1eda14cbcSMatt Macy /* 2eda14cbcSMatt Macy * CDDL HEADER START 3eda14cbcSMatt Macy * 4eda14cbcSMatt Macy * The contents of this file are subject to the terms of the 5eda14cbcSMatt Macy * Common Development and Distribution License (the "License"). 6eda14cbcSMatt Macy * You may not use this file except in compliance with the License. 7eda14cbcSMatt Macy * 8eda14cbcSMatt Macy * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9*271171e0SMartin Matuska * or https://opensource.org/licenses/CDDL-1.0. 10eda14cbcSMatt Macy * See the License for the specific language governing permissions 11eda14cbcSMatt Macy * and limitations under the License. 12eda14cbcSMatt Macy * 13eda14cbcSMatt Macy * When distributing Covered Code, include this CDDL HEADER in each 14eda14cbcSMatt Macy * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15eda14cbcSMatt Macy * If applicable, add the following below this CDDL HEADER, with the 16eda14cbcSMatt Macy * fields enclosed by brackets "[]" replaced with your own identifying 17eda14cbcSMatt Macy * information: Portions Copyright [yyyy] [name of copyright owner] 18eda14cbcSMatt Macy * 19eda14cbcSMatt Macy * CDDL HEADER END 20eda14cbcSMatt Macy */ 21eda14cbcSMatt Macy 22eda14cbcSMatt Macy /* 23eda14cbcSMatt Macy * Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved. 24ba27dd8bSMartin Matuska * Copyright (c) 2011, 2021 by Delphix. All rights reserved. 25eda14cbcSMatt Macy * Copyright 2017 Nexenta Systems, Inc. 26eda14cbcSMatt Macy * Copyright (c) 2014 Integros [integros.com] 27eda14cbcSMatt Macy * Copyright 2016 Toomas Soome <tsoome@me.com> 28eda14cbcSMatt Macy * Copyright 2017 Joyent, Inc. 29eda14cbcSMatt Macy * Copyright (c) 2017, Intel Corporation. 30eda14cbcSMatt Macy * Copyright (c) 2019, Datto Inc. All rights reserved. 31681ce946SMartin Matuska * Copyright (c) 2021, Klara Inc. 3216038816SMartin Matuska * Copyright [2021] Hewlett Packard Enterprise Development LP 33eda14cbcSMatt Macy */ 34eda14cbcSMatt Macy 35eda14cbcSMatt Macy #include <sys/zfs_context.h> 36eda14cbcSMatt Macy #include <sys/fm/fs/zfs.h> 37eda14cbcSMatt Macy #include <sys/spa.h> 38eda14cbcSMatt Macy #include <sys/spa_impl.h> 39eda14cbcSMatt Macy #include <sys/bpobj.h> 40eda14cbcSMatt Macy #include <sys/dmu.h> 41eda14cbcSMatt Macy #include <sys/dmu_tx.h> 42eda14cbcSMatt Macy #include <sys/dsl_dir.h> 43eda14cbcSMatt Macy #include <sys/vdev_impl.h> 44eda14cbcSMatt Macy #include <sys/vdev_rebuild.h> 457877fdebSMatt Macy #include <sys/vdev_draid.h> 46eda14cbcSMatt Macy #include <sys/uberblock_impl.h> 47eda14cbcSMatt Macy #include <sys/metaslab.h> 48eda14cbcSMatt Macy #include <sys/metaslab_impl.h> 49eda14cbcSMatt Macy #include <sys/space_map.h> 50eda14cbcSMatt Macy #include <sys/space_reftree.h> 51eda14cbcSMatt Macy #include <sys/zio.h> 52eda14cbcSMatt Macy #include <sys/zap.h> 53eda14cbcSMatt Macy #include <sys/fs/zfs.h> 54eda14cbcSMatt Macy #include <sys/arc.h> 55eda14cbcSMatt Macy #include <sys/zil.h> 56eda14cbcSMatt Macy #include <sys/dsl_scan.h> 577877fdebSMatt Macy #include <sys/vdev_raidz.h> 58eda14cbcSMatt Macy #include <sys/abd.h> 59eda14cbcSMatt Macy #include <sys/vdev_initialize.h> 60eda14cbcSMatt Macy #include <sys/vdev_trim.h> 61eda14cbcSMatt Macy #include <sys/zvol.h> 62eda14cbcSMatt Macy #include <sys/zfs_ratelimit.h> 63681ce946SMartin Matuska #include "zfs_prop.h" 64eda14cbcSMatt Macy 65184c1b94SMartin Matuska /* 66184c1b94SMartin Matuska * One metaslab from each (normal-class) vdev is used by the ZIL. These are 67184c1b94SMartin Matuska * called "embedded slog metaslabs", are referenced by vdev_log_mg, and are 68184c1b94SMartin Matuska * part of the spa_embedded_log_class. The metaslab with the most free space 69184c1b94SMartin Matuska * in each vdev is selected for this purpose when the pool is opened (or a 70184c1b94SMartin Matuska * vdev is added). See vdev_metaslab_init(). 71184c1b94SMartin Matuska * 72184c1b94SMartin Matuska * Log blocks can be allocated from the following locations. Each one is tried 73184c1b94SMartin Matuska * in order until the allocation succeeds: 74184c1b94SMartin Matuska * 1. dedicated log vdevs, aka "slog" (spa_log_class) 75184c1b94SMartin Matuska * 2. embedded slog metaslabs (spa_embedded_log_class) 76184c1b94SMartin Matuska * 3. other metaslabs in normal vdevs (spa_normal_class) 77184c1b94SMartin Matuska * 78184c1b94SMartin Matuska * zfs_embedded_slog_min_ms disables the embedded slog if there are fewer 79184c1b94SMartin Matuska * than this number of metaslabs in the vdev. This ensures that we don't set 80184c1b94SMartin Matuska * aside an unreasonable amount of space for the ZIL. If set to less than 81184c1b94SMartin Matuska * 1 << (spa_slop_shift + 1), on small pools the usable space may be reduced 82184c1b94SMartin Matuska * (by more than 1<<spa_slop_shift) due to the embedded slog metaslab. 83184c1b94SMartin Matuska */ 84e92ffd9bSMartin Matuska static int zfs_embedded_slog_min_ms = 64; 85184c1b94SMartin Matuska 86eda14cbcSMatt Macy /* default target for number of metaslabs per top-level vdev */ 87e92ffd9bSMartin Matuska static int zfs_vdev_default_ms_count = 200; 88eda14cbcSMatt Macy 89eda14cbcSMatt Macy /* minimum number of metaslabs per top-level vdev */ 90e92ffd9bSMartin Matuska static int zfs_vdev_min_ms_count = 16; 91eda14cbcSMatt Macy 92eda14cbcSMatt Macy /* practical upper limit of total metaslabs per top-level vdev */ 93e92ffd9bSMartin Matuska static int zfs_vdev_ms_count_limit = 1ULL << 17; 94eda14cbcSMatt Macy 95eda14cbcSMatt Macy /* lower limit for metaslab size (512M) */ 96e92ffd9bSMartin Matuska static int zfs_vdev_default_ms_shift = 29; 97eda14cbcSMatt Macy 98eda14cbcSMatt Macy /* upper limit for metaslab size (16G) */ 99e92ffd9bSMartin Matuska static const int zfs_vdev_max_ms_shift = 34; 100eda14cbcSMatt Macy 101eda14cbcSMatt Macy int vdev_validate_skip = B_FALSE; 102eda14cbcSMatt Macy 103eda14cbcSMatt Macy /* 104eda14cbcSMatt Macy * Since the DTL space map of a vdev is not expected to have a lot of 105eda14cbcSMatt Macy * entries, we default its block size to 4K. 106eda14cbcSMatt Macy */ 107eda14cbcSMatt Macy int zfs_vdev_dtl_sm_blksz = (1 << 12); 108eda14cbcSMatt Macy 109eda14cbcSMatt Macy /* 110eda14cbcSMatt Macy * Rate limit slow IO (delay) events to this many per second. 111eda14cbcSMatt Macy */ 112e92ffd9bSMartin Matuska static unsigned int zfs_slow_io_events_per_second = 20; 113eda14cbcSMatt Macy 114eda14cbcSMatt Macy /* 115eda14cbcSMatt Macy * Rate limit checksum events after this many checksum errors per second. 116eda14cbcSMatt Macy */ 117e92ffd9bSMartin Matuska static unsigned int zfs_checksum_events_per_second = 20; 118eda14cbcSMatt Macy 119eda14cbcSMatt Macy /* 120eda14cbcSMatt Macy * Ignore errors during scrub/resilver. Allows to work around resilver 121eda14cbcSMatt Macy * upon import when there are pool errors. 122eda14cbcSMatt Macy */ 123e92ffd9bSMartin Matuska static int zfs_scan_ignore_errors = 0; 124eda14cbcSMatt Macy 125eda14cbcSMatt Macy /* 126eda14cbcSMatt Macy * vdev-wide space maps that have lots of entries written to them at 127eda14cbcSMatt Macy * the end of each transaction can benefit from a higher I/O bandwidth 128eda14cbcSMatt Macy * (e.g. vdev_obsolete_sm), thus we default their block size to 128K. 129eda14cbcSMatt Macy */ 130eda14cbcSMatt Macy int zfs_vdev_standard_sm_blksz = (1 << 17); 131eda14cbcSMatt Macy 132eda14cbcSMatt Macy /* 133eda14cbcSMatt Macy * Tunable parameter for debugging or performance analysis. Setting this 134eda14cbcSMatt Macy * will cause pool corruption on power loss if a volatile out-of-order 135eda14cbcSMatt Macy * write cache is enabled. 136eda14cbcSMatt Macy */ 137eda14cbcSMatt Macy int zfs_nocacheflush = 0; 138eda14cbcSMatt Macy 139eda14cbcSMatt Macy uint64_t zfs_vdev_max_auto_ashift = ASHIFT_MAX; 140eda14cbcSMatt Macy uint64_t zfs_vdev_min_auto_ashift = ASHIFT_MIN; 141eda14cbcSMatt Macy 142eda14cbcSMatt Macy void 143eda14cbcSMatt Macy vdev_dbgmsg(vdev_t *vd, const char *fmt, ...) 144eda14cbcSMatt Macy { 145eda14cbcSMatt Macy va_list adx; 146eda14cbcSMatt Macy char buf[256]; 147eda14cbcSMatt Macy 148eda14cbcSMatt Macy va_start(adx, fmt); 149eda14cbcSMatt Macy (void) vsnprintf(buf, sizeof (buf), fmt, adx); 150eda14cbcSMatt Macy va_end(adx); 151eda14cbcSMatt Macy 152eda14cbcSMatt Macy if (vd->vdev_path != NULL) { 153eda14cbcSMatt Macy zfs_dbgmsg("%s vdev '%s': %s", vd->vdev_ops->vdev_op_type, 154eda14cbcSMatt Macy vd->vdev_path, buf); 155eda14cbcSMatt Macy } else { 156eda14cbcSMatt Macy zfs_dbgmsg("%s-%llu vdev (guid %llu): %s", 157eda14cbcSMatt Macy vd->vdev_ops->vdev_op_type, 158eda14cbcSMatt Macy (u_longlong_t)vd->vdev_id, 159eda14cbcSMatt Macy (u_longlong_t)vd->vdev_guid, buf); 160eda14cbcSMatt Macy } 161eda14cbcSMatt Macy } 162eda14cbcSMatt Macy 163eda14cbcSMatt Macy void 164eda14cbcSMatt Macy vdev_dbgmsg_print_tree(vdev_t *vd, int indent) 165eda14cbcSMatt Macy { 166eda14cbcSMatt Macy char state[20]; 167eda14cbcSMatt Macy 168eda14cbcSMatt Macy if (vd->vdev_ishole || vd->vdev_ops == &vdev_missing_ops) { 16933b8c039SMartin Matuska zfs_dbgmsg("%*svdev %llu: %s", indent, "", 17033b8c039SMartin Matuska (u_longlong_t)vd->vdev_id, 171eda14cbcSMatt Macy vd->vdev_ops->vdev_op_type); 172eda14cbcSMatt Macy return; 173eda14cbcSMatt Macy } 174eda14cbcSMatt Macy 175eda14cbcSMatt Macy switch (vd->vdev_state) { 176eda14cbcSMatt Macy case VDEV_STATE_UNKNOWN: 177eda14cbcSMatt Macy (void) snprintf(state, sizeof (state), "unknown"); 178eda14cbcSMatt Macy break; 179eda14cbcSMatt Macy case VDEV_STATE_CLOSED: 180eda14cbcSMatt Macy (void) snprintf(state, sizeof (state), "closed"); 181eda14cbcSMatt Macy break; 182eda14cbcSMatt Macy case VDEV_STATE_OFFLINE: 183eda14cbcSMatt Macy (void) snprintf(state, sizeof (state), "offline"); 184eda14cbcSMatt Macy break; 185eda14cbcSMatt Macy case VDEV_STATE_REMOVED: 186eda14cbcSMatt Macy (void) snprintf(state, sizeof (state), "removed"); 187eda14cbcSMatt Macy break; 188eda14cbcSMatt Macy case VDEV_STATE_CANT_OPEN: 189eda14cbcSMatt Macy (void) snprintf(state, sizeof (state), "can't open"); 190eda14cbcSMatt Macy break; 191eda14cbcSMatt Macy case VDEV_STATE_FAULTED: 192eda14cbcSMatt Macy (void) snprintf(state, sizeof (state), "faulted"); 193eda14cbcSMatt Macy break; 194eda14cbcSMatt Macy case VDEV_STATE_DEGRADED: 195eda14cbcSMatt Macy (void) snprintf(state, sizeof (state), "degraded"); 196eda14cbcSMatt Macy break; 197eda14cbcSMatt Macy case VDEV_STATE_HEALTHY: 198eda14cbcSMatt Macy (void) snprintf(state, sizeof (state), "healthy"); 199eda14cbcSMatt Macy break; 200eda14cbcSMatt Macy default: 201eda14cbcSMatt Macy (void) snprintf(state, sizeof (state), "<state %u>", 202eda14cbcSMatt Macy (uint_t)vd->vdev_state); 203eda14cbcSMatt Macy } 204eda14cbcSMatt Macy 205eda14cbcSMatt Macy zfs_dbgmsg("%*svdev %u: %s%s, guid: %llu, path: %s, %s", indent, 206eda14cbcSMatt Macy "", (int)vd->vdev_id, vd->vdev_ops->vdev_op_type, 207eda14cbcSMatt Macy vd->vdev_islog ? " (log)" : "", 208eda14cbcSMatt Macy (u_longlong_t)vd->vdev_guid, 209eda14cbcSMatt Macy vd->vdev_path ? vd->vdev_path : "N/A", state); 210eda14cbcSMatt Macy 211eda14cbcSMatt Macy for (uint64_t i = 0; i < vd->vdev_children; i++) 212eda14cbcSMatt Macy vdev_dbgmsg_print_tree(vd->vdev_child[i], indent + 2); 213eda14cbcSMatt Macy } 214eda14cbcSMatt Macy 215eda14cbcSMatt Macy /* 216eda14cbcSMatt Macy * Virtual device management. 217eda14cbcSMatt Macy */ 218eda14cbcSMatt Macy 219e92ffd9bSMartin Matuska static const vdev_ops_t *const vdev_ops_table[] = { 220eda14cbcSMatt Macy &vdev_root_ops, 221eda14cbcSMatt Macy &vdev_raidz_ops, 2227877fdebSMatt Macy &vdev_draid_ops, 2237877fdebSMatt Macy &vdev_draid_spare_ops, 224eda14cbcSMatt Macy &vdev_mirror_ops, 225eda14cbcSMatt Macy &vdev_replacing_ops, 226eda14cbcSMatt Macy &vdev_spare_ops, 227eda14cbcSMatt Macy &vdev_disk_ops, 228eda14cbcSMatt Macy &vdev_file_ops, 229eda14cbcSMatt Macy &vdev_missing_ops, 230eda14cbcSMatt Macy &vdev_hole_ops, 231eda14cbcSMatt Macy &vdev_indirect_ops, 232eda14cbcSMatt Macy NULL 233eda14cbcSMatt Macy }; 234eda14cbcSMatt Macy 235eda14cbcSMatt Macy /* 236eda14cbcSMatt Macy * Given a vdev type, return the appropriate ops vector. 237eda14cbcSMatt Macy */ 238eda14cbcSMatt Macy static vdev_ops_t * 239eda14cbcSMatt Macy vdev_getops(const char *type) 240eda14cbcSMatt Macy { 241e92ffd9bSMartin Matuska const vdev_ops_t *ops, *const *opspp; 242eda14cbcSMatt Macy 243eda14cbcSMatt Macy for (opspp = vdev_ops_table; (ops = *opspp) != NULL; opspp++) 244eda14cbcSMatt Macy if (strcmp(ops->vdev_op_type, type) == 0) 245eda14cbcSMatt Macy break; 246eda14cbcSMatt Macy 247eda14cbcSMatt Macy return (ops); 248eda14cbcSMatt Macy } 249eda14cbcSMatt Macy 250184c1b94SMartin Matuska /* 251184c1b94SMartin Matuska * Given a vdev and a metaslab class, find which metaslab group we're 252184c1b94SMartin Matuska * interested in. All vdevs may belong to two different metaslab classes. 253184c1b94SMartin Matuska * Dedicated slog devices use only the primary metaslab group, rather than a 254184c1b94SMartin Matuska * separate log group. For embedded slogs, the vdev_log_mg will be non-NULL. 255184c1b94SMartin Matuska */ 256184c1b94SMartin Matuska metaslab_group_t * 257184c1b94SMartin Matuska vdev_get_mg(vdev_t *vd, metaslab_class_t *mc) 258184c1b94SMartin Matuska { 259184c1b94SMartin Matuska if (mc == spa_embedded_log_class(vd->vdev_spa) && 260184c1b94SMartin Matuska vd->vdev_log_mg != NULL) 261184c1b94SMartin Matuska return (vd->vdev_log_mg); 262184c1b94SMartin Matuska else 263184c1b94SMartin Matuska return (vd->vdev_mg); 264184c1b94SMartin Matuska } 265184c1b94SMartin Matuska 266eda14cbcSMatt Macy void 2677877fdebSMatt Macy vdev_default_xlate(vdev_t *vd, const range_seg64_t *logical_rs, 2687877fdebSMatt Macy range_seg64_t *physical_rs, range_seg64_t *remain_rs) 269eda14cbcSMatt Macy { 270e92ffd9bSMartin Matuska (void) vd, (void) remain_rs; 271e92ffd9bSMartin Matuska 2727877fdebSMatt Macy physical_rs->rs_start = logical_rs->rs_start; 2737877fdebSMatt Macy physical_rs->rs_end = logical_rs->rs_end; 274eda14cbcSMatt Macy } 275eda14cbcSMatt Macy 276eda14cbcSMatt Macy /* 277eda14cbcSMatt Macy * Derive the enumerated allocation bias from string input. 2787877fdebSMatt Macy * String origin is either the per-vdev zap or zpool(8). 279eda14cbcSMatt Macy */ 280eda14cbcSMatt Macy static vdev_alloc_bias_t 281eda14cbcSMatt Macy vdev_derive_alloc_bias(const char *bias) 282eda14cbcSMatt Macy { 283eda14cbcSMatt Macy vdev_alloc_bias_t alloc_bias = VDEV_BIAS_NONE; 284eda14cbcSMatt Macy 285eda14cbcSMatt Macy if (strcmp(bias, VDEV_ALLOC_BIAS_LOG) == 0) 286eda14cbcSMatt Macy alloc_bias = VDEV_BIAS_LOG; 287eda14cbcSMatt Macy else if (strcmp(bias, VDEV_ALLOC_BIAS_SPECIAL) == 0) 288eda14cbcSMatt Macy alloc_bias = VDEV_BIAS_SPECIAL; 289eda14cbcSMatt Macy else if (strcmp(bias, VDEV_ALLOC_BIAS_DEDUP) == 0) 290eda14cbcSMatt Macy alloc_bias = VDEV_BIAS_DEDUP; 291eda14cbcSMatt Macy 292eda14cbcSMatt Macy return (alloc_bias); 293eda14cbcSMatt Macy } 294eda14cbcSMatt Macy 295eda14cbcSMatt Macy /* 296eda14cbcSMatt Macy * Default asize function: return the MAX of psize with the asize of 297eda14cbcSMatt Macy * all children. This is what's used by anything other than RAID-Z. 298eda14cbcSMatt Macy */ 299eda14cbcSMatt Macy uint64_t 300eda14cbcSMatt Macy vdev_default_asize(vdev_t *vd, uint64_t psize) 301eda14cbcSMatt Macy { 302eda14cbcSMatt Macy uint64_t asize = P2ROUNDUP(psize, 1ULL << vd->vdev_top->vdev_ashift); 303eda14cbcSMatt Macy uint64_t csize; 304eda14cbcSMatt Macy 305eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 306eda14cbcSMatt Macy csize = vdev_psize_to_asize(vd->vdev_child[c], psize); 307eda14cbcSMatt Macy asize = MAX(asize, csize); 308eda14cbcSMatt Macy } 309eda14cbcSMatt Macy 310eda14cbcSMatt Macy return (asize); 311eda14cbcSMatt Macy } 312eda14cbcSMatt Macy 3137877fdebSMatt Macy uint64_t 3147877fdebSMatt Macy vdev_default_min_asize(vdev_t *vd) 3157877fdebSMatt Macy { 3167877fdebSMatt Macy return (vd->vdev_min_asize); 3177877fdebSMatt Macy } 3187877fdebSMatt Macy 319eda14cbcSMatt Macy /* 320eda14cbcSMatt Macy * Get the minimum allocatable size. We define the allocatable size as 321eda14cbcSMatt Macy * the vdev's asize rounded to the nearest metaslab. This allows us to 322eda14cbcSMatt Macy * replace or attach devices which don't have the same physical size but 323eda14cbcSMatt Macy * can still satisfy the same number of allocations. 324eda14cbcSMatt Macy */ 325eda14cbcSMatt Macy uint64_t 326eda14cbcSMatt Macy vdev_get_min_asize(vdev_t *vd) 327eda14cbcSMatt Macy { 328eda14cbcSMatt Macy vdev_t *pvd = vd->vdev_parent; 329eda14cbcSMatt Macy 330eda14cbcSMatt Macy /* 331eda14cbcSMatt Macy * If our parent is NULL (inactive spare or cache) or is the root, 332eda14cbcSMatt Macy * just return our own asize. 333eda14cbcSMatt Macy */ 334eda14cbcSMatt Macy if (pvd == NULL) 335eda14cbcSMatt Macy return (vd->vdev_asize); 336eda14cbcSMatt Macy 337eda14cbcSMatt Macy /* 338eda14cbcSMatt Macy * The top-level vdev just returns the allocatable size rounded 339eda14cbcSMatt Macy * to the nearest metaslab. 340eda14cbcSMatt Macy */ 341eda14cbcSMatt Macy if (vd == vd->vdev_top) 342eda14cbcSMatt Macy return (P2ALIGN(vd->vdev_asize, 1ULL << vd->vdev_ms_shift)); 343eda14cbcSMatt Macy 3447877fdebSMatt Macy return (pvd->vdev_ops->vdev_op_min_asize(pvd)); 345eda14cbcSMatt Macy } 346eda14cbcSMatt Macy 347eda14cbcSMatt Macy void 348eda14cbcSMatt Macy vdev_set_min_asize(vdev_t *vd) 349eda14cbcSMatt Macy { 350eda14cbcSMatt Macy vd->vdev_min_asize = vdev_get_min_asize(vd); 351eda14cbcSMatt Macy 352eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 353eda14cbcSMatt Macy vdev_set_min_asize(vd->vdev_child[c]); 354eda14cbcSMatt Macy } 355eda14cbcSMatt Macy 3567877fdebSMatt Macy /* 3577877fdebSMatt Macy * Get the minimal allocation size for the top-level vdev. 3587877fdebSMatt Macy */ 3597877fdebSMatt Macy uint64_t 3607877fdebSMatt Macy vdev_get_min_alloc(vdev_t *vd) 3617877fdebSMatt Macy { 3627877fdebSMatt Macy uint64_t min_alloc = 1ULL << vd->vdev_ashift; 3637877fdebSMatt Macy 3647877fdebSMatt Macy if (vd->vdev_ops->vdev_op_min_alloc != NULL) 3657877fdebSMatt Macy min_alloc = vd->vdev_ops->vdev_op_min_alloc(vd); 3667877fdebSMatt Macy 3677877fdebSMatt Macy return (min_alloc); 3687877fdebSMatt Macy } 3697877fdebSMatt Macy 3707877fdebSMatt Macy /* 3717877fdebSMatt Macy * Get the parity level for a top-level vdev. 3727877fdebSMatt Macy */ 3737877fdebSMatt Macy uint64_t 3747877fdebSMatt Macy vdev_get_nparity(vdev_t *vd) 3757877fdebSMatt Macy { 3767877fdebSMatt Macy uint64_t nparity = 0; 3777877fdebSMatt Macy 3787877fdebSMatt Macy if (vd->vdev_ops->vdev_op_nparity != NULL) 3797877fdebSMatt Macy nparity = vd->vdev_ops->vdev_op_nparity(vd); 3807877fdebSMatt Macy 3817877fdebSMatt Macy return (nparity); 3827877fdebSMatt Macy } 3837877fdebSMatt Macy 3847877fdebSMatt Macy /* 3857877fdebSMatt Macy * Get the number of data disks for a top-level vdev. 3867877fdebSMatt Macy */ 3877877fdebSMatt Macy uint64_t 3887877fdebSMatt Macy vdev_get_ndisks(vdev_t *vd) 3897877fdebSMatt Macy { 3907877fdebSMatt Macy uint64_t ndisks = 1; 3917877fdebSMatt Macy 3927877fdebSMatt Macy if (vd->vdev_ops->vdev_op_ndisks != NULL) 3937877fdebSMatt Macy ndisks = vd->vdev_ops->vdev_op_ndisks(vd); 3947877fdebSMatt Macy 3957877fdebSMatt Macy return (ndisks); 3967877fdebSMatt Macy } 3977877fdebSMatt Macy 398eda14cbcSMatt Macy vdev_t * 399eda14cbcSMatt Macy vdev_lookup_top(spa_t *spa, uint64_t vdev) 400eda14cbcSMatt Macy { 401eda14cbcSMatt Macy vdev_t *rvd = spa->spa_root_vdev; 402eda14cbcSMatt Macy 403eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_ALL, RW_READER) != 0); 404eda14cbcSMatt Macy 405eda14cbcSMatt Macy if (vdev < rvd->vdev_children) { 406eda14cbcSMatt Macy ASSERT(rvd->vdev_child[vdev] != NULL); 407eda14cbcSMatt Macy return (rvd->vdev_child[vdev]); 408eda14cbcSMatt Macy } 409eda14cbcSMatt Macy 410eda14cbcSMatt Macy return (NULL); 411eda14cbcSMatt Macy } 412eda14cbcSMatt Macy 413eda14cbcSMatt Macy vdev_t * 414eda14cbcSMatt Macy vdev_lookup_by_guid(vdev_t *vd, uint64_t guid) 415eda14cbcSMatt Macy { 416eda14cbcSMatt Macy vdev_t *mvd; 417eda14cbcSMatt Macy 418eda14cbcSMatt Macy if (vd->vdev_guid == guid) 419eda14cbcSMatt Macy return (vd); 420eda14cbcSMatt Macy 421eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 422eda14cbcSMatt Macy if ((mvd = vdev_lookup_by_guid(vd->vdev_child[c], guid)) != 423eda14cbcSMatt Macy NULL) 424eda14cbcSMatt Macy return (mvd); 425eda14cbcSMatt Macy 426eda14cbcSMatt Macy return (NULL); 427eda14cbcSMatt Macy } 428eda14cbcSMatt Macy 429eda14cbcSMatt Macy static int 430eda14cbcSMatt Macy vdev_count_leaves_impl(vdev_t *vd) 431eda14cbcSMatt Macy { 432eda14cbcSMatt Macy int n = 0; 433eda14cbcSMatt Macy 434eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf) 435eda14cbcSMatt Macy return (1); 436eda14cbcSMatt Macy 437eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 438eda14cbcSMatt Macy n += vdev_count_leaves_impl(vd->vdev_child[c]); 439eda14cbcSMatt Macy 440eda14cbcSMatt Macy return (n); 441eda14cbcSMatt Macy } 442eda14cbcSMatt Macy 443eda14cbcSMatt Macy int 444eda14cbcSMatt Macy vdev_count_leaves(spa_t *spa) 445eda14cbcSMatt Macy { 446eda14cbcSMatt Macy int rc; 447eda14cbcSMatt Macy 448eda14cbcSMatt Macy spa_config_enter(spa, SCL_VDEV, FTAG, RW_READER); 449eda14cbcSMatt Macy rc = vdev_count_leaves_impl(spa->spa_root_vdev); 450eda14cbcSMatt Macy spa_config_exit(spa, SCL_VDEV, FTAG); 451eda14cbcSMatt Macy 452eda14cbcSMatt Macy return (rc); 453eda14cbcSMatt Macy } 454eda14cbcSMatt Macy 455eda14cbcSMatt Macy void 456eda14cbcSMatt Macy vdev_add_child(vdev_t *pvd, vdev_t *cvd) 457eda14cbcSMatt Macy { 458eda14cbcSMatt Macy size_t oldsize, newsize; 459eda14cbcSMatt Macy uint64_t id = cvd->vdev_id; 460eda14cbcSMatt Macy vdev_t **newchild; 461eda14cbcSMatt Macy 462eda14cbcSMatt Macy ASSERT(spa_config_held(cvd->vdev_spa, SCL_ALL, RW_WRITER) == SCL_ALL); 463eda14cbcSMatt Macy ASSERT(cvd->vdev_parent == NULL); 464eda14cbcSMatt Macy 465eda14cbcSMatt Macy cvd->vdev_parent = pvd; 466eda14cbcSMatt Macy 467eda14cbcSMatt Macy if (pvd == NULL) 468eda14cbcSMatt Macy return; 469eda14cbcSMatt Macy 470eda14cbcSMatt Macy ASSERT(id >= pvd->vdev_children || pvd->vdev_child[id] == NULL); 471eda14cbcSMatt Macy 472eda14cbcSMatt Macy oldsize = pvd->vdev_children * sizeof (vdev_t *); 473eda14cbcSMatt Macy pvd->vdev_children = MAX(pvd->vdev_children, id + 1); 474eda14cbcSMatt Macy newsize = pvd->vdev_children * sizeof (vdev_t *); 475eda14cbcSMatt Macy 476eda14cbcSMatt Macy newchild = kmem_alloc(newsize, KM_SLEEP); 477eda14cbcSMatt Macy if (pvd->vdev_child != NULL) { 478da5137abSMartin Matuska memcpy(newchild, pvd->vdev_child, oldsize); 479eda14cbcSMatt Macy kmem_free(pvd->vdev_child, oldsize); 480eda14cbcSMatt Macy } 481eda14cbcSMatt Macy 482eda14cbcSMatt Macy pvd->vdev_child = newchild; 483eda14cbcSMatt Macy pvd->vdev_child[id] = cvd; 484eda14cbcSMatt Macy 485eda14cbcSMatt Macy cvd->vdev_top = (pvd->vdev_top ? pvd->vdev_top: cvd); 486eda14cbcSMatt Macy ASSERT(cvd->vdev_top->vdev_parent->vdev_parent == NULL); 487eda14cbcSMatt Macy 488eda14cbcSMatt Macy /* 489eda14cbcSMatt Macy * Walk up all ancestors to update guid sum. 490eda14cbcSMatt Macy */ 491eda14cbcSMatt Macy for (; pvd != NULL; pvd = pvd->vdev_parent) 492eda14cbcSMatt Macy pvd->vdev_guid_sum += cvd->vdev_guid_sum; 493eda14cbcSMatt Macy 494eda14cbcSMatt Macy if (cvd->vdev_ops->vdev_op_leaf) { 495eda14cbcSMatt Macy list_insert_head(&cvd->vdev_spa->spa_leaf_list, cvd); 496eda14cbcSMatt Macy cvd->vdev_spa->spa_leaf_list_gen++; 497eda14cbcSMatt Macy } 498eda14cbcSMatt Macy } 499eda14cbcSMatt Macy 500eda14cbcSMatt Macy void 501eda14cbcSMatt Macy vdev_remove_child(vdev_t *pvd, vdev_t *cvd) 502eda14cbcSMatt Macy { 503eda14cbcSMatt Macy int c; 504eda14cbcSMatt Macy uint_t id = cvd->vdev_id; 505eda14cbcSMatt Macy 506eda14cbcSMatt Macy ASSERT(cvd->vdev_parent == pvd); 507eda14cbcSMatt Macy 508eda14cbcSMatt Macy if (pvd == NULL) 509eda14cbcSMatt Macy return; 510eda14cbcSMatt Macy 511eda14cbcSMatt Macy ASSERT(id < pvd->vdev_children); 512eda14cbcSMatt Macy ASSERT(pvd->vdev_child[id] == cvd); 513eda14cbcSMatt Macy 514eda14cbcSMatt Macy pvd->vdev_child[id] = NULL; 515eda14cbcSMatt Macy cvd->vdev_parent = NULL; 516eda14cbcSMatt Macy 517eda14cbcSMatt Macy for (c = 0; c < pvd->vdev_children; c++) 518eda14cbcSMatt Macy if (pvd->vdev_child[c]) 519eda14cbcSMatt Macy break; 520eda14cbcSMatt Macy 521eda14cbcSMatt Macy if (c == pvd->vdev_children) { 522eda14cbcSMatt Macy kmem_free(pvd->vdev_child, c * sizeof (vdev_t *)); 523eda14cbcSMatt Macy pvd->vdev_child = NULL; 524eda14cbcSMatt Macy pvd->vdev_children = 0; 525eda14cbcSMatt Macy } 526eda14cbcSMatt Macy 527eda14cbcSMatt Macy if (cvd->vdev_ops->vdev_op_leaf) { 528eda14cbcSMatt Macy spa_t *spa = cvd->vdev_spa; 529eda14cbcSMatt Macy list_remove(&spa->spa_leaf_list, cvd); 530eda14cbcSMatt Macy spa->spa_leaf_list_gen++; 531eda14cbcSMatt Macy } 532eda14cbcSMatt Macy 533eda14cbcSMatt Macy /* 534eda14cbcSMatt Macy * Walk up all ancestors to update guid sum. 535eda14cbcSMatt Macy */ 536eda14cbcSMatt Macy for (; pvd != NULL; pvd = pvd->vdev_parent) 537eda14cbcSMatt Macy pvd->vdev_guid_sum -= cvd->vdev_guid_sum; 538eda14cbcSMatt Macy } 539eda14cbcSMatt Macy 540eda14cbcSMatt Macy /* 541eda14cbcSMatt Macy * Remove any holes in the child array. 