/* * Incremental.c - support --incremental. Part of: * mdadm - manage Linux "md" devices aka RAID arrays. * * Copyright (C) 2006-2009 Neil Brown * * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU 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 * * Author: Neil Brown * Email: * Paper: Neil Brown * Novell Inc * GPO Box Q1283 * QVB Post Office, NSW 1230 * Australia */ #include "mdadm.h" #include #include static int count_active(struct supertype *st, struct mdinfo *sra, int mdfd, char **availp, struct mdinfo *info); static void find_reject(int mdfd, struct supertype *st, struct mdinfo *sra, int number, __u64 events, int verbose, char *array_name); static int try_spare(char *devname, int *dfdp, struct dev_policy *pol, struct map_ent *target, struct supertype *st, int verbose); static int Incremental_container(struct supertype *st, char *devname, char *homehost, int verbose, int runstop, int autof, int freeze_reshape); int Incremental(char *devname, int verbose, int runstop, struct supertype *st, char *homehost, int require_homehost, int autof, int freeze_reshape) { /* Add this device to an array, creating the array if necessary * and starting the array if sensible or - if runstop>0 - if possible. * * This has several steps: * * 1/ Check if device is permitted by mdadm.conf, reject if not. * 2/ Find metadata, reject if none appropriate (check * version/name from args) * 3/ Check if there is a match in mdadm.conf * 3a/ if not, check for homehost match. If no match, assemble as * a 'foreign' array. * 4/ Determine device number. * - If in mdadm.conf with std name, use that * - UUID in /var/run/mdadm.map use that * - If name is suggestive, use that. unless in use with different uuid. * - Choose a free, high number. * - Use a partitioned device unless strong suggestion not to. * e.g. auto=md * Don't choose partitioned for containers. * 5/ Find out if array already exists * 5a/ if it does not * - choose a name, from mdadm.conf or 'name' field in array. * - create the array * - add the device * 5b/ if it does * - check one drive in array to make sure metadata is a reasonably * close match. Reject if not (e.g. different type) * - add the device * 6/ Make sure /var/run/mdadm.map contains this array. * 7/ Is there enough devices to possibly start the array? * For a container, this means running Incremental_container. * 7a/ if not, finish with success. * 7b/ if yes, * - read all metadata and arrange devices like -A does * - if number of OK devices match expected, or -R and there are enough, * start the array (auto-readonly). */ struct stat stb; struct mdinfo info, dinfo; struct mdinfo *sra = NULL, *d; struct mddev_ident *match; char chosen_name[1024]; int rv = 1; struct map_ent *mp, *map = NULL; int dfd = -1, mdfd = -1; char *avail = NULL; int active_disks; int trustworthy; char *name_to_use; mdu_array_info_t ainf; struct dev_policy *policy = NULL; struct map_ent target_array; int have_target; struct createinfo *ci = conf_get_create_info(); if (stat(devname, &stb) < 0) { if (verbose >= 0) fprintf(stderr, Name ": stat failed for %s: %s.\n", devname, strerror(errno)); return rv; } if ((stb.st_mode & S_IFMT) != S_IFBLK) { if (verbose >= 0) fprintf(stderr, Name ": %s is not a block device.\n", devname); return rv; } dfd = dev_open(devname, O_RDONLY|O_EXCL); if (dfd < 0) { if (verbose >= 0) fprintf(stderr, Name ": cannot open %s: %s.\n", devname, strerror(errno)); return rv; } /* If the device is a container, we do something very different */ if (must_be_container(dfd)) { if (!st) st = super_by_fd(dfd, NULL); if (st && st->ss->load_container) rv = st->ss->load_container(st, dfd, NULL); close(dfd); if (!rv && st->ss->container_content) { if (map_lock(&map)) fprintf(stderr, Name ": failed to get " "exclusive lock on mapfile\n"); rv = Incremental_container(st, devname, homehost, verbose, runstop, autof, freeze_reshape); map_unlock(&map); return rv; } fprintf(stderr, Name ": %s is not part of an md array.\n", devname); return rv; } /* 1/ Check if device is permitted by mdadm.conf */ if (!conf_test_dev(devname)) { if (verbose >= 0) fprintf(stderr, Name ": %s not permitted by mdadm.conf.\n", devname); goto out; } /* 2/ Find metadata, reject if none appropriate (check * version/name from args) */ if (fstat(dfd, &stb) < 0) { if (verbose >= 0) fprintf(stderr, Name ": fstat failed for %s: %s.\n", devname, strerror(errno)); goto out; } if ((stb.st_mode & S_IFMT) != S_IFBLK) { if (verbose >= 0) fprintf(stderr, Name ": %s is not a block device.\n", devname); goto out; } dinfo.disk.major = major(stb.st_rdev); dinfo.disk.minor = minor(stb.st_rdev); policy = disk_policy(&dinfo); have_target = policy_check_path(&dinfo, &target_array); if (st == NULL && (st = guess_super(dfd)) == NULL) { if (verbose >= 0) fprintf(stderr, Name ": no recognisable superblock on %s.\n", devname); rv = try_spare(devname, &dfd, policy, have_target ? &target_array : NULL, st, verbose); goto out; } if (st->ss->compare_super == NULL || st->ss->load_super(st, dfd, NULL)) { if (verbose >= 0) fprintf(stderr, Name ": no RAID superblock on %s.