/* * 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 "toolcontext.h" #include "metadata.h" #include "segtype.h" #include "text_export.h" #include "text_import.h" #include "config.h" #include "activate.h" #include "str_list.h" #ifdef DMEVENTD # include "sharedlib.h" # include "libdevmapper-event.h" #endif /* Dm kernel module name for replicator */ #define REPLICATOR_MODULE "replicator" #define REPLICATOR_DEV_MODULE "replicator-dev" /* * Macro used as return argument - returns 0. * return is left to be written in the function for better readability. */ #define SEG_LOG_ERROR(t, p...) \ log_error(t " segment %s of logical volume %s.", ## p, \ config_parent_name(sn), seg->lv->name), 0; /* * Replicator target */ static const char *_replicator_name(const struct lv_segment *seg) { return seg->segtype->name; } /* FIXME: missing implementation */ static void _replicator_display(const struct lv_segment *seg) { //const char *size; //uint32_t s; log_print(" Replicator"); if (seg->rlog_lv) log_print(" Replicator volume\t%s", seg->rlog_lv->name); } /* Wrapper for get_config_uint32() with default value */ static uint32_t _get_config_uint32(const struct config_node *cn, const char *path, uint32_t def) { uint32_t t; return get_config_uint32(cn, path, &t) ? t : def; } /* Wrapper for get_config_uint64() with default value */ static uint64_t _get_config_uint64(const struct config_node *cn, const char *path, uint64_t def) { uint64_t t; return get_config_uint64(cn, path, &t) ? t : def; } /* Strings replicator_state_t enum */ static const char _state_txt[NUM_REPLICATOR_STATE][8] = { "passive", "active" }; /* Parse state string */ static replicator_state_t _get_state(const struct config_node *sn, const char *path, replicator_state_t def) { const char *str; unsigned i; if (get_config_str(sn, path, &str)) { for (i = 0; i < sizeof(_state_txt)/sizeof(_state_txt[0]); ++i) if (strcasecmp(str, _state_txt[i]) == 0) return (replicator_state_t) i; log_warn("%s: unknown value '%s', using default '%s' state", path, str, _state_txt[def]); } return def; } /* Strings for replicator_action_t enum */ static const char _op_mode_txt[NUM_DM_REPLICATOR_MODES][8] = { "sync", "warn", "stall", "drop", "fail" }; /* Parse action string */ static dm_replicator_mode_t _get_op_mode(const struct config_node *sn, const char *path, dm_replicator_mode_t def) { const char *str; unsigned i; if (get_config_str(sn, path, &str)) { for (i = 0; i < sizeof(_op_mode_txt)/sizeof(_op_mode_txt[0]); ++i) if (strcasecmp(str, _op_mode_txt[i]) == 0) { log_very_verbose("Setting %s to %s", path, _op_mode_txt[i]); return (dm_replicator_mode_t) i; } log_warn("%s: unknown value '%s', using default '%s' operation mode", path, str, _op_mode_txt[def]); } return def; } static struct replicator_site *_get_site(struct logical_volume *replicator, const char *key) { struct dm_pool *mem = replicator->vg->vgmem; struct replicator_site *rsite; dm_list_iterate_items(rsite, &replicator->rsites) if (strcasecmp(rsite->name, key) == 0) return rsite; if (!(rsite = dm_pool_zalloc(mem, sizeof(*rsite)))) return_NULL; if (!(rsite->name = dm_pool_strdup(mem, key))) return_NULL; rsite->replicator = replicator; dm_list_init(&rsite->rdevices); dm_list_add(&replicator->rsites, &rsite->list); return rsite; } /* Parse replicator site element */ static int _add_site(struct lv_segment *seg, const char *key, const struct config_node *sn) { struct dm_pool *mem = seg->lv->vg->vgmem; const struct config_node *cn; struct replicator_site *rsite; if (!