/* * Copyright (C) 2009-2010 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 "locking.h" #include "metadata.h" #include "segtype.h" #include "toolcontext.h" /* Add lv as replicator_dev device */ int replicator_dev_add_rimage(struct replicator_device *rdev, struct logical_volume *lv) { if (!lv || !rdev) return_0; if (lv_is_rimage(lv)) { log_error("Logical volume %s is already part of other " "replicator.", lv->name); return 0; } if (rdev->lv) { log_error("Logical volume %s can not be attached to an " "already defined replicator device", lv->name); return 0; } lv_set_hidden(lv); lv->rdevice = rdev; rdev->lv = lv; return add_seg_to_segs_using_this_lv(lv, rdev->replicator_dev); } /* Remove lv from replicator_dev device */ struct logical_volume *replicator_dev_remove_rimage(struct replicator_device *rdev) { struct logical_volume *lv; if (!rdev || !rdev->lv) return_NULL; lv = rdev->lv; if (!remove_seg_from_segs_using_this_lv(lv, rdev->replicator_dev)) return_NULL; /* FIXME: - check for site references */ rdev->lv = NULL; lv->rdevice = NULL; lv_set_visible(lv); return lv; } int replicator_dev_add_slog(struct replicator_device *rdev, struct logical_volume *slog) { if (!slog || !rdev) return_0; if (rdev->slog) { log_error("Replicator device in site %s already has sync log.", rdev->rsite->name); return 0; } if (slog->rdevice) { log_error("Sync log %s is already used by replicator %s.", slog->name, slog->rdevice->rsite->replicator->name); return 0; } lv_set_hidden(slog); slog->rdevice = rdev; rdev->slog = slog; return add_seg_to_segs_using_this_lv(slog, rdev->replicator_dev); } struct logical_volume *replicator_dev_remove_slog(struct replicator_device *rdev) { struct logical_volume *lv; if (!rdev) return_NULL; lv = rdev->slog; if (!lv) { log_error("Replicator device in site %s does not have sync log.", rdev->rsite->name); return NULL; } if (!remove_seg_from_segs_using_this_lv(lv, rdev->replicator_dev)) return_NULL; rdev->slog = NULL; lv->rdevice = NULL; lv_set_visible(lv); return lv; } int replicator_add_replicator_dev(struct logical_volume *replicator_lv, struct lv_segment *replicator_dev_seg) { if (!replicator_lv) return_0; if (!(replicator_lv->status & REPLICATOR)) { dm_list_init(&replicator_lv->rsites); lv_set_hidden(replicator_lv); replicator_lv->status |= REPLICATOR; } if (!replicator_dev_seg) return 1; if (replicator_dev_seg->replicator) { log_error("Replicator device %s is already part of replicator.", replicator_dev_seg->lv->name); return 0; } replicator_dev_seg->replicator = replicator_lv; return add_seg_to_segs_using_this_lv(replicator_lv, replicator_dev_seg); } /** * Returns rimage ?? lv upon succeful detach of device * entire LV entry should be removed by this crootall ?? */ struct logical_volume *replicator_remove_replicator_dev(struct lv_segment *replicator_dev_seg) { struct logical_volume *lv = NULL; log_error("FIXME: not implemented."); #if 0 /* FIXME: - this is going to be complex.... */ if (!replicator_dev_seg) return_NULL; /* if slog or rimage - exit */ if (!remove_seg_from_segs_using_this_lv(lv, replicator_seg)) return_NULL; replicator_seg->rlog_lv = NULL; lv->status &= ~REPLICATOR_LOG; lv_set_visible(lv); #endif return lv; } int replicator_add_rlog(struct lv_segment *replicator_seg, struct logical_volume *rlog_lv) { if (!rlog_lv) return_0; if (rlog_lv->status & REPLICATOR_LOG) { log_error("Rlog device %s is already used.", rlog_lv->name); return 0; } lv_set_hidden(rlog_lv); rlog_lv->status |= REPLICATOR_LOG; replicator_seg->rlog_lv = rlog_lv; return add_seg_to_segs_using_this_lv(rlog_lv, replicator_seg); } struct logical_volume *replicator_remove_rlog(struct lv_segment *replicator_seg) { struct logical_volume *lv; if (!replicator_seg) return_0; if (!