/* * GRUB -- GRand Unified Bootloader * Copyright (C) 2006,2007,2008,2009,2011 Free Software Foundation, Inc. * * GRUB is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * GRUB is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GRUB. If not, see . */ #include #include #include #include #include #include #include #include #ifdef GRUB_UTIL #include #include #endif GRUB_MOD_LICENSE ("GPLv3+"); #define LDM_GUID_STRLEN 64 #define LDM_NAME_STRLEN 32 typedef grub_uint8_t *grub_ldm_id_t; enum { STRIPE = 1, SPANNED = 2, RAID5 = 3 }; #define LDM_LABEL_SECTOR 6 struct grub_ldm_vblk { char magic[4]; grub_uint8_t unused1[12]; grub_uint16_t update_status; grub_uint8_t flags; grub_uint8_t type; grub_uint32_t unused2; grub_uint8_t dynamic[104]; } __attribute__ ((packed)); #define LDM_VBLK_MAGIC "VBLK" enum { STATUS_CONSISTENT = 0, STATUS_STILL_ACTIVE = 1, STATUS_NOT_ACTIVE_YET = 2 }; enum { ENTRY_COMPONENT = 0x32, ENTRY_PARTITION = 0x33, ENTRY_DISK = 0x34, ENTRY_VOLUME = 0x51, }; struct grub_ldm_label { char magic[8]; grub_uint32_t unused1; grub_uint16_t ver_major; grub_uint16_t ver_minor; grub_uint8_t unused2[32]; char disk_guid[LDM_GUID_STRLEN]; char host_guid[LDM_GUID_STRLEN]; char group_guid[LDM_GUID_STRLEN]; char group_name[LDM_NAME_STRLEN]; grub_uint8_t unused3[11]; grub_uint64_t pv_start; grub_uint64_t pv_size; grub_uint64_t config_start; grub_uint64_t config_size; } __attribute__ ((packed)); #define LDM_MAGIC "PRIVHEAD" static inline grub_uint64_t read_int (grub_uint8_t *in, grub_size_t s) { grub_uint8_t *ptr2; grub_uint64_t ret; ret = 0; for (ptr2 = in; ptr2 < in + s; ptr2++) { ret <<= 8; ret |= *ptr2; } return ret; } static const grub_gpt_part_type_t ldm_type = GRUB_GPT_PARTITION_TYPE_LDM; static grub_disk_addr_t gpt_ldm_sector (grub_disk_t dsk) { grub_disk_addr_t sector = 0; grub_err_t err; auto int hook (grub_disk_t disk, const grub_partition_t p); int hook (grub_disk_t disk, const grub_partition_t p) { struct grub_gpt_partentry gptdata; grub_partition_t p2; p2 = disk->partition; disk->partition = p->parent; if (grub_disk_read (disk, p->offset, p->index, sizeof (gptdata), &gptdata)) { disk->partition = p2; return 0; } disk->partition = p2; if (! grub_memcmp (&gptdata.type, &ldm_type, 16)) { sector = p->start + p->len - 1; return 1; } return 0; } err = grub_gpt_partition_map_iterate (dsk, hook); if (err) { grub_errno = GRUB_ERR_NONE; return 0; } return sector; } static struct grub_diskfilter_vg * make_vg (grub_disk_t disk, const struct grub_ldm_label *label) { grub_disk_addr_t startsec, endsec, cursec; struct grub_diskfilter_vg *vg; grub_err_t err; /* First time we see this volume group. We've to create the whole volume group structure. */ vg = grub_malloc (sizeof (*vg)); if (! vg) return NULL; vg->extent_size = 1; vg->name = grub_malloc (LDM_NAME_STRLEN + 1); vg->uuid = grub_malloc (LDM_GUID_STRLEN + 1); if (! vg->uuid || !vg->name) { grub_free (vg->uuid); grub_free (vg->name); return NULL; } grub_memcpy (vg->uuid, label->group_guid, LDM_GUID_STRLEN); grub_memcpy (vg->name, label->group_name, LDM_NAME_STRLEN); vg->name[LDM_NAME_STRLEN] = 0; vg->uuid[LDM_GUID_STRLEN] = 0; vg->uuid_len = grub_strlen (vg->uuid); vg->lvs = NULL; vg->pvs = NULL; startsec = grub_be_to_cpu64 (label->config_start); endsec = startsec + grub_be_to_cpu64 (label->config_size); /* First find disks. */ for (cursec = startsec + 0x12; cursec < endsec; cursec++) { struct grub_ldm_vblk vblk[GRUB_DISK_SECTOR_SIZE / sizeof (struct grub_ldm_vblk)]; unsigned