542eda14cbcSMatt Macy */ 543eda14cbcSMatt Macy void 544eda14cbcSMatt Macy vdev_compact_children(vdev_t *pvd) 545eda14cbcSMatt Macy { 546eda14cbcSMatt Macy vdev_t **newchild, *cvd; 547eda14cbcSMatt Macy int oldc = pvd->vdev_children; 548eda14cbcSMatt Macy int newc; 549eda14cbcSMatt Macy 550eda14cbcSMatt Macy ASSERT(spa_config_held(pvd->vdev_spa, SCL_ALL, RW_WRITER) == SCL_ALL); 551eda14cbcSMatt Macy 552eda14cbcSMatt Macy if (oldc == 0) 553eda14cbcSMatt Macy return; 554eda14cbcSMatt Macy 555eda14cbcSMatt Macy for (int c = newc = 0; c < oldc; c++) 556eda14cbcSMatt Macy if (pvd->vdev_child[c]) 557eda14cbcSMatt Macy newc++; 558eda14cbcSMatt Macy 559eda14cbcSMatt Macy if (newc > 0) { 560eda14cbcSMatt Macy newchild = kmem_zalloc(newc * sizeof (vdev_t *), KM_SLEEP); 561eda14cbcSMatt Macy 562eda14cbcSMatt Macy for (int c = newc = 0; c < oldc; c++) { 563eda14cbcSMatt Macy if ((cvd = pvd->vdev_child[c]) != NULL) { 564eda14cbcSMatt Macy newchild[newc] = cvd; 565eda14cbcSMatt Macy cvd->vdev_id = newc++; 566eda14cbcSMatt Macy } 567eda14cbcSMatt Macy } 568eda14cbcSMatt Macy } else { 569eda14cbcSMatt Macy newchild = NULL; 570eda14cbcSMatt Macy } 571eda14cbcSMatt Macy 572eda14cbcSMatt Macy kmem_free(pvd->vdev_child, oldc * sizeof (vdev_t *)); 573eda14cbcSMatt Macy pvd->vdev_child = newchild; 574eda14cbcSMatt Macy pvd->vdev_children = newc; 575eda14cbcSMatt Macy } 576eda14cbcSMatt Macy 577eda14cbcSMatt Macy /* 578eda14cbcSMatt Macy * Allocate and minimally initialize a vdev_t. 579eda14cbcSMatt Macy */ 580eda14cbcSMatt Macy vdev_t * 581eda14cbcSMatt Macy vdev_alloc_common(spa_t *spa, uint_t id, uint64_t guid, vdev_ops_t *ops) 582eda14cbcSMatt Macy { 583eda14cbcSMatt Macy vdev_t *vd; 584eda14cbcSMatt Macy vdev_indirect_config_t *vic; 585eda14cbcSMatt Macy 586eda14cbcSMatt Macy vd = kmem_zalloc(sizeof (vdev_t), KM_SLEEP); 587eda14cbcSMatt Macy vic = &vd->vdev_indirect_config; 588eda14cbcSMatt Macy 589eda14cbcSMatt Macy if (spa->spa_root_vdev == NULL) { 590eda14cbcSMatt Macy ASSERT(ops == &vdev_root_ops); 591eda14cbcSMatt Macy spa->spa_root_vdev = vd; 592eda14cbcSMatt Macy spa->spa_load_guid = spa_generate_guid(NULL); 593eda14cbcSMatt Macy } 594eda14cbcSMatt Macy 595eda14cbcSMatt Macy if (guid == 0 && ops != &vdev_hole_ops) { 596eda14cbcSMatt Macy if (spa->spa_root_vdev == vd) { 597eda14cbcSMatt Macy /* 598eda14cbcSMatt Macy * The root vdev's guid will also be the pool guid, 599eda14cbcSMatt Macy * which must be unique among all pools. 600eda14cbcSMatt Macy */ 601eda14cbcSMatt Macy guid = spa_generate_guid(NULL); 602eda14cbcSMatt Macy } else { 603eda14cbcSMatt Macy /* 604eda14cbcSMatt Macy * Any other vdev's guid must be unique within the pool. 605eda14cbcSMatt Macy */ 606eda14cbcSMatt Macy guid = spa_generate_guid(spa); 607eda14cbcSMatt Macy } 608eda14cbcSMatt Macy ASSERT(!spa_guid_exists(spa_guid(spa), guid)); 609eda14cbcSMatt Macy } 610eda14cbcSMatt Macy 611eda14cbcSMatt Macy vd->vdev_spa = spa; 612eda14cbcSMatt Macy vd->vdev_id = id; 613eda14cbcSMatt Macy vd->vdev_guid = guid; 614eda14cbcSMatt Macy vd->vdev_guid_sum = guid; 615eda14cbcSMatt Macy vd->vdev_ops = ops; 616eda14cbcSMatt Macy vd->vdev_state = VDEV_STATE_CLOSED; 617eda14cbcSMatt Macy vd->vdev_ishole = (ops == &vdev_hole_ops); 618eda14cbcSMatt Macy vic->vic_prev_indirect_vdev = UINT64_MAX; 619eda14cbcSMatt Macy 620eda14cbcSMatt Macy rw_init(&vd->vdev_indirect_rwlock, NULL, RW_DEFAULT, NULL); 621eda14cbcSMatt Macy mutex_init(&vd->vdev_obsolete_lock, NULL, MUTEX_DEFAULT, NULL); 622eda14cbcSMatt Macy vd->vdev_obsolete_segments = range_tree_create(NULL, RANGE_SEG64, NULL, 623eda14cbcSMatt Macy 0, 0); 624eda14cbcSMatt Macy 625eda14cbcSMatt Macy /* 626eda14cbcSMatt Macy * Initialize rate limit structs for events. We rate limit ZIO delay 627eda14cbcSMatt Macy * and checksum events so that we don't overwhelm ZED with thousands 628eda14cbcSMatt Macy * of events when a disk is acting up. 629eda14cbcSMatt Macy */ 630eda14cbcSMatt Macy zfs_ratelimit_init(&vd->vdev_delay_rl, &zfs_slow_io_events_per_second, 631eda14cbcSMatt Macy 1); 63216038816SMartin Matuska zfs_ratelimit_init(&vd->vdev_deadman_rl, &zfs_slow_io_events_per_second, 63316038816SMartin Matuska 1); 634eda14cbcSMatt Macy zfs_ratelimit_init(&vd->vdev_checksum_rl, 635eda14cbcSMatt Macy &zfs_checksum_events_per_second, 1); 636eda14cbcSMatt Macy 637eda14cbcSMatt Macy list_link_init(&vd->vdev_config_dirty_node); 638eda14cbcSMatt Macy list_link_init(&vd->vdev_state_dirty_node); 639eda14cbcSMatt Macy list_link_init(&vd->vdev_initialize_node); 640eda14cbcSMatt Macy list_link_init(&vd->vdev_leaf_node); 641eda14cbcSMatt Macy list_link_init(&vd->vdev_trim_node); 6427877fdebSMatt Macy 643eda14cbcSMatt Macy mutex_init(&vd->vdev_dtl_lock, NULL, MUTEX_NOLOCKDEP, NULL); 644eda14cbcSMatt Macy mutex_init(&vd->vdev_stat_lock, NULL, MUTEX_DEFAULT, NULL); 645eda14cbcSMatt Macy mutex_init(&vd->vdev_probe_lock, NULL, MUTEX_DEFAULT, NULL); 646eda14cbcSMatt Macy mutex_init(&vd->vdev_scan_io_queue_lock, NULL, MUTEX_DEFAULT, NULL); 647eda14cbcSMatt Macy 648eda14cbcSMatt Macy mutex_init(&vd->vdev_initialize_lock, NULL, MUTEX_DEFAULT, NULL); 649eda14cbcSMatt Macy mutex_init(&vd->vdev_initialize_io_lock, NULL, MUTEX_DEFAULT, NULL); 650eda14cbcSMatt Macy cv_init(&vd->vdev_initialize_cv, NULL, CV_DEFAULT, NULL); 651eda14cbcSMatt Macy cv_init(&vd->vdev_initialize_io_cv, NULL, CV_DEFAULT, NULL); 652eda14cbcSMatt Macy 653eda14cbcSMatt Macy mutex_init(&vd->vdev_trim_lock, NULL, MUTEX_DEFAULT, NULL); 654eda14cbcSMatt Macy mutex_init(&vd->vdev_autotrim_lock, NULL, MUTEX_DEFAULT, NULL); 655eda14cbcSMatt Macy mutex_init(&vd->vdev_trim_io_lock, NULL, MUTEX_DEFAULT, NULL); 656eda14cbcSMatt Macy cv_init(&vd->vdev_trim_cv, NULL, CV_DEFAULT, NULL); 657eda14cbcSMatt Macy cv_init(&vd->vdev_autotrim_cv, NULL, CV_DEFAULT, NULL); 658eda14cbcSMatt Macy cv_init(&vd->vdev_trim_io_cv, NULL, CV_DEFAULT, NULL); 659eda14cbcSMatt Macy 660eda14cbcSMatt Macy mutex_init(&vd->vdev_rebuild_lock, NULL, MUTEX_DEFAULT, NULL); 661eda14cbcSMatt Macy cv_init(&vd->vdev_rebuild_cv, NULL, CV_DEFAULT, NULL); 662eda14cbcSMatt Macy 663eda14cbcSMatt Macy for (int t = 0; t < DTL_TYPES; t++) { 664eda14cbcSMatt Macy vd->vdev_dtl[t] = range_tree_create(NULL, RANGE_SEG64, NULL, 0, 665eda14cbcSMatt Macy 0); 666eda14cbcSMatt Macy } 667eda14cbcSMatt Macy 668eda14cbcSMatt Macy txg_list_create(&vd->vdev_ms_list, spa, 669eda14cbcSMatt Macy offsetof(struct metaslab, ms_txg_node)); 670eda14cbcSMatt Macy txg_list_create(&vd->vdev_dtl_list, spa, 671eda14cbcSMatt Macy offsetof(struct vdev, vdev_dtl_node)); 672eda14cbcSMatt Macy vd->vdev_stat.vs_timestamp = gethrtime(); 673eda14cbcSMatt Macy vdev_queue_init(vd); 674eda14cbcSMatt Macy vdev_cache_init(vd); 675eda14cbcSMatt Macy 676eda14cbcSMatt Macy return (vd); 677eda14cbcSMatt Macy } 678eda14cbcSMatt Macy 679eda14cbcSMatt Macy /* 680eda14cbcSMatt Macy * Allocate a new vdev. The 'alloctype' is used to control whether we are 681eda14cbcSMatt Macy * creating a new vdev or loading an existing one - the behavior is slightly 682eda14cbcSMatt Macy * different for each case. 683eda14cbcSMatt Macy */ 684eda14cbcSMatt Macy int 685eda14cbcSMatt Macy vdev_alloc(spa_t *spa, vdev_t **vdp, nvlist_t *nv, vdev_t *parent, uint_t id, 686eda14cbcSMatt Macy int alloctype) 687eda14cbcSMatt Macy { 688eda14cbcSMatt Macy vdev_ops_t *ops; 689eda14cbcSMatt Macy char *type; 6907877fdebSMatt Macy uint64_t guid = 0, islog; 691eda14cbcSMatt Macy vdev_t *vd; 692eda14cbcSMatt Macy vdev_indirect_config_t *vic; 693eda14cbcSMatt Macy char *tmp = NULL; 694eda14cbcSMatt Macy int rc; 695eda14cbcSMatt Macy vdev_alloc_bias_t alloc_bias = VDEV_BIAS_NONE; 696eda14cbcSMatt Macy boolean_t top_level = (parent && !parent->vdev_parent); 697eda14cbcSMatt Macy 698eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_ALL, RW_WRITER) == SCL_ALL); 699eda14cbcSMatt Macy 700eda14cbcSMatt Macy if (nvlist_lookup_string(nv, ZPOOL_CONFIG_TYPE, &type) != 0) 701eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 702eda14cbcSMatt Macy 703eda14cbcSMatt Macy if ((ops = vdev_getops(type)) == NULL) 704eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 705eda14cbcSMatt Macy 706eda14cbcSMatt Macy /* 707eda14cbcSMatt Macy * If this is a load, get the vdev guid from the nvlist. 708eda14cbcSMatt Macy * Otherwise, vdev_alloc_common() will generate one for us. 709eda14cbcSMatt Macy */ 710eda14cbcSMatt Macy if (alloctype == VDEV_ALLOC_LOAD) { 711eda14cbcSMatt Macy uint64_t label_id; 712eda14cbcSMatt Macy 713eda14cbcSMatt Macy if (nvlist_lookup_uint64(nv, ZPOOL_CONFIG_ID, &label_id) || 714eda14cbcSMatt Macy label_id != id) 715eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 716eda14cbcSMatt Macy 717eda14cbcSMatt Macy if (nvlist_lookup_uint64(nv, ZPOOL_CONFIG_GUID, &guid) != 0) 718eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 719eda14cbcSMatt Macy } else if (alloctype == VDEV_ALLOC_SPARE) { 720eda14cbcSMatt Macy if (nvlist_lookup_uint64(nv, ZPOOL_CONFIG_GUID, &guid) != 0) 721eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 722eda14cbcSMatt Macy } else if (alloctype == VDEV_ALLOC_L2CACHE) { 723eda14cbcSMatt Macy if (nvlist_lookup_uint64(nv, ZPOOL_CONFIG_GUID, &guid) != 0) 724eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 725eda14cbcSMatt Macy } else if (alloctype == VDEV_ALLOC_ROOTPOOL) { 726eda14cbcSMatt Macy if (nvlist_lookup_uint64(nv, ZPOOL_CONFIG_GUID, &guid) != 0) 727eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 728eda14cbcSMatt Macy } 729eda14cbcSMatt Macy 730eda14cbcSMatt Macy /* 731eda14cbcSMatt Macy * The first allocated vdev must be of type 'root'. 732eda14cbcSMatt Macy */ 733eda14cbcSMatt Macy if (ops != &vdev_root_ops && spa->spa_root_vdev == NULL) 734eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 735eda14cbcSMatt Macy 736eda14cbcSMatt Macy /* 737eda14cbcSMatt Macy * Determine whether we're a log vdev. 738eda14cbcSMatt Macy */ 739eda14cbcSMatt Macy islog = 0; 740eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_IS_LOG, &islog); 741eda14cbcSMatt Macy if (islog && spa_version(spa) < SPA_VERSION_SLOGS) 742eda14cbcSMatt Macy return (SET_ERROR(ENOTSUP)); 743eda14cbcSMatt Macy 744eda14cbcSMatt Macy if (ops == &vdev_hole_ops && spa_version(spa) < SPA_VERSION_HOLES) 745eda14cbcSMatt Macy return (SET_ERROR(ENOTSUP)); 746eda14cbcSMatt Macy 747eda14cbcSMatt Macy if (top_level && alloctype == VDEV_ALLOC_ADD) { 748eda14cbcSMatt Macy char *bias; 749eda14cbcSMatt Macy 7507877fdebSMatt Macy /* 7517877fdebSMatt Macy * If creating a top-level vdev, check for allocation 7527877fdebSMatt Macy * classes input. 7537877fdebSMatt Macy */ 754eda14cbcSMatt Macy if (nvlist_lookup_string(nv, ZPOOL_CONFIG_ALLOCATION_BIAS, 755eda14cbcSMatt Macy &bias) == 0) { 756eda14cbcSMatt Macy alloc_bias = vdev_derive_alloc_bias(bias); 757eda14cbcSMatt Macy 758eda14cbcSMatt Macy /* spa_vdev_add() expects feature to be enabled */ 759eda14cbcSMatt Macy if (spa->spa_load_state != SPA_LOAD_CREATE && 760eda14cbcSMatt Macy !spa_feature_is_enabled(spa, 761eda14cbcSMatt Macy SPA_FEATURE_ALLOCATION_CLASSES)) { 762eda14cbcSMatt Macy return (SET_ERROR(ENOTSUP)); 763eda14cbcSMatt Macy } 764eda14cbcSMatt Macy } 7657877fdebSMatt Macy 7667877fdebSMatt Macy /* spa_vdev_add() expects feature to be enabled */ 7677877fdebSMatt Macy if (ops == &vdev_draid_ops && 7687877fdebSMatt Macy spa->spa_load_state != SPA_LOAD_CREATE && 7697877fdebSMatt Macy !spa_feature_is_enabled(spa, SPA_FEATURE_DRAID)) { 7707877fdebSMatt Macy return (SET_ERROR(ENOTSUP)); 7717877fdebSMatt Macy } 7727877fdebSMatt Macy } 7737877fdebSMatt Macy 7747877fdebSMatt Macy /* 7757877fdebSMatt Macy * Initialize the vdev specific data. This is done before calling 7767877fdebSMatt Macy * vdev_alloc_common() since it may fail and this simplifies the 7777877fdebSMatt Macy * error reporting and cleanup code paths. 7787877fdebSMatt Macy */ 7797877fdebSMatt Macy void *tsd = NULL; 7807877fdebSMatt Macy if (ops->vdev_op_init != NULL) { 7817877fdebSMatt Macy rc = ops->vdev_op_init(spa, nv, &tsd); 7827877fdebSMatt Macy if (rc != 0) { 7837877fdebSMatt Macy return (rc); 7847877fdebSMatt Macy } 785eda14cbcSMatt Macy } 786eda14cbcSMatt Macy 787eda14cbcSMatt Macy vd = vdev_alloc_common(spa, id, guid, ops); 7887877fdebSMatt Macy vd->vdev_tsd = tsd; 789eda14cbcSMatt Macy vd->vdev_islog = islog; 7907877fdebSMatt Macy 791eda14cbcSMatt Macy if (top_level && alloc_bias != VDEV_BIAS_NONE) 792eda14cbcSMatt Macy vd->vdev_alloc_bias = alloc_bias; 793eda14cbcSMatt Macy 794eda14cbcSMatt Macy if (nvlist_lookup_string(nv, ZPOOL_CONFIG_PATH, &vd->vdev_path) == 0) 795eda14cbcSMatt Macy vd->vdev_path = spa_strdup(vd->vdev_path); 796eda14cbcSMatt Macy 797eda14cbcSMatt Macy /* 798eda14cbcSMatt Macy * ZPOOL_CONFIG_AUX_STATE = "external" means we previously forced a 799eda14cbcSMatt Macy * fault on a vdev and want it to persist across imports (like with 800eda14cbcSMatt Macy * zpool offline -f). 801eda14cbcSMatt Macy */ 802eda14cbcSMatt Macy rc = nvlist_lookup_string(nv, ZPOOL_CONFIG_AUX_STATE, &tmp); 803eda14cbcSMatt Macy if (rc == 0 && tmp != NULL && strcmp(tmp, "external") == 0) { 804eda14cbcSMatt Macy vd->vdev_stat.vs_aux = VDEV_AUX_EXTERNAL; 805eda14cbcSMatt Macy vd->vdev_faulted = 1; 806eda14cbcSMatt Macy vd->vdev_label_aux = VDEV_AUX_EXTERNAL; 807eda14cbcSMatt Macy } 808eda14cbcSMatt Macy 809eda14cbcSMatt Macy if (nvlist_lookup_string(nv, ZPOOL_CONFIG_DEVID, &vd->vdev_devid) == 0) 810eda14cbcSMatt Macy vd->vdev_devid = spa_strdup(vd->vdev_devid); 811eda14cbcSMatt Macy if (nvlist_lookup_string(nv, ZPOOL_CONFIG_PHYS_PATH, 812eda14cbcSMatt Macy &vd->vdev_physpath) == 0) 813eda14cbcSMatt Macy vd->vdev_physpath = spa_strdup(vd->vdev_physpath); 814eda14cbcSMatt Macy 815eda14cbcSMatt Macy if (nvlist_lookup_string(nv, ZPOOL_CONFIG_VDEV_ENC_SYSFS_PATH, 816eda14cbcSMatt Macy &vd->vdev_enc_sysfs_path) == 0) 817eda14cbcSMatt Macy vd->vdev_enc_sysfs_path = spa_strdup(vd->vdev_enc_sysfs_path); 818eda14cbcSMatt Macy 819eda14cbcSMatt Macy if (nvlist_lookup_string(nv, ZPOOL_CONFIG_FRU, &vd->vdev_fru) == 0) 820eda14cbcSMatt Macy vd->vdev_fru = spa_strdup(vd->vdev_fru); 821eda14cbcSMatt Macy 822eda14cbcSMatt Macy /* 823eda14cbcSMatt Macy * Set the whole_disk property. If it's not specified, leave the value 824eda14cbcSMatt Macy * as -1. 825eda14cbcSMatt Macy */ 826eda14cbcSMatt Macy if (nvlist_lookup_uint64(nv, ZPOOL_CONFIG_WHOLE_DISK, 827eda14cbcSMatt Macy &vd->vdev_wholedisk) != 0) 828eda14cbcSMatt Macy vd->vdev_wholedisk = -1ULL; 829eda14cbcSMatt Macy 8307877fdebSMatt Macy vic = &vd->vdev_indirect_config; 8317877fdebSMatt Macy 832eda14cbcSMatt Macy ASSERT0(vic->vic_mapping_object); 833eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_INDIRECT_OBJECT, 834eda14cbcSMatt Macy &vic->vic_mapping_object); 835eda14cbcSMatt Macy ASSERT0(vic->vic_births_object); 836eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_INDIRECT_BIRTHS, 837eda14cbcSMatt Macy &vic->vic_births_object); 838eda14cbcSMatt Macy ASSERT3U(vic->vic_prev_indirect_vdev, ==, UINT64_MAX); 839eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_PREV_INDIRECT_VDEV, 840eda14cbcSMatt Macy &vic->vic_prev_indirect_vdev); 841eda14cbcSMatt Macy 842eda14cbcSMatt Macy /* 843eda14cbcSMatt Macy * Look for the 'not present' flag. This will only be set if the device 844eda14cbcSMatt Macy * was not present at the time of import. 845eda14cbcSMatt Macy */ 846eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_NOT_PRESENT, 847eda14cbcSMatt Macy &vd->vdev_not_present); 848eda14cbcSMatt Macy 849eda14cbcSMatt Macy /* 850eda14cbcSMatt Macy * Get the alignment requirement. 851eda14cbcSMatt Macy */ 852eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_ASHIFT, &vd->vdev_ashift); 853eda14cbcSMatt Macy 854eda14cbcSMatt Macy /* 855eda14cbcSMatt Macy * Retrieve the vdev creation time. 856eda14cbcSMatt Macy */ 857eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_CREATE_TXG, 858eda14cbcSMatt Macy &vd->vdev_crtxg); 859eda14cbcSMatt Macy 860eda14cbcSMatt Macy /* 861eda14cbcSMatt Macy * If we're a top-level vdev, try to load the allocation parameters. 862eda14cbcSMatt Macy */ 863eda14cbcSMatt Macy if (top_level && 864eda14cbcSMatt Macy (alloctype == VDEV_ALLOC_LOAD || alloctype == VDEV_ALLOC_SPLIT)) { 865eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_METASLAB_ARRAY, 866eda14cbcSMatt Macy &vd->vdev_ms_array); 867eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_METASLAB_SHIFT, 868eda14cbcSMatt Macy &vd->vdev_ms_shift); 869eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_ASIZE, 870eda14cbcSMatt Macy &vd->vdev_asize); 871681ce946SMartin Matuska (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_NONALLOCATING, 872681ce946SMartin Matuska &vd->vdev_noalloc); 873eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_REMOVING, 874eda14cbcSMatt Macy &vd->vdev_removing); 875eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_VDEV_TOP_ZAP, 876eda14cbcSMatt Macy &vd->vdev_top_zap); 877eda14cbcSMatt Macy } else { 878eda14cbcSMatt Macy ASSERT0(vd->vdev_top_zap); 879eda14cbcSMatt Macy } 880eda14cbcSMatt Macy 881eda14cbcSMatt Macy if (top_level && alloctype != VDEV_ALLOC_ATTACH) { 882eda14cbcSMatt Macy ASSERT(alloctype == VDEV_ALLOC_LOAD || 883eda14cbcSMatt Macy alloctype == VDEV_ALLOC_ADD || 884eda14cbcSMatt Macy alloctype == VDEV_ALLOC_SPLIT || 885eda14cbcSMatt Macy alloctype == VDEV_ALLOC_ROOTPOOL); 886eda14cbcSMatt Macy /* Note: metaslab_group_create() is now deferred */ 887eda14cbcSMatt Macy } 888eda14cbcSMatt Macy 889eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf && 890eda14cbcSMatt Macy (alloctype == VDEV_ALLOC_LOAD || alloctype == VDEV_ALLOC_SPLIT)) { 891eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, 892eda14cbcSMatt Macy ZPOOL_CONFIG_VDEV_LEAF_ZAP, &vd->vdev_leaf_zap); 893eda14cbcSMatt Macy } else { 894eda14cbcSMatt Macy ASSERT0(vd->vdev_leaf_zap); 895eda14cbcSMatt Macy } 896eda14cbcSMatt Macy 897eda14cbcSMatt Macy /* 898eda14cbcSMatt Macy * If we're a leaf vdev, try to load the DTL object and other state. 899eda14cbcSMatt Macy */ 900eda14cbcSMatt Macy 901eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf && 902eda14cbcSMatt Macy (alloctype == VDEV_ALLOC_LOAD || alloctype == VDEV_ALLOC_L2CACHE || 903eda14cbcSMatt Macy alloctype == VDEV_ALLOC_ROOTPOOL)) { 904eda14cbcSMatt Macy if (alloctype == VDEV_ALLOC_LOAD) { 905eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_DTL, 906eda14cbcSMatt Macy &vd->vdev_dtl_object); 907eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_UNSPARE, 908eda14cbcSMatt Macy &vd->vdev_unspare); 909eda14cbcSMatt Macy } 910eda14cbcSMatt Macy 911eda14cbcSMatt Macy if (alloctype == VDEV_ALLOC_ROOTPOOL) { 912eda14cbcSMatt Macy uint64_t spare = 0; 913eda14cbcSMatt Macy 914eda14cbcSMatt Macy if (nvlist_lookup_uint64(nv, ZPOOL_CONFIG_IS_SPARE, 915eda14cbcSMatt Macy &spare) == 0 && spare) 916eda14cbcSMatt Macy spa_spare_add(vd); 917eda14cbcSMatt Macy } 918eda14cbcSMatt Macy 919eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_OFFLINE, 920eda14cbcSMatt Macy &vd->vdev_offline); 921eda14cbcSMatt Macy 922eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_RESILVER_TXG, 923eda14cbcSMatt Macy &vd->vdev_resilver_txg); 924eda14cbcSMatt Macy 925eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_REBUILD_TXG, 926eda14cbcSMatt Macy &vd->vdev_rebuild_txg); 927eda14cbcSMatt Macy 928eda14cbcSMatt Macy if (nvlist_exists(nv, ZPOOL_CONFIG_RESILVER_DEFER)) 929eda14cbcSMatt Macy vdev_defer_resilver(vd); 930eda14cbcSMatt Macy 931eda14cbcSMatt Macy /* 932eda14cbcSMatt Macy * In general, when importing a pool we want to ignore the 933eda14cbcSMatt Macy * persistent fault state, as the diagnosis made on another 934eda14cbcSMatt Macy * system may not be valid in the current context. The only 935eda14cbcSMatt Macy * exception is if we forced a vdev to a persistently faulted 936eda14cbcSMatt Macy * state with 'zpool offline -f'. The persistent fault will 937eda14cbcSMatt Macy * remain across imports until cleared. 938eda14cbcSMatt Macy * 939eda14cbcSMatt Macy * Local vdevs will remain in the faulted state. 940eda14cbcSMatt Macy */ 941eda14cbcSMatt Macy if (spa_load_state(spa) == SPA_LOAD_OPEN || 942eda14cbcSMatt Macy spa_load_state(spa) == SPA_LOAD_IMPORT) { 943eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_FAULTED, 944eda14cbcSMatt Macy &vd->vdev_faulted); 945eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_DEGRADED, 946eda14cbcSMatt Macy &vd->vdev_degraded); 947eda14cbcSMatt Macy (void) nvlist_lookup_uint64(nv, ZPOOL_CONFIG_REMOVED, 948eda14cbcSMatt Macy &vd->vdev_removed); 949eda14cbcSMatt Macy 950eda14cbcSMatt Macy if (vd->vdev_faulted || vd->vdev_degraded) { 951eda14cbcSMatt Macy char *aux; 952eda14cbcSMatt Macy 953eda14cbcSMatt Macy vd->vdev_label_aux = 954eda14cbcSMatt Macy VDEV_AUX_ERR_EXCEEDED; 955eda14cbcSMatt Macy if (nvlist_lookup_string(nv, 956eda14cbcSMatt Macy ZPOOL_CONFIG_AUX_STATE, &aux) == 0 && 957eda14cbcSMatt Macy strcmp(aux, "external") == 0) 958eda14cbcSMatt Macy vd->vdev_label_aux = VDEV_AUX_EXTERNAL; 959eda14cbcSMatt Macy else 960eda14cbcSMatt Macy vd->vdev_faulted = 0ULL; 961eda14cbcSMatt Macy } 962eda14cbcSMatt Macy } 963eda14cbcSMatt Macy } 964eda14cbcSMatt Macy 965eda14cbcSMatt Macy /* 966eda14cbcSMatt Macy * Add ourselves to the parent's list of children. 967eda14cbcSMatt Macy */ 968eda14cbcSMatt Macy vdev_add_child(parent, vd); 969eda14cbcSMatt Macy 970eda14cbcSMatt Macy *vdp = vd; 971eda14cbcSMatt Macy 972eda14cbcSMatt Macy return (0); 973eda14cbcSMatt Macy } 974eda14cbcSMatt Macy 975eda14cbcSMatt Macy void 976eda14cbcSMatt Macy vdev_free(vdev_t *vd) 977eda14cbcSMatt Macy { 978eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 979eda14cbcSMatt Macy 980eda14cbcSMatt Macy ASSERT3P(vd->vdev_initialize_thread, ==, NULL); 981eda14cbcSMatt Macy ASSERT3P(vd->vdev_trim_thread, ==, NULL); 982eda14cbcSMatt Macy ASSERT3P(vd->vdev_autotrim_thread, ==, NULL); 983eda14cbcSMatt Macy ASSERT3P(vd->vdev_rebuild_thread, ==, NULL); 984eda14cbcSMatt Macy 985eda14cbcSMatt Macy /* 986eda14cbcSMatt Macy * Scan queues are normally destroyed at the end of a scan. If the 987eda14cbcSMatt Macy * queue exists here, that implies the vdev is being removed while 988eda14cbcSMatt Macy * the scan is still running. 989eda14cbcSMatt Macy */ 990eda14cbcSMatt Macy if (vd->vdev_scan_io_queue != NULL) { 991eda14cbcSMatt Macy mutex_enter(&vd->vdev_scan_io_queue_lock); 992eda14cbcSMatt Macy dsl_scan_io_queue_destroy(vd->vdev_scan_io_queue); 993eda14cbcSMatt Macy vd->vdev_scan_io_queue = NULL; 994eda14cbcSMatt Macy mutex_exit(&vd->vdev_scan_io_queue_lock); 995eda14cbcSMatt Macy } 996eda14cbcSMatt Macy 997eda14cbcSMatt Macy /* 998eda14cbcSMatt Macy * vdev_free() implies closing the vdev first. This is simpler than 999eda14cbcSMatt Macy * trying to ensure complicated semantics for all callers. 1000eda14cbcSMatt Macy */ 1001eda14cbcSMatt Macy vdev_close(vd); 1002eda14cbcSMatt Macy 1003eda14cbcSMatt Macy ASSERT(!list_link_active(&vd->vdev_config_dirty_node)); 1004eda14cbcSMatt Macy ASSERT(!list_link_active(&vd->vdev_state_dirty_node)); 1005eda14cbcSMatt Macy 1006eda14cbcSMatt Macy /* 1007eda14cbcSMatt Macy * Free all children. 1008eda14cbcSMatt Macy */ 1009eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 1010eda14cbcSMatt Macy vdev_free(vd->vdev_child[c]); 1011eda14cbcSMatt Macy 1012eda14cbcSMatt Macy ASSERT(vd->vdev_child == NULL); 1013eda14cbcSMatt Macy ASSERT(vd->vdev_guid_sum == vd->vdev_guid); 1014eda14cbcSMatt Macy 10157877fdebSMatt Macy if (vd->vdev_ops->vdev_op_fini != NULL) 10167877fdebSMatt Macy vd->vdev_ops->vdev_op_fini(vd); 10177877fdebSMatt Macy 1018eda14cbcSMatt Macy /* 1019eda14cbcSMatt Macy * Discard allocation state. 1020eda14cbcSMatt Macy */ 1021eda14cbcSMatt Macy if (vd->vdev_mg != NULL) { 1022eda14cbcSMatt Macy vdev_metaslab_fini(vd); 1023eda14cbcSMatt Macy metaslab_group_destroy(vd->vdev_mg); 1024eda14cbcSMatt Macy vd->vdev_mg = NULL; 1025eda14cbcSMatt Macy } 1026184c1b94SMartin Matuska if (vd->vdev_log_mg != NULL) { 1027184c1b94SMartin Matuska ASSERT0(vd->vdev_ms_count); 1028184c1b94SMartin Matuska metaslab_group_destroy(vd->vdev_log_mg); 1029184c1b94SMartin Matuska vd->vdev_log_mg = NULL; 1030184c1b94SMartin Matuska } 1031eda14cbcSMatt Macy 1032eda14cbcSMatt Macy ASSERT0(vd->vdev_stat.vs_space); 1033eda14cbcSMatt Macy ASSERT0(vd->vdev_stat.vs_dspace); 1034eda14cbcSMatt Macy ASSERT0(vd->vdev_stat.vs_alloc); 1035eda14cbcSMatt Macy 1036eda14cbcSMatt Macy /* 1037eda14cbcSMatt Macy * Remove this vdev from its parent's child list. 1038eda14cbcSMatt Macy */ 1039eda14cbcSMatt Macy vdev_remove_child(vd->vdev_parent, vd); 1040eda14cbcSMatt Macy 1041eda14cbcSMatt Macy ASSERT(vd->vdev_parent == NULL); 1042eda14cbcSMatt Macy ASSERT(!list_link_active(&vd->vdev_leaf_node)); 1043eda14cbcSMatt Macy 1044eda14cbcSMatt Macy /* 1045eda14cbcSMatt Macy * Clean up vdev structure. 