/* * Copyright (c) 2004, 2005 Christophe Varoqui * Copyright (c) 2005 Benjamin Marzinski, Redhat * Copyright (c) 2005 Kiyoshi Ueda, NEC */ #include #include "checkers.h" #include "memory.h" #include "vector.h" #include "structs.h" #include "config.h" #include "debug.h" #include "pgpolicies.h" #include "alias.h" #include "defaults.h" #include "devmapper.h" #include "prio.h" #include "discovery.h" #include "dict.h" #include "util.h" #include "prioritizers/alua_rtpg.h" #include pgpolicyfn *pgpolicies[] = { NULL, one_path_per_group, one_group, group_by_serial, group_by_prio, group_by_node_name }; #define do_set(var, src, dest, msg) \ do { \ if (src && src->var) { \ dest = src->var; \ origin = msg; \ goto out; \ } \ } while(0) #define do_default(dest, value) \ do { \ dest = value; \ origin = "(setting: multipath internal)"; \ } while(0) #define mp_set_mpe(var) \ do_set(var, mp->mpe, mp->var, "(setting: multipath.conf multipaths section)") #define mp_set_hwe(var) \ do_set(var, mp->hwe, mp->var, "(setting: array configuration)") #define mp_set_ovr(var) \ do_set(var, conf->overrides, mp->var, "(setting: multipath.conf overrides section)") #define mp_set_conf(var) \ do_set(var, conf, mp->var, "(setting: multipath.conf defaults/devices section)") #define mp_set_default(var, value) \ do_default(mp->var, value) #define pp_set_mpe(var) \ do_set(var, mpe, pp->var, "(setting: multipath.conf multipaths section)") #define pp_set_hwe(var) \ do_set(var, pp->hwe, pp->var, "(setting: array configuration)") #define pp_set_conf(var) \ do_set(var, conf, pp->var, "(setting: multipath.conf defaults/devices section)") #define pp_set_ovr(var) \ do_set(var, conf->overrides, pp->var, "(setting: multipath.conf overrides section)") #define pp_set_default(var, value) \ do_default(pp->var, value) #define do_attr_set(var, src, shift, msg) \ do { \ if (src && (src->attribute_flags & (1 << shift))) { \ mp->attribute_flags |= (1 << shift); \ mp->var = src->var; \ origin = msg; \ goto out; \ } \ } while(0) #define set_attr_mpe(var, shift) \ do_attr_set(var, mp->mpe, shift, "(setting: multipath.conf multipaths section)") #define set_attr_conf(var, shift) \ do_attr_set(var, conf, shift, "(setting: multipath.conf defaults/devices section)") int select_mode(struct config *conf, struct multipath *mp) { char *origin; set_attr_mpe(mode, ATTR_MODE); set_attr_conf(mode, ATTR_MODE); mp->attribute_flags &= ~(1 << ATTR_MODE); return 0; out: condlog(3, "%s: mode = 0%o %s", mp->alias, mp->mode, origin); return 0; } int select_uid(struct config *conf, struct multipath *mp) { char *origin; set_attr_mpe(uid, ATTR_UID); set_attr_conf(uid, ATTR_UID); mp->attribute_flags &= ~(1 << ATTR_UID); return 0; out: condlog(3, "%s: uid = 0%o %s", mp->alias, mp->uid, origin); return 0; } int select_gid(struct config *conf, struct multipath *mp) { char *origin; set_attr_mpe(gid, ATTR_GID); set_attr_conf(gid, ATTR_GID); mp->attribute_flags &= ~(1 << ATTR_GID); return 0; out: condlog(3, "%s: gid = 0%o %s", mp->alias, mp->gid, origin); return 0; } /* * selectors : * traverse the configuration layers from most specific to most generic * stop at first explicit setting found */ int select_rr_weight(struct config *conf, struct multipath * mp) { char *origin, buff[13]; mp_set_mpe(rr_weight); mp_set_ovr(rr_weight); mp_set_hwe(rr_weight); mp_set_conf(rr_weight); mp_set_default(rr_weight, DEFAULT_RR_WEIGHT); out: print_rr_weight(buff, 13, &mp->rr_weight); condlog(3, "%s: rr_weight = %s %s", mp->alias, buff, origin); return 0; } int select_pgfailback(struct config *conf, struct multipath * mp) { char *origin, buff[13]; mp_set_mpe(pgfailback); mp_set_ovr(pgfailback); mp_set_hwe(pgfailback); mp_set_conf(pgfailback); mp_set_default(pgfailback, DEFAULT_FAILBACK); out: print_pgfailback(buff, 13, &mp->pgfailback); condlog(3, "%s: failback = %s %s", mp->alias, buff, origin); return 0; } int select_pgpolicy(struct config *conf, struct multipath * mp) { char *origin, buff[POLICY_NAME_SIZE]; if (conf->pgpolicy_flag > 0) { mp->pgpolicy = conf->pgpolicy_flag; origin = "(setting: multipath command line [-p] flag)"; goto out; } mp_set_mpe(pgpolicy); mp_set_ovr(pgpolicy); mp_set_hwe(pgpolicy); mp_set_conf(pgpolicy); mp_set_default(pgpolicy, DEFAULT_PGPOLICY); out: mp->pgpolicyfn = pgpolicies[mp->pgpolicy]; get_pgpolicy_name(buff, POLICY_NAME_SIZE, mp->pgpolicy); condlog(3, "%s: path_grouping_policy = %s %s", mp->alias, buff, origin); return 0; } int select_selector(struct config *conf, struct multipath * mp) { char *origin; mp_set_mpe(selector); mp_set_ovr(selector); mp_set_hwe(selector); mp_set_conf(selector); mp_set_default(selector, DEFAULT_SELECTOR); out: mp->selector = STRDUP(mp->selector); condlog(3, "%s: path_selector = \"%s\" %s", mp->alias, mp->selector, origin); return 0; } static void select_alias_prefix (struct config *conf, struct multipath * mp) { char *origin; mp_set_ovr(alias_prefix); mp_set_hwe(alias_prefix); mp_set_conf(alias_prefix); mp_set_default(alias_prefix, DEFAULT_ALIAS_PREFIX); out: condlog(3, "%s: alias_prefix = %s %s", mp->wwid, mp->alias_prefix, origin); } static int want_user_friendly_names(struct config *conf, struct multipath * mp) { char *origin; int user_friendly_names; do_set(user_friendly_names, mp->mpe, user_friendly_names, "(setting: multipath.conf multipaths section)"); do_set(user_friendly_names, conf->overrides, user_friendly_names, "(setting: multipath.conf overrides section)"); do_set(user_friendly_names, mp->hwe, user_friendly_names, "(setting: array configuration)"); do_set(user_friendly_names, conf, user_friendly_names, "(setting: multipath.conf defaults/devices section)"); do_default(user_friendly_names, DEFAULT_USER_FRIENDLY_NAMES); out: condlog(3, "%s: user_friendly_names = %s %s", mp->wwid, (user_friendly_names == USER_FRIENDLY_NAMES_ON)? "yes" : "no", origin); return (user_friendly_names == USER_FRIENDLY_NAMES_ON); } int select_alias(struct config *conf, struct multipath * mp) { char *origin = NULL; if (mp->mpe && mp->mpe->alias) { mp->alias = STRDUP(mp->mpe->alias); origin = "(setting: multipath.conf multipaths section)"; goto out; } mp->alias = NULL; if (!want_user_friendly_names(conf, mp)) goto out; select_alias_prefix(conf, mp); if (strlen(mp->alias_old) > 0) { mp->alias = use_existing_alias(mp->wwid, conf->bindings_file, mp->alias_old, mp->alias_prefix, conf->bindings_read_only); memset (mp->alias_old, 0, WWID_SIZE); origin = "(setting: using existing alias)"; } if (mp->alias == NULL) { mp->alias = get_user_friendly_alias(mp->wwid, conf->bindings_file, mp->alias_prefix, conf->bindings_read_only); origin = "(setting: user_friendly_name)"; } out: if (mp->alias == NULL) { mp->alias = STRDUP(mp->wwid); origin = "(setting: default to WWID)"; } if (mp->alias) condlog(3, "%s: alias = %s %s", mp->wwid, mp->alias, origin); return mp->alias ? 