/* * Copyright (C) 2018 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ /* * There are four different ways that commands handle hints: * * 1. Commands that use hints to reduce scanning, and create new * hints when needed: * * fullreport, lvchange, lvcreate, lvdisplay, lvremove, lvresize, * lvs, pvdisplay, lvpoll, pvs, vgchange, vgck, vgdisplay, vgs, * lvextend, lvreduce, lvrename * * 2. Commands that just remove existing hints: * * pvcreate, pvremove, vgcreate, vgremove, vgextend, vgreduce, * vgcfgrestore, vgimportclone, vgmerge, vgsplit, pvchange * * 3. Commands that ignore hints: * * lvconvert, lvmdiskscan, lvscan, pvresize, pvck, pvmove, pvscan, * vgcfgbackup, vgexport, vgimport, vgscan, pvs -a, pvdisplay -a * * 4. Command that removes existing hints and creates new hints: * * pvscan --cache * * * For 1, hints are used to reduce scanning by: * . get the list of all devices on the system from dev_cache_scan() * . remove devices from that list which are not listed in hints * . do scan the remaining list of devices * * label_scan() is where those steps are implemented: * . dev_cache_scan() produces all_devs list * . get_hints(all_devs, scan_devs, &newhints) * moves some devs from all_devs to scan_devs list (or sets newhints * if no hints are applied, and a new hints file should be created) * . _scan_list(scan_devs) does the label scan * . if newhints was set, call write_hint_file() to create new hints * based on which devs _scan_list saw an lvm label on * * For 2, commands that change "global state" remove existing hints. * The hints become incorrect as a result of the changes the command * is making. "global state" is lvm state that is not isolated within a VG. * (This is basically: which devices are PVs, and which VG names are used.) * * Commands that change global state do not create new hints because * it's much simpler to create hints based solely on the result of a * full standard label scan, i.e. which devices had an lvm label. * (It's much more complicated to create hints based on making specific * changes to existing hints based on what the command has changed.) * * For 3, these commands are a combination of: uncommon commands that * don't need optimization, commands where the purpose is to read all * devices, commands dealing with global state where it's important to * not miss anything, commands where it's safer to know everything. * * For 4, this is the traditional way of forcing any locally cached * state to be cleared and regenerated. This would be used to reset * hints after doing something that invalidates the hints in a way * that lvm couldn't detect itself, e.g. using dd to copy a PV to * a non-PV device. (A user could also just rm /run/lvm/hints in * place of running pvscan --cache.) * * * Creating hints: * * A command in list 1 above calls get_hints() to try to read the * hints file. get_hints() will sometimes not return any hints, in * which case the label_scan will scan all devices. This happens if: * * a. the /run/lvm/hints file does not exist * * b. the /run/lvm/hints file is empty * * c. the /run/lvm/hints file content is not applicable * * d. the /run/lvm/newhints file exists * * e. the /run/lvm/nohints file exists * f. a shared nonblocking flock on /run/lvm/hints fails * * When get_hints(all_devs, scan_devs, &newhints) does not find hints to use, * it will sometimes set "newhints" so that the command will create a new * hints file after scanning all the devs. [* These commands create a * new hint file after scanning.] * * After scanning a dev list that was reduced by applying hints, label_scan * calls validate_hints() to check if the hints were consistent with what * the scan saw on the devs. Sometimes it's not, in which case the command * then scans the remaining devs, and creates /run/lvm/newhints to signal * to the next command that it should create new hints. * * Causes of each case above: * a) First command run, or a user removed the file * b) A command from list 2 cleared the hint file * c) See below * d) Another command from list 1 found invalid hints after scanning. * A command from list 2 also creates a newhints file in addition * to clearing the hint file. * e) A command from list 2 is blocking other commands from using * hints while it makes global changes. * f) A command from list 2 is holding the ex flock to block * other commands from using hints while it makes global changes. * * The content of the hint file is ignored and invalidated in get_hints if: * * . The lvm.conf filters or scan_lvs setting used by the command that * created the hints do not match the settings used by this command. * When these settings change, different PVs can become visible, * making previous hints invalid. * * . The list of devices on the system changes. When a new device * appears on the system, it may have a PV that was not not around * when the hints were created, and it needs to be scanned. * (A hash of all dev names on the system is used to detect when * the list of devices changes and hints need to be recreated.) * * The hint file is invalidated in validate_hints if: * * . The devs in the hint file have a different PVID or VG name * than what was seen during the scan. * * . Duplicate PVs were seen in the scan. * * . Others may be added. * */ #include "base/memory/zalloc.h" #include "lib/misc/lib.h" #include "lib/label/label.h" #include "lib/misc/crc.h" #include "lib/mm/xlate.h" #include "lib/cache/lvmcache.h" #include "lib/device/bcache.h" #include "lib/commands/toolcontext.h" #include "lib/activate/activate.h" #include "lib/label/hints.h" #include "lib/device/dev-type.h" #include #include #include #include #include #include #include static const char *_hints_file = DEFAULT_RUN_DIR "/hints"; static const char *_nohints_file = DEFAULT_RUN_DIR "/nohints"; static const char *_newhints_file = DEFAULT_RUN_DIR "/newhints"; /* * Format of hints file. Increase the major number when * making a change to the hint file format that older lvm * versions can't use. Older lvm versions will not try to * use the hint file if the major number in it is larger * than they were built with. Increase the minor number * when adding features that older lvm versions can just * ignore while continuing to use the other content. */ #define HINTS_VERSION_MAJOR 1 #define HINTS_VERSION_MINOR 1 #define HINT_LINE_LEN (PATH_MAX + NAME_LEN + ID_LEN + 64) #define HINT_LINE_WORDS 4 static char _hint_line[HINT_LINE_LEN]; static int _hints_fd = -1; #define NONBLOCK 1 #define NEWHINTS_NONE 0 #define NEWHINTS_FILE 1 #define NEWHINTS_INIT 2 #define NEWHINTS_REFRESH 3 #define NEWHINTS_EMPTY 4 static int _hints_exists(void) { struct stat buf; if (!stat(_hints_file, &buf)) return 1; if (errno != ENOENT) log_debug("hints_exist errno %d", errno); return 0; } static int _nohints_exists(void) { struct stat buf; if (!stat(_nohints_file, &buf)) return 1; if (errno != ENOENT) log_debug("nohints_exist errno %d", errno); return 0; } static int _newhints_exists(void) { struct stat buf; if (!stat(_newhints_file, &buf)) return 1; if (errno != ENOENT) log_debug("newhints_exist errno %d", errno); return 0; } static int _touch_newhints(void) { FILE *fp; if (!(fp = fopen(_newhints_file, "w"))) return_0; if (fclose(fp)) stack; return 1; } static int _touch_nohints(void) { FILE *fp; if (!(fp = fopen(_nohints_file, "w"))) return_0; if (fclose(fp)) stack; return 1; } static int _touch_hints(void) { FILE *fp; if (!(fp = fopen(_hints_file, "w"))) return_0; if (fclose(fp)) stack; return 1; } static void _unlink_nohints(void) { if (unlink(_nohints_file)) log_debug("unlink_nohints errno %d", errno); } static void _unlink_hints(void) { if (unlink(_hints_file)) log_debug("unlink_hints errno %d", errno); } static void _unlink_newhints(void) { if (unlink(_newhints_file)) log_debug("unlink_newhints errno %d", errno); } static int _clear_hints(struct cmd_context *cmd) { FILE *fp; time_t t; if (!(fp = fopen(_hints_file, "w"))) { log_warn("Failed to clear hint file."); /* shouldn't happen, but try to unlink in case */ _unlink_hints(); return 0; } t = time(NULL); fprintf(fp, "# Created empty by %s pid %d %s", cmd->name, getpid(), ctime(&t)); if (fflush(fp)) log_debug("clear_hints flush errno %d", errno); if (fclose(fp)) log_debug("clear_hints close errno %d", errno); return 1; } static int _lock_hints(struct cmd_context *cmd, int mode, int nonblock) { int fd; int op = mode; int ret; if (cmd->nolocking) return 1; if (nonblock) op |= LOCK_NB; if (_hints_fd != -1) { log_warn("lock_hints existing fd %d", _hints_fd); return 0; } fd = open(_hints_file, O_RDWR); if (fd < 0) { log_debug("lock_hints open errno %d", errno); return 0; } ret = flock(fd, op); if (!ret) { _hints_fd = fd; return 1; } if (close(fd)) stack; return 0; } static void _unlock_hints(struct cmd_context *cmd) { int ret; if (cmd->nolocking) return; if (_hints_fd == -1) { log_warn("unlock_hints no existing fd"); return; } ret = flock(_hints_fd, LOCK_UN); if (ret) log_warn("unlock_hints flock errno %d", errno); if (close(_hints_fd)) stack; _hints_fd = -1; } void hints_exit(struct cmd_context *cmd) { if (_hints_fd == -1) return; return _unlock_hints(cmd); } static struct hint *_find_hint_name(struct dm_list *hints, const char *name) { struct hint *hint; dm_list_iterate_items(hint, hints) { if (!strcmp(hint->name, name)) return hint; } return NULL; } /* * Decide if a given device name should be included in the hint hash. * If it is, then the hash changes if the device is added or removed * from the system, which causes the hints to be regenerated. * If it is not, then the device being added/removed from the system * does not change the hint hash, which means hints remain unchanged. * * If we know that lvm does not want to scan this device, then it should * be excluded from the hint hash. If a dev is excluded by the regex * filter or by scan_lvs setting, then we know lvm doesn't want to scan * it, so when it is added/removed the scanning results won't change, and * we don't want to regenerate hints. * * One effect of this is that the regex filter and scan_lvs setting also * need to be saved in the hint file, since if those settings change, * it may impact what devs lvm wants to scan, and therefore change what * the hints are. * * We do not need or want to apply all filters to a device here. The full * filters still determine if a device is scanned and used. This is simply * used to decide if the device name should be included in the hash, * where the changing hash triggers hints to be recreated. So, by * including a device here which is excluded by the real filters, the result is * simply that we could end up recreating hints more often than necessary, * which is not a problem. Not recreating hints when we should is a bigger * problem, so it's best to include devices here if we're unsure. * * Any filter used here obviously cannot rely on reading the device, since * the whole point of the hints is to avoid reading the device. * * It's common for the system to include a device path for a disconnected * device and report zero size for it (e.g. a loop device). When the * device is connected, a new device name doesn't appear, but the dev size * for the existing device is now reported as non-zero. So, if a device * is connected/disconnected, changing the size from/to zero, it is * included/excluded in the hint hash. */ static int _dev_in_hint_hash(struct cmd_context *cmd, struct device *dev) { uint64_t devsize = 0; if (!cmd->filter->passes_filter(cmd, cmd->filter, dev, "regex")) return 0; if (!cmd->filter->passes_filter(cmd, cmd->filter, dev, "type")) return 0; /* exclude LVs from hint accounting when scan_lvs is 0 */ if (!cmd->scan_lvs && dm_is_dm_major(MAJOR(dev->dev)) && dev_is_lv(dev)) return 0; if (!dev_get_size(dev, &devsize) || !devsize) return 0; return 1; } /* * Hints were used to reduce devs that were scanned. After the reduced * scanning is done, this is called to check if the hints may have been * incorrect or insufficient, in which case we want to continue scanning all * the other (unhinted) devices, as would be done when no hints are used. * This should not generally happen, but is done in an attempt to catch * any unusual situations where the hints become incorrect from something * unexpected. */ int validate_hints(struct cmd_context *cmd, struct dm_list *hints) { struct hint *hint; struct dev_iter *iter; struct device *dev; int ret = 1; /* No commands are using hints. */ if (!cmd->enable_hints) return 0; /* This command does not use hints. */ if (!cmd->use_hints && !cmd->pvscan_recreate_hints) return 0; if (lvmcache_has_duplicate_devs()) { log_debug("Hints not used with duplicate pvs"); ret = 0; goto out; } if (lvmcache_found_duplicate_vgnames()) { log_debug("Hints not used with duplicate vg names"); ret = 0; goto out; } /* * Check that the PVID saved in the hint for each device matches the * PVID that the scan found on the device. If not, then the hints * became stale somehow (e.g. manually copying devices with dd) and * need to be refreshed. */ if (!(iter = dev_iter_create(NULL, 0))) return 0; while ((dev = dev_iter_get(cmd, iter))) { if (!