/* * Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved. * Copyright (C) 2004-2008 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 "lvmcache.h" #include "toolcontext.h" #include "dev-cache.h" #include "locking.h" #include "metadata.h" #include "filter.h" #include "filter-persistent.h" #include "memlock.h" #include "str_list.h" #include "format-text.h" #include "format_pool.h" #include "format1.h" static struct dm_hash_table *_pvid_hash = NULL; static struct dm_hash_table *_vgid_hash = NULL; static struct dm_hash_table *_vgname_hash = NULL; static struct dm_hash_table *_lock_hash = NULL; static DM_LIST_INIT(_vginfos); static int _scanning_in_progress = 0; static int _has_scanned = 0; static int _vgs_locked = 0; static int _vg_global_lock_held = 0; /* Global lock held when cache wiped? */ int lvmcache_init(void) { /* * FIXME add a proper lvmcache_locking_reset() that * resets the cache so no previous locks are locked */ _vgs_locked = 0; dm_list_init(&_vginfos); if (!(_vgname_hash = dm_hash_create(128))) return 0; if (!(_vgid_hash = dm_hash_create(128))) return 0; if (!(_pvid_hash = dm_hash_create(128))) return 0; if (!(_lock_hash = dm_hash_create(128))) return 0; /* * Reinitialising the cache clears the internal record of * which locks are held. The global lock can be held during * this operation so its state must be restored afterwards. */ if (_vg_global_lock_held) { lvmcache_lock_vgname(VG_GLOBAL, 0); _vg_global_lock_held = 0; } return 1; } /* Volume Group metadata cache functions */ static void _free_cached_vgmetadata(struct lvmcache_vginfo *vginfo) { if (!vginfo || !vginfo->vgmetadata) return; dm_free(vginfo->vgmetadata); vginfo->vgmetadata = NULL; log_debug("Metadata cache: VG %s wiped.", vginfo->vgname); } /* * Cache VG metadata against the vginfo with matching vgid. */ static void _store_metadata(struct volume_group *vg, unsigned precommitted) { char uuid[64] __attribute((aligned(8))); struct lvmcache_vginfo *vginfo; int size; if (!(vginfo = vginfo_from_vgid((const char *)&vg->id))) { stack; return; } if (vginfo->vgmetadata) _free_cached_vgmetadata(vginfo); if (!(size = export_vg_to_buffer(vg, &vginfo->vgmetadata))) { stack; return; } vginfo->precommitted = precommitted; if (!id_write_format((const struct id *)vginfo->vgid, uuid, sizeof(uuid))) { stack; return; } log_debug("Metadata cache: VG %s (%s) stored (%d bytes%s).", vginfo->vgname, uuid, size, precommitted ? ", precommitted" : ""); } static void _update_cache_info_lock_state(struct lvmcache_info *info, int locked, int *cached_vgmetadata_valid) { int was_locked = (info->status & CACHE_LOCKED) ? 1 : 0; /* * Cache becomes invalid whenever lock state changes unless * exclusive VG_GLOBAL is held (i.e. while scanning). */ if (!vgname_is_locked(VG_GLOBAL) && (was_locked != locked)) { info->status |= CACHE_INVALID; *cached_vgmetadata_valid = 0; } if (locked) info->status |= CACHE_LOCKED; else info->status &= ~CACHE_LOCKED; } static void _update_cache_vginfo_lock_state(struct lvmcache_vginfo *vginfo, int locked) { struct lvmcache_info *info; int cached_vgmetadata_valid = 1; dm_list_iterate_items(info, &vginfo->infos) _update_cache_info_lock_state(info, locked, &cached_vgmetadata_valid); if (!cached_vgmetadata_valid) _free_cached_vgmetadata(vginfo); } static void _update_cache_lock_state(const char *vgname, int locked) { struct lvmcache_vginfo *vginfo; if (!(vginfo = vginfo_from_vgname(vgname, NULL))) return; _update_cache_vginfo_lock_state(vginfo, locked); } static void _drop_metadata(const char *vgname, int drop_precommitted) { struct lvmcache_vginfo *vginfo; struct lvmcache_info *info; if (!(vginfo = vginfo_from_vgname(vgname, NULL))) return; /* * Invalidate cached PV labels. * If cached precommitted metadata exists that means we * already invalidated the PV labels (before caching it) * and we must not do it again. */ if (!drop_precommitted && vginfo->precommitted && !vginfo->vgmetadata) log_error(INTERNAL_ERROR "metadata commit (or revert) missing before " "dropping metadata from cache."); if (drop_precommitted || !vginfo->precommitted) dm_list_iterate_items(info, &vginfo->infos) info->status |= CACHE_INVALID; _free_cached_vgmetadata(vginfo); } /* * Remote node uses this to upgrade precommited metadata to commited state * when receives vg_commit notification. * (Note that devices can be suspended here, if so, precommited metadata are already read.) */ void lvmcache_commit_metadata(const char *vgname) { struct lvmcache_vginfo *vginfo; if (!