\n", devname); rv = try_spare(devname, &dfd, policy, have_target ? &target_array : NULL, st, verbose); free(st); goto out; } close (dfd); dfd = -1; st->ss->getinfo_super(st, &info, NULL); /* 3/ Check if there is a match in mdadm.conf */ match = conf_match(st, &info, devname, verbose, &rv); if (!match && rv == 2) goto out; if (match && match->devname && strcasecmp(match->devname, "") == 0) { if (verbose >= 0) fprintf(stderr, Name ": array containing %s is explicitly" " ignored by mdadm.conf\n", devname); goto out; } /* 3a/ if not, check for homehost match. If no match, continue * but don't trust the 'name' in the array. Thus a 'random' minor * number will be assigned, and the device name will be based * on that. */ if (match) trustworthy = LOCAL; else if (st->ss->match_home(st, homehost) == 1) trustworthy = LOCAL; else if (st->ss->match_home(st, "any") == 1) trustworthy = LOCAL_ANY; else trustworthy = FOREIGN; if (!match && !conf_test_metadata(st->ss->name, policy, (trustworthy == LOCAL))) { if (verbose >= 1) fprintf(stderr, Name ": %s has metadata type %s for which " "auto-assembly is disabled\n", devname, st->ss->name); goto out; } if (trustworthy == LOCAL_ANY) trustworthy = LOCAL; /* There are three possible sources for 'autof': command line, * ARRAY line in mdadm.conf, or CREATE line in mdadm.conf. * ARRAY takes precedence, then command line, then * CREATE. */ if (match && match->autof) autof = match->autof; if (autof == 0) autof = ci->autof; name_to_use = info.name; if (name_to_use[0] == 0 && info.array.level == LEVEL_CONTAINER) { name_to_use = info.text_version; trustworthy = METADATA; } if (name_to_use[0] && trustworthy != LOCAL && ! require_homehost && conf_name_is_free(name_to_use)) trustworthy = LOCAL; /* strip "hostname:" prefix from name if we have decided * to treat it as LOCAL */ if (trustworthy == LOCAL && strchr(name_to_use, ':') != NULL) name_to_use = strchr(name_to_use, ':')+1; /* 4/ Check if array exists. */ if (map_lock(&map)) fprintf(stderr, Name ": failed to get exclusive lock on " "mapfile\n"); mp = map_by_uuid(&map, info.uuid); if (mp) mdfd = open_dev(mp->devnum); else mdfd = -1; if (mdfd < 0) { /* Couldn't find an existing array, maybe make a new one */ mdfd = create_mddev(match ? match->devname : NULL, name_to_use, autof, trustworthy, chosen_name); if (mdfd < 0) goto out_unlock; sysfs_init(&info, mdfd, 0); if (set_array_info(mdfd, st, &info) != 0) { fprintf(stderr, Name ": failed to set array info for %s: %s\n", chosen_name, strerror(errno)); rv = 2; goto out_unlock; } dinfo = info; dinfo.disk.major = major(stb.st_rdev); dinfo.disk.minor = minor(stb.st_rdev); if (add_disk(mdfd, st, &info, &dinfo) != 0) { fprintf(stderr, Name ": failed to add %s to %s: %s.\n", devname, chosen_name, strerror(errno)); ioctl(mdfd, STOP_ARRAY, 0); rv = 2; goto out_unlock; } sra = sysfs_read(mdfd, -1, (GET_DEVS | GET_STATE | GET_OFFSET | GET_SIZE)); if (!sra || !sra->devs || sra->devs->disk.raid_disk >= 0) { /* It really should be 'none' - must be old buggy * kernel, and mdadm -I may not be able to complete. * So reject it. */ ioctl(mdfd, STOP_ARRAY, NULL); fprintf(stderr, Name ": You have an old buggy kernel which cannot support\n" " --incremental reliably. Aborting.\n"); rv = 2; goto out_unlock; } info.array.working_disks = 1; /* 6/ Make sure /var/run/mdadm.map contains this array. */ map_update(&map, fd2devnum(mdfd), info.text_version, info.uuid, chosen_name); } else { /* 5b/ if it does */ /* - check one drive in array to make sure metadata is a reasonably */ /* close match. Reject if not (e.g. different type) */ /* - add the device */ char dn[20]; int dfd2; int err; struct supertype *st2; struct mdinfo info2, *d; sra = sysfs_read(mdfd, -1, (GET_DEVS | GET_STATE | GET_OFFSET | GET_SIZE)); if (mp->path) strcpy(chosen_name, mp->path); else strcpy(chosen_name, devnum2devname(mp->devnum)); /* It is generally not OK to add non-spare drives to a * running array as they are probably missing because * they failed. However if runstop is 1, then the * array was possibly started early and our best bet is * to add this anyway. * Also if action policy is re-add or better we allow * re-add. * This doesn't apply to containers as the 'non-spare' * flag has a different meaning. The test has to happen * at the device level there */ if (!st->ss->external && (info.disk.state & (1<ss->name, act_re_add) && runstop < 1) { if (ioctl(mdfd, GET_ARRAY_INFO, &ainf) == 0) { fprintf(stderr, Name ": not adding %s to active array (without --run) %s\n", devname, chosen_name); rv = 2; goto out_unlock; } } if (!sra) { rv = 2; goto out_unlock; } if (sra->devs) { sprintf(dn, "%d:%d", sra->devs->disk.major, sra->devs->disk.minor); dfd2 = dev_open(dn, O_RDONLY); if (dfd2 < 0) { fprintf(stderr, Name ": unable to open %s\n", devname); rv = 2; goto out_unlock; } st2 = dup_super(st); if (st2->ss->load_super(st2, dfd2, NULL) || st->ss->compare_super(st, st2) != 0) { fprintf(stderr, Name ": metadata mismatch between %s and " "chosen array %s\n", devname, chosen_name); close(dfd2); rv = 2; goto out_unlock; } close(dfd2); st2->ss->getinfo_super(st2, &info2, NULL); st2->ss->free_super(st2); if (info.array.level != info2.array.level || memcmp(info.uuid, info2.uuid, 16) != 0 || info.array.raid_disks != info2.array.raid_disks) { fprintf(stderr, Name ": unexpected difference between %s and %s.