1046eda14cbcSMatt Macy */ 1047eda14cbcSMatt Macy vdev_queue_fini(vd); 1048eda14cbcSMatt Macy vdev_cache_fini(vd); 1049eda14cbcSMatt Macy 1050eda14cbcSMatt Macy if (vd->vdev_path) 1051eda14cbcSMatt Macy spa_strfree(vd->vdev_path); 1052eda14cbcSMatt Macy if (vd->vdev_devid) 1053eda14cbcSMatt Macy spa_strfree(vd->vdev_devid); 1054eda14cbcSMatt Macy if (vd->vdev_physpath) 1055eda14cbcSMatt Macy spa_strfree(vd->vdev_physpath); 1056eda14cbcSMatt Macy 1057eda14cbcSMatt Macy if (vd->vdev_enc_sysfs_path) 1058eda14cbcSMatt Macy spa_strfree(vd->vdev_enc_sysfs_path); 1059eda14cbcSMatt Macy 1060eda14cbcSMatt Macy if (vd->vdev_fru) 1061eda14cbcSMatt Macy spa_strfree(vd->vdev_fru); 1062eda14cbcSMatt Macy 1063eda14cbcSMatt Macy if (vd->vdev_isspare) 1064eda14cbcSMatt Macy spa_spare_remove(vd); 1065eda14cbcSMatt Macy if (vd->vdev_isl2cache) 1066eda14cbcSMatt Macy spa_l2cache_remove(vd); 1067eda14cbcSMatt Macy 1068eda14cbcSMatt Macy txg_list_destroy(&vd->vdev_ms_list); 1069eda14cbcSMatt Macy txg_list_destroy(&vd->vdev_dtl_list); 1070eda14cbcSMatt Macy 1071eda14cbcSMatt Macy mutex_enter(&vd->vdev_dtl_lock); 1072eda14cbcSMatt Macy space_map_close(vd->vdev_dtl_sm); 1073eda14cbcSMatt Macy for (int t = 0; t < DTL_TYPES; t++) { 1074eda14cbcSMatt Macy range_tree_vacate(vd->vdev_dtl[t], NULL, NULL); 1075eda14cbcSMatt Macy range_tree_destroy(vd->vdev_dtl[t]); 1076eda14cbcSMatt Macy } 1077eda14cbcSMatt Macy mutex_exit(&vd->vdev_dtl_lock); 1078eda14cbcSMatt Macy 1079eda14cbcSMatt Macy EQUIV(vd->vdev_indirect_births != NULL, 1080eda14cbcSMatt Macy vd->vdev_indirect_mapping != NULL); 1081eda14cbcSMatt Macy if (vd->vdev_indirect_births != NULL) { 1082eda14cbcSMatt Macy vdev_indirect_mapping_close(vd->vdev_indirect_mapping); 1083eda14cbcSMatt Macy vdev_indirect_births_close(vd->vdev_indirect_births); 1084eda14cbcSMatt Macy } 1085eda14cbcSMatt Macy 1086eda14cbcSMatt Macy if (vd->vdev_obsolete_sm != NULL) { 1087eda14cbcSMatt Macy ASSERT(vd->vdev_removing || 1088eda14cbcSMatt Macy vd->vdev_ops == &vdev_indirect_ops); 1089eda14cbcSMatt Macy space_map_close(vd->vdev_obsolete_sm); 1090eda14cbcSMatt Macy vd->vdev_obsolete_sm = NULL; 1091eda14cbcSMatt Macy } 1092eda14cbcSMatt Macy range_tree_destroy(vd->vdev_obsolete_segments); 1093eda14cbcSMatt Macy rw_destroy(&vd->vdev_indirect_rwlock); 1094eda14cbcSMatt Macy mutex_destroy(&vd->vdev_obsolete_lock); 1095eda14cbcSMatt Macy 1096eda14cbcSMatt Macy mutex_destroy(&vd->vdev_dtl_lock); 1097eda14cbcSMatt Macy mutex_destroy(&vd->vdev_stat_lock); 1098eda14cbcSMatt Macy mutex_destroy(&vd->vdev_probe_lock); 1099eda14cbcSMatt Macy mutex_destroy(&vd->vdev_scan_io_queue_lock); 1100eda14cbcSMatt Macy 1101eda14cbcSMatt Macy mutex_destroy(&vd->vdev_initialize_lock); 1102eda14cbcSMatt Macy mutex_destroy(&vd->vdev_initialize_io_lock); 1103eda14cbcSMatt Macy cv_destroy(&vd->vdev_initialize_io_cv); 1104eda14cbcSMatt Macy cv_destroy(&vd->vdev_initialize_cv); 1105eda14cbcSMatt Macy 1106eda14cbcSMatt Macy mutex_destroy(&vd->vdev_trim_lock); 1107eda14cbcSMatt Macy mutex_destroy(&vd->vdev_autotrim_lock); 1108eda14cbcSMatt Macy mutex_destroy(&vd->vdev_trim_io_lock); 1109eda14cbcSMatt Macy cv_destroy(&vd->vdev_trim_cv); 1110eda14cbcSMatt Macy cv_destroy(&vd->vdev_autotrim_cv); 1111eda14cbcSMatt Macy cv_destroy(&vd->vdev_trim_io_cv); 1112eda14cbcSMatt Macy 1113eda14cbcSMatt Macy mutex_destroy(&vd->vdev_rebuild_lock); 1114eda14cbcSMatt Macy cv_destroy(&vd->vdev_rebuild_cv); 1115eda14cbcSMatt Macy 1116eda14cbcSMatt Macy zfs_ratelimit_fini(&vd->vdev_delay_rl); 111716038816SMartin Matuska zfs_ratelimit_fini(&vd->vdev_deadman_rl); 1118eda14cbcSMatt Macy zfs_ratelimit_fini(&vd->vdev_checksum_rl); 1119eda14cbcSMatt Macy 1120eda14cbcSMatt Macy if (vd == spa->spa_root_vdev) 1121eda14cbcSMatt Macy spa->spa_root_vdev = NULL; 1122eda14cbcSMatt Macy 1123eda14cbcSMatt Macy kmem_free(vd, sizeof (vdev_t)); 1124eda14cbcSMatt Macy } 1125eda14cbcSMatt Macy 1126eda14cbcSMatt Macy /* 1127eda14cbcSMatt Macy * Transfer top-level vdev state from svd to tvd. 1128eda14cbcSMatt Macy */ 1129eda14cbcSMatt Macy static void 1130eda14cbcSMatt Macy vdev_top_transfer(vdev_t *svd, vdev_t *tvd) 1131eda14cbcSMatt Macy { 1132eda14cbcSMatt Macy spa_t *spa = svd->vdev_spa; 1133eda14cbcSMatt Macy metaslab_t *msp; 1134eda14cbcSMatt Macy vdev_t *vd; 1135eda14cbcSMatt Macy int t; 1136eda14cbcSMatt Macy 1137eda14cbcSMatt Macy ASSERT(tvd == tvd->vdev_top); 1138eda14cbcSMatt Macy 1139eda14cbcSMatt Macy tvd->vdev_pending_fastwrite = svd->vdev_pending_fastwrite; 1140eda14cbcSMatt Macy tvd->vdev_ms_array = svd->vdev_ms_array; 1141eda14cbcSMatt Macy tvd->vdev_ms_shift = svd->vdev_ms_shift; 1142eda14cbcSMatt Macy tvd->vdev_ms_count = svd->vdev_ms_count; 1143eda14cbcSMatt Macy tvd->vdev_top_zap = svd->vdev_top_zap; 1144eda14cbcSMatt Macy 1145eda14cbcSMatt Macy svd->vdev_ms_array = 0; 1146eda14cbcSMatt Macy svd->vdev_ms_shift = 0; 1147eda14cbcSMatt Macy svd->vdev_ms_count = 0; 1148eda14cbcSMatt Macy svd->vdev_top_zap = 0; 1149eda14cbcSMatt Macy 1150eda14cbcSMatt Macy if (tvd->vdev_mg) 1151eda14cbcSMatt Macy ASSERT3P(tvd->vdev_mg, ==, svd->vdev_mg); 1152184c1b94SMartin Matuska if (tvd->vdev_log_mg) 1153184c1b94SMartin Matuska ASSERT3P(tvd->vdev_log_mg, ==, svd->vdev_log_mg); 1154eda14cbcSMatt Macy tvd->vdev_mg = svd->vdev_mg; 1155184c1b94SMartin Matuska tvd->vdev_log_mg = svd->vdev_log_mg; 1156eda14cbcSMatt Macy tvd->vdev_ms = svd->vdev_ms; 1157eda14cbcSMatt Macy 1158eda14cbcSMatt Macy svd->vdev_mg = NULL; 1159184c1b94SMartin Matuska svd->vdev_log_mg = NULL; 1160eda14cbcSMatt Macy svd->vdev_ms = NULL; 1161eda14cbcSMatt Macy 1162eda14cbcSMatt Macy if (tvd->vdev_mg != NULL) 1163eda14cbcSMatt Macy tvd->vdev_mg->mg_vd = tvd; 1164184c1b94SMartin Matuska if (tvd->vdev_log_mg != NULL) 1165184c1b94SMartin Matuska tvd->vdev_log_mg->mg_vd = tvd; 1166eda14cbcSMatt Macy 1167eda14cbcSMatt Macy tvd->vdev_checkpoint_sm = svd->vdev_checkpoint_sm; 1168eda14cbcSMatt Macy svd->vdev_checkpoint_sm = NULL; 1169eda14cbcSMatt Macy 1170eda14cbcSMatt Macy tvd->vdev_alloc_bias = svd->vdev_alloc_bias; 1171eda14cbcSMatt Macy svd->vdev_alloc_bias = VDEV_BIAS_NONE; 1172eda14cbcSMatt Macy 1173eda14cbcSMatt Macy tvd->vdev_stat.vs_alloc = svd->vdev_stat.vs_alloc; 1174eda14cbcSMatt Macy tvd->vdev_stat.vs_space = svd->vdev_stat.vs_space; 1175eda14cbcSMatt Macy tvd->vdev_stat.vs_dspace = svd->vdev_stat.vs_dspace; 1176eda14cbcSMatt Macy 1177eda14cbcSMatt Macy svd->vdev_stat.vs_alloc = 0; 1178eda14cbcSMatt Macy svd->vdev_stat.vs_space = 0; 1179eda14cbcSMatt Macy svd->vdev_stat.vs_dspace = 0; 1180eda14cbcSMatt Macy 1181eda14cbcSMatt Macy /* 1182eda14cbcSMatt Macy * State which may be set on a top-level vdev that's in the 1183eda14cbcSMatt Macy * process of being removed. 1184eda14cbcSMatt Macy */ 1185eda14cbcSMatt Macy ASSERT0(tvd->vdev_indirect_config.vic_births_object); 1186eda14cbcSMatt Macy ASSERT0(tvd->vdev_indirect_config.vic_mapping_object); 1187eda14cbcSMatt Macy ASSERT3U(tvd->vdev_indirect_config.vic_prev_indirect_vdev, ==, -1ULL); 1188eda14cbcSMatt Macy ASSERT3P(tvd->vdev_indirect_mapping, ==, NULL); 1189eda14cbcSMatt Macy ASSERT3P(tvd->vdev_indirect_births, ==, NULL); 1190eda14cbcSMatt Macy ASSERT3P(tvd->vdev_obsolete_sm, ==, NULL); 1191681ce946SMartin Matuska ASSERT0(tvd->vdev_noalloc); 1192eda14cbcSMatt Macy ASSERT0(tvd->vdev_removing); 1193eda14cbcSMatt Macy ASSERT0(tvd->vdev_rebuilding); 1194681ce946SMartin Matuska tvd->vdev_noalloc = svd->vdev_noalloc; 1195eda14cbcSMatt Macy tvd->vdev_removing = svd->vdev_removing; 1196eda14cbcSMatt Macy tvd->vdev_rebuilding = svd->vdev_rebuilding; 1197eda14cbcSMatt Macy tvd->vdev_rebuild_config = svd->vdev_rebuild_config; 1198eda14cbcSMatt Macy tvd->vdev_indirect_config = svd->vdev_indirect_config; 1199eda14cbcSMatt Macy tvd->vdev_indirect_mapping = svd->vdev_indirect_mapping; 1200eda14cbcSMatt Macy tvd->vdev_indirect_births = svd->vdev_indirect_births; 1201eda14cbcSMatt Macy range_tree_swap(&svd->vdev_obsolete_segments, 1202eda14cbcSMatt Macy &tvd->vdev_obsolete_segments); 1203eda14cbcSMatt Macy tvd->vdev_obsolete_sm = svd->vdev_obsolete_sm; 1204eda14cbcSMatt Macy svd->vdev_indirect_config.vic_mapping_object = 0; 1205eda14cbcSMatt Macy svd->vdev_indirect_config.vic_births_object = 0; 1206eda14cbcSMatt Macy svd->vdev_indirect_config.vic_prev_indirect_vdev = -1ULL; 1207eda14cbcSMatt Macy svd->vdev_indirect_mapping = NULL; 1208eda14cbcSMatt Macy svd->vdev_indirect_births = NULL; 1209eda14cbcSMatt Macy svd->vdev_obsolete_sm = NULL; 1210681ce946SMartin Matuska svd->vdev_noalloc = 0; 1211eda14cbcSMatt Macy svd->vdev_removing = 0; 1212eda14cbcSMatt Macy svd->vdev_rebuilding = 0; 1213eda14cbcSMatt Macy 1214eda14cbcSMatt Macy for (t = 0; t < TXG_SIZE; t++) { 1215eda14cbcSMatt Macy while ((msp = txg_list_remove(&svd->vdev_ms_list, t)) != NULL) 1216eda14cbcSMatt Macy (void) txg_list_add(&tvd->vdev_ms_list, msp, t); 1217eda14cbcSMatt Macy while ((vd = txg_list_remove(&svd->vdev_dtl_list, t)) != NULL) 1218eda14cbcSMatt Macy (void) txg_list_add(&tvd->vdev_dtl_list, vd, t); 1219eda14cbcSMatt Macy if (txg_list_remove_this(&spa->spa_vdev_txg_list, svd, t)) 1220eda14cbcSMatt Macy (void) txg_list_add(&spa->spa_vdev_txg_list, tvd, t); 1221eda14cbcSMatt Macy } 1222eda14cbcSMatt Macy 1223eda14cbcSMatt Macy if (list_link_active(&svd->vdev_config_dirty_node)) { 1224eda14cbcSMatt Macy vdev_config_clean(svd); 1225eda14cbcSMatt Macy vdev_config_dirty(tvd); 1226eda14cbcSMatt Macy } 1227eda14cbcSMatt Macy 1228eda14cbcSMatt Macy if (list_link_active(&svd->vdev_state_dirty_node)) { 1229eda14cbcSMatt Macy vdev_state_clean(svd); 1230eda14cbcSMatt Macy vdev_state_dirty(tvd); 1231eda14cbcSMatt Macy } 1232eda14cbcSMatt Macy 1233eda14cbcSMatt Macy tvd->vdev_deflate_ratio = svd->vdev_deflate_ratio; 1234eda14cbcSMatt Macy svd->vdev_deflate_ratio = 0; 1235eda14cbcSMatt Macy 1236eda14cbcSMatt Macy tvd->vdev_islog = svd->vdev_islog; 1237eda14cbcSMatt Macy svd->vdev_islog = 0; 1238eda14cbcSMatt Macy 1239eda14cbcSMatt Macy dsl_scan_io_queue_vdev_xfer(svd, tvd); 1240eda14cbcSMatt Macy } 1241eda14cbcSMatt Macy 1242eda14cbcSMatt Macy static void 1243eda14cbcSMatt Macy vdev_top_update(vdev_t *tvd, vdev_t *vd) 1244eda14cbcSMatt Macy { 1245eda14cbcSMatt Macy if (vd == NULL) 1246eda14cbcSMatt Macy return; 1247eda14cbcSMatt Macy 1248eda14cbcSMatt Macy vd->vdev_top = tvd; 1249eda14cbcSMatt Macy 1250eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 1251eda14cbcSMatt Macy vdev_top_update(tvd, vd->vdev_child[c]); 1252eda14cbcSMatt Macy } 1253eda14cbcSMatt Macy 1254eda14cbcSMatt Macy /* 12557877fdebSMatt Macy * Add a mirror/replacing vdev above an existing vdev. There is no need to 12567877fdebSMatt Macy * call .vdev_op_init() since mirror/replacing vdevs do not have private state. 1257eda14cbcSMatt Macy */ 1258eda14cbcSMatt Macy vdev_t * 1259eda14cbcSMatt Macy vdev_add_parent(vdev_t *cvd, vdev_ops_t *ops) 1260eda14cbcSMatt Macy { 1261eda14cbcSMatt Macy spa_t *spa = cvd->vdev_spa; 1262eda14cbcSMatt Macy vdev_t *pvd = cvd->vdev_parent; 1263eda14cbcSMatt Macy vdev_t *mvd; 1264eda14cbcSMatt Macy 1265eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_ALL, RW_WRITER) == SCL_ALL); 1266eda14cbcSMatt Macy 1267eda14cbcSMatt Macy mvd = vdev_alloc_common(spa, cvd->vdev_id, 0, ops); 1268eda14cbcSMatt Macy 1269eda14cbcSMatt Macy mvd->vdev_asize = cvd->vdev_asize; 1270eda14cbcSMatt Macy mvd->vdev_min_asize = cvd->vdev_min_asize; 1271eda14cbcSMatt Macy mvd->vdev_max_asize = cvd->vdev_max_asize; 1272eda14cbcSMatt Macy mvd->vdev_psize = cvd->vdev_psize; 1273eda14cbcSMatt Macy mvd->vdev_ashift = cvd->vdev_ashift; 1274eda14cbcSMatt Macy mvd->vdev_logical_ashift = cvd->vdev_logical_ashift; 1275eda14cbcSMatt Macy mvd->vdev_physical_ashift = cvd->vdev_physical_ashift; 1276eda14cbcSMatt Macy mvd->vdev_state = cvd->vdev_state; 1277eda14cbcSMatt Macy mvd->vdev_crtxg = cvd->vdev_crtxg; 1278eda14cbcSMatt Macy 1279eda14cbcSMatt Macy vdev_remove_child(pvd, cvd); 1280eda14cbcSMatt Macy vdev_add_child(pvd, mvd); 1281eda14cbcSMatt Macy cvd->vdev_id = mvd->vdev_children; 1282eda14cbcSMatt Macy vdev_add_child(mvd, cvd); 1283eda14cbcSMatt Macy vdev_top_update(cvd->vdev_top, cvd->vdev_top); 1284eda14cbcSMatt Macy 1285eda14cbcSMatt Macy if (mvd == mvd->vdev_top) 1286eda14cbcSMatt Macy vdev_top_transfer(cvd, mvd); 1287eda14cbcSMatt Macy 1288eda14cbcSMatt Macy return (mvd); 1289eda14cbcSMatt Macy } 1290eda14cbcSMatt Macy 1291eda14cbcSMatt Macy /* 1292eda14cbcSMatt Macy * Remove a 1-way mirror/replacing vdev from the tree. 1293eda14cbcSMatt Macy */ 1294eda14cbcSMatt Macy void 1295eda14cbcSMatt Macy vdev_remove_parent(vdev_t *cvd) 1296eda14cbcSMatt Macy { 1297eda14cbcSMatt Macy vdev_t *mvd = cvd->vdev_parent; 1298eda14cbcSMatt Macy vdev_t *pvd = mvd->vdev_parent; 1299eda14cbcSMatt Macy 1300eda14cbcSMatt Macy ASSERT(spa_config_held(cvd->vdev_spa, SCL_ALL, RW_WRITER) == SCL_ALL); 1301eda14cbcSMatt Macy 1302eda14cbcSMatt Macy ASSERT(mvd->vdev_children == 1); 1303eda14cbcSMatt Macy ASSERT(mvd->vdev_ops == &vdev_mirror_ops || 1304eda14cbcSMatt Macy mvd->vdev_ops == &vdev_replacing_ops || 1305eda14cbcSMatt Macy mvd->vdev_ops == &vdev_spare_ops); 1306eda14cbcSMatt Macy cvd->vdev_ashift = mvd->vdev_ashift; 1307eda14cbcSMatt Macy cvd->vdev_logical_ashift = mvd->vdev_logical_ashift; 1308eda14cbcSMatt Macy cvd->vdev_physical_ashift = mvd->vdev_physical_ashift; 1309eda14cbcSMatt Macy vdev_remove_child(mvd, cvd); 1310eda14cbcSMatt Macy vdev_remove_child(pvd, mvd); 1311eda14cbcSMatt Macy 1312eda14cbcSMatt Macy /* 1313eda14cbcSMatt Macy * If cvd will replace mvd as a top-level vdev, preserve mvd's guid. 1314eda14cbcSMatt Macy * Otherwise, we could have detached an offline device, and when we 1315eda14cbcSMatt Macy * go to import the pool we'll think we have two top-level vdevs, 1316eda14cbcSMatt Macy * instead of a different version of the same top-level vdev. 1317eda14cbcSMatt Macy */ 1318eda14cbcSMatt Macy if (mvd->vdev_top == mvd) { 1319eda14cbcSMatt Macy uint64_t guid_delta = mvd->vdev_guid - cvd->vdev_guid; 1320eda14cbcSMatt Macy cvd->vdev_orig_guid = cvd->vdev_guid; 1321eda14cbcSMatt Macy cvd->vdev_guid += guid_delta; 1322eda14cbcSMatt Macy cvd->vdev_guid_sum += guid_delta; 1323eda14cbcSMatt Macy 1324eda14cbcSMatt Macy /* 1325eda14cbcSMatt Macy * If pool not set for autoexpand, we need to also preserve 1326eda14cbcSMatt Macy * mvd's asize to prevent automatic expansion of cvd. 1327eda14cbcSMatt Macy * Otherwise if we are adjusting the mirror by attaching and 1328eda14cbcSMatt Macy * detaching children of non-uniform sizes, the mirror could 1329eda14cbcSMatt Macy * autoexpand, unexpectedly requiring larger devices to 1330eda14cbcSMatt Macy * re-establish the mirror. 1331eda14cbcSMatt Macy */ 1332eda14cbcSMatt Macy if (!cvd->vdev_spa->spa_autoexpand) 1333eda14cbcSMatt Macy cvd->vdev_asize = mvd->vdev_asize; 1334eda14cbcSMatt Macy } 1335eda14cbcSMatt Macy cvd->vdev_id = mvd->vdev_id; 1336eda14cbcSMatt Macy vdev_add_child(pvd, cvd); 1337eda14cbcSMatt Macy vdev_top_update(cvd->vdev_top, cvd->vdev_top); 1338eda14cbcSMatt Macy 1339eda14cbcSMatt Macy if (cvd == cvd->vdev_top) 1340eda14cbcSMatt Macy vdev_top_transfer(mvd, cvd); 1341eda14cbcSMatt Macy 1342eda14cbcSMatt Macy ASSERT(mvd->vdev_children == 0); 1343eda14cbcSMatt Macy vdev_free(mvd); 1344eda14cbcSMatt Macy } 1345eda14cbcSMatt Macy 1346184c1b94SMartin Matuska void 1347eda14cbcSMatt Macy vdev_metaslab_group_create(vdev_t *vd) 1348eda14cbcSMatt Macy { 1349eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 1350eda14cbcSMatt Macy 1351eda14cbcSMatt Macy /* 1352eda14cbcSMatt Macy * metaslab_group_create was delayed until allocation bias was available 1353eda14cbcSMatt Macy */ 1354eda14cbcSMatt Macy if (vd->vdev_mg == NULL) { 1355eda14cbcSMatt Macy metaslab_class_t *mc; 1356eda14cbcSMatt Macy 1357eda14cbcSMatt Macy if (vd->vdev_islog && vd->vdev_alloc_bias == VDEV_BIAS_NONE) 1358eda14cbcSMatt Macy vd->vdev_alloc_bias = VDEV_BIAS_LOG; 1359eda14cbcSMatt Macy 1360eda14cbcSMatt Macy ASSERT3U(vd->vdev_islog, ==, 1361eda14cbcSMatt Macy (vd->vdev_alloc_bias == VDEV_BIAS_LOG)); 1362eda14cbcSMatt Macy 1363eda14cbcSMatt Macy switch (vd->vdev_alloc_bias) { 1364eda14cbcSMatt Macy case VDEV_BIAS_LOG: 1365eda14cbcSMatt Macy mc = spa_log_class(spa); 1366eda14cbcSMatt Macy break; 1367eda14cbcSMatt Macy case VDEV_BIAS_SPECIAL: 1368eda14cbcSMatt Macy mc = spa_special_class(spa); 1369eda14cbcSMatt Macy break; 1370eda14cbcSMatt Macy case VDEV_BIAS_DEDUP: 1371eda14cbcSMatt Macy mc = spa_dedup_class(spa); 1372eda14cbcSMatt Macy break; 1373eda14cbcSMatt Macy default: 1374eda14cbcSMatt Macy mc = spa_normal_class(spa); 1375eda14cbcSMatt Macy } 1376eda14cbcSMatt Macy 1377eda14cbcSMatt Macy vd->vdev_mg = metaslab_group_create(mc, vd, 1378eda14cbcSMatt Macy spa->spa_alloc_count); 1379eda14cbcSMatt Macy 1380184c1b94SMartin Matuska if (!vd->vdev_islog) { 1381184c1b94SMartin Matuska vd->vdev_log_mg = metaslab_group_create( 1382184c1b94SMartin Matuska spa_embedded_log_class(spa), vd, 1); 1383184c1b94SMartin Matuska } 1384184c1b94SMartin Matuska 1385eda14cbcSMatt Macy /* 1386180f8225SMatt Macy * The spa ashift min/max only apply for the normal metaslab 138716038816SMartin Matuska * class. Class destination is late binding so ashift boundary 1388180f8225SMatt Macy * setting had to wait until now. 1389eda14cbcSMatt Macy */ 1390eda14cbcSMatt Macy if (vd->vdev_top == vd && vd->vdev_ashift != 0 && 1391eda14cbcSMatt Macy mc == spa_normal_class(spa) && vd->vdev_aux == NULL) { 1392eda14cbcSMatt Macy if (vd->vdev_ashift > spa->spa_max_ashift) 1393eda14cbcSMatt Macy spa->spa_max_ashift = vd->vdev_ashift; 1394eda14cbcSMatt Macy if (vd->vdev_ashift < spa->spa_min_ashift) 1395eda14cbcSMatt Macy spa->spa_min_ashift = vd->vdev_ashift; 13967877fdebSMatt Macy 13977877fdebSMatt Macy uint64_t min_alloc = vdev_get_min_alloc(vd); 13987877fdebSMatt Macy if (min_alloc < spa->spa_min_alloc) 13997877fdebSMatt Macy spa->spa_min_alloc = min_alloc; 1400eda14cbcSMatt Macy } 1401eda14cbcSMatt Macy } 1402eda14cbcSMatt Macy } 1403eda14cbcSMatt Macy 1404eda14cbcSMatt Macy int 1405eda14cbcSMatt Macy vdev_metaslab_init(vdev_t *vd, uint64_t txg) 1406eda14cbcSMatt Macy { 1407eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 1408eda14cbcSMatt Macy uint64_t oldc = vd->vdev_ms_count; 1409eda14cbcSMatt Macy uint64_t newc = vd->vdev_asize >> vd->vdev_ms_shift; 1410eda14cbcSMatt Macy metaslab_t **mspp; 1411eda14cbcSMatt Macy int error; 1412eda14cbcSMatt Macy boolean_t expanding = (oldc != 0); 1413eda14cbcSMatt Macy 1414eda14cbcSMatt Macy ASSERT(txg == 0 || spa_config_held(spa, SCL_ALLOC, RW_WRITER)); 1415eda14cbcSMatt Macy 1416eda14cbcSMatt Macy /* 1417eda14cbcSMatt Macy * This vdev is not being allocated from yet or is a hole. 1418eda14cbcSMatt Macy */ 1419eda14cbcSMatt Macy if (vd->vdev_ms_shift == 0) 1420eda14cbcSMatt Macy return (0); 1421eda14cbcSMatt Macy 1422eda14cbcSMatt Macy ASSERT(!vd->vdev_ishole); 1423eda14cbcSMatt Macy 1424eda14cbcSMatt Macy ASSERT(oldc <= newc); 1425eda14cbcSMatt Macy 1426eda14cbcSMatt Macy mspp = vmem_zalloc(newc * sizeof (*mspp), KM_SLEEP); 1427eda14cbcSMatt Macy 1428eda14cbcSMatt Macy if (expanding) { 1429da5137abSMartin Matuska memcpy(mspp, vd->vdev_ms, oldc * sizeof (*mspp)); 1430eda14cbcSMatt Macy vmem_free(vd->vdev_ms, oldc * sizeof (*mspp)); 1431eda14cbcSMatt Macy } 1432eda14cbcSMatt Macy 1433eda14cbcSMatt Macy vd->vdev_ms = mspp; 1434eda14cbcSMatt Macy vd->vdev_ms_count = newc; 1435eda14cbcSMatt Macy 1436184c1b94SMartin Matuska for (uint64_t m = oldc; m < newc; m++) { 1437184c1b94SMartin Matuska uint64_t object = 0; 1438eda14cbcSMatt Macy /* 1439eda14cbcSMatt Macy * vdev_ms_array may be 0 if we are creating the "fake" 1440eda14cbcSMatt Macy * metaslabs for an indirect vdev for zdb's leak detection. 1441eda14cbcSMatt Macy * See zdb_leak_init(). 1442eda14cbcSMatt Macy */ 1443eda14cbcSMatt Macy if (txg == 0 && vd->vdev_ms_array != 0) { 1444184c1b94SMartin Matuska error = dmu_read(spa->spa_meta_objset, 1445184c1b94SMartin Matuska vd->vdev_ms_array, 1446eda14cbcSMatt Macy m * sizeof (uint64_t), sizeof (uint64_t), &object, 1447eda14cbcSMatt Macy DMU_READ_PREFETCH); 1448eda14cbcSMatt Macy if (error != 0) { 1449eda14cbcSMatt Macy vdev_dbgmsg(vd, "unable to read the metaslab " 1450eda14cbcSMatt Macy "array [error=%d]", error); 1451eda14cbcSMatt Macy return (error); 1452eda14cbcSMatt Macy } 1453eda14cbcSMatt Macy } 1454eda14cbcSMatt Macy 1455eda14cbcSMatt Macy error = metaslab_init(vd->vdev_mg, m, object, txg, 1456eda14cbcSMatt Macy &(vd->vdev_ms[m])); 1457eda14cbcSMatt Macy if (error != 0) { 1458eda14cbcSMatt Macy vdev_dbgmsg(vd, "metaslab_init failed [error=%d]", 1459eda14cbcSMatt Macy error); 1460eda14cbcSMatt Macy return (error); 1461eda14cbcSMatt Macy } 1462eda14cbcSMatt Macy } 1463eda14cbcSMatt Macy 1464184c1b94SMartin Matuska /* 1465184c1b94SMartin Matuska * Find the emptiest metaslab on the vdev and mark it for use for 1466184c1b94SMartin Matuska * embedded slog by moving it from the regular to the log metaslab 1467184c1b94SMartin Matuska * group. 1468184c1b94SMartin Matuska */ 1469184c1b94SMartin Matuska if (vd->vdev_mg->mg_class == spa_normal_class(spa) && 1470184c1b94SMartin Matuska vd->vdev_ms_count > zfs_embedded_slog_min_ms && 1471184c1b94SMartin Matuska avl_is_empty(&vd->vdev_log_mg->mg_metaslab_tree)) { 1472184c1b94SMartin Matuska uint64_t slog_msid = 0; 1473184c1b94SMartin Matuska uint64_t smallest = UINT64_MAX; 1474184c1b94SMartin Matuska 1475184c1b94SMartin Matuska /* 1476184c1b94SMartin Matuska * Note, we only search the new metaslabs, because the old 1477184c1b94SMartin Matuska * (pre-existing) ones may be active (e.g. have non-empty 1478184c1b94SMartin Matuska * range_tree's), and we don't move them to the new 1479184c1b94SMartin Matuska * metaslab_t. 1480184c1b94SMartin Matuska */ 1481184c1b94SMartin Matuska for (uint64_t m = oldc; m < newc; m++) { 1482184c1b94SMartin Matuska uint64_t alloc = 1483184c1b94SMartin Matuska space_map_allocated(vd->vdev_ms[m]->ms_sm); 1484184c1b94SMartin Matuska if (alloc < smallest) { 1485184c1b94SMartin Matuska slog_msid = m; 1486184c1b94SMartin Matuska smallest = alloc; 1487184c1b94SMartin Matuska } 1488184c1b94SMartin Matuska } 1489184c1b94SMartin Matuska metaslab_t *slog_ms = vd->vdev_ms[slog_msid]; 1490184c1b94SMartin Matuska /* 1491184c1b94SMartin Matuska * The metaslab was marked as dirty at the end of 1492184c1b94SMartin Matuska * metaslab_init(). Remove it from the dirty list so that we 1493184c1b94SMartin Matuska * can uninitialize and reinitialize it to the new class. 1494184c1b94SMartin Matuska */ 1495184c1b94SMartin Matuska if (txg != 0) { 1496184c1b94SMartin Matuska (void) txg_list_remove_this(&vd->vdev_ms_list, 1497184c1b94SMartin Matuska slog_ms, txg); 1498184c1b94SMartin Matuska } 1499184c1b94SMartin Matuska uint64_t sm_obj = space_map_object(slog_ms->ms_sm); 1500184c1b94SMartin Matuska metaslab_fini(slog_ms); 1501184c1b94SMartin Matuska VERIFY0(metaslab_init(vd->vdev_log_mg, slog_msid, sm_obj, txg, 1502184c1b94SMartin Matuska &vd->vdev_ms[slog_msid])); 1503184c1b94SMartin Matuska } 1504184c1b94SMartin Matuska 1505eda14cbcSMatt Macy if (txg == 0) 1506eda14cbcSMatt Macy spa_config_enter(spa, SCL_ALLOC, FTAG, RW_WRITER); 1507eda14cbcSMatt Macy 1508eda14cbcSMatt Macy /* 1509681ce946SMartin Matuska * If the vdev is marked as non-allocating then don't 1510681ce946SMartin Matuska * activate the metaslabs since we want to ensure that 1511681ce946SMartin Matuska * no allocations are performed on this device. 1512eda14cbcSMatt Macy */ 1513681ce946SMartin Matuska if (vd->vdev_noalloc) { 1514681ce946SMartin Matuska /* track non-allocating vdev space */ 1515681ce946SMartin Matuska spa->spa_nonallocating_dspace += spa_deflate(spa) ? 1516681ce946SMartin Matuska vd->vdev_stat.vs_dspace : vd->vdev_stat.vs_space; 1517681ce946SMartin Matuska } else if (!expanding) { 1518eda14cbcSMatt Macy metaslab_group_activate(vd->vdev_mg); 1519184c1b94SMartin Matuska if (vd->vdev_log_mg != NULL) 1520184c1b94SMartin Matuska metaslab_group_activate(vd->vdev_log_mg); 1521eda14cbcSMatt Macy } 1522eda14cbcSMatt Macy 1523eda14cbcSMatt Macy if (txg == 0) 1524eda14cbcSMatt Macy spa_config_exit(spa, SCL_ALLOC, FTAG); 1525eda14cbcSMatt Macy 1526eda14cbcSMatt Macy return (0); 1527eda14cbcSMatt Macy } 1528eda14cbcSMatt Macy 1529eda14cbcSMatt Macy void 1530eda14cbcSMatt Macy vdev_metaslab_fini(vdev_t *vd) 1531eda14cbcSMatt Macy { 1532eda14cbcSMatt Macy if (vd->vdev_checkpoint_sm != NULL) { 1533eda14cbcSMatt Macy ASSERT(spa_feature_is_active(vd->vdev_spa, 1534eda14cbcSMatt Macy SPA_FEATURE_POOL_CHECKPOINT)); 1535eda14cbcSMatt Macy space_map_close(vd->vdev_checkpoint_sm); 1536eda14cbcSMatt Macy /* 1537eda14cbcSMatt Macy * Even though we close the space map, we need to set its 1538eda14cbcSMatt Macy * pointer to NULL. The reason is that vdev_metaslab_fini() 1539eda14cbcSMatt Macy * may be called multiple times for certain operations 1540eda14cbcSMatt Macy * (i.e. when destroying a pool) so we need to ensure that 1541eda14cbcSMatt Macy * this clause never executes twice. This logic is similar 1542eda14cbcSMatt Macy * to the one used for the vdev_ms clause below. 