0 : 1; } void reconcile_features_with_options(const char *id, char **features, int* no_path_retry, int *retain_hwhandler) { static const char q_i_n_p[] = "queue_if_no_path"; static const char r_a_h_h[] = "retain_attached_hw_handler"; char buff[12]; if (*features == NULL) return; if (id == NULL) id = "UNKNOWN"; /* * We only use no_path_retry internally. The "queue_if_no_path" * device-mapper feature is derived from it when the map is loaded. * For consistency, "queue_if_no_path" is removed from the * internal libmultipath features string. * For backward compatibility we allow 'features "1 queue_if_no_path"'; * it's translated into "no_path_retry queue" here. */ if (strstr(*features, q_i_n_p)) { condlog(0, "%s: option 'features \"1 %s\"' is deprecated, " "please use 'no_path_retry queue' instead", id, q_i_n_p); if (*no_path_retry == NO_PATH_RETRY_UNDEF) { *no_path_retry = NO_PATH_RETRY_QUEUE; print_no_path_retry(buff, sizeof(buff), no_path_retry); condlog(3, "%s: no_path_retry = %s (inherited setting from feature '%s')", id, buff, q_i_n_p); }; /* Warn only if features string is overridden */ if (*no_path_retry != NO_PATH_RETRY_QUEUE) { print_no_path_retry(buff, sizeof(buff), no_path_retry); condlog(2, "%s: ignoring feature '%s' because no_path_retry is set to '%s'", id, q_i_n_p, buff); } remove_feature(features, q_i_n_p); } if (strstr(*features, r_a_h_h)) { condlog(0, "%s: option 'features \"1 %s\"' is deprecated", id, r_a_h_h); if (*retain_hwhandler == RETAIN_HWHANDLER_UNDEF) { condlog(3, "%s: %s = on (inherited setting from feature '%s')", id, r_a_h_h, r_a_h_h); *retain_hwhandler = RETAIN_HWHANDLER_ON; } else if (*retain_hwhandler == RETAIN_HWHANDLER_OFF) condlog(2, "%s: ignoring feature '%s' because %s is set to 'off'", id, r_a_h_h, r_a_h_h); remove_feature(features, r_a_h_h); } } int select_features(struct config *conf, struct multipath *mp) { char *origin; mp_set_mpe(features); mp_set_ovr(features); mp_set_hwe(features); mp_set_conf(features); mp_set_default(features, DEFAULT_FEATURES); out: mp->features = STRDUP(mp->features); reconcile_features_with_options(mp->alias, &mp->features, &mp->no_path_retry, &mp->retain_hwhandler); condlog(3, "%s: features = \"%s\" %s", mp->alias, mp->features, origin); return 0; } int select_hwhandler(struct config *conf, struct multipath *mp) { char *origin; mp_set_hwe(hwhandler); mp_set_conf(hwhandler); mp_set_default(hwhandler, DEFAULT_HWHANDLER); out: mp->hwhandler = STRDUP(mp->hwhandler); condlog(3, "%s: hardware_handler = \"%s\" %s", mp->alias, mp->hwhandler, origin); return 0; } int select_checker(struct config *conf, struct path *pp) { char *origin, *checker_name; struct checker * c = &pp->checker; if (pp->detect_checker == DETECT_CHECKER_ON && pp->tpgs > 0) { checker_name = TUR; origin = "(setting: array autodetected)"; goto out; } do_set(checker_name, conf->overrides, checker_name, "(setting: multipath.conf overrides section)"); do_set(checker_name, pp->hwe, checker_name, "(setting: array configuration)"); do_set(checker_name, conf, checker_name, "(setting: multipath.conf defaults/devices section)"); do_default(checker_name, DEFAULT_CHECKER); out: checker_get(conf->multipath_dir, c, checker_name); condlog(3, "%s: path_checker = %s %s", pp->dev, c->name, origin); if (conf->checker_timeout) { c->timeout = conf->checker_timeout; condlog(3, "%s: checker timeout = %u s (setting: multipath.conf defaults/devices section)", pp->dev, c->timeout); } else if (sysfs_get_timeout(pp, &c->timeout) > 0) condlog(3, "%s: checker timeout = %u s (setting: kernel sysfs)", pp->dev, c->timeout); else { c->timeout = DEF_TIMEOUT; condlog(3, "%s: checker timeout = %u s (setting: multipath internal)", pp->dev, c->timeout); } return 0; } int select_getuid(struct config *conf, struct path *pp) { char *origin; pp->uid_attribute = parse_uid_attribute_by_attrs(conf->uid_attrs, pp->dev); if (pp->uid_attribute) { origin = "(setting: multipath.conf defaults section)"; goto