\n", chosen_name, devname); rv = 2; goto out_unlock; } } info.disk.major = major(stb.st_rdev); info.disk.minor = minor(stb.st_rdev); /* add disk needs to know about containers */ if (st->ss->external) sra->array.level = LEVEL_CONTAINER; err = add_disk(mdfd, st, sra, &info); if (err < 0 && errno == EBUSY) { /* could be another device present with the same * disk.number. Find and reject any such */ find_reject(mdfd, st, sra, info.disk.number, info.events, verbose, chosen_name); err = add_disk(mdfd, st, sra, &info); } if (err < 0) { fprintf(stderr, Name ": failed to add %s to %s: %s.\n", devname, chosen_name, strerror(errno)); rv = 2; goto out_unlock; } info.array.working_disks = 0; for (d = sra->devs; d; d=d->next) info.array.working_disks ++; } /* 7/ Is there enough devices to possibly start the array? */ /* 7a/ if not, finish with success. */ if (info.array.level == LEVEL_CONTAINER) { int devnum = devnum; /* defined and used iff ->external */ /* Try to assemble within the container */ sysfs_uevent(sra, "change"); if (verbose >= 0) fprintf(stderr, Name ": container %s now has %d device%s\n", chosen_name, info.array.working_disks, info.array.working_disks==1?"":"s"); wait_for(chosen_name, mdfd); if (st->ss->external) devnum = fd2devnum(mdfd); if (st->ss->load_container) rv = st->ss->load_container(st, mdfd, NULL); close(mdfd); sysfs_free(sra); if (!rv) rv = Incremental_container(st, chosen_name, homehost, verbose, runstop, autof, freeze_reshape); map_unlock(&map); if (rv == 1) /* Don't fail the whole -I if a subarray didn't * have enough devices to start yet */ rv = 0; /* after spare is added, ping monitor for external metadata * so that it can eg. try to rebuild degraded array */ if (st->ss->external) ping_monitor_by_id(devnum); return rv; } /* We have added something to the array, so need to re-read the * state. Eventually this state should be kept up-to-date as * things change. */ sysfs_free(sra); sra = sysfs_read(mdfd, -1, (GET_DEVS | GET_STATE | GET_OFFSET | GET_SIZE)); active_disks = count_active(st, sra, mdfd, &avail, &info); if (enough(info.array.level, info.array.raid_disks, info.array.layout, info.array.state & 1, avail) == 0) { if (verbose >= 0) fprintf(stderr, Name ": %s attached to %s, not enough to start (%d).\n", devname, chosen_name, active_disks); rv = 0; goto out_unlock; } /* 7b/ if yes, */ /* - if number of OK devices match expected, or -R and there */ /* are enough, */ /* + add any bitmap file */ /* + start the array (auto-readonly). */ if (ioctl(mdfd, GET_ARRAY_INFO, &ainf) == 0) { if (verbose >= 0) fprintf(stderr, Name ": %s attached to %s which is already active.\n", devname, chosen_name); rv = 0; goto out_unlock; } map_unlock(&map); if (runstop > 0 || active_disks >= info.array.working_disks) { struct mdinfo *dsk; /* Let's try to start it */ if (match && match->bitmap_file) { int bmfd = open(match->bitmap_file, O_RDWR); if (bmfd < 0) { fprintf(stderr, Name ": Could not open bitmap file %s.\n", match->bitmap_file); goto out; } if (ioctl(mdfd, SET_BITMAP_FILE, bmfd) != 0) { close(bmfd); fprintf(stderr, Name ": Failed to set bitmapfile for %s.\n", chosen_name); goto out; } close(bmfd); } /* Need to remove from the array any devices which * 'count_active' discerned were too old or inappropriate */ for (d = sra ? sra->devs : NULL ; d ; d = d->next) if (d->disk.state & (1<= info.array.working_disks) && trustworthy != FOREIGN) rv = ioctl(mdfd, RUN_ARRAY, NULL); else rv = sysfs_set_str(sra, NULL, "array_state", "read-auto"); if (rv == 0) { if (verbose >= 0) fprintf(stderr, Name ": %s attached to %s, which has been started.\n", devname, chosen_name); rv = 0; wait_for(chosen_name, mdfd); /* We just started the array, so some devices * might have been evicted from the array * because their event counts were too old. * If the action=re-add policy is in-force for * those devices we should re-add them now. */ for (dsk = sra->devs; dsk ; dsk = dsk->next) { if (disk_action_allows(dsk, st->ss->name, act_re_add) && add_disk(mdfd, st, sra, dsk) == 0) fprintf(stderr, Name ": %s re-added to %s\n", dsk->sys_name, chosen_name); } } else { fprintf(stderr, Name ": %s attached to %s, but failed to start: %s.\n", devname, chosen_name, strerror(errno)); rv = 1; } } else { if (verbose >= 0) fprintf(stderr, Name ": %s attached to %s, not enough to start safely.