1543eda14cbcSMatt Macy */ 1544eda14cbcSMatt Macy vd->vdev_checkpoint_sm = NULL; 1545eda14cbcSMatt Macy } 1546eda14cbcSMatt Macy 1547eda14cbcSMatt Macy if (vd->vdev_ms != NULL) { 1548eda14cbcSMatt Macy metaslab_group_t *mg = vd->vdev_mg; 1549184c1b94SMartin Matuska 1550eda14cbcSMatt Macy metaslab_group_passivate(mg); 1551184c1b94SMartin Matuska if (vd->vdev_log_mg != NULL) { 1552184c1b94SMartin Matuska ASSERT(!vd->vdev_islog); 1553184c1b94SMartin Matuska metaslab_group_passivate(vd->vdev_log_mg); 1554184c1b94SMartin Matuska } 1555eda14cbcSMatt Macy 1556eda14cbcSMatt Macy uint64_t count = vd->vdev_ms_count; 1557eda14cbcSMatt Macy for (uint64_t m = 0; m < count; m++) { 1558eda14cbcSMatt Macy metaslab_t *msp = vd->vdev_ms[m]; 1559eda14cbcSMatt Macy if (msp != NULL) 1560eda14cbcSMatt Macy metaslab_fini(msp); 1561eda14cbcSMatt Macy } 1562eda14cbcSMatt Macy vmem_free(vd->vdev_ms, count * sizeof (metaslab_t *)); 1563eda14cbcSMatt Macy vd->vdev_ms = NULL; 1564eda14cbcSMatt Macy vd->vdev_ms_count = 0; 1565eda14cbcSMatt Macy 1566184c1b94SMartin Matuska for (int i = 0; i < RANGE_TREE_HISTOGRAM_SIZE; i++) { 1567eda14cbcSMatt Macy ASSERT0(mg->mg_histogram[i]); 1568184c1b94SMartin Matuska if (vd->vdev_log_mg != NULL) 1569184c1b94SMartin Matuska ASSERT0(vd->vdev_log_mg->mg_histogram[i]); 1570184c1b94SMartin Matuska } 1571eda14cbcSMatt Macy } 1572eda14cbcSMatt Macy ASSERT0(vd->vdev_ms_count); 1573eda14cbcSMatt Macy ASSERT3U(vd->vdev_pending_fastwrite, ==, 0); 1574eda14cbcSMatt Macy } 1575eda14cbcSMatt Macy 1576eda14cbcSMatt Macy typedef struct vdev_probe_stats { 1577eda14cbcSMatt Macy boolean_t vps_readable; 1578eda14cbcSMatt Macy boolean_t vps_writeable; 1579eda14cbcSMatt Macy int vps_flags; 1580eda14cbcSMatt Macy } vdev_probe_stats_t; 1581eda14cbcSMatt Macy 1582eda14cbcSMatt Macy static void 1583eda14cbcSMatt Macy vdev_probe_done(zio_t *zio) 1584eda14cbcSMatt Macy { 1585eda14cbcSMatt Macy spa_t *spa = zio->io_spa; 1586eda14cbcSMatt Macy vdev_t *vd = zio->io_vd; 1587eda14cbcSMatt Macy vdev_probe_stats_t *vps = zio->io_private; 1588eda14cbcSMatt Macy 1589eda14cbcSMatt Macy ASSERT(vd->vdev_probe_zio != NULL); 1590eda14cbcSMatt Macy 1591eda14cbcSMatt Macy if (zio->io_type == ZIO_TYPE_READ) { 1592eda14cbcSMatt Macy if (zio->io_error == 0) 1593eda14cbcSMatt Macy vps->vps_readable = 1; 1594eda14cbcSMatt Macy if (zio->io_error == 0 && spa_writeable(spa)) { 1595eda14cbcSMatt Macy zio_nowait(zio_write_phys(vd->vdev_probe_zio, vd, 1596eda14cbcSMatt Macy zio->io_offset, zio->io_size, zio->io_abd, 1597eda14cbcSMatt Macy ZIO_CHECKSUM_OFF, vdev_probe_done, vps, 1598eda14cbcSMatt Macy ZIO_PRIORITY_SYNC_WRITE, vps->vps_flags, B_TRUE)); 1599eda14cbcSMatt Macy } else { 1600eda14cbcSMatt Macy abd_free(zio->io_abd); 1601eda14cbcSMatt Macy } 1602eda14cbcSMatt Macy } else if (zio->io_type == ZIO_TYPE_WRITE) { 1603eda14cbcSMatt Macy if (zio->io_error == 0) 1604eda14cbcSMatt Macy vps->vps_writeable = 1; 1605eda14cbcSMatt Macy abd_free(zio->io_abd); 1606eda14cbcSMatt Macy } else if (zio->io_type == ZIO_TYPE_NULL) { 1607eda14cbcSMatt Macy zio_t *pio; 1608eda14cbcSMatt Macy zio_link_t *zl; 1609eda14cbcSMatt Macy 1610eda14cbcSMatt Macy vd->vdev_cant_read |= !vps->vps_readable; 1611eda14cbcSMatt Macy vd->vdev_cant_write |= !vps->vps_writeable; 1612eda14cbcSMatt Macy 1613eda14cbcSMatt Macy if (vdev_readable(vd) && 1614eda14cbcSMatt Macy (vdev_writeable(vd) || !spa_writeable(spa))) { 1615eda14cbcSMatt Macy zio->io_error = 0; 1616eda14cbcSMatt Macy } else { 1617eda14cbcSMatt Macy ASSERT(zio->io_error != 0); 1618eda14cbcSMatt Macy vdev_dbgmsg(vd, "failed probe"); 1619eac7052fSMatt Macy (void) zfs_ereport_post(FM_EREPORT_ZFS_PROBE_FAILURE, 16202c48331dSMatt Macy spa, vd, NULL, NULL, 0); 1621eda14cbcSMatt Macy zio->io_error = SET_ERROR(ENXIO); 1622eda14cbcSMatt Macy } 1623eda14cbcSMatt Macy 1624eda14cbcSMatt Macy mutex_enter(&vd->vdev_probe_lock); 1625eda14cbcSMatt Macy ASSERT(vd->vdev_probe_zio == zio); 1626eda14cbcSMatt Macy vd->vdev_probe_zio = NULL; 1627eda14cbcSMatt Macy mutex_exit(&vd->vdev_probe_lock); 1628eda14cbcSMatt Macy 1629eda14cbcSMatt Macy zl = NULL; 1630eda14cbcSMatt Macy while ((pio = zio_walk_parents(zio, &zl)) != NULL) 1631eda14cbcSMatt Macy if (!vdev_accessible(vd, pio)) 1632eda14cbcSMatt Macy pio->io_error = SET_ERROR(ENXIO); 1633eda14cbcSMatt Macy 1634eda14cbcSMatt Macy kmem_free(vps, sizeof (*vps)); 1635eda14cbcSMatt Macy } 1636eda14cbcSMatt Macy } 1637eda14cbcSMatt Macy 1638eda14cbcSMatt Macy /* 1639eda14cbcSMatt Macy * Determine whether this device is accessible. 1640eda14cbcSMatt Macy * 1641eda14cbcSMatt Macy * Read and write to several known locations: the pad regions of each 1642eda14cbcSMatt Macy * vdev label but the first, which we leave alone in case it contains 1643eda14cbcSMatt Macy * a VTOC. 1644eda14cbcSMatt Macy */ 1645eda14cbcSMatt Macy zio_t * 1646eda14cbcSMatt Macy vdev_probe(vdev_t *vd, zio_t *zio) 1647eda14cbcSMatt Macy { 1648eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 1649eda14cbcSMatt Macy vdev_probe_stats_t *vps = NULL; 1650eda14cbcSMatt Macy zio_t *pio; 1651eda14cbcSMatt Macy 1652eda14cbcSMatt Macy ASSERT(vd->vdev_ops->vdev_op_leaf); 1653eda14cbcSMatt Macy 1654eda14cbcSMatt Macy /* 1655eda14cbcSMatt Macy * Don't probe the probe. 1656eda14cbcSMatt Macy */ 1657eda14cbcSMatt Macy if (zio && (zio->io_flags & ZIO_FLAG_PROBE)) 1658eda14cbcSMatt Macy return (NULL); 1659eda14cbcSMatt Macy 1660eda14cbcSMatt Macy /* 1661eda14cbcSMatt Macy * To prevent 'probe storms' when a device fails, we create 1662eda14cbcSMatt Macy * just one probe i/o at a time. All zios that want to probe 1663eda14cbcSMatt Macy * this vdev will become parents of the probe io. 1664eda14cbcSMatt Macy */ 1665eda14cbcSMatt Macy mutex_enter(&vd->vdev_probe_lock); 1666eda14cbcSMatt Macy 1667eda14cbcSMatt Macy if ((pio = vd->vdev_probe_zio) == NULL) { 1668eda14cbcSMatt Macy vps = kmem_zalloc(sizeof (*vps), KM_SLEEP); 1669eda14cbcSMatt Macy 1670eda14cbcSMatt Macy vps->vps_flags = ZIO_FLAG_CANFAIL | ZIO_FLAG_PROBE | 1671eda14cbcSMatt Macy ZIO_FLAG_DONT_CACHE | ZIO_FLAG_DONT_AGGREGATE | 1672eda14cbcSMatt Macy ZIO_FLAG_TRYHARD; 1673eda14cbcSMatt Macy 1674eda14cbcSMatt Macy if (spa_config_held(spa, SCL_ZIO, RW_WRITER)) { 1675eda14cbcSMatt Macy /* 1676eda14cbcSMatt Macy * vdev_cant_read and vdev_cant_write can only 1677eda14cbcSMatt Macy * transition from TRUE to FALSE when we have the 1678eda14cbcSMatt Macy * SCL_ZIO lock as writer; otherwise they can only 1679eda14cbcSMatt Macy * transition from FALSE to TRUE. This ensures that 1680eda14cbcSMatt Macy * any zio looking at these values can assume that 1681eda14cbcSMatt Macy * failures persist for the life of the I/O. That's 1682eda14cbcSMatt Macy * important because when a device has intermittent 1683eda14cbcSMatt Macy * connectivity problems, we want to ensure that 1684eda14cbcSMatt Macy * they're ascribed to the device (ENXIO) and not 1685eda14cbcSMatt Macy * the zio (EIO). 1686eda14cbcSMatt Macy * 1687eda14cbcSMatt Macy * Since we hold SCL_ZIO as writer here, clear both 1688eda14cbcSMatt Macy * values so the probe can reevaluate from first 1689eda14cbcSMatt Macy * principles. 1690eda14cbcSMatt Macy */ 1691eda14cbcSMatt Macy vps->vps_flags |= ZIO_FLAG_CONFIG_WRITER; 1692eda14cbcSMatt Macy vd->vdev_cant_read = B_FALSE; 1693eda14cbcSMatt Macy vd->vdev_cant_write = B_FALSE; 1694eda14cbcSMatt Macy } 1695eda14cbcSMatt Macy 1696eda14cbcSMatt Macy vd->vdev_probe_zio = pio = zio_null(NULL, spa, vd, 1697eda14cbcSMatt Macy vdev_probe_done, vps, 1698eda14cbcSMatt Macy vps->vps_flags | ZIO_FLAG_DONT_PROPAGATE); 1699eda14cbcSMatt Macy 1700eda14cbcSMatt Macy /* 1701eda14cbcSMatt Macy * We can't change the vdev state in this context, so we 1702eda14cbcSMatt Macy * kick off an async task to do it on our behalf. 1703eda14cbcSMatt Macy */ 1704eda14cbcSMatt Macy if (zio != NULL) { 1705eda14cbcSMatt Macy vd->vdev_probe_wanted = B_TRUE; 1706eda14cbcSMatt Macy spa_async_request(spa, SPA_ASYNC_PROBE); 1707eda14cbcSMatt Macy } 1708eda14cbcSMatt Macy } 1709eda14cbcSMatt Macy 1710eda14cbcSMatt Macy if (zio != NULL) 1711eda14cbcSMatt Macy zio_add_child(zio, pio); 1712eda14cbcSMatt Macy 1713eda14cbcSMatt Macy mutex_exit(&vd->vdev_probe_lock); 1714eda14cbcSMatt Macy 1715eda14cbcSMatt Macy if (vps == NULL) { 1716eda14cbcSMatt Macy ASSERT(zio != NULL); 1717eda14cbcSMatt Macy return (NULL); 1718eda14cbcSMatt Macy } 1719eda14cbcSMatt Macy 1720eda14cbcSMatt Macy for (int l = 1; l < VDEV_LABELS; l++) { 1721eda14cbcSMatt Macy zio_nowait(zio_read_phys(pio, vd, 1722eda14cbcSMatt Macy vdev_label_offset(vd->vdev_psize, l, 1723eda14cbcSMatt Macy offsetof(vdev_label_t, vl_be)), VDEV_PAD_SIZE, 1724eda14cbcSMatt Macy abd_alloc_for_io(VDEV_PAD_SIZE, B_TRUE), 1725eda14cbcSMatt Macy ZIO_CHECKSUM_OFF, vdev_probe_done, vps, 1726eda14cbcSMatt Macy ZIO_PRIORITY_SYNC_READ, vps->vps_flags, B_TRUE)); 1727eda14cbcSMatt Macy } 1728eda14cbcSMatt Macy 1729eda14cbcSMatt Macy if (zio == NULL) 1730eda14cbcSMatt Macy return (pio); 1731eda14cbcSMatt Macy 1732eda14cbcSMatt Macy zio_nowait(pio); 1733eda14cbcSMatt Macy return (NULL); 1734eda14cbcSMatt Macy } 1735eda14cbcSMatt Macy 1736eda14cbcSMatt Macy static void 1737184c1b94SMartin Matuska vdev_load_child(void *arg) 1738184c1b94SMartin Matuska { 1739184c1b94SMartin Matuska vdev_t *vd = arg; 1740184c1b94SMartin Matuska 1741184c1b94SMartin Matuska vd->vdev_load_error = vdev_load(vd); 1742184c1b94SMartin Matuska } 1743184c1b94SMartin Matuska 1744184c1b94SMartin Matuska static void 1745eda14cbcSMatt Macy vdev_open_child(void *arg) 1746eda14cbcSMatt Macy { 1747eda14cbcSMatt Macy vdev_t *vd = arg; 1748eda14cbcSMatt Macy 1749eda14cbcSMatt Macy vd->vdev_open_thread = curthread; 1750eda14cbcSMatt Macy vd->vdev_open_error = vdev_open(vd); 1751eda14cbcSMatt Macy vd->vdev_open_thread = NULL; 1752eda14cbcSMatt Macy } 1753eda14cbcSMatt Macy 1754eda14cbcSMatt Macy static boolean_t 1755eda14cbcSMatt Macy vdev_uses_zvols(vdev_t *vd) 1756eda14cbcSMatt Macy { 1757eda14cbcSMatt Macy #ifdef _KERNEL 1758eda14cbcSMatt Macy if (zvol_is_zvol(vd->vdev_path)) 1759eda14cbcSMatt Macy return (B_TRUE); 1760eda14cbcSMatt Macy #endif 1761eda14cbcSMatt Macy 1762eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 1763eda14cbcSMatt Macy if (vdev_uses_zvols(vd->vdev_child[c])) 1764eda14cbcSMatt Macy return (B_TRUE); 1765eda14cbcSMatt Macy 1766eda14cbcSMatt Macy return (B_FALSE); 1767eda14cbcSMatt Macy } 1768eda14cbcSMatt Macy 17697877fdebSMatt Macy /* 17707877fdebSMatt Macy * Returns B_TRUE if the passed child should be opened. 17717877fdebSMatt Macy */ 17727877fdebSMatt Macy static boolean_t 17737877fdebSMatt Macy vdev_default_open_children_func(vdev_t *vd) 17747877fdebSMatt Macy { 1775e92ffd9bSMartin Matuska (void) vd; 17767877fdebSMatt Macy return (B_TRUE); 17777877fdebSMatt Macy } 17787877fdebSMatt Macy 17797877fdebSMatt Macy /* 17807877fdebSMatt Macy * Open the requested child vdevs. If any of the leaf vdevs are using 17817877fdebSMatt Macy * a ZFS volume then do the opens in a single thread. This avoids a 17827877fdebSMatt Macy * deadlock when the current thread is holding the spa_namespace_lock. 17837877fdebSMatt Macy */ 17847877fdebSMatt Macy static void 17857877fdebSMatt Macy vdev_open_children_impl(vdev_t *vd, vdev_open_children_func_t *open_func) 17867877fdebSMatt Macy { 17877877fdebSMatt Macy int children = vd->vdev_children; 17887877fdebSMatt Macy 17897877fdebSMatt Macy taskq_t *tq = taskq_create("vdev_open", children, minclsyspri, 17907877fdebSMatt Macy children, children, TASKQ_PREPOPULATE); 17917877fdebSMatt Macy vd->vdev_nonrot = B_TRUE; 17927877fdebSMatt Macy 17937877fdebSMatt Macy for (int c = 0; c < children; c++) { 17947877fdebSMatt Macy vdev_t *cvd = vd->vdev_child[c]; 17957877fdebSMatt Macy 17967877fdebSMatt Macy if (open_func(cvd) == B_FALSE) 17977877fdebSMatt Macy continue; 17987877fdebSMatt Macy 17997877fdebSMatt Macy if (tq == NULL || vdev_uses_zvols(vd)) { 18007877fdebSMatt Macy cvd->vdev_open_error = vdev_open(cvd); 18017877fdebSMatt Macy } else { 18027877fdebSMatt Macy VERIFY(taskq_dispatch(tq, vdev_open_child, 18037877fdebSMatt Macy cvd, TQ_SLEEP) != TASKQID_INVALID); 18047877fdebSMatt Macy } 18057877fdebSMatt Macy 18067877fdebSMatt Macy vd->vdev_nonrot &= cvd->vdev_nonrot; 18077877fdebSMatt Macy } 18087877fdebSMatt Macy 18097877fdebSMatt Macy if (tq != NULL) { 18107877fdebSMatt Macy taskq_wait(tq); 18117877fdebSMatt Macy taskq_destroy(tq); 18127877fdebSMatt Macy } 18137877fdebSMatt Macy } 18147877fdebSMatt Macy 18157877fdebSMatt Macy /* 18167877fdebSMatt Macy * Open all child vdevs. 18177877fdebSMatt Macy */ 1818eda14cbcSMatt Macy void 1819eda14cbcSMatt Macy vdev_open_children(vdev_t *vd) 1820eda14cbcSMatt Macy { 18217877fdebSMatt Macy vdev_open_children_impl(vd, vdev_default_open_children_func); 1822eda14cbcSMatt Macy } 1823eda14cbcSMatt Macy 18247877fdebSMatt Macy /* 18257877fdebSMatt Macy * Conditionally open a subset of child vdevs. 18267877fdebSMatt Macy */ 18277877fdebSMatt Macy void 18287877fdebSMatt Macy vdev_open_children_subset(vdev_t *vd, vdev_open_children_func_t *open_func) 18297877fdebSMatt Macy { 18307877fdebSMatt Macy vdev_open_children_impl(vd, open_func); 1831eda14cbcSMatt Macy } 1832eda14cbcSMatt Macy 1833eda14cbcSMatt Macy /* 1834eda14cbcSMatt Macy * Compute the raidz-deflation ratio. Note, we hard-code 1835eda14cbcSMatt Macy * in 128k (1 << 17) because it is the "typical" blocksize. 1836eda14cbcSMatt Macy * Even though SPA_MAXBLOCKSIZE changed, this algorithm can not change, 1837eda14cbcSMatt Macy * otherwise it would inconsistently account for existing bp's. 1838eda14cbcSMatt Macy */ 1839eda14cbcSMatt Macy static void 1840eda14cbcSMatt Macy vdev_set_deflate_ratio(vdev_t *vd) 1841eda14cbcSMatt Macy { 1842eda14cbcSMatt Macy if (vd == vd->vdev_top && !vd->vdev_ishole && vd->vdev_ashift != 0) { 1843eda14cbcSMatt Macy vd->vdev_deflate_ratio = (1 << 17) / 1844eda14cbcSMatt Macy (vdev_psize_to_asize(vd, 1 << 17) >> SPA_MINBLOCKSHIFT); 1845eda14cbcSMatt Macy } 1846eda14cbcSMatt Macy } 1847eda14cbcSMatt Macy 1848eda14cbcSMatt Macy /* 18492c48331dSMatt Macy * Maximize performance by inflating the configured ashift for top level 18502c48331dSMatt Macy * vdevs to be as close to the physical ashift as possible while maintaining 18512c48331dSMatt Macy * administrator defined limits and ensuring it doesn't go below the 18522c48331dSMatt Macy * logical ashift. 18532c48331dSMatt Macy */ 18542c48331dSMatt Macy static void 18552c48331dSMatt Macy vdev_ashift_optimize(vdev_t *vd) 18562c48331dSMatt Macy { 18572c48331dSMatt Macy ASSERT(vd == vd->vdev_top); 18582c48331dSMatt Macy 18592c48331dSMatt Macy if (vd->vdev_ashift < vd->vdev_physical_ashift) { 18602c48331dSMatt Macy vd->vdev_ashift = MIN( 18612c48331dSMatt Macy MAX(zfs_vdev_max_auto_ashift, vd->vdev_ashift), 18622c48331dSMatt Macy MAX(zfs_vdev_min_auto_ashift, 18632c48331dSMatt Macy vd->vdev_physical_ashift)); 18642c48331dSMatt Macy } else { 18652c48331dSMatt Macy /* 18662c48331dSMatt Macy * If the logical and physical ashifts are the same, then 18672c48331dSMatt Macy * we ensure that the top-level vdev's ashift is not smaller 18682c48331dSMatt Macy * than our minimum ashift value. For the unusual case 18692c48331dSMatt Macy * where logical ashift > physical ashift, we can't cap 18702c48331dSMatt Macy * the calculated ashift based on max ashift as that 18712c48331dSMatt Macy * would cause failures. 18722c48331dSMatt Macy * We still check if we need to increase it to match 18732c48331dSMatt Macy * the min ashift. 18742c48331dSMatt Macy */ 18752c48331dSMatt Macy vd->vdev_ashift = MAX(zfs_vdev_min_auto_ashift, 18762c48331dSMatt Macy vd->vdev_ashift); 18772c48331dSMatt Macy } 18782c48331dSMatt Macy } 18792c48331dSMatt Macy 18802c48331dSMatt Macy /* 1881eda14cbcSMatt Macy * Prepare a virtual device for access. 1882eda14cbcSMatt Macy */ 1883eda14cbcSMatt Macy int 1884eda14cbcSMatt Macy vdev_open(vdev_t *vd) 1885eda14cbcSMatt Macy { 1886eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 1887eda14cbcSMatt Macy int error; 1888eda14cbcSMatt Macy uint64_t osize = 0; 1889eda14cbcSMatt Macy uint64_t max_osize = 0; 1890eda14cbcSMatt Macy uint64_t asize, max_asize, psize; 1891eda14cbcSMatt Macy uint64_t logical_ashift = 0; 1892eda14cbcSMatt Macy uint64_t physical_ashift = 0; 1893eda14cbcSMatt Macy 1894eda14cbcSMatt Macy ASSERT(vd->vdev_open_thread == curthread || 1895eda14cbcSMatt Macy spa_config_held(spa, SCL_STATE_ALL, RW_WRITER) == SCL_STATE_ALL); 1896eda14cbcSMatt Macy ASSERT(vd->vdev_state == VDEV_STATE_CLOSED || 1897eda14cbcSMatt Macy vd->vdev_state == VDEV_STATE_CANT_OPEN || 1898eda14cbcSMatt Macy vd->vdev_state == VDEV_STATE_OFFLINE); 1899eda14cbcSMatt Macy 1900eda14cbcSMatt Macy vd->vdev_stat.vs_aux = VDEV_AUX_NONE; 1901eda14cbcSMatt Macy vd->vdev_cant_read = B_FALSE; 1902eda14cbcSMatt Macy vd->vdev_cant_write = B_FALSE; 1903eda14cbcSMatt Macy vd->vdev_min_asize = vdev_get_min_asize(vd); 1904eda14cbcSMatt Macy 1905eda14cbcSMatt Macy /* 1906eda14cbcSMatt Macy * If this vdev is not removed, check its fault status. If it's 1907eda14cbcSMatt Macy * faulted, bail out of the open. 1908eda14cbcSMatt Macy */ 1909eda14cbcSMatt Macy if (!vd->vdev_removed && vd->vdev_faulted) { 1910eda14cbcSMatt Macy ASSERT(vd->vdev_children == 0); 1911eda14cbcSMatt Macy ASSERT(vd->vdev_label_aux == VDEV_AUX_ERR_EXCEEDED || 1912eda14cbcSMatt Macy vd->vdev_label_aux == VDEV_AUX_EXTERNAL); 1913eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_FAULTED, 1914eda14cbcSMatt Macy vd->vdev_label_aux); 1915eda14cbcSMatt Macy return (SET_ERROR(ENXIO)); 1916eda14cbcSMatt Macy } else if (vd->vdev_offline) { 1917eda14cbcSMatt Macy ASSERT(vd->vdev_children == 0); 1918eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_OFFLINE, VDEV_AUX_NONE); 1919eda14cbcSMatt Macy return (SET_ERROR(ENXIO)); 1920eda14cbcSMatt Macy } 1921eda14cbcSMatt Macy 1922eda14cbcSMatt Macy error = vd->vdev_ops->vdev_op_open(vd, &osize, &max_osize, 1923eda14cbcSMatt Macy &logical_ashift, &physical_ashift); 1924eda14cbcSMatt Macy /* 1925eda14cbcSMatt Macy * Physical volume size should never be larger than its max size, unless 1926eda14cbcSMatt Macy * the disk has shrunk while we were reading it or the device is buggy 1927eda14cbcSMatt Macy * or damaged: either way it's not safe for use, bail out of the open. 1928eda14cbcSMatt Macy */ 1929eda14cbcSMatt Macy if (osize > max_osize) { 1930eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_CANT_OPEN, 1931eda14cbcSMatt Macy VDEV_AUX_OPEN_FAILED); 1932eda14cbcSMatt Macy return (SET_ERROR(ENXIO)); 1933eda14cbcSMatt Macy } 1934eda14cbcSMatt Macy 1935eda14cbcSMatt Macy /* 1936eda14cbcSMatt Macy * Reset the vdev_reopening flag so that we actually close 1937eda14cbcSMatt Macy * the vdev on error. 1938eda14cbcSMatt Macy */ 1939eda14cbcSMatt Macy vd->vdev_reopening = B_FALSE; 1940eda14cbcSMatt Macy if (zio_injection_enabled && error == 0) 1941eda14cbcSMatt Macy error = zio_handle_device_injection(vd, NULL, SET_ERROR(ENXIO)); 1942eda14cbcSMatt Macy 1943eda14cbcSMatt Macy if (error) { 1944eda14cbcSMatt Macy if (vd->vdev_removed && 1945eda14cbcSMatt Macy vd->vdev_stat.vs_aux != VDEV_AUX_OPEN_FAILED) 1946eda14cbcSMatt Macy vd->vdev_removed = B_FALSE; 1947eda14cbcSMatt Macy 1948eda14cbcSMatt Macy if (vd->vdev_stat.vs_aux == VDEV_AUX_CHILDREN_OFFLINE) { 1949eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_OFFLINE, 1950eda14cbcSMatt Macy vd->vdev_stat.vs_aux); 1951eda14cbcSMatt Macy } else { 1952eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_CANT_OPEN, 1953eda14cbcSMatt Macy vd->vdev_stat.vs_aux); 1954eda14cbcSMatt Macy } 1955eda14cbcSMatt Macy return (error); 1956eda14cbcSMatt Macy } 1957eda14cbcSMatt Macy 1958eda14cbcSMatt Macy vd->vdev_removed = B_FALSE; 1959eda14cbcSMatt Macy 1960eda14cbcSMatt Macy /* 1961eda14cbcSMatt Macy * Recheck the faulted flag now that we have confirmed that 1962eda14cbcSMatt Macy * the vdev is accessible. If we're faulted, bail. 1963eda14cbcSMatt Macy */ 1964eda14cbcSMatt Macy if (vd->vdev_faulted) { 1965eda14cbcSMatt Macy ASSERT(vd->vdev_children == 0); 1966eda14cbcSMatt Macy ASSERT(vd->vdev_label_aux == VDEV_AUX_ERR_EXCEEDED || 1967eda14cbcSMatt Macy vd->vdev_label_aux == VDEV_AUX_EXTERNAL); 1968eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_FAULTED, 1969eda14cbcSMatt Macy vd->vdev_label_aux); 1970eda14cbcSMatt Macy return (SET_ERROR(ENXIO)); 1971eda14cbcSMatt Macy } 1972eda14cbcSMatt Macy 1973eda14cbcSMatt Macy if (vd->vdev_degraded) { 1974eda14cbcSMatt Macy ASSERT(vd->vdev_children == 0); 1975eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_DEGRADED, 1976eda14cbcSMatt Macy VDEV_AUX_ERR_EXCEEDED); 1977eda14cbcSMatt Macy } else { 1978eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_HEALTHY, 0); 1979eda14cbcSMatt Macy } 1980eda14cbcSMatt Macy 1981eda14cbcSMatt Macy /* 1982eda14cbcSMatt Macy * For hole or missing vdevs we just return success. 1983eda14cbcSMatt Macy */ 1984eda14cbcSMatt Macy if (vd->vdev_ishole || vd->vdev_ops == &vdev_missing_ops) 1985eda14cbcSMatt Macy return (0); 1986eda14cbcSMatt Macy 1987eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 1988eda14cbcSMatt Macy if (vd->vdev_child[c]->vdev_state != VDEV_STATE_HEALTHY) { 1989eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_DEGRADED, 1990eda14cbcSMatt Macy VDEV_AUX_NONE); 1991eda14cbcSMatt Macy break; 1992eda14cbcSMatt Macy } 1993eda14cbcSMatt Macy } 1994eda14cbcSMatt Macy 1995eda14cbcSMatt Macy osize = P2ALIGN(osize, (uint64_t)sizeof (vdev_label_t)); 1996eda14cbcSMatt Macy max_osize = P2ALIGN(max_osize, (uint64_t)sizeof (vdev_label_t)); 1997eda14cbcSMatt Macy 1998eda14cbcSMatt Macy if (vd->vdev_children == 0) { 1999eda14cbcSMatt Macy if (osize < SPA_MINDEVSIZE) { 2000eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_CANT_OPEN, 2001eda14cbcSMatt Macy VDEV_AUX_TOO_SMALL); 2002eda14cbcSMatt Macy return (SET_ERROR(EOVERFLOW)); 2003eda14cbcSMatt Macy } 2004eda14cbcSMatt Macy psize = osize; 2005eda14cbcSMatt Macy asize = osize - (VDEV_LABEL_START_SIZE + VDEV_LABEL_END_SIZE); 2006eda14cbcSMatt Macy max_asize = max_osize - (VDEV_LABEL_START_SIZE + 2007eda14cbcSMatt Macy VDEV_LABEL_END_SIZE); 2008eda14cbcSMatt Macy } else { 2009eda14cbcSMatt Macy if (vd->vdev_parent != NULL && osize < SPA_MINDEVSIZE - 2010eda14cbcSMatt Macy (VDEV_LABEL_START_SIZE + VDEV_LABEL_END_SIZE)) { 2011eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_CANT_OPEN, 2012eda14cbcSMatt Macy VDEV_AUX_TOO_SMALL); 2013eda14cbcSMatt Macy return (SET_ERROR(EOVERFLOW)); 2014eda14cbcSMatt Macy } 2015eda14cbcSMatt Macy psize = 0; 2016eda14cbcSMatt Macy asize = osize; 2017eda14cbcSMatt Macy max_asize = max_osize; 2018eda14cbcSMatt Macy } 2019eda14cbcSMatt Macy 2020eda14cbcSMatt Macy /* 2021eda14cbcSMatt Macy * If the vdev was expanded, record this so that we can re-create the 2022eda14cbcSMatt Macy * uberblock rings in labels {2,3}, during the next sync. 2023eda14cbcSMatt Macy */ 2024eda14cbcSMatt Macy if ((psize > vd->vdev_psize) && (vd->vdev_psize != 0)) 2025eda14cbcSMatt Macy vd->vdev_copy_uberblocks = B_TRUE; 2026eda14cbcSMatt Macy 2027eda14cbcSMatt Macy vd->vdev_psize = psize; 2028eda14cbcSMatt Macy 2029eda14cbcSMatt Macy /* 2030eda14cbcSMatt Macy * Make sure the allocatable size hasn't shrunk too much. 2031eda14cbcSMatt Macy */ 2032eda14cbcSMatt Macy if (asize < vd->vdev_min_asize) { 2033eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_CANT_OPEN, 2034eda14cbcSMatt Macy VDEV_AUX_BAD_LABEL); 2035eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 2036eda14cbcSMatt Macy } 2037eda14cbcSMatt Macy 20382c48331dSMatt Macy /* 20392c48331dSMatt Macy * We can always set the logical/physical ashift members since 20402c48331dSMatt Macy * their values are only used to calculate the vdev_ashift when 20412c48331dSMatt Macy * the device is first added to the config. These values should 20422c48331dSMatt Macy * not be used for anything else since they may change whenever 20432c48331dSMatt Macy * the device is reopened and we don't store them in the label. 20442c48331dSMatt Macy */ 2045eda14cbcSMatt Macy vd->vdev_physical_ashift = 2046eda14cbcSMatt Macy MAX(physical_ashift, vd->vdev_physical_ashift); 20472c48331dSMatt Macy vd->vdev_logical_ashift = MAX(logical_ashift, 20482c48331dSMatt Macy vd->vdev_logical_ashift); 2049eda14cbcSMatt Macy 2050eda14cbcSMatt Macy if (vd->vdev_asize == 0) { 2051eda14cbcSMatt Macy /* 2052eda14cbcSMatt Macy * This is the first-ever open, so use the computed values. 2053eda14cbcSMatt Macy * For compatibility, a different ashift can be requested. 2054eda14cbcSMatt Macy */ 2055eda14cbcSMatt Macy vd->vdev_asize = asize; 2056eda14cbcSMatt Macy vd->vdev_max_asize = max_asize; 20572c48331dSMatt Macy 20582c48331dSMatt Macy /* 205916038816SMartin Matuska * If the vdev_ashift was not overridden at creation time, 20602c48331dSMatt Macy * then set it the logical ashift and optimize the ashift. 20612c48331dSMatt Macy */ 20622c48331dSMatt Macy if (vd->vdev_ashift == 0) { 20632c48331dSMatt Macy vd->vdev_ashift = vd->vdev_logical_ashift; 20642c48331dSMatt Macy 20652c48331dSMatt Macy if (vd->vdev_logical_ashift > ASHIFT_MAX) { 20662c48331dSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_CANT_OPEN, 20672c48331dSMatt Macy VDEV_AUX_ASHIFT_TOO_BIG); 20682c48331dSMatt Macy return (SET_ERROR(EDOM)); 20692c48331dSMatt Macy } 20702c48331dSMatt Macy 20712c48331dSMatt Macy if (vd->vdev_top == vd) { 20722c48331dSMatt Macy vdev_ashift_optimize(vd); 20732c48331dSMatt Macy } 20742c48331dSMatt Macy } 2075eda14cbcSMatt Macy if (vd->vdev_ashift != 0 && (vd->vdev_ashift < ASHIFT_MIN || 2076eda14cbcSMatt Macy vd->vdev_ashift > ASHIFT_MAX)) { 2077eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_CANT_OPEN, 2078eda14cbcSMatt Macy VDEV_AUX_BAD_ASHIFT); 2079eda14cbcSMatt Macy return (SET_ERROR(EDOM)); 2080eda14cbcSMatt Macy } 2081eda14cbcSMatt Macy } else { 2082eda14cbcSMatt Macy /* 2083eda14cbcSMatt Macy * Make sure the alignment required hasn't increased. 