of free space available */ struct diskchunk * free_chunks(struct disklabel *lp) { struct partition **spp; static struct diskchunk chunks[MAXPARTITIONS + 2]; u_int64_t start, stop; int i, numchunks; /* Sort the in-use partitions based on offset */ spp = sort_partitions(lp); /* If there are no partitions, it's all free. */ if (spp[0] == NULL) { chunks[0].start = starting_sector; chunks[0].stop = ending_sector; chunks[1].start = chunks[1].stop = 0; return(chunks); } /* Find chunks of free space */ numchunks = 0; if (DL_GETPOFFSET(spp[0]) > starting_sector) { chunks[0].start = starting_sector; chunks[0].stop = DL_GETPOFFSET(spp[0]); numchunks++; } for (i = 0; spp[i] != NULL; i++) { start = DL_GETPOFFSET(spp[i]) + DL_GETPSIZE(spp[i]); if (start < starting_sector) start = starting_sector; else if (start > ending_sector) start = ending_sector; if (spp[i + 1] != NULL) stop = DL_GETPOFFSET(spp[i+1]); else stop = ending_sector; if (stop < starting_sector) stop = starting_sector; else if (stop > ending_sector) stop = ending_sector; if (start < stop) { chunks[numchunks].start = start; chunks[numchunks].stop = stop; numchunks++; } } /* Terminate and return */ chunks[numchunks].start = chunks[numchunks].stop = 0; return(chunks); } void find_bounds(struct disklabel *lp) { starting_sector = DL_GETBSTART(lp); ending_sector = DL_GETBEND(lp); if (ending_sector) { if (verbose) printf("Treating sectors %llu-%llu as the OpenBSD" " portion of the disk.\nYou can use the 'b'" " command to change this.\n\n", starting_sector, ending_sector); } else { #if NUMBOOT > 0 /* Boot blocks take up the first cylinder */ starting_sector = lp->d_secpercyl; if (verbose) printf("Reserving the first data cylinder for boot" " blocks.\nYou can use the 'b' command to change" " this.\n\n"); #endif } } /* * Calculate free space. */ u_int64_t editor_countfree(struct disklabel *lp) { struct diskchunk *chunks; u_int64_t freesectors = 0; int i; chunks = free_chunks(lp); for (i = 0; chunks[i].start != 0 || chunks[i].stop != 0; i++) freesectors += chunks[i].stop - chunks[i].start; return (freesectors); } void editor_help(void) { puts("Available commands:"); puts( " ? | h - show help n [part] - set mount point\n" " A - auto partition all space p [unit] - print partitions\n" " a [part] - add partition q - quit & save changes\n" " b - set OpenBSD boundaries R [part] - resize auto allocated partition\n" " c [part] - change partition size r - display free space\n" " D - reset label to default s [path] - save label to file\n" " d [part] - delete partition U - undo all changes\n" " e - edit drive parameters u - undo last change\n" " g [d|u] - [d]isk or [u]ser geometry w - write label to disk\n" " i - modify disklabel UID X - toggle expert mode\n" " l [unit] - print disk label header x - exit & lose changes\n" " M - disklabel(8) man page z - delete all partitions\n" " m [part] - modify partition\n" "\n" "Suffixes can be used to indicate units other than sectors:\n" " 'b' (bytes), 'k' (kilobytes), 'm' (megabytes), 'g' (gigabytes) 't' (terabytes)\n" " 'c' (cylinders), '%' (% of total disk), '&' (% of free space).