\n", devname, chosen_name); rv = 0; } out: free(avail); if (dfd >= 0) close(dfd); if (mdfd >= 0) close(mdfd); if (policy) dev_policy_free(policy); if (sra) sysfs_free(sra); return rv; out_unlock: map_unlock(&map); goto out; } static void find_reject(int mdfd, struct supertype *st, struct mdinfo *sra, int number, __u64 events, int verbose, char *array_name) { /* Find a device attached to this array with a disk.number of number * and events less than the passed events, and remove the device. */ struct mdinfo *d; mdu_array_info_t ra; if (ioctl(mdfd, GET_ARRAY_INFO, &ra) == 0) return; /* not safe to remove from active arrays * without thinking more */ for (d = sra->devs; d ; d = d->next) { char dn[10]; int dfd; struct mdinfo info; sprintf(dn, "%d:%d", d->disk.major, d->disk.minor); dfd = dev_open(dn, O_RDONLY); if (dfd < 0) continue; if (st->ss->load_super(st, dfd, NULL)) { close(dfd); continue; } st->ss->getinfo_super(st, &info, NULL); st->ss->free_super(st); close(dfd); if (info.disk.number != number || info.events >= events) continue; if (d->disk.raid_disk > -1) sysfs_set_str(sra, d, "slot", "none"); if (sysfs_set_str(sra, d, "state", "remove") == 0) if (verbose >= 0) fprintf(stderr, Name ": removing old device %s from %s\n", d->sys_name+4, array_name); } } static int count_active(struct supertype *st, struct mdinfo *sra, int mdfd, char **availp, struct mdinfo *bestinfo) { /* count how many devices in sra think they are active */ struct mdinfo *d; int cnt = 0; __u64 max_events = 0; char *avail = NULL; int *best = NULL; char *devmap = NULL; int numdevs = 0; int devnum; int b, i; int raid_disks = 0; if (!sra) return 0; for (d = sra->devs ; d ; d = d->next) numdevs++; for (d = sra->devs, devnum=0 ; d ; d = d->next, devnum++) { char dn[30]; int dfd; int ok; struct mdinfo info; sprintf(dn, "%d:%d", d->disk.major, d->disk.minor); dfd = dev_open(dn, O_RDONLY); if (dfd < 0) continue; ok = st->ss->load_super(st, dfd, NULL); close(dfd); if (ok != 0) continue; info.array.raid_disks = raid_disks; st->ss->getinfo_super(st, &info, devmap + raid_disks * devnum); if (!avail) { raid_disks = info.array.raid_disks; avail = calloc(raid_disks, 1); if (!avail) { fprintf(stderr, Name ": out of memory.\n"); exit(1); } *availp = avail; best = calloc(raid_disks, sizeof(int)); devmap = calloc(raid_disks * numdevs, 1); st->ss->getinfo_super(st, &info, devmap); } if (info.disk.state & (1<ss->getinfo_super(st, bestinfo, NULL); } else if (info.events == max_events) { avail[info.disk.raid_disk] = 2; best[info.disk.raid_disk] = devnum; } else if (info.events == max_events-1) { if (avail[info.disk.raid_disk] == 0) { avail[info.disk.raid_disk] = 1; best[info.disk.raid_disk] = devnum; } } else if (info.events < max_events - 1) ; else if (info.events == max_events+1) { int i; max_events = info.events; for (i=0; i < raid_disks; i++) if (avail[i]) avail[i]--; avail[info.disk.raid_disk] = 2; best[info.disk.raid_disk] = devnum; st->ss->getinfo_super(st, bestinfo, NULL); } else { /* info.events much bigger */ memset(avail, 0, raid_disks); max_events = info.events; avail[info.disk.raid_disk] = 2; best[info.disk.raid_disk] = devnum; st->ss->getinfo_super(st, bestinfo, NULL); } } st->ss->free_super(st); } if (!avail) return 0; /* We need to reject any device that thinks the best device is * failed or missing */ for (b = 0; b < raid_disks; b++) if (avail[b] == 2) break; cnt = 0; for (i = 0 ; i < raid_disks ; i++) { if (i != b && avail[i]) if (devmap[raid_disks * best[i] + b] == 0) { /* This device thinks 'b' is failed - * don't use it */ devnum = best[i]; for (d=sra->devs ; devnum; d = d->next) devnum--; d->disk.state |= (1 << MD_DISK_REMOVED); avail[i] = 0; } if (avail[i]) cnt++; } free(best); free(devmap); return cnt; } /* test if container has degraded member(s) */ static int container_members_max_degradation(struct map_ent *map, struct map_ent *me) { mdu_array_info_t array; int afd; int max_degraded = 0; for(; map; map = map->next) { if (!is_subarray(map->metadata) || devname2devnum(map->metadata+1) != me->devnum) continue; afd = open_dev(map->devnum); if (afd < 0) continue; /* most accurate information regarding array degradation */ if (ioctl(afd, GET_ARRAY_INFO, &array) >= 0) { int degraded = array.raid_disks - array.active_disks - array.spare_disks; if (degraded > max_degraded) max_degraded = degraded; } close(afd); } return (max_degraded); } static int array_try_spare(char *devname, int *dfdp, struct dev_policy *pol, struct map_ent *target, int bare, struct supertype *st, int verbose) { /* This device doesn't have any md metadata * The device policy allows 'spare' and if !bare, it allows spare-same-slot. * If 'st' is not set, then we only know that some metadata allows this, * others possibly don't. * So look for a container or array to attach the device to. * Prefer 'target' if that is set and the array is found. * * If st is set, then only arrays of that type are considered * Return 0 on success, or some exit code on failure, probably 1. */ int rv = 1; struct stat stb; struct map_ent *mp, *map = NULL; struct mdinfo *chosen = NULL; int dfd = *dfdp; if (fstat(dfd, &stb) != 0) return 1; /* * Now we need to