(hint = _find_hint_name(hints, dev_name(dev)))) continue; /* The cmd hasn't needed this hint's dev so it's not been scanned. */ if (!hint->chosen) continue; if (strcmp(dev->pvid, hint->pvid)) { log_debug("Invalid hint device %d:%d %s pvid %s had hint pvid %s", major(hint->devt), minor(hint->devt), dev_name(dev), dev->pvid, hint->pvid); ret = 0; } } dev_iter_destroy(iter); /* * Check in lvmcache to see if the scan noticed any missing PVs * which might mean the hints left out a device that we should * have scanned. * * FIXME: the scan cannot currently detect missing PVs. * They are only detected in vg_read when the PVIDs listed * in the metadata are looked for and not found. This could * be addressed by at least saving the number of expected PVs * during the scan (in the summary), and then comparing that * number with the number of PVs found in the hints listing * that VG name. */ /* * The scan placed a summary of each VG (vginfo) and PV (info) * into lvmcache lists. Check in lvmcache to see if the VG name * for each PV matches the vgname saved in the hint for the PV. */ dm_list_iterate_items(hint, hints) { struct lvmcache_vginfo *vginfo; /* The cmd hasn't needed this hint's dev so it's not been scanned. */ if (!hint->chosen) continue; if (!hint->vgname[0] || (hint->vgname[0] == '-')) continue; if (!(vginfo = lvmcache_vginfo_from_vgname(hint->vgname, NULL))) { log_debug("Invalid hint device %d:%d %s pvid %s had vgname %s no VG info.", major(hint->devt), minor(hint->devt), hint->name, hint->pvid, hint->vgname); ret = 0; continue; } if (!lvmcache_vginfo_has_pvid(vginfo, hint->pvid)) { log_debug("Invalid hint device %d:%d %s pvid %s had vgname %s no PV info.", major(hint->devt), minor(hint->devt), hint->name, hint->pvid, hint->vgname); ret = 0; continue; } } out: if (!ret) { /* * Force next cmd to recreate hints. If we can't * create newhints, the next cmd should get here * like we have. We don't use _clear_hints because * we don't want to take an ex lock here. */ if (!_touch_newhints()) stack; } return ret; } /* * For devs that match entries in hints, move them from devs_in to devs_out. */ static void _apply_hints(struct cmd_context *cmd, struct dm_list *hints, char *vgname, struct dm_list *devs_in, struct dm_list *devs_out) { struct hint *hint; struct device_list *devl, *devl2; struct dm_list *name_list; struct dm_str_list *name_sl; dm_list_iterate_items_safe(devl, devl2, devs_in) { if (!(name_list = dm_list_first(&devl->dev->aliases))) continue; name_sl = dm_list_item(name_list, struct dm_str_list); if (!(hint = _find_hint_name(hints, name_sl->str))) continue; /* if vgname is set, pick hints with matching vgname */ if (vgname && hint->vgname[0] && (hint->vgname[0] != '-')) { if (strcmp(vgname, hint->vgname)) continue; } dm_list_del(&devl->list); dm_list_add(devs_out, &devl->list); hint->chosen = 1; } } static void _filter_to_str(struct cmd_context *cmd, int filter_cfg, char **strp) { const struct dm_config_node *cn; const struct dm_config_value *cv; char *str; int pos = 0; int len = 0; int ret; *strp = NULL; if (!(cn = find_config_tree_array(cmd, filter_cfg, NULL))) { /* shouldn't happen because default is a|*| */ return; } for (cv = cn->v; cv; cv = cv->next) { if (cv->type != DM_CFG_STRING) continue; len += (strlen(cv->v.str) + 1); } len++; if (len == 1) { /* shouldn't happen because default is a|*| */ return; } str = malloc(len); memset(str, 0, len); for (cv = cn->v; cv; cv = cv->next) { if (cv->type != DM_CFG_STRING) continue; ret = snprintf(str + pos, len - pos, "%s", cv->v.str); if (ret >= len - pos) break; pos += ret; } *strp = str; } /* * Return 1 and needs_refresh 0: the hints can be used * Return 1 and needs_refresh 1: the hints can't be used and should be updated * Return 0: the hints can't be used * * recreate is set if hint file should be refreshed/recreated */ static int _read_hint_file(struct cmd_context *cmd, struct dm_list *hints, int *needs_refresh) { char devpath[PATH_MAX]; FILE *fp; struct dev_iter *iter; struct hint *hint; struct device *dev; char *split[HINT_LINE_WORDS]; char *name, *pvid, *devn, *vgname, *p, *filter_str = NULL; uint32_t read_hash = 0; uint32_t calc_hash = INITIAL_CRC; uint32_t read_count = 0; uint32_t calc_count = 0; int found = 0; int keylen; int hv_major, hv_minor; int major, minor; int ret = 1; int i; if (!(fp = fopen(_hints_file, "r"))) return 0; log_debug("Reading hint file"); for (i = 0; i < HINT_LINE_WORDS; i++) split[i] = NULL; while (fgets(_hint_line, sizeof(_hint_line), fp)) { if (!(hint = zalloc(sizeof(struct hint)))) { ret = 0; break; } if (_hint_line[0] == '#') continue; if ((p = strchr(_hint_line, '\n'))) *p = '\0'; /* * Data in the hint file cannot be used if: * - the hints file major version is larger than used by this cmd * - filters used for hints don't match filters used by this cmd * - scan_lvs setting used when creating hints doesn't match the * scan_lvs setting used by this cmd * - the list of devs used when creating hints does not match the * list of devs used by this cmd */ keylen = strlen("hints_version:"); if (!strncmp(_hint_line, "hints_version:", keylen)) { if (sscanf(_hint_line + keylen, "%d.