(vginfo = vginfo_from_vgname(vgname, NULL))) return; if (vginfo->precommitted) { log_debug("Precommitted metadata cache: VG %s upgraded to committed.", vginfo->vgname); vginfo->precommitted = 0; } } void lvmcache_drop_metadata(const char *vgname, int drop_precommitted) { /* For VG_ORPHANS, we need to invalidate all labels on orphan PVs. */ if (!strcmp(vgname, VG_ORPHANS)) { _drop_metadata(FMT_TEXT_ORPHAN_VG_NAME, 0); _drop_metadata(FMT_LVM1_ORPHAN_VG_NAME, 0); _drop_metadata(FMT_POOL_ORPHAN_VG_NAME, 0); /* Indicate that PVs could now be missing from the cache */ init_full_scan_done(0); } else if (!vgname_is_locked(VG_GLOBAL)) _drop_metadata(vgname, drop_precommitted); } /* * Ensure vgname2 comes after vgname1 alphabetically. * Orphan locks come last. * VG_GLOBAL comes first. */ static int _vgname_order_correct(const char *vgname1, const char *vgname2) { if (is_global_vg(vgname1)) return 1; if (is_global_vg(vgname2)) return 0; if (is_orphan_vg(vgname1)) return 0; if (is_orphan_vg(vgname2)) return 1; if (strcmp(vgname1, vgname2) < 0) return 1; return 0; } /* * Ensure VG locks are acquired in alphabetical order. */ int lvmcache_verify_lock_order(const char *vgname) { struct dm_hash_node *n; const char *vgname2; if (!_lock_hash) return_0; dm_hash_iterate(n, _lock_hash) { if (!dm_hash_get_data(_lock_hash, n)) return_0; vgname2 = dm_hash_get_key(_lock_hash, n); if (!_vgname_order_correct(vgname2, vgname)) { log_errno(EDEADLK, INTERNAL_ERROR "VG lock %s must " "be requested before %s, not after.", vgname, vgname2); return_0; } } return 1; } void lvmcache_lock_vgname(const char *vgname, int read_only __attribute((unused))) { if (!_lock_hash && !lvmcache_init()) { log_error("Internal cache initialisation failed"); return; } if (dm_hash_lookup(_lock_hash, vgname)) log_error(INTERNAL_ERROR "Nested locking attempted on VG %s.", vgname); if (!dm_hash_insert(_lock_hash, vgname, (void *) 1)) log_error("Cache locking failure for %s", vgname); _update_cache_lock_state(vgname, 1); if (strcmp(vgname, VG_GLOBAL)) _vgs_locked++; } int vgname_is_locked(const char *vgname) { if (!_lock_hash) return 0; return dm_hash_lookup(_lock_hash, is_orphan_vg(vgname) ? VG_ORPHANS : vgname) ? 1 : 0; } void lvmcache_unlock_vgname(const char *vgname) { if (!dm_hash_lookup(_lock_hash, vgname)) log_error(INTERNAL_ERROR "Attempt to unlock unlocked VG %s.", vgname); _update_cache_lock_state(vgname, 0); dm_hash_remove(_lock_hash, vgname); /* FIXME Do this per-VG */ if (strcmp(vgname, VG_GLOBAL) && !--_vgs_locked) dev_close_all(); } int vgs_locked(void) { return _vgs_locked; } static void _vginfo_attach_info(struct lvmcache_vginfo *vginfo, struct lvmcache_info *info) { if (!vginfo) return; info->vginfo = vginfo; dm_list_add(&vginfo->infos, &info->list); } static void _vginfo_detach_info(struct lvmcache_info *info) { if (!dm_list_empty(&info->list)) { dm_list_del(&info->list); dm_list_init(&info->list); } info->vginfo = NULL; } /* If vgid supplied, require a match. */ struct lvmcache_vginfo *vginfo_from_vgname(const char *vgname, const char *vgid) { struct lvmcache_vginfo *vginfo; if (!vgname) return vginfo_from_vgid(vgid); if (!_vgname_hash) return NULL; if (!(vginfo = dm_hash_lookup(_vgname_hash, vgname))) return NULL; if (vgid) do if (!strncmp(vgid, vginfo->vgid, ID_LEN)) return vginfo; while ((vginfo = vginfo->next)); return vginfo; } const struct format_type *fmt_from_vgname(const char *vgname, const char *vgid) { struct lvmcache_vginfo *vginfo; struct lvmcache_info *info; struct label *label; struct dm_list *devh, *tmp; struct dm_list devs; struct device_list *devl; char vgid_found[ID_LEN + 1] __attribute((aligned(8))); if (!(vginfo = vginfo_from_vgname(vgname, vgid))) return NULL; /* This function is normally called before reading metadata so * we check cached labels here. Unfortunately vginfo is volatile. */ dm_list_init(&devs); dm_list_iterate_items(info, &vginfo->infos) { if (!