find a suitable array to add this to. * We only accept arrays that: * - match 'st' * - are in the same domains as the device * - are of an size for which the device will be useful * and we choose the one that is the most degraded */ if (map_lock(&map)) { fprintf(stderr, Name ": failed to get exclusive lock on " "mapfile\n"); return 1; } for (mp = map ; mp ; mp = mp->next) { struct supertype *st2; struct domainlist *dl = NULL; struct mdinfo *sra; unsigned long long devsize; unsigned long long component_size = 0; if (is_subarray(mp->metadata)) continue; if (st) { st2 = st->ss->match_metadata_desc(mp->metadata); if (!st2 || (st->minor_version >= 0 && st->minor_version != st2->minor_version)) { if (verbose > 1) fprintf(stderr, Name ": not adding %s to %s as metadata type doesn't match\n", devname, mp->path); free(st2); continue; } free(st2); } sra = sysfs_read(-1, mp->devnum, GET_DEVS|GET_OFFSET|GET_SIZE|GET_STATE| GET_DEGRADED|GET_COMPONENT|GET_VERSION); if (!sra) { /* Probably a container - no degraded info */ sra = sysfs_read(-1, mp->devnum, GET_DEVS|GET_OFFSET|GET_SIZE|GET_STATE| GET_COMPONENT|GET_VERSION); if (sra) sra->array.failed_disks = -1; } if (!sra) continue; if (st == NULL) { int i; st2 = NULL; for(i=0; !st2 && superlist[i]; i++) st2 = superlist[i]->match_metadata_desc( sra->text_version); if (!st2) { if (verbose > 1) fprintf(stderr, Name ": not adding %s to %s" " as metadata not recognised.\n", devname, mp->path); goto next; } /* Need to double check the 'act_spare' permissions applies * to this metadata. */ if (!policy_action_allows(pol, st2->ss->name, act_spare)) goto next; if (!bare && !policy_action_allows(pol, st2->ss->name, act_spare_same_slot)) goto next; } else st2 = st; /* update number of failed disks for mostly degraded * container member */ if (sra->array.failed_disks == -1) sra->array.failed_disks = container_members_max_degradation(map, mp); get_dev_size(dfd, NULL, &devsize); if (sra->component_size == 0) { /* true for containers, here we must read superblock * to obtain minimum spare size */ struct supertype *st3 = dup_super(st2); int mdfd = open_dev(mp->devnum); if (mdfd < 0) { free(st3); goto next; } if (st3->ss->load_container && !st3->ss->load_container(st3, mdfd, mp->path)) { component_size = st3->ss->min_acceptable_spare_size(st3); st3->ss->free_super(st3); } free(st3); close(mdfd); } if ((sra->component_size > 0 && st2->ss->avail_size(st2, devsize, sra->devs ? (long long)sra->devs->data_offset : -1) < sra->component_size) || (sra->component_size == 0 && devsize < component_size)) { if (verbose > 1) fprintf(stderr, Name ": not adding %s to %s as it is too small\n", devname, mp->path); goto next; } /* test against target. * If 'target' is set and 'bare' is false, we only accept * arrays/containers that match 'target'. * If 'target' is set and 'bare' is true, we prefer the * array which matches 'target'. * target is considered only if we deal with degraded array */ if (target && policy_action_allows(pol, st2->ss->name, act_spare_same_slot)) { if (strcmp(target->metadata, mp->metadata) == 0 && memcmp(target->uuid, mp->uuid, sizeof(target->uuid)) == 0 && sra->array.failed_disks > 0) { /* This is our target!! */ if (chosen) sysfs_free(chosen); chosen = sra; sra = NULL; /* skip to end so we don't check any more */ while (mp->next) mp = mp->next; goto next; } /* not our target */ if (!bare) goto next; } dl = domain_from_array(sra, st2->ss->name); if (domain_test(dl, pol, st2->ss->name) != 1) { /* domain test fails */ if (verbose > 1) fprintf(stderr, Name ": not adding %s to %s as" " it is not in a compatible domain\n", devname, mp->path); goto next; } /* all tests passed, OK to add to this array */ if (!chosen) { chosen = sra; sra = NULL; } else if (chosen->array.failed_disks < sra->array.failed_disks) { sysfs_free(chosen); chosen = sra; sra = NULL; } next: if (sra) sysfs_free(sra); if (st != st2) free(st2); if (dl) domain_free(dl); } if (chosen) { /* add current device to chosen array as a spare */ int mdfd = open_dev(devname2devnum(chosen->sys_name)); if (mdfd >= 0) { struct mddev_dev devlist; char devname[20]; devlist.next = NULL; devlist.used = 0; devlist.re_add = 0; devlist.writemostly = 0; devlist.devname = devname; sprintf(devname, "%d:%d", major(stb.st_rdev), minor(stb.st_rdev)); devlist.disposition = 'a'; close(dfd); *dfdp = -1; rv = Manage_subdevs(chosen->sys_name, mdfd, &devlist, -1, 0, NULL, 0); close(mdfd); } if (verbose > 0) { if (rv == 0) fprintf(stderr, Name ": added %s as spare for %s\n", devname, chosen->sys_name); else fprintf(stderr, Name ": failed to add %s as spare for %s\n", devname, chosen->sys_name); } sysfs_free(chosen); } map_unlock(&map); return rv; } static int partition_try_spare(char *devname, int *dfdp, struct dev_policy *pol, struct supertype *st, int verbose) { /* we know that at least one partition virtual-metadata is * allowed to incorporate spares like this device. We need to * find a suitable device to copy partition information from. * * Getting a list of all disk (not partition) devices is * slightly non-trivial. We could look at /sys/block, but * that is theoretically due to be removed. Maybe best to use * /dev/disk/by-path/?