\n" "Values in non-sector units are truncated to the nearest cylinder boundary."); } void mpcopy(char **to, char **from) { int i; char *top; for (i = 0; i < MAXPARTITIONS; i++) { if (from[i] != NULL) { int len = strlen(from[i]) + 1; top = realloc(to[i], len); if (top == NULL) errx(4, "out of memory"); to[i] = top; (void)strlcpy(to[i], from[i], len); } else if (to[i] != NULL) { free(to[i]); to[i] = NULL; } } } int mpequal(char **mp1, char **mp2) { int i; for (i = 0; i < MAXPARTITIONS; i++) { if (mp1[i] == NULL && mp2[i] == NULL) continue; if ((mp1[i] != NULL && mp2[i] == NULL) || (mp1[i] == NULL && mp2[i] != NULL) || (strcmp(mp1[i], mp2[i]) != 0)) return(0); } return(1); } void mpsave(struct disklabel *lp) { int i, j; char bdev[MAXPATHLEN], *p; struct mountinfo mi[MAXPARTITIONS]; FILE *fp; u_int8_t fstype; if (!fstabfile) return; memset(&mi, 0, sizeof(mi)); for (i = 0; i < MAXPARTITIONS; i++) { fstype = lp->d_partitions[i].p_fstype; if (mountpoints[i] != NULL || fstype == FS_SWAP) { mi[i].mountpoint = mountpoints[i]; mi[i].partno = i; } } /* Convert specname to bdev */ if (uidflag) { snprintf(bdev, sizeof(bdev), "%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx%02hhx.%c", lab.d_uid[0], lab.d_uid[1], lab.d_uid[2], lab.d_uid[3], lab.d_uid[4], lab.d_uid[5], lab.d_uid[6], lab.d_uid[7], specname[strlen(specname)-1]); } else if (strncmp(_PATH_DEV, specname, sizeof(_PATH_DEV) - 1) == 0 && specname[sizeof(_PATH_DEV) - 1] == 'r') { snprintf(bdev, sizeof(bdev), "%s%s", _PATH_DEV, &specname[sizeof(_PATH_DEV)]); } else { if ((p = strrchr(specname, '/')) == NULL || *(++p) != 'r') return; *p = '\0'; snprintf(bdev, sizeof(bdev), "%s%s", specname, p + 1); *p = 'r'; } bdev[strlen(bdev) - 1] = '\0'; /* Sort mountpoints so we don't try to mount /usr/local before /usr */ qsort((void *)mi, MAXPARTITIONS, sizeof(struct mountinfo), micmp); if ((fp = fopen(fstabfile, "w"))) { for (i = 0; i < MAXPARTITIONS; i++) { j = mi[i].partno; fstype = lp->d_partitions[j].p_fstype; if (fstype == FS_SWAP) { fprintf(fp, "%s%c none swap sw\n", bdev, 'a'+j); } else if (mi[i].mountpoint) { fprintf(fp, "%s%c %s %s rw 1 %d\n", bdev, 'a' + j, mi[i].mountpoint, fstypesnames[fstype], j == 0 ? 1 : 2); } } fclose(fp); } } int get_offset(struct disklabel *lp, int partno) { struct diskchunk *chunks; struct partition *pp = &lp->d_partitions[partno]; u_int64_t ui, maxsize; int i, fstype; ui = getuint64(lp, "offset", "Starting sector for this partition.", DL_GETPOFFSET(pp), DL_GETPOFFSET(pp), 0, DO_CONVERSIONS | (pp->p_fstype == FS_BSDFFS ? DO_ROUNDING : 0)); if (ui == ULLONG_MAX - 1) fputs("Command aborted\n", stderr); else if (ui == ULLONG_MAX) fputs("Invalid entry\n", stderr); else if (ui < starting_sector || ui >= ending_sector) fprintf(stderr, "The offset must be >= %llu and < %llu, " "the limits of the OpenBSD portion\n" "of the disk. The 'b' command can change these limits.\n", starting_sector, ending_sector); #ifdef SUN_AAT0 else if (partno == 0 && ui != 0) fprintf(stderr, "This architecture requires that " "partition 'a' start at sector 0.\n"); #endif else { fstype = pp->p_fstype; pp->p_fstype = FS_UNUSED; chunks = free_chunks(lp); pp->p_fstype = fstype; for (i = 0; chunks[i].start != 0 || chunks[i].stop != 0; i++) { if (ui < chunks[i].start || ui >= chunks[i].stop) continue; DL_SETPOFFSET(pp, ui); maxsize = chunks[i].stop - DL_GETPOFFSET(pp); if (DL_GETPSIZE(pp) > maxsize) DL_SETPSIZE(pp, maxsize); return (0); } fputs("The offset must be in a free area.