2084eda14cbcSMatt Macy */ 2085eda14cbcSMatt Macy if (vd->vdev_ashift > vd->vdev_top->vdev_ashift && 2086eda14cbcSMatt Macy vd->vdev_ops->vdev_op_leaf) { 2087eac7052fSMatt Macy (void) zfs_ereport_post( 2088eac7052fSMatt Macy FM_EREPORT_ZFS_DEVICE_BAD_ASHIFT, 20892c48331dSMatt Macy spa, vd, NULL, NULL, 0); 2090eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_CANT_OPEN, 2091eda14cbcSMatt Macy VDEV_AUX_BAD_LABEL); 2092eda14cbcSMatt Macy return (SET_ERROR(EDOM)); 2093eda14cbcSMatt Macy } 2094eda14cbcSMatt Macy vd->vdev_max_asize = max_asize; 2095eda14cbcSMatt Macy } 2096eda14cbcSMatt Macy 2097eda14cbcSMatt Macy /* 2098eda14cbcSMatt Macy * If all children are healthy we update asize if either: 2099eda14cbcSMatt Macy * The asize has increased, due to a device expansion caused by dynamic 2100eda14cbcSMatt Macy * LUN growth or vdev replacement, and automatic expansion is enabled; 2101eda14cbcSMatt Macy * making the additional space available. 2102eda14cbcSMatt Macy * 2103eda14cbcSMatt Macy * The asize has decreased, due to a device shrink usually caused by a 2104eda14cbcSMatt Macy * vdev replace with a smaller device. This ensures that calculations 2105eda14cbcSMatt Macy * based of max_asize and asize e.g. esize are always valid. It's safe 2106eda14cbcSMatt Macy * to do this as we've already validated that asize is greater than 2107eda14cbcSMatt Macy * vdev_min_asize. 2108eda14cbcSMatt Macy */ 2109eda14cbcSMatt Macy if (vd->vdev_state == VDEV_STATE_HEALTHY && 2110eda14cbcSMatt Macy ((asize > vd->vdev_asize && 2111eda14cbcSMatt Macy (vd->vdev_expanding || spa->spa_autoexpand)) || 2112eda14cbcSMatt Macy (asize < vd->vdev_asize))) 2113eda14cbcSMatt Macy vd->vdev_asize = asize; 2114eda14cbcSMatt Macy 2115eda14cbcSMatt Macy vdev_set_min_asize(vd); 2116eda14cbcSMatt Macy 2117eda14cbcSMatt Macy /* 2118eda14cbcSMatt Macy * Ensure we can issue some IO before declaring the 2119eda14cbcSMatt Macy * vdev open for business. 2120eda14cbcSMatt Macy */ 2121eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf && 2122eda14cbcSMatt Macy (error = zio_wait(vdev_probe(vd, NULL))) != 0) { 2123eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_FAULTED, 2124eda14cbcSMatt Macy VDEV_AUX_ERR_EXCEEDED); 2125eda14cbcSMatt Macy return (error); 2126eda14cbcSMatt Macy } 2127eda14cbcSMatt Macy 2128eda14cbcSMatt Macy /* 212916038816SMartin Matuska * Track the minimum allocation size. 21307877fdebSMatt Macy */ 21317877fdebSMatt Macy if (vd->vdev_top == vd && vd->vdev_ashift != 0 && 21327877fdebSMatt Macy vd->vdev_islog == 0 && vd->vdev_aux == NULL) { 21337877fdebSMatt Macy uint64_t min_alloc = vdev_get_min_alloc(vd); 21347877fdebSMatt Macy if (min_alloc < spa->spa_min_alloc) 21357877fdebSMatt Macy spa->spa_min_alloc = min_alloc; 21367877fdebSMatt Macy } 21377877fdebSMatt Macy 21387877fdebSMatt Macy /* 2139eda14cbcSMatt Macy * If this is a leaf vdev, assess whether a resilver is needed. 2140eda14cbcSMatt Macy * But don't do this if we are doing a reopen for a scrub, since 2141eda14cbcSMatt Macy * this would just restart the scrub we are already doing. 2142eda14cbcSMatt Macy */ 2143eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf && !spa->spa_scrub_reopen) 2144eda14cbcSMatt Macy dsl_scan_assess_vdev(spa->spa_dsl_pool, vd); 2145eda14cbcSMatt Macy 2146eda14cbcSMatt Macy return (0); 2147eda14cbcSMatt Macy } 2148eda14cbcSMatt Macy 2149184c1b94SMartin Matuska static void 2150184c1b94SMartin Matuska vdev_validate_child(void *arg) 2151184c1b94SMartin Matuska { 2152184c1b94SMartin Matuska vdev_t *vd = arg; 2153184c1b94SMartin Matuska 2154184c1b94SMartin Matuska vd->vdev_validate_thread = curthread; 2155184c1b94SMartin Matuska vd->vdev_validate_error = vdev_validate(vd); 2156184c1b94SMartin Matuska vd->vdev_validate_thread = NULL; 2157184c1b94SMartin Matuska } 2158184c1b94SMartin Matuska 2159eda14cbcSMatt Macy /* 2160eda14cbcSMatt Macy * Called once the vdevs are all opened, this routine validates the label 2161eda14cbcSMatt Macy * contents. This needs to be done before vdev_load() so that we don't 2162eda14cbcSMatt Macy * inadvertently do repair I/Os to the wrong device. 2163eda14cbcSMatt Macy * 2164eda14cbcSMatt Macy * This function will only return failure if one of the vdevs indicates that it 2165eda14cbcSMatt Macy * has since been destroyed or exported. This is only possible if 2166eda14cbcSMatt Macy * /etc/zfs/zpool.cache was readonly at the time. Otherwise, the vdev state 2167eda14cbcSMatt Macy * will be updated but the function will return 0. 2168eda14cbcSMatt Macy */ 2169eda14cbcSMatt Macy int 2170eda14cbcSMatt Macy vdev_validate(vdev_t *vd) 2171eda14cbcSMatt Macy { 2172eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 2173184c1b94SMartin Matuska taskq_t *tq = NULL; 2174eda14cbcSMatt Macy nvlist_t *label; 2175eda14cbcSMatt Macy uint64_t guid = 0, aux_guid = 0, top_guid; 2176eda14cbcSMatt Macy uint64_t state; 2177eda14cbcSMatt Macy nvlist_t *nvl; 2178eda14cbcSMatt Macy uint64_t txg; 2179184c1b94SMartin Matuska int children = vd->vdev_children; 2180eda14cbcSMatt Macy 2181eda14cbcSMatt Macy if (vdev_validate_skip) 2182eda14cbcSMatt Macy return (0); 2183eda14cbcSMatt Macy 2184184c1b94SMartin Matuska if (children > 0) { 2185184c1b94SMartin Matuska tq = taskq_create("vdev_validate", children, minclsyspri, 2186184c1b94SMartin Matuska children, children, TASKQ_PREPOPULATE); 2187184c1b94SMartin Matuska } 2188184c1b94SMartin Matuska 2189184c1b94SMartin Matuska for (uint64_t c = 0; c < children; c++) { 2190184c1b94SMartin Matuska vdev_t *cvd = vd->vdev_child[c]; 2191184c1b94SMartin Matuska 2192184c1b94SMartin Matuska if (tq == NULL || vdev_uses_zvols(cvd)) { 2193184c1b94SMartin Matuska vdev_validate_child(cvd); 2194184c1b94SMartin Matuska } else { 2195184c1b94SMartin Matuska VERIFY(taskq_dispatch(tq, vdev_validate_child, cvd, 2196184c1b94SMartin Matuska TQ_SLEEP) != TASKQID_INVALID); 2197184c1b94SMartin Matuska } 2198184c1b94SMartin Matuska } 2199184c1b94SMartin Matuska if (tq != NULL) { 2200184c1b94SMartin Matuska taskq_wait(tq); 2201184c1b94SMartin Matuska taskq_destroy(tq); 2202184c1b94SMartin Matuska } 2203184c1b94SMartin Matuska for (int c = 0; c < children; c++) { 2204184c1b94SMartin Matuska int error = vd->vdev_child[c]->vdev_validate_error; 2205184c1b94SMartin Matuska 2206184c1b94SMartin Matuska if (error != 0) 2207eda14cbcSMatt Macy return (SET_ERROR(EBADF)); 2208184c1b94SMartin Matuska } 2209184c1b94SMartin Matuska 2210eda14cbcSMatt Macy 2211eda14cbcSMatt Macy /* 2212eda14cbcSMatt Macy * If the device has already failed, or was marked offline, don't do 2213eda14cbcSMatt Macy * any further validation. Otherwise, label I/O will fail and we will 2214eda14cbcSMatt Macy * overwrite the previous state. 2215eda14cbcSMatt Macy */ 2216eda14cbcSMatt Macy if (!vd->vdev_ops->vdev_op_leaf || !vdev_readable(vd)) 2217eda14cbcSMatt Macy return (0); 2218eda14cbcSMatt Macy 2219eda14cbcSMatt Macy /* 2220eda14cbcSMatt Macy * If we are performing an extreme rewind, we allow for a label that 2221eda14cbcSMatt Macy * was modified at a point after the current txg. 2222eda14cbcSMatt Macy * If config lock is not held do not check for the txg. spa_sync could 2223eda14cbcSMatt Macy * be updating the vdev's label before updating spa_last_synced_txg. 2224eda14cbcSMatt Macy */ 2225eda14cbcSMatt Macy if (spa->spa_extreme_rewind || spa_last_synced_txg(spa) == 0 || 2226eda14cbcSMatt Macy spa_config_held(spa, SCL_CONFIG, RW_WRITER) != SCL_CONFIG) 2227eda14cbcSMatt Macy txg = UINT64_MAX; 2228eda14cbcSMatt Macy else 2229eda14cbcSMatt Macy txg = spa_last_synced_txg(spa); 2230eda14cbcSMatt Macy 2231eda14cbcSMatt Macy if ((label = vdev_label_read_config(vd, txg)) == NULL) { 223216038816SMartin Matuska vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 2233eda14cbcSMatt Macy VDEV_AUX_BAD_LABEL); 2234eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_validate: failed reading config for " 2235eda14cbcSMatt Macy "txg %llu", (u_longlong_t)txg); 2236eda14cbcSMatt Macy return (0); 2237eda14cbcSMatt Macy } 2238eda14cbcSMatt Macy 2239eda14cbcSMatt Macy /* 2240eda14cbcSMatt Macy * Determine if this vdev has been split off into another 2241eda14cbcSMatt Macy * pool. If so, then refuse to open it. 2242eda14cbcSMatt Macy */ 2243eda14cbcSMatt Macy if (nvlist_lookup_uint64(label, ZPOOL_CONFIG_SPLIT_GUID, 2244eda14cbcSMatt Macy &aux_guid) == 0 && aux_guid == spa_guid(spa)) { 2245eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 2246eda14cbcSMatt Macy VDEV_AUX_SPLIT_POOL); 2247eda14cbcSMatt Macy nvlist_free(label); 2248eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_validate: vdev split into other pool"); 2249eda14cbcSMatt Macy return (0); 2250eda14cbcSMatt Macy } 2251eda14cbcSMatt Macy 2252eda14cbcSMatt Macy if (nvlist_lookup_uint64(label, ZPOOL_CONFIG_POOL_GUID, &guid) != 0) { 2253eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 2254eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 2255eda14cbcSMatt Macy nvlist_free(label); 2256eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_validate: '%s' missing from label", 2257eda14cbcSMatt Macy ZPOOL_CONFIG_POOL_GUID); 2258eda14cbcSMatt Macy return (0); 2259eda14cbcSMatt Macy } 2260eda14cbcSMatt Macy 2261eda14cbcSMatt Macy /* 2262eda14cbcSMatt Macy * If config is not trusted then ignore the spa guid check. This is 2263eda14cbcSMatt Macy * necessary because if the machine crashed during a re-guid the new 2264eda14cbcSMatt Macy * guid might have been written to all of the vdev labels, but not the 2265eda14cbcSMatt Macy * cached config. The check will be performed again once we have the 2266eda14cbcSMatt Macy * trusted config from the MOS. 2267eda14cbcSMatt Macy */ 2268eda14cbcSMatt Macy if (spa->spa_trust_config && guid != spa_guid(spa)) { 2269eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 2270eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 2271eda14cbcSMatt Macy nvlist_free(label); 2272eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_validate: vdev label pool_guid doesn't " 2273eda14cbcSMatt Macy "match config (%llu != %llu)", (u_longlong_t)guid, 2274eda14cbcSMatt Macy (u_longlong_t)spa_guid(spa)); 2275eda14cbcSMatt Macy return (0); 2276eda14cbcSMatt Macy } 2277eda14cbcSMatt Macy 2278eda14cbcSMatt Macy if (nvlist_lookup_nvlist(label, ZPOOL_CONFIG_VDEV_TREE, &nvl) 2279eda14cbcSMatt Macy != 0 || nvlist_lookup_uint64(nvl, ZPOOL_CONFIG_ORIG_GUID, 2280eda14cbcSMatt Macy &aux_guid) != 0) 2281eda14cbcSMatt Macy aux_guid = 0; 2282eda14cbcSMatt Macy 2283eda14cbcSMatt Macy if (nvlist_lookup_uint64(label, ZPOOL_CONFIG_GUID, &guid) != 0) { 2284eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 2285eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 2286eda14cbcSMatt Macy nvlist_free(label); 2287eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_validate: '%s' missing from label", 2288eda14cbcSMatt Macy ZPOOL_CONFIG_GUID); 2289eda14cbcSMatt Macy return (0); 2290eda14cbcSMatt Macy } 2291eda14cbcSMatt Macy 2292eda14cbcSMatt Macy if (nvlist_lookup_uint64(label, ZPOOL_CONFIG_TOP_GUID, &top_guid) 2293eda14cbcSMatt Macy != 0) { 2294eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 2295eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 2296eda14cbcSMatt Macy nvlist_free(label); 2297eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_validate: '%s' missing from label", 2298eda14cbcSMatt Macy ZPOOL_CONFIG_TOP_GUID); 2299eda14cbcSMatt Macy return (0); 2300eda14cbcSMatt Macy } 2301eda14cbcSMatt Macy 2302eda14cbcSMatt Macy /* 2303eda14cbcSMatt Macy * If this vdev just became a top-level vdev because its sibling was 2304eda14cbcSMatt Macy * detached, it will have adopted the parent's vdev guid -- but the 2305eda14cbcSMatt Macy * label may or may not be on disk yet. Fortunately, either version 2306eda14cbcSMatt Macy * of the label will have the same top guid, so if we're a top-level 2307eda14cbcSMatt Macy * vdev, we can safely compare to that instead. 2308eda14cbcSMatt Macy * However, if the config comes from a cachefile that failed to update 2309eda14cbcSMatt Macy * after the detach, a top-level vdev will appear as a non top-level 2310eda14cbcSMatt Macy * vdev in the config. Also relax the constraints if we perform an 2311eda14cbcSMatt Macy * extreme rewind. 2312eda14cbcSMatt Macy * 2313eda14cbcSMatt Macy * If we split this vdev off instead, then we also check the 2314eda14cbcSMatt Macy * original pool's guid. We don't want to consider the vdev 2315eda14cbcSMatt Macy * corrupt if it is partway through a split operation. 2316eda14cbcSMatt Macy */ 2317eda14cbcSMatt Macy if (vd->vdev_guid != guid && vd->vdev_guid != aux_guid) { 2318eda14cbcSMatt Macy boolean_t mismatch = B_FALSE; 2319eda14cbcSMatt Macy if (spa->spa_trust_config && !spa->spa_extreme_rewind) { 2320eda14cbcSMatt Macy if (vd != vd->vdev_top || vd->vdev_guid != top_guid) 2321eda14cbcSMatt Macy mismatch = B_TRUE; 2322eda14cbcSMatt Macy } else { 2323eda14cbcSMatt Macy if (vd->vdev_guid != top_guid && 2324eda14cbcSMatt Macy vd->vdev_top->vdev_guid != guid) 2325eda14cbcSMatt Macy mismatch = B_TRUE; 2326eda14cbcSMatt Macy } 2327eda14cbcSMatt Macy 2328eda14cbcSMatt Macy if (mismatch) { 2329eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 2330eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 2331eda14cbcSMatt Macy nvlist_free(label); 2332eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_validate: config guid " 2333eda14cbcSMatt Macy "doesn't match label guid"); 2334eda14cbcSMatt Macy vdev_dbgmsg(vd, "CONFIG: guid %llu, top_guid %llu", 2335eda14cbcSMatt Macy (u_longlong_t)vd->vdev_guid, 2336eda14cbcSMatt Macy (u_longlong_t)vd->vdev_top->vdev_guid); 2337eda14cbcSMatt Macy vdev_dbgmsg(vd, "LABEL: guid %llu, top_guid %llu, " 2338eda14cbcSMatt Macy "aux_guid %llu", (u_longlong_t)guid, 2339eda14cbcSMatt Macy (u_longlong_t)top_guid, (u_longlong_t)aux_guid); 2340eda14cbcSMatt Macy return (0); 2341eda14cbcSMatt Macy } 2342eda14cbcSMatt Macy } 2343eda14cbcSMatt Macy 2344eda14cbcSMatt Macy if (nvlist_lookup_uint64(label, ZPOOL_CONFIG_POOL_STATE, 2345eda14cbcSMatt Macy &state) != 0) { 2346eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 2347eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 2348eda14cbcSMatt Macy nvlist_free(label); 2349eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_validate: '%s' missing from label", 2350eda14cbcSMatt Macy ZPOOL_CONFIG_POOL_STATE); 2351eda14cbcSMatt Macy return (0); 2352eda14cbcSMatt Macy } 2353eda14cbcSMatt Macy 2354eda14cbcSMatt Macy nvlist_free(label); 2355eda14cbcSMatt Macy 2356eda14cbcSMatt Macy /* 2357eda14cbcSMatt Macy * If this is a verbatim import, no need to check the 2358eda14cbcSMatt Macy * state of the pool. 2359eda14cbcSMatt Macy */ 2360eda14cbcSMatt Macy if (!(spa->spa_import_flags & ZFS_IMPORT_VERBATIM) && 2361eda14cbcSMatt Macy spa_load_state(spa) == SPA_LOAD_OPEN && 2362eda14cbcSMatt Macy state != POOL_STATE_ACTIVE) { 2363eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_validate: invalid pool state (%llu) " 2364eda14cbcSMatt Macy "for spa %s", (u_longlong_t)state, spa->spa_name); 2365eda14cbcSMatt Macy return (SET_ERROR(EBADF)); 2366eda14cbcSMatt Macy } 2367eda14cbcSMatt Macy 2368eda14cbcSMatt Macy /* 2369eda14cbcSMatt Macy * If we were able to open and validate a vdev that was 2370eda14cbcSMatt Macy * previously marked permanently unavailable, clear that state 2371eda14cbcSMatt Macy * now. 2372eda14cbcSMatt Macy */ 2373eda14cbcSMatt Macy if (vd->vdev_not_present) 2374eda14cbcSMatt Macy vd->vdev_not_present = 0; 2375eda14cbcSMatt Macy 2376eda14cbcSMatt Macy return (0); 2377eda14cbcSMatt Macy } 2378eda14cbcSMatt Macy 2379eda14cbcSMatt Macy static void 2380eda14cbcSMatt Macy vdev_copy_path_impl(vdev_t *svd, vdev_t *dvd) 2381eda14cbcSMatt Macy { 23826ba2210eSMartin Matuska char *old, *new; 2383eda14cbcSMatt Macy if (svd->vdev_path != NULL && dvd->vdev_path != NULL) { 2384eda14cbcSMatt Macy if (strcmp(svd->vdev_path, dvd->vdev_path) != 0) { 2385eda14cbcSMatt Macy zfs_dbgmsg("vdev_copy_path: vdev %llu: path changed " 2386eda14cbcSMatt Macy "from '%s' to '%s'", (u_longlong_t)dvd->vdev_guid, 2387eda14cbcSMatt Macy dvd->vdev_path, svd->vdev_path); 2388eda14cbcSMatt Macy spa_strfree(dvd->vdev_path); 2389eda14cbcSMatt Macy dvd->vdev_path = spa_strdup(svd->vdev_path); 2390eda14cbcSMatt Macy } 2391eda14cbcSMatt Macy } else if (svd->vdev_path != NULL) { 2392eda14cbcSMatt Macy dvd->vdev_path = spa_strdup(svd->vdev_path); 2393eda14cbcSMatt Macy zfs_dbgmsg("vdev_copy_path: vdev %llu: path set to '%s'", 2394eda14cbcSMatt Macy (u_longlong_t)dvd->vdev_guid, dvd->vdev_path); 2395eda14cbcSMatt Macy } 23966ba2210eSMartin Matuska 23976ba2210eSMartin Matuska /* 23986ba2210eSMartin Matuska * Our enclosure sysfs path may have changed between imports 23996ba2210eSMartin Matuska */ 24006ba2210eSMartin Matuska old = dvd->vdev_enc_sysfs_path; 24016ba2210eSMartin Matuska new = svd->vdev_enc_sysfs_path; 24026ba2210eSMartin Matuska if ((old != NULL && new == NULL) || 24036ba2210eSMartin Matuska (old == NULL && new != NULL) || 24046ba2210eSMartin Matuska ((old != NULL && new != NULL) && strcmp(new, old) != 0)) { 24056ba2210eSMartin Matuska zfs_dbgmsg("vdev_copy_path: vdev %llu: vdev_enc_sysfs_path " 24066ba2210eSMartin Matuska "changed from '%s' to '%s'", (u_longlong_t)dvd->vdev_guid, 24076ba2210eSMartin Matuska old, new); 24086ba2210eSMartin Matuska 24096ba2210eSMartin Matuska if (dvd->vdev_enc_sysfs_path) 24106ba2210eSMartin Matuska spa_strfree(dvd->vdev_enc_sysfs_path); 24116ba2210eSMartin Matuska 24126ba2210eSMartin Matuska if (svd->vdev_enc_sysfs_path) { 24136ba2210eSMartin Matuska dvd->vdev_enc_sysfs_path = spa_strdup( 24146ba2210eSMartin Matuska svd->vdev_enc_sysfs_path); 24156ba2210eSMartin Matuska } else { 24166ba2210eSMartin Matuska dvd->vdev_enc_sysfs_path = NULL; 24176ba2210eSMartin Matuska } 24186ba2210eSMartin Matuska } 2419eda14cbcSMatt Macy } 2420eda14cbcSMatt Macy 2421eda14cbcSMatt Macy /* 2422eda14cbcSMatt Macy * Recursively copy vdev paths from one vdev to another. Source and destination 2423eda14cbcSMatt Macy * vdev trees must have same geometry otherwise return error. Intended to copy 2424eda14cbcSMatt Macy * paths from userland config into MOS config. 2425eda14cbcSMatt Macy */ 2426eda14cbcSMatt Macy int 2427eda14cbcSMatt Macy vdev_copy_path_strict(vdev_t *svd, vdev_t *dvd) 2428eda14cbcSMatt Macy { 2429eda14cbcSMatt Macy if ((svd->vdev_ops == &vdev_missing_ops) || 2430eda14cbcSMatt Macy (svd->vdev_ishole && dvd->vdev_ishole) || 2431eda14cbcSMatt Macy (dvd->vdev_ops == &vdev_indirect_ops)) 2432eda14cbcSMatt Macy return (0); 2433eda14cbcSMatt Macy 2434eda14cbcSMatt Macy if (svd->vdev_ops != dvd->vdev_ops) { 2435eda14cbcSMatt Macy vdev_dbgmsg(svd, "vdev_copy_path: vdev type mismatch: %s != %s", 2436eda14cbcSMatt Macy svd->vdev_ops->vdev_op_type, dvd->vdev_ops->vdev_op_type); 2437eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 2438eda14cbcSMatt Macy } 2439eda14cbcSMatt Macy 2440eda14cbcSMatt Macy if (svd->vdev_guid != dvd->vdev_guid) { 2441eda14cbcSMatt Macy vdev_dbgmsg(svd, "vdev_copy_path: guids mismatch (%llu != " 2442eda14cbcSMatt Macy "%llu)", (u_longlong_t)svd->vdev_guid, 2443eda14cbcSMatt Macy (u_longlong_t)dvd->vdev_guid); 2444eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 2445eda14cbcSMatt Macy } 2446eda14cbcSMatt Macy 2447eda14cbcSMatt Macy if (svd->vdev_children != dvd->vdev_children) { 2448eda14cbcSMatt Macy vdev_dbgmsg(svd, "vdev_copy_path: children count mismatch: " 2449eda14cbcSMatt Macy "%llu != %llu", (u_longlong_t)svd->vdev_children, 2450eda14cbcSMatt Macy (u_longlong_t)dvd->vdev_children); 2451eda14cbcSMatt Macy return (SET_ERROR(EINVAL)); 2452eda14cbcSMatt Macy } 2453eda14cbcSMatt Macy 2454eda14cbcSMatt Macy for (uint64_t i = 0; i < svd->vdev_children; i++) { 2455eda14cbcSMatt Macy int error = vdev_copy_path_strict(svd->vdev_child[i], 2456eda14cbcSMatt Macy dvd->vdev_child[i]); 2457eda14cbcSMatt Macy if (error != 0) 2458eda14cbcSMatt Macy return (error); 2459eda14cbcSMatt Macy } 2460eda14cbcSMatt Macy 2461eda14cbcSMatt Macy if (svd->vdev_ops->vdev_op_leaf) 2462eda14cbcSMatt Macy vdev_copy_path_impl(svd, dvd); 2463eda14cbcSMatt Macy 2464eda14cbcSMatt Macy return (0); 2465eda14cbcSMatt Macy } 2466eda14cbcSMatt Macy 2467eda14cbcSMatt Macy static void 2468eda14cbcSMatt Macy vdev_copy_path_search(vdev_t *stvd, vdev_t *dvd) 2469eda14cbcSMatt Macy { 2470eda14cbcSMatt Macy ASSERT(stvd->vdev_top == stvd); 2471eda14cbcSMatt Macy ASSERT3U(stvd->vdev_id, ==, dvd->vdev_top->vdev_id); 2472eda14cbcSMatt Macy 2473eda14cbcSMatt Macy for (uint64_t i = 0; i < dvd->vdev_children; i++) { 2474eda14cbcSMatt Macy vdev_copy_path_search(stvd, dvd->vdev_child[i]); 2475eda14cbcSMatt Macy } 2476eda14cbcSMatt Macy 2477eda14cbcSMatt Macy if (!dvd->vdev_ops->vdev_op_leaf || !vdev_is_concrete(dvd)) 2478eda14cbcSMatt Macy return; 2479eda14cbcSMatt Macy 2480eda14cbcSMatt Macy /* 2481eda14cbcSMatt Macy * The idea here is that while a vdev can shift positions within 2482eda14cbcSMatt Macy * a top vdev (when replacing, attaching mirror, etc.) it cannot 2483eda14cbcSMatt Macy * step outside of it. 2484eda14cbcSMatt Macy */ 2485eda14cbcSMatt Macy vdev_t *vd = vdev_lookup_by_guid(stvd, dvd->vdev_guid); 2486eda14cbcSMatt Macy 2487eda14cbcSMatt Macy if (vd == NULL || vd->vdev_ops != dvd->vdev_ops) 2488eda14cbcSMatt Macy return; 2489eda14cbcSMatt Macy 2490eda14cbcSMatt Macy ASSERT(vd->vdev_ops->vdev_op_leaf); 2491eda14cbcSMatt Macy 2492eda14cbcSMatt Macy vdev_copy_path_impl(vd, dvd); 2493eda14cbcSMatt Macy } 2494eda14cbcSMatt Macy 2495eda14cbcSMatt Macy /* 2496eda14cbcSMatt Macy * Recursively copy vdev paths from one root vdev to another. Source and 2497eda14cbcSMatt Macy * destination vdev trees may differ in geometry. For each destination leaf 2498eda14cbcSMatt Macy * vdev, search a vdev with the same guid and top vdev id in the source. 2499eda14cbcSMatt Macy * Intended to copy paths from userland config into MOS config. 2500eda14cbcSMatt Macy */ 2501eda14cbcSMatt Macy void 2502eda14cbcSMatt Macy vdev_copy_path_relaxed(vdev_t *srvd, vdev_t *drvd) 2503eda14cbcSMatt Macy { 2504eda14cbcSMatt Macy uint64_t children = MIN(srvd->vdev_children, drvd->vdev_children); 2505eda14cbcSMatt Macy ASSERT(srvd->vdev_ops == &vdev_root_ops); 2506eda14cbcSMatt Macy ASSERT(drvd->vdev_ops == &vdev_root_ops); 2507eda14cbcSMatt Macy 2508eda14cbcSMatt Macy for (uint64_t i = 0; i < children; i++) { 2509eda14cbcSMatt Macy vdev_copy_path_search(srvd->vdev_child[i], 2510eda14cbcSMatt Macy drvd->vdev_child[i]); 2511eda14cbcSMatt Macy } 2512eda14cbcSMatt Macy } 2513eda14cbcSMatt Macy 2514eda14cbcSMatt Macy /* 2515eda14cbcSMatt Macy * Close a virtual device. 2516eda14cbcSMatt Macy */ 2517eda14cbcSMatt Macy void 2518eda14cbcSMatt Macy vdev_close(vdev_t *vd) 2519eda14cbcSMatt Macy { 2520eda14cbcSMatt Macy vdev_t *pvd = vd->vdev_parent; 2521eda14cbcSMatt Macy spa_t *spa __maybe_unused = vd->vdev_spa; 2522eda14cbcSMatt Macy 25237877fdebSMatt Macy ASSERT(vd != NULL); 25247877fdebSMatt Macy ASSERT(vd->vdev_open_thread == curthread || 25257877fdebSMatt Macy spa_config_held(spa, SCL_STATE_ALL, RW_WRITER) == SCL_STATE_ALL); 2526eda14cbcSMatt Macy 2527eda14cbcSMatt Macy /* 2528eda14cbcSMatt Macy * If our parent is reopening, then we are as well, unless we are 2529eda14cbcSMatt Macy * going offline. 2530eda14cbcSMatt Macy */ 2531eda14cbcSMatt Macy if (pvd != NULL && pvd->vdev_reopening) 2532eda14cbcSMatt Macy vd->vdev_reopening = (pvd->vdev_reopening && !vd->vdev_offline); 2533eda14cbcSMatt Macy 2534eda14cbcSMatt Macy vd->vdev_ops->vdev_op_close(vd); 2535eda14cbcSMatt Macy 2536eda14cbcSMatt Macy vdev_cache_purge(vd); 2537eda14cbcSMatt Macy 2538eda14cbcSMatt Macy /* 2539eda14cbcSMatt Macy * We record the previous state before we close it, so that if we are 2540eda14cbcSMatt Macy * doing a reopen(), we don't generate FMA ereports if we notice that 2541eda14cbcSMatt Macy * it's still faulted. 