* and ignore names ending '-partNN' as * we depend on this directory of 'path' info. But that fails * to find loop devices and probably others. Maybe don't * worry about that, they aren't the real target. * * So: check things in /dev/disk/by-path to see if they are in * a compatible domain, then load the partition table and see * if it is OK for the new device, and choose the largest * partition table that fits. */ DIR *dir; struct dirent *de; char *chosen = NULL; unsigned long long chosen_size = 0; struct supertype *chosen_st = NULL; int fd; dir = opendir("/dev/disk/by-path"); if (!dir) return 1; while ((de = readdir(dir)) != NULL) { char *ep; struct dev_policy *pol2 = NULL; struct domainlist *domlist = NULL; int fd = -1; struct mdinfo info; struct supertype *st2 = NULL; char *devname = NULL; unsigned long long devsectors; if (de->d_ino == 0 || de->d_name[0] == '.' || (de->d_type != DT_LNK && de->d_type != DT_UNKNOWN)) goto next; ep = de->d_name + strlen(de->d_name); while (ep > de->d_name && isdigit(ep[-1])) ep--; if (ep > de->d_name + 5 && strncmp(ep-5, "-part", 5) == 0) /* This is a partition - skip it */ goto next; pol2 = path_policy(de->d_name, type_disk); domain_merge(&domlist, pol2, st ? st->ss->name : NULL); if (domain_test(domlist, pol, st ? st->ss->name : NULL) != 1) /* new device is incompatible with this device. */ goto next; domain_free(domlist); domlist = NULL; if (asprintf(&devname, "/dev/disk/by-path/%s", de->d_name) != 1) { devname = NULL; goto next; } fd = open(devname, O_RDONLY); if (fd < 0) goto next; if (get_dev_size(fd, devname, &devsectors) == 0) goto next; devsectors >>= 9; if (st) st2 = dup_super(st); else st2 = guess_super_type(fd, guess_partitions); if (st2 == NULL || st2->ss->load_super(st2, fd, NULL) < 0) goto next; if (!st) { /* Check domain policy again, this time referring to metadata */ domain_merge(&domlist, pol2, st2->ss->name); if (domain_test(domlist, pol, st2->ss->name) != 1) /* Incompatible devices for this metadata type */ goto next; if (!policy_action_allows(pol, st2->ss->name, act_spare)) /* Some partition types allow sparing, but not * this one. */ goto next; } st2->ss->getinfo_super(st2, &info, NULL); if (info.component_size > devsectors) /* This partitioning doesn't fit in the device */ goto next; /* This is an acceptable device to copy partition * metadata from. We could just stop here, but I * think I want to keep looking incase a larger * metadata which makes better use of the device can * be found. */ if (chosen == NULL || chosen_size < info.component_size) { chosen_size = info.component_size; free(chosen); chosen = devname; devname = NULL; if (chosen_st) { chosen_st->ss->free_super(chosen_st); free(chosen_st); } chosen_st = st2; st2 = NULL; } next: free(devname); domain_free(domlist); dev_policy_free(pol2); if (st2) st2->ss->free_super(st2); free(st2); if (fd >= 0) close(fd); } closedir(dir); if (!chosen) return 1; /* 'chosen' is the best device we can find. Let's write its * metadata to devname dfd is read-only so don't use that */ fd = open(devname, O_RDWR); if (fd >= 0) { chosen_st->ss->store_super(chosen_st, fd); close(fd); } free(chosen); chosen_st->ss->free_super(chosen_st); free(chosen_st); return 0; } static int is_bare(int dfd) { unsigned long long size = 0; char bufpad[4096 + 4096]; char *buf = (char*)(((long)bufpad + 4096) & ~4095); if (lseek(dfd, 0, SEEK_SET) != 0 || read(dfd, buf, 4096) != 4096) return 0; if (buf[0] != '\0' && buf[0] != '\x5a' && buf[0] != '\xff') return 0; if (memcmp(buf, buf+1, 4095) != 0) return 0; /* OK, first 4K appear blank, try the end. */ get_dev_size(dfd, NULL, &size); if (lseek(dfd, size-4096, SEEK_SET) < 0 || read(dfd, buf, 4096) != 4096) return 0; if (buf[0] != '\0' && buf[0] != '\x5a' && buf[0] != '\xff') return 0; if (memcmp(buf, buf+1, 4095) != 0) return 0; return 1; } /* adding a spare to a regular array is quite different from adding one to * a set-of-partitions virtual array. * This function determines which is worth trying and tries as appropriate. * Arrays are given priority over partitions. */ static int try_spare(char *devname, int *dfdp, struct dev_policy *pol, struct map_ent *target, struct supertype *st, int verbose) { int i; int rv; int arrays_ok = 0; int partitions_ok = 0; int dfd = *dfdp; int bare; /* Can only add a spare if device has at least one domain */ if (pol_find(pol, pol_domain) == NULL) return 1; /* And only if some action allows spares */ if (!policy_action_allows(pol, st?st->ss->name:NULL, act_spare)) return 1; /* Now check if the device is bare. * bare devices can always be added as a spare * non-bare devices can only be added if spare-same-slot is permitted, * and this device is replacing a previous device - in which case 'target' * will be set. */ if (!is_bare(dfd)) { /* Must