(lv = replicator_seg->rlog_lv)) { log_error("Replog segment %s does not have rlog.", replicator_seg->lv->name); return NULL; } if (!remove_seg_from_segs_using_this_lv(lv, replicator_seg)) return_NULL; replicator_seg->rlog_lv = NULL; lv->status &= ~REPLICATOR_LOG; lv_set_visible(lv); return lv; } #if 0 /* * Create new LV to pretend the original LV * this target will have a 'replicator' segment */ int lv_add_replicator(struct logical_volume *origin, const char *rep_suffix) { struct logical_volume *rep_lv; char *name; size_t slen; if (!(name = strstr(origin->name, rep_suffix))) { log_error("Failed to find replicator suffix %s in LV name %s", rep_suffix, origin->name); return 0; } slen = (size_t)(name - origin->name); name = alloca(slen + 1); memcpy(name, origin->name, slen); name[slen] = 0; if ((rep_lv = find_lv(origin->vg, name))) { rep_lv->status |= VIRTUAL; return 1; } if (!(rep_lv = lv_create_empty(name, &origin->lvid, LVM_READ | LVM_WRITE | VISIBLE_LV, ALLOC_INHERIT, origin->vg))) return_0; if (!lv_add_virtual_segment(rep_lv, 0, origin->le_count, get_segtype_from_string(origin->vg->cmd, "error"))) return_0; rep_lv->status |= VIRTUAL; return 1; } int lv_remove_replicator(struct logical_volume *lv) { return 1; } #endif /* * Check all replicator structures: * only non-clustered VG for Replicator * only one segment in replicator LV * site has correct combination of operation_mode parameters * site and related devices have correct index numbers * duplicate site names, site indexes, device names, device indexes */ int check_replicator_segment(const struct lv_segment *rseg) { struct replicator_site *rsite, *rsiteb; struct replicator_device *rdev, *rdevb; struct logical_volume *lv = rseg->lv; int r = 1; if (vg_is_clustered(lv->vg)) { log_error("Volume Group %s of replicator %s is clustered", lv->vg->name, lv->name); return 0; } if (dm_list_size(&lv->segments) != 1) { log_error("Replicator %s segment size %d != 1", lv->name, dm_list_size(&lv->segments)); return 0; } dm_list_iterate_items(rsite, &lv->rsites) { if (rsite->op_mode == DM_REPLICATOR_SYNC) { if (rsite->fall_behind_timeout) { log_error("Defined fall_behind_timeout=" "%d for sync replicator %s/%s.", rsite->fall_behind_timeout, lv->name, rsite->name); r = 0; } if (rsite->fall_behind_ios) { log_error("Defined fall_behind_ios=" "%d for sync replicator %s/%s.", rsite->fall_behind_ios, lv->name, rsite->name); r = 0; } if (rsite->fall_behind_data) { log_error("Defined fall_behind_data=" "%" PRIu64 " for sync replicator %s/%s.", rsite->fall_behind_data, lv->name, rsite->name); r = 0; } } else { if (rsite->fall_behind_timeout && rsite->fall_behind_ios) { log_error("Defined fall_behind_timeout and" " fall_behind_ios for async replicator %s/%s.", lv->name, rsite->name); r = 0; } if (rsite->fall_behind_timeout && rsite->fall_behind_data) { log_error("Defined fall_behind_timeout and" " fall_behind_data for async replicator %s/%s.", lv->name, rsite->name); r = 0; } if (rsite->fall_behind_ios && rsite->fall_behind_data) { log_error("Defined fall_behind_ios and" " fall_behind_data for async replicator %s/%s.", lv->name, rsite->name); r = 0; } if (!rsite->fall_behind_ios && !rsite->fall_behind_data && !rsite->fall_behind_timeout) { log_error("fall_behind_timeout," " fall_behind_ios and fall_behind_data are" " undefined for async replicator %s/%s.", lv->name, rsite->name); r = 0; } } dm_list_iterate_items(rsiteb, &lv->rsites) { if (rsite == rsiteb) break; if (strcasecmp(rsite->name, rsiteb->name) == 0) { log_error("Duplicate site name " "%s detected for replicator %s.", rsite->name, lv->name); r = 0; } if ((rsite->vg_name && rsiteb->vg_name && strcasecmp(rsite->vg_name, rsiteb->vg_name) == 0) || (!rsite->vg_name && !rsiteb->vg_name)) { log_error("Duplicate VG name " "%s detected for replicator %s.", (rsite->vg_name) ? rsite->vg_name : "", lv->name); r = 0; } if (rsite->site_index == rsiteb->site_index) { log_error("Duplicate site index %d detected " "for replicator site %s/%s.", rsite->site_index, lv->name, rsite->name); r = 0; } if (rsite->site_index > rseg->rsite_index_highest) { log_error("Site index %d > %d (too high) " "for replicator site %s/%s.", rsite->site_index, rseg->rsite_index_highest, lv->name, rsite->name); r = 0; } } dm_list_iterate_items(rdev, &rsite->rdevices) { dm_list_iterate_items(rdevb, &rsite->rdevices) { if (rdev == rdevb) break; if (rdev->slog && (rdev->slog == rdevb->slog)) { log_error("Duplicate sync log %s " "detected for replicator %s.", rdev->slog->name, lv->name); r = 0; } if (strcasecmp(rdev->name, rdevb->name) == 0) { log_error("Duplicate device name %s " "detected for replicator %s.", rdev->name, lv->name); r = 0; } if (rdev->device_index == rdevb->device_index) { log_error("Duplicate device index %" PRId64 " detected for " "replicator site %s/%s.", rdev->device_index, lv->name, rsite->name); r = 0; } if (rdev->device_index > rseg->rdevice_index_highest) { log_error("Device index %" PRIu64 " > %" PRIu64 " (too high) " "for replicator site %s/%s.", rdev->device_index, rseg->rdevice_index_highest, lv->name, rsite->name); r = 0; } } } } return r; } /** * Is this segment part of active replicator */ int lv_is_active_replicator_dev(const struct logical_volume *lv) { return ((lv->status & REPLICATOR) && lv->rdevice && lv->rdevice->rsite && lv->rdevice->rsite->state == REPLICATOR_STATE_ACTIVE); } /** * Is this LV replicator control device */ int lv_is_replicator(const struct logical_volume *lv) { return ((lv->status & REPLICATOR) && !dm_list_empty(&lv->segments) && seg_is_replicator(first_seg(lv))); } /** * Is this LV replicator device */ int lv_is_replicator_dev(const struct logical_volume *lv) { return ((lv->status & REPLICATOR) && !dm_list_empty(&lv->segments) && seg_is_replicator_dev(first_seg(lv))); } /** * Is this LV replicated origin lv */ int lv_is_rimage(const struct logical_volume *lv) { return (lv->rdevice && lv->rdevice->lv == lv); } /** * Is this LV sync log */ int lv_is_slog(const struct logical_volume *lv) { return (lv->rdevice && lv->rdevice->slog == lv); } /** * Returns first replicator-dev in site in case the LV is replicator-dev, * NULL otherwise */ struct logical_volume *first_replicator_dev(const struct logical_volume *lv) { struct replicator_device *rdev; struct replicator_site *rsite; if (lv_is_replicator_dev(lv)) dm_list_iterate_items(rsite, &first_seg(lv)->replicator->rsites) { dm_list_iterate_items(rdev, &rsite->rdevices) return rdev->replicator_dev->lv; break; } return NULL; } /** * Add VG open parameters to sorted cmd_vg list. * * Maintain the alphabeticaly ordered list, avoid duplications. * * \return Returns newly created or already present cmd_vg entry, * or NULL in error case. */ struct cmd_vg *cmd_vg_add(struct dm_pool *mem, struct dm_list *cmd_vgs, const char *vg_name, const char *vgid, uint32_t flags) { struct cmd_vg *cvl, *ins; if (!vg_name && !vgid) { log_error("Either vg_name or vgid must be set."); return NULL; } /* Is it already in the list ? */ if ((cvl = cmd_vg_lookup(cmd_vgs, vg_name, vgid))) return cvl; if (!(cvl = dm_pool_zalloc(mem, sizeof(*cvl)))) { log_error("Allocation of cmd_vg failed."); return NULL; } if (vg_name && !(cvl->vg_name = dm_pool_strdup(mem, vg_name))) { dm_pool_free(mem, cvl); log_error("Allocation of vg_name failed."); return NULL; } if (vgid && !