out; } pp_set_ovr(getuid); pp_set_ovr(uid_attribute); pp_set_hwe(getuid); pp_set_hwe(uid_attribute); pp_set_conf(getuid); pp_set_conf(uid_attribute); pp_set_default(uid_attribute, DEFAULT_UID_ATTRIBUTE); out: if (pp->uid_attribute) condlog(3, "%s: uid_attribute = %s %s", pp->dev, pp->uid_attribute, origin); else if (pp->getuid) condlog(3, "%s: getuid = \"%s\" %s", pp->dev, pp->getuid, origin); return 0; } /* * Current RDAC (NetApp E-Series) firmware relies * on periodic REPORT TARGET PORT GROUPS for * internal load balancing. * Using the sysfs priority checker defeats this purpose. */ static int check_rdac(struct path * pp) { int len; char buff[44]; len = get_vpd_sgio(pp->fd, 0xC9, buff, 44); if (len <= 0) return 0; return !(memcmp(buff + 4, "vac1", 4)); } void detect_prio(struct config *conf, struct path * pp) { struct prio *p = &pp->prio; char buff[512]; char *default_prio = PRIO_ALUA; if (pp->tpgs <= 0) return; if (pp->tpgs == 2 && !check_rdac(pp)) { if (sysfs_get_asymmetric_access_state(pp, buff, 512) >= 0) default_prio = PRIO_SYSFS; } prio_get(conf->multipath_dir, p, default_prio, DEFAULT_PRIO_ARGS); } #define set_prio(dir, src, msg) \ do { \ if (src && src->prio_name) { \ prio_get(dir, p, src->prio_name, src->prio_args); \ origin = msg; \ goto out; \ } \ } while(0) int select_prio(struct config *conf, struct path *pp) { char *origin; struct mpentry * mpe; struct prio * p = &pp->prio; if (pp->detect_prio == DETECT_PRIO_ON) { detect_prio(conf, pp); if (prio_selected(p)) { origin = "(setting: array autodetected)"; goto out; } } mpe = find_mpe(conf->mptable, pp->wwid); set_prio(conf->multipath_dir, mpe, "(setting: multipath.conf multipaths section)"); set_prio(conf->multipath_dir, conf->overrides, "(setting: multipath.conf overrides section)"); set_prio(conf->multipath_dir, pp->hwe, "(setting: array configuration)"); set_prio(conf->multipath_dir, conf, "(setting: multipath.conf defaults/devices section)"); prio_get(conf->multipath_dir, p, DEFAULT_PRIO, DEFAULT_PRIO_ARGS); origin = "(setting: multipath internal)"; out: /* * fetch tpgs mode for alua, if its not already obtained */ if (!strncmp(prio_name(p), PRIO_ALUA, PRIO_NAME_LEN)) { int tpgs = 0; unsigned int timeout = conf->checker_timeout; if(!pp->tpgs && (tpgs = get_target_port_group_support(pp->fd, timeout)) >= 0) pp->tpgs = tpgs; } condlog(3, "%s: prio = %s %s", pp->dev, prio_name(p), origin); condlog(3, "%s: prio args = \"%s\" %s", pp->dev, prio_args(p), origin); return 0; } int select_no_path_retry(struct config *conf, struct multipath *mp) { char *origin = NULL; char buff[12]; if (mp->flush_on_last_del == FLUSH_IN_PROGRESS) { condlog(0, "%s: flush_on_last_del in progress", mp->alias); mp->no_path_retry = NO_PATH_RETRY_FAIL; return 0; } mp_set_mpe(no_path_retry); mp_set_ovr(no_path_retry); mp_set_hwe(no_path_retry); mp_set_conf(no_path_retry); out: print_no_path_retry(buff, 12, &mp->no_path_retry); if (origin) condlog(3, "%s: no_path_retry = %s %s", mp->alias, buff, origin); else condlog(3, "%s: no_path_retry = undef (setting: multipath internal)", mp->alias); return 0; } int select_minio_rq (struct config *conf, struct multipath * mp) { char *origin; do_set(minio_rq, mp->mpe, mp->minio, "(setting: multipath.conf multipaths section)"); do_set(minio_rq, conf->overrides, mp->minio, "(setting: multipath.conf overrides section)"); do_set(minio_rq, mp->hwe, mp->minio, "(setting: array configuration)"); do_set(minio_rq, conf, mp->minio, "(setting: multipath.conf defaults/devices section)"); do_default(mp->minio, DEFAULT_MINIO_RQ); out: condlog(3, "%s: minio = %i %s", mp->alias, mp->minio, origin); return 0; } int select_minio_bio (struct config *conf, struct multipath * mp) { char *origin; mp_set_mpe(minio); mp_set_ovr(minio); mp_set_hwe(minio); mp_set_conf(minio); mp_set_default(minio, DEFAULT_MINIO); out: condlog(3, "%s: minio = %i %s", mp->alias, mp->minio, origin); return 0; } int select_minio(struct config *conf, struct multipath *mp) { unsigned int minv_dmrq[3] = {1, 1, 0}; if (VERSION_GE(conf->version, minv_dmrq)) return select_minio_rq(conf, mp); else return select_minio_bio(conf, mp); } int select_fast_io_fail(struct config *conf, struct multipath *mp) { char *origin, buff[12]; mp_set_ovr(fast_io_fail); mp_set_hwe(fast_io_fail); mp_set_conf(fast_io_fail); mp_set_default(fast_io_fail, DEFAULT_FAST_IO_FAIL); out: print_fast_io_fail(buff, 12, &mp->fast_io_fail); condlog(3, "%s: fast_io_fail_tmo = %s %s", mp->alias, buff, origin); return 0; } int select_dev_loss(struct config *conf, struct multipath *mp) { char *origin, buff[12]; mp_set_ovr(dev_loss); mp_set_hwe(dev_loss); mp_set_conf(dev_loss); mp->dev_loss = 0; return 0; out: print_dev_loss(buff, 12, &mp->dev_loss); condlog(3, "%s: dev_loss_tmo = %s %s", mp->alias, buff, origin); return 0; } int select_flush_on_last_del(struct config *conf, struct multipath *mp) { char *origin; if (mp->flush_on_last_del == FLUSH_IN_PROGRESS) return 0; mp_set_mpe(flush_on_last_del); mp_set_ovr(flush_on_last_del); mp_set_hwe(flush_on_last_del); mp_set_conf(flush_on_last_del); mp_set_default(flush_on_last_del, DEFAULT_FLUSH); out: condlog(3, "%s: flush_on_last_del = %s %s", mp->alias, (mp->flush_on_last_del == FLUSH_ENABLED)? "yes" : "no", origin); return 0; } int select_reservation_key(struct config *conf, struct multipath *mp) { char *origin, buff[12]; mp_set_mpe(reservation_key); mp_set_conf(reservation_key); mp->reservation_key = NULL; return 0; out: print_reservation_key(buff, 12, &mp->reservation_key); condlog(3, "%s: reservation_key = %s %s", mp->alias, buff, origin); return 0; } int select_retain_hwhandler(struct config *conf, struct multipath *mp) { char *origin; unsigned int minv_dm_retain[3] = {1, 5, 0}; if (!VERSION_GE(conf->version, minv_dm_retain)) { mp->retain_hwhandler = RETAIN_HWHANDLER_OFF; origin = "(setting: WARNING, requires kernel dm-mpath version >= 1.5.0)"; goto out; } if (get_linux_version_code() >= KERNEL_VERSION(4, 3, 0)) { mp->retain_hwhandler = RETAIN_HWHANDLER_ON; origin = "(setting: implied in kernel >= 4.3.0)"; goto out; } mp_set_ovr(retain_hwhandler); mp_set_hwe(retain_hwhandler); mp_set_conf(retain_hwhandler); mp_set_default(retain_hwhandler, DEFAULT_RETAIN_HWHANDLER); out: condlog(3, "%s: retain_attached_hw_handler = %s %s", mp->alias, (mp->retain_hwhandler == RETAIN_HWHANDLER_ON)? "yes" : "no", origin); return 0; } int select_detect_prio(struct config *conf, struct path *pp) { char *origin; pp_set_ovr(detect_prio); pp_set_hwe(detect_prio); pp_set_conf(detect_prio); pp_set_default(detect_prio, DEFAULT_DETECT_PRIO); out: condlog(3, "%s: detect_prio = %s %s", pp->dev, (pp->detect_prio == DETECT_PRIO_ON)? "yes" : "no", origin); return 0; } int select_detect_checker(struct config *conf, struct path *pp) { char *origin; pp_set_ovr(detect_checker); pp_set_hwe(detect_checker); pp_set_conf(detect_checker); pp_set_default(detect_checker, DEFAULT_DETECT_CHECKER); out: condlog(3, "%s: detect_checker = %s %s", pp->dev, (pp->detect_checker == DETECT_CHECKER_ON)? "yes" : "no", origin); return 0; } int select_deferred_remove(struct config *conf, struct multipath *mp) { char *origin; #ifndef LIBDM_API_DEFERRED mp->deferred_remove = DEFERRED_REMOVE_OFF; origin = "(setting: WARNING, not compiled with support)"; goto out; #endif