/* * Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved. * Copyright (C) 2004-2007 Red Hat, Inc. All rights reserved. * * This file is part of LVM2. * * This copyrighted material is made available to anyone wishing to use, * modify, copy, or redistribute it subject to the terms and conditions * of the GNU Lesser General Public License v.2.1. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "lib.h" #include "disk-rep.h" #include "limits.h" #include "display.h" #include "toolcontext.h" #include "lvm1-label.h" #include "format1.h" #include "segtype.h" #include "pv_alloc.h" /* VG consistency checks */ static int _check_vgs(struct dm_list *pvs, struct volume_group *vg) { struct dm_list *pvh, *t; struct disk_list *dl = NULL; struct disk_list *first = NULL; uint32_t pv_count = 0; uint32_t exported = 0; int first_time = 1; /* * If there are exported and unexported PVs, ignore exported ones. * This means an active VG won't be affected if disks are inserted * bearing an exported VG with the same name. */ dm_list_iterate_items(dl, pvs) { if (first_time) { exported = dl->pvd.pv_status & VG_EXPORTED; first_time = 0; continue; } if (exported != (dl->pvd.pv_status & VG_EXPORTED)) { /* Remove exported PVs */ dm_list_iterate_safe(pvh, t, pvs) { dl = dm_list_item(pvh, struct disk_list); if (dl->pvd.pv_status & VG_EXPORTED) dm_list_del(pvh); } break; } } /* Remove any PVs with VG structs that differ from the first */ dm_list_iterate_safe(pvh, t, pvs) { dl = dm_list_item(pvh, struct disk_list); if (!first) first = dl; else if (memcmp(&first->vgd, &dl->vgd, sizeof(first->vgd))) { log_error("VG data differs between PVs %s and %s", dev_name(first->dev), dev_name(dl->dev)); log_debug("VG data on %s: %s %s %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32, dev_name(first->dev), first->vgd.vg_uuid, first->vgd.vg_name_dummy, first->vgd.vg_number, first->vgd.vg_access, first->vgd.vg_status, first->vgd.lv_max, first->vgd.lv_cur, first->vgd.lv_open, first->vgd.pv_max, first->vgd.pv_cur, first->vgd.pv_act, first->vgd.dummy, first->vgd.vgda, first->vgd.pe_size, first->vgd.pe_total, first->vgd.pe_allocated, first->vgd.pvg_total); log_debug("VG data on %s: %s %s %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32 " %" PRIu32, dev_name(dl->dev), dl->vgd.vg_uuid, dl->vgd.vg_name_dummy, dl->vgd.vg_number, dl->vgd.vg_access, dl->vgd.vg_status, dl->vgd.lv_max, dl->vgd.lv_cur, dl->vgd.lv_open, dl->vgd.pv_max, dl->vgd.pv_cur, dl->vgd.pv_act, dl->vgd.dummy, dl->vgd.vgda, dl->vgd.pe_size, dl->vgd.pe_total, dl->vgd.pe_allocated, dl->vgd.pvg_total); dm_list_del(pvh); return 0; } pv_count++; } /* On entry to fn, list known to be non-empty */ if (pv_count != first->vgd.pv_cur) { log_error("%d PV(s) found for VG %s: expected %d", pv_count, first->pvd.vg_name, first->vgd.pv_cur); vg->status |= PARTIAL_VG; } return 1; } static int _fix_partial_vg(struct volume_group *vg, struct dm_list *pvs) { uint32_t extent_count = 0; struct disk_list *dl; struct dm_list *pvh; struct pv_list *pvl; struct lv_list *ll; struct lv_segment *seg; /* * FIXME: code should remap missing segments to error segment. * Also current mapping code allocates 1 segment per missing extent. * For now bail out completely - allocated structures are not complete */ dm_list_iterate_items(ll, &vg->lvs) dm_list_iterate_items(seg, &ll->lv->segments) { /* area_count is always 1 here, s == 0 */ if (seg_type(seg, 0) != AREA_PV) continue; if (seg_pv(seg, 0)) continue; log_error("Partial mode support for missing lvm1 PVs and " "partially available LVs is currently not implemented."); return 0; } dm_list_iterate(pvh, pvs) { dl = dm_list_item(pvh, struct disk_list); extent_count += dl->pvd.pe_total; } /* FIXME: move this to one place to pv_manip */ if (!