have a target and allow same_slot */ /* Later - may allow force_spare without target */ if (!target || !policy_action_allows(pol, st?st->ss->name:NULL, act_spare_same_slot)) { if (verbose > 1) fprintf(stderr, Name ": %s is not bare, so not " "considering as a spare\n", devname); return 1; } bare = 0; } else bare = 1; /* It might be OK to add this device to an array - need to see * what arrays might be candidates. */ if (st) { /* just try try 'array' or 'partition' based on this metadata */ if (st->ss->add_to_super) return array_try_spare(devname, dfdp, pol, target, bare, st, verbose); else return partition_try_spare(devname, dfdp, pol, st, verbose); } /* No metadata was specified or found so options are open. * Check for whether any array metadata, or any partition metadata * might allow adding the spare. This check is just help to avoid * a more costly scan of all arrays when we can be sure that will * fail. */ for (i = 0; (!arrays_ok || !partitions_ok) && superlist[i] ; i++) { if (superlist[i]->add_to_super && !arrays_ok && policy_action_allows(pol, superlist[i]->name, act_spare)) arrays_ok = 1; if (superlist[i]->add_to_super == NULL && !partitions_ok && policy_action_allows(pol, superlist[i]->name, act_spare)) partitions_ok = 1; } rv = 1; if (arrays_ok) rv = array_try_spare(devname, dfdp, pol, target, bare, st, verbose); if (rv != 0 && partitions_ok) rv = partition_try_spare(devname, dfdp, pol, st, verbose); return rv; } int IncrementalScan(int verbose) { /* look at every device listed in the 'map' file. * If one is found that is not running then: * look in mdadm.conf for bitmap file. * if one exists, but array has none, add it. * try to start array in auto-readonly mode */ struct map_ent *mapl = NULL; struct map_ent *me; struct mddev_ident *devs, *mddev; int rv = 0; map_read(&mapl); devs = conf_get_ident(NULL); for (me = mapl ; me ; me = me->next) { mdu_array_info_t array; mdu_bitmap_file_t bmf; struct mdinfo *sra; int mdfd = open_dev(me->devnum); if (mdfd < 0) continue; if (ioctl(mdfd, GET_ARRAY_INFO, &array) == 0 || errno != ENODEV) { close(mdfd); continue; } /* Ok, we can try this one. Maybe it needs a bitmap */ for (mddev = devs ; mddev ; mddev = mddev->next) if (mddev->devname && me->path && devname_matches(mddev->devname, me->path)) break; if (mddev && mddev->bitmap_file) { /* * Note: early kernels will wrongly fail this, so it * is a hint only */ int added = -1; if (ioctl(mdfd, GET_ARRAY_INFO, &bmf) < 0) { int bmfd = open(mddev->bitmap_file, O_RDWR); if (bmfd >= 0) { added = ioctl(mdfd, SET_BITMAP_FILE, bmfd); close(bmfd); } } if (verbose >= 0) { if (added == 0) fprintf(stderr, Name ": Added bitmap %s to %s\n", mddev->bitmap_file, me->path); else if (errno != EEXIST) fprintf(stderr, Name ": Failed to add bitmap to %s: %s\n", me->path, strerror(errno)); } } sra = sysfs_read(mdfd, 0, 0); if (sra) { if (sysfs_set_str(sra, NULL, "array_state", "read-auto") == 0) { if (verbose >= 0) fprintf(stderr, Name ": started array %s\n", me->path ?: devnum2devname(me->devnum)); } else { fprintf(stderr, Name ": failed to start array %s: %s\n", me->path ?: devnum2devname(me->devnum), strerror(errno)); rv = 1; } sysfs_free(sra); } } return rv; } static char *container2devname(char *devname) { char *mdname = NULL; if (devname[0] == '/') { int fd = open(devname, O_RDONLY); if (fd >= 0) { mdname = devnum2devname(fd2devnum(fd)); close(fd); } } else { int uuid[4]; struct map_ent *mp, *map = NULL; if (!parse_uuid(devname, uuid)) return mdname; mp = map_by_uuid(&map, uuid); if (mp) mdname = devnum2devname(mp->devnum); map_free(map); } return mdname; } static int Incremental_container(struct supertype *st, char *devname, char *homehost, int verbose, int runstop, int autof, int freeze_reshape) { /* Collect the contents of this container and for each * array, choose a device name and assemble the array. */ struct mdinfo *list; struct mdinfo *ra; struct map_ent *map = NULL; struct mdinfo info; int trustworthy; struct mddev_ident *match; int rv = 0; struct domainlist *domains; struct map_ent *smp; int suuid[4]; int sfd; int ra_blocked = 0; int ra_all = 0; st->ss->getinfo_super(st, &info, NULL); if ((runstop > 0 && info.container_enough >= 0) || info.container_enough > 0) /* pass */; else { if (verbose) fprintf(stderr, Name ": not enough devices to start the container\n"); return 0; } match = conf_match(st, &info, devname, verbose, &rv); if (match == NULL && rv == 2) return rv; /* Need to compute 'trustworthy' */ if (match) trustworthy = LOCAL; else if (st->ss->match_home(st, homehost) == 1) trustworthy = LOCAL; else if (st->ss->match_home(st, "any") == 1) trustworthy = LOCAL; else trustworthy = FOREIGN; list = st->ss->container_content(st, NULL); /* when nothing to activate - quit */ if (list == NULL) return 0; for (ra = list ; ra ; ra = ra->next) { int mdfd; char chosen_name[1024]; struct map_ent *mp; struct mddev_ident *match = NULL; ra_all++; /* do not activate arrays blocked by metadata handler */ if (ra->array.state & (1 << MD_SB_BLOCK_VOLUME)) { fprintf(stderr, Name ": Cannot activate array %s in %s.