if (mp->deferred_remove == DEFERRED_REMOVE_IN_PROGRESS) { condlog(3, "%s: deferred remove in progress", mp->alias); return 0; } mp_set_mpe(deferred_remove); mp_set_ovr(deferred_remove); mp_set_hwe(deferred_remove); mp_set_conf(deferred_remove); mp_set_default(deferred_remove, DEFAULT_DEFERRED_REMOVE); out: condlog(3, "%s: deferred_remove = %s %s", mp->alias, (mp->deferred_remove == DEFERRED_REMOVE_ON)? "yes" : "no", origin); return 0; } int select_delay_watch_checks(struct config *conf, struct multipath *mp) { char *origin, buff[12]; mp_set_mpe(delay_watch_checks); mp_set_ovr(delay_watch_checks); mp_set_hwe(delay_watch_checks); mp_set_conf(delay_watch_checks); mp_set_default(delay_watch_checks, DEFAULT_DELAY_CHECKS); out: print_off_int_undef(buff, 12, &mp->delay_watch_checks); condlog(3, "%s: delay_watch_checks = %s %s", mp->alias, buff, origin); return 0; } int select_delay_wait_checks(struct config *conf, struct multipath *mp) { char *origin, buff[12]; mp_set_mpe(delay_wait_checks); mp_set_ovr(delay_wait_checks); mp_set_hwe(delay_wait_checks); mp_set_conf(delay_wait_checks); mp_set_default(delay_wait_checks, DEFAULT_DELAY_CHECKS); out: print_off_int_undef(buff, 12, &mp->delay_wait_checks); condlog(3, "%s: delay_wait_checks = %s %s", mp->alias, buff, origin); return 0; } int select_san_path_err_threshold(struct config *conf, struct multipath *mp) { char *origin, buff[12]; mp_set_mpe(san_path_err_threshold); mp_set_ovr(san_path_err_threshold); mp_set_hwe(san_path_err_threshold); mp_set_conf(san_path_err_threshold); mp_set_default(san_path_err_threshold, DEFAULT_ERR_CHECKS); out: print_off_int_undef(buff, 12, &mp->san_path_err_threshold); condlog(3, "%s: san_path_err_threshold = %s %s", mp->alias, buff, origin); return 0; } int select_san_path_err_forget_rate(struct config *conf, struct multipath *mp) { char *origin, buff[12]; mp_set_mpe(san_path_err_forget_rate); mp_set_ovr(san_path_err_forget_rate); mp_set_hwe(san_path_err_forget_rate); mp_set_conf(san_path_err_forget_rate); mp_set_default(san_path_err_forget_rate, DEFAULT_ERR_CHECKS); out: print_off_int_undef(buff, 12, &mp->san_path_err_forget_rate); condlog(3, "%s: san_path_err_forget_rate = %s %s", mp->alias, buff, origin); return 0; } int select_san_path_err_recovery_time(struct config *conf, struct multipath *mp) { char *origin, buff[12]; mp_set_mpe(san_path_err_recovery_time); mp_set_ovr(san_path_err_recovery_time); mp_set_hwe(san_path_err_recovery_time); mp_set_conf(san_path_err_recovery_time); mp_set_default(san_path_err_recovery_time, DEFAULT_ERR_CHECKS); out: print_off_int_undef(buff, 12, &mp->san_path_err_recovery_time); condlog(3, "%s: san_path_err_recovery_time = %s %s", mp->alias, buff, origin); return 0; } int select_skip_kpartx (struct config *conf, struct multipath * mp) { char *origin; mp_set_mpe(skip_kpartx); mp_set_ovr(skip_kpartx); mp_set_hwe(skip_kpartx); mp_set_conf(skip_kpartx); mp_set_default(skip_kpartx, DEFAULT_SKIP_KPARTX); out: condlog(3, "%s: skip_kpartx = %s %s", mp->alias, (mp->skip_kpartx == SKIP_KPARTX_ON)? "yes" : "no", origin); return 0; } int select_max_sectors_kb(struct config *conf, struct multipath * mp) { char *origin; mp_set_mpe(max_sectors_kb); mp_set_ovr(max_sectors_kb); mp_set_hwe(max_sectors_kb); mp_set_conf(max_sectors_kb); mp_set_default(max_sectors_kb, DEFAULT_MAX_SECTORS_KB); /* * In the default case, we will not modify max_sectors_kb in sysfs * (see sysfs_set_max_sectors_kb()). * Don't print a log message here to avoid user confusion. */ return 0; out: condlog(3, "%s: max_sectors_kb = %i %s", mp->alias, mp->max_sectors_kb, origin); return 0; }