/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved. * Copyright 2011 Nexenta Systems, Inc. All rights reserved. * Copyright (c) 2011, 2020 by Delphix. All rights reserved. * Copyright (c) 2012 by Frederik Wessels. All rights reserved. * Copyright (c) 2012 by Cyril Plisko. All rights reserved. * Copyright (c) 2013 by Prasad Joshi (sTec). All rights reserved. * Copyright 2016 Igor Kozhukhov . * Copyright (c) 2017 Datto Inc. * Copyright (c) 2017 Open-E, Inc. All Rights Reserved. * Copyright (c) 2017, Intel Corporation. * Copyright (c) 2019, loli10K */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "zpool_util.h" #include "zfs_comutil.h" #include "zfeature_common.h" #include "statcommon.h" libzfs_handle_t *g_zfs; static int zpool_do_create(int, char **); static int zpool_do_destroy(int, char **); static int zpool_do_add(int, char **); static int zpool_do_remove(int, char **); static int zpool_do_labelclear(int, char **); static int zpool_do_checkpoint(int, char **); static int zpool_do_list(int, char **); static int zpool_do_iostat(int, char **); static int zpool_do_status(int, char **); static int zpool_do_online(int, char **); static int zpool_do_offline(int, char **); static int zpool_do_clear(int, char **); static int zpool_do_reopen(int, char **); static int zpool_do_reguid(int, char **); static int zpool_do_attach(int, char **); static int zpool_do_detach(int, char **); static int zpool_do_replace(int, char **); static int zpool_do_split(int, char **); static int zpool_do_initialize(int, char **); static int zpool_do_scrub(int, char **); static int zpool_do_resilver(int, char **); static int zpool_do_trim(int, char **); static int zpool_do_import(int, char **); static int zpool_do_export(int, char **); static int zpool_do_upgrade(int, char **); static int zpool_do_history(int, char **); static int zpool_do_events(int, char **); static int zpool_do_get(int, char **); static int zpool_do_set(int, char **); static int zpool_do_sync(int, char **); static int zpool_do_version(int, char **); static int zpool_do_wait(int, char **); /* * These libumem hooks provide a reasonable set of defaults for the allocator's * debugging facilities. */ #ifdef DEBUG const char * _umem_debug_init(void) { return ("default,verbose"); /* $UMEM_DEBUG setting */ } const char * _umem_logging_init(void) { return ("fail,contents"); /* $UMEM_LOGGING setting */ } #endif typedef enum { HELP_ADD, HELP_ATTACH, HELP_CLEAR, HELP_CREATE, HELP_CHECKPOINT, HELP_DESTROY, HELP_DETACH, HELP_EXPORT, HELP_HISTORY, HELP_IMPORT, HELP_IOSTAT, HELP_LABELCLEAR, HELP_LIST, HELP_OFFLINE, HELP_ONLINE, HELP_REPLACE, HELP_REMOVE, HELP_INITIALIZE, HELP_SCRUB, HELP_RESILVER, HELP_TRIM, HELP_STATUS, HELP_UPGRADE, HELP_EVENTS, HELP_GET, HELP_SET, HELP_SPLIT, HELP_SYNC, HELP_REGUID, HELP_REOPEN, HELP_VERSION, HELP_WAIT } zpool_help_t; /* * Flags for stats to display with "zpool iostats" */ enum iostat_type { IOS_DEFAULT = 0, IOS_LATENCY = 1, IOS_QUEUES = 2, IOS_L_HISTO = 3, IOS_RQ_HISTO = 4, IOS_COUNT, /* always last element */ }; /* iostat_type entries as bitmasks */ #define IOS_DEFAULT_M (1ULL << IOS_DEFAULT) #define IOS_LATENCY_M (1ULL << IOS_LATENCY) #define IOS_QUEUES_M (1ULL << IOS_QUEUES) #define IOS_L_HISTO_M (1ULL << IOS_L_HISTO) #define IOS_RQ_HISTO_M (1ULL << IOS_RQ_HISTO) /* Mask of all the histo bits */ #define IOS_ANYHISTO_M (IOS_L_HISTO_M | IOS_RQ_HISTO_M) /* * Lookup table for iostat flags to nvlist names. Basically a list * of all the nvlists a flag requires. Also specifies the order in * which data gets printed in zpool iostat. */ static const char *vsx_type_to_nvlist[IOS_COUNT][13] = { [IOS_L_HISTO] = { ZPOOL_CONFIG_VDEV_TOT_R_LAT_HISTO, ZPOOL_CONFIG_VDEV_TOT_W_LAT_HISTO, ZPOOL_CONFIG_VDEV_DISK_R_LAT_HISTO, ZPOOL_CONFIG_VDEV_DISK_W_LAT_HISTO, ZPOOL_CONFIG_VDEV_SYNC_R_LAT_HISTO, ZPOOL_CONFIG_VDEV_SYNC_W_LAT_HISTO, ZPOOL_CONFIG_VDEV_ASYNC_R_LAT_HISTO, ZPOOL_CONFIG_VDEV_ASYNC_W_LAT_HISTO, ZPOOL_CONFIG_VDEV_SCRUB_LAT_HISTO, ZPOOL_CONFIG_VDEV_TRIM_LAT_HISTO, NULL}, [IOS_LATENCY] = { ZPOOL_CONFIG_VDEV_TOT_R_LAT_HISTO, ZPOOL_CONFIG_VDEV_TOT_W_LAT_HISTO, ZPOOL_CONFIG_VDEV_DISK_R_LAT_HISTO, ZPOOL_CONFIG_VDEV_DISK_W_LAT_HISTO, ZPOOL_CONFIG_VDEV_TRIM_LAT_HISTO, NULL}, [IOS_QUEUES] = { ZPOOL_CONFIG_VDEV_SYNC_R_ACTIVE_QUEUE, ZPOOL_CONFIG_VDEV_SYNC_W_ACTIVE_QUEUE, ZPOOL_CONFIG_VDEV_ASYNC_R_ACTIVE_QUEUE, ZPOOL_CONFIG_VDEV_ASYNC_W_ACTIVE_QUEUE, ZPOOL_CONFIG_VDEV_SCRUB_ACTIVE_QUEUE, ZPOOL_CONFIG_VDEV_TRIM_ACTIVE_QUEUE, NULL}, [IOS_RQ_HISTO] = { ZPOOL_CONFIG_VDEV_SYNC_IND_R_HISTO, ZPOOL_CONFIG_VDEV_SYNC_AGG_R_HISTO, ZPOOL_CONFIG_VDEV_SYNC_IND_W_HISTO, ZPOOL_CONFIG_VDEV_SYNC_AGG_W_HISTO, ZPOOL_CONFIG_VDEV_ASYNC_IND_R_HISTO, ZPOOL_CONFIG_VDEV_ASYNC_AGG_R_HISTO, ZPOOL_CONFIG_VDEV_ASYNC_IND_W_HISTO, ZPOOL_CONFIG_VDEV_ASYNC_AGG_W_HISTO, ZPOOL_CONFIG_VDEV_IND_SCRUB_HISTO, ZPOOL_CONFIG_VDEV_AGG_SCRUB_HISTO, ZPOOL_CONFIG_VDEV_IND_TRIM_HISTO, ZPOOL_CONFIG_VDEV_AGG_TRIM_HISTO, NULL}, }; /* * Given a cb->cb_flags with a histogram bit set, return the iostat_type. * Right now, only one histo bit is ever set at one time, so we can * just do a highbit64(a) */ #define IOS_HISTO_IDX(a) (highbit64(a & IOS_ANYHISTO_M) - 1) typedef struct zpool_command { const char *name; int (*func)(int, char **); zpool_help_t usage; } zpool_command_t; /* * Master command table. Each ZFS command has a name, associated function, and * usage message. The usage messages need to be internationalized, so we have * to have a function to return the usage message based on a command index. * * These commands are organized according to how they are displayed in the usage * message. An empty command (one with a NULL name) indicates an empty line in * the generic usage message. */ static zpool_command_t command_table[] = { { "version", zpool_do_version, HELP_VERSION }, { NULL }, { "create", zpool_do_create, HELP_CREATE }, { "destroy", zpool_do_destroy, HELP_DESTROY }, { NULL }, { "add", zpool_do_add, HELP_ADD }, { "remove", zpool_do_remove, HELP_REMOVE }, { NULL }, { "labelclear", zpool_do_labelclear, HELP_LABELCLEAR }, { NULL }, { "checkpoint", zpool_do_checkpoint, HELP_CHECKPOINT }, { NULL }, { "list", zpool_do_list, HELP_LIST }, { "iostat", zpool_do_iostat, HELP_IOSTAT }, { "status", zpool_do_status, HELP_STATUS }, { NULL }, { "online", zpool_do_online, HELP_ONLINE }, { "offline", zpool_do_offline, HELP_OFFLINE }, { "clear", zpool_do_clear, HELP_CLEAR }, { "reopen", zpool_do_reopen, HELP_REOPEN }, { NULL }, { "attach", zpool_do_attach, HELP_ATTACH }, { "detach", zpool_do_detach, HELP_DETACH }, { "replace", zpool_do_replace, HELP_REPLACE }, { "split", zpool_do_split, HELP_SPLIT }, { NULL }, { "initialize", zpool_do_initialize, HELP_INITIALIZE }, { "resilver", zpool_do_resilver, HELP_RESILVER }, { "scrub", zpool_do_scrub, HELP_SCRUB }, { "trim", zpool_do_trim, HELP_TRIM }, { NULL }, { "import", zpool_do_import, HELP_IMPORT }, { "export", zpool_do_export, HELP_EXPORT }, { "upgrade", zpool_do_upgrade, HELP_UPGRADE }, { "reguid", zpool_do_reguid, HELP_REGUID }, { NULL }, { "history", zpool_do_history, HELP_HISTORY }, { "events", zpool_do_events, HELP_EVENTS }, { NULL }, { "get", zpool_do_get, HELP_GET }, { "set", zpool_do_set, HELP_SET }, { "sync", zpool_do_sync, HELP_SYNC }, { NULL }, { "wait", zpool_do_wait, HELP_WAIT }, }; #define NCOMMAND (ARRAY_SIZE(command_table)) #define VDEV_ALLOC_CLASS_LOGS "logs" static zpool_command_t *current_command; static char history_str[HIS_MAX_RECORD_LEN]; static boolean_t log_history = B_TRUE; static uint_t timestamp_fmt = NODATE; static const char * get_usage(zpool_help_t idx) { switch (idx) { case HELP_ADD: return (gettext("\tadd [-fgLnP] [-o property=value] " " ...\n")); case HELP_ATTACH: return (gettext("\tattach [-fsw] [-o property=value] " " \n")); case HELP_CLEAR: return (gettext("\tclear [-nF] [device]\n")); case HELP_CREATE: return (gettext("\tcreate [-fnd] [-o property=value] ... \n" "\t [-O file-system-property=value] ... \n" "\t [-m mountpoint] [-R root] ...\n")); case HELP_CHECKPOINT: return (gettext("\tcheckpoint [-d [-w]] ...\n")); case HELP_DESTROY: return (gettext("\tdestroy [-f] \n")); case HELP_DETACH: return (gettext("\tdetach \n")); case HELP_EXPORT: return (gettext("\texport [-af] ...\n")); case HELP_HISTORY: return (gettext("\thistory [-il] [] ...\n")); case HELP_IMPORT: return (gettext("\timport [-d dir] [-D]\n" "\timport [-o mntopts] [-o property=value] ... \n" "\t [-d dir | -c cachefile] [-D] [-l] [-f] [-m] [-N] " "[-R root] [-F [-n]] -a\n" "\timport [-o mntopts] [-o property=value] ... \n" "\t [-d dir | -c cachefile] [-D] [-l] [-f] [-m] [-N] " "[-R root] [-F [-n]]\n" "\t [--rewind-to-checkpoint] [newpool]\n")); case HELP_IOSTAT: return (gettext("\tiostat [[[-c [script1,script2,...]" "[-lq]]|[-rw]] [-T d | u] [-ghHLpPvy]\n" "\t [[pool ...]|[pool vdev ...]|[vdev ...]]" " [[-n] interval [count]]\n")); case HELP_LABELCLEAR: return (gettext("\tlabelclear [-f] \n")); case HELP_LIST: return (gettext("\tlist [-gHLpPv] [-o property[,...]] " "[-T d|u] [pool] ... \n" "\t [interval [count]]\n")); case HELP_OFFLINE: return (gettext("\toffline [-f] [-t] ...\n")); case HELP_ONLINE: return (gettext("\tonline [-e] ...\n")); case HELP_REPLACE: return (gettext("\treplace [-fsw] [-o property=value] " " [new-device]\n")); case HELP_REMOVE: return (gettext("\tremove [-npsw] ...\n")); case HELP_REOPEN: return (gettext("\treopen [-n] \n")); case HELP_INITIALIZE: return (gettext("\tinitialize [-c | -s] [-w] " "[ ...]\n")); case HELP_SCRUB: return (gettext("\tscrub [-s | -p] [-w] ...\n")); case HELP_RESILVER: return (gettext("\tresilver ...\n")); case HELP_TRIM: return (gettext("\ttrim [-dw] [-r ] [-c | -s] " "[ ...]\n")); case HELP_STATUS: return (gettext("\tstatus [-c [script1,script2,...]] " "[-igLpPstvxD] [-T d|u] [pool] ... \n" "\t [interval [count]]\n")); case HELP_UPGRADE: return (gettext("\tupgrade\n" "\tupgrade -v\n" "\tupgrade [-V version] <-a | pool ...>\n")); case HELP_EVENTS: return (gettext("\tevents [-vHf [pool] | -c]\n")); case HELP_GET: return (gettext("\tget [-Hp] [-o \"all\" | field[,...]] " "<\"all\" | property[,...]> ...\n")); case HELP_SET: return (gettext("\tset \n")); case HELP_SPLIT: return (gettext("\tsplit [-gLnPl] [-R altroot] [-o mntopts]\n" "\t [-o property=value] " "[ ...]\n")); case HELP_REGUID: return (gettext("\treguid \n")); case HELP_SYNC: return (gettext("\tsync [pool] ...\n")); case HELP_VERSION: return (gettext("\tversion\n")); case HELP_WAIT: return (gettext("\twait [-Hp] [-T d|u] [-t [,...]] " " [interval]\n")); } abort(); /* NOTREACHED */ } static void zpool_collect_leaves(zpool_handle_t *zhp, nvlist_t *nvroot, nvlist_t *res) { uint_t children = 0; nvlist_t **child; uint_t i; (void) nvlist_lookup_nvlist_array(nvroot, ZPOOL_CONFIG_CHILDREN, &child, &children); if (children == 0) { char *path = zpool_vdev_name(g_zfs, zhp, nvroot, VDEV_NAME_PATH); if (strcmp(path, VDEV_TYPE_INDIRECT) != 0 && strcmp(path, VDEV_TYPE_HOLE) != 0) fnvlist_add_boolean(res, path); free(path); return; } for (i = 0; i < children; i++) { zpool_collect_leaves(zhp, child[i], res); } } /* * Callback routine that will print out a pool property value. */ static int print_prop_cb(int prop, void *cb) { FILE *fp = cb; (void) fprintf(fp, "\t%-19s ", zpool_prop_to_name(prop)); if (zpool_prop_readonly(prop)) (void) fprintf(fp, " NO "); else (void) fprintf(fp, " YES "); if (zpool_prop_values(prop) == NULL) (void) fprintf(fp, "-\n"); else (void) fprintf(fp, "%s\n", zpool_prop_values(prop)); return (ZPROP_CONT); } /* * Display usage message. If we're inside a command, display only the usage for * that command. Otherwise, iterate over the entire command table and display * a complete usage message. */ static void usage(boolean_t requested) { FILE *fp = requested ? stdout : stderr; if (current_command == NULL) { int i; (void) fprintf(fp, gettext("usage: zpool command args ...\n")); (void) fprintf(fp, gettext("where 'command' is one of the following:\n\n")); for (i = 0; i < NCOMMAND; i++) { if (command_table[i].name == NULL) (void) fprintf(fp, "\n"); else (void) fprintf(fp, "%s", get_usage(command_table[i].usage)); } } else { (void) fprintf(fp, gettext("usage:\n")); (void) fprintf(fp, "%s", get_usage(current_command->usage)); } if (current_command != NULL && ((strcmp(current_command->name, "set") == 0) || (strcmp(current_command->name, "get") == 0) || (strcmp(current_command->name, "list") == 0))) { (void) fprintf(fp, gettext("\nthe following properties are supported:\n")); (void) fprintf(fp, "\n\t%-19s %s %s\n\n", "PROPERTY", "EDIT", "VALUES"); /* Iterate over all properties */ (void) zprop_iter(print_prop_cb, fp, B_FALSE, B_TRUE, ZFS_TYPE_POOL); (void) fprintf(fp, "\t%-19s ", "feature@..."); (void) fprintf(fp, "YES disabled | enabled | active\n"); (void) fprintf(fp, gettext("\nThe feature@ properties must be " "appended with a feature name.\nSee zpool-features(5).\n")); } /* * See comments at end of main(). */ if (getenv("ZFS_ABORT") != NULL) { (void) printf("dumping core by request\n"); abort(); } exit(requested ? 0 : 2); } /* * zpool initialize [-c | -s] [-w] [ ...] * Initialize all unused blocks in the specified vdevs, or all vdevs in the pool * if none specified. * * -c Cancel. Ends active initializing. * -s Suspend. Initializing can then be restarted with no flags. * -w Wait. Blocks until initializing has completed. */ int zpool_do_initialize(int argc, char **argv) { int c; char *poolname; zpool_handle_t *zhp; nvlist_t *vdevs; int err = 0; boolean_t wait = B_FALSE; struct option long_options[] = { {"cancel", no_argument, NULL, 'c'}, {"suspend", no_argument, NULL, 's'}, {"wait", no_argument, NULL, 'w'}, {0, 0, 0, 0} }; pool_initialize_func_t cmd_type = POOL_INITIALIZE_START; while ((c = getopt_long(argc, argv, "csw", long_options, NULL)) != -1) { switch (c) { case 'c': if (cmd_type != POOL_INITIALIZE_START && cmd_type != POOL_INITIALIZE_CANCEL) { (void) fprintf(stderr, gettext("-c cannot be " "combined with other options\n")); usage(B_FALSE); } cmd_type = POOL_INITIALIZE_CANCEL; break; case 's': if (cmd_type != POOL_INITIALIZE_START && cmd_type != POOL_INITIALIZE_SUSPEND) { (void) fprintf(stderr, gettext("-s cannot be " "combined with other options\n")); usage(B_FALSE); } cmd_type = POOL_INITIALIZE_SUSPEND; break; case 'w': wait = B_TRUE; break; case '?': if (optopt != 0) { (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); } else { (void) fprintf(stderr, gettext("invalid option '%s'\n"), argv[optind - 1]); } usage(B_FALSE); } } argc -= optind; argv += optind; if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name argument\n")); usage(B_FALSE); return (-1); } if (wait && (cmd_type != POOL_INITIALIZE_START)) { (void) fprintf(stderr, gettext("-w cannot be used with -c or " "-s\n")); usage(B_FALSE); } poolname = argv[0]; zhp = zpool_open(g_zfs, poolname); if (zhp == NULL) return (-1); vdevs = fnvlist_alloc(); if (argc == 1) { /* no individual leaf vdevs specified, so add them all */ nvlist_t *config = zpool_get_config(zhp, NULL); nvlist_t *nvroot = fnvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE); zpool_collect_leaves(zhp, nvroot, vdevs); } else { for (int i = 1; i < argc; i++) { fnvlist_add_boolean(vdevs, argv[i]); } } if (wait) err = zpool_initialize_wait(zhp, cmd_type, vdevs); else err = zpool_initialize(zhp, cmd_type, vdevs); fnvlist_free(vdevs); zpool_close(zhp); return (err); } /* * print a pool vdev config for dry runs */ static void print_vdev_tree(zpool_handle_t *zhp, const char *name, nvlist_t *nv, int indent, const char *match, int name_flags) { nvlist_t **child; uint_t c, children; char *vname; boolean_t printed = B_FALSE; if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_CHILDREN, &child, &children) != 0) { if (name != NULL) (void) printf("\t%*s%s\n", indent, "", name); return; } for (c = 0; c < children; c++) { uint64_t is_log = B_FALSE; char *class = ""; (void) nvlist_lookup_uint64(child[c], ZPOOL_CONFIG_IS_LOG, &is_log); if (is_log) class = VDEV_ALLOC_BIAS_LOG; (void) nvlist_lookup_string(child[c], ZPOOL_CONFIG_ALLOCATION_BIAS, &class); if (strcmp(match, class) != 0) continue; if (!printed && name != NULL) { (void) printf("\t%*s%s\n", indent, "", name); printed = B_TRUE; } vname = zpool_vdev_name(g_zfs, zhp, child[c], name_flags); print_vdev_tree(zhp, vname, child[c], indent + 2, "", name_flags); free(vname); } } static boolean_t prop_list_contains_feature(nvlist_t *proplist) { nvpair_t *nvp; for (nvp = nvlist_next_nvpair(proplist, NULL); NULL != nvp; nvp = nvlist_next_nvpair(proplist, nvp)) { if (zpool_prop_feature(nvpair_name(nvp))) return (B_TRUE); } return (B_FALSE); } /* * Add a property pair (name, string-value) into a property nvlist. */ static int add_prop_list(const char *propname, char *propval, nvlist_t **props, boolean_t poolprop) { zpool_prop_t prop = ZPOOL_PROP_INVAL; nvlist_t *proplist; const char *normnm; char *strval; if (*props == NULL && nvlist_alloc(props, NV_UNIQUE_NAME, 0) != 0) { (void) fprintf(stderr, gettext("internal error: out of memory\n")); return (1); } proplist = *props; if (poolprop) { const char *vname = zpool_prop_to_name(ZPOOL_PROP_VERSION); if ((prop = zpool_name_to_prop(propname)) == ZPOOL_PROP_INVAL && !zpool_prop_feature(propname)) { (void) fprintf(stderr, gettext("property '%s' is " "not a valid pool property\n"), propname); return (2); } /* * feature@ properties and version should not be specified * at the same time. */ if ((prop == ZPOOL_PROP_INVAL && zpool_prop_feature(propname) && nvlist_exists(proplist, vname)) || (prop == ZPOOL_PROP_VERSION && prop_list_contains_feature(proplist))) { (void) fprintf(stderr, gettext("'feature@' and " "'version' properties cannot be specified " "together\n")); return (2); } if (zpool_prop_feature(propname)) normnm = propname; else normnm = zpool_prop_to_name(prop); } else { zfs_prop_t fsprop = zfs_name_to_prop(propname); if (zfs_prop_valid_for_type(fsprop, ZFS_TYPE_FILESYSTEM, B_FALSE)) { normnm = zfs_prop_to_name(fsprop); } else if (zfs_prop_user(propname) || zfs_prop_userquota(propname)) { normnm = propname; } else { (void) fprintf(stderr, gettext("property '%s' is " "not a valid filesystem property\n"), propname); return (2); } } if (nvlist_lookup_string(proplist, normnm, &strval) == 0 && prop != ZPOOL_PROP_CACHEFILE) { (void) fprintf(stderr, gettext("property '%s' " "specified multiple times\n"), propname); return (2); } if (nvlist_add_string(proplist, normnm, propval) != 0) { (void) fprintf(stderr, gettext("internal " "error: out of memory\n")); return (1); } return (0); } /* * Set a default property pair (name, string-value) in a property nvlist */ static int add_prop_list_default(const char *propname, char *propval, nvlist_t **props, boolean_t poolprop) { char *pval; if (nvlist_lookup_string(*props, propname, &pval) == 0) return (0); return (add_prop_list(propname, propval, props, B_TRUE)); } /* * zpool add [-fgLnP] [-o property=value] ... * * -f Force addition of devices, even if they appear in use * -g Display guid for individual vdev name. * -L Follow links when resolving vdev path name. * -n Do not add the devices, but display the resulting layout if * they were to be added. * -o Set property=value. * -P Display full path for vdev name. * * Adds the given vdevs to 'pool'. As with create, the bulk of this work is * handled by make_root_vdev(), which constructs the nvlist needed to pass to * libzfs. */ int zpool_do_add(int argc, char **argv) { boolean_t force = B_FALSE; boolean_t dryrun = B_FALSE; int name_flags = 0; int c; nvlist_t *nvroot; char *poolname; int ret; zpool_handle_t *zhp; nvlist_t *config; nvlist_t *props = NULL; char *propval; /* check options */ while ((c = getopt(argc, argv, "fgLno:P")) != -1) { switch (c) { case 'f': force = B_TRUE; break; case 'g': name_flags |= VDEV_NAME_GUID; break; case 'L': name_flags |= VDEV_NAME_FOLLOW_LINKS; break; case 'n': dryrun = B_TRUE; break; case 'o': if ((propval = strchr(optarg, '=')) == NULL) { (void) fprintf(stderr, gettext("missing " "'=' for -o option\n")); usage(B_FALSE); } *propval = '\0'; propval++; if ((strcmp(optarg, ZPOOL_CONFIG_ASHIFT) != 0) || (add_prop_list(optarg, propval, &props, B_TRUE))) usage(B_FALSE); break; case 'P': name_flags |= VDEV_NAME_PATH; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* get pool name and check number of arguments */ if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name argument\n")); usage(B_FALSE); } if (argc < 2) { (void) fprintf(stderr, gettext("missing vdev specification\n")); usage(B_FALSE); } poolname = argv[0]; argc--; argv++; if ((zhp = zpool_open(g_zfs, poolname)) == NULL) return (1); if ((config = zpool_get_config(zhp, NULL)) == NULL) { (void) fprintf(stderr, gettext("pool '%s' is unavailable\n"), poolname); zpool_close(zhp); return (1); } /* unless manually specified use "ashift" pool property (if set) */ if (!nvlist_exists(props, ZPOOL_CONFIG_ASHIFT)) { int intval; zprop_source_t src; char strval[ZPOOL_MAXPROPLEN]; intval = zpool_get_prop_int(zhp, ZPOOL_PROP_ASHIFT, &src); if (src != ZPROP_SRC_DEFAULT) { (void) sprintf(strval, "%" PRId32, intval); verify(add_prop_list(ZPOOL_CONFIG_ASHIFT, strval, &props, B_TRUE) == 0); } } /* pass off to make_root_vdev for processing */ nvroot = make_root_vdev(zhp, props, force, !force, B_FALSE, dryrun, argc, argv); if (nvroot == NULL) { zpool_close(zhp); return (1); } if (dryrun) { nvlist_t *poolnvroot; nvlist_t **l2child; uint_t l2children, c; char *vname; boolean_t hadcache = B_FALSE; verify(nvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE, &poolnvroot) == 0); (void) printf(gettext("would update '%s' to the following " "configuration:\n"), zpool_get_name(zhp)); /* print original main pool and new tree */ print_vdev_tree(zhp, poolname, poolnvroot, 0, "", name_flags | VDEV_NAME_TYPE_ID); print_vdev_tree(zhp, NULL, nvroot, 0, "", name_flags); /* print other classes: 'dedup', 'special', and 'log' */ if (zfs_special_devs(poolnvroot, VDEV_ALLOC_BIAS_DEDUP)) { print_vdev_tree(zhp, "dedup", poolnvroot, 0, VDEV_ALLOC_BIAS_DEDUP, name_flags); print_vdev_tree(zhp, NULL, nvroot, 0, VDEV_ALLOC_BIAS_DEDUP, name_flags); } else if (zfs_special_devs(nvroot, VDEV_ALLOC_BIAS_DEDUP)) { print_vdev_tree(zhp, "dedup", nvroot, 0, VDEV_ALLOC_BIAS_DEDUP, name_flags); } if (zfs_special_devs(poolnvroot, VDEV_ALLOC_BIAS_SPECIAL)) { print_vdev_tree(zhp, "special", poolnvroot, 0, VDEV_ALLOC_BIAS_SPECIAL, name_flags); print_vdev_tree(zhp, NULL, nvroot, 0, VDEV_ALLOC_BIAS_SPECIAL, name_flags); } else if (zfs_special_devs(nvroot, VDEV_ALLOC_BIAS_SPECIAL)) { print_vdev_tree(zhp, "special", nvroot, 0, VDEV_ALLOC_BIAS_SPECIAL, name_flags); } if (num_logs(poolnvroot) > 0) { print_vdev_tree(zhp, "logs", poolnvroot, 0, VDEV_ALLOC_BIAS_LOG, name_flags); print_vdev_tree(zhp, NULL, nvroot, 0, VDEV_ALLOC_BIAS_LOG, name_flags); } else if (num_logs(nvroot) > 0) { print_vdev_tree(zhp, "logs", nvroot, 0, VDEV_ALLOC_BIAS_LOG, name_flags); } /* Do the same for the caches */ if (nvlist_lookup_nvlist_array(poolnvroot, ZPOOL_CONFIG_L2CACHE, &l2child, &l2children) == 0 && l2children) { hadcache = B_TRUE; (void) printf(gettext("\tcache\n")); for (c = 0; c < l2children; c++) { vname = zpool_vdev_name(g_zfs, NULL, l2child[c], name_flags); (void) printf("\t %s\n", vname); free(vname); } } if (nvlist_lookup_nvlist_array(nvroot, ZPOOL_CONFIG_L2CACHE, &l2child, &l2children) == 0 && l2children) { if (!hadcache) (void) printf(gettext("\tcache\n")); for (c = 0; c < l2children; c++) { vname = zpool_vdev_name(g_zfs, NULL, l2child[c], name_flags); (void) printf("\t %s\n", vname); free(vname); } } ret = 0; } else { ret = (zpool_add(zhp, nvroot) != 0); } nvlist_free(props); nvlist_free(nvroot); zpool_close(zhp); return (ret); } /* * zpool remove [-npsw] ... * * Removes the given vdev from the pool. */ int zpool_do_remove(int argc, char **argv) { char *poolname; int i, ret = 0; zpool_handle_t *zhp = NULL; boolean_t stop = B_FALSE; int c; boolean_t noop = B_FALSE; boolean_t parsable = B_FALSE; boolean_t wait = B_FALSE; /* check options */ while ((c = getopt(argc, argv, "npsw")) != -1) { switch (c) { case 'n': noop = B_TRUE; break; case 'p': parsable = B_TRUE; break; case 's': stop = B_TRUE; break; case 'w': wait = B_TRUE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* get pool name and check number of arguments */ if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name argument\n")); usage(B_FALSE); } poolname = argv[0]; if ((zhp = zpool_open(g_zfs, poolname)) == NULL) return (1); if (stop && noop) { (void) fprintf(stderr, gettext("stop request ignored\n")); return (0); } if (stop) { if (argc > 1) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } if (zpool_vdev_remove_cancel(zhp) != 0) ret = 1; if (wait) { (void) fprintf(stderr, gettext("invalid option " "combination: -w cannot be used with -s\n")); usage(B_FALSE); } } else { if (argc < 2) { (void) fprintf(stderr, gettext("missing device\n")); usage(B_FALSE); } for (i = 1; i < argc; i++) { if (noop) { uint64_t size; if (zpool_vdev_indirect_size(zhp, argv[i], &size) != 0) { ret = 1; break; } if (parsable) { (void) printf("%s %llu\n", argv[i], (unsigned long long)size); } else { char valstr[32]; zfs_nicenum(size, valstr, sizeof (valstr)); (void) printf("Memory that will be " "used after removing %s: %s\n", argv[i], valstr); } } else { if (zpool_vdev_remove(zhp, argv[i]) != 0) ret = 1; } } if (ret == 0 && wait) ret = zpool_wait(zhp, ZPOOL_WAIT_REMOVE); } zpool_close(zhp); return (ret); } /* * zpool labelclear [-f] * * -f Force clearing the label for the vdevs which are members of * the exported or foreign pools. * * Verifies that the vdev is not active and zeros out the label information * on the device. */ int zpool_do_labelclear(int argc, char **argv) { char vdev[MAXPATHLEN]; char *name = NULL; struct stat st; int c, fd = -1, ret = 0; nvlist_t *config; pool_state_t state; boolean_t inuse = B_FALSE; boolean_t force = B_FALSE; /* check options */ while ((c = getopt(argc, argv, "f")) != -1) { switch (c) { case 'f': force = B_TRUE; break; default: (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* get vdev name */ if (argc < 1) { (void) fprintf(stderr, gettext("missing vdev name\n")); usage(B_FALSE); } if (argc > 1) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } /* * Check if we were given absolute path and use it as is. * Otherwise if the provided vdev name doesn't point to a file, * try prepending expected disk paths and partition numbers. */ (void) strlcpy(vdev, argv[0], sizeof (vdev)); if (vdev[0] != '/' && stat(vdev, &st) != 0) { int error; error = zfs_resolve_shortname(argv[0], vdev, MAXPATHLEN); if (error == 0 && zfs_dev_is_whole_disk(vdev)) { if (zfs_append_partition(vdev, MAXPATHLEN) == -1) error = ENOENT; } if (error || (stat(vdev, &st) != 0)) { (void) fprintf(stderr, gettext( "failed to find device %s, try specifying absolute " "path instead\n"), argv[0]); return (1); } } if ((fd = open(vdev, O_RDWR)) < 0) { (void) fprintf(stderr, gettext("failed to open %s: %s\n"), vdev, strerror(errno)); return (1); } /* * Flush all dirty pages for the block device. This should not be * fatal when the device does not support BLKFLSBUF as would be the * case for a file vdev. */ if ((zfs_dev_flush(fd) != 0) && (errno != ENOTTY)) (void) fprintf(stderr, gettext("failed to invalidate " "cache for %s: %s\n"), vdev, strerror(errno)); if (zpool_read_label(fd, &config, NULL) != 0) { (void) fprintf(stderr, gettext("failed to read label from %s\n"), vdev); ret = 1; goto errout; } nvlist_free(config); ret = zpool_in_use(g_zfs, fd, &state, &name, &inuse); if (ret != 0) { (void) fprintf(stderr, gettext("failed to check state for %s\n"), vdev); ret = 1; goto errout; } if (!inuse) goto wipe_label; switch (state) { default: case POOL_STATE_ACTIVE: case POOL_STATE_SPARE: case POOL_STATE_L2CACHE: (void) fprintf(stderr, gettext( "%s is a member (%s) of pool \"%s\"\n"), vdev, zpool_pool_state_to_name(state), name); ret = 1; goto errout; case POOL_STATE_EXPORTED: if (force) break; (void) fprintf(stderr, gettext( "use '-f' to override the following error:\n" "%s is a member of exported pool \"%s\"\n"), vdev, name); ret = 1; goto errout; case POOL_STATE_POTENTIALLY_ACTIVE: if (force) break; (void) fprintf(stderr, gettext( "use '-f' to override the following error:\n" "%s is a member of potentially active pool \"%s\"\n"), vdev, name); ret = 1; goto errout; case POOL_STATE_DESTROYED: /* inuse should never be set for a destroyed pool */ assert(0); break; } wipe_label: ret = zpool_clear_label(fd); if (ret != 0) { (void) fprintf(stderr, gettext("failed to clear label for %s\n"), vdev); } errout: free(name); (void) close(fd); return (ret); } /* * zpool create [-fnd] [-o property=value] ... * [-O file-system-property=value] ... * [-R root] [-m mountpoint] ... * * -f Force creation, even if devices appear in use * -n Do not create the pool, but display the resulting layout if it * were to be created. * -R Create a pool under an alternate root * -m Set default mountpoint for the root dataset. By default it's * '/' * -o Set property=value. * -o Set feature@feature=enabled|disabled. * -d Don't automatically enable all supported pool features * (individual features can be enabled with -o). * -O Set fsproperty=value in the pool's root file system * * Creates the named pool according to the given vdev specification. The * bulk of the vdev processing is done in make_root_vdev() in zpool_vdev.c. * Once we get the nvlist back from make_root_vdev(), we either print out the * contents (if '-n' was specified), or pass it to libzfs to do the creation. */ int zpool_do_create(int argc, char **argv) { boolean_t force = B_FALSE; boolean_t dryrun = B_FALSE; boolean_t enable_all_pool_feat = B_TRUE; int c; nvlist_t *nvroot = NULL; char *poolname; char *tname = NULL; int ret = 1; char *altroot = NULL; char *mountpoint = NULL; nvlist_t *fsprops = NULL; nvlist_t *props = NULL; char *propval; /* check options */ while ((c = getopt(argc, argv, ":fndR:m:o:O:t:")) != -1) { switch (c) { case 'f': force = B_TRUE; break; case 'n': dryrun = B_TRUE; break; case 'd': enable_all_pool_feat = B_FALSE; break; case 'R': altroot = optarg; if (add_prop_list(zpool_prop_to_name( ZPOOL_PROP_ALTROOT), optarg, &props, B_TRUE)) goto errout; if (add_prop_list_default(zpool_prop_to_name( ZPOOL_PROP_CACHEFILE), "none", &props, B_TRUE)) goto errout; break; case 'm': /* Equivalent to -O mountpoint=optarg */ mountpoint = optarg; break; case 'o': if ((propval = strchr(optarg, '=')) == NULL) { (void) fprintf(stderr, gettext("missing " "'=' for -o option\n")); goto errout; } *propval = '\0'; propval++; if (add_prop_list(optarg, propval, &props, B_TRUE)) goto errout; /* * If the user is creating a pool that doesn't support * feature flags, don't enable any features. */ if (zpool_name_to_prop(optarg) == ZPOOL_PROP_VERSION) { char *end; u_longlong_t ver; ver = strtoull(propval, &end, 10); if (*end == '\0' && ver < SPA_VERSION_FEATURES) { enable_all_pool_feat = B_FALSE; } } if (zpool_name_to_prop(optarg) == ZPOOL_PROP_ALTROOT) altroot = propval; break; case 'O': if ((propval = strchr(optarg, '=')) == NULL) { (void) fprintf(stderr, gettext("missing " "'=' for -O option\n")); goto errout; } *propval = '\0'; propval++; /* * Mountpoints are checked and then added later. * Uniquely among properties, they can be specified * more than once, to avoid conflict with -m. */ if (0 == strcmp(optarg, zfs_prop_to_name(ZFS_PROP_MOUNTPOINT))) { mountpoint = propval; } else if (add_prop_list(optarg, propval, &fsprops, B_FALSE)) { goto errout; } break; case 't': /* * Sanity check temporary pool name. */ if (strchr(optarg, '/') != NULL) { (void) fprintf(stderr, gettext("cannot create " "'%s': invalid character '/' in temporary " "name\n"), optarg); (void) fprintf(stderr, gettext("use 'zfs " "create' to create a dataset\n")); goto errout; } if (add_prop_list(zpool_prop_to_name( ZPOOL_PROP_TNAME), optarg, &props, B_TRUE)) goto errout; if (add_prop_list_default(zpool_prop_to_name( ZPOOL_PROP_CACHEFILE), "none", &props, B_TRUE)) goto errout; tname = optarg; break; case ':': (void) fprintf(stderr, gettext("missing argument for " "'%c' option\n"), optopt); goto badusage; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); goto badusage; } } argc -= optind; argv += optind; /* get pool name and check number of arguments */ if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name argument\n")); goto badusage; } if (argc < 2) { (void) fprintf(stderr, gettext("missing vdev specification\n")); goto badusage; } poolname = argv[0]; /* * As a special case, check for use of '/' in the name, and direct the * user to use 'zfs create' instead. */ if (strchr(poolname, '/') != NULL) { (void) fprintf(stderr, gettext("cannot create '%s': invalid " "character '/' in pool name\n"), poolname); (void) fprintf(stderr, gettext("use 'zfs create' to " "create a dataset\n")); goto errout; } /* pass off to make_root_vdev for bulk processing */ nvroot = make_root_vdev(NULL, props, force, !force, B_FALSE, dryrun, argc - 1, argv + 1); if (nvroot == NULL) goto errout; /* make_root_vdev() allows 0 toplevel children if there are spares */ if (!zfs_allocatable_devs(nvroot)) { (void) fprintf(stderr, gettext("invalid vdev " "specification: at least one toplevel vdev must be " "specified\n")); goto errout; } if (altroot != NULL && altroot[0] != '/') { (void) fprintf(stderr, gettext("invalid alternate root '%s': " "must be an absolute path\n"), altroot); goto errout; } /* * Check the validity of the mountpoint and direct the user to use the * '-m' mountpoint option if it looks like its in use. */ if (mountpoint == NULL || (strcmp(mountpoint, ZFS_MOUNTPOINT_LEGACY) != 0 && strcmp(mountpoint, ZFS_MOUNTPOINT_NONE) != 0)) { char buf[MAXPATHLEN]; DIR *dirp; if (mountpoint && mountpoint[0] != '/') { (void) fprintf(stderr, gettext("invalid mountpoint " "'%s': must be an absolute path, 'legacy', or " "'none'\n"), mountpoint); goto errout; } if (mountpoint == NULL) { if (altroot != NULL) (void) snprintf(buf, sizeof (buf), "%s/%s", altroot, poolname); else (void) snprintf(buf, sizeof (buf), "/%s", poolname); } else { if (altroot != NULL) (void) snprintf(buf, sizeof (buf), "%s%s", altroot, mountpoint); else (void) snprintf(buf, sizeof (buf), "%s", mountpoint); } if ((dirp = opendir(buf)) == NULL && errno != ENOENT) { (void) fprintf(stderr, gettext("mountpoint '%s' : " "%s\n"), buf, strerror(errno)); (void) fprintf(stderr, gettext("use '-m' " "option to provide a different default\n")); goto errout; } else if (dirp) { int count = 0; while (count < 3 && readdir(dirp) != NULL) count++; (void) closedir(dirp); if (count > 2) { (void) fprintf(stderr, gettext("mountpoint " "'%s' exists and is not empty\n"), buf); (void) fprintf(stderr, gettext("use '-m' " "option to provide a " "different default\n")); goto errout; } } } /* * Now that the mountpoint's validity has been checked, ensure that * the property is set appropriately prior to creating the pool. */ if (mountpoint != NULL) { ret = add_prop_list(zfs_prop_to_name(ZFS_PROP_MOUNTPOINT), mountpoint, &fsprops, B_FALSE); if (ret != 0) goto errout; } ret = 1; if (dryrun) { /* * For a dry run invocation, print out a basic message and run * through all the vdevs in the list and print out in an * appropriate hierarchy. */ (void) printf(gettext("would create '%s' with the " "following layout:\n\n"), poolname); print_vdev_tree(NULL, poolname, nvroot, 0, "", 0); print_vdev_tree(NULL, "dedup", nvroot, 0, VDEV_ALLOC_BIAS_DEDUP, 0); print_vdev_tree(NULL, "special", nvroot, 0, VDEV_ALLOC_BIAS_SPECIAL, 0); print_vdev_tree(NULL, "logs", nvroot, 0, VDEV_ALLOC_BIAS_LOG, 0); ret = 0; } else { /* * Hand off to libzfs. */ spa_feature_t i; for (i = 0; i < SPA_FEATURES; i++) { char propname[MAXPATHLEN]; char *propval; zfeature_info_t *feat = &spa_feature_table[i]; (void) snprintf(propname, sizeof (propname), "feature@%s", feat->fi_uname); /* * Only features contained in props will be enabled: * remove from the nvlist every ZFS_FEATURE_DISABLED * value and add every missing ZFS_FEATURE_ENABLED if * enable_all_pool_feat is set. */ if (!nvlist_lookup_string(props, propname, &propval)) { if (strcmp(propval, ZFS_FEATURE_DISABLED) == 0) (void) nvlist_remove_all(props, propname); } else if (enable_all_pool_feat) { ret = add_prop_list(propname, ZFS_FEATURE_ENABLED, &props, B_TRUE); if (ret != 0) goto errout; } } ret = 1; if (zpool_create(g_zfs, poolname, nvroot, props, fsprops) == 0) { zfs_handle_t *pool = zfs_open(g_zfs, tname ? tname : poolname, ZFS_TYPE_FILESYSTEM); if (pool != NULL) { if (zfs_mount(pool, NULL, 0) == 0) { ret = zfs_shareall(pool); zfs_commit_all_shares(); } zfs_close(pool); } } else if (libzfs_errno(g_zfs) == EZFS_INVALIDNAME) { (void) fprintf(stderr, gettext("pool name may have " "been omitted\n")); } } errout: nvlist_free(nvroot); nvlist_free(fsprops); nvlist_free(props); return (ret); badusage: nvlist_free(fsprops); nvlist_free(props); usage(B_FALSE); return (2); } /* * zpool destroy * * -f Forcefully unmount any datasets * * Destroy the given pool. Automatically unmounts any datasets in the pool. */ int zpool_do_destroy(int argc, char **argv) { boolean_t force = B_FALSE; int c; char *pool; zpool_handle_t *zhp; int ret; /* check options */ while ((c = getopt(argc, argv, "f")) != -1) { switch (c) { case 'f': force = B_TRUE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* check arguments */ if (argc < 1) { (void) fprintf(stderr, gettext("missing pool argument\n")); usage(B_FALSE); } if (argc > 1) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } pool = argv[0]; if ((zhp = zpool_open_canfail(g_zfs, pool)) == NULL) { /* * As a special case, check for use of '/' in the name, and * direct the user to use 'zfs destroy' instead. */ if (strchr(pool, '/') != NULL) (void) fprintf(stderr, gettext("use 'zfs destroy' to " "destroy a dataset\n")); return (1); } if (zpool_disable_datasets(zhp, force) != 0) { (void) fprintf(stderr, gettext("could not destroy '%s': " "could not unmount datasets\n"), zpool_get_name(zhp)); zpool_close(zhp); return (1); } /* The history must be logged as part of the export */ log_history = B_FALSE; ret = (zpool_destroy(zhp, history_str) != 0); zpool_close(zhp); return (ret); } typedef struct export_cbdata { boolean_t force; boolean_t hardforce; } export_cbdata_t; /* * Export one pool */ static int zpool_export_one(zpool_handle_t *zhp, void *data) { export_cbdata_t *cb = data; if (zpool_disable_datasets(zhp, cb->force) != 0) return (1); /* The history must be logged as part of the export */ log_history = B_FALSE; if (cb->hardforce) { if (zpool_export_force(zhp, history_str) != 0) return (1); } else if (zpool_export(zhp, cb->force, history_str) != 0) { return (1); } return (0); } /* * zpool export [-f] ... * * -a Export all pools * -f Forcefully unmount datasets * * Export the given pools. By default, the command will attempt to cleanly * unmount any active datasets within the pool. If the '-f' flag is specified, * then the datasets will be forcefully unmounted. */ int zpool_do_export(int argc, char **argv) { export_cbdata_t cb; boolean_t do_all = B_FALSE; boolean_t force = B_FALSE; boolean_t hardforce = B_FALSE; int c, ret; /* check options */ while ((c = getopt(argc, argv, "afF")) != -1) { switch (c) { case 'a': do_all = B_TRUE; break; case 'f': force = B_TRUE; break; case 'F': hardforce = B_TRUE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } cb.force = force; cb.hardforce = hardforce; argc -= optind; argv += optind; if (do_all) { if (argc != 0) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } return (for_each_pool(argc, argv, B_TRUE, NULL, zpool_export_one, &cb)); } /* check arguments */ if (argc < 1) { (void) fprintf(stderr, gettext("missing pool argument\n")); usage(B_FALSE); } ret = for_each_pool(argc, argv, B_TRUE, NULL, zpool_export_one, &cb); return (ret); } /* * Given a vdev configuration, determine the maximum width needed for the device * name column. */ static int max_width(zpool_handle_t *zhp, nvlist_t *nv, int depth, int max, int name_flags) { char *name; nvlist_t **child; uint_t c, children; int ret; name = zpool_vdev_name(g_zfs, zhp, nv, name_flags); if (strlen(name) + depth > max) max = strlen(name) + depth; free(name); if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_SPARES, &child, &children) == 0) { for (c = 0; c < children; c++) if ((ret = max_width(zhp, child[c], depth + 2, max, name_flags)) > max) max = ret; } if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_L2CACHE, &child, &children) == 0) { for (c = 0; c < children; c++) if ((ret = max_width(zhp, child[c], depth + 2, max, name_flags)) > max) max = ret; } if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_CHILDREN, &child, &children) == 0) { for (c = 0; c < children; c++) if ((ret = max_width(zhp, child[c], depth + 2, max, name_flags)) > max) max = ret; } return (max); } typedef struct spare_cbdata { uint64_t cb_guid; zpool_handle_t *cb_zhp; } spare_cbdata_t; static boolean_t find_vdev(nvlist_t *nv, uint64_t search) { uint64_t guid; nvlist_t **child; uint_t c, children; if (nvlist_lookup_uint64(nv, ZPOOL_CONFIG_GUID, &guid) == 0 && search == guid) return (B_TRUE); if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_CHILDREN, &child, &children) == 0) { for (c = 0; c < children; c++) if (find_vdev(child[c], search)) return (B_TRUE); } return (B_FALSE); } static int find_spare(zpool_handle_t *zhp, void *data) { spare_cbdata_t *cbp = data; nvlist_t *config, *nvroot; config = zpool_get_config(zhp, NULL); verify(nvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE, &nvroot) == 0); if (find_vdev(nvroot, cbp->cb_guid)) { cbp->cb_zhp = zhp; return (1); } zpool_close(zhp); return (0); } typedef struct status_cbdata { int cb_count; int cb_name_flags; int cb_namewidth; boolean_t cb_allpools; boolean_t cb_verbose; boolean_t cb_literal; boolean_t cb_explain; boolean_t cb_first; boolean_t cb_dedup_stats; boolean_t cb_print_status; boolean_t cb_print_slow_ios; boolean_t cb_print_vdev_init; boolean_t cb_print_vdev_trim; vdev_cmd_data_list_t *vcdl; } status_cbdata_t; /* Return 1 if string is NULL, empty, or whitespace; return 0 otherwise. */ static int is_blank_str(char *str) { while (str != NULL && *str != '\0') { if (!isblank(*str)) return (0); str++; } return (1); } /* Print command output lines for specific vdev in a specific pool */ static void zpool_print_cmd(vdev_cmd_data_list_t *vcdl, const char *pool, char *path) { vdev_cmd_data_t *data; int i, j; char *val; for (i = 0; i < vcdl->count; i++) { if ((strcmp(vcdl->data[i].path, path) != 0) || (strcmp(vcdl->data[i].pool, pool) != 0)) { /* Not the vdev we're looking for */ continue; } data = &vcdl->data[i]; /* Print out all the output values for this vdev */ for (j = 0; j < vcdl->uniq_cols_cnt; j++) { val = NULL; /* Does this vdev have values for this column? */ for (int k = 0; k < data->cols_cnt; k++) { if (strcmp(data->cols[k], vcdl->uniq_cols[j]) == 0) { /* yes it does, record the value */ val = data->lines[k]; break; } } /* * Mark empty values with dashes to make output * awk-able. */ if (is_blank_str(val)) val = "-"; printf("%*s", vcdl->uniq_cols_width[j], val); if (j < vcdl->uniq_cols_cnt - 1) printf(" "); } /* Print out any values that aren't in a column at the end */ for (j = data->cols_cnt; j < data->lines_cnt; j++) { /* Did we have any columns? If so print a spacer. */ if (vcdl->uniq_cols_cnt > 0) printf(" "); val = data->lines[j]; printf("%s", val ? val : ""); } break; } } /* * Print vdev initialization status for leaves */ static void print_status_initialize(vdev_stat_t *vs, boolean_t verbose) { if (verbose) { if ((vs->vs_initialize_state == VDEV_INITIALIZE_ACTIVE || vs->vs_initialize_state == VDEV_INITIALIZE_SUSPENDED || vs->vs_initialize_state == VDEV_INITIALIZE_COMPLETE) && !vs->vs_scan_removing) { char zbuf[1024]; char tbuf[256]; struct tm zaction_ts; time_t t = vs->vs_initialize_action_time; int initialize_pct = 100; if (vs->vs_initialize_state != VDEV_INITIALIZE_COMPLETE) { initialize_pct = (vs->vs_initialize_bytes_done * 100 / (vs->vs_initialize_bytes_est + 1)); } (void) localtime_r(&t, &zaction_ts); (void) strftime(tbuf, sizeof (tbuf), "%c", &zaction_ts); switch (vs->vs_initialize_state) { case VDEV_INITIALIZE_SUSPENDED: (void) snprintf(zbuf, sizeof (zbuf), ", %s %s", gettext("suspended, started at"), tbuf); break; case VDEV_INITIALIZE_ACTIVE: (void) snprintf(zbuf, sizeof (zbuf), ", %s %s", gettext("started at"), tbuf); break; case VDEV_INITIALIZE_COMPLETE: (void) snprintf(zbuf, sizeof (zbuf), ", %s %s", gettext("completed at"), tbuf); break; } (void) printf(gettext(" (%d%% initialized%s)"), initialize_pct, zbuf); } else { (void) printf(gettext(" (uninitialized)")); } } else if (vs->vs_initialize_state == VDEV_INITIALIZE_ACTIVE) { (void) printf(gettext(" (initializing)")); } } /* * Print vdev TRIM status for leaves */ static void print_status_trim(vdev_stat_t *vs, boolean_t verbose) { if (verbose) { if ((vs->vs_trim_state == VDEV_TRIM_ACTIVE || vs->vs_trim_state == VDEV_TRIM_SUSPENDED || vs->vs_trim_state == VDEV_TRIM_COMPLETE) && !vs->vs_scan_removing) { char zbuf[1024]; char tbuf[256]; struct tm zaction_ts; time_t t = vs->vs_trim_action_time; int trim_pct = 100; if (vs->vs_trim_state != VDEV_TRIM_COMPLETE) { trim_pct = (vs->vs_trim_bytes_done * 100 / (vs->vs_trim_bytes_est + 1)); } (void) localtime_r(&t, &zaction_ts); (void) strftime(tbuf, sizeof (tbuf), "%c", &zaction_ts); switch (vs->vs_trim_state) { case VDEV_TRIM_SUSPENDED: (void) snprintf(zbuf, sizeof (zbuf), ", %s %s", gettext("suspended, started at"), tbuf); break; case VDEV_TRIM_ACTIVE: (void) snprintf(zbuf, sizeof (zbuf), ", %s %s", gettext("started at"), tbuf); break; case VDEV_TRIM_COMPLETE: (void) snprintf(zbuf, sizeof (zbuf), ", %s %s", gettext("completed at"), tbuf); break; } (void) printf(gettext(" (%d%% trimmed%s)"), trim_pct, zbuf); } else if (vs->vs_trim_notsup) { (void) printf(gettext(" (trim unsupported)")); } else { (void) printf(gettext(" (untrimmed)")); } } else if (vs->vs_trim_state == VDEV_TRIM_ACTIVE) { (void) printf(gettext(" (trimming)")); } } /* * Return the color associated with a health string. This includes returning * NULL for no color change. */ static char * health_str_to_color(const char *health) { if (strcmp(health, gettext("FAULTED")) == 0 || strcmp(health, gettext("SUSPENDED")) == 0 || strcmp(health, gettext("UNAVAIL")) == 0) { return (ANSI_RED); } if (strcmp(health, gettext("OFFLINE")) == 0 || strcmp(health, gettext("DEGRADED")) == 0 || strcmp(health, gettext("REMOVED")) == 0) { return (ANSI_YELLOW); } return (NULL); } /* * Print out configuration state as requested by status_callback. */ static void print_status_config(zpool_handle_t *zhp, status_cbdata_t *cb, const char *name, nvlist_t *nv, int depth, boolean_t isspare, vdev_rebuild_stat_t *vrs) { nvlist_t **child, *root; uint_t c, i, vsc, children; pool_scan_stat_t *ps = NULL; vdev_stat_t *vs; char rbuf[6], wbuf[6], cbuf[6]; char *vname; uint64_t notpresent; spare_cbdata_t spare_cb; const char *state; char *type; char *path = NULL; char *rcolor = NULL, *wcolor = NULL, *ccolor = NULL; if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_CHILDREN, &child, &children) != 0) children = 0; verify(nvlist_lookup_uint64_array(nv, ZPOOL_CONFIG_VDEV_STATS, (uint64_t **)&vs, &vsc) == 0); verify(nvlist_lookup_string(nv, ZPOOL_CONFIG_TYPE, &type) == 0); if (strcmp(type, VDEV_TYPE_INDIRECT) == 0) return; state = zpool_state_to_name(vs->vs_state, vs->vs_aux); if (isspare) { /* * For hot spares, we use the terms 'INUSE' and 'AVAILABLE' for * online drives. */ if (vs->vs_aux == VDEV_AUX_SPARED) state = gettext("INUSE"); else if (vs->vs_state == VDEV_STATE_HEALTHY) state = gettext("AVAIL"); } printf_color(health_str_to_color(state), "\t%*s%-*s %-8s", depth, "", cb->cb_namewidth - depth, name, state); if (!isspare) { if (vs->vs_read_errors) rcolor = ANSI_RED; if (vs->vs_write_errors) wcolor = ANSI_RED; if (vs->vs_checksum_errors) ccolor = ANSI_RED; if (cb->cb_literal) { printf(" "); printf_color(rcolor, "%5llu", (u_longlong_t)vs->vs_read_errors); printf(" "); printf_color(wcolor, "%5llu", (u_longlong_t)vs->vs_write_errors); printf(" "); printf_color(ccolor, "%5llu", (u_longlong_t)vs->vs_checksum_errors); } else { zfs_nicenum(vs->vs_read_errors, rbuf, sizeof (rbuf)); zfs_nicenum(vs->vs_write_errors, wbuf, sizeof (wbuf)); zfs_nicenum(vs->vs_checksum_errors, cbuf, sizeof (cbuf)); printf(" "); printf_color(rcolor, "%5s", rbuf); printf(" "); printf_color(wcolor, "%5s", wbuf); printf(" "); printf_color(ccolor, "%5s", cbuf); } if (cb->cb_print_slow_ios) { if (children == 0) { /* Only leafs vdevs have slow IOs */ zfs_nicenum(vs->vs_slow_ios, rbuf, sizeof (rbuf)); } else { snprintf(rbuf, sizeof (rbuf), "-"); } if (cb->cb_literal) printf(" %5llu", (u_longlong_t)vs->vs_slow_ios); else printf(" %5s", rbuf); } } if (nvlist_lookup_uint64(nv, ZPOOL_CONFIG_NOT_PRESENT, ¬present) == 0) { verify(nvlist_lookup_string(nv, ZPOOL_CONFIG_PATH, &path) == 0); (void) printf(" %s %s", gettext("was"), path); } else if (vs->vs_aux != 0) { (void) printf(" "); color_start(ANSI_RED); switch (vs->vs_aux) { case VDEV_AUX_OPEN_FAILED: (void) printf(gettext("cannot open")); break; case VDEV_AUX_BAD_GUID_SUM: (void) printf(gettext("missing device")); break; case VDEV_AUX_NO_REPLICAS: (void) printf(gettext("insufficient replicas")); break; case VDEV_AUX_VERSION_NEWER: (void) printf(gettext("newer version")); break; case VDEV_AUX_UNSUP_FEAT: (void) printf(gettext("unsupported feature(s)")); break; case VDEV_AUX_ASHIFT_TOO_BIG: (void) printf(gettext("unsupported minimum blocksize")); break; case VDEV_AUX_SPARED: verify(nvlist_lookup_uint64(nv, ZPOOL_CONFIG_GUID, &spare_cb.cb_guid) == 0); if (zpool_iter(g_zfs, find_spare, &spare_cb) == 1) { if (strcmp(zpool_get_name(spare_cb.cb_zhp), zpool_get_name(zhp)) == 0) (void) printf(gettext("currently in " "use")); else (void) printf(gettext("in use by " "pool '%s'"), zpool_get_name(spare_cb.cb_zhp)); zpool_close(spare_cb.cb_zhp); } else { (void) printf(gettext("currently in use")); } break; case VDEV_AUX_ERR_EXCEEDED: (void) printf(gettext("too many errors")); break; case VDEV_AUX_IO_FAILURE: (void) printf(gettext("experienced I/O failures")); break; case VDEV_AUX_BAD_LOG: (void) printf(gettext("bad intent log")); break; case VDEV_AUX_EXTERNAL: (void) printf(gettext("external device fault")); break; case VDEV_AUX_SPLIT_POOL: (void) printf(gettext("split into new pool")); break; case VDEV_AUX_ACTIVE: (void) printf(gettext("currently in use")); break; case VDEV_AUX_CHILDREN_OFFLINE: (void) printf(gettext("all children offline")); break; default: (void) printf(gettext("corrupted data")); break; } color_end(); } /* The root vdev has the scrub/resilver stats */ root = fnvlist_lookup_nvlist(zpool_get_config(zhp, NULL), ZPOOL_CONFIG_VDEV_TREE); (void) nvlist_lookup_uint64_array(root, ZPOOL_CONFIG_SCAN_STATS, (uint64_t **)&ps, &c); if (ps != NULL && ps->pss_state == DSS_SCANNING && children == 0) { if (vs->vs_scan_processed != 0) { (void) printf(gettext(" (%s)"), (ps->pss_func == POOL_SCAN_RESILVER) ? "resilvering" : "repairing"); } else if (vs->vs_resilver_deferred) { (void) printf(gettext(" (awaiting resilver)")); } } /* The top-level vdevs have the rebuild stats */ if (vrs != NULL && vrs->vrs_state == VDEV_REBUILD_ACTIVE && children == 0) { if (vs->vs_rebuild_processed != 0) { (void) printf(gettext(" (resilvering)")); } } if (cb->vcdl != NULL) { if (nvlist_lookup_string(nv, ZPOOL_CONFIG_PATH, &path) == 0) { printf(" "); zpool_print_cmd(cb->vcdl, zpool_get_name(zhp), path); } } /* Display vdev initialization and trim status for leaves */ if (children == 0) { print_status_initialize(vs, cb->cb_print_vdev_init); print_status_trim(vs, cb->cb_print_vdev_trim); } (void) printf("\n"); for (c = 0; c < children; c++) { uint64_t islog = B_FALSE, ishole = B_FALSE; /* Don't print logs or holes here */ (void) nvlist_lookup_uint64(child[c], ZPOOL_CONFIG_IS_LOG, &islog); (void) nvlist_lookup_uint64(child[c], ZPOOL_CONFIG_IS_HOLE, &ishole); if (islog || ishole) continue; /* Only print normal classes here */ if (nvlist_exists(child[c], ZPOOL_CONFIG_ALLOCATION_BIAS)) continue; /* Provide vdev_rebuild_stats to children if available */ if (vrs == NULL) { (void) nvlist_lookup_uint64_array(nv, ZPOOL_CONFIG_REBUILD_STATS, (uint64_t **)&vrs, &i); } vname = zpool_vdev_name(g_zfs, zhp, child[c], cb->cb_name_flags | VDEV_NAME_TYPE_ID); print_status_config(zhp, cb, vname, child[c], depth + 2, isspare, vrs); free(vname); } } /* * Print the configuration of an exported pool. Iterate over all vdevs in the * pool, printing out the name and status for each one. */ static void print_import_config(status_cbdata_t *cb, const char *name, nvlist_t *nv, int depth) { nvlist_t **child; uint_t c, children; vdev_stat_t *vs; char *type, *vname; verify(nvlist_lookup_string(nv, ZPOOL_CONFIG_TYPE, &type) == 0); if (strcmp(type, VDEV_TYPE_MISSING) == 0 || strcmp(type, VDEV_TYPE_HOLE) == 0) return; verify(nvlist_lookup_uint64_array(nv, ZPOOL_CONFIG_VDEV_STATS, (uint64_t **)&vs, &c) == 0); (void) printf("\t%*s%-*s", depth, "", cb->cb_namewidth - depth, name); (void) printf(" %s", zpool_state_to_name(vs->vs_state, vs->vs_aux)); if (vs->vs_aux != 0) { (void) printf(" "); switch (vs->vs_aux) { case VDEV_AUX_OPEN_FAILED: (void) printf(gettext("cannot open")); break; case VDEV_AUX_BAD_GUID_SUM: (void) printf(gettext("missing device")); break; case VDEV_AUX_NO_REPLICAS: (void) printf(gettext("insufficient replicas")); break; case VDEV_AUX_VERSION_NEWER: (void) printf(gettext("newer version")); break; case VDEV_AUX_UNSUP_FEAT: (void) printf(gettext("unsupported feature(s)")); break; case VDEV_AUX_ERR_EXCEEDED: (void) printf(gettext("too many errors")); break; case VDEV_AUX_ACTIVE: (void) printf(gettext("currently in use")); break; case VDEV_AUX_CHILDREN_OFFLINE: (void) printf(gettext("all children offline")); break; default: (void) printf(gettext("corrupted data")); break; } } (void) printf("\n"); if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_CHILDREN, &child, &children) != 0) return; for (c = 0; c < children; c++) { uint64_t is_log = B_FALSE; (void) nvlist_lookup_uint64(child[c], ZPOOL_CONFIG_IS_LOG, &is_log); if (is_log) continue; if (nvlist_exists(child[c], ZPOOL_CONFIG_ALLOCATION_BIAS)) continue; vname = zpool_vdev_name(g_zfs, NULL, child[c], cb->cb_name_flags | VDEV_NAME_TYPE_ID); print_import_config(cb, vname, child[c], depth + 2); free(vname); } if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_L2CACHE, &child, &children) == 0) { (void) printf(gettext("\tcache\n")); for (c = 0; c < children; c++) { vname = zpool_vdev_name(g_zfs, NULL, child[c], cb->cb_name_flags); (void) printf("\t %s\n", vname); free(vname); } } if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_SPARES, &child, &children) == 0) { (void) printf(gettext("\tspares\n")); for (c = 0; c < children; c++) { vname = zpool_vdev_name(g_zfs, NULL, child[c], cb->cb_name_flags); (void) printf("\t %s\n", vname); free(vname); } } } /* * Print specialized class vdevs. * * These are recorded as top level vdevs in the main pool child array * but with "is_log" set to 1 or an "alloc_bias" string. We use either * print_status_config() or print_import_config() to print the top level * class vdevs then any of their children (eg mirrored slogs) are printed * recursively - which works because only the top level vdev is marked. */ static void print_class_vdevs(zpool_handle_t *zhp, status_cbdata_t *cb, nvlist_t *nv, const char *class) { uint_t c, children; nvlist_t **child; boolean_t printed = B_FALSE; assert(zhp != NULL || !cb->cb_verbose); if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_CHILDREN, &child, &children) != 0) return; for (c = 0; c < children; c++) { uint64_t is_log = B_FALSE; char *bias = NULL; char *type = NULL; (void) nvlist_lookup_uint64(child[c], ZPOOL_CONFIG_IS_LOG, &is_log); if (is_log) { bias = VDEV_ALLOC_CLASS_LOGS; } else { (void) nvlist_lookup_string(child[c], ZPOOL_CONFIG_ALLOCATION_BIAS, &bias); (void) nvlist_lookup_string(child[c], ZPOOL_CONFIG_TYPE, &type); } if (bias == NULL || strcmp(bias, class) != 0) continue; if (!is_log && strcmp(type, VDEV_TYPE_INDIRECT) == 0) continue; if (!printed) { (void) printf("\t%s\t\n", gettext(class)); printed = B_TRUE; } char *name = zpool_vdev_name(g_zfs, zhp, child[c], cb->cb_name_flags | VDEV_NAME_TYPE_ID); if (cb->cb_print_status) print_status_config(zhp, cb, name, child[c], 2, B_FALSE, NULL); else print_import_config(cb, name, child[c], 2); free(name); } } /* * Display the status for the given pool. */ static void show_import(nvlist_t *config) { uint64_t pool_state; vdev_stat_t *vs; char *name; uint64_t guid; uint64_t hostid = 0; char *msgid; char *hostname = "unknown"; nvlist_t *nvroot, *nvinfo; zpool_status_t reason; zpool_errata_t errata; const char *health; uint_t vsc; char *comment; status_cbdata_t cb = { 0 }; verify(nvlist_lookup_string(config, ZPOOL_CONFIG_POOL_NAME, &name) == 0); verify(nvlist_lookup_uint64(config, ZPOOL_CONFIG_POOL_GUID, &guid) == 0); verify(nvlist_lookup_uint64(config, ZPOOL_CONFIG_POOL_STATE, &pool_state) == 0); verify(nvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE, &nvroot) == 0); verify(nvlist_lookup_uint64_array(nvroot, ZPOOL_CONFIG_VDEV_STATS, (uint64_t **)&vs, &vsc) == 0); health = zpool_state_to_name(vs->vs_state, vs->vs_aux); reason = zpool_import_status(config, &msgid, &errata); (void) printf(gettext(" pool: %s\n"), name); (void) printf(gettext(" id: %llu\n"), (u_longlong_t)guid); (void) printf(gettext(" state: %s"), health); if (pool_state == POOL_STATE_DESTROYED) (void) printf(gettext(" (DESTROYED)")); (void) printf("\n"); switch (reason) { case ZPOOL_STATUS_MISSING_DEV_R: case ZPOOL_STATUS_MISSING_DEV_NR: case ZPOOL_STATUS_BAD_GUID_SUM: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices are " "missing from the system.\n")); break; case ZPOOL_STATUS_CORRUPT_LABEL_R: case ZPOOL_STATUS_CORRUPT_LABEL_NR: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices contains" " corrupted data.\n")); break; case ZPOOL_STATUS_CORRUPT_DATA: (void) printf( gettext(" status: The pool data is corrupted.\n")); break; case ZPOOL_STATUS_OFFLINE_DEV: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices " "are offlined.\n")); break; case ZPOOL_STATUS_CORRUPT_POOL: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool metadata is " "corrupted.\n")); break; case ZPOOL_STATUS_VERSION_OLDER: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool is formatted using " "a legacy on-disk version.\n")); break; case ZPOOL_STATUS_VERSION_NEWER: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool is formatted using " "an incompatible version.\n")); break; case ZPOOL_STATUS_FEAT_DISABLED: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("Some supported features are " "not enabled on the pool.\n")); break; case ZPOOL_STATUS_UNSUP_FEAT_READ: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool uses the following " "feature(s) not supported on this system:\n")); color_start(ANSI_YELLOW); zpool_print_unsup_feat(config); color_end(); break; case ZPOOL_STATUS_UNSUP_FEAT_WRITE: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool can only be " "accessed in read-only mode on this system. It\n\tcannot be" " accessed in read-write mode because it uses the " "following\n\tfeature(s) not supported on this system:\n")); color_start(ANSI_YELLOW); zpool_print_unsup_feat(config); color_end(); break; case ZPOOL_STATUS_HOSTID_ACTIVE: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool is currently " "imported by another system.