(devl = dm_malloc(sizeof(*devl)))) { log_error("device_list element allocation failed"); return NULL; } devl->dev = info->dev; dm_list_add(&devs, &devl->list); } memcpy(vgid_found, vginfo->vgid, sizeof(vgid_found)); dm_list_iterate_safe(devh, tmp, &devs) { devl = dm_list_item(devh, struct device_list); label_read(devl->dev, &label, UINT64_C(0)); dm_list_del(&devl->list); dm_free(devl); } /* If vginfo changed, caller needs to rescan */ if (!(vginfo = vginfo_from_vgname(vgname, vgid_found)) || strncmp(vginfo->vgid, vgid_found, ID_LEN)) return NULL; return vginfo->fmt; } struct lvmcache_vginfo *vginfo_from_vgid(const char *vgid) { struct lvmcache_vginfo *vginfo; char id[ID_LEN + 1] __attribute((aligned(8))); if (!_vgid_hash || !vgid) return NULL; /* vgid not necessarily NULL-terminated */ strncpy(&id[0], vgid, ID_LEN); id[ID_LEN] = '\0'; if (!(vginfo = dm_hash_lookup(_vgid_hash, id))) return NULL; return vginfo; } const char *vgname_from_vgid(struct dm_pool *mem, const char *vgid) { struct lvmcache_vginfo *vginfo; const char *vgname = NULL; if ((vginfo = vginfo_from_vgid(vgid))) vgname = vginfo->vgname; if (mem && vgname) return dm_pool_strdup(mem, vgname); return vgname; } static int _info_is_valid(struct lvmcache_info *info) { if (info->status & CACHE_INVALID) return 0; /* * The caller must hold the VG lock to manipulate metadata. * In a cluster, remote nodes sometimes read metadata in the * knowledge that the controlling node is holding the lock. * So if the VG appears to be unlocked here, it should be safe * to use the cached value. */ if (info->vginfo && !vgname_is_locked(info->vginfo->vgname)) return 1; if (!(info->status & CACHE_LOCKED)) return 0; return 1; } static int _vginfo_is_valid(struct lvmcache_vginfo *vginfo) { struct lvmcache_info *info; /* Invalid if any info is invalid */ dm_list_iterate_items(info, &vginfo->infos) if (!_info_is_valid(info)) return 0; return 1; } /* vginfo is invalid if it does not contain at least one valid info */ static int _vginfo_is_invalid(struct lvmcache_vginfo *vginfo) { struct lvmcache_info *info; dm_list_iterate_items(info, &vginfo->infos) if (_info_is_valid(info)) return 0; return 1; } /* * If valid_only is set, data will only be returned if the cached data is * known still to be valid. */ struct lvmcache_info *info_from_pvid(const char *pvid, int valid_only) { struct lvmcache_info *info; char id[ID_LEN + 1] __attribute((aligned(8))); if (!_pvid_hash || !pvid) return NULL; strncpy(&id[0], pvid, ID_LEN); id[ID_LEN] = '\0'; if (!(info = dm_hash_lookup(_pvid_hash, id))) return NULL; if (valid_only && !_info_is_valid(info)) return NULL; return info; } char *lvmcache_vgname_from_pvid(struct cmd_context *cmd, const char *pvid) { struct lvmcache_info *info; char *vgname; if (!device_from_pvid(cmd, (struct id *)pvid, NULL)) { log_error("Couldn't find device with uuid %s.", pvid); return NULL; } info = info_from_pvid(pvid, 0); if (!info) return_NULL; if (!(vgname = dm_pool_strdup(cmd->mem, info->vginfo->vgname))) { log_errno(ENOMEM, "vgname allocation failed"); return NULL; } return vgname; } static void _rescan_entry(struct lvmcache_info *info) { struct label *label; if (info->status & CACHE_INVALID) label_read(info->dev, &label, UINT64_C(0)); } static int _scan_invalid(void) { dm_hash_iter(_pvid_hash, (dm_hash_iterate_fn) _rescan_entry); return 1; } int lvmcache_label_scan(struct cmd_context *cmd, int full_scan) { struct label *label; struct dev_iter *iter; struct device *dev; struct format_type *fmt; int r = 0; /* Avoid recursion when a PVID can't be found! */ if (_scanning_in_progress) return 0; _scanning_in_progress = 1; if (!_vgname_hash && !lvmcache_init()) { log_error("Internal cache initialisation failed"); goto out; } if (_has_scanned && !full_scan) { r = _scan_invalid(); goto out; } if (full_scan == 2 && !refresh_filters(cmd)) { log_error("refresh filters failed"); goto out; } if (!(iter = dev_iter_create(cmd->filter, (full_scan == 2) ? 