%d", &hv_major, &hv_minor) != 2) { log_debug("ignore hints with unknown version %d.%d", hv_major, hv_minor); *needs_refresh = 1; break; } if (hv_major > HINTS_VERSION_MAJOR) { log_debug("ignore hints with newer major version %d.%d", hv_major, hv_minor); *needs_refresh = 1; break; } continue; } keylen = strlen("global_filter:"); if (!strncmp(_hint_line, "global_filter:", keylen)) { _filter_to_str(cmd, devices_global_filter_CFG, &filter_str); if (!filter_str || strcmp(filter_str, _hint_line + keylen)) { log_debug("ignore hints with different global_filter"); if (filter_str) free(filter_str); *needs_refresh = 1; break; } if (filter_str) free(filter_str); continue; } keylen = strlen("filter:"); if (!strncmp(_hint_line, "filter:", keylen)) { _filter_to_str(cmd, devices_filter_CFG, &filter_str); if (!filter_str || strcmp(filter_str, _hint_line + keylen)) { log_debug("ignore hints with different filter"); if (filter_str) free(filter_str); *needs_refresh = 1; break; } if (filter_str) free(filter_str); continue; } keylen = strlen("scan_lvs:"); if (!strncmp(_hint_line, "scan_lvs:", keylen)) { int scan_lvs = 0; sscanf(_hint_line + keylen, "%u", &scan_lvs); if (scan_lvs != cmd->scan_lvs) { log_debug("ignore hints with different scan_lvs"); *needs_refresh = 1; break; } continue; } keylen = strlen("devs_hash:"); if (!strncmp(_hint_line, "devs_hash:", keylen)) { sscanf(_hint_line + keylen, "%u %u", &read_hash, &read_count); continue; } /* * Ignore any other line prefixes that we don't recognize. */ keylen = strlen("scan:"); if (strncmp(_hint_line, "scan:", keylen)) continue; if (dm_split_words(_hint_line, HINT_LINE_WORDS, 0, split) < 1) continue; name = split[0]; pvid = split[1]; devn = split[2]; vgname = split[3]; if (name && !strncmp(name, "scan:", 5)) strncpy(hint->name, name+5, PATH_MAX); if (pvid && !strncmp(pvid, "pvid:", 5)) strncpy(hint->pvid, pvid+5, ID_LEN); if (devn && sscanf(devn, "devn:%d:%d", &major, &minor) == 2) hint->devt = makedev(major, minor); if (vgname && (strlen(vgname) > 3) && (vgname[4] != '-')) strncpy(hint->vgname, vgname+3, NAME_LEN); log_debug("add hint %s %s %d:%d %s", hint->name, hint->pvid, major, minor, vgname); dm_list_add(hints, &hint->list); found++; } if (fclose(fp)) stack; if (!ret) return 0; if (!found) return 1; if (*needs_refresh) return 1; /* * Calculate and compare hash of devices that may be scanned. */ if (!(iter = dev_iter_create(NULL, 0))) return 0; while ((dev = dev_iter_get(cmd, iter))) { if (!_dev_in_hint_hash(cmd, dev)) continue; memset(devpath, 0, sizeof(devpath)); strncpy(devpath, dev_name(dev), PATH_MAX); calc_hash = calc_crc(calc_hash, (const uint8_t *)devpath, strlen(devpath)); calc_count++; } dev_iter_destroy(iter); if (read_hash && (read_hash != calc_hash)) { /* The count is just informational. */ log_debug("ignore hints with read_hash %u count %u calc_hash %u count %u", read_hash, read_count, calc_hash, calc_count); *needs_refresh = 1; return 1; } log_debug("accept hints found %d", dm_list_size(hints)); return 1; } /* * Include any device in the hints that label_scan saw which had an lvm label * header. label_scan set DEV_SCAN_FOUND_LABEL on the dev if it saw an lvm * header. We only create new hints here after a complete label_scan at the * start of the command. (It makes things far simpler to always just recreate * hints from a clean, full scan, than to try to make granular updates to the * content of an existing hint file.) * * Hints are not valid from one command to the next if the commands are using * different filters or different scan_lvs settings. These differences would * cause the two commands to consider different devices for scanning. * * If the set of devices on the system changes from one cmd to the next * (excluding those skipped by filters or scan_lvs), the hints are ignored * since there may be a new device that is now present that should be scanned * that was not present when the hints were created. The change in the set of * devices is detected by creating a hash of all dev names. When a device is * added or removed from this system, this hash changes triggering hints to be * recreated. * * (This hash detection depends on the two commands iterating through dev names * in the same order, which happens because the devs are inserted into the * btree using devno. If the btree implementation changes, then we need * to sort the dev names here before iterating through them.) * * N.B. the config setting pv_min_size should technically be included in * the hint file like the filter