/* * Copyright (C) 2011 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 "segtype.h" #include "display.h" #include "text_export.h" #include "text_import.h" #include "config.h" #include "str_list.h" #include "targets.h" #include "lvm-string.h" #include "activate.h" #include "metadata.h" #include "lv_alloc.h" #include "defaults.h" static const char *_raid_name(const struct lv_segment *seg) { return seg->segtype->name; } static int _raid_text_import_area_count(const struct dm_config_node *sn, uint32_t *area_count) { if (!dm_config_get_uint32(sn, "device_count", area_count)) { log_error("Couldn't read 'device_count' for " "segment '%s'.", dm_config_parent_name(sn)); return 0; } return 1; } static int _raid_text_import_areas(struct lv_segment *seg, const struct dm_config_node *sn, const struct dm_config_value *cv) { unsigned int s; struct logical_volume *lv1; const char *seg_name = dm_config_parent_name(sn); if (!seg->area_count) { log_error("No areas found for segment %s", seg_name); return 0; } for (s = 0; cv && s < seg->area_count; s++, cv = cv->next) { if (cv->type != DM_CFG_STRING) { log_error("Bad volume name in areas array for segment %s.", seg_name); return 0; } if (!cv->next) { log_error("Missing data device in areas array for segment %s.", seg_name); return 0; } /* Metadata device comes first */ if (!(lv1 = find_lv(seg->lv->vg, cv->v.str))) { log_error("Couldn't find volume '%s' for segment '%s'.", cv->v.str ? : "NULL", seg_name); return 0; } if (!set_lv_segment_area_lv(seg, s, lv1, 0, RAID_META)) return_0; /* Data device comes second */ cv = cv->next; if (!(lv1 = find_lv(seg->lv->vg, cv->v.str))) { log_error("Couldn't find volume '%s' for segment '%s'.", cv->v.str ? : "NULL", seg_name); return 0; } if (!set_lv_segment_area_lv(seg, s, lv1, 0, RAID_IMAGE)) return_0; } /* * Check we read the correct number of RAID data/meta pairs. */ if (cv || (s < seg->area_count)) { log_error("Incorrect number of areas in area array " "for segment '%s'.", seg_name); return 0; } return 1; } static int _raid_text_import(struct lv_segment *seg, const struct dm_config_node *sn, struct dm_hash_table *pv_hash) { const struct dm_config_value *cv; if (dm_config_has_node(sn, "region_size")) { if (!dm_config_get_uint32(sn, "region_size", &seg->region_size)) { log_error("Couldn't read 'region_size' for " "segment %s of logical volume %s.", dm_config_parent_name(sn), seg->lv->name); return 0; } } if (dm_config_has_node(sn, "stripe_size")) { if (!dm_config_get_uint32(sn, "stripe_size", &seg->stripe_size)) { log_error("Couldn't read 'stripe_size' for " "segment %s of logical volume %s.", dm_config_parent_name(sn), seg->lv->name); return 0; } } if (!dm_config_get_list(sn, "raids", &cv)) { log_error("Couldn't find RAID array for " "segment %s of logical volume %s.", dm_config_parent_name(sn), seg->lv->name); return 0; } if (!_raid_text_import_areas(seg, sn, cv)) { log_error("Failed to import RAID images"); return 0; } seg->status |= RAID; return 1; } static int _raid_text_export(const struct lv_segment *seg, struct formatter *f) { outf(f, "device_count = %u", seg->area_count); if (seg->region_size) outf(f, "region_size = %" PRIu32, seg->region_size); if (seg->stripe_size) outf(f, "stripe_size = %" PRIu32, seg->stripe_size); return out_areas(f, seg, "raid"); } static int _raid_add_target_line(struct dev_manager *dm __attribute__((unused)), struct dm_pool *mem __attribute__((unused)), struct cmd_context *cmd __attribute__((unused)), void **target_state __attribute__((unused)), struct