\n", ra->text_version, devname); ra_blocked++; continue; } mp = map_by_uuid(&map, ra->uuid); if (mp) { mdfd = open_dev(mp->devnum); if (mp->path) strcpy(chosen_name, mp->path); else strcpy(chosen_name, devnum2devname(mp->devnum)); } else { /* Check in mdadm.conf for container == devname and * member == ra->text_version after second slash. */ char *sub = strchr(ra->text_version+1, '/'); struct mddev_ident *array_list; if (sub) { sub++; array_list = conf_get_ident(NULL); } else array_list = NULL; for(; array_list ; array_list = array_list->next) { char *dn; if (array_list->member == NULL || array_list->container == NULL) continue; if (strcmp(array_list->member, sub) != 0) continue; if (array_list->uuid_set && !same_uuid(ra->uuid, array_list->uuid, st->ss->swapuuid)) continue; dn = container2devname(array_list->container); if (dn == NULL) continue; if (strncmp(dn, ra->text_version+1, strlen(dn)) != 0 || ra->text_version[strlen(dn)+1] != '/') { free(dn); continue; } free(dn); /* we have a match */ match = array_list; if (verbose>0) fprintf(stderr, Name ": match found for member %s\n", array_list->member); break; } if (match && match->devname && strcasecmp(match->devname, "") == 0) { if (verbose > 0) fprintf(stderr, Name ": array %s/%s is " "explicitly ignored by mdadm.conf\n", match->container, match->member); return 2; } if (match) trustworthy = LOCAL; mdfd = create_mddev(match ? match->devname : NULL, ra->name, autof, trustworthy, chosen_name); } if (mdfd < 0) { fprintf(stderr, Name ": failed to open %s: %s.\n", chosen_name, strerror(errno)); return 2; } assemble_container_content(st, mdfd, ra, runstop, chosen_name, verbose, NULL, freeze_reshape); close(mdfd); } /* don't move spares to container with volume being activated when all volumes are blocked */ if (ra_all == ra_blocked) return 0; /* Now move all suitable spares from spare container */ domains = domain_from_array(list, st->ss->name); memcpy(suuid, uuid_zero, sizeof(int[4])); if (domains && (smp = map_by_uuid(&map, suuid)) != NULL && (sfd = open(smp->path, O_RDONLY)) >= 0) { /* spare container found */ struct supertype *sst = super_imsm.match_metadata_desc("imsm"); struct mdinfo *sinfo; unsigned long long min_size = 0; if (st->ss->min_acceptable_spare_size) min_size = st->ss->min_acceptable_spare_size(st); if (!sst->ss->load_container(sst, sfd, NULL)) { close(sfd); sinfo = container_choose_spares(sst, min_size, domains, NULL, st->ss->name, 0); sst->ss->free_super(sst); if (sinfo){ int count = 0; struct mdinfo *disks = sinfo->devs; while (disks) { /* move spare from spare * container to currently * assembled one */ if (move_spare( smp->path, devname, makedev(disks->disk.major, disks->disk.minor))) count++; disks = disks->next; } if (count) fprintf(stderr, Name ": Added %d spare%s to %s\n", count, count>1?"s":"", devname); } sysfs_free(sinfo); } else close(sfd); } domain_free(domains); return 0; } /* * IncrementalRemove - Attempt to see if the passed in device belongs to any * raid arrays, and if so first fail (if needed) and then remove the device. * * @devname - The device we want to remove * @id_path - name as found in /dev/disk/by-path for this device * * Note: the device name must be a kernel name like "sda", so * that we can find it in /proc/mdstat */ int IncrementalRemove(char *devname, char *id_path, int verbose) { int mdfd; int rv; struct mdstat_ent *ent; struct mddev_dev devlist; if (!id_path) dprintf(Name ": incremental removal without --path " "lacks the possibility to re-add new device in this " "port\n"); if (strchr(devname, '/')) { fprintf(stderr, Name ": incremental removal requires a " "kernel device name, not a file: %s\n", devname); return 1; } ent = mdstat_by_component(devname); if (!ent) { fprintf(stderr, Name ": %s does not appear to be a component " "of any array\n", devname); return 1; } mdfd = open_dev(ent->devnum); if (mdfd < 0) { fprintf(stderr, Name ": Cannot open array %s!!\n", ent->dev); free_mdstat(ent); return 1; } if (id_path) { struct map_ent *map = NULL, *me; me = map_by_devnum(&map, ent->devnum); if (me) policy_save_path(id_path, me); map_free(map); } memset(&devlist, 0, sizeof(devlist)); devlist.devname = devname; devlist.disposition = 'f'; /* for a container, we must fail each member array */ if (ent->metadata_version && strncmp(ent->metadata_version, "external:", 9) == 0) { struct mdstat_ent *mdstat = mdstat_read(0, 0); struct mdstat_ent *memb; for (memb = mdstat ; memb ; memb = memb->next) if (is_container_member(memb, ent->dev)) { int subfd = open_dev(memb->devnum); if (subfd >= 0) { Manage_subdevs(memb->dev, subfd, &devlist, verbose, 0, NULL, 0); close(subfd); } } free_mdstat(mdstat); } else Manage_subdevs(ent->dev, mdfd, &devlist, verbose, 0, NULL, 0); devlist.disposition = 'r'; rv = Manage_subdevs(ent->dev, mdfd, &devlist, verbose, 0, NULL, 0); close(mdfd); free_mdstat(ent); return rv; }