i; err = grub_disk_read (disk, cursec, 0, sizeof(vblk), &vblk); if (err) goto fail2; for (i = 0; i < ARRAY_SIZE (vblk); i++) { struct grub_diskfilter_pv *pv; grub_uint8_t *ptr; if (grub_memcmp (vblk[i].magic, LDM_VBLK_MAGIC, sizeof (vblk[i].magic)) != 0) continue; if (grub_be_to_cpu16 (vblk[i].update_status) != STATUS_CONSISTENT && grub_be_to_cpu16 (vblk[i].update_status) != STATUS_STILL_ACTIVE) continue; if (vblk[i].type != ENTRY_DISK) continue; pv = grub_zalloc (sizeof (*pv)); if (!pv) goto fail2; pv->disk = 0; ptr = vblk[i].dynamic; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (pv); goto fail2; } pv->internal_id = grub_malloc (ptr[0] + 2); if (!pv->internal_id) { grub_free (pv); goto fail2; } grub_memcpy (pv->internal_id, ptr, (grub_size_t) ptr[0] + 1); pv->internal_id[(grub_size_t) ptr[0] + 1] = 0; ptr += *ptr + 1; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (pv); goto fail2; } /* ptr = name. */ ptr += *ptr + 1; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (pv); goto fail2; } pv->id.uuidlen = *ptr; pv->id.uuid = grub_malloc (pv->id.uuidlen + 1); grub_memcpy (pv->id.uuid, ptr + 1, pv->id.uuidlen); pv->id.uuid[pv->id.uuidlen] = 0; pv->next = vg->pvs; vg->pvs = pv; } } /* Then find LVs. */ for (cursec = startsec + 0x12; cursec < endsec; cursec++) { struct grub_ldm_vblk vblk[GRUB_DISK_SECTOR_SIZE / sizeof (struct grub_ldm_vblk)]; unsigned i; err = grub_disk_read (disk, cursec, 0, sizeof(vblk), &vblk); if (err) goto fail2; for (i = 0; i < ARRAY_SIZE (vblk); i++) { struct grub_diskfilter_lv *lv; grub_uint8_t *ptr; if (grub_memcmp (vblk[i].magic, LDM_VBLK_MAGIC, sizeof (vblk[i].magic)) != 0) continue; if (grub_be_to_cpu16 (vblk[i].update_status) != STATUS_CONSISTENT && grub_be_to_cpu16 (vblk[i].update_status) != STATUS_STILL_ACTIVE) continue; if (vblk[i].type != ENTRY_VOLUME) continue; lv = grub_zalloc (sizeof (*lv)); if (!lv) goto fail2; lv->vg = vg; lv->segment_count = 1; lv->segment_alloc = 1; lv->visible = 1; lv->segments = grub_zalloc (sizeof (*lv->segments)); if (!lv->segments) goto fail2; lv->segments->start_extent = 0; lv->segments->type = GRUB_DISKFILTER_MIRROR; lv->segments->node_count = 0; lv->segments->node_alloc = 8; lv->segments->nodes = grub_zalloc (sizeof (*lv->segments->nodes) * lv->segments->node_alloc); if (!lv->segments->nodes) goto fail2; ptr = vblk[i].dynamic; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (lv); goto fail2; } lv->internal_id = grub_malloc ((grub_size_t) ptr[0] + 2); if (!lv->internal_id) { grub_free (lv); goto fail2; } grub_memcpy (lv->internal_id, ptr, ptr[0] + 1); lv->internal_id[ptr[0] + 1] = 0; ptr += *ptr + 1; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (lv); goto fail2; } lv->name = grub_malloc (*ptr + 1); if (!lv->name) { grub_free (lv->internal_id); grub_free (lv); goto fail2; } grub_memcpy (lv->name, ptr + 1, *ptr); lv->name[*ptr] = 0; lv->fullname = grub_xasprintf ("ldm/%s/%s", vg->uuid, lv->name); if (!lv->fullname) { grub_free (lv->internal_id); grub_free (lv->name); grub_free (lv); goto fail2; } ptr += *ptr + 1; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (lv->internal_id); grub_free (lv->name); grub_free (lv); goto fail2; } /* ptr = volume type. */ ptr += *ptr + 1; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (lv->internal_id); grub_free (lv->name); grub_free (lv); goto fail2; } /* ptr = flags. */ ptr += *ptr + 1; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (lv->internal_id); grub_free (lv->name); grub_free (lv); goto fail2; } /* Skip state, type, unknown, volume number, zeros, flags. */ ptr += 14 + 1 + 1 + 1 + 3 + 1; /* ptr = number of children. */ if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (lv->internal_id); grub_free (lv->name); grub_free (lv); goto fail2; } ptr += *ptr + 1; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (lv->internal_id); grub_free (lv->name); grub_free (lv); goto fail2; } /* Skip 2 more fields. */ ptr += 8 + 8; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic) || ptr + *ptr + 1>= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (lv->internal_id); grub_free (lv->name); grub_free (lv); goto fail2; } lv->size = read_int (ptr + 1, *ptr); lv->segments->extent_count = lv->size; lv->next = vg->lvs; vg->lvs = lv; } } /* Now the components. */ for (cursec = startsec + 0x12; cursec < endsec; cursec++) { struct grub_ldm_vblk vblk[GRUB_DISK_SECTOR_SIZE / sizeof (struct grub_ldm_vblk)]; unsigned i; err = grub_disk_read (disk, cursec, 0, sizeof(vblk), &vblk); if (err) goto fail2; for (i = 0; i < ARRAY_SIZE (vblk); i++) { struct grub_diskfilter_lv *comp; struct grub_diskfilter_lv *lv; grub_uint8_t type; grub_uint8_t *ptr; if (grub_memcmp (vblk[i].magic, LDM_VBLK_MAGIC, sizeof (vblk[i].magic)) != 0) continue; if (grub_be_to_cpu16 (vblk[i].update_status) != STATUS_CONSISTENT && grub_be_to_cpu16 (vblk[i].update_status) != STATUS_STILL_ACTIVE) continue; if (vblk[i].type != ENTRY_COMPONENT) continue; comp = grub_zalloc (sizeof (*comp)); if (!comp) goto fail2; comp->visible = 0; comp->name = 0; comp->fullname = 0; ptr = vblk[i].dynamic; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { goto fail2; } comp->internal_id = grub_malloc ((grub_size_t) ptr[0] + 2); if (!comp->internal_id) { grub_free (comp); goto fail2; } grub_memcpy (comp->internal_id, ptr, ptr[0] + 1); comp->internal_id[ptr[0] + 1] = 0; ptr += *ptr + 1; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (comp->internal_id); grub_free (comp); goto fail2; } /* ptr = name. */ ptr += *ptr + 1; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (comp->internal_id); grub_free (comp); goto fail2; } /* ptr = state. */ ptr += *ptr + 1; type = *ptr++; /* skip zeros. */ ptr += 4; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (comp->internal_id); grub_free (comp); goto fail2; } /* ptr = number of children. */ ptr += *ptr + 1; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (comp->internal_id); grub_free (comp); goto fail2; } ptr += 8 + 8; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (comp->internal_id); grub_free (comp); goto fail2; } for (lv = vg->lvs; lv; lv = lv->next) { if (lv->internal_id[0] == ptr[0] && grub_memcmp (lv->internal_id + 1, ptr + 1, ptr[0]) == 0) break; } if (!lv) { grub_free (comp->internal_id); grub_free (comp); continue; } comp->size = lv->size; if (type == SPANNED) { comp->segment_alloc = 8; comp->segment_count = 0; comp->segments = grub_malloc (sizeof (*comp->segments) * comp->segment_alloc); if (!comp->segments) goto fail2; } else { comp->segment_alloc = 1; comp->segment_count = 1; comp->segments = grub_malloc (sizeof (*comp->segments)); if (!comp->segments) goto fail2; comp->segments->start_extent = 0; comp->segments->extent_count = lv->size; comp->segments->layout = 0; if (type == STRIPE) comp->segments->type = GRUB_DISKFILTER_STRIPED; else if (type == RAID5) { comp->segments->type = GRUB_DISKFILTER_RAID5; comp->segments->layout = GRUB_RAID_LAYOUT_SYMMETRIC_MASK; } else goto fail2; ptr += *ptr + 1; ptr++; if (!