(rsite = _get_site(seg->lv, key))) return_0; if (!find_config_node(sn, "site_index")) return SEG_LOG_ERROR("Mandatory site_index is missing for"); rsite->state = _get_state(sn, "state", REPLICATOR_STATE_PASSIVE); rsite->site_index = _get_config_uint32(sn, "site_index", 0); if (rsite->site_index > seg->rsite_index_highest) return SEG_LOG_ERROR("site_index=%d > highest_site_index=%d for", rsite->site_index, seg->rsite_index_highest); rsite->fall_behind_data = _get_config_uint64(sn, "fall_behind_data", 0); rsite->fall_behind_ios = _get_config_uint32(sn, "fall_behind_ios", 0); rsite->fall_behind_timeout = _get_config_uint32(sn, "fall_behind_timeout", 0); rsite->op_mode = DM_REPLICATOR_SYNC; if (rsite->fall_behind_data || rsite->fall_behind_ios || rsite->fall_behind_timeout) { if (rsite->fall_behind_data && rsite->fall_behind_ios) return SEG_LOG_ERROR("Defined both fall_behind_data " "and fall_behind_ios in"); if (rsite->fall_behind_data && rsite->fall_behind_timeout) return SEG_LOG_ERROR("Defined both fall_behind_data " "and fall_behind_timeout in"); if (rsite->fall_behind_ios && rsite->fall_behind_timeout) return SEG_LOG_ERROR("Defined both fall_behind_ios " "and fall_behind_timeout in"); rsite->op_mode = _get_op_mode(sn, "operation_mode", rsite->op_mode); } if ((cn = find_config_node(sn, "volume_group"))) { if (!cn->v || cn->v->type != CFG_STRING) return SEG_LOG_ERROR("volume_group must be a string in"); if (!(rsite->vg_name = dm_pool_strdup(mem, cn->v->v.str))) return_0; } else if (rsite->site_index != 0) return SEG_LOG_ERROR("volume_group is mandatory for remote site in"); return 1; } /* Import replicator segment */ static int _replicator_text_import(struct lv_segment *seg, const struct config_node *sn, struct dm_hash_table *pv_hash __attribute__((unused))) { const struct config_node *cn; struct logical_volume *rlog_lv; if (!replicator_add_replicator_dev(seg->lv, NULL)) return_0; if (!(cn = find_config_node(sn, "replicator_log")) || !cn->v || cn->v->type != CFG_STRING) return SEG_LOG_ERROR("Replicator log type must be a string in"); if (!(rlog_lv = find_lv(seg->lv->vg, cn->v->v.str))) return SEG_LOG_ERROR("Unknown replicator log %s in", cn->v->v.str); if (!(cn = find_config_node(sn, "replicator_log_type")) || !cn->v || cn->v->type != CFG_STRING) return SEG_LOG_ERROR("Replicator log's type must be a string in"); if (strcasecmp(cn->v->v.str, "ringbuffer")) return SEG_LOG_ERROR("Only ringbuffer replicator log type is supported in"); if (!(seg->rlog_type = dm_pool_strdup(seg->lv->vg->vgmem, cn->v->v.str))) return_0; log_very_verbose("replicator_log = %s", rlog_lv->name); log_very_verbose("replicator_log_type = %s", seg->rlog_type); if (!replicator_add_rlog(seg, rlog_lv)) return_0; seg->rdevice_index_highest = _get_config_uint64(sn, "highest_device_index", 0); seg->rsite_index_highest = _get_config_uint32(sn, "highest_site_index", 0); seg->region_size = _get_config_uint32(sn, "sync_log_size", 0); for (; sn; sn = sn->sib) if (!sn->v) { for (cn = sn->sib; cn; cn = cn->sib) if (!cn->v && (strcasecmp(cn->key ,sn->key) == 0)) return SEG_LOG_ERROR("Detected duplicate site " "name %s in", sn->key); if (!_add_site(seg, sn->key, sn->child)) return_0; } return 1; } /* Export replicator segment */ static int _replicator_text_export(const struct lv_segment *seg, struct formatter *f) { struct replicator_site *rsite; if (!seg->rlog_lv) return_0; outf(f, "replicator_log = \"%s\"", seg->rlog_lv->name); outf(f, "replicator_log_type = \"%s\"", seg->rlog_type); outf(f, "highest_device_index = %" PRIu64, seg->rdevice_index_highest); outf(f, "highest_site_index = %d", seg->rsite_index_highest); if (seg->region_size) outsize(f, (uint64_t)seg->region_size, "sync_log_size = %" PRIu32, seg->region_size); if (!dm_list_empty(&seg->lv->rsites)) outnl(f); dm_list_iterate_items(rsite, &seg->lv->rsites) { outf(f, "%s {", rsite->name); out_inc_indent(f); outf(f, "state = \"%s\"", _state_txt[rsite->state]); outf(f, "site_index = %d", rsite->site_index); /* Only non-default parameters are written */ if (rsite->op_mode != DM_REPLICATOR_SYNC) outf(f, "operation_mode = \"%s\"", _op_mode_txt[rsite->op_mode]); if (rsite->fall_behind_timeout) outfc(f, "# seconds", "fall_behind_timeout = %u", rsite->fall_behind_timeout); if (rsite->fall_behind_ios) outfc(f, "# io operations", "fall_behind_ios = %u", rsite->fall_behind_ios); if (rsite->fall_behind_data) outsize(f, rsite->fall_behind_data, "fall_behind_data = %" PRIu64, rsite->fall_behind_data); if (rsite->state != REPLICATOR_STATE_ACTIVE && rsite->vg_name) outf(f, "volume_group = \"%s\"", rsite->vg_name); out_dec_indent(f); outf(f, "}"); } return 1; } #ifdef DEVMAPPER_SUPPORT static int _replicator_add_target_line(struct dev_manager *dm, struct dm_pool *mem, struct cmd_context *cmd, void **target_state, struct lv_segment *seg, struct dm_tree_node *node, uint64_t len, uint32_t *pvmove_mirror_count) { const char *rlog_dlid; struct replicator_site *rsite; if (!seg->rlog_lv) return_0; if (!(rlog_dlid = build_dm_uuid(mem, seg->rlog_lv->lvid.s, NULL))) return_0; dm_list_iterate_items(rsite, &seg->lv->rsites) { if (!dm_tree_node_add_replicator_target(node, seg->rlog_lv->size, rlog_dlid, seg->rlog_type, rsite->site_index, rsite->op_mode, rsite->fall_behind_timeout, rsite->fall_behind_data, rsite->fall_behind_ios)) { if (rsite->site_index == 0) { log_error("Failed to add replicator log '%s' " "to replicator '%s'.", rlog_dlid, seg->lv->name); return 0; } // FIXME: } } return 1; } /* FIXME: write something useful for replicator here */ static int _replicator_target_percent(void **target_state, percent_t *percent, struct dm_pool *mem, struct cmd_context *cmd, struct lv_segment *seg, char *params, uint64_t *total_numerator, uint64_t *total_denominator) { return 1; } /* Check for module presence */ static int _replicator_target_present(struct cmd_context *cmd, const struct lv_segment *seg __attribute__((unused)), unsigned *attributes __attribute__((unused))) { static int _checked = 0; static int _present = 0; if (!_checked) { _present = target_present(cmd, REPLICATOR_MODULE, 1); _checked = 1; } return _present; } #endif static int _replicator_modules_needed(struct dm_pool *mem, const struct lv_segment *seg __attribute__((unused)), struct dm_list *modules) { if (!str_list_add(mem, modules, REPLICATOR_MODULE)) return_0; if (!str_list_add(mem, modules, REPLICATOR_DEV_MODULE)) return_0; return 1; } static void _replicator_destroy(struct segment_type *segtype) { dm_free(segtype); } static struct segtype_handler _replicator_ops = { .name = _replicator_name, .display = _replicator_display, .text_import = _replicator_text_import, .text_export = _replicator_text_export, #ifdef DEVMAPPER_SUPPORT .add_target_line = _replicator_add_target_line, .target_percent = _replicator_target_percent, .target_present = _replicator_target_present, #endif .modules_needed = _replicator_modules_needed, .destroy = _replicator_destroy, }; /* * Replicator-dev target */ static void _replicator_dev_display(const struct lv_segment *seg) { //const char *size; //uint32_t s; // FIXME: debug test code for now log_print(" Replicator\t\t%u", seg->area_count); log_print(" Mirror size\t\t%u", seg->area_len); if (seg->log_lv) log_print(" Replicator log volume\t%s", seg->rlog_lv->name); } static int _add_device(struct lv_segment *seg, const char *site_name, const struct config_node *sn, uint64_t devidx) { struct dm_pool *mem = seg->lv->vg->vgmem; struct logical_volume *lv = NULL; struct logical_volume *slog_lv = NULL; struct replicator_site *rsite = _get_site(seg->replicator, site_name); struct replicator_device *rdev; const char *dev_str = NULL; const char *slog_str = NULL; const struct config_node *cn; dm_list_iterate_items(rdev, &rsite->rdevices) if (rdev->replicator_dev == seg) return SEG_LOG_ERROR("Duplicate site found in"); if ((cn = find_config_node(sn, "sync_log"))) { if (!cn->v || !cn->v->v.str) return SEG_LOG_ERROR("Sync log must be a string in"); slog_str = cn->v->v.str; } if (!