2542eda14cbcSMatt Macy */ 2543eda14cbcSMatt Macy vd->vdev_prevstate = vd->vdev_state; 2544eda14cbcSMatt Macy 2545eda14cbcSMatt Macy if (vd->vdev_offline) 2546eda14cbcSMatt Macy vd->vdev_state = VDEV_STATE_OFFLINE; 2547eda14cbcSMatt Macy else 2548eda14cbcSMatt Macy vd->vdev_state = VDEV_STATE_CLOSED; 2549eda14cbcSMatt Macy vd->vdev_stat.vs_aux = VDEV_AUX_NONE; 2550eda14cbcSMatt Macy } 2551eda14cbcSMatt Macy 2552eda14cbcSMatt Macy void 2553eda14cbcSMatt Macy vdev_hold(vdev_t *vd) 2554eda14cbcSMatt Macy { 2555eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 2556eda14cbcSMatt Macy 2557eda14cbcSMatt Macy ASSERT(spa_is_root(spa)); 2558eda14cbcSMatt Macy if (spa->spa_state == POOL_STATE_UNINITIALIZED) 2559eda14cbcSMatt Macy return; 2560eda14cbcSMatt Macy 2561eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 2562eda14cbcSMatt Macy vdev_hold(vd->vdev_child[c]); 2563eda14cbcSMatt Macy 2564ba27dd8bSMartin Matuska if (vd->vdev_ops->vdev_op_leaf && vd->vdev_ops->vdev_op_hold != NULL) 2565eda14cbcSMatt Macy vd->vdev_ops->vdev_op_hold(vd); 2566eda14cbcSMatt Macy } 2567eda14cbcSMatt Macy 2568eda14cbcSMatt Macy void 2569eda14cbcSMatt Macy vdev_rele(vdev_t *vd) 2570eda14cbcSMatt Macy { 2571eda14cbcSMatt Macy ASSERT(spa_is_root(vd->vdev_spa)); 2572eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 2573eda14cbcSMatt Macy vdev_rele(vd->vdev_child[c]); 2574eda14cbcSMatt Macy 2575ba27dd8bSMartin Matuska if (vd->vdev_ops->vdev_op_leaf && vd->vdev_ops->vdev_op_rele != NULL) 2576eda14cbcSMatt Macy vd->vdev_ops->vdev_op_rele(vd); 2577eda14cbcSMatt Macy } 2578eda14cbcSMatt Macy 2579eda14cbcSMatt Macy /* 2580eda14cbcSMatt Macy * Reopen all interior vdevs and any unopened leaves. We don't actually 2581eda14cbcSMatt Macy * reopen leaf vdevs which had previously been opened as they might deadlock 2582eda14cbcSMatt Macy * on the spa_config_lock. Instead we only obtain the leaf's physical size. 2583eda14cbcSMatt Macy * If the leaf has never been opened then open it, as usual. 2584eda14cbcSMatt Macy */ 2585eda14cbcSMatt Macy void 2586eda14cbcSMatt Macy vdev_reopen(vdev_t *vd) 2587eda14cbcSMatt Macy { 2588eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 2589eda14cbcSMatt Macy 2590eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_STATE_ALL, RW_WRITER) == SCL_STATE_ALL); 2591eda14cbcSMatt Macy 2592eda14cbcSMatt Macy /* set the reopening flag unless we're taking the vdev offline */ 2593eda14cbcSMatt Macy vd->vdev_reopening = !vd->vdev_offline; 2594eda14cbcSMatt Macy vdev_close(vd); 2595eda14cbcSMatt Macy (void) vdev_open(vd); 2596eda14cbcSMatt Macy 2597eda14cbcSMatt Macy /* 2598eda14cbcSMatt Macy * Call vdev_validate() here to make sure we have the same device. 2599eda14cbcSMatt Macy * Otherwise, a device with an invalid label could be successfully 2600eda14cbcSMatt Macy * opened in response to vdev_reopen(). 2601eda14cbcSMatt Macy */ 2602eda14cbcSMatt Macy if (vd->vdev_aux) { 2603eda14cbcSMatt Macy (void) vdev_validate_aux(vd); 2604eda14cbcSMatt Macy if (vdev_readable(vd) && vdev_writeable(vd) && 2605eda14cbcSMatt Macy vd->vdev_aux == &spa->spa_l2cache) { 2606eda14cbcSMatt Macy /* 2607eda14cbcSMatt Macy * In case the vdev is present we should evict all ARC 2608eda14cbcSMatt Macy * buffers and pointers to log blocks and reclaim their 2609eda14cbcSMatt Macy * space before restoring its contents to L2ARC. 2610eda14cbcSMatt Macy */ 2611eda14cbcSMatt Macy if (l2arc_vdev_present(vd)) { 2612eda14cbcSMatt Macy l2arc_rebuild_vdev(vd, B_TRUE); 2613eda14cbcSMatt Macy } else { 2614eda14cbcSMatt Macy l2arc_add_vdev(spa, vd); 2615eda14cbcSMatt Macy } 2616eda14cbcSMatt Macy spa_async_request(spa, SPA_ASYNC_L2CACHE_REBUILD); 2617eda14cbcSMatt Macy spa_async_request(spa, SPA_ASYNC_L2CACHE_TRIM); 2618eda14cbcSMatt Macy } 2619eda14cbcSMatt Macy } else { 2620eda14cbcSMatt Macy (void) vdev_validate(vd); 2621eda14cbcSMatt Macy } 2622eda14cbcSMatt Macy 2623eda14cbcSMatt Macy /* 2624eda14cbcSMatt Macy * Reassess parent vdev's health. 2625eda14cbcSMatt Macy */ 2626eda14cbcSMatt Macy vdev_propagate_state(vd); 2627eda14cbcSMatt Macy } 2628eda14cbcSMatt Macy 2629eda14cbcSMatt Macy int 2630eda14cbcSMatt Macy vdev_create(vdev_t *vd, uint64_t txg, boolean_t isreplacing) 2631eda14cbcSMatt Macy { 2632eda14cbcSMatt Macy int error; 2633eda14cbcSMatt Macy 2634eda14cbcSMatt Macy /* 2635eda14cbcSMatt Macy * Normally, partial opens (e.g. of a mirror) are allowed. 2636eda14cbcSMatt Macy * For a create, however, we want to fail the request if 2637eda14cbcSMatt Macy * there are any components we can't open. 2638eda14cbcSMatt Macy */ 2639eda14cbcSMatt Macy error = vdev_open(vd); 2640eda14cbcSMatt Macy 2641eda14cbcSMatt Macy if (error || vd->vdev_state != VDEV_STATE_HEALTHY) { 2642eda14cbcSMatt Macy vdev_close(vd); 2643eda14cbcSMatt Macy return (error ? error : SET_ERROR(ENXIO)); 2644eda14cbcSMatt Macy } 2645eda14cbcSMatt Macy 2646eda14cbcSMatt Macy /* 2647eda14cbcSMatt Macy * Recursively load DTLs and initialize all labels. 2648eda14cbcSMatt Macy */ 2649eda14cbcSMatt Macy if ((error = vdev_dtl_load(vd)) != 0 || 2650eda14cbcSMatt Macy (error = vdev_label_init(vd, txg, isreplacing ? 2651eda14cbcSMatt Macy VDEV_LABEL_REPLACE : VDEV_LABEL_CREATE)) != 0) { 2652eda14cbcSMatt Macy vdev_close(vd); 2653eda14cbcSMatt Macy return (error); 2654eda14cbcSMatt Macy } 2655eda14cbcSMatt Macy 2656eda14cbcSMatt Macy return (0); 2657eda14cbcSMatt Macy } 2658eda14cbcSMatt Macy 2659eda14cbcSMatt Macy void 2660eda14cbcSMatt Macy vdev_metaslab_set_size(vdev_t *vd) 2661eda14cbcSMatt Macy { 2662eda14cbcSMatt Macy uint64_t asize = vd->vdev_asize; 2663eda14cbcSMatt Macy uint64_t ms_count = asize >> zfs_vdev_default_ms_shift; 2664eda14cbcSMatt Macy uint64_t ms_shift; 2665eda14cbcSMatt Macy 2666eda14cbcSMatt Macy /* 2667eda14cbcSMatt Macy * There are two dimensions to the metaslab sizing calculation: 2668eda14cbcSMatt Macy * the size of the metaslab and the count of metaslabs per vdev. 2669eda14cbcSMatt Macy * 2670eda14cbcSMatt Macy * The default values used below are a good balance between memory 2671eda14cbcSMatt Macy * usage (larger metaslab size means more memory needed for loaded 2672eda14cbcSMatt Macy * metaslabs; more metaslabs means more memory needed for the 2673eda14cbcSMatt Macy * metaslab_t structs), metaslab load time (larger metaslabs take 2674eda14cbcSMatt Macy * longer to load), and metaslab sync time (more metaslabs means 2675eda14cbcSMatt Macy * more time spent syncing all of them). 2676eda14cbcSMatt Macy * 2677eda14cbcSMatt Macy * In general, we aim for zfs_vdev_default_ms_count (200) metaslabs. 2678eda14cbcSMatt Macy * The range of the dimensions are as follows: 2679eda14cbcSMatt Macy * 2680eda14cbcSMatt Macy * 2^29 <= ms_size <= 2^34 2681eda14cbcSMatt Macy * 16 <= ms_count <= 131,072 2682eda14cbcSMatt Macy * 2683eda14cbcSMatt Macy * On the lower end of vdev sizes, we aim for metaslabs sizes of 2684eda14cbcSMatt Macy * at least 512MB (2^29) to minimize fragmentation effects when 2685eda14cbcSMatt Macy * testing with smaller devices. However, the count constraint 2686eda14cbcSMatt Macy * of at least 16 metaslabs will override this minimum size goal. 2687eda14cbcSMatt Macy * 2688eda14cbcSMatt Macy * On the upper end of vdev sizes, we aim for a maximum metaslab 2689eda14cbcSMatt Macy * size of 16GB. However, we will cap the total count to 2^17 2690eda14cbcSMatt Macy * metaslabs to keep our memory footprint in check and let the 2691eda14cbcSMatt Macy * metaslab size grow from there if that limit is hit. 2692eda14cbcSMatt Macy * 2693eda14cbcSMatt Macy * The net effect of applying above constrains is summarized below. 2694eda14cbcSMatt Macy * 2695eda14cbcSMatt Macy * vdev size metaslab count 2696eda14cbcSMatt Macy * --------------|----------------- 2697eda14cbcSMatt Macy * < 8GB ~16 2698eda14cbcSMatt Macy * 8GB - 100GB one per 512MB 2699eda14cbcSMatt Macy * 100GB - 3TB ~200 2700eda14cbcSMatt Macy * 3TB - 2PB one per 16GB 2701eda14cbcSMatt Macy * > 2PB ~131,072 2702eda14cbcSMatt Macy * -------------------------------- 2703eda14cbcSMatt Macy * 2704eda14cbcSMatt Macy * Finally, note that all of the above calculate the initial 2705eda14cbcSMatt Macy * number of metaslabs. Expanding a top-level vdev will result 2706eda14cbcSMatt Macy * in additional metaslabs being allocated making it possible 2707eda14cbcSMatt Macy * to exceed the zfs_vdev_ms_count_limit. 2708eda14cbcSMatt Macy */ 2709eda14cbcSMatt Macy 2710eda14cbcSMatt Macy if (ms_count < zfs_vdev_min_ms_count) 2711eda14cbcSMatt Macy ms_shift = highbit64(asize / zfs_vdev_min_ms_count); 2712eda14cbcSMatt Macy else if (ms_count > zfs_vdev_default_ms_count) 2713eda14cbcSMatt Macy ms_shift = highbit64(asize / zfs_vdev_default_ms_count); 2714eda14cbcSMatt Macy else 2715eda14cbcSMatt Macy ms_shift = zfs_vdev_default_ms_shift; 2716eda14cbcSMatt Macy 2717eda14cbcSMatt Macy if (ms_shift < SPA_MAXBLOCKSHIFT) { 2718eda14cbcSMatt Macy ms_shift = SPA_MAXBLOCKSHIFT; 2719eda14cbcSMatt Macy } else if (ms_shift > zfs_vdev_max_ms_shift) { 2720eda14cbcSMatt Macy ms_shift = zfs_vdev_max_ms_shift; 2721eda14cbcSMatt Macy /* cap the total count to constrain memory footprint */ 2722eda14cbcSMatt Macy if ((asize >> ms_shift) > zfs_vdev_ms_count_limit) 2723eda14cbcSMatt Macy ms_shift = highbit64(asize / zfs_vdev_ms_count_limit); 2724eda14cbcSMatt Macy } 2725eda14cbcSMatt Macy 2726eda14cbcSMatt Macy vd->vdev_ms_shift = ms_shift; 2727eda14cbcSMatt Macy ASSERT3U(vd->vdev_ms_shift, >=, SPA_MAXBLOCKSHIFT); 2728eda14cbcSMatt Macy } 2729eda14cbcSMatt Macy 2730eda14cbcSMatt Macy void 2731eda14cbcSMatt Macy vdev_dirty(vdev_t *vd, int flags, void *arg, uint64_t txg) 2732eda14cbcSMatt Macy { 2733eda14cbcSMatt Macy ASSERT(vd == vd->vdev_top); 2734eda14cbcSMatt Macy /* indirect vdevs don't have metaslabs or dtls */ 2735eda14cbcSMatt Macy ASSERT(vdev_is_concrete(vd) || flags == 0); 2736eda14cbcSMatt Macy ASSERT(ISP2(flags)); 2737eda14cbcSMatt Macy ASSERT(spa_writeable(vd->vdev_spa)); 2738eda14cbcSMatt Macy 2739eda14cbcSMatt Macy if (flags & VDD_METASLAB) 2740eda14cbcSMatt Macy (void) txg_list_add(&vd->vdev_ms_list, arg, txg); 2741eda14cbcSMatt Macy 2742eda14cbcSMatt Macy if (flags & VDD_DTL) 2743eda14cbcSMatt Macy (void) txg_list_add(&vd->vdev_dtl_list, arg, txg); 2744eda14cbcSMatt Macy 2745eda14cbcSMatt Macy (void) txg_list_add(&vd->vdev_spa->spa_vdev_txg_list, vd, txg); 2746eda14cbcSMatt Macy } 2747eda14cbcSMatt Macy 2748eda14cbcSMatt Macy void 2749eda14cbcSMatt Macy vdev_dirty_leaves(vdev_t *vd, int flags, uint64_t txg) 2750eda14cbcSMatt Macy { 2751eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 2752eda14cbcSMatt Macy vdev_dirty_leaves(vd->vdev_child[c], flags, txg); 2753eda14cbcSMatt Macy 2754eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf) 2755eda14cbcSMatt Macy vdev_dirty(vd->vdev_top, flags, vd, txg); 2756eda14cbcSMatt Macy } 2757eda14cbcSMatt Macy 2758eda14cbcSMatt Macy /* 2759eda14cbcSMatt Macy * DTLs. 2760eda14cbcSMatt Macy * 2761eda14cbcSMatt Macy * A vdev's DTL (dirty time log) is the set of transaction groups for which 2762eda14cbcSMatt Macy * the vdev has less than perfect replication. There are four kinds of DTL: 2763eda14cbcSMatt Macy * 2764eda14cbcSMatt Macy * DTL_MISSING: txgs for which the vdev has no valid copies of the data 2765eda14cbcSMatt Macy * 2766eda14cbcSMatt Macy * DTL_PARTIAL: txgs for which data is available, but not fully replicated 2767eda14cbcSMatt Macy * 2768eda14cbcSMatt Macy * DTL_SCRUB: the txgs that could not be repaired by the last scrub; upon 2769eda14cbcSMatt Macy * scrub completion, DTL_SCRUB replaces DTL_MISSING in the range of 2770eda14cbcSMatt Macy * txgs that was scrubbed. 2771eda14cbcSMatt Macy * 2772eda14cbcSMatt Macy * DTL_OUTAGE: txgs which cannot currently be read, whether due to 2773eda14cbcSMatt Macy * persistent errors or just some device being offline. 2774eda14cbcSMatt Macy * Unlike the other three, the DTL_OUTAGE map is not generally 2775eda14cbcSMatt Macy * maintained; it's only computed when needed, typically to 2776eda14cbcSMatt Macy * determine whether a device can be detached. 2777eda14cbcSMatt Macy * 2778eda14cbcSMatt Macy * For leaf vdevs, DTL_MISSING and DTL_PARTIAL are identical: the device 2779eda14cbcSMatt Macy * either has the data or it doesn't. 2780eda14cbcSMatt Macy * 2781eda14cbcSMatt Macy * For interior vdevs such as mirror and RAID-Z the picture is more complex. 2782eda14cbcSMatt Macy * A vdev's DTL_PARTIAL is the union of its children's DTL_PARTIALs, because 2783eda14cbcSMatt Macy * if any child is less than fully replicated, then so is its parent. 2784eda14cbcSMatt Macy * A vdev's DTL_MISSING is a modified union of its children's DTL_MISSINGs, 2785eda14cbcSMatt Macy * comprising only those txgs which appear in 'maxfaults' or more children; 2786eda14cbcSMatt Macy * those are the txgs we don't have enough replication to read. For example, 2787eda14cbcSMatt Macy * double-parity RAID-Z can tolerate up to two missing devices (maxfaults == 2); 2788eda14cbcSMatt Macy * thus, its DTL_MISSING consists of the set of txgs that appear in more than 2789eda14cbcSMatt Macy * two child DTL_MISSING maps. 2790eda14cbcSMatt Macy * 2791eda14cbcSMatt Macy * It should be clear from the above that to compute the DTLs and outage maps 2792eda14cbcSMatt Macy * for all vdevs, it suffices to know just the leaf vdevs' DTL_MISSING maps. 2793eda14cbcSMatt Macy * Therefore, that is all we keep on disk. When loading the pool, or after 2794eda14cbcSMatt Macy * a configuration change, we generate all other DTLs from first principles. 2795eda14cbcSMatt Macy */ 2796eda14cbcSMatt Macy void 2797eda14cbcSMatt Macy vdev_dtl_dirty(vdev_t *vd, vdev_dtl_type_t t, uint64_t txg, uint64_t size) 2798eda14cbcSMatt Macy { 2799eda14cbcSMatt Macy range_tree_t *rt = vd->vdev_dtl[t]; 2800eda14cbcSMatt Macy 2801eda14cbcSMatt Macy ASSERT(t < DTL_TYPES); 2802eda14cbcSMatt Macy ASSERT(vd != vd->vdev_spa->spa_root_vdev); 2803eda14cbcSMatt Macy ASSERT(spa_writeable(vd->vdev_spa)); 2804eda14cbcSMatt Macy 2805eda14cbcSMatt Macy mutex_enter(&vd->vdev_dtl_lock); 2806eda14cbcSMatt Macy if (!range_tree_contains(rt, txg, size)) 2807eda14cbcSMatt Macy range_tree_add(rt, txg, size); 2808eda14cbcSMatt Macy mutex_exit(&vd->vdev_dtl_lock); 2809eda14cbcSMatt Macy } 2810eda14cbcSMatt Macy 2811eda14cbcSMatt Macy boolean_t 2812eda14cbcSMatt Macy vdev_dtl_contains(vdev_t *vd, vdev_dtl_type_t t, uint64_t txg, uint64_t size) 2813eda14cbcSMatt Macy { 2814eda14cbcSMatt Macy range_tree_t *rt = vd->vdev_dtl[t]; 2815eda14cbcSMatt Macy boolean_t dirty = B_FALSE; 2816eda14cbcSMatt Macy 2817eda14cbcSMatt Macy ASSERT(t < DTL_TYPES); 2818eda14cbcSMatt Macy ASSERT(vd != vd->vdev_spa->spa_root_vdev); 2819eda14cbcSMatt Macy 2820eda14cbcSMatt Macy /* 2821eda14cbcSMatt Macy * While we are loading the pool, the DTLs have not been loaded yet. 28227877fdebSMatt Macy * This isn't a problem but it can result in devices being tried 28237877fdebSMatt Macy * which are known to not have the data. In which case, the import 28247877fdebSMatt Macy * is relying on the checksum to ensure that we get the right data. 28257877fdebSMatt Macy * Note that while importing we are only reading the MOS, which is 28267877fdebSMatt Macy * always checksummed. 2827eda14cbcSMatt Macy */ 2828eda14cbcSMatt Macy mutex_enter(&vd->vdev_dtl_lock); 2829eda14cbcSMatt Macy if (!range_tree_is_empty(rt)) 2830eda14cbcSMatt Macy dirty = range_tree_contains(rt, txg, size); 2831eda14cbcSMatt Macy mutex_exit(&vd->vdev_dtl_lock); 2832eda14cbcSMatt Macy 2833eda14cbcSMatt Macy return (dirty); 2834eda14cbcSMatt Macy } 2835eda14cbcSMatt Macy 2836eda14cbcSMatt Macy boolean_t 2837eda14cbcSMatt Macy vdev_dtl_empty(vdev_t *vd, vdev_dtl_type_t t) 2838eda14cbcSMatt Macy { 2839eda14cbcSMatt Macy range_tree_t *rt = vd->vdev_dtl[t]; 2840eda14cbcSMatt Macy boolean_t empty; 2841eda14cbcSMatt Macy 2842eda14cbcSMatt Macy mutex_enter(&vd->vdev_dtl_lock); 2843eda14cbcSMatt Macy empty = range_tree_is_empty(rt); 2844eda14cbcSMatt Macy mutex_exit(&vd->vdev_dtl_lock); 2845eda14cbcSMatt Macy 2846eda14cbcSMatt Macy return (empty); 2847eda14cbcSMatt Macy } 2848eda14cbcSMatt Macy 2849eda14cbcSMatt Macy /* 28507877fdebSMatt Macy * Check if the txg falls within the range which must be 28517877fdebSMatt Macy * resilvered. DVAs outside this range can always be skipped. 2852eda14cbcSMatt Macy */ 2853eda14cbcSMatt Macy boolean_t 28547877fdebSMatt Macy vdev_default_need_resilver(vdev_t *vd, const dva_t *dva, size_t psize, 28557877fdebSMatt Macy uint64_t phys_birth) 28567877fdebSMatt Macy { 2857e92ffd9bSMartin Matuska (void) dva, (void) psize; 2858e92ffd9bSMartin Matuska 28597877fdebSMatt Macy /* Set by sequential resilver. */ 28607877fdebSMatt Macy if (phys_birth == TXG_UNKNOWN) 28617877fdebSMatt Macy return (B_TRUE); 28627877fdebSMatt Macy 28637877fdebSMatt Macy return (vdev_dtl_contains(vd, DTL_PARTIAL, phys_birth, 1)); 28647877fdebSMatt Macy } 28657877fdebSMatt Macy 28667877fdebSMatt Macy /* 28677877fdebSMatt Macy * Returns B_TRUE if the vdev determines the DVA needs to be resilvered. 28687877fdebSMatt Macy */ 28697877fdebSMatt Macy boolean_t 28707877fdebSMatt Macy vdev_dtl_need_resilver(vdev_t *vd, const dva_t *dva, size_t psize, 28717877fdebSMatt Macy uint64_t phys_birth) 2872eda14cbcSMatt Macy { 2873eda14cbcSMatt Macy ASSERT(vd != vd->vdev_spa->spa_root_vdev); 2874eda14cbcSMatt Macy 2875eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_need_resilver == NULL || 2876eda14cbcSMatt Macy vd->vdev_ops->vdev_op_leaf) 2877eda14cbcSMatt Macy return (B_TRUE); 2878eda14cbcSMatt Macy 28797877fdebSMatt Macy return (vd->vdev_ops->vdev_op_need_resilver(vd, dva, psize, 28807877fdebSMatt Macy phys_birth)); 2881eda14cbcSMatt Macy } 2882eda14cbcSMatt Macy 2883eda14cbcSMatt Macy /* 2884eda14cbcSMatt Macy * Returns the lowest txg in the DTL range. 2885eda14cbcSMatt Macy */ 2886eda14cbcSMatt Macy static uint64_t 2887eda14cbcSMatt Macy vdev_dtl_min(vdev_t *vd) 2888eda14cbcSMatt Macy { 2889eda14cbcSMatt Macy ASSERT(MUTEX_HELD(&vd->vdev_dtl_lock)); 2890eda14cbcSMatt Macy ASSERT3U(range_tree_space(vd->vdev_dtl[DTL_MISSING]), !=, 0); 2891eda14cbcSMatt Macy ASSERT0(vd->vdev_children); 2892eda14cbcSMatt Macy 2893eda14cbcSMatt Macy return (range_tree_min(vd->vdev_dtl[DTL_MISSING]) - 1); 2894eda14cbcSMatt Macy } 2895eda14cbcSMatt Macy 2896eda14cbcSMatt Macy /* 2897eda14cbcSMatt Macy * Returns the highest txg in the DTL. 2898eda14cbcSMatt Macy */ 2899eda14cbcSMatt Macy static uint64_t 2900eda14cbcSMatt Macy vdev_dtl_max(vdev_t *vd) 2901eda14cbcSMatt Macy { 2902eda14cbcSMatt Macy ASSERT(MUTEX_HELD(&vd->vdev_dtl_lock)); 2903eda14cbcSMatt Macy ASSERT3U(range_tree_space(vd->vdev_dtl[DTL_MISSING]), !=, 0); 2904eda14cbcSMatt Macy ASSERT0(vd->vdev_children); 2905eda14cbcSMatt Macy 2906eda14cbcSMatt Macy return (range_tree_max(vd->vdev_dtl[DTL_MISSING])); 2907eda14cbcSMatt Macy } 2908eda14cbcSMatt Macy 2909eda14cbcSMatt Macy /* 2910eda14cbcSMatt Macy * Determine if a resilvering vdev should remove any DTL entries from 2911eda14cbcSMatt Macy * its range. If the vdev was resilvering for the entire duration of the 2912eda14cbcSMatt Macy * scan then it should excise that range from its DTLs. Otherwise, this 2913eda14cbcSMatt Macy * vdev is considered partially resilvered and should leave its DTL 2914eda14cbcSMatt Macy * entries intact. The comment in vdev_dtl_reassess() describes how we 2915eda14cbcSMatt Macy * excise the DTLs. 2916eda14cbcSMatt Macy */ 2917eda14cbcSMatt Macy static boolean_t 2918eda14cbcSMatt Macy vdev_dtl_should_excise(vdev_t *vd, boolean_t rebuild_done) 2919eda14cbcSMatt Macy { 2920eda14cbcSMatt Macy ASSERT0(vd->vdev_children); 2921eda14cbcSMatt Macy 2922eda14cbcSMatt Macy if (vd->vdev_state < VDEV_STATE_DEGRADED) 2923eda14cbcSMatt Macy return (B_FALSE); 2924eda14cbcSMatt Macy 2925eda14cbcSMatt Macy if (vd->vdev_resilver_deferred) 2926eda14cbcSMatt Macy return (B_FALSE); 2927eda14cbcSMatt Macy 2928eda14cbcSMatt Macy if (range_tree_is_empty(vd->vdev_dtl[DTL_MISSING])) 2929eda14cbcSMatt Macy return (B_TRUE); 2930eda14cbcSMatt Macy 2931eda14cbcSMatt Macy if (rebuild_done) { 2932eda14cbcSMatt Macy vdev_rebuild_t *vr = &vd->vdev_top->vdev_rebuild_config; 2933eda14cbcSMatt Macy vdev_rebuild_phys_t *vrp = &vr->vr_rebuild_phys; 2934eda14cbcSMatt Macy 2935eda14cbcSMatt Macy /* Rebuild not initiated by attach */ 2936eda14cbcSMatt Macy if (vd->vdev_rebuild_txg == 0) 2937eda14cbcSMatt Macy return (B_TRUE); 2938eda14cbcSMatt Macy 2939eda14cbcSMatt Macy /* 2940eda14cbcSMatt Macy * When a rebuild completes without error then all missing data 2941eda14cbcSMatt Macy * up to the rebuild max txg has been reconstructed and the DTL 2942eda14cbcSMatt Macy * is eligible for excision. 2943eda14cbcSMatt Macy */ 2944eda14cbcSMatt Macy if (vrp->vrp_rebuild_state == VDEV_REBUILD_COMPLETE && 2945eda14cbcSMatt Macy vdev_dtl_max(vd) <= vrp->vrp_max_txg) { 2946eda14cbcSMatt Macy ASSERT3U(vrp->vrp_min_txg, <=, vdev_dtl_min(vd)); 2947eda14cbcSMatt Macy ASSERT3U(vrp->vrp_min_txg, <, vd->vdev_rebuild_txg); 2948eda14cbcSMatt Macy ASSERT3U(vd->vdev_rebuild_txg, <=, vrp->vrp_max_txg); 2949eda14cbcSMatt Macy return (B_TRUE); 2950eda14cbcSMatt Macy } 2951eda14cbcSMatt Macy } else { 2952eda14cbcSMatt Macy dsl_scan_t *scn = vd->vdev_spa->spa_dsl_pool->dp_scan; 2953eda14cbcSMatt Macy dsl_scan_phys_t *scnp __maybe_unused = &scn->scn_phys; 2954eda14cbcSMatt Macy 2955eda14cbcSMatt Macy /* Resilver not initiated by attach */ 2956eda14cbcSMatt Macy if (vd->vdev_resilver_txg == 0) 2957eda14cbcSMatt Macy return (B_TRUE); 2958eda14cbcSMatt Macy 2959eda14cbcSMatt Macy /* 2960eda14cbcSMatt Macy * When a resilver is initiated the scan will assign the 2961eda14cbcSMatt Macy * scn_max_txg value to the highest txg value that exists 2962eda14cbcSMatt Macy * in all DTLs. If this device's max DTL is not part of this 2963eda14cbcSMatt Macy * scan (i.e. it is not in the range (scn_min_txg, scn_max_txg] 2964eda14cbcSMatt Macy * then it is not eligible for excision. 2965eda14cbcSMatt Macy */ 2966eda14cbcSMatt Macy if (vdev_dtl_max(vd) <= scn->scn_phys.scn_max_txg) { 2967eda14cbcSMatt Macy ASSERT3U(scnp->scn_min_txg, <=, vdev_dtl_min(vd)); 2968eda14cbcSMatt Macy ASSERT3U(scnp->scn_min_txg, <, vd->vdev_resilver_txg); 2969eda14cbcSMatt Macy ASSERT3U(vd->vdev_resilver_txg, <=, scnp->scn_max_txg); 2970eda14cbcSMatt Macy return (B_TRUE); 2971eda14cbcSMatt Macy } 2972eda14cbcSMatt Macy } 2973eda14cbcSMatt Macy 2974eda14cbcSMatt Macy return (B_FALSE); 2975eda14cbcSMatt Macy } 2976eda14cbcSMatt Macy 2977eda14cbcSMatt Macy /* 2978eda14cbcSMatt Macy * Reassess DTLs after a config change or scrub completion. If txg == 0 no 2979eda14cbcSMatt Macy * write operations will be issued to the pool. 2980eda14cbcSMatt Macy */ 2981eda14cbcSMatt Macy void 2982eda14cbcSMatt Macy vdev_dtl_reassess(vdev_t *vd, uint64_t txg, uint64_t scrub_txg, 2983eda14cbcSMatt Macy boolean_t scrub_done, boolean_t rebuild_done) 2984eda14cbcSMatt Macy { 2985eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 2986eda14cbcSMatt Macy avl_tree_t reftree; 2987eda14cbcSMatt Macy int minref; 2988eda14cbcSMatt Macy 2989eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_ALL, RW_READER) != 0); 2990eda14cbcSMatt Macy 2991eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 2992eda14cbcSMatt Macy vdev_dtl_reassess(vd->vdev_child[c], txg, 2993eda14cbcSMatt Macy scrub_txg, scrub_done, rebuild_done); 2994eda14cbcSMatt Macy 2995eda14cbcSMatt Macy if (vd == spa->spa_root_vdev || !vdev_is_concrete(vd) || vd->vdev_aux) 2996eda14cbcSMatt Macy return; 2997eda14cbcSMatt Macy 2998eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf) { 2999eda14cbcSMatt Macy dsl_scan_t *scn = spa->spa_dsl_pool->dp_scan; 3000eda14cbcSMatt Macy vdev_rebuild_t *vr = &vd->vdev_top->vdev_rebuild_config; 3001eda14cbcSMatt Macy boolean_t check_excise = B_FALSE; 3002eda14cbcSMatt Macy boolean_t wasempty = B_TRUE; 3003eda14cbcSMatt Macy 3004eda14cbcSMatt Macy mutex_enter(&vd->vdev_dtl_lock); 3005eda14cbcSMatt Macy 3006eda14cbcSMatt Macy /* 3007eda14cbcSMatt Macy * If requested, pretend the scan or rebuild completed cleanly. 3008eda14cbcSMatt Macy */ 3009eda14cbcSMatt Macy if (zfs_scan_ignore_errors) { 3010eda14cbcSMatt Macy if (scn != NULL) 3011eda14cbcSMatt Macy scn->scn_phys.scn_errors = 0; 3012eda14cbcSMatt Macy if (vr != NULL) 3013eda14cbcSMatt Macy vr->vr_rebuild_phys.vrp_errors = 0; 3014eda14cbcSMatt Macy } 3015eda14cbcSMatt Macy 3016eda14cbcSMatt Macy if (scrub_txg != 0 && 3017eda14cbcSMatt Macy !range_tree_is_empty(vd->vdev_dtl[DTL_MISSING])) { 3018eda14cbcSMatt Macy wasempty = B_FALSE; 3019eda14cbcSMatt Macy zfs_dbgmsg("guid:%llu txg:%llu scrub:%llu started:%d " 3020eda14cbcSMatt Macy "dtl:%llu/%llu errors:%llu", 3021eda14cbcSMatt Macy (u_longlong_t)vd->vdev_guid, (u_longlong_t)txg, 3022eda14cbcSMatt Macy (u_longlong_t)scrub_txg, spa->spa_scrub_started, 3023eda14cbcSMatt Macy (u_longlong_t)vdev_dtl_min(vd), 3024eda14cbcSMatt Macy (u_longlong_t)vdev_dtl_max(vd), 3025eda14cbcSMatt Macy (u_longlong_t)(scn ? scn->scn_phys.scn_errors : 0)); 3026eda14cbcSMatt Macy } 3027eda14cbcSMatt Macy 3028eda14cbcSMatt Macy /* 3029eda14cbcSMatt Macy * If we've completed a scrub/resilver or a rebuild cleanly 3030eda14cbcSMatt Macy * then determine if this vdev should remove any DTLs. We 3031eda14cbcSMatt Macy * only want to excise regions on vdevs that were available 3032eda14cbcSMatt Macy * during the entire duration of this scan. 3033eda14cbcSMatt Macy */ 3034eda14cbcSMatt Macy if (rebuild_done && 3035eda14cbcSMatt Macy vr != NULL && vr->vr_rebuild_phys.vrp_errors == 0) { 3036eda14cbcSMatt Macy check_excise = B_TRUE; 3037eda14cbcSMatt Macy } else { 3038eda14cbcSMatt Macy if (spa->spa_scrub_started || 3039eda14cbcSMatt Macy (scn != NULL && scn->scn_phys.scn_errors == 0)) { 3040eda14cbcSMatt Macy check_excise = B_TRUE; 3041eda14cbcSMatt Macy } 3042eda14cbcSMatt Macy } 3043eda14cbcSMatt Macy 3044eda14cbcSMatt Macy if (scrub_txg && check_excise && 3045eda14cbcSMatt Macy vdev_dtl_should_excise(vd, rebuild_done)) { 3046eda14cbcSMatt Macy /* 3047eda14cbcSMatt Macy * We completed a scrub, resilver or rebuild up to 3048eda14cbcSMatt Macy * scrub_txg. If we did it without rebooting, then 3049eda14cbcSMatt Macy * the scrub dtl will be valid, so excise the old 3050eda14cbcSMatt Macy * region and fold in the scrub dtl. Otherwise, 3051eda14cbcSMatt Macy * leave the dtl as-is if there was an error. 