(vblk[i].flags & 0x10)) goto fail2; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic) || ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (comp->internal_id); grub_free (comp); goto fail2; } comp->segments->stripe_size = read_int (ptr + 1, *ptr); ptr += *ptr + 1; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { grub_free (comp->internal_id); grub_free (comp); goto fail2; } comp->segments->node_count = read_int (ptr + 1, *ptr); comp->segments->node_alloc = comp->segments->node_count; comp->segments->nodes = grub_zalloc (sizeof (*comp->segments->nodes) * comp->segments->node_alloc); if (!lv->segments->nodes) goto fail2; } if (lv->segments->node_alloc == lv->segments->node_count) { void *t; lv->segments->node_alloc *= 2; t = grub_realloc (lv->segments->nodes, sizeof (*lv->segments->nodes) * lv->segments->node_alloc); if (!t) goto fail2; lv->segments->nodes = t; } lv->segments->nodes[lv->segments->node_count].pv = 0; lv->segments->nodes[lv->segments->node_count].start = 0; lv->segments->nodes[lv->segments->node_count++].lv = comp; comp->next = vg->lvs; vg->lvs = comp; } } /* Partitions. */ for (cursec = startsec + 0x12; cursec < endsec; cursec++) { struct grub_ldm_vblk vblk[GRUB_DISK_SECTOR_SIZE / sizeof (struct grub_ldm_vblk)]; unsigned i; err = grub_disk_read (disk, cursec, 0, sizeof(vblk), &vblk); if (err) goto fail2; for (i = 0; i < ARRAY_SIZE (vblk); i++) { struct grub_diskfilter_lv *comp; struct grub_diskfilter_node part; grub_disk_addr_t start, size; grub_uint8_t *ptr; part.name = 0; if (grub_memcmp (vblk[i].magic, LDM_VBLK_MAGIC, sizeof (vblk[i].magic)) != 0) continue; if (grub_be_to_cpu16 (vblk[i].update_status) != STATUS_CONSISTENT && grub_be_to_cpu16 (vblk[i].update_status) != STATUS_STILL_ACTIVE) continue; if (vblk[i].type != ENTRY_PARTITION) continue; part.lv = 0; part.pv = 0; ptr = vblk[i].dynamic; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { goto fail2; } /* ID */ ptr += *ptr + 1; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { goto fail2; } /* ptr = name. */ ptr += *ptr + 1; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { goto fail2; } /* skip zeros and logcommit id. */ ptr += 4 + 8; if (ptr + 16 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { goto fail2; } part.start = read_int (ptr, 8); start = read_int (ptr + 8, 8); ptr += 16; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic) || ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { goto fail2; } size = read_int (ptr + 1, *ptr); ptr += *ptr + 1; if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic) || ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { goto fail2; } for (comp = vg->lvs; comp; comp = comp->next) if (comp->internal_id[0] == ptr[0] && grub_memcmp (ptr + 1, comp->internal_id + 1, comp->internal_id[0]) == 0) goto out; continue; out: if (ptr >= vblk[i].dynamic + sizeof (vblk[i].dynamic) || ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { goto fail2; } ptr += *ptr + 1; struct grub_diskfilter_pv *pv; for (pv = vg->pvs; pv; pv = pv->next) if (pv->internal_id[0] == ptr[0] && grub_memcmp (pv->internal_id + 1, ptr + 1, ptr[0]) == 0) part.pv = pv; if (comp->segment_alloc == 1) { unsigned index; ptr += *ptr + 1; if (ptr + *ptr + 1 >= vblk[i].dynamic + sizeof (vblk[i].dynamic)) { goto fail2; } index = read_int (ptr + 1, *ptr); if (index < comp->segments->node_count) comp->segments->nodes[index] = part; } else { if (comp->segment_alloc == comp->segment_count) { void *t; comp->segment_alloc *= 2; t = grub_realloc (comp->segments, comp->segment_alloc * sizeof (*comp->segments)); if (!t) goto fail2; comp->segments = t; } comp->segments[comp->segment_count].start_extent = start; comp->segments[comp->segment_count].extent_count = size; comp->segments[comp->segment_count].type = GRUB_DISKFILTER_STRIPED; comp->segments[comp->segment_count].node_count = 1; comp->segments[comp->segment_count].node_alloc = 1; comp->segments[comp->segment_count].nodes = grub_malloc (sizeof (*comp->segments[comp->segment_count].nodes)); if (!comp->segments[comp->segment_count].nodes) goto fail2; comp->segments[comp->segment_count].nodes[0] = part; comp->segment_count++; } } } if (grub_diskfilter_vg_register (vg)) goto fail2; return vg; fail2: { struct grub_diskfilter_lv *lv, *next_lv; struct grub_diskfilter_pv *pv, *next_pv; for (lv = vg->lvs; lv; lv = next_lv) { unsigned i; for (i = 0; i < lv->segment_count; i++) grub_free (lv->segments[i].nodes); next_lv = lv->next; grub_free (lv->segments); grub_free (lv->internal_id); grub_free (lv->name); grub_free (lv->fullname); grub_free (lv); } for (pv = vg->pvs; pv; pv = next_pv) { next_pv = pv->next; grub_free (pv->id.uuid); grub_free (pv); } } grub_free (vg->uuid); grub_free (vg); return NULL; } static struct grub_diskfilter_vg * grub_ldm_detect (grub_disk_t disk, struct grub_diskfilter_pv_id *id, grub_disk_addr_t *start_sector) { grub_err_t err; struct grub_ldm_label label; struct grub_diskfilter_vg *vg; #ifdef GRUB_UTIL grub_util_info ("scanning %s for LDM", disk->name); #endif { int i; for (i = 0; i < 3; i++) { grub_disk_addr_t sector = LDM_LABEL_SECTOR; switch (i) { case 0: sector = LDM_LABEL_SECTOR; break; case 1: /* LDM is never inside a partition. */ if (disk->partition) continue; sector = grub_disk_get_size (disk); if (sector == GRUB_DISK_SIZE_UNKNOWN) continue; sector--; break; /* FIXME: try the third copy. */ case 2: sector = gpt_ldm_sector (disk); if (!sector) continue; break; } err = grub_disk_read (disk, sector, 0, sizeof(label), &label); if (err) return NULL; if (grub_memcmp (label.magic, LDM_MAGIC, sizeof (label.magic)) == 0 && grub_be_to_cpu16 (label.ver_major) == 0x02 && grub_be_to_cpu16 (label.ver_minor) >= 0x0b && grub_be_to_cpu16 (label.ver_minor) <= 0x0c) break; } /* Return if we didn't find a label. */ if (i == 3) { #ifdef GRUB_UTIL grub_util_info ("no LDM signature found"); #endif return NULL; } } id->uuid = grub_malloc (LDM_GUID_STRLEN + 1); if (!id->uuid) return NULL; grub_memcpy (id->uuid, label.disk_guid, LDM_GUID_STRLEN); id->uuid[LDM_GUID_STRLEN] = 0; id->uuidlen = grub_strlen ((char *) id->uuid); *start_sector = grub_be_to_cpu64 (label.pv_start); { grub_size_t s; for (s = 0; s < LDM_GUID_STRLEN && label.group_guid[s]; s++); vg = grub_diskfilter_get_vg_by_uuid (s, label.group_guid); if (! vg) vg = make_vg (disk, &label); } if (!vg) { grub_free (id->uuid); return NULL; } return vg; } #ifdef GRUB_UTIL char * grub_util_get_ldm (grub_disk_t disk, grub_disk_addr_t start) { struct grub_diskfilter_pv *pv = NULL; struct grub_diskfilter_vg *vg = NULL; struct grub_diskfilter_lv *res = 0, *lv, *res_lv = 0; pv = grub_diskfilter_get_pv_from_disk (disk, &vg); if (!pv) return NULL; for (lv = vg->lvs; lv; lv = lv->next) if (lv->segment_count == 1 && lv->segments->node_count == 1 && lv->segments->type == GRUB_DISKFILTER_STRIPED && lv->segments->nodes->pv == pv && lv->segments->nodes->start + pv->start_sector == start) { res_lv = lv; break; } if (!res_lv) return NULL; for (lv = vg->lvs; lv; lv = lv->next) if (lv->segment_count == 1 && lv->segments->node_count == 1 && lv->segments->type == GRUB_DISKFILTER_MIRROR && lv->segments->nodes->lv == res_lv) { res = lv; break; } if (res && res->fullname) return grub_strdup (res->fullname); return NULL; } int grub_util_is_ldm (grub_disk_t disk) { int i; for (i = 0; i < 3; i++) { grub_disk_addr_t sector = LDM_LABEL_SECTOR; grub_err_t err; struct grub_ldm_label label; switch (i) { case 0: sector = LDM_LABEL_SECTOR; break; case 1: /* LDM is never inside a partition. */ if (disk->partition) continue; sector = grub_disk_get_size (disk); if (sector == GRUB_DISK_SIZE_UNKNOWN) continue; sector--; break; /* FIXME: try the third copy. */ case 2: sector = gpt_ldm_sector (disk); if (!sector) continue; break; } err = grub_disk_read (disk, sector, 0, sizeof(label), &label); if (err) { grub_errno = GRUB_ERR_NONE; return 0; } /* This check is more relaxed on purpose. */ if (grub_memcmp (label.magic, LDM_MAGIC, sizeof (label.magic)) == 0) return 1; } return 0; } grub_err_t grub_util_ldm_embed (struct grub_disk *disk, unsigned int *nsectors, unsigned int max_nsectors, grub_embed_type_t embed_type, grub_disk_addr_t **sectors) { struct grub_diskfilter_pv *pv = NULL; struct grub_diskfilter_vg *vg; struct grub_diskfilter_lv *lv; unsigned i; if (embed_type != GRUB_EMBED_PCBIOS) return grub_error (GRUB_ERR_NOT_IMPLEMENTED_YET, "LDM curently supports only PC-BIOS embedding"); if (disk->partition) return grub_error (GRUB_ERR_BUG, "disk isn't LDM"); pv = grub_diskfilter_get_pv_from_disk (disk, &vg); if (!pv) return grub_error (GRUB_ERR_BUG, "disk isn't LDM"); for (lv = vg->lvs; lv; lv = lv->next) { struct grub_diskfilter_lv *comp; if (!lv->visible || !lv->fullname) continue; if (lv->segment_count != 1) continue; if (lv->segments->type != GRUB_DISKFILTER_MIRROR || lv->segments->node_count != 1 || lv->segments->start_extent != 0 || lv->segments->extent_count != lv->size) continue; comp = lv->segments->nodes->lv; if (!comp) continue; if (comp->segment_count != 1 || comp->size != lv->size) continue; if (comp->segments->type != GRUB_DISKFILTER_STRIPED || comp->segments->node_count != 1 || comp->segments->start_extent != 0 || comp->segments->extent_count != lv->size) continue; /* How to implement proper check is to be discussed. */ #if 1 if (1) continue; #else if (grub_strcmp (lv->name, "Volume5") != 0) continue; #endif if (lv->size < *nsectors) return grub_error (GRUB_ERR_OUT_OF_RANGE, /* TRANSLATORS: it's a partition for embedding, not a partition embed into something. */ N_("your LDM embedding Partition is too small;" " embedding won't be possible")); *nsectors = lv->size; if (*nsectors > max_nsectors) *nsectors = max_nsectors; *sectors = grub_malloc (*nsectors * sizeof (**sectors)); if (!*sectors) return grub_errno; for (i = 0; i < *nsectors; i++) (*sectors)[i] = (lv->segments->nodes->start + comp->segments->nodes->start + comp->segments->nodes->pv->start_sector + i); return GRUB_ERR_NONE; } return grub_error (GRUB_ERR_FILE_NOT_FOUND, /* TRANSLATORS: it's a partition for embedding, not a partition embed into something. */ N_("this LDM has no Embedding Partition;" " embedding won't be possible")); } #endif static struct grub_diskfilter grub_ldm_dev = { .name = "ldm", .detect = grub_ldm_detect, .next = 0 }; GRUB_MOD_INIT (ldm) { grub_diskfilter_register (&grub_ldm_dev); } GRUB_MOD_FINI (ldm) { grub_diskfilter_unregister (&grub_ldm_dev); }