1 : 0))) { log_error("dev_iter creation failed"); goto out; } while ((dev = dev_iter_get(iter))) label_read(dev, &label, UINT64_C(0)); dev_iter_destroy(iter); _has_scanned = 1; /* Perform any format-specific scanning e.g. text files */ dm_list_iterate_items(fmt, &cmd->formats) { if (fmt->ops->scan && !fmt->ops->scan(fmt)) goto out; } /* * If we are a long-lived process, write out the updated persistent * device cache for the benefit of short-lived processes. */ if (full_scan == 2 && cmd->is_long_lived && cmd->dump_filter) persistent_filter_dump(cmd->filter, 0); r = 1; out: _scanning_in_progress = 0; return r; } struct volume_group *lvmcache_get_vg(const char *vgid, unsigned precommitted) { struct lvmcache_vginfo *vginfo; struct volume_group *vg; struct format_instance *fid; if (!vgid || !(vginfo = vginfo_from_vgid(vgid)) || !vginfo->vgmetadata) return NULL; if (!_vginfo_is_valid(vginfo)) return NULL; /* * Don't return cached data if either: * (i) precommitted metadata is requested but we don't have it cached * - caller should read it off disk; * (ii) live metadata is requested but we have precommitted metadata cached * and no devices are suspended so caller may read it off disk. * * If live metadata is requested but we have precommitted metadata cached * and devices are suspended, we assume this precommitted metadata has * already been preloaded and committed so it's OK to return it as live. * Note that we do not clear the PRECOMMITTED flag. */ if ((precommitted && !vginfo->precommitted) || (!precommitted && vginfo->precommitted && !memlock())) return NULL; if (!(fid = vginfo->fmt->ops->create_instance(vginfo->fmt, vginfo->vgname, vgid, NULL))) return_NULL; if (!(vg = import_vg_from_buffer(vginfo->vgmetadata, fid))) { _free_cached_vgmetadata(vginfo); vg_release(vg); return_NULL; } log_debug("Using cached %smetadata for VG %s.", vginfo->precommitted ? "pre-committed" : "", vginfo->vgname); return vg; } struct dm_list *lvmcache_get_vgids(struct cmd_context *cmd, int include_internal) { struct dm_list *vgids; struct lvmcache_vginfo *vginfo; lvmcache_label_scan(cmd, 0); if (!(vgids = str_list_create(cmd->mem))) { log_error("vgids list allocation failed"); return NULL; } dm_list_iterate_items(vginfo, &_vginfos) { if (!include_internal && is_orphan_vg(vginfo->vgname)) continue; if (!str_list_add(cmd->mem, vgids, dm_pool_strdup(cmd->mem, vginfo->vgid))) { log_error("strlist allocation failed"); return NULL; } } return vgids; } struct dm_list *lvmcache_get_vgnames(struct cmd_context *cmd, int include_internal) { struct dm_list *vgnames; struct lvmcache_vginfo *vginfo; lvmcache_label_scan(cmd, 0); if (!(vgnames = str_list_create(cmd->mem))) { log_errno(ENOMEM, "vgnames list allocation failed"); return NULL; } dm_list_iterate_items(vginfo, &_vginfos) { if (!include_internal && is_orphan_vg(vginfo->vgname)) continue; if (!str_list_add(cmd->mem, vgnames, dm_pool_strdup(cmd->mem, vginfo->vgname))) { log_errno(ENOMEM, "strlist allocation failed"); return NULL; } } return vgnames; } struct dm_list *lvmcache_get_pvids(struct cmd_context *cmd, const char *vgname, const char *vgid) { struct dm_list *pvids; struct lvmcache_vginfo *vginfo; struct lvmcache_info *info; if (!(pvids = str_list_create(cmd->mem))) { log_error("pvids list allocation failed"); return NULL; } if (!(vginfo = vginfo_from_vgname(vgname, vgid))) return pvids; dm_list_iterate_items(info, &vginfo->infos) { if (!str_list_add(cmd->mem, pvids, dm_pool_strdup(cmd->mem, info->dev->pvid))) { log_error("strlist allocation failed"); return NULL; } } return pvids; } struct device *device_from_pvid(struct cmd_context *cmd, struct id *pvid, unsigned *scan_done_once) { struct label *label; struct lvmcache_info *info; /* Already cached ? */ if ((info = info_from_pvid((char *) pvid, 0))) { if (label_read(info->dev, &label, UINT64_C(0))) { info = (struct lvmcache_info *) label->info; if (id_equal(pvid, (struct id *) &info->dev->pvid)) return info->dev; } } lvmcache_label_scan(cmd, 0); /* Try again */ if ((info = info_from_pvid((char *) pvid, 0))) { if (label_read(info->dev, &label, UINT64_C(0))) { info = (struct lvmcache_info *) label->info; if (id_equal(pvid, (struct id *) &info->dev->pvid)) return info->dev; } } if (memlock() || (scan_done_once && *scan_done_once)) return NULL; lvmcache_label_scan(cmd, 2); if (scan_done_once) *scan_done_once = 1; /* Try again */ if ((info = info_from_pvid((char *) pvid, 0))) { if (label_read(info->dev, &label, UINT64_C(0))) { info = (struct lvmcache_info *) label->info; if (id_equal(pvid, (struct id *) &info->dev->pvid)) return info->dev; } } return NULL; } const char *pvid_from_devname(struct cmd_context *cmd, const char *devname) { struct device *dev; struct label *label; if (!