(cn = find_config_node(sn, "logical_volume")) || !cn->v || !cn->v->v.str) return SEG_LOG_ERROR("Logical volume must be a string in"); dev_str = cn->v->v.str; if (!seg->lv->rdevice) { if (slog_str) return SEG_LOG_ERROR("Sync log %s defined for local " "device in", slog_str); /* Check for device in current VG */ if (!(lv = find_lv(seg->lv->vg, dev_str))) return SEG_LOG_ERROR("Logical volume %s not found in", dev_str); } else { if (!slog_str) return SEG_LOG_ERROR("Sync log is missing for remote " "device in"); /* Check for slog device in current VG */ if (!(slog_lv = find_lv(seg->lv->vg, slog_str))) return SEG_LOG_ERROR("Sync log %s not found in", slog_str); } if (!(rdev = dm_pool_zalloc(mem, sizeof(*rdev)))) return_0; if (!(rdev->name = dm_pool_strdup(mem, dev_str))) return_0; rdev->replicator_dev = seg; rdev->rsite = rsite; rdev->device_index = devidx; if (!seg->lv->rdevice) { if (!replicator_dev_add_rimage(rdev, lv)) return SEG_LOG_ERROR("LV inconsistency found in"); seg->lv->rdevice = rdev; } else { if (!slog_str || !(rdev->slog_name = dm_pool_strdup(mem, slog_str))) return_0; if (!replicator_dev_add_slog(rdev, slog_lv)) return SEG_LOG_ERROR("Sync log inconsistency found in"); } dm_list_add(&rsite->rdevices, &rdev->list);// linked site list return 1; } /* Import replicator segment */ static int _replicator_dev_text_import(struct lv_segment *seg, const struct config_node *sn, struct dm_hash_table *pv_hash __attribute__((unused))) { const struct config_node *cn; struct logical_volume *replicator; uint64_t devidx; if (!(cn = find_config_node(sn, "replicator"))) return SEG_LOG_ERROR("Replicator is missing for"); if (!cn->v || !cn->v->v.str) return SEG_LOG_ERROR("Replicator must be a string for"); if (!(replicator = find_lv(seg->lv->vg, cn->v->v.str))) return SEG_LOG_ERROR("Unknown replicator %s for", cn->v->v.str); if (!replicator_add_replicator_dev(replicator, seg)) return_0; log_very_verbose("replicator=%s", replicator->name); /* Mandatory */ if (!find_config_node(sn, "device_index") || !get_config_uint64(sn, "device_index", &devidx)) return SEG_LOG_ERROR("Could not read 'device_index' for"); /* Read devices from sites */ for (; sn; sn = sn->sib) if (!(sn->v) && !_add_device(seg, sn->key, sn->child, devidx)) return_0; if (!seg->lv->rdevice) return SEG_LOG_ERROR("Replicator device without site in"); seg->rlog_lv = NULL; seg->lv->status |= REPLICATOR; return 1; } /* Export replicator-dev segment */ static int _replicator_dev_text_export(const struct lv_segment *seg, struct formatter *f) { struct replicator_site *rsite; struct replicator_device *rdev; if (!seg->replicator || !seg->lv->rdevice) return_0; outf(f, "replicator = \"%s\"", seg->replicator->name); outf(f, "device_index = %" PRId64, seg->lv->rdevice->device_index); outnl(f); dm_list_iterate_items(rsite, &seg->replicator->rsites) { dm_list_iterate_items(rdev, &rsite->rdevices) { if (rdev->replicator_dev != seg) continue; outf(f, "%s {", rdev->rsite->name); out_inc_indent(f); outf(f, "logical_volume = \"%s\"", rdev->name ? rdev->name : rdev->lv->name); if (rdev->slog) outf(f, "sync_log = \"%s\"", rdev->slog->name); else if (rdev->slog_name) outf(f, "sync_log = \"%s\"", rdev->slog_name); out_dec_indent(f); outf(f, "}"); } } return 1; } #ifdef DEVMAPPER_SUPPORT /* * Add target for passive site matching the device index */ static int _replicator_dev_add_target_line(struct dev_manager *dm, struct dm_pool *mem, struct cmd_context *cmd, void **target_state, struct lv_segment *seg, struct dm_tree_node *node, uint64_t len, uint32_t *pvmove_mirror_count) { const char *replicator_dlid, *rdev_dlid, *slog_dlid; struct replicator_device *rdev, *rdev_search; struct replicator_site *rsite; uint32_t slog_size; uint32_t slog_flags; if (!lv_is_active_replicator_dev(seg->lv)) { /* Create passive linear mapping */ log_very_verbose("Inactive replicator %s using %s.", seg->lv->name, seg->lv->rdevice->lv->name); if (!dm_tree_node_add_linear_target(node, seg->lv->size)) return_0; if (!