\n")); break; case ZPOOL_STATUS_HOSTID_REQUIRED: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool has the " "multihost property on. It cannot\n\tbe safely imported " "when the system hostid is not set.\n")); break; case ZPOOL_STATUS_HOSTID_MISMATCH: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool was last accessed " "by another system.\n")); break; case ZPOOL_STATUS_FAULTED_DEV_R: case ZPOOL_STATUS_FAULTED_DEV_NR: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices are " "faulted.\n")); break; case ZPOOL_STATUS_BAD_LOG: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("An intent log record cannot " "be read.\n")); break; case ZPOOL_STATUS_RESILVERING: case ZPOOL_STATUS_REBUILDING: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices were " "being resilvered.\n")); break; case ZPOOL_STATUS_ERRATA: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("Errata #%d detected.\n"), errata); break; default: /* * No other status can be seen when importing pools. */ assert(reason == ZPOOL_STATUS_OK); } /* * Print out an action according to the overall state of the pool. */ if (vs->vs_state == VDEV_STATE_HEALTHY) { if (reason == ZPOOL_STATUS_VERSION_OLDER || reason == ZPOOL_STATUS_FEAT_DISABLED) { (void) printf(gettext(" action: The pool can be " "imported using its name or numeric identifier, " "though\n\tsome features will not be available " "without an explicit 'zpool upgrade'.\n")); } else if (reason == ZPOOL_STATUS_HOSTID_MISMATCH) { (void) printf(gettext(" action: The pool can be " "imported using its name or numeric " "identifier and\n\tthe '-f' flag.\n")); } else if (reason == ZPOOL_STATUS_ERRATA) { switch (errata) { case ZPOOL_ERRATA_NONE: break; case ZPOOL_ERRATA_ZOL_2094_SCRUB: (void) printf(gettext(" action: The pool can " "be imported using its name or numeric " "identifier,\n\thowever there is a compat" "ibility issue which should be corrected" "\n\tby running 'zpool scrub'\n")); break; case ZPOOL_ERRATA_ZOL_2094_ASYNC_DESTROY: (void) printf(gettext(" action: The pool can" "not be imported with this version of ZFS " "due to\n\tan active asynchronous destroy. " "Revert to an earlier version\n\tand " "allow the destroy to complete before " "updating.\n")); break; case ZPOOL_ERRATA_ZOL_6845_ENCRYPTION: (void) printf(gettext(" action: Existing " "encrypted datasets contain an on-disk " "incompatibility, which\n\tneeds to be " "corrected. Backup these datasets to new " "encrypted datasets\n\tand destroy the " "old ones.\n")); break; case ZPOOL_ERRATA_ZOL_8308_ENCRYPTION: (void) printf(gettext(" action: Existing " "encrypted snapshots and bookmarks contain " "an on-disk\n\tincompatibility. This may " "cause on-disk corruption if they are used" "\n\twith 'zfs recv'. To correct the " "issue, enable the bookmark_v2 feature.\n\t" "No additional action is needed if there " "are no encrypted snapshots or\n\t" "bookmarks. If preserving the encrypted " "snapshots and bookmarks is\n\trequired, " "use a non-raw send to backup and restore " "them. Alternately,\n\tthey may be removed" " to resolve the incompatibility.\n")); break; default: /* * All errata must contain an action message. */ assert(0); } } else { (void) printf(gettext(" action: The pool can be " "imported using its name or numeric " "identifier.\n")); } } else if (vs->vs_state == VDEV_STATE_DEGRADED) { (void) printf(gettext(" action: The pool can be imported " "despite missing or damaged devices. The\n\tfault " "tolerance of the pool may be compromised if imported.\n")); } else { switch (reason) { case ZPOOL_STATUS_VERSION_NEWER: (void) printf(gettext(" action: The pool cannot be " "imported. Access the pool on a system running " "newer\n\tsoftware, or recreate the pool from " "backup.\n")); break; case ZPOOL_STATUS_UNSUP_FEAT_READ: printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("The pool cannot be " "imported. Access the pool on a system that " "supports\n\tthe required feature(s), or recreate " "the pool from backup.\n")); break; case ZPOOL_STATUS_UNSUP_FEAT_WRITE: printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("The pool cannot be " "imported in read-write mode. Import the pool " "with\n" "\t\"-o readonly=on\", access the pool on a system " "that supports the\n\trequired feature(s), or " "recreate the pool from backup.\n")); break; case ZPOOL_STATUS_MISSING_DEV_R: case ZPOOL_STATUS_MISSING_DEV_NR: case ZPOOL_STATUS_BAD_GUID_SUM: (void) printf(gettext(" action: The pool cannot be " "imported. Attach the missing\n\tdevices and try " "again.\n")); break; case ZPOOL_STATUS_HOSTID_ACTIVE: VERIFY0(nvlist_lookup_nvlist(config, ZPOOL_CONFIG_LOAD_INFO, &nvinfo)); if (nvlist_exists(nvinfo, ZPOOL_CONFIG_MMP_HOSTNAME)) hostname = fnvlist_lookup_string(nvinfo, ZPOOL_CONFIG_MMP_HOSTNAME); if (nvlist_exists(nvinfo, ZPOOL_CONFIG_MMP_HOSTID)) hostid = fnvlist_lookup_uint64(nvinfo, ZPOOL_CONFIG_MMP_HOSTID); (void) printf(gettext(" action: The pool must be " "exported from %s (hostid=%lx)\n\tbefore it " "can be safely imported.\n"), hostname, (unsigned long) hostid); break; case ZPOOL_STATUS_HOSTID_REQUIRED: (void) printf(gettext(" action: Set a unique system " "hostid with the zgenhostid(8) command.\n")); break; default: (void) printf(gettext(" action: The pool cannot be " "imported due to damaged devices or data.\n")); } } /* Print the comment attached to the pool. */ if (nvlist_lookup_string(config, ZPOOL_CONFIG_COMMENT, &comment) == 0) (void) printf(gettext("comment: %s\n"), comment); /* * If the state is "closed" or "can't open", and the aux state * is "corrupt data": */ if (((vs->vs_state == VDEV_STATE_CLOSED) || (vs->vs_state == VDEV_STATE_CANT_OPEN)) && (vs->vs_aux == VDEV_AUX_CORRUPT_DATA)) { if (pool_state == POOL_STATE_DESTROYED) (void) printf(gettext("\tThe pool was destroyed, " "but can be imported using the '-Df' flags.\n")); else if (pool_state != POOL_STATE_EXPORTED) (void) printf(gettext("\tThe pool may be active on " "another system, but can be imported using\n\t" "the '-f' flag.\n")); } if (msgid != NULL) { (void) printf(gettext( " see: https://openzfs.github.io/openzfs-docs/msg/%s\n"), msgid); } (void) printf(gettext(" config:\n\n")); cb.cb_namewidth = max_width(NULL, nvroot, 0, strlen(name), VDEV_NAME_TYPE_ID); if (cb.cb_namewidth < 10) cb.cb_namewidth = 10; print_import_config(&cb, name, nvroot, 0); print_class_vdevs(NULL, &cb, nvroot, VDEV_ALLOC_BIAS_DEDUP); print_class_vdevs(NULL, &cb, nvroot, VDEV_ALLOC_BIAS_SPECIAL); print_class_vdevs(NULL, &cb, nvroot, VDEV_ALLOC_CLASS_LOGS); if (reason == ZPOOL_STATUS_BAD_GUID_SUM) { (void) printf(gettext("\n\tAdditional devices are known to " "be part of this pool, though their\n\texact " "configuration cannot be determined.\n")); } } static boolean_t zfs_force_import_required(nvlist_t *config) { uint64_t state; uint64_t hostid = 0; nvlist_t *nvinfo; state = fnvlist_lookup_uint64(config, ZPOOL_CONFIG_POOL_STATE); (void) nvlist_lookup_uint64(config, ZPOOL_CONFIG_HOSTID, &hostid); if (state != POOL_STATE_EXPORTED && hostid != get_system_hostid()) return (B_TRUE); nvinfo = fnvlist_lookup_nvlist(config, ZPOOL_CONFIG_LOAD_INFO); if (nvlist_exists(nvinfo, ZPOOL_CONFIG_MMP_STATE)) { mmp_state_t mmp_state = fnvlist_lookup_uint64(nvinfo, ZPOOL_CONFIG_MMP_STATE); if (mmp_state != MMP_STATE_INACTIVE) return (B_TRUE); } return (B_FALSE); } /* * Perform the import for the given configuration. This passes the heavy * lifting off to zpool_import_props(), and then mounts the datasets contained * within the pool. */ static int do_import(nvlist_t *config, const char *newname, const char *mntopts, nvlist_t *props, int flags) { int ret = 0; zpool_handle_t *zhp; char *name; uint64_t version; name = fnvlist_lookup_string(config, ZPOOL_CONFIG_POOL_NAME); version = fnvlist_lookup_uint64(config, ZPOOL_CONFIG_VERSION); if (!SPA_VERSION_IS_SUPPORTED(version)) { (void) fprintf(stderr, gettext("cannot import '%s': pool " "is formatted using an unsupported ZFS version\n"), name); return (1); } else if (zfs_force_import_required(config) && !(flags & ZFS_IMPORT_ANY_HOST)) { mmp_state_t mmp_state = MMP_STATE_INACTIVE; nvlist_t *nvinfo; nvinfo = fnvlist_lookup_nvlist(config, ZPOOL_CONFIG_LOAD_INFO); if (nvlist_exists(nvinfo, ZPOOL_CONFIG_MMP_STATE)) mmp_state = fnvlist_lookup_uint64(nvinfo, ZPOOL_CONFIG_MMP_STATE); if (mmp_state == MMP_STATE_ACTIVE) { char *hostname = ""; uint64_t hostid = 0; if (nvlist_exists(nvinfo, ZPOOL_CONFIG_MMP_HOSTNAME)) hostname = fnvlist_lookup_string(nvinfo, ZPOOL_CONFIG_MMP_HOSTNAME); if (nvlist_exists(nvinfo, ZPOOL_CONFIG_MMP_HOSTID)) hostid = fnvlist_lookup_uint64(nvinfo, ZPOOL_CONFIG_MMP_HOSTID); (void) fprintf(stderr, gettext("cannot import '%s': " "pool is imported on %s (hostid: " "0x%lx)\nExport the pool on the other system, " "then run 'zpool import'.\n"), name, hostname, (unsigned long) hostid); } else if (mmp_state == MMP_STATE_NO_HOSTID) { (void) fprintf(stderr, gettext("Cannot import '%s': " "pool has the multihost property on and the\n" "system's hostid is not set. Set a unique hostid " "with the zgenhostid(8) command.\n"), name); } else { char *hostname = ""; uint64_t timestamp = 0; uint64_t hostid = 0; if (nvlist_exists(config, ZPOOL_CONFIG_HOSTNAME)) hostname = fnvlist_lookup_string(config, ZPOOL_CONFIG_HOSTNAME); if (nvlist_exists(config, ZPOOL_CONFIG_TIMESTAMP)) timestamp = fnvlist_lookup_uint64(config, ZPOOL_CONFIG_TIMESTAMP); if (nvlist_exists(config, ZPOOL_CONFIG_HOSTID)) hostid = fnvlist_lookup_uint64(config, ZPOOL_CONFIG_HOSTID); (void) fprintf(stderr, gettext("cannot import '%s': " "pool was previously in use from another system.\n" "Last accessed by %s (hostid=%lx) at %s" "The pool can be imported, use 'zpool import -f' " "to import the pool.\n"), name, hostname, (unsigned long)hostid, ctime((time_t *)×tamp)); } return (1); } if (zpool_import_props(g_zfs, config, newname, props, flags) != 0) return (1); if (newname != NULL) name = (char *)newname; if ((zhp = zpool_open_canfail(g_zfs, name)) == NULL) return (1); /* * Loading keys is best effort. We don't want to return immediately * if it fails but we do want to give the error to the caller. */ if (flags & ZFS_IMPORT_LOAD_KEYS) { ret = zfs_crypto_attempt_load_keys(g_zfs, name); if (ret != 0) ret = 1; } if (zpool_get_state(zhp) != POOL_STATE_UNAVAIL && !(flags & ZFS_IMPORT_ONLY) && zpool_enable_datasets(zhp, mntopts, 0) != 0) { zpool_close(zhp); return (1); } zpool_close(zhp); return (ret); } typedef struct target_exists_args { const char *poolname; uint64_t poolguid; } target_exists_args_t; static int name_or_guid_exists(zpool_handle_t *zhp, void *data) { target_exists_args_t *args = data; nvlist_t *config = zpool_get_config(zhp, NULL); int found = 0; if (config == NULL) return (0); if (args->poolname != NULL) { char *pool_name; verify(nvlist_lookup_string(config, ZPOOL_CONFIG_POOL_NAME, &pool_name) == 0); if (strcmp(pool_name, args->poolname) == 0) found = 1; } else { uint64_t pool_guid; verify(nvlist_lookup_uint64(config, ZPOOL_CONFIG_POOL_GUID, &pool_guid) == 0); if (pool_guid == args->poolguid) found = 1; } zpool_close(zhp); return (found); } /* * zpool checkpoint * checkpoint --discard * * -d Discard the checkpoint from a checkpointed * --discard pool. * * -w Wait for discarding a checkpoint to complete. * --wait * * Checkpoints the specified pool, by taking a "snapshot" of its * current state. A pool can only have one checkpoint at a time. */ int zpool_do_checkpoint(int argc, char **argv) { boolean_t discard, wait; char *pool; zpool_handle_t *zhp; int c, err; struct option long_options[] = { {"discard", no_argument, NULL, 'd'}, {"wait", no_argument, NULL, 'w'}, {0, 0, 0, 0} }; discard = B_FALSE; wait = B_FALSE; while ((c = getopt_long(argc, argv, ":dw", long_options, NULL)) != -1) { switch (c) { case 'd': discard = B_TRUE; break; case 'w': wait = B_TRUE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } if (wait && !discard) { (void) fprintf(stderr, gettext("--wait only valid when " "--discard also specified\n")); usage(B_FALSE); } argc -= optind; argv += optind; if (argc < 1) { (void) fprintf(stderr, gettext("missing pool argument\n")); usage(B_FALSE); } if (argc > 1) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } pool = argv[0]; if ((zhp = zpool_open(g_zfs, pool)) == NULL) { /* As a special case, check for use of '/' in the name */ if (strchr(pool, '/') != NULL) (void) fprintf(stderr, gettext("'zpool checkpoint' " "doesn't work on datasets. To save the state " "of a dataset from a specific point in time " "please use 'zfs snapshot'\n")); return (1); } if (discard) { err = (zpool_discard_checkpoint(zhp) != 0); if (err == 0 && wait) err = zpool_wait(zhp, ZPOOL_WAIT_CKPT_DISCARD); } else { err = (zpool_checkpoint(zhp) != 0); } zpool_close(zhp); return (err); } #define CHECKPOINT_OPT 1024 /* * zpool import [-d dir] [-D] * import [-o mntopts] [-o prop=value] ... [-R root] [-D] [-l] * [-d dir | -c cachefile] [-f] -a * import [-o mntopts] [-o prop=value] ... [-R root] [-D] [-l] * [-d dir | -c cachefile] [-f] [-n] [-F] [newpool] * * -c Read pool information from a cachefile instead of searching * devices. * * -d Scan in a specific directory, other than /dev/. More than * one directory can be specified using multiple '-d' options. * * -D Scan for previously destroyed pools or import all or only * specified destroyed pools. * * -R Temporarily import the pool, with all mountpoints relative to * the given root. The pool will remain exported when the machine * is rebooted. * * -V Import even in the presence of faulted vdevs. This is an * intentionally undocumented option for testing purposes, and * treats the pool configuration as complete, leaving any bad * vdevs in the FAULTED state. In other words, it does verbatim * import. * * -f Force import, even if it appears that the pool is active. * * -F Attempt rewind if necessary. * * -n See if rewind would work, but don't actually rewind. * * -N Import the pool but don't mount datasets. * * -T Specify a starting txg to use for import. This option is * intentionally undocumented option for testing purposes. * * -a Import all pools found. * * -l Load encryption keys while importing. * * -o Set property=value and/or temporary mount options (without '='). * * -s Scan using the default search path, the libblkid cache will * not be consulted. * * --rewind-to-checkpoint * Import the pool and revert back to the checkpoint. * * The import command scans for pools to import, and import pools based on pool * name and GUID. The pool can also be renamed as part of the import process. */ int zpool_do_import(int argc, char **argv) { char **searchdirs = NULL; char *env, *envdup = NULL; int nsearch = 0; int c; int err = 0; nvlist_t *pools = NULL; boolean_t do_all = B_FALSE; boolean_t do_destroyed = B_FALSE; char *mntopts = NULL; nvpair_t *elem; nvlist_t *config; uint64_t searchguid = 0; char *searchname = NULL; char *propval; nvlist_t *found_config; nvlist_t *policy = NULL; nvlist_t *props = NULL; boolean_t first; int flags = ZFS_IMPORT_NORMAL; uint32_t rewind_policy = ZPOOL_NO_REWIND; boolean_t dryrun = B_FALSE; boolean_t do_rewind = B_FALSE; boolean_t xtreme_rewind = B_FALSE; boolean_t do_scan = B_FALSE; boolean_t pool_exists = B_FALSE; uint64_t pool_state, txg = -1ULL; char *cachefile = NULL; importargs_t idata = { 0 }; char *endptr; struct option long_options[] = { {"rewind-to-checkpoint", no_argument, NULL, CHECKPOINT_OPT}, {0, 0, 0, 0} }; /* check options */ while ((c = getopt_long(argc, argv, ":aCc:d:DEfFlmnNo:R:stT:VX", long_options, NULL)) != -1) { switch (c) { case 'a': do_all = B_TRUE; break; case 'c': cachefile = optarg; break; case 'd': if (searchdirs == NULL) { searchdirs = safe_malloc(sizeof (char *)); } else { char **tmp = safe_malloc((nsearch + 1) * sizeof (char *)); bcopy(searchdirs, tmp, nsearch * sizeof (char *)); free(searchdirs); searchdirs = tmp; } searchdirs[nsearch++] = optarg; break; case 'D': do_destroyed = B_TRUE; break; case 'f': flags |= ZFS_IMPORT_ANY_HOST; break; case 'F': do_rewind = B_TRUE; break; case 'l': flags |= ZFS_IMPORT_LOAD_KEYS; break; case 'm': flags |= ZFS_IMPORT_MISSING_LOG; break; case 'n': dryrun = B_TRUE; break; case 'N': flags |= ZFS_IMPORT_ONLY; break; case 'o': if ((propval = strchr(optarg, '=')) != NULL) { *propval = '\0'; propval++; if (add_prop_list(optarg, propval, &props, B_TRUE)) goto error; } else { mntopts = optarg; } break; case 'R': if (add_prop_list(zpool_prop_to_name( ZPOOL_PROP_ALTROOT), optarg, &props, B_TRUE)) goto error; if (add_prop_list_default(zpool_prop_to_name( ZPOOL_PROP_CACHEFILE), "none", &props, B_TRUE)) goto error; break; case 's': do_scan = B_TRUE; break; case 't': flags |= ZFS_IMPORT_TEMP_NAME; if (add_prop_list_default(zpool_prop_to_name( ZPOOL_PROP_CACHEFILE), "none", &props, B_TRUE)) goto error; break; case 'T': errno = 0; txg = strtoull(optarg, &endptr, 0); if (errno != 0 || *endptr != '\0') { (void) fprintf(stderr, gettext("invalid txg value\n")); usage(B_FALSE); } rewind_policy = ZPOOL_DO_REWIND | ZPOOL_EXTREME_REWIND; break; case 'V': flags |= ZFS_IMPORT_VERBATIM; break; case 'X': xtreme_rewind = B_TRUE; break; case CHECKPOINT_OPT: flags |= ZFS_IMPORT_CHECKPOINT; break; case ':': (void) fprintf(stderr, gettext("missing argument for " "'%c' option\n"), optopt); usage(B_FALSE); break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; if (cachefile && nsearch != 0) { (void) fprintf(stderr, gettext("-c is incompatible with -d\n")); usage(B_FALSE); } if ((flags & ZFS_IMPORT_LOAD_KEYS) && (flags & ZFS_IMPORT_ONLY)) { (void) fprintf(stderr, gettext("-l is incompatible with -N\n")); usage(B_FALSE); } if ((flags & ZFS_IMPORT_LOAD_KEYS) && !do_all && argc == 0) { (void) fprintf(stderr, gettext("-l is only meaningful during " "an import\n")); usage(B_FALSE); } if ((dryrun || xtreme_rewind) && !do_rewind) { (void) fprintf(stderr, gettext("-n or -X only meaningful with -F\n")); usage(B_FALSE); } if (dryrun) rewind_policy = ZPOOL_TRY_REWIND; else if (do_rewind) rewind_policy = ZPOOL_DO_REWIND; if (xtreme_rewind) rewind_policy |= ZPOOL_EXTREME_REWIND; /* In the future, we can capture further policy and include it here */ if (nvlist_alloc(&policy, NV_UNIQUE_NAME, 0) != 0 || nvlist_add_uint64(policy, ZPOOL_LOAD_REQUEST_TXG, txg) != 0 || nvlist_add_uint32(policy, ZPOOL_LOAD_REWIND_POLICY, rewind_policy) != 0) goto error; /* check argument count */ if (do_all) { if (argc != 0) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } } else { if (argc > 2) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } } /* * Check for the effective uid. We do this explicitly here because * otherwise any attempt to discover pools will silently fail. */ if (argc == 0 && geteuid() != 0) { (void) fprintf(stderr, gettext("cannot " "discover pools: permission denied\n")); if (searchdirs != NULL) free(searchdirs); nvlist_free(props); nvlist_free(policy); return (1); } /* * Depending on the arguments given, we do one of the following: * * Iterate through all pools and display information about * each one. * * -a Iterate through all pools and try to import each one. * * Find the pool that corresponds to the given GUID/pool * name and import that one. * * -D Above options applies only to destroyed pools. */ if (argc != 0) { char *endptr; errno = 0; searchguid = strtoull(argv[0], &endptr, 10); if (errno != 0 || *endptr != '\0') { searchname = argv[0]; searchguid = 0; } found_config = NULL; /* * User specified a name or guid. Ensure it's unique. */ target_exists_args_t search = {searchname, searchguid}; pool_exists = zpool_iter(g_zfs, name_or_guid_exists, &search); } /* * Check the environment for the preferred search path. */ if ((searchdirs == NULL) && (env = getenv("ZPOOL_IMPORT_PATH"))) { char *dir; envdup = strdup(env); dir = strtok(envdup, ":"); while (dir != NULL) { if (searchdirs == NULL) { searchdirs = safe_malloc(sizeof (char *)); } else { char **tmp = safe_malloc((nsearch + 1) * sizeof (char *)); bcopy(searchdirs, tmp, nsearch * sizeof (char *)); free(searchdirs); searchdirs = tmp; } searchdirs[nsearch++] = dir; dir = strtok(NULL, ":"); } } idata.path = searchdirs; idata.paths = nsearch; idata.poolname = searchname; idata.guid = searchguid; idata.cachefile = cachefile; idata.scan = do_scan; idata.policy = policy; pools = zpool_search_import(g_zfs, &idata, &libzfs_config_ops); if (pools != NULL && pool_exists && (argc == 1 || strcmp(argv[0], argv[1]) == 0)) { (void) fprintf(stderr, gettext("cannot import '%s': " "a pool with that name already exists\n"), argv[0]); (void) fprintf(stderr, gettext("use the form '%s " " ' to give it a new name\n"), "zpool import"); err = 1; } else if (pools == NULL && pool_exists) { (void) fprintf(stderr, gettext("cannot import '%s': " "a pool with that name is already created/imported,\n"), argv[0]); (void) fprintf(stderr, gettext("and no additional pools " "with that name were found\n")); err = 1; } else if (pools == NULL) { if (argc != 0) { (void) fprintf(stderr, gettext("cannot import '%s': " "no such pool available\n"), argv[0]); } err = 1; } if (err == 1) { if (searchdirs != NULL) free(searchdirs); if (envdup != NULL) free(envdup); nvlist_free(policy); nvlist_free(pools); nvlist_free(props); return (1); } /* * At this point we have a list of import candidate configs. Even if * we were searching by pool name or guid, we still need to * post-process the list to deal with pool state and possible * duplicate names. */ err = 0; elem = NULL; first = B_TRUE; while ((elem = nvlist_next_nvpair(pools, elem)) != NULL) { verify(nvpair_value_nvlist(elem, &config) == 0); verify(nvlist_lookup_uint64(config, ZPOOL_CONFIG_POOL_STATE, &pool_state) == 0); if (!do_destroyed && pool_state == POOL_STATE_DESTROYED) continue; if (do_destroyed && pool_state != POOL_STATE_DESTROYED) continue; verify(nvlist_add_nvlist(config, ZPOOL_LOAD_POLICY, policy) == 0); if (argc == 0) { if (first) first = B_FALSE; else if (!do_all) (void) printf("\n"); if (do_all) { err |= do_import(config, NULL, mntopts, props, flags); } else { show_import(config); } } else if (searchname != NULL) { char *name; /* * We are searching for a pool based on name. */ verify(nvlist_lookup_string(config, ZPOOL_CONFIG_POOL_NAME, &name) == 0); if (strcmp(name, searchname) == 0) { if (found_config != NULL) { (void) fprintf(stderr, gettext( "cannot import '%s': more than " "one matching pool\n"), searchname); (void) fprintf(stderr, gettext( "import by numeric ID instead\n")); err = B_TRUE; } found_config = config; } } else { uint64_t guid; /* * Search for a pool by guid. */ verify(nvlist_lookup_uint64(config, ZPOOL_CONFIG_POOL_GUID, &guid) == 0); if (guid == searchguid) found_config = config; } } /* * If we were searching for a specific pool, verify that we found a * pool, and then do the import. */ if (argc != 0 && err == 0) { if (found_config == NULL) { (void) fprintf(stderr, gettext("cannot import '%s': " "no such pool available\n"), argv[0]); err = B_TRUE; } else { err |= do_import(found_config, argc == 1 ? NULL : argv[1], mntopts, props, flags); } } /* * If we were just looking for pools, report an error if none were * found. */ if (argc == 0 && first) (void) fprintf(stderr, gettext("no pools available to import\n")); error: nvlist_free(props); nvlist_free(pools); nvlist_free(policy); if (searchdirs != NULL) free(searchdirs); if (envdup != NULL) free(envdup); return (err ? 1 : 0); } /* * zpool sync [-f] [pool] ... * * -f (undocumented) force uberblock (and config including zpool cache file) * update. * * Sync the specified pool(s). * Without arguments "zpool sync" will sync all pools. * This command initiates TXG sync(s) and will return after the TXG(s) commit. * */ static int zpool_do_sync(int argc, char **argv) { int ret; boolean_t force = B_FALSE; /* check options */ while ((ret = getopt(argc, argv, "f")) != -1) { switch (ret) { case 'f': force = B_TRUE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* if argc == 0 we will execute zpool_sync_one on all pools */ ret = for_each_pool(argc, argv, B_FALSE, NULL, zpool_sync_one, &force); return (ret); } typedef struct iostat_cbdata { uint64_t cb_flags; int cb_name_flags; int cb_namewidth; int cb_iteration; char **cb_vdev_names; /* Only show these vdevs */ unsigned int cb_vdev_names_count; boolean_t cb_verbose; boolean_t cb_literal; boolean_t cb_scripted; zpool_list_t *cb_list; vdev_cmd_data_list_t *vcdl; } iostat_cbdata_t; /* iostat labels */ typedef struct name_and_columns { const char *name; /* Column name */ unsigned int columns; /* Center name to this number of columns */ } name_and_columns_t; #define IOSTAT_MAX_LABELS 13 /* Max number of labels on one line */ static const name_and_columns_t iostat_top_labels[][IOSTAT_MAX_LABELS] = { [IOS_DEFAULT] = {{"capacity", 2}, {"operations", 2}, {"bandwidth", 2}, {NULL}}, [IOS_LATENCY] = {{"total_wait", 2}, {"disk_wait", 2}, {"syncq_wait", 2}, {"asyncq_wait", 2}, {"scrub", 1}, {"trim", 1}, {NULL}}, [IOS_QUEUES] = {{"syncq_read", 2}, {"syncq_write", 2}, {"asyncq_read", 2}, {"asyncq_write", 2}, {"scrubq_read", 2}, {"trimq_write", 2}, {NULL}}, [IOS_L_HISTO] = {{"total_wait", 2}, {"disk_wait", 2}, {"syncq_wait", 2}, {"asyncq_wait", 2}, {NULL}}, [IOS_RQ_HISTO] = {{"sync_read", 2}, {"sync_write", 2}, {"async_read", 2}, {"async_write", 2}, {"scrub", 2}, {"trim", 2}, {NULL}}, }; /* Shorthand - if "columns" field not set, default to 1 column */ static const name_and_columns_t iostat_bottom_labels[][IOSTAT_MAX_LABELS] = { [IOS_DEFAULT] = {{"alloc"}, {"free"}, {"read"}, {"write"}, {"read"}, {"write"}, {NULL}}, [IOS_LATENCY] = {{"read"}, {"write"}, {"read"}, {"write"}, {"read"}, {"write"}, {"read"}, {"write"}, {"wait"}, {"wait"}, {NULL}}, [IOS_QUEUES] = {{"pend"}, {"activ"}, {"pend"}, {"activ"}, {"pend"}, {"activ"}, {"pend"}, {"activ"}, {"pend"}, {"activ"}, {"pend"}, {"activ"}, {NULL}}, [IOS_L_HISTO] = {{"read"}, {"write"}, {"read"}, {"write"}, {"read"}, {"write"}, {"read"}, {"write"}, {"scrub"}, {"trim"}, {NULL}}, [IOS_RQ_HISTO] = {{"ind"}, {"agg"}, {"ind"}, {"agg"}, {"ind"}, {"agg"}, {"ind"}, {"agg"}, {"ind"}, {"agg"}, {"ind"}, {"agg"}, {NULL}}, }; static const char *histo_to_title[] = { [IOS_L_HISTO] = "latency", [IOS_RQ_HISTO] = "req_size", }; /* * Return the number of labels in a null-terminated name_and_columns_t * array. * */ static unsigned int label_array_len(const name_and_columns_t *labels) { int i = 0; while (labels[i].name) i++; return (i); } /* * Return the number of strings in a null-terminated string array. * For example: * * const char foo[] = {"bar", "baz", NULL} * * returns 2 */ static uint64_t str_array_len(const char *array[]) { uint64_t i = 0; while (array[i]) i++; return (i); } /* * Return a default column width for default/latency/queue columns. This does * not include histograms, which have their columns autosized. */ static unsigned int default_column_width(iostat_cbdata_t *cb, enum iostat_type type) { unsigned long column_width = 5; /* Normal niceprint */ static unsigned long widths[] = { /* * Choose some sane default column sizes for printing the * raw numbers. */ [IOS_DEFAULT] = 15, /* 1PB capacity */ [IOS_LATENCY] = 10, /* 1B ns = 10sec */ [IOS_QUEUES] = 6, /* 1M queue entries */ [IOS_L_HISTO] = 10, /* 1B ns = 10sec */ [IOS_RQ_HISTO] = 6, /* 1M queue entries */ }; if (cb->cb_literal) column_width = widths[type]; return (column_width); } /* * Print the column labels, i.e: * * capacity operations bandwidth * alloc free read write read write ... * * If force_column_width is set, use it for the column width. If not set, use * the default column width. */ static void print_iostat_labels(iostat_cbdata_t *cb, unsigned int force_column_width, const name_and_columns_t labels[][IOSTAT_MAX_LABELS]) { int i, idx, s; int text_start, rw_column_width, spaces_to_end; uint64_t flags = cb->cb_flags; uint64_t f; unsigned int column_width = force_column_width; /* For each bit set in flags */ for (f = flags; f; f &= ~(1ULL << idx)) { idx = lowbit64(f) - 1; if (!force_column_width) column_width = default_column_width(cb, idx); /* Print our top labels centered over "read write" label. */ for (i = 0; i < label_array_len(labels[idx]); i++) { const char *name = labels[idx][i].name; /* * We treat labels[][].columns == 0 as shorthand * for one column. It makes writing out the label * tables more concise. */ unsigned int columns = MAX(1, labels[idx][i].columns); unsigned int slen = strlen(name); rw_column_width = (column_width * columns) + (2 * (columns - 1)); text_start = (int)((rw_column_width) / columns - slen / columns); if (text_start < 0) text_start = 0; printf(" "); /* Two spaces between columns */ /* Space from beginning of column to label */ for (s = 0; s < text_start; s++) printf(" "); printf("%s", name); /* Print space after label to end of column */ spaces_to_end = rw_column_width - text_start - slen; if (spaces_to_end < 0) spaces_to_end = 0; for (s = 0; s < spaces_to_end; s++) printf(" "); } } } /* * print_cmd_columns - Print custom column titles from -c * * If the user specified the "zpool status|iostat -c" then print their custom * column titles in the header. For example, print_cmd_columns() would print * the " col1 col2" part of this: * * $ zpool iostat -vc 'echo col1=val1; echo col2=val2' * ... * capacity operations bandwidth * pool alloc free read write read write col1 col2 * ---------- ----- ----- ----- ----- ----- ----- ---- ---- * mypool 269K 1008M 0 0 107 946 * mirror 269K 1008M 0 0 107 946 * sdb - - 0 0 102 473 val1 val2 * sdc - - 0 0 5 473 val1 val2 * ---------- ----- ----- ----- ----- ----- ----- ---- ---- */ static void print_cmd_columns(vdev_cmd_data_list_t *vcdl, int use_dashes) { int i, j; vdev_cmd_data_t *data = &vcdl->data[0]; if (vcdl->count == 0 || data == NULL) return; /* * Each vdev cmd should have the same column names unless the user did * something weird with their cmd. Just take the column names from the * first vdev and assume it works for all of them. */ for (i = 0; i < vcdl->uniq_cols_cnt; i++) { printf(" "); if (use_dashes) { for (j = 0; j < vcdl->uniq_cols_width[i]; j++) printf("-"); } else { printf_color(ANSI_BOLD, "%*s", vcdl->uniq_cols_width[i], vcdl->uniq_cols[i]); } } } /* * Utility function to print out a line of dashes like: * * -------------------------------- ----- ----- ----- ----- ----- * * ...or a dashed named-row line like: * * logs - - - - - * * @cb: iostat data * * @force_column_width If non-zero, use the value as the column width. * Otherwise use the default column widths. * * @name: Print a dashed named-row line starting * with @name. Otherwise, print a regular * dashed line. */ static void print_iostat_dashes(iostat_cbdata_t *cb, unsigned int force_column_width, const char *name) { int i; unsigned int namewidth; uint64_t flags = cb->cb_flags; uint64_t f; int idx; const name_and_columns_t *labels; const char *title; if (cb->cb_flags & IOS_ANYHISTO_M) { title = histo_to_title[IOS_HISTO_IDX(cb->cb_flags)]; } else if (cb->cb_vdev_names_count) { title = "vdev"; } else { title = "pool"; } namewidth = MAX(MAX(strlen(title), cb->cb_namewidth), name ? strlen(name) : 0); if (name) { printf("%-*s", namewidth, name); } else { for (i = 0; i < namewidth; i++) (void) printf("-"); } /* For each bit in flags */ for (f = flags; f; f &= ~(1ULL << idx)) { unsigned int column_width; idx = lowbit64(f) - 1; if (force_column_width) column_width = force_column_width; else column_width = default_column_width(cb, idx); labels = iostat_bottom_labels[idx]; for (i = 0; i < label_array_len(labels); i++) { if (name) printf(" %*s-", column_width - 1, " "); else printf(" %.