(dev = dev_cache_get(devname, cmd->filter))) { log_error("%s: Couldn't find device. Check your filters?", devname); return NULL; } if (!(label_read(dev, &label, UINT64_C(0)))) return NULL; return dev->pvid; } static int _free_vginfo(struct lvmcache_vginfo *vginfo) { struct lvmcache_vginfo *primary_vginfo, *vginfo2; int r = 1; _free_cached_vgmetadata(vginfo); vginfo2 = primary_vginfo = vginfo_from_vgname(vginfo->vgname, NULL); if (vginfo == primary_vginfo) { dm_hash_remove(_vgname_hash, vginfo->vgname); if (vginfo->next && !dm_hash_insert(_vgname_hash, vginfo->vgname, vginfo->next)) { log_error("_vgname_hash re-insertion for %s failed", vginfo->vgname); r = 0; } } else do if (vginfo2->next == vginfo) { vginfo2->next = vginfo->next; break; } while ((vginfo2 = primary_vginfo->next)); if (vginfo->vgname) dm_free(vginfo->vgname); if (vginfo->creation_host) dm_free(vginfo->creation_host); if (*vginfo->vgid && _vgid_hash && vginfo_from_vgid(vginfo->vgid) == vginfo) dm_hash_remove(_vgid_hash, vginfo->vgid); dm_list_del(&vginfo->list); dm_free(vginfo); return r; } /* * vginfo must be info->vginfo unless info is NULL */ static int _drop_vginfo(struct lvmcache_info *info, struct lvmcache_vginfo *vginfo) { if (info) _vginfo_detach_info(info); /* vginfo still referenced? */ if (!vginfo || is_orphan_vg(vginfo->vgname) || !dm_list_empty(&vginfo->infos)) return 1; if (!_free_vginfo(vginfo)) return_0; return 1; } /* Unused void lvmcache_del(struct lvmcache_info *info) { if (info->dev->pvid[0] && _pvid_hash) dm_hash_remove(_pvid_hash, info->dev->pvid); _drop_vginfo(info, info->vginfo); info->label->labeller->ops->destroy_label(info->label->labeller, info->label); dm_free(info); return; } */ static int _lvmcache_update_pvid(struct lvmcache_info *info, const char *pvid) { /* * Nothing to do if already stored with same pvid. */ if (((dm_hash_lookup(_pvid_hash, pvid)) == info) && !strcmp(info->dev->pvid, pvid)) return 1; if (*info->dev->pvid) dm_hash_remove(_pvid_hash, info->dev->pvid); strncpy(info->dev->pvid, pvid, sizeof(info->dev->pvid)); if (!dm_hash_insert(_pvid_hash, pvid, info)) { log_error("_lvmcache_update: pvid insertion failed: %s", pvid); return 0; } return 1; } /* * vginfo must be info->vginfo unless info is NULL (orphans) */ static int _lvmcache_update_vgid(struct lvmcache_info *info, struct lvmcache_vginfo *vginfo, const char *vgid) { if (!vgid || !vginfo || !strncmp(vginfo->vgid, vgid, ID_LEN)) return 1; if (vginfo && *vginfo->vgid) dm_hash_remove(_vgid_hash, vginfo->vgid); if (!vgid) { log_debug("lvmcache: %s: clearing VGID", info ? dev_name(info->dev) : vginfo->vgname); return 1; } strncpy(vginfo->vgid, vgid, ID_LEN); vginfo->vgid[ID_LEN] = '\0'; if (!dm_hash_insert(_vgid_hash, vginfo->vgid, vginfo)) { log_error("_lvmcache_update: vgid hash insertion failed: %s", vginfo->vgid); return 0; } if (!is_orphan_vg(vginfo->vgname)) log_debug("lvmcache: %s: setting %s VGID to %s", dev_name(info->dev), vginfo->vgname, vginfo->vgid); return 1; } static int _insert_vginfo(struct lvmcache_vginfo *new_vginfo, const char *vgid, uint32_t vgstatus, const char *creation_host, struct lvmcache_vginfo *primary_vginfo) { struct lvmcache_vginfo *last_vginfo = primary_vginfo; char uuid_primary[64] __attribute((aligned(8))); char uuid_new[64] __attribute((aligned(8))); int use_new = 0; /* Pre-existing VG takes precedence. Unexported VG takes precedence. */ if (primary_vginfo) { if (!id_write_format((const struct id *)vgid, uuid_new, sizeof(uuid_new))) return_0; if (!id_write_format((const struct id *)&primary_vginfo->vgid, uuid_primary, sizeof(uuid_primary))) return_0; /* * If Primary not exported, new exported => keep * Else Primary exported, new not exported => change * Else Primary has hostname for this machine => keep * Else Primary has no hostname, new has one => change * Else New has hostname for this machine => change * Else Keep primary. */ if (!