(rdev_dlid = build_dm_uuid(mem, seg->lv->rdevice->lv->lvid.s, NULL))) return_0; return dm_tree_node_add_target_area(node, NULL, rdev_dlid, 0); } else if (seg->lv->rdevice->rsite->site_index) { log_error("Active site with site_index != 0 (%s, %d)", seg->lv->rdevice->rsite->name, seg->lv->rdevice->rsite->site_index); return 0; /* Replicator without any active site */ } /* * At this point all devices that have some connection with replicator * must be present in dm_tree */ if (!seg_is_replicator_dev(seg) || !(replicator_dlid = build_dm_uuid(mem, seg->replicator->lvid.s, NULL))) return_0; /* Select remote devices with the same device index */ dm_list_iterate_items(rsite, &seg->replicator->rsites) { if (rsite->site_index == 0) { /* Local slink0 device */ rdev = seg->lv->rdevice; } else { rdev = NULL; dm_list_iterate_items(rdev_search, &rsite->rdevices) { if (rdev_search->replicator_dev == seg) { rdev = rdev_search; break; } } if (!rdev) { log_error(INTERNAL_ERROR "rdev list not found."); return 0; } } if (!rdev->lv || !(rdev_dlid = build_dm_uuid(mem, rdev->lv->lvid.s, NULL))) return_0; slog_dlid = NULL; /* Using either disk or core (in memory) log */ if (rdev->slog) { slog_flags = DM_NOSYNC; slog_size = (uint32_t) rdev->slog->size; if (!(slog_dlid = build_dm_uuid(mem, rdev->slog->lvid.s, NULL))) return_0; } else if (rdev->slog_name && sscanf(rdev->slog_name, "%" PRIu32, &slog_size) == 1) { slog_flags = DM_CORELOG | DM_FORCESYNC; if (slog_size == 0) { log_error("Failed to use empty corelog size " "in replicator '%s'.", rsite->replicator->name); return 0; } } else { slog_flags = DM_CORELOG | DM_FORCESYNC; slog_size = 0; /* NOLOG */ } if (!dm_tree_node_add_replicator_dev_target(node, seg->lv->size, replicator_dlid, seg->lv->rdevice->device_index, rdev_dlid, rsite->site_index, slog_dlid, slog_flags, slog_size)) { return_0; /* FIXME: handle 'state = dropped' in future */ } } return 1; } /* FIXME: write something useful for replicator-dev here */ static int _replicator_dev_target_percent(void **target_state, percent_t *percent, struct dm_pool *mem, struct cmd_context *cmd, struct lv_segment *seg, char *params, uint64_t *total_numerator, uint64_t *total_denominator) { return 1; } /* Check for module presence */ static int _replicator_dev_target_present(struct cmd_context *cmd, const struct lv_segment *seg __attribute__((unused)), unsigned *attributes __attribute__((unused))) { static int _checked = 0; static int _present = 0; if (!_checked) { _present = target_present(cmd, REPLICATOR_DEV_MODULE, 1); _checked = 1; } return _present; } #endif static struct segtype_handler _replicator_dev_ops = { .name = _replicator_name, .display = _replicator_dev_display, .text_import = _replicator_dev_text_import, .text_export = _replicator_dev_text_export, #ifdef DEVMAPPER_SUPPORT .add_target_line = _replicator_dev_add_target_line, .target_percent = _replicator_dev_target_percent, .target_present = _replicator_dev_target_present, #endif .modules_needed = _replicator_modules_needed, .destroy = _replicator_destroy, }; #ifdef REPLICATOR_INTERNAL int init_replicator_segtype(struct segtype_library *seglib) #else /* Shared */ int init_multiple_segtype(struct segtype_library *seglib); int init_multiple_segtype(struct segtype_library *seglib) #endif { struct segment_type *segtype; if (!(segtype = dm_malloc(sizeof(*segtype)))) return_0; segtype->ops = &_replicator_ops; segtype->name = REPLICATOR_MODULE; segtype->private = NULL; segtype->flags = SEG_REPLICATOR; if (!lvm_register_segtype(seglib, segtype)) return_0; log_very_verbose("Initialised segtype: " REPLICATOR_MODULE); if (!(segtype = dm_malloc(sizeof(*segtype)))) return_0; segtype->ops = &_replicator_dev_ops; segtype->name = REPLICATOR_DEV_MODULE; segtype->private = NULL; segtype->flags = SEG_REPLICATOR_DEV; if (!lvm_register_segtype(seglib, segtype)) return_0; log_very_verbose("Initialised segtype: " REPLICATOR_DEV_MODULE); return 1; }