*s", column_width, "--------------------"); } } } static void print_iostat_separator_impl(iostat_cbdata_t *cb, unsigned int force_column_width) { print_iostat_dashes(cb, force_column_width, NULL); } static void print_iostat_separator(iostat_cbdata_t *cb) { print_iostat_separator_impl(cb, 0); } static void print_iostat_header_impl(iostat_cbdata_t *cb, unsigned int force_column_width, const char *histo_vdev_name) { unsigned int namewidth; const char *title; if (cb->cb_flags & IOS_ANYHISTO_M) { title = histo_to_title[IOS_HISTO_IDX(cb->cb_flags)]; } else if (cb->cb_vdev_names_count) { title = "vdev"; } else { title = "pool"; } namewidth = MAX(MAX(strlen(title), cb->cb_namewidth), histo_vdev_name ? strlen(histo_vdev_name) : 0); if (histo_vdev_name) printf("%-*s", namewidth, histo_vdev_name); else printf("%*s", namewidth, ""); print_iostat_labels(cb, force_column_width, iostat_top_labels); printf("\n"); printf("%-*s", namewidth, title); print_iostat_labels(cb, force_column_width, iostat_bottom_labels); if (cb->vcdl != NULL) print_cmd_columns(cb->vcdl, 0); printf("\n"); print_iostat_separator_impl(cb, force_column_width); if (cb->vcdl != NULL) print_cmd_columns(cb->vcdl, 1); printf("\n"); } static void print_iostat_header(iostat_cbdata_t *cb) { print_iostat_header_impl(cb, 0, NULL); } /* * Display a single statistic. */ static void print_one_stat(uint64_t value, enum zfs_nicenum_format format, unsigned int column_size, boolean_t scripted) { char buf[64]; zfs_nicenum_format(value, buf, sizeof (buf), format); if (scripted) printf("\t%s", buf); else printf(" %*s", column_size, buf); } /* * Calculate the default vdev stats * * Subtract oldvs from newvs, apply a scaling factor, and save the resulting * stats into calcvs. */ static void calc_default_iostats(vdev_stat_t *oldvs, vdev_stat_t *newvs, vdev_stat_t *calcvs) { int i; memcpy(calcvs, newvs, sizeof (*calcvs)); for (i = 0; i < ARRAY_SIZE(calcvs->vs_ops); i++) calcvs->vs_ops[i] = (newvs->vs_ops[i] - oldvs->vs_ops[i]); for (i = 0; i < ARRAY_SIZE(calcvs->vs_bytes); i++) calcvs->vs_bytes[i] = (newvs->vs_bytes[i] - oldvs->vs_bytes[i]); } /* * Internal representation of the extended iostats data. * * The extended iostat stats are exported in nvlists as either uint64_t arrays * or single uint64_t's. We make both look like arrays to make them easier * to process. In order to make single uint64_t's look like arrays, we set * __data to the stat data, and then set *data = &__data with count = 1. Then, * we can just use *data and count. */ struct stat_array { uint64_t *data; uint_t count; /* Number of entries in data[] */ uint64_t __data; /* Only used when data is a single uint64_t */ }; static uint64_t stat_histo_max(struct stat_array *nva, unsigned int len) { uint64_t max = 0; int i; for (i = 0; i < len; i++) max = MAX(max, array64_max(nva[i].data, nva[i].count)); return (max); } /* * Helper function to lookup a uint64_t array or uint64_t value and store its * data as a stat_array. If the nvpair is a single uint64_t value, then we make * it look like a one element array to make it easier to process. */ static int nvpair64_to_stat_array(nvlist_t *nvl, const char *name, struct stat_array *nva) { nvpair_t *tmp; int ret; verify(nvlist_lookup_nvpair(nvl, name, &tmp) == 0); switch (nvpair_type(tmp)) { case DATA_TYPE_UINT64_ARRAY: ret = nvpair_value_uint64_array(tmp, &nva->data, &nva->count); break; case DATA_TYPE_UINT64: ret = nvpair_value_uint64(tmp, &nva->__data); nva->data = &nva->__data; nva->count = 1; break; default: /* Not a uint64_t */ ret = EINVAL; break; } return (ret); } /* * Given a list of nvlist names, look up the extended stats in newnv and oldnv, * subtract them, and return the results in a newly allocated stat_array. * You must free the returned array after you are done with it with * free_calc_stats(). * * Additionally, you can set "oldnv" to NULL if you simply want the newnv * values. */ static struct stat_array * calc_and_alloc_stats_ex(const char **names, unsigned int len, nvlist_t *oldnv, nvlist_t *newnv) { nvlist_t *oldnvx = NULL, *newnvx; struct stat_array *oldnva, *newnva, *calcnva; int i, j; unsigned int alloc_size = (sizeof (struct stat_array)) * len; /* Extract our extended stats nvlist from the main list */ verify(nvlist_lookup_nvlist(newnv, ZPOOL_CONFIG_VDEV_STATS_EX, &newnvx) == 0); if (oldnv) { verify(nvlist_lookup_nvlist(oldnv, ZPOOL_CONFIG_VDEV_STATS_EX, &oldnvx) == 0); } newnva = safe_malloc(alloc_size); oldnva = safe_malloc(alloc_size); calcnva = safe_malloc(alloc_size); for (j = 0; j < len; j++) { verify(nvpair64_to_stat_array(newnvx, names[j], &newnva[j]) == 0); calcnva[j].count = newnva[j].count; alloc_size = calcnva[j].count * sizeof (calcnva[j].data[0]); calcnva[j].data = safe_malloc(alloc_size); memcpy(calcnva[j].data, newnva[j].data, alloc_size); if (oldnvx) { verify(nvpair64_to_stat_array(oldnvx, names[j], &oldnva[j]) == 0); for (i = 0; i < oldnva[j].count; i++) calcnva[j].data[i] -= oldnva[j].data[i]; } } free(newnva); free(oldnva); return (calcnva); } static void free_calc_stats(struct stat_array *nva, unsigned int len) { int i; for (i = 0; i < len; i++) free(nva[i].data); free(nva); } static void print_iostat_histo(struct stat_array *nva, unsigned int len, iostat_cbdata_t *cb, unsigned int column_width, unsigned int namewidth, double scale) { int i, j; char buf[6]; uint64_t val; enum zfs_nicenum_format format; unsigned int buckets; unsigned int start_bucket; if (cb->cb_literal) format = ZFS_NICENUM_RAW; else format = ZFS_NICENUM_1024; /* All these histos are the same size, so just use nva[0].count */ buckets = nva[0].count; if (cb->cb_flags & IOS_RQ_HISTO_M) { /* Start at 512 - req size should never be lower than this */ start_bucket = 9; } else { start_bucket = 0; } for (j = start_bucket; j < buckets; j++) { /* Print histogram bucket label */ if (cb->cb_flags & IOS_L_HISTO_M) { /* Ending range of this bucket */ val = (1UL << (j + 1)) - 1; zfs_nicetime(val, buf, sizeof (buf)); } else { /* Request size (starting range of bucket) */ val = (1UL << j); zfs_nicenum(val, buf, sizeof (buf)); } if (cb->cb_scripted) printf("%llu", (u_longlong_t)val); else printf("%-*s", namewidth, buf); /* Print the values on the line */ for (i = 0; i < len; i++) { print_one_stat(nva[i].data[j] * scale, format, column_width, cb->cb_scripted); } printf("\n"); } } static void print_solid_separator(unsigned int length) { while (length--) printf("-"); printf("\n"); } static void print_iostat_histos(iostat_cbdata_t *cb, nvlist_t *oldnv, nvlist_t *newnv, double scale, const char *name) { unsigned int column_width; unsigned int namewidth; unsigned int entire_width; enum iostat_type type; struct stat_array *nva; const char **names; unsigned int names_len; /* What type of histo are we? */ type = IOS_HISTO_IDX(cb->cb_flags); /* Get NULL-terminated array of nvlist names for our histo */ names = vsx_type_to_nvlist[type]; names_len = str_array_len(names); /* num of names */ nva = calc_and_alloc_stats_ex(names, names_len, oldnv, newnv); if (cb->cb_literal) { column_width = MAX(5, (unsigned int) log10(stat_histo_max(nva, names_len)) + 1); } else { column_width = 5; } namewidth = MAX(cb->cb_namewidth, strlen(histo_to_title[IOS_HISTO_IDX(cb->cb_flags)])); /* * Calculate the entire line width of what we're printing. The * +2 is for the two spaces between columns: */ /* read write */ /* ----- ----- */ /* |___| <---------- column_width */ /* */ /* |__________| <--- entire_width */ /* */ entire_width = namewidth + (column_width + 2) * label_array_len(iostat_bottom_labels[type]); if (cb->cb_scripted) printf("%s\n", name); else print_iostat_header_impl(cb, column_width, name); print_iostat_histo(nva, names_len, cb, column_width, namewidth, scale); free_calc_stats(nva, names_len); if (!cb->cb_scripted) print_solid_separator(entire_width); } /* * Calculate the average latency of a power-of-two latency histogram */ static uint64_t single_histo_average(uint64_t *histo, unsigned int buckets) { int i; uint64_t count = 0, total = 0; for (i = 0; i < buckets; i++) { /* * Our buckets are power-of-two latency ranges. Use the * midpoint latency of each bucket to calculate the average. * For example: * * Bucket Midpoint * 8ns-15ns: 12ns * 16ns-31ns: 24ns * ... */ if (histo[i] != 0) { total += histo[i] * (((1UL << i) + ((1UL << i)/2))); count += histo[i]; } } /* Prevent divide by zero */ return (count == 0 ? 0 : total / count); } static void print_iostat_queues(iostat_cbdata_t *cb, nvlist_t *oldnv, nvlist_t *newnv) { int i; uint64_t val; const char *names[] = { ZPOOL_CONFIG_VDEV_SYNC_R_PEND_QUEUE, ZPOOL_CONFIG_VDEV_SYNC_R_ACTIVE_QUEUE, ZPOOL_CONFIG_VDEV_SYNC_W_PEND_QUEUE, ZPOOL_CONFIG_VDEV_SYNC_W_ACTIVE_QUEUE, ZPOOL_CONFIG_VDEV_ASYNC_R_PEND_QUEUE, ZPOOL_CONFIG_VDEV_ASYNC_R_ACTIVE_QUEUE, ZPOOL_CONFIG_VDEV_ASYNC_W_PEND_QUEUE, ZPOOL_CONFIG_VDEV_ASYNC_W_ACTIVE_QUEUE, ZPOOL_CONFIG_VDEV_SCRUB_PEND_QUEUE, ZPOOL_CONFIG_VDEV_SCRUB_ACTIVE_QUEUE, ZPOOL_CONFIG_VDEV_TRIM_PEND_QUEUE, ZPOOL_CONFIG_VDEV_TRIM_ACTIVE_QUEUE, }; struct stat_array *nva; unsigned int column_width = default_column_width(cb, IOS_QUEUES); enum zfs_nicenum_format format; nva = calc_and_alloc_stats_ex(names, ARRAY_SIZE(names), NULL, newnv); if (cb->cb_literal) format = ZFS_NICENUM_RAW; else format = ZFS_NICENUM_1024; for (i = 0; i < ARRAY_SIZE(names); i++) { val = nva[i].data[0]; print_one_stat(val, format, column_width, cb->cb_scripted); } free_calc_stats(nva, ARRAY_SIZE(names)); } static void print_iostat_latency(iostat_cbdata_t *cb, nvlist_t *oldnv, nvlist_t *newnv) { int i; uint64_t val; const char *names[] = { ZPOOL_CONFIG_VDEV_TOT_R_LAT_HISTO, ZPOOL_CONFIG_VDEV_TOT_W_LAT_HISTO, ZPOOL_CONFIG_VDEV_DISK_R_LAT_HISTO, ZPOOL_CONFIG_VDEV_DISK_W_LAT_HISTO, ZPOOL_CONFIG_VDEV_SYNC_R_LAT_HISTO, ZPOOL_CONFIG_VDEV_SYNC_W_LAT_HISTO, ZPOOL_CONFIG_VDEV_ASYNC_R_LAT_HISTO, ZPOOL_CONFIG_VDEV_ASYNC_W_LAT_HISTO, ZPOOL_CONFIG_VDEV_SCRUB_LAT_HISTO, ZPOOL_CONFIG_VDEV_TRIM_LAT_HISTO, }; struct stat_array *nva; unsigned int column_width = default_column_width(cb, IOS_LATENCY); enum zfs_nicenum_format format; nva = calc_and_alloc_stats_ex(names, ARRAY_SIZE(names), oldnv, newnv); if (cb->cb_literal) format = ZFS_NICENUM_RAWTIME; else format = ZFS_NICENUM_TIME; /* Print our avg latencies on the line */ for (i = 0; i < ARRAY_SIZE(names); i++) { /* Compute average latency for a latency histo */ val = single_histo_average(nva[i].data, nva[i].count); print_one_stat(val, format, column_width, cb->cb_scripted); } free_calc_stats(nva, ARRAY_SIZE(names)); } /* * Print default statistics (capacity/operations/bandwidth) */ static void print_iostat_default(vdev_stat_t *vs, iostat_cbdata_t *cb, double scale) { unsigned int column_width = default_column_width(cb, IOS_DEFAULT); enum zfs_nicenum_format format; char na; /* char to print for "not applicable" values */ if (cb->cb_literal) { format = ZFS_NICENUM_RAW; na = '0'; } else { format = ZFS_NICENUM_1024; na = '-'; } /* only toplevel vdevs have capacity stats */ if (vs->vs_space == 0) { if (cb->cb_scripted) printf("\t%c\t%c", na, na); else printf(" %*c %*c", column_width, na, column_width, na); } else { print_one_stat(vs->vs_alloc, format, column_width, cb->cb_scripted); print_one_stat(vs->vs_space - vs->vs_alloc, format, column_width, cb->cb_scripted); } print_one_stat((uint64_t)(vs->vs_ops[ZIO_TYPE_READ] * scale), format, column_width, cb->cb_scripted); print_one_stat((uint64_t)(vs->vs_ops[ZIO_TYPE_WRITE] * scale), format, column_width, cb->cb_scripted); print_one_stat((uint64_t)(vs->vs_bytes[ZIO_TYPE_READ] * scale), format, column_width, cb->cb_scripted); print_one_stat((uint64_t)(vs->vs_bytes[ZIO_TYPE_WRITE] * scale), format, column_width, cb->cb_scripted); } static const char *class_name[] = { VDEV_ALLOC_BIAS_DEDUP, VDEV_ALLOC_BIAS_SPECIAL, VDEV_ALLOC_CLASS_LOGS }; /* * Print out all the statistics for the given vdev. This can either be the * toplevel configuration, or called recursively. If 'name' is NULL, then this * is a verbose output, and we don't want to display the toplevel pool stats. * * Returns the number of stat lines printed. */ static unsigned int print_vdev_stats(zpool_handle_t *zhp, const char *name, nvlist_t *oldnv, nvlist_t *newnv, iostat_cbdata_t *cb, int depth) { nvlist_t **oldchild, **newchild; uint_t c, children, oldchildren; vdev_stat_t *oldvs, *newvs, *calcvs; vdev_stat_t zerovs = { 0 }; char *vname; int i; int ret = 0; uint64_t tdelta; double scale; if (strcmp(name, VDEV_TYPE_INDIRECT) == 0) return (ret); calcvs = safe_malloc(sizeof (*calcvs)); if (oldnv != NULL) { verify(nvlist_lookup_uint64_array(oldnv, ZPOOL_CONFIG_VDEV_STATS, (uint64_t **)&oldvs, &c) == 0); } else { oldvs = &zerovs; } /* Do we only want to see a specific vdev? */ for (i = 0; i < cb->cb_vdev_names_count; i++) { /* Yes we do. Is this the vdev? */ if (strcmp(name, cb->cb_vdev_names[i]) == 0) { /* * This is our vdev. Since it is the only vdev we * will be displaying, make depth = 0 so that it * doesn't get indented. */ depth = 0; break; } } if (cb->cb_vdev_names_count && (i == cb->cb_vdev_names_count)) { /* Couldn't match the name */ goto children; } verify(nvlist_lookup_uint64_array(newnv, ZPOOL_CONFIG_VDEV_STATS, (uint64_t **)&newvs, &c) == 0); /* * Print the vdev name unless it's is a histogram. Histograms * display the vdev name in the header itself. */ if (!(cb->cb_flags & IOS_ANYHISTO_M)) { if (cb->cb_scripted) { printf("%s", name); } else { if (strlen(name) + depth > cb->cb_namewidth) (void) printf("%*s%s", depth, "", name); else (void) printf("%*s%s%*s", depth, "", name, (int)(cb->cb_namewidth - strlen(name) - depth), ""); } } /* Calculate our scaling factor */ tdelta = newvs->vs_timestamp - oldvs->vs_timestamp; if ((oldvs->vs_timestamp == 0) && (cb->cb_flags & IOS_ANYHISTO_M)) { /* * If we specify printing histograms with no time interval, then * print the histogram numbers over the entire lifetime of the * vdev. */ scale = 1; } else { if (tdelta == 0) scale = 1.0; else scale = (double)NANOSEC / tdelta; } if (cb->cb_flags & IOS_DEFAULT_M) { calc_default_iostats(oldvs, newvs, calcvs); print_iostat_default(calcvs, cb, scale); } if (cb->cb_flags & IOS_LATENCY_M) print_iostat_latency(cb, oldnv, newnv); if (cb->cb_flags & IOS_QUEUES_M) print_iostat_queues(cb, oldnv, newnv); if (cb->cb_flags & IOS_ANYHISTO_M) { printf("\n"); print_iostat_histos(cb, oldnv, newnv, scale, name); } if (cb->vcdl != NULL) { char *path; if (nvlist_lookup_string(newnv, ZPOOL_CONFIG_PATH, &path) == 0) { printf(" "); zpool_print_cmd(cb->vcdl, zpool_get_name(zhp), path); } } if (!(cb->cb_flags & IOS_ANYHISTO_M)) printf("\n"); ret++; children: free(calcvs); if (!cb->cb_verbose) return (ret); if (nvlist_lookup_nvlist_array(newnv, ZPOOL_CONFIG_CHILDREN, &newchild, &children) != 0) return (ret); if (oldnv) { if (nvlist_lookup_nvlist_array(oldnv, ZPOOL_CONFIG_CHILDREN, &oldchild, &oldchildren) != 0) return (ret); children = MIN(oldchildren, children); } /* * print normal top-level devices */ for (c = 0; c < children; c++) { uint64_t ishole = B_FALSE, islog = B_FALSE; (void) nvlist_lookup_uint64(newchild[c], ZPOOL_CONFIG_IS_HOLE, &ishole); (void) nvlist_lookup_uint64(newchild[c], ZPOOL_CONFIG_IS_LOG, &islog); if (ishole || islog) continue; if (nvlist_exists(newchild[c], ZPOOL_CONFIG_ALLOCATION_BIAS)) continue; vname = zpool_vdev_name(g_zfs, zhp, newchild[c], cb->cb_name_flags); ret += print_vdev_stats(zhp, vname, oldnv ? oldchild[c] : NULL, newchild[c], cb, depth + 2); free(vname); } /* * print all other top-level devices */ for (uint_t n = 0; n < 3; n++) { boolean_t printed = B_FALSE; for (c = 0; c < children; c++) { uint64_t islog = B_FALSE; char *bias = NULL; char *type = NULL; (void) nvlist_lookup_uint64(newchild[c], ZPOOL_CONFIG_IS_LOG, &islog); if (islog) { bias = VDEV_ALLOC_CLASS_LOGS; } else { (void) nvlist_lookup_string(newchild[c], ZPOOL_CONFIG_ALLOCATION_BIAS, &bias); (void) nvlist_lookup_string(newchild[c], ZPOOL_CONFIG_TYPE, &type); } if (bias == NULL || strcmp(bias, class_name[n]) != 0) continue; if (!islog && strcmp(type, VDEV_TYPE_INDIRECT) == 0) continue; if (!printed) { if ((!(cb->cb_flags & IOS_ANYHISTO_M)) && !cb->cb_scripted && !cb->cb_vdev_names) { print_iostat_dashes(cb, 0, class_name[n]); } printf("\n"); printed = B_TRUE; } vname = zpool_vdev_name(g_zfs, zhp, newchild[c], cb->cb_name_flags); ret += print_vdev_stats(zhp, vname, oldnv ? oldchild[c] : NULL, newchild[c], cb, depth + 2); free(vname); } } /* * Include level 2 ARC devices in iostat output */ if (nvlist_lookup_nvlist_array(newnv, ZPOOL_CONFIG_L2CACHE, &newchild, &children) != 0) return (ret); if (oldnv) { if (nvlist_lookup_nvlist_array(oldnv, ZPOOL_CONFIG_L2CACHE, &oldchild, &oldchildren) != 0) return (ret); children = MIN(oldchildren, children); } if (children > 0) { if ((!(cb->cb_flags & IOS_ANYHISTO_M)) && !cb->cb_scripted && !cb->cb_vdev_names) { print_iostat_dashes(cb, 0, "cache"); } printf("\n"); for (c = 0; c < children; c++) { vname = zpool_vdev_name(g_zfs, zhp, newchild[c], cb->cb_name_flags); ret += print_vdev_stats(zhp, vname, oldnv ? oldchild[c] : NULL, newchild[c], cb, depth + 2); free(vname); } } return (ret); } static int refresh_iostat(zpool_handle_t *zhp, void *data) { iostat_cbdata_t *cb = data; boolean_t missing; /* * If the pool has disappeared, remove it from the list and continue. */ if (zpool_refresh_stats(zhp, &missing) != 0) return (-1); if (missing) pool_list_remove(cb->cb_list, zhp); return (0); } /* * Callback to print out the iostats for the given pool. */ static int print_iostat(zpool_handle_t *zhp, void *data) { iostat_cbdata_t *cb = data; nvlist_t *oldconfig, *newconfig; nvlist_t *oldnvroot, *newnvroot; int ret; newconfig = zpool_get_config(zhp, &oldconfig); if (cb->cb_iteration == 1) oldconfig = NULL; verify(nvlist_lookup_nvlist(newconfig, ZPOOL_CONFIG_VDEV_TREE, &newnvroot) == 0); if (oldconfig == NULL) oldnvroot = NULL; else verify(nvlist_lookup_nvlist(oldconfig, ZPOOL_CONFIG_VDEV_TREE, &oldnvroot) == 0); ret = print_vdev_stats(zhp, zpool_get_name(zhp), oldnvroot, newnvroot, cb, 0); if ((ret != 0) && !(cb->cb_flags & IOS_ANYHISTO_M) && !cb->cb_scripted && cb->cb_verbose && !cb->cb_vdev_names_count) { print_iostat_separator(cb); if (cb->vcdl != NULL) { print_cmd_columns(cb->vcdl, 1); } printf("\n"); } return (ret); } static int get_columns(void) { struct winsize ws; int columns = 80; int error; if (isatty(STDOUT_FILENO)) { error = ioctl(STDOUT_FILENO, TIOCGWINSZ, &ws); if (error == 0) columns = ws.ws_col; } else { columns = 999; } return (columns); } /* * Return the required length of the pool/vdev name column. The minimum * allowed width and output formatting flags must be provided. */ static int get_namewidth(zpool_handle_t *zhp, int min_width, int flags, boolean_t verbose) { nvlist_t *config, *nvroot; int width = min_width; if ((config = zpool_get_config(zhp, NULL)) != NULL) { verify(nvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE, &nvroot) == 0); unsigned int poolname_len = strlen(zpool_get_name(zhp)); if (verbose == B_FALSE) { width = MAX(poolname_len, min_width); } else { width = MAX(poolname_len, max_width(zhp, nvroot, 0, min_width, flags)); } } return (width); } /* * Parse the input string, get the 'interval' and 'count' value if there is one. */ static void get_interval_count(int *argcp, char **argv, float *iv, unsigned long *cnt) { float interval = 0; unsigned long count = 0; int argc = *argcp; /* * Determine if the last argument is an integer or a pool name */ if (argc > 0 && zfs_isnumber(argv[argc - 1])) { char *end; errno = 0; interval = strtof(argv[argc - 1], &end); if (*end == '\0' && errno == 0) { if (interval == 0) { (void) fprintf(stderr, gettext("interval " "cannot be zero\n")); usage(B_FALSE); } /* * Ignore the last parameter */ argc--; } else { /* * If this is not a valid number, just plow on. The * user will get a more informative error message later * on. */ interval = 0; } } /* * If the last argument is also an integer, then we have both a count * and an interval. */ if (argc > 0 && zfs_isnumber(argv[argc - 1])) { char *end; errno = 0; count = interval; interval = strtof(argv[argc - 1], &end); if (*end == '\0' && errno == 0) { if (interval == 0) { (void) fprintf(stderr, gettext("interval " "cannot be zero\n")); usage(B_FALSE); } /* * Ignore the last parameter */ argc--; } else { interval = 0; } } *iv = interval; *cnt = count; *argcp = argc; } static void get_timestamp_arg(char c) { if (c == 'u') timestamp_fmt = UDATE; else if (c == 'd') timestamp_fmt = DDATE; else usage(B_FALSE); } /* * Return stat flags that are supported by all pools by both the module and * zpool iostat. "*data" should be initialized to all 0xFFs before running. * It will get ANDed down until only the flags that are supported on all pools * remain. */ static int get_stat_flags_cb(zpool_handle_t *zhp, void *data) { uint64_t *mask = data; nvlist_t *config, *nvroot, *nvx; uint64_t flags = 0; int i, j; config = zpool_get_config(zhp, NULL); verify(nvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE, &nvroot) == 0); /* Default stats are always supported, but for completeness.. */ if (nvlist_exists(nvroot, ZPOOL_CONFIG_VDEV_STATS)) flags |= IOS_DEFAULT_M; /* Get our extended stats nvlist from the main list */ if (nvlist_lookup_nvlist(nvroot, ZPOOL_CONFIG_VDEV_STATS_EX, &nvx) != 0) { /* * No extended stats; they're probably running an older * module. No big deal, we support that too. */ goto end; } /* For each extended stat, make sure all its nvpairs are supported */ for (j = 0; j < ARRAY_SIZE(vsx_type_to_nvlist); j++) { if (!vsx_type_to_nvlist[j][0]) continue; /* Start off by assuming the flag is supported, then check */ flags |= (1ULL << j); for (i = 0; vsx_type_to_nvlist[j][i]; i++) { if (!nvlist_exists(nvx, vsx_type_to_nvlist[j][i])) { /* flag isn't supported */ flags = flags & ~(1ULL << j); break; } } } end: *mask = *mask & flags; return (0); } /* * Return a bitmask of stats that are supported on all pools by both the module * and zpool iostat. */ static uint64_t get_stat_flags(zpool_list_t *list) { uint64_t mask = -1; /* * get_stat_flags_cb() will lop off bits from "mask" until only the * flags that are supported on all pools remain. */ pool_list_iter(list, B_FALSE, get_stat_flags_cb, &mask); return (mask); } /* * Return 1 if cb_data->cb_vdev_names[0] is this vdev's name, 0 otherwise. */ static int is_vdev_cb(zpool_handle_t *zhp, nvlist_t *nv, void *cb_data) { iostat_cbdata_t *cb = cb_data; char *name = NULL; int ret = 0; name = zpool_vdev_name(g_zfs, zhp, nv, cb->cb_name_flags); if (strcmp(name, cb->cb_vdev_names[0]) == 0) ret = 1; /* match */ free(name); return (ret); } /* * Returns 1 if cb_data->cb_vdev_names[0] is a vdev name, 0 otherwise. */ static int is_vdev(zpool_handle_t *zhp, void *cb_data) { return (for_each_vdev(zhp, is_vdev_cb, cb_data)); } /* * Check if vdevs are in a pool * * Return 1 if all argv[] strings are vdev names in pool "pool_name". Otherwise * return 0. If pool_name is NULL, then search all pools. */ static int are_vdevs_in_pool(int argc, char **argv, char *pool_name, iostat_cbdata_t *cb) { char **tmp_name; int ret = 0; int i; int pool_count = 0; if ((argc == 0) || !*argv) return (0); if (pool_name) pool_count = 1; /* Temporarily hijack cb_vdev_names for a second... */ tmp_name = cb->cb_vdev_names; /* Go though our list of prospective vdev names */ for (i = 0; i < argc; i++) { cb->cb_vdev_names = argv + i; /* Is this name a vdev in our pools? */ ret = for_each_pool(pool_count, &pool_name, B_TRUE, NULL, is_vdev, cb); if (!ret) { /* No match */ break; } } cb->cb_vdev_names = tmp_name; return (ret); } static int is_pool_cb(zpool_handle_t *zhp, void *data) { char *name = data; if (strcmp(name, zpool_get_name(zhp)) == 0) return (1); return (0); } /* * Do we have a pool named *name? If so, return 1, otherwise 0. */ static int is_pool(char *name) { return (for_each_pool(0, NULL, B_TRUE, NULL, is_pool_cb, name)); } /* Are all our argv[] strings pool names? If so return 1, 0 otherwise. */ static int are_all_pools(int argc, char **argv) { if ((argc == 0) || !*argv) return (0); while (--argc >= 0) if (!is_pool(argv[argc])) return (0); return (1); } /* * Helper function to print out vdev/pool names we can't resolve. Used for an * error message. */ static void error_list_unresolved_vdevs(int argc, char **argv, char *pool_name, iostat_cbdata_t *cb) { int i; char *name; char *str; for (i = 0; i < argc; i++) { name = argv[i]; if (is_pool(name)) str = gettext("pool"); else if (are_vdevs_in_pool(1, &name, pool_name, cb)) str = gettext("vdev in this pool"); else if (are_vdevs_in_pool(1, &name, NULL, cb)) str = gettext("vdev in another pool"); else str = gettext("unknown"); fprintf(stderr, "\t%s (%s)\n", name, str); } } /* * Same as get_interval_count(), but with additional checks to not misinterpret * guids as interval/count values. Assumes VDEV_NAME_GUID is set in * cb.cb_name_flags. */ static void get_interval_count_filter_guids(int *argc, char **argv, float *interval, unsigned long *count, iostat_cbdata_t *cb) { char **tmpargv = argv; int argc_for_interval = 0; /* Is the last arg an interval value? Or a guid? */ if (*argc >= 1 && !are_vdevs_in_pool(1, &argv[*argc - 1], NULL, cb)) { /* * The last arg is not a guid, so it's probably an * interval value. */ argc_for_interval++; if (*argc >= 2 && !are_vdevs_in_pool(1, &argv[*argc - 2], NULL, cb)) { /* * The 2nd to last arg is not a guid, so it's probably * an interval value. */ argc_for_interval++; } } /* Point to our list of possible intervals */ tmpargv = &argv[*argc - argc_for_interval]; *argc = *argc - argc_for_interval; get_interval_count(&argc_for_interval, tmpargv, interval, count); } /* * Floating point sleep(). Allows you to pass in a floating point value for * seconds. */ static void fsleep(float sec) { struct timespec req; req.tv_sec = floor(sec); req.tv_nsec = (sec - (float)req.tv_sec) * NANOSEC; nanosleep(&req, NULL); } /* * Terminal height, in rows. Returns -1 if stdout is not connected to a TTY or * if we were unable to determine its size. */ static int terminal_height(void) { struct winsize win; if (isatty(STDOUT_FILENO) == 0) return (-1); if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &win) != -1 && win.ws_row > 0) return (win.ws_row); return (-1); } /* * Run one of the zpool status/iostat -c scripts with the help (-h) option and * print the result. * * name: Short name of the script ('iostat'). * path: Full path to the script ('/usr/local/etc/zfs/zpool.d/iostat'); */ static void print_zpool_script_help(char *name, char *path) { char *argv[] = {path, "-h", NULL}; char **lines = NULL; int lines_cnt = 0; int rc; rc = libzfs_run_process_get_stdout_nopath(path, argv, NULL, &lines, &lines_cnt); if (rc != 0 || lines == NULL || lines_cnt <= 0) { if (lines != NULL) libzfs_free_str_array(lines, lines_cnt); return; } for (int i = 0; i < lines_cnt; i++) if (!is_blank_str(lines[i])) printf(" %-14s %s\n", name, lines[i]); libzfs_free_str_array(lines, lines_cnt); } /* * Go though the zpool status/iostat -c scripts in the user's path, run their * help option (-h), and print out the results. */ static void print_zpool_dir_scripts(char *dirpath) { DIR *dir; struct dirent *ent; char fullpath[MAXPATHLEN]; struct stat dir_stat; if ((dir = opendir(dirpath)) != NULL) { /* print all the files and directories within directory */ while ((ent = readdir(dir)) != NULL) { sprintf(fullpath, "%s/%s", dirpath, ent->d_name); /* Print the scripts */ if (stat(fullpath, &dir_stat) == 0) if (dir_stat.st_mode & S_IXUSR && S_ISREG(dir_stat.st_mode)) print_zpool_script_help(ent->d_name, fullpath); } closedir(dir); } } /* * Print out help text for all zpool status/iostat -c scripts. */ static void print_zpool_script_list(char *subcommand) { char *dir, *sp; printf(gettext("Available 'zpool %s -c' commands:\n"), subcommand); sp = zpool_get_cmd_search_path(); if (sp == NULL) return; dir = strtok(sp, ":"); while (dir != NULL) { print_zpool_dir_scripts(dir); dir = strtok(NULL, ":"); } free(sp); } /* * Set the minimum pool/vdev name column width. The width must be at least 10, * but may be as large as the column width - 42 so it still fits on one line. * NOTE: 42 is the width of the default capacity/operations/bandwidth output */ static int get_namewidth_iostat(zpool_handle_t *zhp, void *data) { iostat_cbdata_t *cb = data; int width, available_width; /* * get_namewidth() returns the maximum width of any name in that column * for any pool/vdev/device line that will be output. */ width = get_namewidth(zhp, cb->cb_namewidth, cb->cb_name_flags, cb->cb_verbose); /* * The width we are calculating is the width of the header and also the * padding width for names that are less than maximum width. The stats * take up 42 characters, so the width available for names is: */ available_width = get_columns() - 42; /* * If the maximum width fits on a screen, then great! Make everything * line up by justifying all lines to the same width. If that max * width is larger than what's available, the name plus stats won't fit * on one line, and justifying to that width would cause every line to * wrap on the screen. We only want lines with long names to wrap. * Limit the padding to what won't wrap. */ if (width > available_width) width = available_width; /* * And regardless of whatever the screen width is (get_columns can * return 0 if the width is not known or less than 42 for a narrow * terminal) have the width be a minimum of 10. */ if (width < 10) width = 10; /* Save the calculated width */ cb->cb_namewidth = width; return (0); } /* * zpool iostat [[-c [script1,script2,...]] [-lq]|[-rw]] [-ghHLpPvy] [-n name] * [-T d|u] [[ pool ...]