/* * ---------------------------------------------------------------------------- * "THE BEER-WARE LICENSE" (Revision 42): * wrote this file. As long as you retain this notice you * can do whatever you want with this stuff. If we meet some day, and you think * this stuff is worth it, you can buy me a beer in return. Poul-Henning Kamp * ---------------------------------------------------------------------------- */ #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "libdisk.h" #include #include #include #include #ifdef DEBUG #define DPRINT(x) warn x #define DPRINTX(x) warnx x #else #define DPRINT(x) #define DPRINTX(x) #endif const enum platform platform = #if defined (P_DEBUG) P_DEBUG #elif defined (PC98) p_pc98 #elif defined(__i386__) p_i386 #elif defined(__alpha__) p_alpha #elif defined(__sparc64__) p_sparc64 #elif defined(__ia64__) p_ia64 #elif defined(__ppc__) p_ppc #elif defined(__amd64__) p_amd64 #else IHAVENOIDEA #endif ; const char * chunk_name(chunk_e type) { switch(type) { case unused: return ("unused"); case mbr: return ("mbr"); case part: return ("part"); case gpt: return ("gpt"); case pc98: return ("pc98"); case sun: return ("sun"); case freebsd: return ("freebsd"); case fat: return ("fat"); case spare: return ("spare"); case efi: return ("efi"); default: return ("??"); } }; static chunk_e uuid_type(uuid_t *uuid) { static uuid_t _efi = GPT_ENT_TYPE_EFI; static uuid_t _mbr = GPT_ENT_TYPE_MBR; static uuid_t _fbsd = GPT_ENT_TYPE_FREEBSD; static uuid_t _swap = GPT_ENT_TYPE_FREEBSD_SWAP; static uuid_t _ufs = GPT_ENT_TYPE_FREEBSD_UFS; static uuid_t _vinum = GPT_ENT_TYPE_FREEBSD_VINUM; if (uuid_is_nil(uuid, NULL)) return (unused); if (uuid_equal(uuid, &_efi, NULL)) return (efi); if (uuid_equal(uuid, &_mbr, NULL)) return (mbr); if (uuid_equal(uuid, &_fbsd, NULL)) return (freebsd); if (uuid_equal(uuid, &_swap, NULL)) return (part); if (uuid_equal(uuid, &_ufs, NULL)) return (part); if (uuid_equal(uuid, &_vinum, NULL)) return (part); return (spare); } struct disk * Open_Disk(const char *name) { return Int_Open_Disk(name); } struct disk * Int_Open_Disk(const char *name) { uuid_t uuid; char *conftxt = NULL; struct disk *d; size_t txtsize; int error, i; char *p, *q, *r, *a, *b, *n, *t, *sn; off_t o, len, off; u_int l, s, ty, sc, hd, alt; off_t lo[10]; error = sysctlbyname("kern.geom.conftxt", NULL, &txtsize, NULL, 0); if (error) { warn("kern.geom.conftxt sysctl not available, giving up!"); return (NULL); } conftxt = (char *) malloc(txtsize+1); if (conftxt == NULL) { DPRINT(("cannot malloc memory for conftxt")); return (NULL); } error = sysctlbyname("kern.geom.conftxt", conftxt, &txtsize, NULL, 0); if (error) { DPRINT(("error reading kern.geom.conftxt from the system")); free(conftxt); return (NULL); } conftxt[txtsize] = '\0'; /* in case kernel bug is still there */ for (p = conftxt; p != NULL && *p; p = strchr(p, '\n')) { if (*p == '\n') p++; a = strsep(&p, " "); if (strcmp(a, "0")) continue; a = strsep(&p, " "); if (strcmp(a, "DISK")) continue; a = strsep(&p, " "); if (strcmp(a, name)) continue; break; } q = strchr(p, '\n'); if (q != NULL) *q++ = '\0'; d = (struct disk *)calloc(sizeof *d, 1); if(d == NULL) return NULL; d->name = strdup(name); a = strsep(&p, " "); /* length in bytes */ len = strtoimax(a, &r, 0); if (*r) { printf("BARF %d <%d>\n", __LINE__, *r); exit (0); } a = strsep(&p, " "); /* sectorsize */ s = strtoul(a, &r, 0); if (*r) { printf("BARF %d <%d>\n", __LINE__, *r); exit (0); } if (s == 0) return (NULL); d->sector_size = s; len /= s; /* media size in number of sectors. */ if (Add_Chunk(d, 0, len, name, whole, 0, 0, "-")) DPRINT(("Failed to add 'whole' chunk")); for (;;) { a = strsep(&p, " "); if (a == NULL) break; b = strsep(&p, " "); o = strtoul(b, &r, 0); if (*r) { printf("BARF %d <%d>\n", __LINE__, *r); exit (0); } if (!strcmp(a, "hd")) d->bios_hd = o; else if (!strcmp(a, "sc")) d->bios_sect = o; else printf("HUH ? <%s> <%s>\n", a, b); } /* * Calculate the number of cylinders this disk must have. If we have * an obvious insanity, we set the number of cyclinders to zero. */ o = d->bios_hd * d->bios_sect; d->bios_cyl = (o != 0) ? len / o : 0; p = q; lo[0] = 0; for (; p != NULL && *p; p = q) { q = strchr(p, '\n'); if (q != NULL) *q++ = '\0'; a = strsep(&p, " "); /* Index */ if (!strcmp(a, "0")) break; l = strtoimax(a, &r, 0); if (*r) { printf("BARF %d <%d>\n", __LINE__, *r); exit (0); } t = strsep(&p, " "); /* Type {SUN, BSD, MBR, PC98, GPT} */ n = strsep(&p, " "); /* name */ a = strsep(&p, " "); /* len */ len = strtoimax(a, &r, 0); if (*r) { printf("BARF %d <%d>\n", __LINE__, *r); exit (0); } a = strsep(&p, " "); /* secsize */ s = strtoimax(a, &r, 0); if (*r) { printf("BARF %d <%d>\n", __LINE__, *r); exit (0); } for (;;) { a = strsep(&p, " "); if (a == NULL) break; /* XXX: Slice name may include a space. */ if (!strcmp(a, "sn")) { sn = p; break; } b = strsep(&p, " "); o = strtoimax(b, &r, 0); if (*r) { uint32_t status; uuid_from_string(b, &uuid, &status); if (status != uuid_s_ok) { printf("BARF %d <%d>\n", __LINE__, *r); exit (0); } o = uuid_type(&uuid); } if (!strcmp(a, "o")) off = o; else if (!strcmp(a, "i")) i = o; else if (!strcmp(a, "ty")) ty = o; else if (!strcmp(a, "sc")) sc = o; else if (!strcmp(a, "hd")) hd = o; else if (!strcmp(a, "alt")) alt = o; } /* PLATFORM POLICY BEGIN ----------------------------------- */ if (platform == p_sparc64 && !strcmp(t, "SUN") && i == 2) continue; if (platform == p_sparc64 && !strcmp(t, "SUN") && d->chunks->part->part == NULL) { d->bios_hd = hd; d->bios_sect = sc; o = d->chunks->size / (hd * sc); o *= (hd * sc); o -= alt * hd * sc; if (Add_Chunk(d, 0, o, name, freebsd, 0, 0, "-")) DPRINT(("Failed to add 'freebsd' chunk")); } if (platform == p_alpha && !strcmp(t, "BSD") && d->chunks->part->part == NULL) { if (Add_Chunk(d, 0, d->chunks->size, name, freebsd, 0, 0, "-")) DPRINT(("Failed to add 'freebsd' chunk")); } if (!strcmp(t, "BSD") && i == RAW_PART) continue; /* PLATFORM POLICY END ------------------------------------- */ off /= s; len /= s; off += lo[l - 1]; lo[l] = off; if (!strcmp(t, "SUN")) i = Add_Chunk(d, off, len, n, part, 0, 0, 0); else if (!strncmp(t, "MBR", 3)) { switch (ty) { case 0xa5: i = Add_Chunk(d, off, len, n, freebsd, ty, 0, 0); break; case 0x01: case 0x04: case 0x06: case 0x0b: case 0x0c: case 0x0e: i = Add_Chunk(d, off, len, n, fat, ty, 0, 0); break; case 0xef: /* EFI */ i = Add_Chunk(d, off, len, n, efi, ty, 0, 0); break; default: i = Add_Chunk(d, off, len, n, mbr, ty, 0, 0); break; } } else if (!strcmp(t, "BSD")) i = Add_Chunk(d, off, len, n, part, ty, 0, 0); else if (!strcmp(t, "PC98")) { switch (ty & 0x7f) { case 0x14: i = Add_Chunk(d, off, len, n, freebsd, ty, 0, sn); break; case 0x20: case 0x21: case 0x22: case 0x23: case 0x24: i = Add_Chunk(d, off, len, n, fat, ty, 0, sn); break; default: i = Add_Chunk(d, off, len, n, pc98, ty, 0, sn); break; } } else if (!strcmp(t, "GPT")) i = Add_Chunk(d, off, len, n, ty, 0, 0, 0); else if (!strcmp(t, "BDE")) ; /* nothing */ else { printf("BARF %d\n", __LINE__); exit(0); } } /* PLATFORM POLICY BEGIN ------------------------------------- */ /* We have a chance to do things on a blank disk here */ if (platform == p_sparc64 && d->chunks->part->part == NULL) { hd = d->bios_hd; sc = d->bios_sect; o = d->chunks->size / (hd * sc); o *= (hd * sc); o -= 2 * hd * sc; if (Add_Chunk(d, 0, o, name, freebsd, 0, 0, "-")) DPRINT(("Failed to add 'freebsd' chunk")); } /* PLATFORM POLICY END --------------------------------------- */ return (d); i = 0; } void Debug_Disk(struct disk *d) { printf("Debug_Disk(%s)", d->name); #if 0 printf(" real_geom=%lu/%lu/%lu", d->real_cyl, d->real_hd, d->real_sect); #endif printf(" bios_geom=%lu/%lu/%lu = %lu\n", d->bios_cyl, d->bios_hd, d->bios_sect, d->bios_cyl * d->bios_hd * d->bios_sect); #if defined(PC98) printf(" boot1=%p, boot2=%p, bootipl=%p, bootmenu=%p\n", d->boot1, d->boot2, d->bootipl, d->bootmenu); #elif defined(__i386__) || defined(__amd64__) printf(" boot1=%p, boot2=%p, bootmgr=%p\n", d->boot1, d->boot2, d->bootmgr); #elif defined(__alpha__) printf(" boot1=%p, bootmgr=%p\n", d->boot1, d->bootmgr); #elif defined(__ia64__) printf("\n"); #else /* Should be: error "Debug_Disk: unknown arch"; */ #endif Debug_Chunk(d->chunks); } void Free_Disk(struct disk *d) { if (d->chunks) Free_Chunk(d->chunks); if (d->name) free(d->name); #ifdef PC98 if (d->bootipl) free(d->bootipl); if (d->bootmenu) free(d->bootmenu); #else #if !defined(__ia64__) if (d->bootmgr) free(d->bootmgr); #endif #endif #if !defined(__ia64__) if (d->boot1) free(d->boot1); #endif #if defined(__i386__) || defined(__amd64__) if (d->boot2) free(d->boot2); #endif free(d); } #if 0 void Collapse_Disk(struct disk *d) { while (Collapse_Chunk(d, d->chunks)) ; } #endif static int qstrcmp(const void* a, const void* b) { char *str1 = *(char**)a; char *str2 = *(char**)b; return strcmp(str1, str2); } char ** Disk_Names() { int disk_cnt; static char **disks; int error; size_t listsize; char *disklist; error = sysctlbyname("kern.disks", NULL, &listsize, NULL, 0); if (error) { warn("kern.disks sysctl not available"); return NULL; } disks = malloc(sizeof *disks * (1 + MAX_NO_DISKS)); if (disks == NULL) return NULL; disklist = (char *)malloc(listsize + 1); if (disklist == NULL) { free(disks); return NULL; } memset(disks,0,sizeof *disks * (1 + MAX_NO_DISKS)); memset(disklist, 0, listsize + 1); error = sysctlbyname("kern.disks", disklist, &listsize, NULL, 0); if (error) { free(disklist); free(disks); return NULL; } for (disk_cnt = 0; disk_cnt < MAX_NO_DISKS; disk_cnt++) { disks[disk_cnt] = strsep(&disklist, " "); if (disks[disk_cnt] == NULL) break; } qsort(disks, disk_cnt, sizeof(char*), qstrcmp); return disks; } #ifdef PC98 void Set_Boot_Mgr(struct disk *d, const u_char *bootipl, const size_t bootipl_size, const u_char *bootmenu, const size_t bootmenu_size) #else void Set_Boot_Mgr(struct disk *d, const u_char *b, const size_t s) #endif { #if !defined(__ia64__) #ifdef PC98 if (d->sector_size == 0) return; if (bootipl_size % d->sector_size != 0) return; if (d->bootipl) free(d->bootipl); if (!bootipl) { d->bootipl = NULL; } else { d->bootipl_size = bootipl_size; d->bootipl = malloc(bootipl_size); if (!d->bootipl) return; memcpy(d->bootipl, bootipl, bootipl_size); } if (bootmenu_size % d->sector_size != 0) return; if (d->bootmenu) free(d->bootmenu); if (!bootmenu) { d->bootmenu = NULL; } else { d->bootmenu_size = bootmenu_size; d->bootmenu = malloc(bootmenu_size); if (!d->bootmenu) return; memcpy(d->bootmenu, bootmenu, bootmenu_size); } #else if (d->sector_size == 0) return; if (s % d->sector_size != 0) return; if (d->bootmgr) free(d->bootmgr); if (!b) { d->bootmgr = NULL; } else { d->bootmgr_size = s; d->bootmgr = malloc(s); if (!d->bootmgr) return; memcpy(d->bootmgr, b, s); } #endif #endif } int Set_Boot_Blocks(struct disk *d, const u_char *b1, const u_char *b2) { #if defined(__i386__) || defined(__amd64__) if (d->boot1) free(d->boot1); d->boot1 = malloc(512); if (!d->boot1) return -1; memcpy(d->boot1, b1, 512); if (d->boot2) free(d->boot2); d->boot2 = malloc(15 * 512); if (!d->boot2) return -1; memcpy(d->boot2, b2, 15 * 512); #elif defined(__alpha__) if (d->boot1) free(d->boot1); d->boot1 = malloc(15 * 512); if (!d->boot1) return -1; memcpy(d->boot1, b1, 15 * 512); #elif defined(__sparc64__) if (d->boot1 != NULL) free(d->boot1); d->boot1 = malloc(16 * 512); if (d->boot1 == NULL) return (-1); memcpy(d->boot1, b1, 16 * 512); #elif defined(__ia64__) /* nothing */ #else /* Should be: #error "Set_Boot_Blocks: unknown arch"; */ #endif return 0; } #ifdef PC98 const char * slice_type_name( int type, int subtype ) { switch (type) { case whole: return "whole"; case fat: return "fat"; case freebsd: switch (subtype) { case 0xc494: return "freebsd"; default: return "unknown"; } case unused: return "unused"; default: return "unknown"; } } #else /* PC98 */ const char * slice_type_name( int type, int subtype ) { switch (type) { case whole: return "whole"; case mbr: switch (subtype) { case 1: return "fat (12-bit)"; case 2: return "XENIX /"; case 3: return "XENIX /usr"; case 4: return "fat (16-bit,<=32Mb)"; case 5: return "extended DOS"; case 6: return "fat (16-bit,>32Mb)"; case 7: return "NTFS/HPFS/QNX"; case 8: return "AIX bootable"; case 9: return "AIX data"; case 10: return "OS/2 bootmgr"; case 11: return "fat (32-bit)"; case 12: return "fat (32-bit,LBA)"; case 14: return "fat (16-bit,>32Mb,LBA)"; case 15: return "extended DOS, LBA"; case 18: return "Compaq Diagnostic"; case 84: return "OnTrack diskmgr"; case 100: return "Netware 2.x"; case 101: return "Netware 3.x"; case 115: return "SCO UnixWare"; case 128: return "Minix 1.1"; case 129: return "Minix 1.5"; case 130: return "linux_swap"; case 131: return "ext2fs"; case 166: return "OpenBSD FFS"; /* 0xA6 */ case 169: return "NetBSD FFS"; /* 0xA9 */ case 182: return "OpenBSD"; /* dedicated */ case 183: return "bsd/os"; case 184: return "bsd/os swap"; case 238: return "EFI GPT"; case 239: return "EFI Sys. Part."; default: return "unknown"; } case fat: return "fat"; case freebsd: switch (subtype) { case 165: return "freebsd"; default: return "unknown"; } case extended: return "extended"; case part: return "part"; case efi: return "efi"; case unused: return "unused"; default: return "unknown"; } } #endif /* PC98 */