(cvl->vgid = dm_pool_strdup(mem, vgid))) { dm_pool_free(mem, cvl); log_error("Allocation of vgid failed."); return NULL; } cvl->flags = flags; if (vg_name) dm_list_iterate_items(ins, cmd_vgs) if (strcmp(vg_name, ins->vg_name) < 0) { cmd_vgs = &ins->list; /* new position */ break; } dm_list_add(cmd_vgs, &cvl->list); return cvl; } /** * Find cmd_vg with given vg_name in cmd_vgs list. * * \param cmd_vgs List of cmd_vg entries. * * \param vg_name Name of VG to be found. * \param vgid UUID of VG to be found. * * \return Returns cmd_vg entry if vg_name or vgid is found, * NULL otherwise. */ struct cmd_vg *cmd_vg_lookup(struct dm_list *cmd_vgs, const char *vg_name, const char *vgid) { struct cmd_vg *cvl; dm_list_iterate_items(cvl, cmd_vgs) if ((vgid && cvl->vgid && !strcmp(vgid, cvl->vgid)) || (vg_name && cvl->vg_name && !strcmp(vg_name, cvl->vg_name))) return cvl; return NULL; } /** * Read and lock multiple VGs stored in cmd_vgs list alphabeticaly. * On the success list head pointer is set to VGs' cmd_vgs. * (supports FAILED_INCONSISTENT) * * \param cmd_vg Contains list of cmd_vg entries. * * \return Returns 1 if all VG in cmd_vgs list are correctly * openned and locked, 0 otherwise. */ int cmd_vg_read(struct cmd_context *cmd, struct dm_list *cmd_vgs) { struct cmd_vg *cvl; /* Iterate through alphabeticaly ordered cmd_vg list */ dm_list_iterate_items(cvl, cmd_vgs) { cvl->vg = vg_read(cmd, cvl->vg_name, cvl->vgid, cvl->flags); if (vg_read_error(cvl->vg)) { log_debug_metadata("Failed to vg_read %s", cvl->vg_name); return 0; } cvl->vg->cmd_vgs = cmd_vgs; /* Make it usable in VG */ } return 1; } /** * Release opened and locked VGs from list. * * \param cmd_vgs Contains list of cmd_vg entries. */ void free_cmd_vgs(struct dm_list *cmd_vgs) { struct cmd_vg *cvl; /* Backward iterate cmd_vg list */ dm_list_iterate_back_items(cvl, cmd_vgs) { if (vg_read_error(cvl->vg)) release_vg(cvl->vg); else unlock_and_release_vg(cvl->vg->cmd, cvl->vg, cvl->vg_name); cvl->vg = NULL; } } /** * Find all needed remote VGs for processing given LV. * Missing VGs are added to VG's cmd_vg list and flag cmd_missing_vgs is set. */ int find_replicator_vgs(const struct logical_volume *lv) { struct replicator_site *rsite; int ret = 1; if (!lv_is_replicator_dev(lv)) return 1; dm_list_iterate_items(rsite, &first_seg(lv)->replicator->rsites) { if (!rsite->vg_name || !lv->vg->cmd_vgs || cmd_vg_lookup(lv->vg->cmd_vgs, rsite->vg_name, NULL)) continue; ret = 0; /* Using cmd memory pool for cmd_vg list allocation */ if (!cmd_vg_add(lv->vg->cmd->mem, lv->vg->cmd_vgs, rsite->vg_name, NULL, 0)) { lv->vg->cmd_missing_vgs = 0; /* do not retry */ stack; break; } log_debug_metadata("VG: %s added as missing.", rsite->vg_name); lv->vg->cmd_missing_vgs++; } return ret; } /** * Read all remote VGs from lv's replicator sites. * Function is used in activation context and needs all VGs already locked. */ int lv_read_replicator_vgs(const struct logical_volume *lv) { struct replicator_device *rdev; struct replicator_site *rsite; struct volume_group *vg; if (!lv_is_replicator_dev(lv)) return 1; dm_list_iterate_items(rsite, &first_seg(lv)->replicator->rsites) { if (!rsite->vg_name) continue; vg = vg_read(lv->vg->cmd, rsite->vg_name, 0, 0); // READ_WITHOUT_LOCK if (vg_read_error(vg)) { log_error("Unable to read volume group %s", rsite->vg_name); goto bad; } rsite->vg = vg; /* FIXME: handling missing LVs needs to be better */ dm_list_iterate_items(rdev, &rsite->rdevices) if (!(rdev->lv = find_lv(vg, rdev->name))) { log_error("Unable to find %s in volume group %s", rdev->name, rsite->vg_name); goto bad; } } return 1; bad: lv_release_replicator_vgs(lv); return 0; } /** * Release all VG resources taken by lv's replicator sites. * Function is used in activation context and needs all VGs already locked. */ void lv_release_replicator_vgs(const struct logical_volume *lv) { struct replicator_site *rsite; if (!lv_is_replicator_dev(lv)) return; dm_list_iterate_back_items(rsite, &first_seg(lv)->replicator->rsites) if (rsite->vg_name && rsite->vg) { release_vg(rsite->vg); rsite->vg = NULL; } }