(pvl = dm_pool_zalloc(vg->vgmem, sizeof(*pvl))) || !(pvl->pv = dm_pool_zalloc(vg->vgmem, sizeof(*pvl->pv)))) return_0; /* Use vg uuid with replaced first chars to "missing" as missing PV UUID */ memcpy(&pvl->pv->id.uuid, vg->id.uuid, sizeof(pvl->pv->id.uuid)); memcpy(&pvl->pv->id.uuid, "missing", 7); if (!(pvl->pv->vg_name = dm_pool_strdup(vg->vgmem, vg->name))) goto_out; memcpy(&pvl->pv->vgid, &vg->id, sizeof(vg->id)); pvl->pv->status |= MISSING_PV; dm_list_init(&pvl->pv->tags); dm_list_init(&pvl->pv->segments); pvl->pv->pe_size = vg->extent_size; pvl->pv->pe_count = vg->extent_count - extent_count; if (!alloc_pv_segment_whole_pv(vg->vgmem, pvl->pv)) goto_out; add_pvl_to_vgs(vg, pvl); log_debug("%s: partial VG, allocated missing PV using %d extents.", vg->name, pvl->pv->pe_count); return 1; out: dm_pool_free(vg->vgmem, pvl); return 0; } static struct volume_group *_format1_vg_read(struct format_instance *fid, const char *vg_name, struct metadata_area *mda __attribute__((unused))) { struct volume_group *vg; struct disk_list *dl; DM_LIST_INIT(pvs); /* Strip dev_dir if present */ vg_name = strip_dir(vg_name, fid->fmt->cmd->dev_dir); if (!(vg = alloc_vg("format1_vg_read", fid->fmt->cmd, NULL))) return_NULL; if (!read_pvs_in_vg(fid->fmt, vg_name, fid->fmt->cmd->filter, vg->vgmem, &pvs)) goto_bad; if (dm_list_empty(&pvs)) goto_bad; vg_set_fid(vg, fid); if (!_check_vgs(&pvs, vg)) goto_bad; dl = dm_list_item(pvs.n, struct disk_list); if (!import_vg(vg->vgmem, vg, dl)) goto_bad; if (!import_pvs(fid->fmt, vg->vgmem, vg, &pvs)) goto_bad; if (!import_lvs(vg->vgmem, vg, &pvs)) goto_bad; if (!import_extents(fid->fmt->cmd, vg, &pvs)) goto_bad; if (!import_snapshots(vg->vgmem, vg, &pvs)) goto_bad; /* Fix extents counts by adding missing PV if partial VG */ if ((vg->status & PARTIAL_VG) && !_fix_partial_vg(vg, &pvs)) goto_bad; return vg; bad: free(vg); return NULL; } static struct disk_list *_flatten_pv(struct format_instance *fid, struct dm_pool *mem, struct volume_group *vg, struct physical_volume *pv, const char *dev_dir) { struct disk_list *dl = dm_pool_alloc(mem, sizeof(*dl)); if (!dl) return_NULL; dl->mem = mem; dl->dev = pv->dev; dm_list_init(&dl->uuids); dm_list_init(&dl->lvds); if (!export_pv(fid->fmt->cmd, mem, vg, &dl->pvd, pv) || !export_vg(&dl->vgd, vg) || !export_uuids(dl, vg) || !export_lvs(dl, vg, pv, dev_dir) || !calculate_layout(dl)) { dm_pool_free(mem, dl); return_NULL; } return dl; } static int _flatten_vg(struct format_instance *fid, struct dm_pool *mem, struct volume_group *vg, struct dm_list *pvds, const char *dev_dir, struct dev_filter *filter) { struct pv_list *pvl; struct disk_list *data; dm_list_iterate_items(pvl, &vg->pvs) { if (!