3052eda14cbcSMatt Macy * 3053eda14cbcSMatt Macy * There's little trick here: to excise the beginning 3054eda14cbcSMatt Macy * of the DTL_MISSING map, we put it into a reference 3055eda14cbcSMatt Macy * tree and then add a segment with refcnt -1 that 3056eda14cbcSMatt Macy * covers the range [0, scrub_txg). This means 3057eda14cbcSMatt Macy * that each txg in that range has refcnt -1 or 0. 3058eda14cbcSMatt Macy * We then add DTL_SCRUB with a refcnt of 2, so that 3059eda14cbcSMatt Macy * entries in the range [0, scrub_txg) will have a 3060eda14cbcSMatt Macy * positive refcnt -- either 1 or 2. We then convert 3061eda14cbcSMatt Macy * the reference tree into the new DTL_MISSING map. 3062eda14cbcSMatt Macy */ 3063eda14cbcSMatt Macy space_reftree_create(&reftree); 3064eda14cbcSMatt Macy space_reftree_add_map(&reftree, 3065eda14cbcSMatt Macy vd->vdev_dtl[DTL_MISSING], 1); 3066eda14cbcSMatt Macy space_reftree_add_seg(&reftree, 0, scrub_txg, -1); 3067eda14cbcSMatt Macy space_reftree_add_map(&reftree, 3068eda14cbcSMatt Macy vd->vdev_dtl[DTL_SCRUB], 2); 3069eda14cbcSMatt Macy space_reftree_generate_map(&reftree, 3070eda14cbcSMatt Macy vd->vdev_dtl[DTL_MISSING], 1); 3071eda14cbcSMatt Macy space_reftree_destroy(&reftree); 3072eda14cbcSMatt Macy 3073eda14cbcSMatt Macy if (!range_tree_is_empty(vd->vdev_dtl[DTL_MISSING])) { 3074eda14cbcSMatt Macy zfs_dbgmsg("update DTL_MISSING:%llu/%llu", 3075eda14cbcSMatt Macy (u_longlong_t)vdev_dtl_min(vd), 3076eda14cbcSMatt Macy (u_longlong_t)vdev_dtl_max(vd)); 3077eda14cbcSMatt Macy } else if (!wasempty) { 3078eda14cbcSMatt Macy zfs_dbgmsg("DTL_MISSING is now empty"); 3079eda14cbcSMatt Macy } 3080eda14cbcSMatt Macy } 3081eda14cbcSMatt Macy range_tree_vacate(vd->vdev_dtl[DTL_PARTIAL], NULL, NULL); 3082eda14cbcSMatt Macy range_tree_walk(vd->vdev_dtl[DTL_MISSING], 3083eda14cbcSMatt Macy range_tree_add, vd->vdev_dtl[DTL_PARTIAL]); 3084eda14cbcSMatt Macy if (scrub_done) 3085eda14cbcSMatt Macy range_tree_vacate(vd->vdev_dtl[DTL_SCRUB], NULL, NULL); 3086eda14cbcSMatt Macy range_tree_vacate(vd->vdev_dtl[DTL_OUTAGE], NULL, NULL); 3087eda14cbcSMatt Macy if (!vdev_readable(vd)) 3088eda14cbcSMatt Macy range_tree_add(vd->vdev_dtl[DTL_OUTAGE], 0, -1ULL); 3089eda14cbcSMatt Macy else 3090eda14cbcSMatt Macy range_tree_walk(vd->vdev_dtl[DTL_MISSING], 3091eda14cbcSMatt Macy range_tree_add, vd->vdev_dtl[DTL_OUTAGE]); 3092eda14cbcSMatt Macy 3093eda14cbcSMatt Macy /* 3094eda14cbcSMatt Macy * If the vdev was resilvering or rebuilding and no longer 3095eda14cbcSMatt Macy * has any DTLs then reset the appropriate flag and dirty 3096eda14cbcSMatt Macy * the top level so that we persist the change. 3097eda14cbcSMatt Macy */ 3098eda14cbcSMatt Macy if (txg != 0 && 3099eda14cbcSMatt Macy range_tree_is_empty(vd->vdev_dtl[DTL_MISSING]) && 3100eda14cbcSMatt Macy range_tree_is_empty(vd->vdev_dtl[DTL_OUTAGE])) { 3101eda14cbcSMatt Macy if (vd->vdev_rebuild_txg != 0) { 3102eda14cbcSMatt Macy vd->vdev_rebuild_txg = 0; 3103eda14cbcSMatt Macy vdev_config_dirty(vd->vdev_top); 3104eda14cbcSMatt Macy } else if (vd->vdev_resilver_txg != 0) { 3105eda14cbcSMatt Macy vd->vdev_resilver_txg = 0; 3106eda14cbcSMatt Macy vdev_config_dirty(vd->vdev_top); 3107eda14cbcSMatt Macy } 3108eda14cbcSMatt Macy } 3109eda14cbcSMatt Macy 3110eda14cbcSMatt Macy mutex_exit(&vd->vdev_dtl_lock); 3111eda14cbcSMatt Macy 3112eda14cbcSMatt Macy if (txg != 0) 3113eda14cbcSMatt Macy vdev_dirty(vd->vdev_top, VDD_DTL, vd, txg); 3114eda14cbcSMatt Macy return; 3115eda14cbcSMatt Macy } 3116eda14cbcSMatt Macy 3117eda14cbcSMatt Macy mutex_enter(&vd->vdev_dtl_lock); 3118eda14cbcSMatt Macy for (int t = 0; t < DTL_TYPES; t++) { 3119eda14cbcSMatt Macy /* account for child's outage in parent's missing map */ 3120eda14cbcSMatt Macy int s = (t == DTL_MISSING) ? DTL_OUTAGE: t; 3121eda14cbcSMatt Macy if (t == DTL_SCRUB) 3122eda14cbcSMatt Macy continue; /* leaf vdevs only */ 3123eda14cbcSMatt Macy if (t == DTL_PARTIAL) 3124eda14cbcSMatt Macy minref = 1; /* i.e. non-zero */ 31257877fdebSMatt Macy else if (vdev_get_nparity(vd) != 0) 31267877fdebSMatt Macy minref = vdev_get_nparity(vd) + 1; /* RAID-Z, dRAID */ 3127eda14cbcSMatt Macy else 3128eda14cbcSMatt Macy minref = vd->vdev_children; /* any kind of mirror */ 3129eda14cbcSMatt Macy space_reftree_create(&reftree); 3130eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 3131eda14cbcSMatt Macy vdev_t *cvd = vd->vdev_child[c]; 3132eda14cbcSMatt Macy mutex_enter(&cvd->vdev_dtl_lock); 3133eda14cbcSMatt Macy space_reftree_add_map(&reftree, cvd->vdev_dtl[s], 1); 3134eda14cbcSMatt Macy mutex_exit(&cvd->vdev_dtl_lock); 3135eda14cbcSMatt Macy } 3136eda14cbcSMatt Macy space_reftree_generate_map(&reftree, vd->vdev_dtl[t], minref); 3137eda14cbcSMatt Macy space_reftree_destroy(&reftree); 3138eda14cbcSMatt Macy } 3139eda14cbcSMatt Macy mutex_exit(&vd->vdev_dtl_lock); 3140eda14cbcSMatt Macy } 3141eda14cbcSMatt Macy 3142eda14cbcSMatt Macy int 3143eda14cbcSMatt Macy vdev_dtl_load(vdev_t *vd) 3144eda14cbcSMatt Macy { 3145eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 3146eda14cbcSMatt Macy objset_t *mos = spa->spa_meta_objset; 31477877fdebSMatt Macy range_tree_t *rt; 3148eda14cbcSMatt Macy int error = 0; 3149eda14cbcSMatt Macy 3150eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf && vd->vdev_dtl_object != 0) { 3151eda14cbcSMatt Macy ASSERT(vdev_is_concrete(vd)); 3152eda14cbcSMatt Macy 315381b22a98SMartin Matuska /* 315481b22a98SMartin Matuska * If the dtl cannot be sync'd there is no need to open it. 315581b22a98SMartin Matuska */ 315681b22a98SMartin Matuska if (spa->spa_mode == SPA_MODE_READ && !spa->spa_read_spacemaps) 315781b22a98SMartin Matuska return (0); 315881b22a98SMartin Matuska 3159eda14cbcSMatt Macy error = space_map_open(&vd->vdev_dtl_sm, mos, 3160eda14cbcSMatt Macy vd->vdev_dtl_object, 0, -1ULL, 0); 3161eda14cbcSMatt Macy if (error) 3162eda14cbcSMatt Macy return (error); 3163eda14cbcSMatt Macy ASSERT(vd->vdev_dtl_sm != NULL); 3164eda14cbcSMatt Macy 31657877fdebSMatt Macy rt = range_tree_create(NULL, RANGE_SEG64, NULL, 0, 0); 31667877fdebSMatt Macy error = space_map_load(vd->vdev_dtl_sm, rt, SM_ALLOC); 31677877fdebSMatt Macy if (error == 0) { 3168eda14cbcSMatt Macy mutex_enter(&vd->vdev_dtl_lock); 31697877fdebSMatt Macy range_tree_walk(rt, range_tree_add, 31707877fdebSMatt Macy vd->vdev_dtl[DTL_MISSING]); 3171eda14cbcSMatt Macy mutex_exit(&vd->vdev_dtl_lock); 31727877fdebSMatt Macy } 31737877fdebSMatt Macy 31747877fdebSMatt Macy range_tree_vacate(rt, NULL, NULL); 31757877fdebSMatt Macy range_tree_destroy(rt); 3176eda14cbcSMatt Macy 3177eda14cbcSMatt Macy return (error); 3178eda14cbcSMatt Macy } 3179eda14cbcSMatt Macy 3180eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 3181eda14cbcSMatt Macy error = vdev_dtl_load(vd->vdev_child[c]); 3182eda14cbcSMatt Macy if (error != 0) 3183eda14cbcSMatt Macy break; 3184eda14cbcSMatt Macy } 3185eda14cbcSMatt Macy 3186eda14cbcSMatt Macy return (error); 3187eda14cbcSMatt Macy } 3188eda14cbcSMatt Macy 3189eda14cbcSMatt Macy static void 3190eda14cbcSMatt Macy vdev_zap_allocation_data(vdev_t *vd, dmu_tx_t *tx) 3191eda14cbcSMatt Macy { 3192eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 3193eda14cbcSMatt Macy objset_t *mos = spa->spa_meta_objset; 3194eda14cbcSMatt Macy vdev_alloc_bias_t alloc_bias = vd->vdev_alloc_bias; 3195eda14cbcSMatt Macy const char *string; 3196eda14cbcSMatt Macy 3197eda14cbcSMatt Macy ASSERT(alloc_bias != VDEV_BIAS_NONE); 3198eda14cbcSMatt Macy 3199eda14cbcSMatt Macy string = 3200eda14cbcSMatt Macy (alloc_bias == VDEV_BIAS_LOG) ? VDEV_ALLOC_BIAS_LOG : 3201eda14cbcSMatt Macy (alloc_bias == VDEV_BIAS_SPECIAL) ? VDEV_ALLOC_BIAS_SPECIAL : 3202eda14cbcSMatt Macy (alloc_bias == VDEV_BIAS_DEDUP) ? VDEV_ALLOC_BIAS_DEDUP : NULL; 3203eda14cbcSMatt Macy 3204eda14cbcSMatt Macy ASSERT(string != NULL); 3205eda14cbcSMatt Macy VERIFY0(zap_add(mos, vd->vdev_top_zap, VDEV_TOP_ZAP_ALLOCATION_BIAS, 3206eda14cbcSMatt Macy 1, strlen(string) + 1, string, tx)); 3207eda14cbcSMatt Macy 3208eda14cbcSMatt Macy if (alloc_bias == VDEV_BIAS_SPECIAL || alloc_bias == VDEV_BIAS_DEDUP) { 3209eda14cbcSMatt Macy spa_activate_allocation_classes(spa, tx); 3210eda14cbcSMatt Macy } 3211eda14cbcSMatt Macy } 3212eda14cbcSMatt Macy 3213eda14cbcSMatt Macy void 3214eda14cbcSMatt Macy vdev_destroy_unlink_zap(vdev_t *vd, uint64_t zapobj, dmu_tx_t *tx) 3215eda14cbcSMatt Macy { 3216eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 3217eda14cbcSMatt Macy 3218eda14cbcSMatt Macy VERIFY0(zap_destroy(spa->spa_meta_objset, zapobj, tx)); 3219eda14cbcSMatt Macy VERIFY0(zap_remove_int(spa->spa_meta_objset, spa->spa_all_vdev_zaps, 3220eda14cbcSMatt Macy zapobj, tx)); 3221eda14cbcSMatt Macy } 3222eda14cbcSMatt Macy 3223eda14cbcSMatt Macy uint64_t 3224eda14cbcSMatt Macy vdev_create_link_zap(vdev_t *vd, dmu_tx_t *tx) 3225eda14cbcSMatt Macy { 3226eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 3227eda14cbcSMatt Macy uint64_t zap = zap_create(spa->spa_meta_objset, DMU_OTN_ZAP_METADATA, 3228eda14cbcSMatt Macy DMU_OT_NONE, 0, tx); 3229eda14cbcSMatt Macy 3230eda14cbcSMatt Macy ASSERT(zap != 0); 3231eda14cbcSMatt Macy VERIFY0(zap_add_int(spa->spa_meta_objset, spa->spa_all_vdev_zaps, 3232eda14cbcSMatt Macy zap, tx)); 3233eda14cbcSMatt Macy 3234eda14cbcSMatt Macy return (zap); 3235eda14cbcSMatt Macy } 3236eda14cbcSMatt Macy 3237eda14cbcSMatt Macy void 3238eda14cbcSMatt Macy vdev_construct_zaps(vdev_t *vd, dmu_tx_t *tx) 3239eda14cbcSMatt Macy { 3240eda14cbcSMatt Macy if (vd->vdev_ops != &vdev_hole_ops && 3241eda14cbcSMatt Macy vd->vdev_ops != &vdev_missing_ops && 3242eda14cbcSMatt Macy vd->vdev_ops != &vdev_root_ops && 3243eda14cbcSMatt Macy !vd->vdev_top->vdev_removing) { 3244eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf && vd->vdev_leaf_zap == 0) { 3245eda14cbcSMatt Macy vd->vdev_leaf_zap = vdev_create_link_zap(vd, tx); 3246eda14cbcSMatt Macy } 3247eda14cbcSMatt Macy if (vd == vd->vdev_top && vd->vdev_top_zap == 0) { 3248eda14cbcSMatt Macy vd->vdev_top_zap = vdev_create_link_zap(vd, tx); 3249eda14cbcSMatt Macy if (vd->vdev_alloc_bias != VDEV_BIAS_NONE) 3250eda14cbcSMatt Macy vdev_zap_allocation_data(vd, tx); 3251eda14cbcSMatt Macy } 3252eda14cbcSMatt Macy } 3253eda14cbcSMatt Macy 3254eda14cbcSMatt Macy for (uint64_t i = 0; i < vd->vdev_children; i++) { 3255eda14cbcSMatt Macy vdev_construct_zaps(vd->vdev_child[i], tx); 3256eda14cbcSMatt Macy } 3257eda14cbcSMatt Macy } 3258eda14cbcSMatt Macy 3259eda14cbcSMatt Macy static void 3260eda14cbcSMatt Macy vdev_dtl_sync(vdev_t *vd, uint64_t txg) 3261eda14cbcSMatt Macy { 3262eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 3263eda14cbcSMatt Macy range_tree_t *rt = vd->vdev_dtl[DTL_MISSING]; 3264eda14cbcSMatt Macy objset_t *mos = spa->spa_meta_objset; 3265eda14cbcSMatt Macy range_tree_t *rtsync; 3266eda14cbcSMatt Macy dmu_tx_t *tx; 3267eda14cbcSMatt Macy uint64_t object = space_map_object(vd->vdev_dtl_sm); 3268eda14cbcSMatt Macy 3269eda14cbcSMatt Macy ASSERT(vdev_is_concrete(vd)); 3270eda14cbcSMatt Macy ASSERT(vd->vdev_ops->vdev_op_leaf); 3271eda14cbcSMatt Macy 3272eda14cbcSMatt Macy tx = dmu_tx_create_assigned(spa->spa_dsl_pool, txg); 3273eda14cbcSMatt Macy 3274eda14cbcSMatt Macy if (vd->vdev_detached || vd->vdev_top->vdev_removing) { 3275eda14cbcSMatt Macy mutex_enter(&vd->vdev_dtl_lock); 3276eda14cbcSMatt Macy space_map_free(vd->vdev_dtl_sm, tx); 3277eda14cbcSMatt Macy space_map_close(vd->vdev_dtl_sm); 3278eda14cbcSMatt Macy vd->vdev_dtl_sm = NULL; 3279eda14cbcSMatt Macy mutex_exit(&vd->vdev_dtl_lock); 3280eda14cbcSMatt Macy 3281eda14cbcSMatt Macy /* 3282eda14cbcSMatt Macy * We only destroy the leaf ZAP for detached leaves or for 3283eda14cbcSMatt Macy * removed log devices. Removed data devices handle leaf ZAP 3284eda14cbcSMatt Macy * cleanup later, once cancellation is no longer possible. 3285eda14cbcSMatt Macy */ 3286eda14cbcSMatt Macy if (vd->vdev_leaf_zap != 0 && (vd->vdev_detached || 3287eda14cbcSMatt Macy vd->vdev_top->vdev_islog)) { 3288eda14cbcSMatt Macy vdev_destroy_unlink_zap(vd, vd->vdev_leaf_zap, tx); 3289eda14cbcSMatt Macy vd->vdev_leaf_zap = 0; 3290eda14cbcSMatt Macy } 3291eda14cbcSMatt Macy 3292eda14cbcSMatt Macy dmu_tx_commit(tx); 3293eda14cbcSMatt Macy return; 3294eda14cbcSMatt Macy } 3295eda14cbcSMatt Macy 3296eda14cbcSMatt Macy if (vd->vdev_dtl_sm == NULL) { 3297eda14cbcSMatt Macy uint64_t new_object; 3298eda14cbcSMatt Macy 3299eda14cbcSMatt Macy new_object = space_map_alloc(mos, zfs_vdev_dtl_sm_blksz, tx); 3300eda14cbcSMatt Macy VERIFY3U(new_object, !=, 0); 3301eda14cbcSMatt Macy 3302eda14cbcSMatt Macy VERIFY0(space_map_open(&vd->vdev_dtl_sm, mos, new_object, 3303eda14cbcSMatt Macy 0, -1ULL, 0)); 3304eda14cbcSMatt Macy ASSERT(vd->vdev_dtl_sm != NULL); 3305eda14cbcSMatt Macy } 3306eda14cbcSMatt Macy 3307eda14cbcSMatt Macy rtsync = range_tree_create(NULL, RANGE_SEG64, NULL, 0, 0); 3308eda14cbcSMatt Macy 3309eda14cbcSMatt Macy mutex_enter(&vd->vdev_dtl_lock); 3310eda14cbcSMatt Macy range_tree_walk(rt, range_tree_add, rtsync); 3311eda14cbcSMatt Macy mutex_exit(&vd->vdev_dtl_lock); 3312eda14cbcSMatt Macy 3313eda14cbcSMatt Macy space_map_truncate(vd->vdev_dtl_sm, zfs_vdev_dtl_sm_blksz, tx); 3314eda14cbcSMatt Macy space_map_write(vd->vdev_dtl_sm, rtsync, SM_ALLOC, SM_NO_VDEVID, tx); 3315eda14cbcSMatt Macy range_tree_vacate(rtsync, NULL, NULL); 3316eda14cbcSMatt Macy 3317eda14cbcSMatt Macy range_tree_destroy(rtsync); 3318eda14cbcSMatt Macy 3319eda14cbcSMatt Macy /* 3320eda14cbcSMatt Macy * If the object for the space map has changed then dirty 3321eda14cbcSMatt Macy * the top level so that we update the config. 3322eda14cbcSMatt Macy */ 3323eda14cbcSMatt Macy if (object != space_map_object(vd->vdev_dtl_sm)) { 3324eda14cbcSMatt Macy vdev_dbgmsg(vd, "txg %llu, spa %s, DTL old object %llu, " 3325eda14cbcSMatt Macy "new object %llu", (u_longlong_t)txg, spa_name(spa), 3326eda14cbcSMatt Macy (u_longlong_t)object, 3327eda14cbcSMatt Macy (u_longlong_t)space_map_object(vd->vdev_dtl_sm)); 3328eda14cbcSMatt Macy vdev_config_dirty(vd->vdev_top); 3329eda14cbcSMatt Macy } 3330eda14cbcSMatt Macy 3331eda14cbcSMatt Macy dmu_tx_commit(tx); 3332eda14cbcSMatt Macy } 3333eda14cbcSMatt Macy 3334eda14cbcSMatt Macy /* 3335eda14cbcSMatt Macy * Determine whether the specified vdev can be offlined/detached/removed 3336eda14cbcSMatt Macy * without losing data. 3337eda14cbcSMatt Macy */ 3338eda14cbcSMatt Macy boolean_t 3339eda14cbcSMatt Macy vdev_dtl_required(vdev_t *vd) 3340eda14cbcSMatt Macy { 3341eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 3342eda14cbcSMatt Macy vdev_t *tvd = vd->vdev_top; 3343eda14cbcSMatt Macy uint8_t cant_read = vd->vdev_cant_read; 3344eda14cbcSMatt Macy boolean_t required; 3345eda14cbcSMatt Macy 3346eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_STATE_ALL, RW_WRITER) == SCL_STATE_ALL); 3347eda14cbcSMatt Macy 3348eda14cbcSMatt Macy if (vd == spa->spa_root_vdev || vd == tvd) 3349eda14cbcSMatt Macy return (B_TRUE); 3350eda14cbcSMatt Macy 3351eda14cbcSMatt Macy /* 3352eda14cbcSMatt Macy * Temporarily mark the device as unreadable, and then determine 3353eda14cbcSMatt Macy * whether this results in any DTL outages in the top-level vdev. 3354eda14cbcSMatt Macy * If not, we can safely offline/detach/remove the device. 3355eda14cbcSMatt Macy */ 3356eda14cbcSMatt Macy vd->vdev_cant_read = B_TRUE; 3357eda14cbcSMatt Macy vdev_dtl_reassess(tvd, 0, 0, B_FALSE, B_FALSE); 3358eda14cbcSMatt Macy required = !vdev_dtl_empty(tvd, DTL_OUTAGE); 3359eda14cbcSMatt Macy vd->vdev_cant_read = cant_read; 3360eda14cbcSMatt Macy vdev_dtl_reassess(tvd, 0, 0, B_FALSE, B_FALSE); 3361eda14cbcSMatt Macy 3362eda14cbcSMatt Macy if (!required && zio_injection_enabled) { 3363eda14cbcSMatt Macy required = !!zio_handle_device_injection(vd, NULL, 3364eda14cbcSMatt Macy SET_ERROR(ECHILD)); 3365eda14cbcSMatt Macy } 3366eda14cbcSMatt Macy 3367eda14cbcSMatt Macy return (required); 3368eda14cbcSMatt Macy } 3369eda14cbcSMatt Macy 3370eda14cbcSMatt Macy /* 3371eda14cbcSMatt Macy * Determine if resilver is needed, and if so the txg range. 3372eda14cbcSMatt Macy */ 3373eda14cbcSMatt Macy boolean_t 3374eda14cbcSMatt Macy vdev_resilver_needed(vdev_t *vd, uint64_t *minp, uint64_t *maxp) 3375eda14cbcSMatt Macy { 3376eda14cbcSMatt Macy boolean_t needed = B_FALSE; 3377eda14cbcSMatt Macy uint64_t thismin = UINT64_MAX; 3378eda14cbcSMatt Macy uint64_t thismax = 0; 3379eda14cbcSMatt Macy 3380eda14cbcSMatt Macy if (vd->vdev_children == 0) { 3381eda14cbcSMatt Macy mutex_enter(&vd->vdev_dtl_lock); 3382eda14cbcSMatt Macy if (!range_tree_is_empty(vd->vdev_dtl[DTL_MISSING]) && 3383eda14cbcSMatt Macy vdev_writeable(vd)) { 3384eda14cbcSMatt Macy 3385eda14cbcSMatt Macy thismin = vdev_dtl_min(vd); 3386eda14cbcSMatt Macy thismax = vdev_dtl_max(vd); 3387eda14cbcSMatt Macy needed = B_TRUE; 3388eda14cbcSMatt Macy } 3389eda14cbcSMatt Macy mutex_exit(&vd->vdev_dtl_lock); 3390eda14cbcSMatt Macy } else { 3391eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 3392eda14cbcSMatt Macy vdev_t *cvd = vd->vdev_child[c]; 3393eda14cbcSMatt Macy uint64_t cmin, cmax; 3394eda14cbcSMatt Macy 3395eda14cbcSMatt Macy if (vdev_resilver_needed(cvd, &cmin, &cmax)) { 3396eda14cbcSMatt Macy thismin = MIN(thismin, cmin); 3397eda14cbcSMatt Macy thismax = MAX(thismax, cmax); 3398eda14cbcSMatt Macy needed = B_TRUE; 3399eda14cbcSMatt Macy } 3400eda14cbcSMatt Macy } 3401eda14cbcSMatt Macy } 3402eda14cbcSMatt Macy 3403eda14cbcSMatt Macy if (needed && minp) { 3404eda14cbcSMatt Macy *minp = thismin; 3405eda14cbcSMatt Macy *maxp = thismax; 3406eda14cbcSMatt Macy } 3407eda14cbcSMatt Macy return (needed); 3408eda14cbcSMatt Macy } 3409eda14cbcSMatt Macy 3410eda14cbcSMatt Macy /* 3411eda14cbcSMatt Macy * Gets the checkpoint space map object from the vdev's ZAP. On success sm_obj 3412eda14cbcSMatt Macy * will contain either the checkpoint spacemap object or zero if none exists. 3413eda14cbcSMatt Macy * All other errors are returned to the caller. 3414eda14cbcSMatt Macy */ 3415eda14cbcSMatt Macy int 3416eda14cbcSMatt Macy vdev_checkpoint_sm_object(vdev_t *vd, uint64_t *sm_obj) 3417eda14cbcSMatt Macy { 3418eda14cbcSMatt Macy ASSERT0(spa_config_held(vd->vdev_spa, SCL_ALL, RW_WRITER)); 3419eda14cbcSMatt Macy 3420eda14cbcSMatt Macy if (vd->vdev_top_zap == 0) { 3421eda14cbcSMatt Macy *sm_obj = 0; 3422eda14cbcSMatt Macy return (0); 3423eda14cbcSMatt Macy } 3424eda14cbcSMatt Macy 3425eda14cbcSMatt Macy int error = zap_lookup(spa_meta_objset(vd->vdev_spa), vd->vdev_top_zap, 3426eda14cbcSMatt Macy VDEV_TOP_ZAP_POOL_CHECKPOINT_SM, sizeof (uint64_t), 1, sm_obj); 3427eda14cbcSMatt Macy if (error == ENOENT) { 3428eda14cbcSMatt Macy *sm_obj = 0; 3429eda14cbcSMatt Macy error = 0; 3430eda14cbcSMatt Macy } 3431eda14cbcSMatt Macy 3432eda14cbcSMatt Macy return (error); 3433eda14cbcSMatt Macy } 3434eda14cbcSMatt Macy 3435eda14cbcSMatt Macy int 3436eda14cbcSMatt Macy vdev_load(vdev_t *vd) 3437eda14cbcSMatt Macy { 3438184c1b94SMartin Matuska int children = vd->vdev_children; 3439eda14cbcSMatt Macy int error = 0; 3440184c1b94SMartin Matuska taskq_t *tq = NULL; 3441184c1b94SMartin Matuska 3442184c1b94SMartin Matuska /* 3443184c1b94SMartin Matuska * It's only worthwhile to use the taskq for the root vdev, because the 3444184c1b94SMartin Matuska * slow part is metaslab_init, and that only happens for top-level 3445184c1b94SMartin Matuska * vdevs. 3446184c1b94SMartin Matuska */ 3447184c1b94SMartin Matuska if (vd->vdev_ops == &vdev_root_ops && vd->vdev_children > 0) { 3448184c1b94SMartin Matuska tq = taskq_create("vdev_load", children, minclsyspri, 3449184c1b94SMartin Matuska children, children, TASKQ_PREPOPULATE); 3450184c1b94SMartin Matuska } 3451eda14cbcSMatt Macy 3452eda14cbcSMatt Macy /* 3453eda14cbcSMatt Macy * Recursively load all children. 3454eda14cbcSMatt Macy */ 3455eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 3456184c1b94SMartin Matuska vdev_t *cvd = vd->vdev_child[c]; 3457184c1b94SMartin Matuska 3458184c1b94SMartin Matuska if (tq == NULL || vdev_uses_zvols(cvd)) { 3459184c1b94SMartin Matuska cvd->vdev_load_error = vdev_load(cvd); 3460184c1b94SMartin Matuska } else { 3461184c1b94SMartin Matuska VERIFY(taskq_dispatch(tq, vdev_load_child, 3462184c1b94SMartin Matuska cvd, TQ_SLEEP) != TASKQID_INVALID); 3463eda14cbcSMatt Macy } 3464eda14cbcSMatt Macy } 3465eda14cbcSMatt Macy 3466184c1b94SMartin Matuska if (tq != NULL) { 3467184c1b94SMartin Matuska taskq_wait(tq); 3468184c1b94SMartin Matuska taskq_destroy(tq); 3469184c1b94SMartin Matuska } 3470184c1b94SMartin Matuska 3471184c1b94SMartin Matuska for (int c = 0; c < vd->vdev_children; c++) { 3472184c1b94SMartin Matuska int error = vd->vdev_child[c]->vdev_load_error; 3473184c1b94SMartin Matuska 3474184c1b94SMartin Matuska if (error != 0) 3475184c1b94SMartin Matuska return (error); 3476184c1b94SMartin Matuska } 3477184c1b94SMartin Matuska 3478eda14cbcSMatt Macy vdev_set_deflate_ratio(vd); 3479eda14cbcSMatt Macy 3480eda14cbcSMatt Macy /* 3481eda14cbcSMatt Macy * On spa_load path, grab the allocation bias from our zap 3482eda14cbcSMatt Macy */ 3483eda14cbcSMatt Macy if (vd == vd->vdev_top && vd->vdev_top_zap != 0) { 3484eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 3485eda14cbcSMatt Macy char bias_str[64]; 3486eda14cbcSMatt Macy 3487eda14cbcSMatt Macy error = zap_lookup(spa->spa_meta_objset, vd->vdev_top_zap, 3488eda14cbcSMatt Macy VDEV_TOP_ZAP_ALLOCATION_BIAS, 1, sizeof (bias_str), 3489eda14cbcSMatt Macy bias_str); 3490eda14cbcSMatt Macy if (error == 0) { 3491eda14cbcSMatt Macy ASSERT(vd->vdev_alloc_bias == VDEV_BIAS_NONE); 3492eda14cbcSMatt Macy vd->vdev_alloc_bias = vdev_derive_alloc_bias(bias_str); 3493eda14cbcSMatt Macy } else if (error != ENOENT) { 3494eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 3495eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 3496eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_load: zap_lookup(top_zap=%llu) " 34971f88aa09SMartin Matuska "failed [error=%d]", 34981f88aa09SMartin Matuska (u_longlong_t)vd->vdev_top_zap, error); 3499eda14cbcSMatt Macy return (error); 3500eda14cbcSMatt Macy } 3501eda14cbcSMatt Macy } 3502eda14cbcSMatt Macy 3503eda14cbcSMatt Macy /* 3504eda14cbcSMatt Macy * Load any rebuild state from the top-level vdev zap. 3505eda14cbcSMatt Macy */ 3506eda14cbcSMatt Macy if (vd == vd->vdev_top && vd->vdev_top_zap != 0) { 3507eda14cbcSMatt Macy error = vdev_rebuild_load(vd); 3508eda14cbcSMatt Macy if (error && error != ENOTSUP) { 3509eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 3510eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 3511eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_load: vdev_rebuild_load " 3512eda14cbcSMatt Macy "failed [error=%d]", error); 3513eda14cbcSMatt Macy return (error); 3514eda14cbcSMatt Macy } 3515eda14cbcSMatt Macy } 3516eda14cbcSMatt Macy 3517eda14cbcSMatt Macy /* 3518eda14cbcSMatt Macy * If this is a top-level vdev, initialize its metaslabs. 3519eda14cbcSMatt Macy */ 3520eda14cbcSMatt Macy if (vd == vd->vdev_top && vdev_is_concrete(vd)) { 3521eda14cbcSMatt Macy vdev_metaslab_group_create(vd); 3522eda14cbcSMatt Macy 3523eda14cbcSMatt Macy if (vd->vdev_ashift == 0 || vd->vdev_asize == 0) { 3524eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 3525eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 3526eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_load: invalid size. ashift=%llu, " 3527eda14cbcSMatt Macy "asize=%llu", (u_longlong_t)vd->vdev_ashift, 3528eda14cbcSMatt Macy (u_longlong_t)vd->vdev_asize); 3529eda14cbcSMatt Macy return (SET_ERROR(ENXIO)); 3530eda14cbcSMatt Macy } 3531eda14cbcSMatt Macy 3532eda14cbcSMatt Macy error = vdev_metaslab_init(vd, 0); 3533eda14cbcSMatt Macy if (error != 0) { 3534eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_load: metaslab_init failed " 3535eda14cbcSMatt Macy "[error=%d]", error); 3536eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 3537eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 3538eda14cbcSMatt Macy return (error); 3539eda14cbcSMatt Macy } 3540eda14cbcSMatt Macy 3541eda14cbcSMatt Macy uint64_t checkpoint_sm_obj; 3542eda14cbcSMatt Macy error = vdev_checkpoint_sm_object(vd, &checkpoint_sm_obj); 3543eda14cbcSMatt Macy if (error == 0 && checkpoint_sm_obj != 0) { 3544eda14cbcSMatt Macy objset_t *mos = spa_meta_objset(vd->vdev_spa); 3545eda14cbcSMatt Macy ASSERT(vd->vdev_asize != 0); 3546eda14cbcSMatt Macy ASSERT3P(vd->vdev_checkpoint_sm, ==, NULL); 3547eda14cbcSMatt Macy 3548eda14cbcSMatt Macy error = space_map_open(&vd->vdev_checkpoint_sm, 3549eda14cbcSMatt Macy mos, checkpoint_sm_obj, 0, vd->vdev_asize, 3550eda14cbcSMatt Macy vd->vdev_ashift); 3551eda14cbcSMatt Macy if (error != 0) { 3552eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_load: space_map_open " 3553eda14cbcSMatt Macy "failed for checkpoint spacemap (obj %llu) " 3554eda14cbcSMatt Macy "[error=%d]", 3555eda14cbcSMatt Macy (u_longlong_t)checkpoint_sm_obj, error); 3556eda14cbcSMatt Macy return (error); 3557eda14cbcSMatt Macy } 3558eda14cbcSMatt Macy ASSERT3P(vd->vdev_checkpoint_sm, !