|[pool vdev ...]|[vdev ...]] * [interval [count]] * * -c CMD For each vdev, run command CMD * -g Display guid for individual vdev name. * -L Follow links when resolving vdev path name. * -P Display full path for vdev name. * -v Display statistics for individual vdevs * -h Display help * -p Display values in parsable (exact) format. * -H Scripted mode. Don't display headers, and separate properties * by a single tab. * -l Display average latency * -q Display queue depths * -w Display latency histograms * -r Display request size histogram * -T Display a timestamp in date(1) or Unix format * -n Only print headers once * * This command can be tricky because we want to be able to deal with pool * creation/destruction as well as vdev configuration changes. The bulk of this * processing is handled by the pool_list_* routines in zpool_iter.c. We rely * on pool_list_update() to detect the addition of new pools. Configuration * changes are all handled within libzfs. */ int zpool_do_iostat(int argc, char **argv) { int c; int ret; int npools; float interval = 0; unsigned long count = 0; int winheight = 24; zpool_list_t *list; boolean_t verbose = B_FALSE; boolean_t latency = B_FALSE, l_histo = B_FALSE, rq_histo = B_FALSE; boolean_t queues = B_FALSE, parsable = B_FALSE, scripted = B_FALSE; boolean_t omit_since_boot = B_FALSE; boolean_t guid = B_FALSE; boolean_t follow_links = B_FALSE; boolean_t full_name = B_FALSE; boolean_t headers_once = B_FALSE; iostat_cbdata_t cb = { 0 }; char *cmd = NULL; /* Used for printing error message */ const char flag_to_arg[] = {[IOS_LATENCY] = 'l', [IOS_QUEUES] = 'q', [IOS_L_HISTO] = 'w', [IOS_RQ_HISTO] = 'r'}; uint64_t unsupported_flags; /* check options */ while ((c = getopt(argc, argv, "c:gLPT:vyhplqrwnH")) != -1) { switch (c) { case 'c': if (cmd != NULL) { fprintf(stderr, gettext("Can't set -c flag twice\n")); exit(1); } if (getenv("ZPOOL_SCRIPTS_ENABLED") != NULL && !libzfs_envvar_is_set("ZPOOL_SCRIPTS_ENABLED")) { fprintf(stderr, gettext( "Can't run -c, disabled by " "ZPOOL_SCRIPTS_ENABLED.\n")); exit(1); } if ((getuid() <= 0 || geteuid() <= 0) && !libzfs_envvar_is_set("ZPOOL_SCRIPTS_AS_ROOT")) { fprintf(stderr, gettext( "Can't run -c with root privileges " "unless ZPOOL_SCRIPTS_AS_ROOT is set.\n")); exit(1); } cmd = optarg; verbose = B_TRUE; break; case 'g': guid = B_TRUE; break; case 'L': follow_links = B_TRUE; break; case 'P': full_name = B_TRUE; break; case 'T': get_timestamp_arg(*optarg); break; case 'v': verbose = B_TRUE; break; case 'p': parsable = B_TRUE; break; case 'l': latency = B_TRUE; break; case 'q': queues = B_TRUE; break; case 'H': scripted = B_TRUE; break; case 'w': l_histo = B_TRUE; break; case 'r': rq_histo = B_TRUE; break; case 'y': omit_since_boot = B_TRUE; break; case 'n': headers_once = B_TRUE; break; case 'h': usage(B_FALSE); break; case '?': if (optopt == 'c') { print_zpool_script_list("iostat"); exit(0); } else { fprintf(stderr, gettext("invalid option '%c'\n"), optopt); } usage(B_FALSE); } } argc -= optind; argv += optind; cb.cb_literal = parsable; cb.cb_scripted = scripted; if (guid) cb.cb_name_flags |= VDEV_NAME_GUID; if (follow_links) cb.cb_name_flags |= VDEV_NAME_FOLLOW_LINKS; if (full_name) cb.cb_name_flags |= VDEV_NAME_PATH; cb.cb_iteration = 0; cb.cb_namewidth = 0; cb.cb_verbose = verbose; /* Get our interval and count values (if any) */ if (guid) { get_interval_count_filter_guids(&argc, argv, &interval, &count, &cb); } else { get_interval_count(&argc, argv, &interval, &count); } if (argc == 0) { /* No args, so just print the defaults. */ } else if (are_all_pools(argc, argv)) { /* All the args are pool names */ } else if (are_vdevs_in_pool(argc, argv, NULL, &cb)) { /* All the args are vdevs */ cb.cb_vdev_names = argv; cb.cb_vdev_names_count = argc; argc = 0; /* No pools to process */ } else if (are_all_pools(1, argv)) { /* The first arg is a pool name */ if (are_vdevs_in_pool(argc - 1, argv + 1, argv[0], &cb)) { /* ...and the rest are vdev names */ cb.cb_vdev_names = argv + 1; cb.cb_vdev_names_count = argc - 1; argc = 1; /* One pool to process */ } else { fprintf(stderr, gettext("Expected either a list of ")); fprintf(stderr, gettext("pools, or list of vdevs in")); fprintf(stderr, " \"%s\", ", argv[0]); fprintf(stderr, gettext("but got:\n")); error_list_unresolved_vdevs(argc - 1, argv + 1, argv[0], &cb); fprintf(stderr, "\n"); usage(B_FALSE); return (1); } } else { /* * The args don't make sense. The first arg isn't a pool name, * nor are all the args vdevs. */ fprintf(stderr, gettext("Unable to parse pools/vdevs list.\n")); fprintf(stderr, "\n"); return (1); } if (cb.cb_vdev_names_count != 0) { /* * If user specified vdevs, it implies verbose. */ cb.cb_verbose = B_TRUE; } /* * Construct the list of all interesting pools. */ ret = 0; if ((list = pool_list_get(argc, argv, NULL, &ret)) == NULL) return (1); if (pool_list_count(list) == 0 && argc != 0) { pool_list_free(list); return (1); } if (pool_list_count(list) == 0 && interval == 0) { pool_list_free(list); (void) fprintf(stderr, gettext("no pools available\n")); return (1); } if ((l_histo || rq_histo) && (cmd != NULL || latency || queues)) { pool_list_free(list); (void) fprintf(stderr, gettext("[-r|-w] isn't allowed with [-c|-l|-q]\n")); usage(B_FALSE); return (1); } if (l_histo && rq_histo) { pool_list_free(list); (void) fprintf(stderr, gettext("Only one of [-r|-w] can be passed at a time\n")); usage(B_FALSE); return (1); } /* * Enter the main iostat loop. */ cb.cb_list = list; if (l_histo) { /* * Histograms tables look out of place when you try to display * them with the other stats, so make a rule that you can only * print histograms by themselves. */ cb.cb_flags = IOS_L_HISTO_M; } else if (rq_histo) { cb.cb_flags = IOS_RQ_HISTO_M; } else { cb.cb_flags = IOS_DEFAULT_M; if (latency) cb.cb_flags |= IOS_LATENCY_M; if (queues) cb.cb_flags |= IOS_QUEUES_M; } /* * See if the module supports all the stats we want to display. */ unsupported_flags = cb.cb_flags & ~get_stat_flags(list); if (unsupported_flags) { uint64_t f; int idx; fprintf(stderr, gettext("The loaded zfs module doesn't support:")); /* for each bit set in unsupported_flags */ for (f = unsupported_flags; f; f &= ~(1ULL << idx)) { idx = lowbit64(f) - 1; fprintf(stderr, " -%c", flag_to_arg[idx]); } fprintf(stderr, ". Try running a newer module.\n"); pool_list_free(list); return (1); } for (;;) { if ((npools = pool_list_count(list)) == 0) (void) fprintf(stderr, gettext("no pools available\n")); else { /* * If this is the first iteration and -y was supplied * we skip any printing. */ boolean_t skip = (omit_since_boot && cb.cb_iteration == 0); /* * Refresh all statistics. This is done as an * explicit step before calculating the maximum name * width, so that any * configuration changes are * properly accounted for. */ (void) pool_list_iter(list, B_FALSE, refresh_iostat, &cb); /* * Iterate over all pools to determine the maximum width * for the pool / device name column across all pools. */ cb.cb_namewidth = 0; (void) pool_list_iter(list, B_FALSE, get_namewidth_iostat, &cb); if (timestamp_fmt != NODATE) print_timestamp(timestamp_fmt); if (cmd != NULL && cb.cb_verbose && !(cb.cb_flags & IOS_ANYHISTO_M)) { cb.vcdl = all_pools_for_each_vdev_run(argc, argv, cmd, g_zfs, cb.cb_vdev_names, cb.cb_vdev_names_count, cb.cb_name_flags); } else { cb.vcdl = NULL; } /* * Check terminal size so we can print headers * even when terminal window has its height * changed. */ winheight = terminal_height(); /* * Are we connected to TTY? If not, headers_once * should be true, to avoid breaking scripts. */ if (winheight < 0) headers_once = B_TRUE; /* * If it's the first time and we're not skipping it, * or either skip or verbose mode, print the header. * * The histogram code explicitly prints its header on * every vdev, so skip this for histograms. */ if (((++cb.cb_iteration == 1 && !skip) || (skip != verbose) || (!headers_once && (cb.cb_iteration % winheight) == 0)) && (!(cb.cb_flags & IOS_ANYHISTO_M)) && !cb.cb_scripted) print_iostat_header(&cb); if (skip) { (void) fsleep(interval); continue; } pool_list_iter(list, B_FALSE, print_iostat, &cb); /* * If there's more than one pool, and we're not in * verbose mode (which prints a separator for us), * then print a separator. * * In addition, if we're printing specific vdevs then * we also want an ending separator. */ if (((npools > 1 && !verbose && !(cb.cb_flags & IOS_ANYHISTO_M)) || (!(cb.cb_flags & IOS_ANYHISTO_M) && cb.cb_vdev_names_count)) && !cb.cb_scripted) { print_iostat_separator(&cb); if (cb.vcdl != NULL) print_cmd_columns(cb.vcdl, 1); printf("\n"); } if (cb.vcdl != NULL) free_vdev_cmd_data_list(cb.vcdl); } /* * Flush the output so that redirection to a file isn't buffered * indefinitely. */ (void) fflush(stdout); if (interval == 0) break; if (count != 0 && --count == 0) break; (void) fsleep(interval); } pool_list_free(list); return (ret); } typedef struct list_cbdata { boolean_t cb_verbose; int cb_name_flags; int cb_namewidth; boolean_t cb_scripted; zprop_list_t *cb_proplist; boolean_t cb_literal; } list_cbdata_t; /* * Given a list of columns to display, output appropriate headers for each one. */ static void print_header(list_cbdata_t *cb) { zprop_list_t *pl = cb->cb_proplist; char headerbuf[ZPOOL_MAXPROPLEN]; const char *header; boolean_t first = B_TRUE; boolean_t right_justify; size_t width = 0; for (; pl != NULL; pl = pl->pl_next) { width = pl->pl_width; if (first && cb->cb_verbose) { /* * Reset the width to accommodate the verbose listing * of devices. */ width = cb->cb_namewidth; } if (!first) (void) printf(" "); else first = B_FALSE; right_justify = B_FALSE; if (pl->pl_prop != ZPROP_INVAL) { header = zpool_prop_column_name(pl->pl_prop); right_justify = zpool_prop_align_right(pl->pl_prop); } else { int i; for (i = 0; pl->pl_user_prop[i] != '\0'; i++) headerbuf[i] = toupper(pl->pl_user_prop[i]); headerbuf[i] = '\0'; header = headerbuf; } if (pl->pl_next == NULL && !right_justify) (void) printf("%s", header); else if (right_justify) (void) printf("%*s", (int)width, header); else (void) printf("%-*s", (int)width, header); } (void) printf("\n"); } /* * Given a pool and a list of properties, print out all the properties according * to the described layout. Used by zpool_do_list(). */ static void print_pool(zpool_handle_t *zhp, list_cbdata_t *cb) { zprop_list_t *pl = cb->cb_proplist; boolean_t first = B_TRUE; char property[ZPOOL_MAXPROPLEN]; char *propstr; boolean_t right_justify; size_t width; for (; pl != NULL; pl = pl->pl_next) { width = pl->pl_width; if (first && cb->cb_verbose) { /* * Reset the width to accommodate the verbose listing * of devices. */ width = cb->cb_namewidth; } if (!first) { if (cb->cb_scripted) (void) printf("\t"); else (void) printf(" "); } else { first = B_FALSE; } right_justify = B_FALSE; if (pl->pl_prop != ZPROP_INVAL) { if (zpool_get_prop(zhp, pl->pl_prop, property, sizeof (property), NULL, cb->cb_literal) != 0) propstr = "-"; else propstr = property; right_justify = zpool_prop_align_right(pl->pl_prop); } else if ((zpool_prop_feature(pl->pl_user_prop) || zpool_prop_unsupported(pl->pl_user_prop)) && zpool_prop_get_feature(zhp, pl->pl_user_prop, property, sizeof (property)) == 0) { propstr = property; } else { propstr = "-"; } /* * If this is being called in scripted mode, or if this is the * last column and it is left-justified, don't include a width * format specifier. */ if (cb->cb_scripted || (pl->pl_next == NULL && !right_justify)) (void) printf("%s", propstr); else if (right_justify) (void) printf("%*s", (int)width, propstr); else (void) printf("%-*s", (int)width, propstr); } (void) printf("\n"); } static void print_one_column(zpool_prop_t prop, uint64_t value, const char *str, boolean_t scripted, boolean_t valid, enum zfs_nicenum_format format) { char propval[64]; boolean_t fixed; size_t width = zprop_width(prop, &fixed, ZFS_TYPE_POOL); switch (prop) { case ZPOOL_PROP_EXPANDSZ: case ZPOOL_PROP_CHECKPOINT: case ZPOOL_PROP_DEDUPRATIO: if (value == 0) (void) strlcpy(propval, "-", sizeof (propval)); else zfs_nicenum_format(value, propval, sizeof (propval), format); break; case ZPOOL_PROP_FRAGMENTATION: if (value == ZFS_FRAG_INVALID) { (void) strlcpy(propval, "-", sizeof (propval)); } else if (format == ZFS_NICENUM_RAW) { (void) snprintf(propval, sizeof (propval), "%llu", (unsigned long long)value); } else { (void) snprintf(propval, sizeof (propval), "%llu%%", (unsigned long long)value); } break; case ZPOOL_PROP_CAPACITY: /* capacity value is in parts-per-10,000 (aka permyriad) */ if (format == ZFS_NICENUM_RAW) (void) snprintf(propval, sizeof (propval), "%llu", (unsigned long long)value / 100); else (void) snprintf(propval, sizeof (propval), value < 1000 ? "%1.2f%%" : value < 10000 ? "%2.1f%%" : "%3.0f%%", value / 100.0); break; case ZPOOL_PROP_HEALTH: width = 8; snprintf(propval, sizeof (propval), "%-*s", (int)width, str); break; default: zfs_nicenum_format(value, propval, sizeof (propval), format); } if (!valid) (void) strlcpy(propval, "-", sizeof (propval)); if (scripted) (void) printf("\t%s", propval); else (void) printf(" %*s", (int)width, propval); } /* * print static default line per vdev * not compatible with '-o' option */ static void print_list_stats(zpool_handle_t *zhp, const char *name, nvlist_t *nv, list_cbdata_t *cb, int depth, boolean_t isspare) { nvlist_t **child; vdev_stat_t *vs; uint_t c, children; char *vname; boolean_t scripted = cb->cb_scripted; uint64_t islog = B_FALSE; char *dashes = "%-*s - - - - " "- - - - -\n"; verify(nvlist_lookup_uint64_array(nv, ZPOOL_CONFIG_VDEV_STATS, (uint64_t **)&vs, &c) == 0); if (name != NULL) { boolean_t toplevel = (vs->vs_space != 0); uint64_t cap; enum zfs_nicenum_format format; const char *state; if (cb->cb_literal) format = ZFS_NICENUM_RAW; else format = ZFS_NICENUM_1024; if (strcmp(name, VDEV_TYPE_INDIRECT) == 0) return; if (scripted) (void) printf("\t%s", name); else if (strlen(name) + depth > cb->cb_namewidth) (void) printf("%*s%s", depth, "", name); else (void) printf("%*s%s%*s", depth, "", name, (int)(cb->cb_namewidth - strlen(name) - depth), ""); /* * Print the properties for the individual vdevs. Some * properties are only applicable to toplevel vdevs. The * 'toplevel' boolean value is passed to the print_one_column() * to indicate that the value is valid. */ print_one_column(ZPOOL_PROP_SIZE, vs->vs_space, NULL, scripted, toplevel, format); print_one_column(ZPOOL_PROP_ALLOCATED, vs->vs_alloc, NULL, scripted, toplevel, format); print_one_column(ZPOOL_PROP_FREE, vs->vs_space - vs->vs_alloc, NULL, scripted, toplevel, format); print_one_column(ZPOOL_PROP_CHECKPOINT, vs->vs_checkpoint_space, NULL, scripted, toplevel, format); print_one_column(ZPOOL_PROP_EXPANDSZ, vs->vs_esize, NULL, scripted, B_TRUE, format); print_one_column(ZPOOL_PROP_FRAGMENTATION, vs->vs_fragmentation, NULL, scripted, (vs->vs_fragmentation != ZFS_FRAG_INVALID && toplevel), format); cap = (vs->vs_space == 0) ? 0 : (vs->vs_alloc * 10000 / vs->vs_space); print_one_column(ZPOOL_PROP_CAPACITY, cap, NULL, scripted, toplevel, format); print_one_column(ZPOOL_PROP_DEDUPRATIO, 0, NULL, scripted, toplevel, format); state = zpool_state_to_name(vs->vs_state, vs->vs_aux); if (isspare) { if (vs->vs_aux == VDEV_AUX_SPARED) state = "INUSE"; else if (vs->vs_state == VDEV_STATE_HEALTHY) state = "AVAIL"; } print_one_column(ZPOOL_PROP_HEALTH, 0, state, scripted, B_TRUE, format); (void) printf("\n"); } if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_CHILDREN, &child, &children) != 0) return; /* list the normal vdevs first */ for (c = 0; c < children; c++) { uint64_t ishole = B_FALSE; if (nvlist_lookup_uint64(child[c], ZPOOL_CONFIG_IS_HOLE, &ishole) == 0 && ishole) continue; if (nvlist_lookup_uint64(child[c], ZPOOL_CONFIG_IS_LOG, &islog) == 0 && islog) continue; if (nvlist_exists(child[c], ZPOOL_CONFIG_ALLOCATION_BIAS)) continue; vname = zpool_vdev_name(g_zfs, zhp, child[c], cb->cb_name_flags); print_list_stats(zhp, vname, child[c], cb, depth + 2, B_FALSE); free(vname); } /* list the classes: 'logs', 'dedup', and 'special' */ for (uint_t n = 0; n < 3; n++) { boolean_t printed = B_FALSE; for (c = 0; c < children; c++) { char *bias = NULL; char *type = NULL; if (nvlist_lookup_uint64(child[c], ZPOOL_CONFIG_IS_LOG, &islog) == 0 && islog) { bias = VDEV_ALLOC_CLASS_LOGS; } else { (void) nvlist_lookup_string(child[c], ZPOOL_CONFIG_ALLOCATION_BIAS, &bias); (void) nvlist_lookup_string(child[c], ZPOOL_CONFIG_TYPE, &type); } if (bias == NULL || strcmp(bias, class_name[n]) != 0) continue; if (!islog && strcmp(type, VDEV_TYPE_INDIRECT) == 0) continue; if (!printed) { /* LINTED E_SEC_PRINTF_VAR_FMT */ (void) printf(dashes, cb->cb_namewidth, class_name[n]); printed = B_TRUE; } vname = zpool_vdev_name(g_zfs, zhp, child[c], cb->cb_name_flags); print_list_stats(zhp, vname, child[c], cb, depth + 2, B_FALSE); free(vname); } } if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_L2CACHE, &child, &children) == 0 && children > 0) { /* LINTED E_SEC_PRINTF_VAR_FMT */ (void) printf(dashes, cb->cb_namewidth, "cache"); for (c = 0; c < children; c++) { vname = zpool_vdev_name(g_zfs, zhp, child[c], cb->cb_name_flags); print_list_stats(zhp, vname, child[c], cb, depth + 2, B_FALSE); free(vname); } } if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_SPARES, &child, &children) == 0 && children > 0) { /* LINTED E_SEC_PRINTF_VAR_FMT */ (void) printf(dashes, cb->cb_namewidth, "spare"); for (c = 0; c < children; c++) { vname = zpool_vdev_name(g_zfs, zhp, child[c], cb->cb_name_flags); print_list_stats(zhp, vname, child[c], cb, depth + 2, B_TRUE); free(vname); } } } /* * Generic callback function to list a pool. */ static int list_callback(zpool_handle_t *zhp, void *data) { list_cbdata_t *cbp = data; print_pool(zhp, cbp); if (cbp->cb_verbose) { nvlist_t *config, *nvroot; config = zpool_get_config(zhp, NULL); verify(nvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE, &nvroot) == 0); print_list_stats(zhp, NULL, nvroot, cbp, 0, B_FALSE); } return (0); } /* * Set the minimum pool/vdev name column width. The width must be at least 9, * but may be as large as needed. */ static int get_namewidth_list(zpool_handle_t *zhp, void *data) { list_cbdata_t *cb = data; int width; width = get_namewidth(zhp, cb->cb_namewidth, cb->cb_name_flags, cb->cb_verbose); if (width < 9) width = 9; cb->cb_namewidth = width; return (0); } /* * zpool list [-gHLpP] [-o prop[,prop]*] [-T d|u] [pool] ... [interval [count]] * * -g Display guid for individual vdev name. * -H Scripted mode. Don't display headers, and separate properties * by a single tab. * -L Follow links when resolving vdev path name. * -o List of properties to display. Defaults to * "name,size,allocated,free,expandsize,fragmentation,capacity," * "dedupratio,health,altroot" * -p Display values in parsable (exact) format. * -P Display full path for vdev name. * -T Display a timestamp in date(1) or Unix format * * List all pools in the system, whether or not they're healthy. Output space * statistics for each one, as well as health status summary. */ int zpool_do_list(int argc, char **argv) { int c; int ret = 0; list_cbdata_t cb = { 0 }; static char default_props[] = "name,size,allocated,free,checkpoint,expandsize,fragmentation," "capacity,dedupratio,health,altroot"; char *props = default_props; float interval = 0; unsigned long count = 0; zpool_list_t *list; boolean_t first = B_TRUE; /* check options */ while ((c = getopt(argc, argv, ":gHLo:pPT:v")) != -1) { switch (c) { case 'g': cb.cb_name_flags |= VDEV_NAME_GUID; break; case 'H': cb.cb_scripted = B_TRUE; break; case 'L': cb.cb_name_flags |= VDEV_NAME_FOLLOW_LINKS; break; case 'o': props = optarg; break; case 'P': cb.cb_name_flags |= VDEV_NAME_PATH; break; case 'p': cb.cb_literal = B_TRUE; break; case 'T': get_timestamp_arg(*optarg); break; case 'v': cb.cb_verbose = B_TRUE; cb.cb_namewidth = 8; /* 8 until precalc is avail */ break; case ':': (void) fprintf(stderr, gettext("missing argument for " "'%c' option\n"), optopt); usage(B_FALSE); break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; get_interval_count(&argc, argv, &interval, &count); if (zprop_get_list(g_zfs, props, &cb.cb_proplist, ZFS_TYPE_POOL) != 0) usage(B_FALSE); for (;;) { if ((list = pool_list_get(argc, argv, &cb.cb_proplist, &ret)) == NULL) return (1); if (pool_list_count(list) == 0) break; cb.cb_namewidth = 0; (void) pool_list_iter(list, B_FALSE, get_namewidth_list, &cb); if (timestamp_fmt != NODATE) print_timestamp(timestamp_fmt); if (!cb.cb_scripted && (first || cb.cb_verbose)) { print_header(&cb); first = B_FALSE; } ret = pool_list_iter(list, B_TRUE, list_callback, &cb); if (interval == 0) break; if (count != 0 && --count == 0) break; pool_list_free(list); (void) fsleep(interval); } if (argc == 0 && !cb.cb_scripted && pool_list_count(list) == 0) { (void) printf(gettext("no pools available\n")); ret = 0; } pool_list_free(list); zprop_free_list(cb.cb_proplist); return (ret); } static int zpool_do_attach_or_replace(int argc, char **argv, int replacing) { boolean_t force = B_FALSE; boolean_t rebuild = B_FALSE; boolean_t wait = B_FALSE; int c; nvlist_t *nvroot; char *poolname, *old_disk, *new_disk; zpool_handle_t *zhp; nvlist_t *props = NULL; char *propval; int ret; /* check options */ while ((c = getopt(argc, argv, "fo:sw")) != -1) { switch (c) { case 'f': force = B_TRUE; break; case 'o': if ((propval = strchr(optarg, '=')) == NULL) { (void) fprintf(stderr, gettext("missing " "'=' for -o option\n")); usage(B_FALSE); } *propval = '\0'; propval++; if ((strcmp(optarg, ZPOOL_CONFIG_ASHIFT) != 0) || (add_prop_list(optarg, propval, &props, B_TRUE))) usage(B_FALSE); break; case 's': rebuild = B_TRUE; break; case 'w': wait = B_TRUE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* get pool name and check number of arguments */ if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name argument\n")); usage(B_FALSE); } poolname = argv[0]; if (argc < 2) { (void) fprintf(stderr, gettext("missing specification\n")); usage(B_FALSE); } old_disk = argv[1]; if (argc < 3) { if (!replacing) { (void) fprintf(stderr, gettext("missing specification\n")); usage(B_FALSE); } new_disk = old_disk; argc -= 1; argv += 1; } else { new_disk = argv[2]; argc -= 2; argv += 2; } if (argc > 1) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } if ((zhp = zpool_open(g_zfs, poolname)) == NULL) { nvlist_free(props); return (1); } if (zpool_get_config(zhp, NULL) == NULL) { (void) fprintf(stderr, gettext("pool '%s' is unavailable\n"), poolname); zpool_close(zhp); nvlist_free(props); return (1); } /* unless manually specified use "ashift" pool property (if set) */ if (!nvlist_exists(props, ZPOOL_CONFIG_ASHIFT)) { int intval; zprop_source_t src; char strval[ZPOOL_MAXPROPLEN]; intval = zpool_get_prop_int(zhp, ZPOOL_PROP_ASHIFT, &src); if (src != ZPROP_SRC_DEFAULT) { (void) sprintf(strval, "%" PRId32, intval); verify(add_prop_list(ZPOOL_CONFIG_ASHIFT, strval, &props, B_TRUE) == 0); } } nvroot = make_root_vdev(zhp, props, force, B_FALSE, replacing, B_FALSE, argc, argv); if (nvroot == NULL) { zpool_close(zhp); nvlist_free(props); return (1); } ret = zpool_vdev_attach(zhp, old_disk, new_disk, nvroot, replacing, rebuild); if (ret == 0 && wait) ret = zpool_wait(zhp, replacing ? ZPOOL_WAIT_REPLACE : ZPOOL_WAIT_RESILVER); nvlist_free(props); nvlist_free(nvroot); zpool_close(zhp); return (ret); } /* * zpool replace [-fsw] [-o property=value] * * -f Force attach, even if appears to be in use. * -s Use sequential instead of healing reconstruction for resilver. * -o Set property=value. * -w Wait for replacing to complete before returning * * Replace with . */ /* ARGSUSED */ int zpool_do_replace(int argc, char **argv) { return (zpool_do_attach_or_replace(argc, argv, B_TRUE)); } /* * zpool attach [-fsw] [-o property=value] * * -f Force attach, even if appears to be in use. * -s Use sequential instead of healing reconstruction for resilver. * -o Set property=value. * -w Wait for resilvering to complete before returning * * Attach to the mirror containing . If is not * part of a mirror, then will be transformed into a mirror of * and . In either case, will begin life * with a DTL of [0, now], and will immediately begin to resilver itself. */ int zpool_do_attach(int argc, char **argv) { return (zpool_do_attach_or_replace(argc, argv, B_FALSE)); } /* * zpool detach [-f] * * -f Force detach of , even if DTLs argue against it * (not supported yet) * * Detach a device from a mirror. The operation will be refused if * is the last device in the mirror, or if the DTLs indicate that this device * has the only valid copy of some data. */ /* ARGSUSED */ int zpool_do_detach(int argc, char **argv) { int c; char *poolname, *path; zpool_handle_t *zhp; int ret; /* check options */ while ((c = getopt(argc, argv, "")) != -1) { switch (c) { case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* get pool name and check number of arguments */ if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name argument\n")); usage(B_FALSE); } if (argc < 2) { (void) fprintf(stderr, gettext("missing specification\n")); usage(B_FALSE); } poolname = argv[0]; path = argv[1]; if ((zhp = zpool_open(g_zfs, poolname)) == NULL) return (1); ret = zpool_vdev_detach(zhp, path); zpool_close(zhp); return (ret); } /* * zpool split [-gLnP] [-o prop=val] ... * [-o mntopt] ... * [-R altroot] [ ...] * * -g Display guid for individual vdev name. * -L Follow links when resolving vdev path name. * -n Do not split the pool, but display the resulting layout if * it were to be split. * -o Set property=value, or set mount options. * -P Display full path for vdev name. * -R Mount the split-off pool under an alternate root. * -l Load encryption keys while importing. * * Splits the named pool and gives it the new pool name. Devices to be split * off may be listed, provided that no more than one device is specified * per top-level vdev mirror. The newly split pool is left in an exported * state unless -R is specified. * * Restrictions: the top-level of the pool pool must only be made up of * mirrors; all devices in the pool must be healthy; no device may be * undergoing a resilvering operation. */ int zpool_do_split(int argc, char **argv) { char *srcpool, *newpool, *propval; char *mntopts = NULL; splitflags_t flags; int c, ret = 0; boolean_t loadkeys = B_FALSE; zpool_handle_t *zhp; nvlist_t *config, *props = NULL; flags.dryrun = B_FALSE; flags.import = B_FALSE; flags.name_flags = 0; /* check options */ while ((c = getopt(argc, argv, ":gLR:lno:P")) != -1) { switch (c) { case 'g': flags.name_flags |= VDEV_NAME_GUID; break; case 'L': flags.name_flags |= VDEV_NAME_FOLLOW_LINKS; break; case 'R': flags.import = B_TRUE; if (add_prop_list( zpool_prop_to_name(ZPOOL_PROP_ALTROOT), optarg, &props, B_TRUE) != 0) { nvlist_free(props); usage(B_FALSE); } break; case 'l': loadkeys = B_TRUE; break; case 'n': flags.dryrun = B_TRUE; break; case 'o': if ((propval = strchr(optarg, '=')) != NULL) { *propval = '\0'; propval++; if (add_prop_list(optarg, propval, &props, B_TRUE) != 0) { nvlist_free(props); usage(B_FALSE); } } else { mntopts = optarg; } break; case 'P': flags.name_flags |= VDEV_NAME_PATH; break; case ':': (void) fprintf(stderr, gettext("missing argument for " "'%c' option\n"), optopt); usage(B_FALSE); break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); break; } } if (!flags.import && mntopts != NULL) { (void) fprintf(stderr, gettext("setting mntopts is only " "valid when importing the pool\n")); usage(B_FALSE); } if (!flags.import && loadkeys) { (void) fprintf(stderr, gettext("loading keys is only " "valid when importing the pool\n")); usage(B_FALSE); } argc -= optind; argv += optind; if (argc < 1) { (void) fprintf(stderr, gettext("Missing pool name\n")); usage(B_FALSE); } if (argc < 2) { (void) fprintf(stderr, gettext("Missing new pool name\n")); usage(B_FALSE); } srcpool = argv[0]; newpool = argv[1]; argc -= 2; argv += 2; if ((zhp = zpool_open(g_zfs, srcpool)) == NULL) { nvlist_free(props); return (1); } config = split_mirror_vdev(zhp, newpool, props, flags, argc, argv); if (config == NULL) { ret = 1; } else { if (flags.dryrun) { (void) printf(gettext("would create '%s' with the " "following layout:\n\n"), newpool); print_vdev_tree(NULL, newpool, config, 0, "", flags.name_flags); } } zpool_close(zhp); if (ret != 0 || flags.dryrun || !flags.import) { nvlist_free(config); nvlist_free(props); return (ret); } /* * The split was successful. Now we need to open the new * pool and import it. */ if ((zhp = zpool_open_canfail(g_zfs, newpool)) == NULL) { nvlist_free(config); nvlist_free(props); return (1); } if (loadkeys) { ret = zfs_crypto_attempt_load_keys(g_zfs, newpool); if (ret != 0) ret = 1; } if (zpool_get_state(zhp) != POOL_STATE_UNAVAIL && zpool_enable_datasets(zhp, mntopts, 0) != 0) { ret = 1; (void) fprintf(stderr, gettext("Split was successful, but " "the datasets could not all be mounted\n")); (void) fprintf(stderr, gettext("Try doing '%s' with a " "different altroot\n"), "zpool import"); } zpool_close(zhp); nvlist_free(config); nvlist_free(props); return (ret); } /* * zpool online ... */ int zpool_do_online(int argc, char **argv) { int c, i; char *poolname; zpool_handle_t *zhp; int ret = 0; vdev_state_t newstate; int flags = 0; /* check options */ while ((c = getopt(argc, argv, "e")) != -1) { switch (c) { case 'e': flags |= ZFS_ONLINE_EXPAND; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* get pool name and check number of arguments */ if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name\n")); usage(B_FALSE); } if (argc < 2) { (void) fprintf(stderr, gettext("missing device name\n")); usage(B_FALSE); } poolname = argv[0]; if ((zhp = zpool_open(g_zfs, poolname)) == NULL) return (1); for (i = 1; i < argc; i++) { if (zpool_vdev_online(zhp, argv[i], flags, &newstate) == 0) { if (newstate != VDEV_STATE_HEALTHY) { (void) printf(gettext("warning: device '%s' " "onlined, but remains in faulted state\n"), argv[i]); if (newstate == VDEV_STATE_FAULTED) (void) printf(gettext("use 'zpool " "clear' to restore a faulted " "device\n")); else (void) printf(gettext("use 'zpool " "replace' to replace devices " "that are no longer present\n")); } } else { ret = 1; } } zpool_close(zhp); return (ret); } /* * zpool offline [-ft] ... * * -f Force the device into a faulted state. * * -t Only take the device off-line temporarily. The offline/faulted * state will not be persistent across reboots. */ /* ARGSUSED */ int zpool_do_offline(int argc, char **argv) { int c, i; char *poolname; zpool_handle_t *zhp; int ret = 0; boolean_t istmp = B_FALSE; boolean_t fault = B_FALSE; /* check options */ while ((c = getopt(argc, argv, "ft")) != -1) { switch (c) { case 'f': fault = B_TRUE; break; case 't': istmp = B_TRUE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* get pool name and check number of arguments */ if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name\n")); usage(B_FALSE); } if (argc < 2) { (void) fprintf(stderr, gettext("missing device name\n")); usage(B_FALSE); } poolname = argv[0]; if ((zhp = zpool_open(g_zfs, poolname)) == NULL) return (1); for (i = 1; i < argc; i++) { if (fault) { uint64_t guid = zpool_vdev_path_to_guid(zhp, argv[i]); vdev_aux_t aux; if (istmp == B_FALSE) { /* Force the fault to persist across imports */ aux = VDEV_AUX_EXTERNAL_PERSIST; } else { aux = VDEV_AUX_EXTERNAL; } if (guid == 0 || zpool_vdev_fault(zhp, guid, aux) != 0) ret = 1; } else { if (zpool_vdev_offline(zhp, argv[i], istmp) != 0) ret = 1; } } zpool_close(zhp); return (ret); } /* * zpool clear [device] * * Clear all errors associated with a pool or a particular device. */ int zpool_do_clear(int argc, char **argv) { int c; int ret = 0; boolean_t dryrun = B_FALSE; boolean_t do_rewind = B_FALSE; boolean_t xtreme_rewind = B_FALSE; uint32_t rewind_policy = ZPOOL_NO_REWIND; nvlist_t *policy = NULL; zpool_handle_t *zhp; char *pool, *device; /* check options */ while ((c = getopt(argc, argv, "FnX")) != -1) { switch (c) { case 'F': do_rewind = B_TRUE; break; case 'n': dryrun = B_TRUE; break; case 'X': xtreme_rewind = B_TRUE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name\n")); usage(B_FALSE); } if (argc > 2) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } if ((dryrun || xtreme_rewind) && !do_rewind) { (void) fprintf(stderr, gettext("-n or -X only meaningful with -F\n")); usage(B_FALSE); } if (dryrun) rewind_policy = ZPOOL_TRY_REWIND; else if (do_rewind) rewind_policy = ZPOOL_DO_REWIND; if (xtreme_rewind) rewind_policy |= ZPOOL_EXTREME_REWIND; /* In future, further rewind policy choices can be passed along here */ if (nvlist_alloc(&policy, NV_UNIQUE_NAME, 0) != 0 || nvlist_add_uint32(policy, ZPOOL_LOAD_REWIND_POLICY, rewind_policy) != 0) { return (1); } pool = argv[0]; device = argc == 2 ? argv[1] : NULL; if ((zhp = zpool_open_canfail(g_zfs, pool)) == NULL) { nvlist_free(policy); return (1); } if (zpool_clear(zhp, device, policy) != 0) ret = 1; zpool_close(zhp); nvlist_free(policy); return (ret); } /* * zpool reguid */ int zpool_do_reguid(int argc, char **argv) { int c; char *poolname; zpool_handle_t *zhp; int ret = 0; /* check options */ while ((c = getopt(argc, argv, "")) != -1) { switch (c) { case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* get pool name and check number of arguments */ if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name\n")); usage(B_FALSE); } if (argc > 1) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } poolname = argv[0]; if ((zhp = zpool_open(g_zfs, poolname)) == NULL) return (1); ret = zpool_reguid(zhp); zpool_close(zhp); return (ret); } /* * zpool reopen * * Reopen the pool so that the kernel can update the sizes of all vdevs. */ int zpool_do_reopen(int argc, char **argv) { int c; int ret = 0; boolean_t scrub_restart = B_TRUE; /* check options */ while ((c = getopt(argc, argv, "n")) != -1) { switch (c) { case 'n': scrub_restart = B_FALSE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; /* if argc == 0 we will execute zpool_reopen_one on all pools */ ret = for_each_pool(argc, argv, B_TRUE, NULL, zpool_reopen_one, &scrub_restart); return (ret); } typedef struct scrub_cbdata { int cb_type; pool_scrub_cmd_t cb_scrub_cmd; } scrub_cbdata_t; static boolean_t zpool_has_checkpoint(zpool_handle_t *zhp) { nvlist_t *config, *nvroot; config = zpool_get_config(zhp, NULL); if (config != NULL) { pool_checkpoint_stat_t *pcs = NULL; uint_t c; nvroot = fnvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE); (void) nvlist_lookup_uint64_array(nvroot, ZPOOL_CONFIG_CHECKPOINT_STATS, (uint64_t **)&pcs, &c); if (pcs == NULL || pcs->pcs_state == CS_NONE) return (B_FALSE); assert(pcs->pcs_state == CS_CHECKPOINT_EXISTS || pcs->pcs_state == CS_CHECKPOINT_DISCARDING); return (B_TRUE); } return (B_FALSE); } static int scrub_callback(zpool_handle_t *zhp, void *data) { scrub_cbdata_t *cb = data; int err; /* * Ignore faulted pools. */ if (zpool_get_state(zhp) == POOL_STATE_UNAVAIL) { (void) fprintf(stderr, gettext("cannot scan '%s': pool is " "currently unavailable\n"), zpool_get_name(zhp)); return (1); } err = zpool_scan(zhp, cb->cb_type, cb->cb_scrub_cmd); if (err == 0 && zpool_has_checkpoint(zhp) && cb->cb_type == POOL_SCAN_SCRUB) { (void) printf(gettext("warning: will not scrub state that " "belongs to the checkpoint of pool '%s'\n"), zpool_get_name(zhp)); } return (err != 0); } static int wait_callback(zpool_handle_t *zhp, void *data) { zpool_wait_activity_t *act = data; return (zpool_wait(zhp, *act)); } /* * zpool scrub [-s | -p] [-w] ... * * -s Stop. Stops any in-progress scrub. * -p Pause. Pause in-progress scrub. * -w Wait. Blocks until scrub has completed. */ int zpool_do_scrub(int argc, char **argv) { int c; scrub_cbdata_t cb; boolean_t wait = B_FALSE; int error; cb.cb_type = POOL_SCAN_SCRUB; cb.cb_scrub_cmd = POOL_SCRUB_NORMAL; /* check options */ while ((c = getopt(argc, argv, "spw")) != -1) { switch (c) { case 's': cb.cb_type = POOL_SCAN_NONE; break; case 'p': cb.cb_scrub_cmd = POOL_SCRUB_PAUSE; break; case 'w': wait = B_TRUE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } if (cb.cb_type == POOL_SCAN_NONE && cb.cb_scrub_cmd == POOL_SCRUB_PAUSE) { (void) fprintf(stderr, gettext("invalid option combination: " "-s and -p are mutually exclusive\n")); usage(B_FALSE); } if (wait && (cb.cb_type == POOL_SCAN_NONE || cb.cb_scrub_cmd == POOL_SCRUB_PAUSE)) { (void) fprintf(stderr, gettext("invalid option combination: " "-w cannot be used with -p or -s\n")); usage(B_FALSE); } argc -= optind; argv += optind; if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name argument\n")); usage(B_FALSE); } error = for_each_pool(argc, argv, B_TRUE, NULL, scrub_callback, &cb); if (wait && !error) { zpool_wait_activity_t act = ZPOOL_WAIT_SCRUB; error = for_each_pool(argc, argv, B_TRUE, NULL, wait_callback, &act); } return (error); } /* * zpool resilver ... * * Restarts any in-progress resilver */ int zpool_do_resilver(int argc, char **argv) { int c; scrub_cbdata_t cb; cb.cb_type = POOL_SCAN_RESILVER; cb.cb_scrub_cmd = POOL_SCRUB_NORMAL; /* check options */ while ((c = getopt(argc, argv, "")) != -1) { switch (c) { case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name argument\n")); usage(B_FALSE); } return (for_each_pool(argc, argv, B_TRUE, NULL, scrub_callback, &cb)); } /* * zpool trim [-d] [-r ] [-c | -s] [ ...] * * -c Cancel. Ends any in-progress trim. * -d Secure trim. Requires kernel and device support. * -r Sets the TRIM rate in bytes (per second). Supports * adding a multiplier suffix such as 'k' or 'm'. * -s Suspend. TRIM can then be restarted with no flags. * -w Wait. Blocks until trimming has completed. */ int zpool_do_trim(int argc, char **argv) { struct option long_options[] = { {"cancel", no_argument, NULL, 'c'}, {"secure", no_argument, NULL, 'd'}, {"rate", required_argument, NULL, 'r'}, {"suspend", no_argument, NULL, 's'}, {"wait", no_argument, NULL, 'w'}, {0, 0, 0, 0} }; pool_trim_func_t cmd_type = POOL_TRIM_START; uint64_t rate = 0; boolean_t secure = B_FALSE; boolean_t wait = B_FALSE; int c; while ((c = getopt_long(argc, argv, "cdr:sw", long_options, NULL)) != -1) { switch (c) { case 'c': if (cmd_type != POOL_TRIM_START && cmd_type != POOL_TRIM_CANCEL) { (void) fprintf(stderr, gettext("-c cannot be " "combined with other options\n")); usage(B_FALSE); } cmd_type = POOL_TRIM_CANCEL; break; case 'd': if (cmd_type != POOL_TRIM_START) { (void) fprintf(stderr, gettext("-d cannot be " "combined with the -c or -s options\n")); usage(B_FALSE); } secure = B_TRUE; break; case 'r': if (cmd_type != POOL_TRIM_START) { (void) fprintf(stderr, gettext("-r cannot be " "combined with the -c or -s options\n")); usage(B_FALSE); } if (zfs_nicestrtonum(NULL, optarg, &rate) == -1) { (void) fprintf(stderr, gettext("invalid value for rate\n")); usage(B_FALSE); } break; case 's': if (cmd_type != POOL_TRIM_START && cmd_type != POOL_TRIM_SUSPEND) { (void) fprintf(stderr, gettext("-s cannot be " "combined with other options\n")); usage(B_FALSE); } cmd_type = POOL_TRIM_SUSPEND; break; case 'w': wait = B_TRUE; break; case '?': if (optopt != 0) { (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); } else { (void) fprintf(stderr, gettext("invalid option '%s'\n"), argv[optind - 1]); } usage(B_FALSE); } } argc -= optind; argv += optind; if (argc < 1) { (void) fprintf(stderr, gettext("missing pool name argument\n")); usage(B_FALSE); return (-1); } if (wait && (cmd_type != POOL_TRIM_START)) { (void) fprintf(stderr, gettext("-w cannot be used with -c or " "-s\n")); usage(B_FALSE); } char *poolname = argv[0]; zpool_handle_t *zhp = zpool_open(g_zfs, poolname); if (zhp == NULL) return (-1); trimflags_t trim_flags = { .secure = secure, .rate = rate, .wait = wait, }; nvlist_t *vdevs = fnvlist_alloc(); if (argc == 1) { /* no individual leaf vdevs specified, so add them all */ nvlist_t *config = zpool_get_config(zhp, NULL); nvlist_t *nvroot = fnvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE); zpool_collect_leaves(zhp, nvroot, vdevs); trim_flags.fullpool = B_TRUE; } else { trim_flags.fullpool = B_FALSE; for (int i = 1; i < argc; i++) { fnvlist_add_boolean(vdevs, argv[i]); } } int error = zpool_trim(zhp, cmd_type, vdevs, &trim_flags); fnvlist_free(vdevs); zpool_close(zhp); return (error); } /* * Converts a total number of seconds to a human readable string broken * down in to days/hours/minutes/seconds. */ static void secs_to_dhms(uint64_t total, char *buf) { uint64_t days = total / 60 / 60 / 24; uint64_t hours = (total / 60 / 60) % 24; uint64_t mins = (total / 60) % 60; uint64_t secs = (total % 60); if (days > 0) { (void) sprintf(buf, "%llu days %02llu:%02llu:%02llu", (u_longlong_t)days, (u_longlong_t)hours, (u_longlong_t)mins, (u_longlong_t)secs); } else { (void) sprintf(buf, "%02llu:%02llu:%02llu", (u_longlong_t)hours, (u_longlong_t)mins, (u_longlong_t)secs); } } /* * Print out detailed scrub status. */ static void print_scan_scrub_resilver_status(pool_scan_stat_t *ps) { time_t start, end, pause; uint64_t pass_scanned, scanned, pass_issued, issued, total; uint64_t elapsed, scan_rate, issue_rate; double fraction_done; char processed_buf[7], scanned_buf[7], issued_buf[7], total_buf[7]; char srate_buf[7], irate_buf[7], time_buf[32]; printf(" "); printf_color(ANSI_BOLD, gettext("scan:")); printf(" "); /* If there's never been a scan, there's not much to say. */ if (ps == NULL || ps->pss_func == POOL_SCAN_NONE || ps->pss_func >= POOL_SCAN_FUNCS) { (void) printf(gettext("none requested\n")); return; } start = ps->pss_start_time; end = ps->pss_end_time; pause = ps->pss_pass_scrub_pause; zfs_nicebytes(ps->pss_processed, processed_buf, sizeof (processed_buf)); assert(ps->pss_func == POOL_SCAN_SCRUB || ps->pss_func == POOL_SCAN_RESILVER); /* Scan is finished or canceled. */ if (ps->pss_state == DSS_FINISHED) { secs_to_dhms(end - start, time_buf); if (ps->pss_func == POOL_SCAN_SCRUB) { (void) printf(gettext("scrub repaired %s " "in %s with %llu errors on %s"), processed_buf, time_buf, (u_longlong_t)ps->pss_errors, ctime(&end)); } else if (ps->pss_func == POOL_SCAN_RESILVER) { (void) printf(gettext("resilvered %s " "in %s with %llu errors on %s"), processed_buf, time_buf, (u_longlong_t)ps->pss_errors, ctime(&end)); } return; } else if (ps->pss_state == DSS_CANCELED) { if (ps->pss_func == POOL_SCAN_SCRUB) { (void) printf(gettext("scrub canceled on %s"), ctime(&end)); } else if (ps->pss_func == POOL_SCAN_RESILVER) { (void) printf(gettext("resilver canceled on %s"), ctime(&end)); } return; } assert(ps->pss_state == DSS_SCANNING); /* Scan is in progress. Resilvers can't be paused. */ if (ps->pss_func == POOL_SCAN_SCRUB) { if (pause == 0) { (void) printf(gettext("scrub in progress since %s"), ctime(&start)); } else { (void) printf(gettext("scrub paused since %s"), ctime(&pause)); (void) printf(gettext("\tscrub started on %s"), ctime(&start)); } } else if (ps->pss_func == POOL_SCAN_RESILVER) { (void) printf(gettext("resilver in progress since %s"), ctime(&start)); } scanned = ps->pss_examined; pass_scanned = ps->pss_pass_exam; issued = ps->pss_issued; pass_issued = ps->pss_pass_issued; total = ps->pss_to_examine; /* we are only done with a block once we have issued the IO for it */ fraction_done = (double)issued / total; /* elapsed time for this pass, rounding up to 1 if it's 0 */ elapsed = time(NULL) - ps->pss_pass_start; elapsed -= ps->pss_pass_scrub_spent_paused; elapsed = (elapsed != 0) ? elapsed : 1; scan_rate = pass_scanned / elapsed; issue_rate = pass_issued / elapsed; uint64_t total_secs_left = (issue_rate != 0 && total >= issued) ? ((total - issued) / issue_rate) : UINT64_MAX; secs_to_dhms(total_secs_left, time_buf); /* format all of the numbers we will be reporting */ zfs_nicebytes(scanned, scanned_buf, sizeof (scanned_buf)); zfs_nicebytes(issued, issued_buf, sizeof (issued_buf)); zfs_nicebytes(total, total_buf, sizeof (total_buf)); zfs_nicebytes(scan_rate, srate_buf, sizeof (srate_buf)); zfs_nicebytes(issue_rate, irate_buf, sizeof (irate_buf)); /* do not print estimated time if we have a paused scrub */ if (pause == 0) { (void) printf(gettext("\t%s scanned at %s/s, " "%s issued at %s/s, %s total\n"), scanned_buf, srate_buf, issued_buf, irate_buf, total_buf); } else { (void) printf(gettext("\t%s scanned, %s issued, %s total\n"), scanned_buf, issued_buf, total_buf); } if (ps->pss_func == POOL_SCAN_RESILVER) { (void) printf(gettext("\t%s resilvered, %.2f%% done"), processed_buf, 100 * fraction_done); } else if (ps->pss_func == POOL_SCAN_SCRUB) { (void) printf(gettext("\t%s repaired, %.2f%% done"), processed_buf, 100 * fraction_done); } if (pause == 0) { if (total_secs_left != UINT64_MAX && issue_rate >= 10 * 1024 * 1024) { (void) printf(gettext(", %s to go\n"), time_buf); } else { (void) printf(gettext(", no estimated " "completion time\n")); } } else { (void) printf(gettext("\n")); } } static void print_rebuild_status_impl(vdev_rebuild_stat_t *vrs, char *vdev_name) { if (vrs == NULL || vrs->vrs_state == VDEV_REBUILD_NONE) return; printf(" "); printf_color(ANSI_BOLD, gettext("scan:")); printf(" "); uint64_t bytes_scanned = vrs->vrs_bytes_scanned; uint64_t bytes_issued = vrs->vrs_bytes_issued; uint64_t bytes_rebuilt = vrs->vrs_bytes_rebuilt; uint64_t bytes_est = vrs->vrs_bytes_est; uint64_t scan_rate = (vrs->vrs_pass_bytes_scanned / (vrs->vrs_pass_time_ms + 1)) * 1000; uint64_t issue_rate = (vrs->vrs_pass_bytes_issued / (vrs->vrs_pass_time_ms + 1)) * 1000; double scan_pct = MIN((double)bytes_scanned * 100 / (bytes_est + 1), 100); /* Format all of the numbers we will be reporting */ char bytes_scanned_buf[7], bytes_issued_buf[7]; char bytes_rebuilt_buf[7], bytes_est_buf[7]; char scan_rate_buf[7], issue_rate_buf[7], time_buf[32]; zfs_nicebytes(bytes_scanned, bytes_scanned_buf, sizeof (bytes_scanned_buf)); zfs_nicebytes(bytes_issued, bytes_issued_buf, sizeof (bytes_issued_buf)); zfs_nicebytes(bytes_rebuilt, bytes_rebuilt_buf, sizeof (bytes_rebuilt_buf)); zfs_nicebytes(bytes_est, bytes_est_buf, sizeof (bytes_est_buf)); zfs_nicebytes(scan_rate, scan_rate_buf, sizeof (scan_rate_buf)); zfs_nicebytes(issue_rate, issue_rate_buf, sizeof (issue_rate_buf)); time_t start = vrs->vrs_start_time; time_t end = vrs->vrs_end_time; /* Rebuild is finished or canceled. */ if (vrs->vrs_state == VDEV_REBUILD_COMPLETE) { secs_to_dhms(vrs->vrs_scan_time_ms / 1000, time_buf); (void) printf(gettext("resilvered (%s) %s in %s " "with %llu errors on %s"), vdev_name, bytes_rebuilt_buf, time_buf, (u_longlong_t)vrs->vrs_errors, ctime(&end)); return; } else if (vrs->vrs_state == VDEV_REBUILD_CANCELED) { (void) printf(gettext("resilver (%s) canceled on %s"), vdev_name, ctime(&end)); return; } else if (vrs->vrs_state == VDEV_REBUILD_ACTIVE) { (void) printf(gettext("resilver (%s) in progress since %s"), vdev_name, ctime(&start)); } assert(vrs->vrs_state == VDEV_REBUILD_ACTIVE); secs_to_dhms(MAX((int64_t)bytes_est - (int64_t)bytes_scanned, 0) / MAX(scan_rate, 1), time_buf); (void) printf(gettext("\t%s scanned at %s/s, %s issued %s/s, " "%s total\n"), bytes_scanned_buf, scan_rate_buf, bytes_issued_buf, issue_rate_buf, bytes_est_buf); (void) printf(gettext("\t%s resilvered, %.2f%% done"), bytes_rebuilt_buf, scan_pct); if (vrs->vrs_state == VDEV_REBUILD_ACTIVE) { if (scan_rate >= 10 * 1024 * 1024) { (void) printf(gettext(", %s to go\n"), time_buf); } else { (void) printf(gettext(", no estimated " "completion time\n")); } } else { (void) printf(gettext("\n")); } } /* * Print rebuild status for top-level vdevs. */ static void print_rebuild_status(zpool_handle_t *zhp, nvlist_t *nvroot) { nvlist_t **child; uint_t children; if (nvlist_lookup_nvlist_array(nvroot, ZPOOL_CONFIG_CHILDREN, &child, &children) != 0) children = 0; for (uint_t c = 0; c < children; c++) { vdev_rebuild_stat_t *vrs; uint_t i; if (nvlist_lookup_uint64_array(child[c], ZPOOL_CONFIG_REBUILD_STATS, (uint64_t **)&vrs, &i) == 0) { char *name = zpool_vdev_name(g_zfs, zhp, child[c], VDEV_NAME_TYPE_ID); print_rebuild_status_impl(vrs, name); free(name); } } } /* * As we don't scrub checkpointed blocks, we want to warn the user that we * skipped scanning some blocks if a checkpoint exists or existed at any * time during the scan. If a sequential instead of healing reconstruction * was performed then the blocks were reconstructed. However, their checksums * have not been verified so we still print the warning. */ static void print_checkpoint_scan_warning(pool_scan_stat_t *ps, pool_checkpoint_stat_t *pcs) { if (ps == NULL || pcs == NULL) return; if (pcs->pcs_state == CS_NONE || pcs->pcs_state == CS_CHECKPOINT_DISCARDING) return; assert(pcs->pcs_state == CS_CHECKPOINT_EXISTS); if (ps->pss_state == DSS_NONE) return; if ((ps->pss_state == DSS_FINISHED || ps->pss_state == DSS_CANCELED) && ps->pss_end_time < pcs->pcs_start_time) return; if (ps->pss_state == DSS_FINISHED || ps->pss_state == DSS_CANCELED) { (void) printf(gettext(" scan warning: skipped blocks " "that are only referenced by the checkpoint.\n")); } else { assert(ps->pss_state == DSS_SCANNING); (void) printf(gettext(" scan warning: skipping blocks " "that are only referenced by the checkpoint.\n")); } } /* * Returns B_TRUE if there is an active rebuild in progress. Otherwise, * B_FALSE is returned and 'rebuild_end_time' is set to the end time for * the last completed (or cancelled) rebuild. */ static boolean_t check_rebuilding(nvlist_t *nvroot, uint64_t *rebuild_end_time) { nvlist_t **child; uint_t children; boolean_t rebuilding = B_FALSE; uint64_t end_time = 0; if (nvlist_lookup_nvlist_array(nvroot, ZPOOL_CONFIG_CHILDREN, &child, &children) != 0) children = 0; for (uint_t c = 0; c < children; c++) { vdev_rebuild_stat_t *vrs; uint_t i; if (nvlist_lookup_uint64_array(child[c], ZPOOL_CONFIG_REBUILD_STATS, (uint64_t **)&vrs, &i) == 0) { if (vrs->vrs_end_time > end_time) end_time = vrs->vrs_end_time; if (vrs->vrs_state == VDEV_REBUILD_ACTIVE) { rebuilding = B_TRUE; end_time = 0; break; } } } if (rebuild_end_time != NULL) *rebuild_end_time = end_time; return (rebuilding); } /* * Print the scan status. */ static void print_scan_status(zpool_handle_t *zhp, nvlist_t *nvroot) { uint64_t rebuild_end_time = 0, resilver_end_time = 0; boolean_t have_resilver = B_FALSE, have_scrub = B_FALSE; boolean_t active_resilver = B_FALSE; pool_checkpoint_stat_t *pcs = NULL; pool_scan_stat_t *ps = NULL; uint_t c; if (nvlist_lookup_uint64_array(nvroot, ZPOOL_CONFIG_SCAN_STATS, (uint64_t **)&ps, &c) == 0) { if (ps->pss_func == POOL_SCAN_RESILVER) { resilver_end_time = ps->pss_end_time; active_resilver = (ps->pss_state == DSS_SCANNING); } have_resilver = (ps->pss_func == POOL_SCAN_RESILVER); have_scrub = (ps->pss_func == POOL_SCAN_SCRUB); } boolean_t active_rebuild = check_rebuilding(nvroot, &rebuild_end_time); boolean_t have_rebuild = (active_rebuild || (rebuild_end_time > 0)); /* Always print the scrub status when available. */ if (have_scrub) print_scan_scrub_resilver_status(ps); /* * When there is an active resilver or rebuild print its status. * Otherwise print the status of the last resilver or rebuild. */ if (active_resilver || (!active_rebuild && have_resilver && resilver_end_time && resilver_end_time > rebuild_end_time)) { print_scan_scrub_resilver_status(ps); } else if (active_rebuild || (!active_resilver && have_rebuild && rebuild_end_time && rebuild_end_time > resilver_end_time)) { print_rebuild_status(zhp, nvroot); } (void) nvlist_lookup_uint64_array(nvroot, ZPOOL_CONFIG_CHECKPOINT_STATS, (uint64_t **)&pcs, &c); print_checkpoint_scan_warning(ps, pcs); } /* * Print out detailed removal status. */ static void print_removal_status(zpool_handle_t *zhp, pool_removal_stat_t *prs) { char copied_buf[7], examined_buf[7], total_buf[7], rate_buf[7]; time_t start, end; nvlist_t *config, *nvroot; nvlist_t **child; uint_t children; char *vdev_name; if (prs == NULL || prs->prs_state == DSS_NONE) return; /* * Determine name of vdev. */ config = zpool_get_config(zhp, NULL); nvroot = fnvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE); verify(nvlist_lookup_nvlist_array(nvroot, ZPOOL_CONFIG_CHILDREN, &child, &children) == 0); assert(prs->prs_removing_vdev < children); vdev_name = zpool_vdev_name(g_zfs, zhp, child[prs->prs_removing_vdev], B_TRUE); (void) printf(gettext("remove: ")); start = prs->prs_start_time; end = prs->prs_end_time; zfs_nicenum(prs->prs_copied, copied_buf, sizeof (copied_buf)); /* * Removal is finished or canceled. */ if (prs->prs_state == DSS_FINISHED) { uint64_t minutes_taken = (end - start) / 60; (void) printf(gettext("Removal of vdev %llu copied %s " "in %lluh%um, completed on %s"), (longlong_t)prs->prs_removing_vdev, copied_buf, (u_longlong_t)(minutes_taken / 60), (uint_t)(minutes_taken % 60), ctime((time_t *)&end)); } else if (prs->prs_state == DSS_CANCELED) { (void) printf(gettext("Removal of %s canceled on %s"), vdev_name, ctime(&end)); } else { uint64_t copied, total, elapsed, mins_left, hours_left; double fraction_done; uint_t rate; assert(prs->prs_state == DSS_SCANNING); /* * Removal is in progress. */ (void) printf(gettext( "Evacuation of %s in progress since %s"), vdev_name, ctime(&start)); copied = prs->prs_copied > 0 ? prs->prs_copied : 1; total = prs->prs_to_copy; fraction_done = (double)copied / total; /* elapsed time for this pass */ elapsed = time(NULL) - prs->prs_start_time; elapsed = elapsed > 0 ? elapsed : 1; rate = copied / elapsed; rate = rate > 0 ? rate : 1; mins_left = ((total - copied) / rate) / 60; hours_left = mins_left / 60; zfs_nicenum(copied, examined_buf, sizeof (examined_buf)); zfs_nicenum(total, total_buf, sizeof (total_buf)); zfs_nicenum(rate, rate_buf, sizeof (rate_buf)); /* * do not print estimated time if hours_left is more than * 30 days */ (void) printf(gettext(" %s copied out of %s at %s/s, " "%.2f%% done"), examined_buf, total_buf, rate_buf, 100 * fraction_done); if (hours_left < (30 * 24)) { (void) printf(gettext(", %lluh%um to go\n"), (u_longlong_t)hours_left, (uint_t)(mins_left % 60)); } else { (void) printf(gettext( ", (copy is slow, no estimated time)\n")); } } free(vdev_name); if (prs->prs_mapping_memory > 0) { char mem_buf[7]; zfs_nicenum(prs->prs_mapping_memory, mem_buf, sizeof (mem_buf)); (void) printf(gettext(" %s memory used for " "removed device mappings\n"), mem_buf); } } static void print_checkpoint_status(pool_checkpoint_stat_t *pcs) { time_t start; char space_buf[7]; if (pcs == NULL || pcs->pcs_state == CS_NONE) return; (void) printf(gettext("checkpoint: ")); start = pcs->pcs_start_time; zfs_nicenum(pcs->pcs_space, space_buf, sizeof (space_buf)); if (pcs->pcs_state == CS_CHECKPOINT_EXISTS) { char *date = ctime(&start); /* * ctime() adds a newline at the end of the generated * string, thus the weird format specifier and the * strlen() call used to chop it off from the output. */ (void) printf(gettext("created %.*s, consumes %s\n"), (int)(strlen(date) - 1), date, space_buf); return; } assert(pcs->pcs_state == CS_CHECKPOINT_DISCARDING); (void) printf(gettext("discarding, %s remaining.\n"), space_buf); } static void print_error_log(zpool_handle_t *zhp) { nvlist_t *nverrlist = NULL; nvpair_t *elem; char *pathname; size_t len = MAXPATHLEN * 2; if (zpool_get_errlog(zhp, &nverrlist) != 0) return; (void) printf("errors: Permanent errors have been " "detected in the following files:\n\n"); pathname = safe_malloc(len); elem = NULL; while ((elem = nvlist_next_nvpair(nverrlist, elem)) != NULL) { nvlist_t *nv; uint64_t dsobj, obj; verify(nvpair_value_nvlist(elem, &nv) == 0); verify(nvlist_lookup_uint64(nv, ZPOOL_ERR_DATASET, &dsobj) == 0); verify(nvlist_lookup_uint64(nv, ZPOOL_ERR_OBJECT, &obj) == 0); zpool_obj_to_path(zhp, dsobj, obj, pathname, len); (void) printf("%7s %s\n", "", pathname); } free(pathname); nvlist_free(nverrlist); } static void print_spares(zpool_handle_t *zhp, status_cbdata_t *cb, nvlist_t **spares, uint_t nspares) { uint_t i; char *name; if (nspares == 0) return; (void) printf(gettext("\tspares\n")); for (i = 0; i < nspares; i++) { name = zpool_vdev_name(g_zfs, zhp, spares[i], cb->cb_name_flags); print_status_config(zhp, cb, name, spares[i], 2, B_TRUE, NULL); free(name); } } static void print_l2cache(zpool_handle_t *zhp, status_cbdata_t *cb, nvlist_t **l2cache, uint_t nl2cache) { uint_t i; char *name; if (nl2cache == 0) return; (void) printf(gettext("\tcache\n")); for (i = 0; i < nl2cache; i++) { name = zpool_vdev_name(g_zfs, zhp, l2cache[i], cb->cb_name_flags); print_status_config(zhp, cb, name, l2cache[i], 2, B_FALSE, NULL); free(name); } } static void print_dedup_stats(nvlist_t *config) { ddt_histogram_t *ddh; ddt_stat_t *dds; ddt_object_t *ddo; uint_t c; char dspace[6], mspace[6]; /* * If the pool was faulted then we may not have been able to * obtain the config. Otherwise, if we have anything in the dedup * table continue processing the stats. */ if (nvlist_lookup_uint64_array(config, ZPOOL_CONFIG_DDT_OBJ_STATS, (uint64_t **)&ddo, &c) != 0) return; (void) printf("\n"); (void) printf(gettext(" dedup: ")); if (ddo->ddo_count == 0) { (void) printf(gettext("no DDT entries\n")); return; } zfs_nicebytes(ddo->ddo_dspace, dspace, sizeof (dspace)); zfs_nicebytes(ddo->ddo_mspace, mspace, sizeof (mspace)); (void) printf("DDT entries %llu, size %s on disk, %s in core\n", (u_longlong_t)ddo->ddo_count, dspace, mspace); verify(nvlist_lookup_uint64_array(config, ZPOOL_CONFIG_DDT_STATS, (uint64_t **)&dds, &c) == 0); verify(nvlist_lookup_uint64_array(config, ZPOOL_CONFIG_DDT_HISTOGRAM, (uint64_t **)&ddh, &c) == 0); zpool_dump_ddt(dds, ddh); } /* * Display a summary of pool status. Displays a summary such as: * * pool: tank * status: DEGRADED * reason: One or more devices ... * see: https://openzfs.github.io/openzfs-docs/msg/ZFS-xxxx-01 * config: * mirror DEGRADED * c1t0d0 OK * c2t0d0 UNAVAIL * * When given the '-v' option, we print out the complete config. If the '-e' * option is specified, then we print out error rate information as well. */ static int status_callback(zpool_handle_t *zhp, void *data) { status_cbdata_t *cbp = data; nvlist_t *config, *nvroot; char *msgid; zpool_status_t reason; zpool_errata_t errata; const char *health; uint_t c; vdev_stat_t *vs; config = zpool_get_config(zhp, NULL); reason = zpool_get_status(zhp, &msgid, &errata); cbp->cb_count++; /* * If we were given 'zpool status -x', only report those pools with * problems. */ if (cbp->cb_explain && (reason == ZPOOL_STATUS_OK || reason == ZPOOL_STATUS_VERSION_OLDER || reason == ZPOOL_STATUS_FEAT_DISABLED)) { if (!cbp->cb_allpools) { (void) printf(gettext("pool '%s' is healthy\n"), zpool_get_name(zhp)); if (cbp->cb_first) cbp->cb_first = B_FALSE; } return (0); } if (cbp->cb_first) cbp->cb_first = B_FALSE; else (void) printf("\n"); nvroot = fnvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE); verify(nvlist_lookup_uint64_array(nvroot, ZPOOL_CONFIG_VDEV_STATS, (uint64_t **)&vs, &c) == 0); health = zpool_get_state_str(zhp); printf(" "); printf_color(ANSI_BOLD, gettext("pool:")); printf(" %s\n", zpool_get_name(zhp)); printf(" "); printf_color(ANSI_BOLD, gettext("state: ")); printf_color(health_str_to_color(health), "%s", health); printf("\n"); switch (reason) { case ZPOOL_STATUS_MISSING_DEV_R: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices could " "not be opened. Sufficient replicas exist for\n\tthe pool " "to continue functioning in a degraded state.