\n", stderr); } /* Partition offset was not set. */ return (1); } int get_size(struct disklabel *lp, int partno) { struct partition *pp = &lp->d_partitions[partno]; u_int64_t maxsize, ui; maxsize = max_partition_size(lp, partno); ui = getuint64(lp, "size", "Size of the partition. " "You may also say +/- amount for a relative change.", DL_GETPSIZE(pp), maxsize, DL_GETPOFFSET(pp), DO_CONVERSIONS | ((pp->p_fstype == FS_BSDFFS || pp->p_fstype == FS_SWAP) ? DO_ROUNDING : 0)); if (ui == ULLONG_MAX - 1) fputs("Command aborted\n", stderr); else if (ui == ULLONG_MAX) fputs("Invalid entry\n", stderr); else if (ui == 0) fputs("The size must be > 0 sectors\n", stderr); else if (ui + DL_GETPOFFSET(pp) > ending_sector) fprintf(stderr, "The size can't be more than " "%llu sectors, or the partition would\n" "extend beyond the last sector (%llu) of the " "OpenBSD portion of\nthe disk. " "The 'b' command can change this limit.\n", ending_sector - DL_GETPOFFSET(pp), ending_sector); else if (ui > maxsize) fprintf(stderr,"Sorry, there are only %llu sectors left\n", maxsize); else { DL_SETPSIZE(pp, ui); return (0); } /* Partition size was not set. */ return (1); } int get_fsize(struct disklabel *lp, int partno) { u_int64_t ui, fsize, frag; struct partition *pp = &lp->d_partitions[partno]; if (!expert || pp->p_fstype != FS_BSDFFS) return (0); fsize = DISKLABELV1_FFS_FSIZE(pp->p_fragblock); frag = DISKLABELV1_FFS_FRAG(pp->p_fragblock); if (fsize == 0) frag = 8; for (;;) { ui = getuint64(lp, "fragment size", "Size of ffs block fragments. A multiple of the disk " "sector-size.", fsize, ULLONG_MAX-2, 0, 0); if (ui == ULLONG_MAX - 1) { fputs("Command aborted\n", stderr); return (1); } else if (ui == ULLONG_MAX) { fputs("Invalid entry\n", stderr); } else if (ui < lp->d_secsize || (ui % lp->d_secsize) != 0) { fprintf(stderr, "Error: fragment size must be a " "multiple of the disk sector size (%d)\n", lp->d_secsize); } else break; } if (ui == 0) puts("Zero fragment size implies zero block size"); pp->p_fragblock = DISKLABELV1_FFS_FRAGBLOCK(ui, frag); return(0); } int get_bsize(struct disklabel *lp, int partno) { u_int64_t adj, ui, bsize, frag, fsize, orig_offset, orig_size; struct partition *pp = &lp->d_partitions[partno]; char *p; if (pp->p_fstype != FS_BSDFFS) return (0); /* Avoid dividing by zero... */ if (pp->p_fragblock == 0) return(1); if (!expert) goto align; fsize = DISKLABELV1_FFS_FSIZE(pp->p_fragblock); frag = DISKLABELV1_FFS_FRAG(pp->p_fragblock); for (;;) { ui = getuint64(lp, "block size", "Size of ffs blocks. A multiple of the ffs fragment size.", fsize * frag, ULLONG_MAX - 2, 0, 0); /* sanity checks */ if (ui == ULLONG_MAX - 1) { fputs("Command aborted\n", stderr); return(1); } else if (ui == ULLONG_MAX) fputs("Invalid entry\n", stderr); else if (ui < getpagesize()) fprintf(stderr, "Error: block size must be at least as big " "as page size (%d).\n", getpagesize()); else if (ui < fsize || (ui % fsize) != 0) fprintf(stderr, "Error: block size must be a multiple " "of the fragment size (%llu).