(primary_vginfo->status & EXPORTED_VG) && (vgstatus & EXPORTED_VG)) log_warn("WARNING: Duplicate VG name %s: " "Existing %s takes precedence over " "exported %s", new_vginfo->vgname, uuid_primary, uuid_new); else if ((primary_vginfo->status & EXPORTED_VG) && !(vgstatus & EXPORTED_VG)) { log_warn("WARNING: Duplicate VG name %s: " "%s takes precedence over exported %s", new_vginfo->vgname, uuid_new, uuid_primary); use_new = 1; } else if (primary_vginfo->creation_host && !strcmp(primary_vginfo->creation_host, primary_vginfo->fmt->cmd->hostname)) log_warn("WARNING: Duplicate VG name %s: " "Existing %s (created here) takes precedence " "over %s", new_vginfo->vgname, uuid_primary, uuid_new); else if (!primary_vginfo->creation_host && creation_host) { log_warn("WARNING: Duplicate VG name %s: " "%s (with creation_host) takes precedence over %s", new_vginfo->vgname, uuid_new, uuid_primary); use_new = 1; } else if (creation_host && !strcmp(creation_host, primary_vginfo->fmt->cmd->hostname)) { log_warn("WARNING: Duplicate VG name %s: " "%s (created here) takes precedence over %s", new_vginfo->vgname, uuid_new, uuid_primary); use_new = 1; } if (!use_new) { while (last_vginfo->next) last_vginfo = last_vginfo->next; last_vginfo->next = new_vginfo; return 1; } dm_hash_remove(_vgname_hash, primary_vginfo->vgname); } if (!dm_hash_insert(_vgname_hash, new_vginfo->vgname, new_vginfo)) { log_error("cache_update: vg hash insertion failed: %s", new_vginfo->vgname); return 0; } if (primary_vginfo) new_vginfo->next = primary_vginfo; return 1; } static int _lvmcache_update_vgname(struct lvmcache_info *info, const char *vgname, const char *vgid, uint32_t vgstatus, const char *creation_host, const struct format_type *fmt) { struct lvmcache_vginfo *vginfo, *primary_vginfo, *orphan_vginfo; struct lvmcache_info *info2, *info3; char mdabuf[32]; // struct lvmcache_vginfo *old_vginfo, *next; if (!vgname || (info && info->vginfo && !strcmp(info->vginfo->vgname, vgname))) return 1; /* Remove existing vginfo entry */ if (info) _drop_vginfo(info, info->vginfo); /* Get existing vginfo or create new one */ if (!(vginfo = vginfo_from_vgname(vgname, vgid))) { /*** FIXME - vginfo ends up duplicated instead of renamed. // Renaming? This lookup fails. if ((vginfo = vginfo_from_vgid(vgid))) { next = vginfo->next; old_vginfo = vginfo_from_vgname(vginfo->vgname, NULL); if (old_vginfo == vginfo) { dm_hash_remove(_vgname_hash, old_vginfo->vgname); if (old_vginfo->next) { if (!dm_hash_insert(_vgname_hash, old_vginfo->vgname, old_vginfo->next)) { log_error("vg hash re-insertion failed: %s", old_vginfo->vgname); return 0; } } } else do { if (old_vginfo->next == vginfo) { old_vginfo->next = vginfo->next; break; } } while ((old_vginfo = old_vginfo->next)); vginfo->next = NULL; dm_free(vginfo->vgname); if (!(vginfo->vgname = dm_strdup(vgname))) { log_error("cache vgname alloc failed for %s", vgname); return 0; } // Rename so can assume new name does not already exist if (!dm_hash_insert(_vgname_hash, vginfo->vgname, vginfo->next)) { log_error("vg hash re-insertion failed: %s", vginfo->vgname); return 0; } } else { ***/ if (!(vginfo = dm_malloc(sizeof(*vginfo)))) { log_error("lvmcache_update_vgname: list alloc failed"); return 0; } memset(vginfo, 0, sizeof(*vginfo)); if (!(vginfo->vgname = dm_strdup(vgname))) { dm_free(vginfo); log_error("cache vgname alloc failed for %s", vgname); return 0; } dm_list_init(&vginfo->infos); /* * If we're scanning and there's an invalidated entry, remove it. * Otherwise we risk bogus warnings of duplicate VGs. */ while ((primary_vginfo = vginfo_from_vgname(vgname, NULL)) && _scanning_in_progress && _vginfo_is_invalid(primary_vginfo)) dm_list_iterate_items_safe(info2, info3, &primary_vginfo->infos) { orphan_vginfo = vginfo_from_vgname(primary_vginfo->fmt->orphan_vg_name, NULL); _drop_vginfo(info2, primary_vginfo); _vginfo_attach_info(orphan_vginfo, info2); if (info2->mdas.n) sprintf(mdabuf, " with %u mdas", dm_list_size(&info2->mdas)); else mdabuf[0] = '\0'; log_debug("lvmcache: %s: now in VG %s%s%s%s%s", dev_name(info2->dev), vgname, orphan_vginfo->vgid[0] ? " (" : "", orphan_vginfo->vgid[0] ? orphan_vginfo->vgid : "", orphan_vginfo->vgid[0] ? ")" : "", mdabuf); } if (!