lv_segment *seg, const struct lv_activate_opts *laopts __attribute__((unused)), struct dm_tree_node *node, uint64_t len, uint32_t *pvmove_mirror_count __attribute__((unused))) { uint32_t s; uint64_t rebuilds = 0; if (!seg->area_count) { log_error(INTERNAL_ERROR "_raid_add_target_line called " "with no areas for %s.", seg->lv->name); return 0; } /* * 64 device restriction imposed by kernel as well. It is * not strictly a userspace limitation. */ if (seg->area_count > 64) { log_error("Unable to handle more than 64 devices in a " "single RAID array"); return 0; } if (!seg->region_size) { log_error("Missing region size for mirror segment."); return 0; } for (s = 0; s < seg->area_count; s++) if (seg_lv(seg, s)->status & LV_NOTSYNCED) rebuilds |= 1 << s; if (!dm_tree_node_add_raid_target(node, len, _raid_name(seg), seg->region_size, seg->stripe_size, rebuilds, 0)) return_0; return add_areas_line(dm, seg, node, 0u, seg->area_count); } static int _raid_target_status_compatible(const char *type) { return (strstr(type, "raid") != NULL); } static int _raid_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) { int i; uint64_t numerator, denominator; char *pos = params; /* * Status line: * <#devs> / * Example: * raid1 2 AA 1024000/1024000 */ for (i = 0; i < 3; i++) { pos = strstr(pos, " "); if (pos) pos++; else break; } if (!pos || (sscanf(pos, "%" PRIu64 "/%" PRIu64 "%n", &numerator, &denominator, &i) != 2)) { log_error("Failed to parse %s status fraction: %s", seg->segtype->name, params); return 0; } *total_numerator += numerator; *total_denominator += denominator; if (seg) seg->extents_copied = seg->area_len * numerator / denominator; *percent = make_percent(numerator, denominator); return 1; } static int _raid_target_present(struct cmd_context *cmd, const struct lv_segment *seg __attribute__((unused)), unsigned *attributes __attribute__((unused))) { static int _raid_checked = 0; static int _raid_present = 0; if (!_raid_checked) _raid_present = target_present(cmd, "raid", 1); _raid_checked = 1; return _raid_present; } static int _raid_modules_needed(struct dm_pool *mem, const struct lv_segment *seg __attribute__((unused)), struct dm_list *modules) { if (!str_list_add(mem, modules, "raid")) { log_error("raid module string list allocation failed"); return 0; } return 1; } static void _raid_destroy(struct segment_type *segtype) { dm_free((void *) segtype); } #ifdef DEVMAPPER_SUPPORT #ifdef DMEVENTD static const char *_get_raid_dso_path(struct cmd_context *cmd) { const char *config_str = find_config_tree_str(cmd, "dmeventd/raid_library", DEFAULT_DMEVENTD_RAID_LIB); return get_monitor_dso_path(cmd, config_str); } static int _raid_target_monitored(struct lv_segment *seg, int *pending) { struct cmd_context *cmd = seg->lv->vg->cmd; const char *dso_path = _get_raid_dso_path(cmd); return target_registered_with_dmeventd(cmd, dso_path, seg->lv, pending); } static int _raid_set_events(struct lv_segment *seg, int evmask, int set) { struct cmd_context *cmd = seg->lv->vg->cmd; const char *dso_path = _get_raid_dso_path(cmd); return target_register_events(cmd, dso_path, seg->lv, evmask, set, 0); } static int _raid_target_monitor_events(struct lv_segment *seg, int events) { return _raid_set_events(seg, events, 1); } static int _raid_target_unmonitor_events(struct lv_segment *seg, int events) { return _raid_set_events(seg, events, 0); } #endif /* DEVMAPPER_SUPPORT */ #endif /* DMEVENTD */ static struct segtype_handler _raid_ops = { .name = _raid_name, .text_import_area_count = _raid_text_import_area_count, .text_import = _raid_text_import, .text_export = _raid_text_export, .add_target_line = _raid_add_target_line, .target_status_compatible = _raid_target_status_compatible, #ifdef DEVMAPPER_SUPPORT .target_percent = _raid_target_percent, .target_present = _raid_target_present, # ifdef DMEVENTD .target_monitored = _raid_target_monitored, .target_monitor_events = _raid_target_monitor_events, .target_unmonitor_events = _raid_target_unmonitor_events, # endif /* DMEVENTD */ #endif .modules_needed = _raid_modules_needed, .destroy = _raid_destroy, }; static struct segment_type *_init_raid_segtype(struct cmd_context *cmd, const char *raid_type) { struct segment_type *segtype = dm_zalloc(sizeof(*segtype)); if (!segtype) { log_error("Failed to allocate memory for %s segtype", raid_type); return_NULL; } segtype->cmd = cmd; segtype->flags = SEG_RAID; #ifdef DEVMAPPER_SUPPORT #ifdef DMEVENTD if (_get_raid_dso_path(cmd)) segtype->flags |= SEG_MONITORED; #endif #endif segtype->parity_devs = strstr(raid_type, "raid6") ? 2 : 1; segtype->ops = &_raid_ops; segtype->name = raid_type; segtype->private = NULL; log_very_verbose("Initialised segtype: %s", segtype->name); return segtype; } static struct segment_type *_init_raid1_segtype(struct cmd_context *cmd) { struct segment_type *segtype; segtype = _init_raid_segtype(cmd, "raid1"); if (!segtype) return NULL; segtype->flags |= SEG_AREAS_MIRRORED; segtype->parity_devs = 0; return segtype; } static struct segment_type *_init_raid4_segtype(struct cmd_context *cmd) { return _init_raid_segtype(cmd, "raid4"); } static struct segment_type *_init_raid5_segtype(struct cmd_context *cmd) { return _init_raid_segtype(cmd, "raid5"); } static struct segment_type *_init_raid5_la_segtype(struct cmd_context *cmd) { return _init_raid_segtype(cmd, "raid5_la"); } static struct segment_type *_init_raid5_ra_segtype(struct cmd_context *cmd) { return _init_raid_segtype(cmd, "raid5_ra"); } static struct segment_type *_init_raid5_ls_segtype(struct cmd_context *cmd) { return _init_raid_segtype(cmd, "raid5_ls"); } static struct segment_type *_init_raid5_rs_segtype(struct cmd_context *cmd) { return _init_raid_segtype(cmd, "raid5_rs"); } static struct segment_type *_init_raid6_segtype(struct cmd_context *cmd) { return _init_raid_segtype(cmd, "raid6"); } static struct segment_type *_init_raid6_zr_segtype(struct cmd_context *cmd) { return _init_raid_segtype(cmd, "raid6_zr"); } static struct segment_type *_init_raid6_nr_segtype(struct cmd_context *cmd) { return _init_raid_segtype(cmd, "raid6_nr"); } static struct segment_type *_init_raid6_nc_segtype(struct cmd_context *cmd) { return _init_raid_segtype(cmd, "raid6_nc"); } #ifdef RAID_INTERNAL /* Shared */ int init_raid_segtypes(struct cmd_context *cmd, struct segtype_library *seglib) #else int init_multiple_segtypes(struct cmd_context *cmd, struct segtype_library *seglib); int init_multiple_segtypes(struct cmd_context *cmd, struct segtype_library *seglib) #endif { struct segment_type *segtype; unsigned i = 0; struct segment_type *(*raid_segtype_fn[])(struct cmd_context *) = { _init_raid1_segtype, _init_raid4_segtype, _init_raid5_segtype, _init_raid5_la_segtype, _init_raid5_ra_segtype, _init_raid5_ls_segtype, _init_raid5_rs_segtype, _init_raid6_segtype, _init_raid6_zr_segtype, _init_raid6_nr_segtype, _init_raid6_nc_segtype, NULL, }; do { if ((segtype = raid_segtype_fn[i](cmd)) && !lvm_register_segtype(seglib, segtype)) return 0; } while (raid_segtype_fn[++i]); return 1; }