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Attach the missing device " "and online it using 'zpool online'.\n")); break; case ZPOOL_STATUS_MISSING_DEV_NR: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices could " "not be opened. There are insufficient\n\treplicas for the" " pool to continue functioning.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Attach the missing device " "and online it using 'zpool online'.\n")); break; case ZPOOL_STATUS_CORRUPT_LABEL_R: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices could " "not be used because the label is missing or\n\tinvalid. " "Sufficient replicas exist for the pool to continue\n\t" "functioning in a degraded state.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Replace the device using " "'zpool replace'.\n")); break; case ZPOOL_STATUS_CORRUPT_LABEL_NR: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices could " "not be used because the label is missing \n\tor invalid. " "There are insufficient replicas for the pool to " "continue\n\tfunctioning.\n")); zpool_explain_recover(zpool_get_handle(zhp), zpool_get_name(zhp), reason, config); break; case ZPOOL_STATUS_FAILING_DEV: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices has " "experienced an unrecoverable error. An\n\tattempt was " "made to correct the error. Applications are " "unaffected.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Determine if the " "device needs to be replaced, and clear the errors\n\tusing" " 'zpool clear' or replace the device with 'zpool " "replace'.\n")); break; case ZPOOL_STATUS_OFFLINE_DEV: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices has " "been taken offline by the administrator.\n\tSufficient " "replicas exist for the pool to continue functioning in " "a\n\tdegraded state.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Online the device " "using 'zpool online' or replace the device with\n\t'zpool " "replace'.\n")); break; case ZPOOL_STATUS_REMOVED_DEV: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices has " "been removed by the administrator.\n\tSufficient " "replicas exist for the pool to continue functioning in " "a\n\tdegraded state.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Online the device " "using zpool online' or replace the device with\n\t'zpool " "replace'.\n")); break; case ZPOOL_STATUS_RESILVERING: case ZPOOL_STATUS_REBUILDING: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices is " "currently being resilvered. The pool will\n\tcontinue " "to function, possibly in a degraded state.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Wait for the resilver to " "complete.\n")); break; case ZPOOL_STATUS_REBUILD_SCRUB: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices have " "been sequentially resilvered, scrubbing\n\tthe pool " "is recommended.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Use 'zpool scrub' to " "verify all data checksums.\n")); break; case ZPOOL_STATUS_CORRUPT_DATA: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices has " "experienced an error resulting in data\n\tcorruption. " "Applications may be affected.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Restore the file in question" " if possible. Otherwise restore the\n\tentire pool from " "backup.\n")); break; case ZPOOL_STATUS_CORRUPT_POOL: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool metadata is " "corrupted and the pool cannot be opened.\n")); zpool_explain_recover(zpool_get_handle(zhp), zpool_get_name(zhp), reason, config); break; case ZPOOL_STATUS_VERSION_OLDER: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool is formatted using " "a legacy on-disk format. The pool can\n\tstill be used, " "but some features are unavailable.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Upgrade the pool using " "'zpool upgrade'. Once this is done, the\n\tpool will no " "longer be accessible on software that does not support\n\t" "feature flags.\n")); break; case ZPOOL_STATUS_VERSION_NEWER: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool has been upgraded " "to a newer, incompatible on-disk version.\n\tThe pool " "cannot be accessed on this system.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Access the pool from a " "system running more recent software, or\n\trestore the " "pool from backup.\n")); break; case ZPOOL_STATUS_FEAT_DISABLED: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("Some supported features are " "not enabled on the pool. The pool can\n\tstill be used, " "but some features are unavailable.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Enable all features using " "'zpool upgrade'. Once this is done,\n\tthe pool may no " "longer be accessible by software that does not support\n\t" "the features. See zpool-features(5) for details.\n")); break; case ZPOOL_STATUS_UNSUP_FEAT_READ: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool cannot be accessed " "on this system because it uses the\n\tfollowing feature(s)" " not supported on this system:\n")); zpool_print_unsup_feat(config); (void) printf("\n"); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Access the pool from a " "system that supports the required feature(s),\n\tor " "restore the pool from backup.\n")); break; case ZPOOL_STATUS_UNSUP_FEAT_WRITE: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool can only be " "accessed in read-only mode on this system. It\n\tcannot be" " accessed in read-write mode because it uses the " "following\n\tfeature(s) not supported on this system:\n")); zpool_print_unsup_feat(config); (void) printf("\n"); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("The pool cannot be accessed " "in read-write mode. Import the pool with\n" "\t\"-o readonly=on\", access the pool from a system that " "supports the\n\trequired feature(s), or restore the " "pool from backup.\n")); break; case ZPOOL_STATUS_FAULTED_DEV_R: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices are " "faulted in response to persistent errors.\n\tSufficient " "replicas exist for the pool to continue functioning " "in a\n\tdegraded state.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Replace the faulted device, " "or use 'zpool clear' to mark the device\n\trepaired.\n")); break; case ZPOOL_STATUS_FAULTED_DEV_NR: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices are " "faulted in response to persistent errors. There are " "insufficient replicas for the pool to\n\tcontinue " "functioning.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Destroy and re-create the " "pool from a backup source. Manually marking the device\n" "\trepaired using 'zpool clear' may allow some data " "to be recovered.\n")); break; case ZPOOL_STATUS_IO_FAILURE_MMP: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("The pool is suspended " "because multihost writes failed or were delayed;\n\t" "another system could import the pool undetected.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Make sure the pool's devices" " are connected, then reboot your system and\n\timport the " "pool.\n")); break; case ZPOOL_STATUS_IO_FAILURE_WAIT: case ZPOOL_STATUS_IO_FAILURE_CONTINUE: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("One or more devices are " "faulted in response to IO failures.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Make sure the affected " "devices are connected, then run 'zpool clear'.\n")); break; case ZPOOL_STATUS_BAD_LOG: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("An intent log record " "could not be read.\n" "\tWaiting for administrator intervention to fix the " "faulted pool.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Either restore the affected " "device(s) and run 'zpool online',\n" "\tor ignore the intent log records by running " "'zpool clear'.\n")); break; case ZPOOL_STATUS_NON_NATIVE_ASHIFT: (void) printf(gettext("status: One or more devices are " "configured to use a non-native block size.\n" "\tExpect reduced performance.\n")); (void) printf(gettext("action: Replace affected devices with " "devices that support the\n\tconfigured block size, or " "migrate data to a properly configured\n\tpool.\n")); break; case ZPOOL_STATUS_HOSTID_MISMATCH: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("Mismatch between pool hostid" " and system hostid on imported pool.\n\tThis pool was " "previously imported into a system with a different " "hostid,\n\tand then was verbatim imported into this " "system.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("Export this pool on all " "systems on which it is imported.\n" "\tThen import it to correct the mismatch.\n")); break; case ZPOOL_STATUS_ERRATA: printf_color(ANSI_BOLD, gettext("status: ")); printf_color(ANSI_YELLOW, gettext("Errata #%d detected.\n"), errata); switch (errata) { case ZPOOL_ERRATA_NONE: break; case ZPOOL_ERRATA_ZOL_2094_SCRUB: printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("To correct the issue" " run 'zpool scrub'.\n")); break; case ZPOOL_ERRATA_ZOL_6845_ENCRYPTION: (void) printf(gettext("\tExisting encrypted datasets " "contain an on-disk incompatibility\n\twhich " "needs to be corrected.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("To correct the issue" " backup existing encrypted datasets to new\n\t" "encrypted datasets and destroy the old ones. " "'zfs mount -o ro' can\n\tbe used to temporarily " "mount existing encrypted datasets readonly.\n")); break; case ZPOOL_ERRATA_ZOL_8308_ENCRYPTION: (void) printf(gettext("\tExisting encrypted snapshots " "and bookmarks contain an on-disk\n\tincompat" "ibility. This may cause on-disk corruption if " "they are used\n\twith 'zfs recv'.\n")); printf_color(ANSI_BOLD, gettext("action: ")); printf_color(ANSI_YELLOW, gettext("To correct the" "issue, enable the bookmark_v2 feature. No " "additional\n\taction is needed if there are no " "encrypted snapshots or bookmarks.\n\tIf preserving" "the encrypted snapshots and bookmarks is required," " use\n\ta non-raw send to backup and restore them." " Alternately, they may be\n\tremoved to resolve " "the incompatibility.\n")); break; default: /* * All errata which allow the pool to be imported * must contain an action message. */ assert(0); } break; default: /* * The remaining errors can't actually be generated, yet. */ assert(reason == ZPOOL_STATUS_OK); } if (msgid != NULL) { printf(" "); printf_color(ANSI_BOLD, gettext("see:")); printf(gettext( " https://openzfs.github.io/openzfs-docs/msg/%s\n"), msgid); } if (config != NULL) { uint64_t nerr; nvlist_t **spares, **l2cache; uint_t nspares, nl2cache; pool_checkpoint_stat_t *pcs = NULL; pool_removal_stat_t *prs = NULL; print_scan_status(zhp, nvroot); (void) nvlist_lookup_uint64_array(nvroot, ZPOOL_CONFIG_REMOVAL_STATS, (uint64_t **)&prs, &c); print_removal_status(zhp, prs); (void) nvlist_lookup_uint64_array(nvroot, ZPOOL_CONFIG_CHECKPOINT_STATS, (uint64_t **)&pcs, &c); print_checkpoint_status(pcs); cbp->cb_namewidth = max_width(zhp, nvroot, 0, 0, cbp->cb_name_flags | VDEV_NAME_TYPE_ID); if (cbp->cb_namewidth < 10) cbp->cb_namewidth = 10; color_start(ANSI_BOLD); (void) printf(gettext("config:\n\n")); (void) printf(gettext("\t%-*s %-8s %5s %5s %5s"), cbp->cb_namewidth, "NAME", "STATE", "READ", "WRITE", "CKSUM"); color_end(); if (cbp->cb_print_slow_ios) { printf_color(ANSI_BOLD, " %5s", gettext("SLOW")); } if (cbp->vcdl != NULL) print_cmd_columns(cbp->vcdl, 0); printf("\n"); print_status_config(zhp, cbp, zpool_get_name(zhp), nvroot, 0, B_FALSE, NULL); print_class_vdevs(zhp, cbp, nvroot, VDEV_ALLOC_BIAS_DEDUP); print_class_vdevs(zhp, cbp, nvroot, VDEV_ALLOC_BIAS_SPECIAL); print_class_vdevs(zhp, cbp, nvroot, VDEV_ALLOC_CLASS_LOGS); if (nvlist_lookup_nvlist_array(nvroot, ZPOOL_CONFIG_L2CACHE, &l2cache, &nl2cache) == 0) print_l2cache(zhp, cbp, l2cache, nl2cache); if (nvlist_lookup_nvlist_array(nvroot, ZPOOL_CONFIG_SPARES, &spares, &nspares) == 0) print_spares(zhp, cbp, spares, nspares); if (nvlist_lookup_uint64(config, ZPOOL_CONFIG_ERRCOUNT, &nerr) == 0) { nvlist_t *nverrlist = NULL; /* * If the approximate error count is small, get a * precise count by fetching the entire log and * uniquifying the results. */ if (nerr > 0 && nerr < 100 && !cbp->cb_verbose && zpool_get_errlog(zhp, &nverrlist) == 0) { nvpair_t *elem; elem = NULL; nerr = 0; while ((elem = nvlist_next_nvpair(nverrlist, elem)) != NULL) { nerr++; } } nvlist_free(nverrlist); (void) printf("\n"); if (nerr == 0) (void) printf(gettext("errors: No known data " "errors\n")); else if (!cbp->cb_verbose) (void) printf(gettext("errors: %llu data " "errors, use '-v' for a list\n"), (u_longlong_t)nerr); else print_error_log(zhp); } if (cbp->cb_dedup_stats) print_dedup_stats(config); } else { (void) printf(gettext("config: The configuration cannot be " "determined.\n")); } return (0); } /* * zpool status [-c [script1,script2,...]] [-igLpPstvx] [-T d|u] [pool] ... * [interval [count]] * * -c CMD For each vdev, run command CMD * -i Display vdev initialization status. * -g Display guid for individual vdev name. * -L Follow links when resolving vdev path name. * -p Display values in parsable (exact) format. * -P Display full path for vdev name. * -s Display slow IOs column. * -v Display complete error logs * -x Display only pools with potential problems * -D Display dedup status (undocumented) * -t Display vdev TRIM status. * -T Display a timestamp in date(1) or Unix format * * Describes the health status of all pools or some subset. */ int zpool_do_status(int argc, char **argv) { int c; int ret; float interval = 0; unsigned long count = 0; status_cbdata_t cb = { 0 }; char *cmd = NULL; /* check options */ while ((c = getopt(argc, argv, "c:igLpPsvxDtT:")) != -1) { switch (c) { case 'c': if (cmd != NULL) { fprintf(stderr, gettext("Can't set -c flag twice\n")); exit(1); } if (getenv("ZPOOL_SCRIPTS_ENABLED") != NULL && !libzfs_envvar_is_set("ZPOOL_SCRIPTS_ENABLED")) { fprintf(stderr, gettext( "Can't run -c, disabled by " "ZPOOL_SCRIPTS_ENABLED.\n")); exit(1); } if ((getuid() <= 0 || geteuid() <= 0) && !libzfs_envvar_is_set("ZPOOL_SCRIPTS_AS_ROOT")) { fprintf(stderr, gettext( "Can't run -c with root privileges " "unless ZPOOL_SCRIPTS_AS_ROOT is set.\n")); exit(1); } cmd = optarg; break; case 'i': cb.cb_print_vdev_init = B_TRUE; break; case 'g': cb.cb_name_flags |= VDEV_NAME_GUID; break; case 'L': cb.cb_name_flags |= VDEV_NAME_FOLLOW_LINKS; break; case 'p': cb.cb_literal = B_TRUE; break; case 'P': cb.cb_name_flags |= VDEV_NAME_PATH; break; case 's': cb.cb_print_slow_ios = B_TRUE; break; case 'v': cb.cb_verbose = B_TRUE; break; case 'x': cb.cb_explain = B_TRUE; break; case 'D': cb.cb_dedup_stats = B_TRUE; break; case 't': cb.cb_print_vdev_trim = B_TRUE; break; case 'T': get_timestamp_arg(*optarg); break; case '?': if (optopt == 'c') { print_zpool_script_list("status"); exit(0); } else { fprintf(stderr, gettext("invalid option '%c'\n"), optopt); } usage(B_FALSE); } } argc -= optind; argv += optind; get_interval_count(&argc, argv, &interval, &count); if (argc == 0) cb.cb_allpools = B_TRUE; cb.cb_first = B_TRUE; cb.cb_print_status = B_TRUE; for (;;) { if (timestamp_fmt != NODATE) print_timestamp(timestamp_fmt); if (cmd != NULL) cb.vcdl = all_pools_for_each_vdev_run(argc, argv, cmd, NULL, NULL, 0, 0); ret = for_each_pool(argc, argv, B_TRUE, NULL, status_callback, &cb); if (cb.vcdl != NULL) free_vdev_cmd_data_list(cb.vcdl); if (argc == 0 && cb.cb_count == 0) (void) fprintf(stderr, gettext("no pools available\n")); else if (cb.cb_explain && cb.cb_first && cb.cb_allpools) (void) printf(gettext("all pools are healthy\n")); if (ret != 0) return (ret); if (interval == 0) break; if (count != 0 && --count == 0) break; (void) fsleep(interval); } return (0); } typedef struct upgrade_cbdata { int cb_first; int cb_argc; uint64_t cb_version; char **cb_argv; } upgrade_cbdata_t; static int check_unsupp_fs(zfs_handle_t *zhp, void *unsupp_fs) { int zfs_version = (int)zfs_prop_get_int(zhp, ZFS_PROP_VERSION); int *count = (int *)unsupp_fs; if (zfs_version > ZPL_VERSION) { (void) printf(gettext("%s (v%d) is not supported by this " "implementation of ZFS.\n"), zfs_get_name(zhp), zfs_version); (*count)++; } zfs_iter_filesystems(zhp, check_unsupp_fs, unsupp_fs); zfs_close(zhp); return (0); } static int upgrade_version(zpool_handle_t *zhp, uint64_t version) { int ret; nvlist_t *config; uint64_t oldversion; int unsupp_fs = 0; config = zpool_get_config(zhp, NULL); verify(nvlist_lookup_uint64(config, ZPOOL_CONFIG_VERSION, &oldversion) == 0); assert(SPA_VERSION_IS_SUPPORTED(oldversion)); assert(oldversion < version); ret = zfs_iter_root(zpool_get_handle(zhp), check_unsupp_fs, &unsupp_fs); if (ret != 0) return (ret); if (unsupp_fs) { (void) fprintf(stderr, gettext("Upgrade not performed due " "to %d unsupported filesystems (max v%d).\n"), unsupp_fs, (int)ZPL_VERSION); return (1); } ret = zpool_upgrade(zhp, version); if (ret != 0) return (ret); if (version >= SPA_VERSION_FEATURES) { (void) printf(gettext("Successfully upgraded " "'%s' from version %llu to feature flags.\n"), zpool_get_name(zhp), (u_longlong_t)oldversion); } else { (void) printf(gettext("Successfully upgraded " "'%s' from version %llu to version %llu.\n"), zpool_get_name(zhp), (u_longlong_t)oldversion, (u_longlong_t)version); } return (0); } static int upgrade_enable_all(zpool_handle_t *zhp, int *countp) { int i, ret, count; boolean_t firstff = B_TRUE; nvlist_t *enabled = zpool_get_features(zhp); count = 0; for (i = 0; i < SPA_FEATURES; i++) { const char *fname = spa_feature_table[i].fi_uname; const char *fguid = spa_feature_table[i].fi_guid; if (!nvlist_exists(enabled, fguid)) { char *propname; verify(-1 != asprintf(&propname, "feature@%s", fname)); ret = zpool_set_prop(zhp, propname, ZFS_FEATURE_ENABLED); if (ret != 0) { free(propname); return (ret); } count++; if (firstff) { (void) printf(gettext("Enabled the " "following features on '%s':\n"), zpool_get_name(zhp)); firstff = B_FALSE; } (void) printf(gettext(" %s\n"), fname); free(propname); } } if (countp != NULL) *countp = count; return (0); } static int upgrade_cb(zpool_handle_t *zhp, void *arg) { upgrade_cbdata_t *cbp = arg; nvlist_t *config; uint64_t version; boolean_t printnl = B_FALSE; int ret; config = zpool_get_config(zhp, NULL); verify(nvlist_lookup_uint64(config, ZPOOL_CONFIG_VERSION, &version) == 0); assert(SPA_VERSION_IS_SUPPORTED(version)); if (version < cbp->cb_version) { cbp->cb_first = B_FALSE; ret = upgrade_version(zhp, cbp->cb_version); if (ret != 0) return (ret); printnl = B_TRUE; /* * If they did "zpool upgrade -a", then we could * be doing ioctls to different pools. We need * to log this history once to each pool, and bypass * the normal history logging that happens in main(). */ (void) zpool_log_history(g_zfs, history_str); log_history = B_FALSE; } if (cbp->cb_version >= SPA_VERSION_FEATURES) { int count; ret = upgrade_enable_all(zhp, &count); if (ret != 0) return (ret); if (count > 0) { cbp->cb_first = B_FALSE; printnl = B_TRUE; } } if (printnl) { (void) printf(gettext("\n")); } return (0); } static int upgrade_list_older_cb(zpool_handle_t *zhp, void *arg) { upgrade_cbdata_t *cbp = arg; nvlist_t *config; uint64_t version; config = zpool_get_config(zhp, NULL); verify(nvlist_lookup_uint64(config, ZPOOL_CONFIG_VERSION, &version) == 0); assert(SPA_VERSION_IS_SUPPORTED(version)); if (version < SPA_VERSION_FEATURES) { if (cbp->cb_first) { (void) printf(gettext("The following pools are " "formatted with legacy version numbers and can\n" "be upgraded to use feature flags. After " "being upgraded, these pools\nwill no " "longer be accessible by software that does not " "support feature\nflags.\n\n")); (void) printf(gettext("VER POOL\n")); (void) printf(gettext("--- ------------\n")); cbp->cb_first = B_FALSE; } (void) printf("%2llu %s\n", (u_longlong_t)version, zpool_get_name(zhp)); } return (0); } static int upgrade_list_disabled_cb(zpool_handle_t *zhp, void *arg) { upgrade_cbdata_t *cbp = arg; nvlist_t *config; uint64_t version; config = zpool_get_config(zhp, NULL); verify(nvlist_lookup_uint64(config, ZPOOL_CONFIG_VERSION, &version) == 0); if (version >= SPA_VERSION_FEATURES) { int i; boolean_t poolfirst = B_TRUE; nvlist_t *enabled = zpool_get_features(zhp); for (i = 0; i < SPA_FEATURES; i++) { const char *fguid = spa_feature_table[i].fi_guid; const char *fname = spa_feature_table[i].fi_uname; if (!nvlist_exists(enabled, fguid)) { if (cbp->cb_first) { (void) printf(gettext("\nSome " "supported features are not " "enabled on the following pools. " "Once a\nfeature is enabled the " "pool may become incompatible with " "software\nthat does not support " "the feature. See " "zpool-features(5) for " "details.\n\n")); (void) printf(gettext("POOL " "FEATURE\n")); (void) printf(gettext("------" "---------\n")); cbp->cb_first = B_FALSE; } if (poolfirst) { (void) printf(gettext("%s\n"), zpool_get_name(zhp)); poolfirst = B_FALSE; } (void) printf(gettext(" %s\n"), fname); } /* * If they did "zpool upgrade -a", then we could * be doing ioctls to different pools. We need * to log this history once to each pool, and bypass * the normal history logging that happens in main(). */ (void) zpool_log_history(g_zfs, history_str); log_history = B_FALSE; } } return (0); } /* ARGSUSED */ static int upgrade_one(zpool_handle_t *zhp, void *data) { boolean_t printnl = B_FALSE; upgrade_cbdata_t *cbp = data; uint64_t cur_version; int ret; if (strcmp("log", zpool_get_name(zhp)) == 0) { (void) fprintf(stderr, gettext("'log' is now a reserved word\n" "Pool 'log' must be renamed using export and import" " to upgrade.\n")); return (1); } cur_version = zpool_get_prop_int(zhp, ZPOOL_PROP_VERSION, NULL); if (cur_version > cbp->cb_version) { (void) printf(gettext("Pool '%s' is already formatted " "using more current version '%llu'.\n\n"), zpool_get_name(zhp), (u_longlong_t)cur_version); return (0); } if (cbp->cb_version != SPA_VERSION && cur_version == cbp->cb_version) { (void) printf(gettext("Pool '%s' is already formatted " "using version %llu.\n\n"), zpool_get_name(zhp), (u_longlong_t)cbp->cb_version); return (0); } if (cur_version != cbp->cb_version) { printnl = B_TRUE; ret = upgrade_version(zhp, cbp->cb_version); if (ret != 0) return (ret); } if (cbp->cb_version >= SPA_VERSION_FEATURES) { int count = 0; ret = upgrade_enable_all(zhp, &count); if (ret != 0) return (ret); if (count != 0) { printnl = B_TRUE; } else if (cur_version == SPA_VERSION) { (void) printf(gettext("Pool '%s' already has all " "supported features enabled.\n"), zpool_get_name(zhp)); } } if (printnl) { (void) printf(gettext("\n")); } return (0); } /* * zpool upgrade * zpool upgrade -v * zpool upgrade [-V version] <-a | pool ...> * * With no arguments, display downrev'd ZFS pool available for upgrade. * Individual pools can be upgraded by specifying the pool, and '-a' will * upgrade all pools. */ int zpool_do_upgrade(int argc, char **argv) { int c; upgrade_cbdata_t cb = { 0 }; int ret = 0; boolean_t showversions = B_FALSE; boolean_t upgradeall = B_FALSE; char *end; /* check options */ while ((c = getopt(argc, argv, ":avV:")) != -1) { switch (c) { case 'a': upgradeall = B_TRUE; break; case 'v': showversions = B_TRUE; break; case 'V': cb.cb_version = strtoll(optarg, &end, 10); if (*end != '\0' || !SPA_VERSION_IS_SUPPORTED(cb.cb_version)) { (void) fprintf(stderr, gettext("invalid version '%s'\n"), optarg); usage(B_FALSE); } break; case ':': (void) fprintf(stderr, gettext("missing argument for " "'%c' option\n"), optopt); usage(B_FALSE); break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } cb.cb_argc = argc; cb.cb_argv = argv; argc -= optind; argv += optind; if (cb.cb_version == 0) { cb.cb_version = SPA_VERSION; } else if (!upgradeall && argc == 0) { (void) fprintf(stderr, gettext("-V option is " "incompatible with other arguments\n")); usage(B_FALSE); } if (showversions) { if (upgradeall || argc != 0) { (void) fprintf(stderr, gettext("-v option is " "incompatible with other arguments\n")); usage(B_FALSE); } } else if (upgradeall) { if (argc != 0) { (void) fprintf(stderr, gettext("-a option should not " "be used along with a pool name\n")); usage(B_FALSE); } } (void) printf(gettext("This system supports ZFS pool feature " "flags.\n\n")); if (showversions) { int i; (void) printf(gettext("The following features are " "supported:\n\n")); (void) printf(gettext("FEAT DESCRIPTION\n")); (void) printf("----------------------------------------------" "---------------\n"); for (i = 0; i < SPA_FEATURES; i++) { zfeature_info_t *fi = &spa_feature_table[i]; const char *ro = (fi->fi_flags & ZFEATURE_FLAG_READONLY_COMPAT) ? " (read-only compatible)" : ""; (void) printf("%-37s%s\n", fi->fi_uname, ro); (void) printf(" %s\n", fi->fi_desc); } (void) printf("\n"); (void) printf(gettext("The following legacy versions are also " "supported:\n\n")); (void) printf(gettext("VER DESCRIPTION\n")); (void) printf("--- -----------------------------------------" "---------------\n"); (void) printf(gettext(" 1 Initial ZFS version\n")); (void) printf(gettext(" 2 Ditto blocks " "(replicated metadata)\n")); (void) printf(gettext(" 3 Hot spares and double parity " "RAID-Z\n")); (void) printf(gettext(" 4 zpool history\n")); (void) printf(gettext(" 5 Compression using the gzip " "algorithm\n")); (void) printf(gettext(" 6 bootfs pool property\n")); (void) printf(gettext(" 7 Separate intent log devices\n")); (void) printf(gettext(" 8 Delegated administration\n")); (void) printf(gettext(" 9 refquota and refreservation " "properties\n")); (void) printf(gettext(" 10 Cache devices\n")); (void) printf(gettext(" 11 Improved scrub performance\n")); (void) printf(gettext(" 12 Snapshot properties\n")); (void) printf(gettext(" 13 snapused property\n")); (void) printf(gettext(" 14 passthrough-x aclinherit\n")); (void) printf(gettext(" 15 user/group space accounting\n")); (void) printf(gettext(" 16 stmf property support\n")); (void) printf(gettext(" 17 Triple-parity RAID-Z\n")); (void) printf(gettext(" 18 Snapshot user holds\n")); (void) printf(gettext(" 19 Log device removal\n")); (void) printf(gettext(" 20 Compression using zle " "(zero-length encoding)\n")); (void) printf(gettext(" 21 Deduplication\n")); (void) printf(gettext(" 22 Received properties\n")); (void) printf(gettext(" 23 Slim ZIL\n")); (void) printf(gettext(" 24 System attributes\n")); (void) printf(gettext(" 25 Improved scrub stats\n")); (void) printf(gettext(" 26 Improved snapshot deletion " "performance\n")); (void) printf(gettext(" 27 Improved snapshot creation " "performance\n")); (void) printf(gettext(" 28 Multiple vdev replacements\n")); (void) printf(gettext("\nFor more information on a particular " "version, including supported releases,\n")); (void) printf(gettext("see the ZFS Administration Guide.\n\n")); } else if (argc == 0 && upgradeall) { cb.cb_first = B_TRUE; ret = zpool_iter(g_zfs, upgrade_cb, &cb); if (ret == 0 && cb.cb_first) { if (cb.cb_version == SPA_VERSION) { (void) printf(gettext("All pools are already " "formatted using feature flags.\n\n")); (void) printf(gettext("Every feature flags " "pool already has all supported features " "enabled.\n")); } else { (void) printf(gettext("All pools are already " "formatted with version %llu or higher.\n"), (u_longlong_t)cb.cb_version); } } } else if (argc == 0) { cb.cb_first = B_TRUE; ret = zpool_iter(g_zfs, upgrade_list_older_cb, &cb); assert(ret == 0); if (cb.cb_first) { (void) printf(gettext("All pools are formatted " "using feature flags.\n\n")); } else { (void) printf(gettext("\nUse 'zpool upgrade -v' " "for a list of available legacy versions.\n")); } cb.cb_first = B_TRUE; ret = zpool_iter(g_zfs, upgrade_list_disabled_cb, &cb); assert(ret == 0); if (cb.cb_first) { (void) printf(gettext("Every feature flags pool has " "all supported features enabled.