and scan_lvs setting, since increasing * pv_min_size can cause new devices to be scanned that were not before. * It is left out since it is not often changed, but could be easily added. */ int write_hint_file(struct cmd_context *cmd, int newhints) { char devpath[PATH_MAX]; FILE *fp; struct lvmcache_info *info; struct dev_iter *iter; struct device *dev; const char *vgname; char *filter_str = NULL; uint32_t hash = INITIAL_CRC; uint32_t count = 0; time_t t; int ret = 1; /* This function should not be called if !enable_hints or !use_hints. */ /* No commands are using hints. */ if (!cmd->enable_hints) return 0; /* This command does not use hints. */ if (!cmd->use_hints && !cmd->pvscan_recreate_hints) return 0; if (lvmcache_has_duplicate_devs() || lvmcache_found_duplicate_vgnames()) { /* * When newhints is EMPTY, it means get_hints() found an empty * hint file. So we scanned all devs and found duplicate pvids * or duplicate vgnames (which is probably why the hints were * empty.) Since the hint file is already empty, we don't need * to recreate an empty file. */ if (newhints == NEWHINTS_EMPTY) return 1; } log_debug("Writing hint file %d", newhints); if (!(fp = fopen(_hints_file, "w"))) { ret = 0; goto out_unlock; } t = time(NULL); if (lvmcache_has_duplicate_devs() || lvmcache_found_duplicate_vgnames()) { fprintf(fp, "# Created empty by %s pid %d %s", cmd->name, getpid(), ctime(&t)); /* leave a comment about why it's empty in case someone is curious */ if (lvmcache_has_duplicate_devs()) fprintf(fp, "# info: duplicate_pvs\n"); if (lvmcache_found_duplicate_vgnames()) fprintf(fp, "# info: duplicate_vgnames\n"); goto out_flush; } fprintf(fp, "# Created by %s pid %d %s", cmd->name, getpid(), ctime(&t)); fprintf(fp, "hints_version: %d.%d\n", HINTS_VERSION_MAJOR, HINTS_VERSION_MINOR); _filter_to_str(cmd, devices_global_filter_CFG, &filter_str); fprintf(fp, "global_filter:%s\n", filter_str ?: "-"); if (filter_str) free(filter_str); _filter_to_str(cmd, devices_filter_CFG, &filter_str); fprintf(fp, "filter:%s\n", filter_str ?: "-"); if (filter_str) free(filter_str); fprintf(fp, "scan_lvs:%d\n", cmd->scan_lvs); /* * iterate through all devs and write a line for each * dev flagged DEV_SCAN_FOUND_LABEL */ if (!(iter = dev_iter_create(NULL, 0))) { ret = 0; goto out_close; } /* * This loop does two different things (for clarity this should be * two separate dev_iter loops, but one is used for efficiency). * 1. compute the hint hash from all relevant devs * 2. add PVs to the hint file */ while ((dev = dev_iter_get(cmd, iter))) { if (!_dev_in_hint_hash(cmd, dev)) { if (dev->flags & DEV_SCAN_FOUND_LABEL) { /* should never happen */ log_error("skip hint hash but found label %s", dev_name(dev)); } continue; } /* * Create a hash of all device names on the system so we can * detect when the devices on the system change, which * invalidates the existing hints. */ memset(devpath, 0, sizeof(devpath)); strncpy(devpath, dev_name(dev), PATH_MAX); hash = calc_crc(hash, (const uint8_t *)devpath, strlen(devpath)); count++; if (!(dev->flags & DEV_SCAN_FOUND_LABEL)) continue; if (dev->flags & DEV_IS_MD_COMPONENT) { log_debug("exclude md component from hints %s", dev_name(dev)); continue; } /* * No vgname will be found here for a PV with no mdas, * in which case the vgname hint will be incomplete. * (The label scan cannot associate nomda-pvs with the * correct vg in lvmcache; that is only done by vg_read.) * When using vgname hint we would always want to also * scan any PVs missing a vgname hint in case they are * part of the vg we are looking for. */ if ((info = lvmcache_info_from_pvid(dev->pvid, dev, 0))) vgname = lvmcache_vgname_from_info(info); else vgname = NULL; if (vgname && is_orphan_vg(vgname)) vgname = NULL; fprintf(fp, "scan:%s pvid:%s devn:%d:%d vg:%s\n", dev_name(dev), dev->pvid, major(dev->dev), minor(dev->dev), vgname ?: "-"); } fprintf(fp, "devs_hash: %u %u\n", hash, count); dev_iter_destroy(iter); out_flush: if (fflush(fp)) stack; log_debug("Wrote hint file with devs_hash %u count %u", hash, count); /* * We are writing refreshed hints because another command told us to by * touching newhints, so unlink the newhints file. */ if (newhints == NEWHINTS_FILE) _unlink_newhints(); out_close: if (fclose(fp)) stack; out_unlock: /* get_hints() took ex lock before returning with newhints set */ _unlock_hints(cmd); return ret; } /* * Commands that do things that would change existing hints (i.e. create or * remove PVs) call this function before they start to get rid of the existing * hints. This function