(data = _flatten_pv(fid, mem, vg, pvl->pv, dev_dir))) return_0; dm_list_add(pvds, &data->list); } export_numbers(pvds, vg); export_pv_act(pvds); if (!export_vg_number(fid, pvds, vg->name, filter)) return_0; return 1; } static int _format1_vg_write(struct format_instance *fid, struct volume_group *vg, struct metadata_area *mda __attribute__((unused))) { struct dm_pool *mem = dm_pool_create("lvm1 vg_write", VG_MEMPOOL_CHUNK); struct dm_list pvds; int r = 0; if (!mem) return_0; dm_list_init(&pvds); r = (_flatten_vg(fid, mem, vg, &pvds, fid->fmt->cmd->dev_dir, fid->fmt->cmd->filter) && write_disks(fid->fmt, &pvds)); lvmcache_update_vg(vg, 0); dm_pool_destroy(mem); return r; } static int _format1_pv_read(const struct format_type *fmt, const char *pv_name, struct physical_volume *pv, int scan_label_only __attribute__((unused))) { struct dm_pool *mem = dm_pool_create("lvm1 pv_read", 1024); struct disk_list *dl; struct device *dev; int r = 0; log_very_verbose("Reading physical volume data %s from disk", pv_name); if (!mem) return_0; if (!(dev = dev_cache_get(pv_name, fmt->cmd->filter))) goto_out; if (!(dl = read_disk(fmt, dev, mem, NULL))) goto_out; if (!import_pv(fmt, fmt->cmd->mem, dl->dev, NULL, pv, &dl->pvd, &dl->vgd)) goto_out; pv->fmt = fmt; r = 1; out: dm_pool_destroy(mem); return r; } static int _format1_pv_initialise(const struct format_type * fmt, int64_t label_sector __attribute__((unused)), uint64_t pe_start, uint32_t extent_count, uint32_t extent_size, unsigned long data_alignment __attribute__((unused)), unsigned long data_alignment_offset __attribute__((unused)), struct physical_volume * pv) { if (pv->size > MAX_PV_SIZE) pv->size--; if (pv->size > MAX_PV_SIZE) { log_error("Physical volumes cannot be bigger than %s", display_size(fmt->cmd, (uint64_t) MAX_PV_SIZE)); return 0; } /* Nothing more to do if extent size isn't provided */ if (!extent_size) return 1; /* * This works out pe_start and pe_count. */ if (!calculate_extent_count(pv, extent_size, extent_count, pe_start)) return_0; /* Retain existing extent locations exactly */ if (((pe_start || extent_count) && (pe_start != pv->pe_start)) || (extent_count && (extent_count != pv->pe_count))) { log_error("Metadata would overwrite physical extents"); return 0; } return 1; } static int _format1_pv_setup(const struct format_type *fmt, struct physical_volume *pv, struct volume_group *vg) { return _format1_pv_initialise(fmt, -1, 0, 0, vg->extent_size, 0, 0, pv); } static int _format1_lv_setup(struct format_instance *fid, struct logical_volume *lv) { uint64_t max_size = UINT_MAX; if (!*lv->lvid.s) lvid_from_lvnum(&lv->lvid, &lv->vg->id, find_free_lvnum(lv)); if (lv->le_count > MAX_LE_TOTAL) { log_error("logical volumes cannot contain more than " "%d extents.", MAX_LE_TOTAL); return 0; } if (lv->size > max_size) { log_error("logical volumes cannot be larger than %s", display_size(fid->fmt->cmd, max_size)); return 0; } return 1; } static int _format1_pv_write(const struct format_type *fmt, struct physical_volume *pv) { struct dm_pool *mem; struct disk_list *dl; struct dm_list pvs; struct lvmcache_info *info; int pe_count, pe_size, pe_start; int r = 1; if (!(info = lvmcache_add(fmt->labeller, (char *) &pv->id, pv->dev, pv->vg_name, NULL, 0))) return_0; info->device_size = pv->size << SECTOR_SHIFT; info->fmt = fmt; dm_list_init(&info->mdas); dm_list_init(&pvs); pe_count = pv->pe_count; pe_size = pv->pe_size; pe_start = pv->pe_start; /* Ensure any residual PE structure is gone */ pv->pe_size = pv->pe_count = 0; pv->pe_start = LVM1_PE_ALIGN; if (!(mem = dm_pool_create("lvm1 pv_write", 1024))) return_0; if (!