_insert_vginfo(vginfo, vgid, vgstatus, creation_host, primary_vginfo)) { dm_free(vginfo->vgname); dm_free(vginfo); return 0; } /* Ensure orphans appear last on list_iterate */ if (is_orphan_vg(vgname)) dm_list_add(&_vginfos, &vginfo->list); else dm_list_add_h(&_vginfos, &vginfo->list); /*** } ***/ } if (info) _vginfo_attach_info(vginfo, info); else if (!_lvmcache_update_vgid(NULL, vginfo, vgid)) /* Orphans */ return_0; _update_cache_vginfo_lock_state(vginfo, vgname_is_locked(vgname)); /* FIXME Check consistency of list! */ vginfo->fmt = fmt; if (info) { if (info->mdas.n) sprintf(mdabuf, " with %u mdas", dm_list_size(&info->mdas)); else mdabuf[0] = '\0'; log_debug("lvmcache: %s: now in VG %s%s%s%s%s", dev_name(info->dev), vgname, vginfo->vgid[0] ? " (" : "", vginfo->vgid[0] ? vginfo->vgid : "", vginfo->vgid[0] ? ")" : "", mdabuf); } else log_debug("lvmcache: initialised VG %s", vgname); return 1; } static int _lvmcache_update_vgstatus(struct lvmcache_info *info, uint32_t vgstatus, const char *creation_host) { if (!info || !info->vginfo) return 1; if ((info->vginfo->status & EXPORTED_VG) != (vgstatus & EXPORTED_VG)) log_debug("lvmcache: %s: VG %s %s exported", dev_name(info->dev), info->vginfo->vgname, vgstatus & EXPORTED_VG ? "now" : "no longer"); info->vginfo->status = vgstatus; if (!creation_host) return 1; if (info->vginfo->creation_host && !strcmp(creation_host, info->vginfo->creation_host)) return 1; if (info->vginfo->creation_host) dm_free(info->vginfo->creation_host); if (!(info->vginfo->creation_host = dm_strdup(creation_host))) { log_error("cache creation host alloc failed for %s", creation_host); return 0; } log_debug("lvmcache: %s: VG %s: Set creation host to %s.", dev_name(info->dev), info->vginfo->vgname, creation_host); return 1; } int lvmcache_add_orphan_vginfo(const char *vgname, struct format_type *fmt) { if (!_lock_hash && !lvmcache_init()) { log_error("Internal cache initialisation failed"); return 0; } return _lvmcache_update_vgname(NULL, vgname, vgname, 0, "", fmt); } int lvmcache_update_vgname_and_id(struct lvmcache_info *info, const char *vgname, const char *vgid, uint32_t vgstatus, const char *creation_host) { if (!vgname && !info->vginfo) { log_error(INTERNAL_ERROR "NULL vgname handed to cache"); /* FIXME Remove this */ vgname = info->fmt->orphan_vg_name; vgid = vgname; } /* If PV without mdas is already in a real VG, don't make it orphan */ if (is_orphan_vg(vgname) && info->vginfo && !dm_list_size(&info->mdas) && !is_orphan_vg(info->vginfo->vgname) && memlock()) return 1; /* If moving PV from orphan to real VG, always mark it valid */ if (!is_orphan_vg(vgname)) info->status &= ~CACHE_INVALID; if (!_lvmcache_update_vgname(info, vgname, vgid, vgstatus, creation_host, info->fmt) || !_lvmcache_update_vgid(info, info->vginfo, vgid) || !_lvmcache_update_vgstatus(info, vgstatus, creation_host)) return_0; return 1; } int lvmcache_update_vg(struct volume_group *vg, unsigned precommitted) { struct pv_list *pvl; struct lvmcache_info *info; char pvid_s[ID_LEN + 1] __attribute((aligned(8))); pvid_s[sizeof(pvid_s) - 1] = '\0'; dm_list_iterate_items(pvl, &vg->pvs) { strncpy(pvid_s, (char *) &pvl->pv->id, sizeof(pvid_s) - 1); /* FIXME Could pvl->pv->dev->pvid ever be different? */ if ((info = info_from_pvid(pvid_s, 0)) && !lvmcache_update_vgname_and_id(info, vg->name, (char *) &vg->id, vg->status, NULL)) return_0; } /* store text representation of vg to cache */ if (vg->cmd->current_settings.cache_vgmetadata) _store_metadata(vg, precommitted); return 1; } struct lvmcache_info *lvmcache_add(struct labeller *labeller, const char *pvid, struct device *dev, const char *vgname, const char *vgid, uint32_t vgstatus) { struct label *label; struct lvmcache_info *existing, *info; char pvid_s[ID_LEN + 1] __attribute((aligned(8))); if (!