clears the content of the hint file so that subsequent * commands will recreate it. These commands do not try to recreate hints when * they are done (this keeps hint creation simple, always done in one way from * one place.) While this command runs, it holds an ex lock on the hint file. * This causes any other command that tries to use the hints to ignore the * hints by failing in _lock_hints(SH). We do not want another command to * be creating new hints at the same time that this command is changing things * that would invalidate them, so we block new hints from being created until * we are done with the changes. * * This is the only place that makes a blocking lock request on the hints file. * It does this so that it won't clear the hint file while a previous command * is still reading it, and to ensure we are holding the hints lock before we * begin changing things. (In place of a blocking request we could add a retry * loop around nonblocking requests, which would allow us to better handle * instances where a bad/stuck lock is blocking this for a long time.) * * To handle cases of indefinite postponement (repeated commands taking sh lock * on the hints file, preventing us from ever getting the ex lock), we touch * the nohints file first. The nohints file causes all other commands to * ignore hints. This means we should only have to block waiting for * pre-existing commands that have locked the hints file. * * (If the command were to crash or be SIGKILLed between touch_nohints * and unlink_nohints, it could leave the nohints file in place. This * is not a huge deal - it would be cleared by the next command like * this that doesn't crash, or by a reboot, or manually. If it's still * an issue we could easily write the pid in the nohints file, and * others could check if the pid is still around before obeying it.) * * The function is meant to be called after the global ex lock has been * taken, which is the official lock serializing commands changing which * devs are PVs or not. This means that a command should never block in * this function due to another command that has used this function -- * they would be serialized by the official global lock first. * e.g. two pvcreates should never block each other from the hint lock, * but rather from the global lock. */ void clear_hint_file(struct cmd_context *cmd) { /* No commands are using hints. */ if (!cmd->enable_hints) return; log_debug("clear_hint_file"); /* * This function runs even when cmd->use_hints is 0, * which means this command does not use hints, but * others do, so we are clearing the hints for them. */ /* limit potential delay blocking on hints lock next */ if (!_touch_nohints()) stack; if (!_lock_hints(cmd, LOCK_EX, 0)) stack; _unlink_nohints(); if (!_clear_hints(cmd)) stack; /* * Creating a newhints file here is not necessary, since * get_hints would see an empty hints file, but get_hints * is more efficient if it sees a newhints file first. */ if (!_touch_newhints()) stack; } /* * This is only used at the start of pvscan --cache [-aay] to * set up for recreating the hint file. */ void pvscan_recreate_hints_begin(struct cmd_context *cmd) { /* No commands are using hints. */ if (!cmd->enable_hints) return; log_debug("pvscan_recreate_hints_begin"); if (!_touch_hints()) return; /* limit potential delay blocking on hints lock next */ if (!_touch_nohints()) stack; if (!_lock_hints(cmd, LOCK_EX, 0)) stack; _unlink_nohints(); if (!_clear_hints(cmd)) stack; } /* * This is used when pvscan --cache sees a new PV, which * means we should refresh hints. It could catch some case * which the other methods of detecting stale hints may miss. */ void invalidate_hints(struct cmd_context *cmd) { /* No commands are using hints. */ if (!cmd->enable_hints) return; if (!_touch_newhints()) stack; } /* * Currently, all the commands using hints (ALLOW_HINTS) take an optional or * required first position arg of a VG name or LV name. If some other command * began using hints which took some other kind of position arg, we would * probably want to exclude that command from attempting this optimization, * because it would be difficult to know what VG that command wanted to use. */ static void _get_single_vgname_cmd_arg(struct cmd_context *cmd, struct dm_list *hints, char **vgname) { struct hint *hint; char namebuf[NAME_LEN]; char *name = NULL; char *arg, *st, *p; int i = 0; memset(namebuf, 0, sizeof(namebuf)); if (cmd->position_argc != 1) return; if (!cmd->position_argv[0]) return; arg = cmd->position_argv[0]; /* tag */ if (arg[0] == '@') return; /* /dev/path - strip chars before vgname */ if (arg[0] == '/') { #if 0 /* skip_dev_dir only available in tools layer */ const char *strip; if (!