\n")); } else { (void) printf(gettext("\n")); } } else { ret = for_each_pool(argc, argv, B_FALSE, NULL, upgrade_one, &cb); } return (ret); } typedef struct hist_cbdata { boolean_t first; boolean_t longfmt; boolean_t internal; } hist_cbdata_t; static void print_history_records(nvlist_t *nvhis, hist_cbdata_t *cb) { nvlist_t **records; uint_t numrecords; int i; verify(nvlist_lookup_nvlist_array(nvhis, ZPOOL_HIST_RECORD, &records, &numrecords) == 0); for (i = 0; i < numrecords; i++) { nvlist_t *rec = records[i]; char tbuf[30] = ""; if (nvlist_exists(rec, ZPOOL_HIST_TIME)) { time_t tsec; struct tm t; tsec = fnvlist_lookup_uint64(records[i], ZPOOL_HIST_TIME); (void) localtime_r(&tsec, &t); (void) strftime(tbuf, sizeof (tbuf), "%F.%T", &t); } if (nvlist_exists(rec, ZPOOL_HIST_CMD)) { (void) printf("%s %s", tbuf, fnvlist_lookup_string(rec, ZPOOL_HIST_CMD)); } else if (nvlist_exists(rec, ZPOOL_HIST_INT_EVENT)) { int ievent = fnvlist_lookup_uint64(rec, ZPOOL_HIST_INT_EVENT); if (!cb->internal) continue; if (ievent >= ZFS_NUM_LEGACY_HISTORY_EVENTS) { (void) printf("%s unrecognized record:\n", tbuf); dump_nvlist(rec, 4); continue; } (void) printf("%s [internal %s txg:%lld] %s", tbuf, zfs_history_event_names[ievent], (longlong_t)fnvlist_lookup_uint64( rec, ZPOOL_HIST_TXG), fnvlist_lookup_string(rec, ZPOOL_HIST_INT_STR)); } else if (nvlist_exists(rec, ZPOOL_HIST_INT_NAME)) { if (!cb->internal) continue; (void) printf("%s [txg:%lld] %s", tbuf, (longlong_t)fnvlist_lookup_uint64( rec, ZPOOL_HIST_TXG), fnvlist_lookup_string(rec, ZPOOL_HIST_INT_NAME)); if (nvlist_exists(rec, ZPOOL_HIST_DSNAME)) { (void) printf(" %s (%llu)", fnvlist_lookup_string(rec, ZPOOL_HIST_DSNAME), (u_longlong_t)fnvlist_lookup_uint64(rec, ZPOOL_HIST_DSID)); } (void) printf(" %s", fnvlist_lookup_string(rec, ZPOOL_HIST_INT_STR)); } else if (nvlist_exists(rec, ZPOOL_HIST_IOCTL)) { if (!cb->internal) continue; (void) printf("%s ioctl %s\n", tbuf, fnvlist_lookup_string(rec, ZPOOL_HIST_IOCTL)); if (nvlist_exists(rec, ZPOOL_HIST_INPUT_NVL)) { (void) printf(" input:\n"); dump_nvlist(fnvlist_lookup_nvlist(rec, ZPOOL_HIST_INPUT_NVL), 8); } if (nvlist_exists(rec, ZPOOL_HIST_OUTPUT_NVL)) { (void) printf(" output:\n"); dump_nvlist(fnvlist_lookup_nvlist(rec, ZPOOL_HIST_OUTPUT_NVL), 8); } if (nvlist_exists(rec, ZPOOL_HIST_ERRNO)) { (void) printf(" errno: %lld\n", (longlong_t)fnvlist_lookup_int64(rec, ZPOOL_HIST_ERRNO)); } } else { if (!cb->internal) continue; (void) printf("%s unrecognized record:\n", tbuf); dump_nvlist(rec, 4); } if (!cb->longfmt) { (void) printf("\n"); continue; } (void) printf(" ["); if (nvlist_exists(rec, ZPOOL_HIST_WHO)) { uid_t who = fnvlist_lookup_uint64(rec, ZPOOL_HIST_WHO); struct passwd *pwd = getpwuid(who); (void) printf("user %d ", (int)who); if (pwd != NULL) (void) printf("(%s) ", pwd->pw_name); } if (nvlist_exists(rec, ZPOOL_HIST_HOST)) { (void) printf("on %s", fnvlist_lookup_string(rec, ZPOOL_HIST_HOST)); } if (nvlist_exists(rec, ZPOOL_HIST_ZONE)) { (void) printf(":%s", fnvlist_lookup_string(rec, ZPOOL_HIST_ZONE)); } (void) printf("]"); (void) printf("\n"); } } /* * Print out the command history for a specific pool. */ static int get_history_one(zpool_handle_t *zhp, void *data) { nvlist_t *nvhis; int ret; hist_cbdata_t *cb = (hist_cbdata_t *)data; uint64_t off = 0; boolean_t eof = B_FALSE; cb->first = B_FALSE; (void) printf(gettext("History for '%s':\n"), zpool_get_name(zhp)); while (!eof) { if ((ret = zpool_get_history(zhp, &nvhis, &off, &eof)) != 0) return (ret); print_history_records(nvhis, cb); nvlist_free(nvhis); } (void) printf("\n"); return (ret); } /* * zpool history * * Displays the history of commands that modified pools. */ int zpool_do_history(int argc, char **argv) { hist_cbdata_t cbdata = { 0 }; int ret; int c; cbdata.first = B_TRUE; /* check options */ while ((c = getopt(argc, argv, "li")) != -1) { switch (c) { case 'l': cbdata.longfmt = B_TRUE; break; case 'i': cbdata.internal = B_TRUE; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; ret = for_each_pool(argc, argv, B_FALSE, NULL, get_history_one, &cbdata); if (argc == 0 && cbdata.first == B_TRUE) { (void) fprintf(stderr, gettext("no pools available\n")); return (0); } return (ret); } typedef struct ev_opts { int verbose; int scripted; int follow; int clear; char poolname[ZFS_MAX_DATASET_NAME_LEN]; } ev_opts_t; static void zpool_do_events_short(nvlist_t *nvl, ev_opts_t *opts) { char ctime_str[26], str[32], *ptr; int64_t *tv; uint_t n; verify(nvlist_lookup_int64_array(nvl, FM_EREPORT_TIME, &tv, &n) == 0); memset(str, ' ', 32); (void) ctime_r((const time_t *)&tv[0], ctime_str); (void) memcpy(str, ctime_str+4, 6); /* 'Jun 30' */ (void) memcpy(str+7, ctime_str+20, 4); /* '1993' */ (void) memcpy(str+12, ctime_str+11, 8); /* '21:49:08' */ (void) sprintf(str+20, ".%09lld", (longlong_t)tv[1]); /* '.123456789' */ if (opts->scripted) (void) printf(gettext("%s\t"), str); else (void) printf(gettext("%s "), str); verify(nvlist_lookup_string(nvl, FM_CLASS, &ptr) == 0); (void) printf(gettext("%s\n"), ptr); } static void zpool_do_events_nvprint(nvlist_t *nvl, int depth) { nvpair_t *nvp; for (nvp = nvlist_next_nvpair(nvl, NULL); nvp != NULL; nvp = nvlist_next_nvpair(nvl, nvp)) { data_type_t type = nvpair_type(nvp); const char *name = nvpair_name(nvp); boolean_t b; uint8_t i8; uint16_t i16; uint32_t i32; uint64_t i64; char *str; nvlist_t *cnv; printf(gettext("%*s%s = "), depth, "", name); switch (type) { case DATA_TYPE_BOOLEAN: printf(gettext("%s"), "1"); break; case DATA_TYPE_BOOLEAN_VALUE: (void) nvpair_value_boolean_value(nvp, &b); printf(gettext("%s"), b ? "1" : "0"); break; case DATA_TYPE_BYTE: (void) nvpair_value_byte(nvp, &i8); printf(gettext("0x%x"), i8); break; case DATA_TYPE_INT8: (void) nvpair_value_int8(nvp, (void *)&i8); printf(gettext("0x%x"), i8); break; case DATA_TYPE_UINT8: (void) nvpair_value_uint8(nvp, &i8); printf(gettext("0x%x"), i8); break; case DATA_TYPE_INT16: (void) nvpair_value_int16(nvp, (void *)&i16); printf(gettext("0x%x"), i16); break; case DATA_TYPE_UINT16: (void) nvpair_value_uint16(nvp, &i16); printf(gettext("0x%x"), i16); break; case DATA_TYPE_INT32: (void) nvpair_value_int32(nvp, (void *)&i32); printf(gettext("0x%x"), i32); break; case DATA_TYPE_UINT32: (void) nvpair_value_uint32(nvp, &i32); printf(gettext("0x%x"), i32); break; case DATA_TYPE_INT64: (void) nvpair_value_int64(nvp, (void *)&i64); printf(gettext("0x%llx"), (u_longlong_t)i64); break; case DATA_TYPE_UINT64: (void) nvpair_value_uint64(nvp, &i64); /* * translate vdev state values to readable * strings to aide zpool events consumers */ if (strcmp(name, FM_EREPORT_PAYLOAD_ZFS_VDEV_STATE) == 0 || strcmp(name, FM_EREPORT_PAYLOAD_ZFS_VDEV_LASTSTATE) == 0) { printf(gettext("\"%s\" (0x%llx)"), zpool_state_to_name(i64, VDEV_AUX_NONE), (u_longlong_t)i64); } else { printf(gettext("0x%llx"), (u_longlong_t)i64); } break; case DATA_TYPE_HRTIME: (void) nvpair_value_hrtime(nvp, (void *)&i64); printf(gettext("0x%llx"), (u_longlong_t)i64); break; case DATA_TYPE_STRING: (void) nvpair_value_string(nvp, &str); printf(gettext("\"%s\""), str ? str : ""); break; case DATA_TYPE_NVLIST: printf(gettext("(embedded nvlist)\n")); (void) nvpair_value_nvlist(nvp, &cnv); zpool_do_events_nvprint(cnv, depth + 8); printf(gettext("%*s(end %s)"), depth, "", name); break; case DATA_TYPE_NVLIST_ARRAY: { nvlist_t **val; uint_t i, nelem; (void) nvpair_value_nvlist_array(nvp, &val, &nelem); printf(gettext("(%d embedded nvlists)\n"), nelem); for (i = 0; i < nelem; i++) { printf(gettext("%*s%s[%d] = %s\n"), depth, "", name, i, "(embedded nvlist)"); zpool_do_events_nvprint(val[i], depth + 8); printf(gettext("%*s(end %s[%i])\n"), depth, "", name, i); } printf(gettext("%*s(end %s)\n"), depth, "", name); } break; case DATA_TYPE_INT8_ARRAY: { int8_t *val; uint_t i, nelem; (void) nvpair_value_int8_array(nvp, &val, &nelem); for (i = 0; i < nelem; i++) printf(gettext("0x%x "), val[i]); break; } case DATA_TYPE_UINT8_ARRAY: { uint8_t *val; uint_t i, nelem; (void) nvpair_value_uint8_array(nvp, &val, &nelem); for (i = 0; i < nelem; i++) printf(gettext("0x%x "), val[i]); break; } case DATA_TYPE_INT16_ARRAY: { int16_t *val; uint_t i, nelem; (void) nvpair_value_int16_array(nvp, &val, &nelem); for (i = 0; i < nelem; i++) printf(gettext("0x%x "), val[i]); break; } case DATA_TYPE_UINT16_ARRAY: { uint16_t *val; uint_t i, nelem; (void) nvpair_value_uint16_array(nvp, &val, &nelem); for (i = 0; i < nelem; i++) printf(gettext("0x%x "), val[i]); break; } case DATA_TYPE_INT32_ARRAY: { int32_t *val; uint_t i, nelem; (void) nvpair_value_int32_array(nvp, &val, &nelem); for (i = 0; i < nelem; i++) printf(gettext("0x%x "), val[i]); break; } case DATA_TYPE_UINT32_ARRAY: { uint32_t *val; uint_t i, nelem; (void) nvpair_value_uint32_array(nvp, &val, &nelem); for (i = 0; i < nelem; i++) printf(gettext("0x%x "), val[i]); break; } case DATA_TYPE_INT64_ARRAY: { int64_t *val; uint_t i, nelem; (void) nvpair_value_int64_array(nvp, &val, &nelem); for (i = 0; i < nelem; i++) printf(gettext("0x%llx "), (u_longlong_t)val[i]); break; } case DATA_TYPE_UINT64_ARRAY: { uint64_t *val; uint_t i, nelem; (void) nvpair_value_uint64_array(nvp, &val, &nelem); for (i = 0; i < nelem; i++) printf(gettext("0x%llx "), (u_longlong_t)val[i]); break; } case DATA_TYPE_STRING_ARRAY: { char **str; uint_t i, nelem; (void) nvpair_value_string_array(nvp, &str, &nelem); for (i = 0; i < nelem; i++) printf(gettext("\"%s\" "), str[i] ? str[i] : ""); break; } case DATA_TYPE_BOOLEAN_ARRAY: case DATA_TYPE_BYTE_ARRAY: case DATA_TYPE_DOUBLE: case DATA_TYPE_DONTCARE: case DATA_TYPE_UNKNOWN: printf(gettext("")); break; } printf(gettext("\n")); } } static int zpool_do_events_next(ev_opts_t *opts) { nvlist_t *nvl; int zevent_fd, ret, dropped; char *pool; zevent_fd = open(ZFS_DEV, O_RDWR); VERIFY(zevent_fd >= 0); if (!opts->scripted) (void) printf(gettext("%-30s %s\n"), "TIME", "CLASS"); while (1) { ret = zpool_events_next(g_zfs, &nvl, &dropped, (opts->follow ? ZEVENT_NONE : ZEVENT_NONBLOCK), zevent_fd); if (ret || nvl == NULL) break; if (dropped > 0) (void) printf(gettext("dropped %d events\n"), dropped); if (strlen(opts->poolname) > 0 && nvlist_lookup_string(nvl, FM_FMRI_ZFS_POOL, &pool) == 0 && strcmp(opts->poolname, pool) != 0) continue; zpool_do_events_short(nvl, opts); if (opts->verbose) { zpool_do_events_nvprint(nvl, 8); printf(gettext("\n")); } (void) fflush(stdout); nvlist_free(nvl); } VERIFY(0 == close(zevent_fd)); return (ret); } static int zpool_do_events_clear(ev_opts_t *opts) { int count, ret; ret = zpool_events_clear(g_zfs, &count); if (!ret) (void) printf(gettext("cleared %d events\n"), count); return (ret); } /* * zpool events [-vHf [pool] | -c] * * Displays events logs by ZFS. */ int zpool_do_events(int argc, char **argv) { ev_opts_t opts = { 0 }; int ret; int c; /* check options */ while ((c = getopt(argc, argv, "vHfc")) != -1) { switch (c) { case 'v': opts.verbose = 1; break; case 'H': opts.scripted = 1; break; case 'f': opts.follow = 1; break; case 'c': opts.clear = 1; break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; if (argc > 1) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } else if (argc == 1) { (void) strlcpy(opts.poolname, argv[0], sizeof (opts.poolname)); if (!zfs_name_valid(opts.poolname, ZFS_TYPE_POOL)) { (void) fprintf(stderr, gettext("invalid pool name '%s'\n"), opts.poolname); usage(B_FALSE); } } if ((argc == 1 || opts.verbose || opts.scripted || opts.follow) && opts.clear) { (void) fprintf(stderr, gettext("invalid options combined with -c\n")); usage(B_FALSE); } if (opts.clear) ret = zpool_do_events_clear(&opts); else ret = zpool_do_events_next(&opts); return (ret); } static int get_callback(zpool_handle_t *zhp, void *data) { zprop_get_cbdata_t *cbp = (zprop_get_cbdata_t *)data; char value[MAXNAMELEN]; zprop_source_t srctype; zprop_list_t *pl; for (pl = cbp->cb_proplist; pl != NULL; pl = pl->pl_next) { /* * Skip the special fake placeholder. This will also skip * over the name property when 'all' is specified. */ if (pl->pl_prop == ZPOOL_PROP_NAME && pl == cbp->cb_proplist) continue; if (pl->pl_prop == ZPROP_INVAL && (zpool_prop_feature(pl->pl_user_prop) || zpool_prop_unsupported(pl->pl_user_prop))) { srctype = ZPROP_SRC_LOCAL; if (zpool_prop_get_feature(zhp, pl->pl_user_prop, value, sizeof (value)) == 0) { zprop_print_one_property(zpool_get_name(zhp), cbp, pl->pl_user_prop, value, srctype, NULL, NULL); } } else { if (zpool_get_prop(zhp, pl->pl_prop, value, sizeof (value), &srctype, cbp->cb_literal) != 0) continue; zprop_print_one_property(zpool_get_name(zhp), cbp, zpool_prop_to_name(pl->pl_prop), value, srctype, NULL, NULL); } } return (0); } /* * zpool get [-Hp] [-o "all" | field[,...]] <"all" | property[,...]> ... * * -H Scripted mode. Don't display headers, and separate properties * by a single tab. * -o List of columns to display. Defaults to * "name,property,value,source". * -p Display values in parsable (exact) format. * * Get properties of pools in the system. Output space statistics * for each one as well as other attributes. */ int zpool_do_get(int argc, char **argv) { zprop_get_cbdata_t cb = { 0 }; zprop_list_t fake_name = { 0 }; int ret; int c, i; char *value; cb.cb_first = B_TRUE; /* * Set up default columns and sources. */ cb.cb_sources = ZPROP_SRC_ALL; cb.cb_columns[0] = GET_COL_NAME; cb.cb_columns[1] = GET_COL_PROPERTY; cb.cb_columns[2] = GET_COL_VALUE; cb.cb_columns[3] = GET_COL_SOURCE; cb.cb_type = ZFS_TYPE_POOL; /* check options */ while ((c = getopt(argc, argv, ":Hpo:")) != -1) { switch (c) { case 'p': cb.cb_literal = B_TRUE; break; case 'H': cb.cb_scripted = B_TRUE; break; case 'o': bzero(&cb.cb_columns, sizeof (cb.cb_columns)); i = 0; while (*optarg != '\0') { static char *col_subopts[] = { "name", "property", "value", "source", "all", NULL }; if (i == ZFS_GET_NCOLS) { (void) fprintf(stderr, gettext("too " "many fields given to -o " "option\n")); usage(B_FALSE); } switch (getsubopt(&optarg, col_subopts, &value)) { case 0: cb.cb_columns[i++] = GET_COL_NAME; break; case 1: cb.cb_columns[i++] = GET_COL_PROPERTY; break; case 2: cb.cb_columns[i++] = GET_COL_VALUE; break; case 3: cb.cb_columns[i++] = GET_COL_SOURCE; break; case 4: if (i > 0) { (void) fprintf(stderr, gettext("\"all\" conflicts " "with specific fields " "given to -o option\n")); usage(B_FALSE); } cb.cb_columns[0] = GET_COL_NAME; cb.cb_columns[1] = GET_COL_PROPERTY; cb.cb_columns[2] = GET_COL_VALUE; cb.cb_columns[3] = GET_COL_SOURCE; i = ZFS_GET_NCOLS; break; default: (void) fprintf(stderr, gettext("invalid column name " "'%s'\n"), value); usage(B_FALSE); } } break; case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; if (argc < 1) { (void) fprintf(stderr, gettext("missing property " "argument\n")); usage(B_FALSE); } if (zprop_get_list(g_zfs, argv[0], &cb.cb_proplist, ZFS_TYPE_POOL) != 0) usage(B_FALSE); argc--; argv++; if (cb.cb_proplist != NULL) { fake_name.pl_prop = ZPOOL_PROP_NAME; fake_name.pl_width = strlen(gettext("NAME")); fake_name.pl_next = cb.cb_proplist; cb.cb_proplist = &fake_name; } ret = for_each_pool(argc, argv, B_TRUE, &cb.cb_proplist, get_callback, &cb); if (cb.cb_proplist == &fake_name) zprop_free_list(fake_name.pl_next); else zprop_free_list(cb.cb_proplist); return (ret); } typedef struct set_cbdata { char *cb_propname; char *cb_value; boolean_t cb_any_successful; } set_cbdata_t; static int set_callback(zpool_handle_t *zhp, void *data) { int error; set_cbdata_t *cb = (set_cbdata_t *)data; error = zpool_set_prop(zhp, cb->cb_propname, cb->cb_value); if (!error) cb->cb_any_successful = B_TRUE; return (error); } int zpool_do_set(int argc, char **argv) { set_cbdata_t cb = { 0 }; int error; if (argc > 1 && argv[1][0] == '-') { (void) fprintf(stderr, gettext("invalid option '%c'\n"), argv[1][1]); usage(B_FALSE); } if (argc < 2) { (void) fprintf(stderr, gettext("missing property=value " "argument\n")); usage(B_FALSE); } if (argc < 3) { (void) fprintf(stderr, gettext("missing pool name\n")); usage(B_FALSE); } if (argc > 3) { (void) fprintf(stderr, gettext("too many pool names\n")); usage(B_FALSE); } cb.cb_propname = argv[1]; cb.cb_value = strchr(cb.cb_propname, '='); if (cb.cb_value == NULL) { (void) fprintf(stderr, gettext("missing value in " "property=value argument\n")); usage(B_FALSE); } *(cb.cb_value) = '\0'; cb.cb_value++; error = for_each_pool(argc - 2, argv + 2, B_TRUE, NULL, set_callback, &cb); return (error); } /* Add up the total number of bytes left to initialize/trim across all vdevs */ static uint64_t vdev_activity_remaining(nvlist_t *nv, zpool_wait_activity_t activity) { uint64_t bytes_remaining; nvlist_t **child; uint_t c, children; vdev_stat_t *vs; assert(activity == ZPOOL_WAIT_INITIALIZE || activity == ZPOOL_WAIT_TRIM); verify(nvlist_lookup_uint64_array(nv, ZPOOL_CONFIG_VDEV_STATS, (uint64_t **)&vs, &c) == 0); if (activity == ZPOOL_WAIT_INITIALIZE && vs->vs_initialize_state == VDEV_INITIALIZE_ACTIVE) bytes_remaining = vs->vs_initialize_bytes_est - vs->vs_initialize_bytes_done; else if (activity == ZPOOL_WAIT_TRIM && vs->vs_trim_state == VDEV_TRIM_ACTIVE) bytes_remaining = vs->vs_trim_bytes_est - vs->vs_trim_bytes_done; else bytes_remaining = 0; if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_CHILDREN, &child, &children) != 0) children = 0; for (c = 0; c < children; c++) bytes_remaining += vdev_activity_remaining(child[c], activity); return (bytes_remaining); } /* Add up the total number of bytes left to rebuild across top-level vdevs */ static uint64_t vdev_activity_top_remaining(nvlist_t *nv) { uint64_t bytes_remaining = 0; nvlist_t **child; uint_t children; int error; if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_CHILDREN, &child, &children) != 0) children = 0; for (uint_t c = 0; c < children; c++) { vdev_rebuild_stat_t *vrs; uint_t i; error = nvlist_lookup_uint64_array(child[c], ZPOOL_CONFIG_REBUILD_STATS, (uint64_t **)&vrs, &i); if (error == 0) { if (vrs->vrs_state == VDEV_REBUILD_ACTIVE) { bytes_remaining += (vrs->vrs_bytes_est - vrs->vrs_bytes_rebuilt); } } } return (bytes_remaining); } /* Whether any vdevs are 'spare' or 'replacing' vdevs */ static boolean_t vdev_any_spare_replacing(nvlist_t *nv) { nvlist_t **child; uint_t c, children; char *vdev_type; (void) nvlist_lookup_string(nv, ZPOOL_CONFIG_TYPE, &vdev_type); if (strcmp(vdev_type, VDEV_TYPE_REPLACING) == 0 || strcmp(vdev_type, VDEV_TYPE_SPARE) == 0) { return (B_TRUE); } if (nvlist_lookup_nvlist_array(nv, ZPOOL_CONFIG_CHILDREN, &child, &children) != 0) children = 0; for (c = 0; c < children; c++) { if (vdev_any_spare_replacing(child[c])) return (B_TRUE); } return (B_FALSE); } typedef struct wait_data { char *wd_poolname; boolean_t wd_scripted; boolean_t wd_exact; boolean_t wd_headers_once; boolean_t wd_should_exit; /* Which activities to wait for */ boolean_t wd_enabled[ZPOOL_WAIT_NUM_ACTIVITIES]; float wd_interval; pthread_cond_t wd_cv; pthread_mutex_t wd_mutex; } wait_data_t; /* * Print to stdout a single line, containing one column for each activity that * we are waiting for specifying how many bytes of work are left for that * activity. */ static void print_wait_status_row(wait_data_t *wd, zpool_handle_t *zhp, int row) { nvlist_t *config, *nvroot; uint_t c; int i; pool_checkpoint_stat_t *pcs = NULL; pool_scan_stat_t *pss = NULL; pool_removal_stat_t *prs = NULL; char *headers[] = {"DISCARD", "FREE", "INITIALIZE", "REPLACE", "REMOVE", "RESILVER", "SCRUB", "TRIM"}; int col_widths[ZPOOL_WAIT_NUM_ACTIVITIES]; /* Calculate the width of each column */ for (i = 0; i < ZPOOL_WAIT_NUM_ACTIVITIES; i++) { /* * Make sure we have enough space in the col for pretty-printed * numbers and for the column header, and then leave a couple * spaces between cols for readability. */ col_widths[i] = MAX(strlen(headers[i]), 6) + 2; } /* Print header if appropriate */ int term_height = terminal_height(); boolean_t reprint_header = (!wd->wd_headers_once && term_height > 0 && row % (term_height-1) == 0); if (!wd->wd_scripted && (row == 0 || reprint_header)) { for (i = 0; i < ZPOOL_WAIT_NUM_ACTIVITIES; i++) { if (wd->wd_enabled[i]) (void) printf("%*s", col_widths[i], headers[i]); } (void) printf("\n"); } /* Bytes of work remaining in each activity */ int64_t bytes_rem[ZPOOL_WAIT_NUM_ACTIVITIES] = {0}; bytes_rem[ZPOOL_WAIT_FREE] = zpool_get_prop_int(zhp, ZPOOL_PROP_FREEING, NULL); config = zpool_get_config(zhp, NULL); nvroot = fnvlist_lookup_nvlist(config, ZPOOL_CONFIG_VDEV_TREE); (void) nvlist_lookup_uint64_array(nvroot, ZPOOL_CONFIG_CHECKPOINT_STATS, (uint64_t **)&pcs, &c); if (pcs != NULL && pcs->pcs_state == CS_CHECKPOINT_DISCARDING) bytes_rem[ZPOOL_WAIT_CKPT_DISCARD] = pcs->pcs_space; (void) nvlist_lookup_uint64_array(nvroot, ZPOOL_CONFIG_REMOVAL_STATS, (uint64_t **)&prs, &c); if (prs != NULL && prs->prs_state == DSS_SCANNING) bytes_rem[ZPOOL_WAIT_REMOVE] = prs->prs_to_copy - prs->prs_copied; (void) nvlist_lookup_uint64_array(nvroot, ZPOOL_CONFIG_SCAN_STATS, (uint64_t **)&pss, &c); if (pss != NULL && pss->pss_state == DSS_SCANNING && pss->pss_pass_scrub_pause == 0) { int64_t rem = pss->pss_to_examine - pss->pss_issued; if (pss->pss_func == POOL_SCAN_SCRUB) bytes_rem[ZPOOL_WAIT_SCRUB] = rem; else bytes_rem[ZPOOL_WAIT_RESILVER] = rem; } else if (check_rebuilding(nvroot, NULL)) { bytes_rem[ZPOOL_WAIT_RESILVER] = vdev_activity_top_remaining(nvroot); } bytes_rem[ZPOOL_WAIT_INITIALIZE] = vdev_activity_remaining(nvroot, ZPOOL_WAIT_INITIALIZE); bytes_rem[ZPOOL_WAIT_TRIM] = vdev_activity_remaining(nvroot, ZPOOL_WAIT_TRIM); /* * A replace finishes after resilvering finishes, so the amount of work * left for a replace is the same as for resilvering. * * It isn't quite correct to say that if we have any 'spare' or * 'replacing' vdevs and a resilver is happening, then a replace is in * progress, like we do here. When a hot spare is used, the faulted vdev * is not removed after the hot spare is resilvered, so parent 'spare' * vdev is not removed either. So we could have a 'spare' vdev, but be * resilvering for a different reason. However, we use it as a heuristic * because we don't have access to the DTLs, which could tell us whether * or not we have really finished resilvering a hot spare. */ if (vdev_any_spare_replacing(nvroot)) bytes_rem[ZPOOL_WAIT_REPLACE] = bytes_rem[ZPOOL_WAIT_RESILVER]; if (timestamp_fmt != NODATE) print_timestamp(timestamp_fmt); for (i = 0; i < ZPOOL_WAIT_NUM_ACTIVITIES; i++) { char buf[64]; if (!wd->wd_enabled[i]) continue; if (wd->wd_exact) (void) snprintf(buf, sizeof (buf), "%" PRIi64, bytes_rem[i]); else zfs_nicenum(bytes_rem[i], buf, sizeof (buf)); if (wd->wd_scripted) (void) printf(i == 0 ? "%s" : "\t%s", buf); else (void) printf(" %*s", col_widths[i] - 1, buf); } (void) printf("\n"); (void) fflush(stdout); } static void * wait_status_thread(void *arg) { wait_data_t *wd = (wait_data_t *)arg; zpool_handle_t *zhp; if ((zhp = zpool_open(g_zfs, wd->wd_poolname)) == NULL) return (void *)(1); for (int row = 0; ; row++) { boolean_t missing; struct timespec timeout; int ret = 0; (void) clock_gettime(CLOCK_REALTIME, &timeout); if (zpool_refresh_stats(zhp, &missing) != 0 || missing || zpool_props_refresh(zhp) != 0) { zpool_close(zhp); return (void *)(uintptr_t)(missing ? 0 : 1); } print_wait_status_row(wd, zhp, row); timeout.tv_sec += floor(wd->wd_interval); long nanos = timeout.tv_nsec + (wd->wd_interval - floor(wd->wd_interval)) * NANOSEC; if (nanos >= NANOSEC) { timeout.tv_sec++; timeout.tv_nsec = nanos - NANOSEC; } else { timeout.tv_nsec = nanos; } pthread_mutex_lock(&wd->wd_mutex); if (!wd->wd_should_exit) ret = pthread_cond_timedwait(&wd->wd_cv, &wd->wd_mutex, &timeout); pthread_mutex_unlock(&wd->wd_mutex); if (ret == 0) { break; /* signaled by main thread */ } else if (ret != ETIMEDOUT) { (void) fprintf(stderr, gettext("pthread_cond_timedwait " "failed: %s\n"), strerror(ret)); zpool_close(zhp); return (void *)(uintptr_t)(1); } } zpool_close(zhp); return (void *)(0); } int zpool_do_wait(int argc, char **argv) { boolean_t verbose = B_FALSE; char c; char *value; int i; unsigned long count; pthread_t status_thr; int error = 0; zpool_handle_t *zhp; wait_data_t wd; wd.wd_scripted = B_FALSE; wd.wd_exact = B_FALSE; wd.wd_headers_once = B_FALSE; wd.wd_should_exit = B_FALSE; pthread_mutex_init(&wd.wd_mutex, NULL); pthread_cond_init(&wd.wd_cv, NULL); /* By default, wait for all types of activity. */ for (i = 0; i < ZPOOL_WAIT_NUM_ACTIVITIES; i++) wd.wd_enabled[i] = B_TRUE; while ((c = getopt(argc, argv, "HpT:t:")) != -1) { switch (c) { case 'H': wd.wd_scripted = B_TRUE; break; case 'n': wd.wd_headers_once = B_TRUE; break; case 'p': wd.wd_exact = B_TRUE; break; case 'T': get_timestamp_arg(*optarg); break; case 't': { static char *col_subopts[] = { "discard", "free", "initialize", "replace", "remove", "resilver", "scrub", "trim", NULL }; /* Reset activities array */ bzero(&wd.wd_enabled, sizeof (wd.wd_enabled)); while (*optarg != '\0') { int activity = getsubopt(&optarg, col_subopts, &value); if (activity < 0) { (void) fprintf(stderr, gettext("invalid activity '%s'\n"), value); usage(B_FALSE); } wd.wd_enabled[activity] = B_TRUE; } break; } case '?': (void) fprintf(stderr, gettext("invalid option '%c'\n"), optopt); usage(B_FALSE); } } argc -= optind; argv += optind; get_interval_count(&argc, argv, &wd.wd_interval, &count); if (count != 0) { /* This subcmd only accepts an interval, not a count */ (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } if (wd.wd_interval != 0) verbose = B_TRUE; if (argc < 1) { (void) fprintf(stderr, gettext("missing 'pool' argument\n")); usage(B_FALSE); } if (argc > 1) { (void) fprintf(stderr, gettext("too many arguments\n")); usage(B_FALSE); } wd.wd_poolname = argv[0]; if ((zhp = zpool_open(g_zfs, wd.wd_poolname)) == NULL) return (1); if (verbose) { /* * We use a separate thread for printing status updates because * the main thread will call lzc_wait(), which blocks as long * as an activity is in progress, which can be a long time. */ if (pthread_create(&status_thr, NULL, wait_status_thread, &wd) != 0) { (void) fprintf(stderr, gettext("failed to create status" "thread: %s\n"), strerror(errno)); zpool_close(zhp); return (1); } } /* * Loop over all activities that we are supposed to wait for until none * of them are in progress. Note that this means we can end up waiting * for more activities to complete than just those that were in progress * when we began waiting; if an activity we are interested in begins * while we are waiting for another activity, we will wait for both to * complete before exiting. */ for (;;) { boolean_t missing = B_FALSE; boolean_t any_waited = B_FALSE; for (i = 0; i < ZPOOL_WAIT_NUM_ACTIVITIES; i++) { boolean_t waited; if (!wd.wd_enabled[i]) continue; error = zpool_wait_status(zhp, i, &missing, &waited); if (error != 0 || missing) break; any_waited = (any_waited || waited); } if (error != 0 || missing || !any_waited) break; } zpool_close(zhp); if (verbose) { uintptr_t status; pthread_mutex_lock(&wd.wd_mutex); wd.wd_should_exit = B_TRUE; pthread_cond_signal(&wd.wd_cv); pthread_mutex_unlock(&wd.wd_mutex); (void) pthread_join(status_thr, (void *)&status); if (status != 0) error = status; } pthread_mutex_destroy(&wd.wd_mutex); pthread_cond_destroy(&wd.wd_cv); return (error); } static int find_command_idx(char *command, int *idx) { int i; for (i = 0; i < NCOMMAND; i++) { if (command_table[i].name == NULL) continue; if (strcmp(command, command_table[i].name) == 0) { *idx = i; return (0); } } return (1); } /* * Display version message */ static int zpool_do_version(int argc, char **argv) { if (zfs_version_print() == -1) return (1); return (0); } int main(int argc, char **argv) { int ret = 0; int i = 0; char *cmdname; char **newargv; (void) setlocale(LC_ALL, ""); (void) textdomain(TEXT_DOMAIN); srand(time(NULL)); opterr = 0; /* * Make sure the user has specified some command. */ if (argc < 2) { (void) fprintf(stderr, gettext("missing command\n")); usage(B_FALSE); } cmdname = argv[1]; /* * Special case '-?' */ if ((strcmp(cmdname, "-?") == 0) || strcmp(cmdname, "--help") == 0) usage(B_TRUE); /* * Special case '-V|--version' */ if ((strcmp(cmdname, "-V") == 0) || (strcmp(cmdname, "--version") == 0)) return (zpool_do_version(argc, argv)); if ((g_zfs = libzfs_init()) == NULL) { (void) fprintf(stderr, "%s\n", libzfs_error_init(errno)); return (1); } libzfs_print_on_error(g_zfs, B_TRUE); zfs_save_arguments(argc, argv, history_str, sizeof (history_str)); /* * Many commands modify input strings for string parsing reasons. * We create a copy to protect the original argv. */ newargv = malloc((argc + 1) * sizeof (newargv[0])); for (i = 0; i < argc; i++) newargv[i] = strdup(argv[i]); newargv[argc] = NULL; /* * Run the appropriate command. */ if (find_command_idx(cmdname, &i) == 0) { current_command = &command_table[i]; ret = command_table[i].func(argc - 1, newargv + 1); } else if (strchr(cmdname, '=')) { verify(find_command_idx("set", &i) == 0); current_command = &command_table[i]; ret = command_table[i].func(argc, newargv); } else if (strcmp(cmdname, "freeze") == 0 && argc == 3) { /* * 'freeze' is a vile debugging abomination, so we treat * it as such. */ zfs_cmd_t zc = {"\0"}; (void) strlcpy(zc.zc_name, argv[2], sizeof (zc.zc_name)); ret = zfs_ioctl(g_zfs, ZFS_IOC_POOL_FREEZE, &zc); if (ret != 0) { (void) fprintf(stderr, gettext("failed to freeze pool: %d\n"), errno); ret = 1; } log_history = 0; } else { (void) fprintf(stderr, gettext("unrecognized " "command '%s'\n"), cmdname); usage(B_FALSE); ret = 1; } for (i = 0; i < argc; i++) free(newargv[i]); free(newargv); if (ret == 0 && log_history) (void) zpool_log_history(g_zfs, history_str); libzfs_fini(g_zfs); /* * The 'ZFS_ABORT' environment variable causes us to dump core on exit * for the purposes of running ::findleaks. */ if (getenv("ZFS_ABORT") != NULL) { (void) printf("dumping core by request\n"); abort(); } return (ret); }