\n", (unsigned long long) fsize); else break; } pp->p_fragblock = DISKLABELV1_FFS_FRAGBLOCK(ui / frag, frag); #ifndef SUN_CYLCHECK p = getstring("Align partition to block size", "Round the partition offset and size to multiples of bsize?", "y"); if (*p == 'n' || *p == 'N') return (0); #endif align: #ifndef SUN_CYLCHECK orig_size = DL_GETPSIZE(pp); orig_offset = DL_GETPOFFSET(pp); bsize = (DISKLABELV1_FFS_FRAG(pp->p_fragblock) * DISKLABELV1_FFS_FSIZE(pp->p_fragblock)) / lp->d_secsize; if (DL_GETPOFFSET(pp) != starting_sector) { /* Can't change offset of first partition. */ adj = bsize - (DL_GETPOFFSET(pp) % bsize); if (adj != 0 && adj != bsize) { DL_SETPOFFSET(pp, DL_GETPOFFSET(pp) + adj); DL_SETPSIZE(pp, DL_GETPSIZE(pp) - adj); } } /* Always align end. */ adj = (DL_GETPOFFSET(pp) + DL_GETPSIZE(pp)) % bsize; if (adj > 0) DL_SETPSIZE(pp, DL_GETPSIZE(pp) - adj); if (orig_offset != DL_GETPOFFSET(pp) && !aflag) printf("Rounding offset to bsize (%llu sectors): %llu\n", bsize, DL_GETPOFFSET(pp)); if (orig_size != DL_GETPSIZE(pp) && !aflag) printf("Rounding size to bsize (%llu sectors): %llu\n", bsize, DL_GETPSIZE(pp)); #endif return(0); } int get_fstype(struct disklabel *lp, int partno) { char *p; u_int64_t ui; struct partition *pp = &lp->d_partitions[partno]; if (pp->p_fstype < FSMAXTYPES) { p = getstring("FS type", "Filesystem type (usually 4.2BSD or swap)", fstypenames[pp->p_fstype]); if (p == NULL) { fputs("Command aborted\n", stderr); return(1); } for (ui = 0; ui < FSMAXTYPES; ui++) { if (!strcasecmp(p, fstypenames[ui])) { pp->p_fstype = ui; break; } } if (ui >= FSMAXTYPES) { printf("Unrecognized filesystem type '%s', treating " "as 'unknown'\n", p); pp->p_fstype = FS_OTHER; } } else { for (;;) { ui = getuint64(lp, "FS type (decimal)", "Filesystem type as a decimal number; usually 7 " "(4.2BSD) or 1 (swap).", pp->p_fstype, pp->p_fstype, 0, 0); if (ui == ULLONG_MAX - 1) { fputs("Command aborted\n", stderr); return(1); } if (ui == ULLONG_MAX) fputs("Invalid entry\n", stderr); else break; } pp->p_fstype = ui; } return(0); } int get_mp(struct disklabel *lp, int partno) { struct partition *pp = &lp->d_partitions[partno]; char *p; int i; if (fstabfile && pp->p_fstype != FS_UNUSED && pp->p_fstype != FS_SWAP && pp->p_fstype != FS_BOOT && pp->p_fstype != FS_OTHER) { for (;;) { p = getstring("mount point", "Where to mount this filesystem (ie: / /var /usr)", mountpoints[partno] ? mountpoints[partno] : "none"); if (p == NULL) { fputs("Command aborted\n", stderr); return(1); } if (strcasecmp(p, "none") == 0) { free(mountpoints[partno]); mountpoints[partno] = NULL; break; } for (i = 0; i < MAXPARTITIONS; i++) if (mountpoints[i] != NULL && i != partno && strcmp(p, mountpoints[i]) == 0) break; if (i < MAXPARTITIONS) { fprintf(stderr, "'%c' already being mounted at " "'%s'\n", 'a'+i, p); break; } if (*p == '/') { /* XXX - might as well realloc */ free(mountpoints[partno]); if ((mountpoints[partno] = strdup(p)) == NULL) errx(4, "out of memory"); break; } fputs("Mount points must start with '/'\n", stderr); } } return(0); } int micmp(const void *a1, const void *a2) { struct mountinfo *mi1 = (struct mountinfo *)a1; struct mountinfo *mi2 = (struct mountinfo *)a2; /* We want all the NULLs at the end... */ if (mi1->mountpoint == NULL && mi2->mountpoint == NULL) return(0); else if (mi1->mountpoint == NULL) return(1); else if (mi2->mountpoint == NULL) return(-1); else return(strcmp(mi1->mountpoint, mi2->mountpoint)); } void get_geometry(int f, struct disklabel **dgpp) { struct stat st; struct disklabel *disk_geop; if (fstat(f, &st) == -1) err(4, "Can't stat device"); /* Get disk geometry */ if ((disk_geop = calloc(1, sizeof(struct disklabel))) == NULL) errx(4, "out of memory"); if (ioctl(f, DIOCGPDINFO, disk_geop) < 0) err(4, "ioctl DIOCGPDINFO"); *dgpp = disk_geop; } void set_geometry(struct disklabel *lp, struct disklabel *dgp, struct disklabel *ugp, char *p) { if (p == NULL) { p = getstring("[d]isk or [u]ser geometry", "Enter 'd' to use the geometry based on what the disk " "itself thinks it is, or 'u' to use the geometry that " "was found in the label.", "d"); } if (p == NULL) { fputs("Command aborted\n", stderr); return; } switch (*p) { case 'd': case 'D': if (dgp == NULL) fputs("BIOS geometry not defined.\n", stderr); else { lp->d_secsize = dgp->d_secsize; lp->d_nsectors = dgp->d_nsectors; lp->d_ntracks = dgp->d_ntracks; lp->d_ncylinders = dgp->d_ncylinders; lp->d_secpercyl = dgp->d_secpercyl; DL_SETDSIZE(lp, DL_GETDSIZE(dgp)); } break; case 'u': case 'U': if (ugp == NULL) fputs("BIOS geometry not defined.\n", stderr); else { lp->d_secsize = ugp->d_secsize; lp->d_nsectors = ugp->d_nsectors; lp->d_ntracks = ugp->d_ntracks; lp->d_ncylinders = ugp->d_ncylinders; lp->d_secpercyl = ugp->d_secpercyl; DL_SETDSIZE(lp, DL_GETDSIZE(ugp)); if (dgp != NULL && ugp->d_secsize == dgp->d_secsize && ugp->d_nsectors == dgp->d_nsectors && ugp->d_ntracks == dgp->d_ntracks && ugp->d_ncylinders == dgp->d_ncylinders && ugp->d_secpercyl == dgp->d_secpercyl && DL_GETDSIZE(ugp) == DL_GETDSIZE(dgp)) fputs("Note: user geometry is the same as disk " "geometry.\n", stderr); } break; default: fputs("You must enter either 'd' or 'u'.\n", stderr); break; } } void zero_partitions(struct disklabel *lp) { int i; for (i = 0; i < MAXPARTITIONS; i++) { memset(&lp->d_partitions[i], 0, sizeof(struct partition)); free(mountpoints[i]); mountpoints[i] = NULL; } DL_SETPSIZE(&lp->d_partitions[RAW_PART], DL_GETDSIZE(lp)); } u_int64_t max_partition_size(struct disklabel *lp, int partno) { struct partition *pp = &lp->d_partitions[partno]; struct diskchunk *chunks; u_int64_t maxsize = 0, offset; int fstype, i; fstype = pp->p_fstype; pp->p_fstype = FS_UNUSED; chunks = free_chunks(lp); pp->p_fstype = fstype; offset = DL_GETPOFFSET(pp); for (i = 0; chunks[i].start != 0 || chunks[i].stop != 0; i++) { if (offset < chunks[i].start || offset >= chunks[i].stop) continue; maxsize = chunks[i].stop - offset; break; } return (maxsize); } void psize(daddr64_t sz, char unit, struct disklabel *lp) { double d = scale(sz, unit, lp); if (d < 0) printf("%llu", sz); else printf("%.*f%c", unit == 'B' ? 0 : 1, d, unit); } void display_edit(struct disklabel *lp, char unit, u_int64_t fr) { int i; unit = canonical_unit(lp, unit); printf("OpenBSD area: "); psize(starting_sector, 0, lp); printf("-"); psize(ending_sector, 0, lp); printf("; size: "); psize(ending_sector - starting_sector, unit, lp); printf("; free: "); psize(fr, unit, lp); printf("\n# %16.16s %16.16s fstype [fsize bsize cpg]\n", "size", "offset"); for (i = 0; i < lp->d_npartitions; i++) display_partition(stdout, lp, i, unit); }