(strip = skip_dev_dir(cmd, (const char *)arg, NULL))) return; arg = (char *)strip; #endif return; } if (!(st = strchr(arg, '/'))) { /* simple vgname */ name = strdup(arg); goto check; } /* take vgname from vgname/lvname */ for (p = arg; p < st; p++) namebuf[i++] = *p; name = strdup(namebuf); check: /* * Only use this vgname hint if there are hints that contain this * vgname. This might happen if we aren't able to properly extract the * vgname from the command args (could happen in some odd cases, e.g. * only LV name is specified without VG name). */ dm_list_iterate_items(hint, hints) { if (!strcmp(hint->vgname, name)) { *vgname = name; return; } } } /* * Returns 0: no hints are used. * . newhints is set if this command should create new hints after scan * for subsequent commands to use. * * Returns 1: use hints that are returned in hints list. */ int get_hints(struct cmd_context *cmd, struct dm_list *hints_out, int *newhints, struct dm_list *devs_in, struct dm_list *devs_out) { struct dm_list hints_list; int needs_refresh = 0; char *vgname = NULL; dm_list_init(&hints_list); /* Decide below if the caller should create new hints. */ *newhints = NEWHINTS_NONE; /* No commands are using hints. */ if (!cmd->enable_hints) return 0; /* * Special case for 'pvscan --cache' which removes hints, * and then creates new hints. pvscan does not use hints, * so this has to be checked before the cmd->use_hints check. */ if (cmd->pvscan_recreate_hints) { /* pvscan_recreate_hints_begin already locked hints ex */ /* create new hints after scan */ log_debug("get_hints: pvscan recreate"); *newhints = NEWHINTS_FILE; return 0; } /* This command does not use hints. */ if (!cmd->use_hints) return 0; /* * Check if another command created the nohints file to prevent us from * using hints. */ if (_nohints_exists()) { log_debug("get_hints: nohints file"); return 0; } /* * Check if another command created the newhints file to cause us to * ignore current hints and recreate new ones. We'll unlink_newhints * to remove newhints file after writing refreshed hints file. */ if (_newhints_exists()) { log_debug("get_hints: newhints file"); if (!_hints_exists()) _touch_hints(); if (!_lock_hints(cmd, LOCK_EX, NONBLOCK)) return 0; /* create new hints after scan */ *newhints = NEWHINTS_FILE; return 0; } /* * no hints file exists, a normal case */ if (!_hints_exists()) { log_debug("get_hints: no file"); if (!_touch_hints()) return 0; if (!_lock_hints(cmd, LOCK_EX, NONBLOCK)) return 0; /* create new hints after scan */ *newhints = NEWHINTS_INIT; return 0; } /* * hints are locked by a command modifying things, just skip using * hints this time since they aren't accurate while things change. * We hold a sh lock on the hints file while reading it to prevent * another command from clearing it while we're reading */ if (!_lock_hints(cmd, LOCK_SH, NONBLOCK)) { log_debug("get_hints: lock fail"); return 0; } /* * couln't read file for some reason, not normal, just skip using hints */ if (!_read_hint_file(cmd, &hints_list, &needs_refresh)) { log_debug("get_hints: read fail"); _unlock_hints(cmd); return 0; } _unlock_hints(cmd); /* * The content of the hint file is invalid and should be refreshed, * so we'll scan everything and then recreate the hints. */ if (needs_refresh) { log_debug("get_hints: needs refresh"); if (!_lock_hints(cmd, LOCK_EX, NONBLOCK)) return 0; /* create new hints after scan */ *newhints = NEWHINTS_REFRESH; return 0; } /* * A command that changes global state clears the content * of the hints file so it will be recreated, and we must * be following that since we found no hints. */ if (dm_list_empty(&hints_list)) { log_debug("get_hints: no entries"); if (!_lock_hints(cmd, LOCK_EX, NONBLOCK)) return 0; /* create new hints after scan */ *newhints = NEWHINTS_EMPTY; return 0; } /* * If the command specifies a single VG (alone or as part of a single * LV), then we can set vgname to further reduce scanning by only * scanning the hints for the given vgname. * * (This is a further optimization beyond the basic hints that tell * us which devs are PVs. We might want to enable this optimization * separately.) */ _get_single_vgname_cmd_arg(cmd, &hints_list, &vgname); _apply_hints(cmd, &hints_list, vgname, devs_in, devs_out); log_debug("get_hints: applied using %d other %d", dm_list_size(devs_out), dm_list_size(devs_in)); dm_list_splice(hints_out, &hints_list); return 1; }