_vgname_hash && !lvmcache_init()) { log_error("Internal cache initialisation failed"); return NULL; } strncpy(pvid_s, pvid, sizeof(pvid_s)); pvid_s[sizeof(pvid_s) - 1] = '\0'; if (!(existing = info_from_pvid(pvid_s, 0)) && !(existing = info_from_pvid(dev->pvid, 0))) { if (!(label = label_create(labeller))) return_NULL; if (!(info = dm_malloc(sizeof(*info)))) { log_error("lvmcache_info allocation failed"); label_destroy(label); return NULL; } memset(info, 0, sizeof(*info)); label->info = info; info->label = label; dm_list_init(&info->list); info->dev = dev; } else { if (existing->dev != dev) { /* Is the existing entry a duplicate pvid e.g. md ? */ if (dev_subsystem_part_major(existing->dev) && !dev_subsystem_part_major(dev)) { log_very_verbose("Ignoring duplicate PV %s on " "%s - using %s %s", pvid, dev_name(dev), dev_subsystem_name(existing->dev), dev_name(existing->dev)); return NULL; } else if (dm_is_dm_major(MAJOR(existing->dev->dev)) && !dm_is_dm_major(MAJOR(dev->dev))) { log_very_verbose("Ignoring duplicate PV %s on " "%s - using dm %s", pvid, dev_name(dev), dev_name(existing->dev)); return NULL; } else if (!dev_subsystem_part_major(existing->dev) && dev_subsystem_part_major(dev)) log_very_verbose("Duplicate PV %s on %s - " "using %s %s", pvid, dev_name(existing->dev), dev_subsystem_name(existing->dev), dev_name(dev)); else if (!dm_is_dm_major(MAJOR(existing->dev->dev)) && dm_is_dm_major(MAJOR(dev->dev))) log_very_verbose("Duplicate PV %s on %s - " "using dm %s", pvid, dev_name(existing->dev), dev_name(dev)); /* FIXME If both dm, check dependencies */ //else if (dm_is_dm_major(MAJOR(existing->dev->dev)) && //dm_is_dm_major(MAJOR(dev->dev))) // else if (!strcmp(pvid_s, existing->dev->pvid)) log_error("Found duplicate PV %s: using %s not " "%s", pvid, dev_name(dev), dev_name(existing->dev)); } if (strcmp(pvid_s, existing->dev->pvid)) log_debug("Updating pvid cache to %s (%s) from %s (%s)", pvid_s, dev_name(dev), existing->dev->pvid, dev_name(existing->dev)); /* Switch over to new preferred device */ existing->dev = dev; info = existing; /* Has labeller changed? */ if (info->label->labeller != labeller) { label_destroy(info->label); if (!(info->label = label_create(labeller))) /* FIXME leaves info without label! */ return_NULL; info->label->info = info; } label = info->label; } info->fmt = (const struct format_type *) labeller->private; info->status |= CACHE_INVALID; if (!_lvmcache_update_pvid(info, pvid_s)) { if (!existing) { dm_free(info); label_destroy(label); } return NULL; } if (!lvmcache_update_vgname_and_id(info, vgname, vgid, vgstatus, NULL)) { if (!existing) { dm_hash_remove(_pvid_hash, pvid_s); strcpy(info->dev->pvid, ""); dm_free(info); label_destroy(label); } return NULL; } return info; } static void _lvmcache_destroy_entry(struct lvmcache_info *info) { _vginfo_detach_info(info); strcpy(info->dev->pvid, ""); label_destroy(info->label); dm_free(info); } static void _lvmcache_destroy_vgnamelist(struct lvmcache_vginfo *vginfo) { struct lvmcache_vginfo *next; do { next = vginfo->next; if (!_free_vginfo(vginfo)) stack; } while ((vginfo = next)); } static void _lvmcache_destroy_lockname(struct dm_hash_node *n) { char *vgname; if (!dm_hash_get_data(_lock_hash, n)) return; vgname = dm_hash_get_key(_lock_hash, n); if (!strcmp(vgname, VG_GLOBAL)) _vg_global_lock_held = 1; else log_error(INTERNAL_ERROR "Volume Group %s was not unlocked", dm_hash_get_key(_lock_hash, n)); } void lvmcache_destroy(struct cmd_context *cmd, int retain_orphans) { struct dm_hash_node *n; log_verbose("Wiping internal VG cache"); _has_scanned = 0; if (_vgid_hash) { dm_hash_destroy(_vgid_hash); _vgid_hash = NULL; } if (_pvid_hash) { dm_hash_iter(_pvid_hash, (dm_hash_iterate_fn) _lvmcache_destroy_entry); dm_hash_destroy(_pvid_hash); _pvid_hash = NULL; } if (_vgname_hash) { dm_hash_iter(_vgname_hash, (dm_hash_iterate_fn) _lvmcache_destroy_vgnamelist); dm_hash_destroy(_vgname_hash); _vgname_hash = NULL; } if (_lock_hash) { dm_hash_iterate(n, _lock_hash) _lvmcache_destroy_lockname(n); dm_hash_destroy(_lock_hash); _lock_hash = NULL; } if (!dm_list_empty(&_vginfos)) log_error(INTERNAL_ERROR "_vginfos list should be empty"); dm_list_init(&_vginfos); if (retain_orphans) init_lvmcache_orphans(cmd); }