(dl = dm_pool_alloc(mem, sizeof(*dl)))) goto_bad; dl->mem = mem; dl->dev = pv->dev; dm_list_init(&dl->uuids); dm_list_init(&dl->lvds); if (!export_pv(fmt->cmd, mem, NULL, &dl->pvd, pv)) goto_bad; /* must be set to be able to zero gap after PV structure in dev_write in order to make other disk tools happy */ dl->pvd.pv_on_disk.base = METADATA_BASE; dl->pvd.pv_on_disk.size = PV_SIZE; dl->pvd.pe_on_disk.base = LVM1_PE_ALIGN << SECTOR_SHIFT; dm_list_add(&pvs, &dl->list); if (!write_disks(fmt, &pvs)) goto_bad; goto out; bad: r = 0; out: pv->pe_size = pe_size; pv->pe_count = pe_count; pv->pe_start = pe_start; dm_pool_destroy(mem); return r; } static int _format1_vg_setup(struct format_instance *fid, struct volume_group *vg) { /* just check max_pv and max_lv */ if (!vg->max_lv || vg->max_lv >= MAX_LV) vg->max_lv = MAX_LV - 1; if (!vg->max_pv || vg->max_pv >= MAX_PV) vg->max_pv = MAX_PV - 1; if (vg->extent_size > MAX_PE_SIZE || vg->extent_size < MIN_PE_SIZE) { log_error("Extent size must be between %s and %s", display_size(fid->fmt->cmd, (uint64_t) MIN_PE_SIZE), display_size(fid->fmt->cmd, (uint64_t) MAX_PE_SIZE)); return 0; } if (vg->extent_size % MIN_PE_SIZE) { log_error("Extent size must be multiple of %s", display_size(fid->fmt->cmd, (uint64_t) MIN_PE_SIZE)); return 0; } /* Redundant? */ if (vg->extent_size & (vg->extent_size - 1)) { log_error("Extent size must be power of 2"); return 0; } return 1; } static int _format1_segtype_supported(struct format_instance *fid __attribute__((unused)), const struct segment_type *segtype) { if (!(segtype->flags & SEG_FORMAT1_SUPPORT)) return_0; return 1; } static struct metadata_area_ops _metadata_format1_ops = { .vg_read = _format1_vg_read, .vg_write = _format1_vg_write, }; static struct format_instance *_format1_create_instance(const struct format_type *fmt, const struct format_instance_ctx *fic) { struct format_instance *fid; struct metadata_area *mda; if (!(fid = alloc_fid(fmt, fic))) return_NULL; /* Define a NULL metadata area */ if (!(mda = dm_pool_zalloc(fid->mem, sizeof(*mda)))) { log_error("Unable to allocate metadata area structure " "for lvm1 format"); goto bad; } mda->ops = &_metadata_format1_ops; mda->metadata_locn = NULL; mda->status = 0; dm_list_add(&fid->metadata_areas_in_use, &mda->list); return fid; bad: dm_pool_destroy(fid->mem); return NULL; } static void _format1_destroy_instance(struct format_instance *fid) { if (--fid->ref_count <= 1) dm_pool_destroy(fid->mem); } static void _format1_destroy(struct format_type *fmt) { dm_free(fmt); } static struct format_handler _format1_ops = { .pv_read = _format1_pv_read, .pv_initialise = _format1_pv_initialise, .pv_setup = _format1_pv_setup, .pv_write = _format1_pv_write, .lv_setup = _format1_lv_setup, .vg_setup = _format1_vg_setup, .segtype_supported = _format1_segtype_supported, .create_instance = _format1_create_instance, .destroy_instance = _format1_destroy_instance, .destroy = _format1_destroy, }; #ifdef LVM1_INTERNAL struct format_type *init_lvm1_format(struct cmd_context *cmd) #else /* Shared */ struct format_type *init_format(struct cmd_context *cmd); struct format_type *init_format(struct cmd_context *cmd) #endif { struct format_type *fmt = dm_malloc(sizeof(*fmt)); if (!fmt) return_NULL; fmt->cmd = cmd; fmt->ops = &_format1_ops; fmt->name = FMT_LVM1_NAME; fmt->alias = NULL; fmt->orphan_vg_name = FMT_LVM1_ORPHAN_VG_NAME; fmt->features = FMT_RESTRICTED_LVIDS | FMT_ORPHAN_ALLOCATABLE | FMT_RESTRICTED_READAHEAD; fmt->private = NULL; if (!(fmt->labeller = lvm1_labeller_create(fmt))) { log_error("Couldn't create lvm1 label handler."); return NULL; } if (!(label_register_handler(FMT_LVM1_NAME, fmt->labeller))) { log_error("Couldn't register lvm1 label handler."); return NULL; } log_very_verbose("Initialised format: %s", fmt->name); return fmt; }