=, NULL); 3559eda14cbcSMatt Macy 3560eda14cbcSMatt Macy /* 3561eda14cbcSMatt Macy * Since the checkpoint_sm contains free entries 3562eda14cbcSMatt Macy * exclusively we can use space_map_allocated() to 3563eda14cbcSMatt Macy * indicate the cumulative checkpointed space that 3564eda14cbcSMatt Macy * has been freed. 3565eda14cbcSMatt Macy */ 3566eda14cbcSMatt Macy vd->vdev_stat.vs_checkpoint_space = 3567eda14cbcSMatt Macy -space_map_allocated(vd->vdev_checkpoint_sm); 3568eda14cbcSMatt Macy vd->vdev_spa->spa_checkpoint_info.sci_dspace += 3569eda14cbcSMatt Macy vd->vdev_stat.vs_checkpoint_space; 3570eda14cbcSMatt Macy } else if (error != 0) { 3571eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_load: failed to retrieve " 3572eda14cbcSMatt Macy "checkpoint space map object from vdev ZAP " 3573eda14cbcSMatt Macy "[error=%d]", error); 3574eda14cbcSMatt Macy return (error); 3575eda14cbcSMatt Macy } 3576eda14cbcSMatt Macy } 3577eda14cbcSMatt Macy 3578eda14cbcSMatt Macy /* 3579eda14cbcSMatt Macy * If this is a leaf vdev, load its DTL. 3580eda14cbcSMatt Macy */ 3581eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf && (error = vdev_dtl_load(vd)) != 0) { 3582eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 3583eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 3584eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_load: vdev_dtl_load failed " 3585eda14cbcSMatt Macy "[error=%d]", error); 3586eda14cbcSMatt Macy return (error); 3587eda14cbcSMatt Macy } 3588eda14cbcSMatt Macy 3589eda14cbcSMatt Macy uint64_t obsolete_sm_object; 3590eda14cbcSMatt Macy error = vdev_obsolete_sm_object(vd, &obsolete_sm_object); 3591eda14cbcSMatt Macy if (error == 0 && obsolete_sm_object != 0) { 3592eda14cbcSMatt Macy objset_t *mos = vd->vdev_spa->spa_meta_objset; 3593eda14cbcSMatt Macy ASSERT(vd->vdev_asize != 0); 3594eda14cbcSMatt Macy ASSERT3P(vd->vdev_obsolete_sm, ==, NULL); 3595eda14cbcSMatt Macy 3596eda14cbcSMatt Macy if ((error = space_map_open(&vd->vdev_obsolete_sm, mos, 3597eda14cbcSMatt Macy obsolete_sm_object, 0, vd->vdev_asize, 0))) { 3598eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_CANT_OPEN, 3599eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 3600eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_load: space_map_open failed for " 3601eda14cbcSMatt Macy "obsolete spacemap (obj %llu) [error=%d]", 3602eda14cbcSMatt Macy (u_longlong_t)obsolete_sm_object, error); 3603eda14cbcSMatt Macy return (error); 3604eda14cbcSMatt Macy } 3605eda14cbcSMatt Macy } else if (error != 0) { 3606eda14cbcSMatt Macy vdev_dbgmsg(vd, "vdev_load: failed to retrieve obsolete " 3607eda14cbcSMatt Macy "space map object from vdev ZAP [error=%d]", error); 3608eda14cbcSMatt Macy return (error); 3609eda14cbcSMatt Macy } 3610eda14cbcSMatt Macy 3611eda14cbcSMatt Macy return (0); 3612eda14cbcSMatt Macy } 3613eda14cbcSMatt Macy 3614eda14cbcSMatt Macy /* 3615eda14cbcSMatt Macy * The special vdev case is used for hot spares and l2cache devices. Its 3616eda14cbcSMatt Macy * sole purpose it to set the vdev state for the associated vdev. To do this, 3617eda14cbcSMatt Macy * we make sure that we can open the underlying device, then try to read the 3618eda14cbcSMatt Macy * label, and make sure that the label is sane and that it hasn't been 3619eda14cbcSMatt Macy * repurposed to another pool. 3620eda14cbcSMatt Macy */ 3621eda14cbcSMatt Macy int 3622eda14cbcSMatt Macy vdev_validate_aux(vdev_t *vd) 3623eda14cbcSMatt Macy { 3624eda14cbcSMatt Macy nvlist_t *label; 3625eda14cbcSMatt Macy uint64_t guid, version; 3626eda14cbcSMatt Macy uint64_t state; 3627eda14cbcSMatt Macy 3628eda14cbcSMatt Macy if (!vdev_readable(vd)) 3629eda14cbcSMatt Macy return (0); 3630eda14cbcSMatt Macy 3631eda14cbcSMatt Macy if ((label = vdev_label_read_config(vd, -1ULL)) == NULL) { 3632eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_CANT_OPEN, 3633eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 3634eda14cbcSMatt Macy return (-1); 3635eda14cbcSMatt Macy } 3636eda14cbcSMatt Macy 3637eda14cbcSMatt Macy if (nvlist_lookup_uint64(label, ZPOOL_CONFIG_VERSION, &version) != 0 || 3638eda14cbcSMatt Macy !SPA_VERSION_IS_SUPPORTED(version) || 3639eda14cbcSMatt Macy nvlist_lookup_uint64(label, ZPOOL_CONFIG_GUID, &guid) != 0 || 3640eda14cbcSMatt Macy guid != vd->vdev_guid || 3641eda14cbcSMatt Macy nvlist_lookup_uint64(label, ZPOOL_CONFIG_POOL_STATE, &state) != 0) { 3642eda14cbcSMatt Macy vdev_set_state(vd, B_TRUE, VDEV_STATE_CANT_OPEN, 3643eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 3644eda14cbcSMatt Macy nvlist_free(label); 3645eda14cbcSMatt Macy return (-1); 3646eda14cbcSMatt Macy } 3647eda14cbcSMatt Macy 3648eda14cbcSMatt Macy /* 3649eda14cbcSMatt Macy * We don't actually check the pool state here. If it's in fact in 3650eda14cbcSMatt Macy * use by another pool, we update this fact on the fly when requested. 3651eda14cbcSMatt Macy */ 3652eda14cbcSMatt Macy nvlist_free(label); 3653eda14cbcSMatt Macy return (0); 3654eda14cbcSMatt Macy } 3655eda14cbcSMatt Macy 3656eda14cbcSMatt Macy static void 3657eda14cbcSMatt Macy vdev_destroy_ms_flush_data(vdev_t *vd, dmu_tx_t *tx) 3658eda14cbcSMatt Macy { 3659eda14cbcSMatt Macy objset_t *mos = spa_meta_objset(vd->vdev_spa); 3660eda14cbcSMatt Macy 3661eda14cbcSMatt Macy if (vd->vdev_top_zap == 0) 3662eda14cbcSMatt Macy return; 3663eda14cbcSMatt Macy 3664eda14cbcSMatt Macy uint64_t object = 0; 3665eda14cbcSMatt Macy int err = zap_lookup(mos, vd->vdev_top_zap, 3666eda14cbcSMatt Macy VDEV_TOP_ZAP_MS_UNFLUSHED_PHYS_TXGS, sizeof (uint64_t), 1, &object); 3667eda14cbcSMatt Macy if (err == ENOENT) 3668eda14cbcSMatt Macy return; 3669eda14cbcSMatt Macy VERIFY0(err); 3670eda14cbcSMatt Macy 3671eda14cbcSMatt Macy VERIFY0(dmu_object_free(mos, object, tx)); 3672eda14cbcSMatt Macy VERIFY0(zap_remove(mos, vd->vdev_top_zap, 3673eda14cbcSMatt Macy VDEV_TOP_ZAP_MS_UNFLUSHED_PHYS_TXGS, tx)); 3674eda14cbcSMatt Macy } 3675eda14cbcSMatt Macy 3676eda14cbcSMatt Macy /* 3677eda14cbcSMatt Macy * Free the objects used to store this vdev's spacemaps, and the array 3678eda14cbcSMatt Macy * that points to them. 3679eda14cbcSMatt Macy */ 3680eda14cbcSMatt Macy void 3681eda14cbcSMatt Macy vdev_destroy_spacemaps(vdev_t *vd, dmu_tx_t *tx) 3682eda14cbcSMatt Macy { 3683eda14cbcSMatt Macy if (vd->vdev_ms_array == 0) 3684eda14cbcSMatt Macy return; 3685eda14cbcSMatt Macy 3686eda14cbcSMatt Macy objset_t *mos = vd->vdev_spa->spa_meta_objset; 3687eda14cbcSMatt Macy uint64_t array_count = vd->vdev_asize >> vd->vdev_ms_shift; 3688eda14cbcSMatt Macy size_t array_bytes = array_count * sizeof (uint64_t); 3689eda14cbcSMatt Macy uint64_t *smobj_array = kmem_alloc(array_bytes, KM_SLEEP); 3690eda14cbcSMatt Macy VERIFY0(dmu_read(mos, vd->vdev_ms_array, 0, 3691eda14cbcSMatt Macy array_bytes, smobj_array, 0)); 3692eda14cbcSMatt Macy 3693eda14cbcSMatt Macy for (uint64_t i = 0; i < array_count; i++) { 3694eda14cbcSMatt Macy uint64_t smobj = smobj_array[i]; 3695eda14cbcSMatt Macy if (smobj == 0) 3696eda14cbcSMatt Macy continue; 3697eda14cbcSMatt Macy 3698eda14cbcSMatt Macy space_map_free_obj(mos, smobj, tx); 3699eda14cbcSMatt Macy } 3700eda14cbcSMatt Macy 3701eda14cbcSMatt Macy kmem_free(smobj_array, array_bytes); 3702eda14cbcSMatt Macy VERIFY0(dmu_object_free(mos, vd->vdev_ms_array, tx)); 3703eda14cbcSMatt Macy vdev_destroy_ms_flush_data(vd, tx); 3704eda14cbcSMatt Macy vd->vdev_ms_array = 0; 3705eda14cbcSMatt Macy } 3706eda14cbcSMatt Macy 3707eda14cbcSMatt Macy static void 3708eda14cbcSMatt Macy vdev_remove_empty_log(vdev_t *vd, uint64_t txg) 3709eda14cbcSMatt Macy { 3710eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 3711eda14cbcSMatt Macy 3712eda14cbcSMatt Macy ASSERT(vd->vdev_islog); 3713eda14cbcSMatt Macy ASSERT(vd == vd->vdev_top); 3714eda14cbcSMatt Macy ASSERT3U(txg, ==, spa_syncing_txg(spa)); 3715eda14cbcSMatt Macy 3716eda14cbcSMatt Macy dmu_tx_t *tx = dmu_tx_create_assigned(spa_get_dsl(spa), txg); 3717eda14cbcSMatt Macy 3718eda14cbcSMatt Macy vdev_destroy_spacemaps(vd, tx); 3719eda14cbcSMatt Macy if (vd->vdev_top_zap != 0) { 3720eda14cbcSMatt Macy vdev_destroy_unlink_zap(vd, vd->vdev_top_zap, tx); 3721eda14cbcSMatt Macy vd->vdev_top_zap = 0; 3722eda14cbcSMatt Macy } 3723eda14cbcSMatt Macy 3724eda14cbcSMatt Macy dmu_tx_commit(tx); 3725eda14cbcSMatt Macy } 3726eda14cbcSMatt Macy 3727eda14cbcSMatt Macy void 3728eda14cbcSMatt Macy vdev_sync_done(vdev_t *vd, uint64_t txg) 3729eda14cbcSMatt Macy { 3730eda14cbcSMatt Macy metaslab_t *msp; 3731eda14cbcSMatt Macy boolean_t reassess = !txg_list_empty(&vd->vdev_ms_list, TXG_CLEAN(txg)); 3732eda14cbcSMatt Macy 3733eda14cbcSMatt Macy ASSERT(vdev_is_concrete(vd)); 3734eda14cbcSMatt Macy 3735eda14cbcSMatt Macy while ((msp = txg_list_remove(&vd->vdev_ms_list, TXG_CLEAN(txg))) 3736eda14cbcSMatt Macy != NULL) 3737eda14cbcSMatt Macy metaslab_sync_done(msp, txg); 3738eda14cbcSMatt Macy 3739184c1b94SMartin Matuska if (reassess) { 3740eda14cbcSMatt Macy metaslab_sync_reassess(vd->vdev_mg); 3741184c1b94SMartin Matuska if (vd->vdev_log_mg != NULL) 3742184c1b94SMartin Matuska metaslab_sync_reassess(vd->vdev_log_mg); 3743184c1b94SMartin Matuska } 3744eda14cbcSMatt Macy } 3745eda14cbcSMatt Macy 3746eda14cbcSMatt Macy void 3747eda14cbcSMatt Macy vdev_sync(vdev_t *vd, uint64_t txg) 3748eda14cbcSMatt Macy { 3749eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 3750eda14cbcSMatt Macy vdev_t *lvd; 3751eda14cbcSMatt Macy metaslab_t *msp; 3752eda14cbcSMatt Macy 3753eda14cbcSMatt Macy ASSERT3U(txg, ==, spa->spa_syncing_txg); 3754eda14cbcSMatt Macy dmu_tx_t *tx = dmu_tx_create_assigned(spa->spa_dsl_pool, txg); 3755eda14cbcSMatt Macy if (range_tree_space(vd->vdev_obsolete_segments) > 0) { 3756eda14cbcSMatt Macy ASSERT(vd->vdev_removing || 3757eda14cbcSMatt Macy vd->vdev_ops == &vdev_indirect_ops); 3758eda14cbcSMatt Macy 3759eda14cbcSMatt Macy vdev_indirect_sync_obsolete(vd, tx); 3760eda14cbcSMatt Macy 3761eda14cbcSMatt Macy /* 3762eda14cbcSMatt Macy * If the vdev is indirect, it can't have dirty 3763eda14cbcSMatt Macy * metaslabs or DTLs. 3764eda14cbcSMatt Macy */ 3765eda14cbcSMatt Macy if (vd->vdev_ops == &vdev_indirect_ops) { 3766eda14cbcSMatt Macy ASSERT(txg_list_empty(&vd->vdev_ms_list, txg)); 3767eda14cbcSMatt Macy ASSERT(txg_list_empty(&vd->vdev_dtl_list, txg)); 3768eda14cbcSMatt Macy dmu_tx_commit(tx); 3769eda14cbcSMatt Macy return; 3770eda14cbcSMatt Macy } 3771eda14cbcSMatt Macy } 3772eda14cbcSMatt Macy 3773eda14cbcSMatt Macy ASSERT(vdev_is_concrete(vd)); 3774eda14cbcSMatt Macy 3775eda14cbcSMatt Macy if (vd->vdev_ms_array == 0 && vd->vdev_ms_shift != 0 && 3776eda14cbcSMatt Macy !vd->vdev_removing) { 3777eda14cbcSMatt Macy ASSERT(vd == vd->vdev_top); 3778eda14cbcSMatt Macy ASSERT0(vd->vdev_indirect_config.vic_mapping_object); 3779eda14cbcSMatt Macy vd->vdev_ms_array = dmu_object_alloc(spa->spa_meta_objset, 3780eda14cbcSMatt Macy DMU_OT_OBJECT_ARRAY, 0, DMU_OT_NONE, 0, tx); 3781eda14cbcSMatt Macy ASSERT(vd->vdev_ms_array != 0); 3782eda14cbcSMatt Macy vdev_config_dirty(vd); 3783eda14cbcSMatt Macy } 3784eda14cbcSMatt Macy 3785eda14cbcSMatt Macy while ((msp = txg_list_remove(&vd->vdev_ms_list, txg)) != NULL) { 3786eda14cbcSMatt Macy metaslab_sync(msp, txg); 3787eda14cbcSMatt Macy (void) txg_list_add(&vd->vdev_ms_list, msp, TXG_CLEAN(txg)); 3788eda14cbcSMatt Macy } 3789eda14cbcSMatt Macy 3790eda14cbcSMatt Macy while ((lvd = txg_list_remove(&vd->vdev_dtl_list, txg)) != NULL) 3791eda14cbcSMatt Macy vdev_dtl_sync(lvd, txg); 3792eda14cbcSMatt Macy 3793eda14cbcSMatt Macy /* 3794eda14cbcSMatt Macy * If this is an empty log device being removed, destroy the 3795eda14cbcSMatt Macy * metadata associated with it. 3796eda14cbcSMatt Macy */ 3797eda14cbcSMatt Macy if (vd->vdev_islog && vd->vdev_stat.vs_alloc == 0 && vd->vdev_removing) 3798eda14cbcSMatt Macy vdev_remove_empty_log(vd, txg); 3799eda14cbcSMatt Macy 3800eda14cbcSMatt Macy (void) txg_list_add(&spa->spa_vdev_txg_list, vd, TXG_CLEAN(txg)); 3801eda14cbcSMatt Macy dmu_tx_commit(tx); 3802eda14cbcSMatt Macy } 3803eda14cbcSMatt Macy 3804eda14cbcSMatt Macy uint64_t 3805eda14cbcSMatt Macy vdev_psize_to_asize(vdev_t *vd, uint64_t psize) 3806eda14cbcSMatt Macy { 3807eda14cbcSMatt Macy return (vd->vdev_ops->vdev_op_asize(vd, psize)); 3808eda14cbcSMatt Macy } 3809eda14cbcSMatt Macy 3810eda14cbcSMatt Macy /* 3811eda14cbcSMatt Macy * Mark the given vdev faulted. A faulted vdev behaves as if the device could 3812eda14cbcSMatt Macy * not be opened, and no I/O is attempted. 3813eda14cbcSMatt Macy */ 3814eda14cbcSMatt Macy int 3815eda14cbcSMatt Macy vdev_fault(spa_t *spa, uint64_t guid, vdev_aux_t aux) 3816eda14cbcSMatt Macy { 3817eda14cbcSMatt Macy vdev_t *vd, *tvd; 3818eda14cbcSMatt Macy 3819eda14cbcSMatt Macy spa_vdev_state_enter(spa, SCL_NONE); 3820eda14cbcSMatt Macy 3821eda14cbcSMatt Macy if ((vd = spa_lookup_by_guid(spa, guid, B_TRUE)) == NULL) 3822eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, SET_ERROR(ENODEV))); 3823eda14cbcSMatt Macy 3824eda14cbcSMatt Macy if (!vd->vdev_ops->vdev_op_leaf) 3825eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, SET_ERROR(ENOTSUP))); 3826eda14cbcSMatt Macy 3827eda14cbcSMatt Macy tvd = vd->vdev_top; 3828eda14cbcSMatt Macy 3829eda14cbcSMatt Macy /* 3830eda14cbcSMatt Macy * If user did a 'zpool offline -f' then make the fault persist across 3831eda14cbcSMatt Macy * reboots. 3832eda14cbcSMatt Macy */ 3833eda14cbcSMatt Macy if (aux == VDEV_AUX_EXTERNAL_PERSIST) { 3834eda14cbcSMatt Macy /* 3835eda14cbcSMatt Macy * There are two kinds of forced faults: temporary and 3836eda14cbcSMatt Macy * persistent. Temporary faults go away at pool import, while 3837eda14cbcSMatt Macy * persistent faults stay set. Both types of faults can be 3838eda14cbcSMatt Macy * cleared with a zpool clear. 3839eda14cbcSMatt Macy * 3840eda14cbcSMatt Macy * We tell if a vdev is persistently faulted by looking at the 3841eda14cbcSMatt Macy * ZPOOL_CONFIG_AUX_STATE nvpair. If it's set to "external" at 3842eda14cbcSMatt Macy * import then it's a persistent fault. Otherwise, it's 3843eda14cbcSMatt Macy * temporary. We get ZPOOL_CONFIG_AUX_STATE set to "external" 3844eda14cbcSMatt Macy * by setting vd.vdev_stat.vs_aux to VDEV_AUX_EXTERNAL. This 3845eda14cbcSMatt Macy * tells vdev_config_generate() (which gets run later) to set 3846eda14cbcSMatt Macy * ZPOOL_CONFIG_AUX_STATE to "external" in the nvlist. 3847eda14cbcSMatt Macy */ 3848eda14cbcSMatt Macy vd->vdev_stat.vs_aux = VDEV_AUX_EXTERNAL; 3849eda14cbcSMatt Macy vd->vdev_tmpoffline = B_FALSE; 3850eda14cbcSMatt Macy aux = VDEV_AUX_EXTERNAL; 3851eda14cbcSMatt Macy } else { 3852eda14cbcSMatt Macy vd->vdev_tmpoffline = B_TRUE; 3853eda14cbcSMatt Macy } 3854eda14cbcSMatt Macy 3855eda14cbcSMatt Macy /* 3856eda14cbcSMatt Macy * We don't directly use the aux state here, but if we do a 3857eda14cbcSMatt Macy * vdev_reopen(), we need this value to be present to remember why we 3858eda14cbcSMatt Macy * were faulted. 3859eda14cbcSMatt Macy */ 3860eda14cbcSMatt Macy vd->vdev_label_aux = aux; 3861eda14cbcSMatt Macy 3862eda14cbcSMatt Macy /* 3863eda14cbcSMatt Macy * Faulted state takes precedence over degraded. 3864eda14cbcSMatt Macy */ 3865eda14cbcSMatt Macy vd->vdev_delayed_close = B_FALSE; 3866eda14cbcSMatt Macy vd->vdev_faulted = 1ULL; 3867eda14cbcSMatt Macy vd->vdev_degraded = 0ULL; 3868eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_FAULTED, aux); 3869eda14cbcSMatt Macy 3870eda14cbcSMatt Macy /* 3871eda14cbcSMatt Macy * If this device has the only valid copy of the data, then 3872eda14cbcSMatt Macy * back off and simply mark the vdev as degraded instead. 3873eda14cbcSMatt Macy */ 3874eda14cbcSMatt Macy if (!tvd->vdev_islog && vd->vdev_aux == NULL && vdev_dtl_required(vd)) { 3875eda14cbcSMatt Macy vd->vdev_degraded = 1ULL; 3876eda14cbcSMatt Macy vd->vdev_faulted = 0ULL; 3877eda14cbcSMatt Macy 3878eda14cbcSMatt Macy /* 3879eda14cbcSMatt Macy * If we reopen the device and it's not dead, only then do we 3880eda14cbcSMatt Macy * mark it degraded. 3881eda14cbcSMatt Macy */ 3882eda14cbcSMatt Macy vdev_reopen(tvd); 3883eda14cbcSMatt Macy 3884eda14cbcSMatt Macy if (vdev_readable(vd)) 3885eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_DEGRADED, aux); 3886eda14cbcSMatt Macy } 3887eda14cbcSMatt Macy 3888eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, vd, 0)); 3889eda14cbcSMatt Macy } 3890eda14cbcSMatt Macy 3891eda14cbcSMatt Macy /* 3892eda14cbcSMatt Macy * Mark the given vdev degraded. A degraded vdev is purely an indication to the 3893eda14cbcSMatt Macy * user that something is wrong. The vdev continues to operate as normal as far 3894eda14cbcSMatt Macy * as I/O is concerned. 3895eda14cbcSMatt Macy */ 3896eda14cbcSMatt Macy int 3897eda14cbcSMatt Macy vdev_degrade(spa_t *spa, uint64_t guid, vdev_aux_t aux) 3898eda14cbcSMatt Macy { 3899eda14cbcSMatt Macy vdev_t *vd; 3900eda14cbcSMatt Macy 3901eda14cbcSMatt Macy spa_vdev_state_enter(spa, SCL_NONE); 3902eda14cbcSMatt Macy 3903eda14cbcSMatt Macy if ((vd = spa_lookup_by_guid(spa, guid, B_TRUE)) == NULL) 3904eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, SET_ERROR(ENODEV))); 3905eda14cbcSMatt Macy 3906eda14cbcSMatt Macy if (!vd->vdev_ops->vdev_op_leaf) 3907eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, SET_ERROR(ENOTSUP))); 3908eda14cbcSMatt Macy 3909eda14cbcSMatt Macy /* 3910eda14cbcSMatt Macy * If the vdev is already faulted, then don't do anything. 3911eda14cbcSMatt Macy */ 3912eda14cbcSMatt Macy if (vd->vdev_faulted || vd->vdev_degraded) 3913eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, 0)); 3914eda14cbcSMatt Macy 3915eda14cbcSMatt Macy vd->vdev_degraded = 1ULL; 3916eda14cbcSMatt Macy if (!vdev_is_dead(vd)) 3917eda14cbcSMatt Macy vdev_set_state(vd, B_FALSE, VDEV_STATE_DEGRADED, 3918eda14cbcSMatt Macy aux); 3919eda14cbcSMatt Macy 3920eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, vd, 0)); 3921eda14cbcSMatt Macy } 3922eda14cbcSMatt Macy 3923eda14cbcSMatt Macy /* 3924eda14cbcSMatt Macy * Online the given vdev. 3925eda14cbcSMatt Macy * 3926eda14cbcSMatt Macy * If 'ZFS_ONLINE_UNSPARE' is set, it implies two things. First, any attached 3927eda14cbcSMatt Macy * spare device should be detached when the device finishes resilvering. 3928eda14cbcSMatt Macy * Second, the online should be treated like a 'test' online case, so no FMA 3929eda14cbcSMatt Macy * events are generated if the device fails to open. 3930eda14cbcSMatt Macy */ 3931eda14cbcSMatt Macy int 3932eda14cbcSMatt Macy vdev_online(spa_t *spa, uint64_t guid, uint64_t flags, vdev_state_t *newstate) 3933eda14cbcSMatt Macy { 3934eda14cbcSMatt Macy vdev_t *vd, *tvd, *pvd, *rvd = spa->spa_root_vdev; 3935eda14cbcSMatt Macy boolean_t wasoffline; 3936eda14cbcSMatt Macy vdev_state_t oldstate; 3937eda14cbcSMatt Macy 3938eda14cbcSMatt Macy spa_vdev_state_enter(spa, SCL_NONE); 3939eda14cbcSMatt Macy 3940eda14cbcSMatt Macy if ((vd = spa_lookup_by_guid(spa, guid, B_TRUE)) == NULL) 3941eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, SET_ERROR(ENODEV))); 3942eda14cbcSMatt Macy 3943eda14cbcSMatt Macy if (!vd->vdev_ops->vdev_op_leaf) 3944eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, SET_ERROR(ENOTSUP))); 3945eda14cbcSMatt Macy 3946eda14cbcSMatt Macy wasoffline = (vd->vdev_offline || vd->vdev_tmpoffline); 3947eda14cbcSMatt Macy oldstate = vd->vdev_state; 3948eda14cbcSMatt Macy 3949eda14cbcSMatt Macy tvd = vd->vdev_top; 3950eda14cbcSMatt Macy vd->vdev_offline = B_FALSE; 3951eda14cbcSMatt Macy vd->vdev_tmpoffline = B_FALSE; 3952eda14cbcSMatt Macy vd->vdev_checkremove = !!(flags & ZFS_ONLINE_CHECKREMOVE); 3953eda14cbcSMatt Macy vd->vdev_forcefault = !!(flags & ZFS_ONLINE_FORCEFAULT); 3954eda14cbcSMatt Macy 3955eda14cbcSMatt Macy /* XXX - L2ARC 1.0 does not support expansion */ 3956eda14cbcSMatt Macy if (!vd->vdev_aux) { 3957eda14cbcSMatt Macy for (pvd = vd; pvd != rvd; pvd = pvd->vdev_parent) 3958eda14cbcSMatt Macy pvd->vdev_expanding = !!((flags & ZFS_ONLINE_EXPAND) || 3959eda14cbcSMatt Macy spa->spa_autoexpand); 3960eda14cbcSMatt Macy vd->vdev_expansion_time = gethrestime_sec(); 3961eda14cbcSMatt Macy } 3962eda14cbcSMatt Macy 3963eda14cbcSMatt Macy vdev_reopen(tvd); 3964eda14cbcSMatt Macy vd->vdev_checkremove = vd->vdev_forcefault = B_FALSE; 3965eda14cbcSMatt Macy 3966eda14cbcSMatt Macy if (!vd->vdev_aux) { 3967eda14cbcSMatt Macy for (pvd = vd; pvd != rvd; pvd = pvd->vdev_parent) 3968eda14cbcSMatt Macy pvd->vdev_expanding = B_FALSE; 3969eda14cbcSMatt Macy } 3970eda14cbcSMatt Macy 3971eda14cbcSMatt Macy if (newstate) 3972eda14cbcSMatt Macy *newstate = vd->vdev_state; 3973eda14cbcSMatt Macy if ((flags & ZFS_ONLINE_UNSPARE) && 3974eda14cbcSMatt Macy !vdev_is_dead(vd) && vd->vdev_parent && 3975eda14cbcSMatt Macy vd->vdev_parent->vdev_ops == &vdev_spare_ops && 3976eda14cbcSMatt Macy vd->vdev_parent->vdev_child[0] == vd) 3977eda14cbcSMatt Macy vd->vdev_unspare = B_TRUE; 3978eda14cbcSMatt Macy 3979eda14cbcSMatt Macy if ((flags & ZFS_ONLINE_EXPAND) || spa->spa_autoexpand) { 3980eda14cbcSMatt Macy 3981eda14cbcSMatt Macy /* XXX - L2ARC 1.0 does not support expansion */ 3982eda14cbcSMatt Macy if (vd->vdev_aux) 3983eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, vd, ENOTSUP)); 3984eda14cbcSMatt Macy spa_async_request(spa, SPA_ASYNC_CONFIG_UPDATE); 3985eda14cbcSMatt Macy } 3986eda14cbcSMatt Macy 3987eda14cbcSMatt Macy /* Restart initializing if necessary */ 3988eda14cbcSMatt Macy mutex_enter(&vd->vdev_initialize_lock); 3989eda14cbcSMatt Macy if (vdev_writeable(vd) && 3990eda14cbcSMatt Macy vd->vdev_initialize_thread == NULL && 3991eda14cbcSMatt Macy vd->vdev_initialize_state == VDEV_INITIALIZE_ACTIVE) { 3992eda14cbcSMatt Macy (void) vdev_initialize(vd); 3993eda14cbcSMatt Macy } 3994eda14cbcSMatt Macy mutex_exit(&vd->vdev_initialize_lock); 3995eda14cbcSMatt Macy 3996eda14cbcSMatt Macy /* 3997eda14cbcSMatt Macy * Restart trimming if necessary. We do not restart trimming for cache 3998eda14cbcSMatt Macy * devices here. This is triggered by l2arc_rebuild_vdev() 3999eda14cbcSMatt Macy * asynchronously for the whole device or in l2arc_evict() as it evicts 4000eda14cbcSMatt Macy * space for upcoming writes. 4001eda14cbcSMatt Macy */ 4002eda14cbcSMatt Macy mutex_enter(&vd->vdev_trim_lock); 4003eda14cbcSMatt Macy if (vdev_writeable(vd) && !vd->vdev_isl2cache && 4004eda14cbcSMatt Macy vd->vdev_trim_thread == NULL && 4005eda14cbcSMatt Macy vd->vdev_trim_state == VDEV_TRIM_ACTIVE) { 4006eda14cbcSMatt Macy (void) vdev_trim(vd, vd->vdev_trim_rate, vd->vdev_trim_partial, 4007eda14cbcSMatt Macy vd->vdev_trim_secure); 4008eda14cbcSMatt Macy } 4009eda14cbcSMatt Macy mutex_exit(&vd->vdev_trim_lock); 4010eda14cbcSMatt Macy 4011eda14cbcSMatt Macy if (wasoffline || 4012eda14cbcSMatt Macy (oldstate < VDEV_STATE_DEGRADED && 4013eda14cbcSMatt Macy vd->vdev_state >= VDEV_STATE_DEGRADED)) 4014eda14cbcSMatt Macy spa_event_notify(spa, vd, NULL, ESC_ZFS_VDEV_ONLINE); 4015eda14cbcSMatt Macy 4016eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, vd, 0)); 4017eda14cbcSMatt Macy } 4018eda14cbcSMatt Macy 4019eda14cbcSMatt Macy static int 4020eda14cbcSMatt Macy vdev_offline_locked(spa_t *spa, uint64_t guid, uint64_t flags) 4021eda14cbcSMatt Macy { 4022eda14cbcSMatt Macy vdev_t *vd, *tvd; 4023eda14cbcSMatt Macy int error = 0; 4024eda14cbcSMatt Macy uint64_t generation; 4025eda14cbcSMatt Macy metaslab_group_t *mg; 4026eda14cbcSMatt Macy 4027eda14cbcSMatt Macy top: 4028eda14cbcSMatt Macy spa_vdev_state_enter(spa, SCL_ALLOC); 4029eda14cbcSMatt Macy 4030eda14cbcSMatt Macy if ((vd = spa_lookup_by_guid(spa, guid, B_TRUE)) == NULL) 4031eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, SET_ERROR(ENODEV))); 4032eda14cbcSMatt Macy 4033eda14cbcSMatt Macy if (!vd->vdev_ops->vdev_op_leaf) 4034eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, SET_ERROR(ENOTSUP))); 4035eda14cbcSMatt Macy 40367877fdebSMatt Macy if (vd->vdev_ops == &vdev_draid_spare_ops) 40377877fdebSMatt Macy return (spa_vdev_state_exit(spa, NULL, ENOTSUP)); 40387877fdebSMatt Macy 4039eda14cbcSMatt Macy tvd = vd->vdev_top; 4040eda14cbcSMatt Macy mg = tvd->vdev_mg; 4041eda14cbcSMatt Macy generation = spa->spa_config_generation + 1; 4042eda14cbcSMatt Macy 4043eda14cbcSMatt Macy /* 4044eda14cbcSMatt Macy * If the device isn't already offline, try to offline it. 4045eda14cbcSMatt Macy */ 4046eda14cbcSMatt Macy if (!vd->vdev_offline) { 4047eda14cbcSMatt Macy /* 4048eda14cbcSMatt Macy * If this device has the only valid copy of some data, 4049eda14cbcSMatt Macy * don't allow it to be offlined. Log devices are always 4050eda14cbcSMatt Macy * expendable. 4051eda14cbcSMatt Macy */ 4052eda14cbcSMatt Macy if (!tvd->vdev_islog && vd->vdev_aux == NULL && 4053eda14cbcSMatt Macy vdev_dtl_required(vd)) 4054eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, 4055eda14cbcSMatt Macy SET_ERROR(EBUSY))); 4056eda14cbcSMatt Macy 4057eda14cbcSMatt Macy /* 4058eda14cbcSMatt Macy * If the top-level is a slog and it has had allocations 4059eda14cbcSMatt Macy * then proceed. We check that the vdev's metaslab group 4060eda14cbcSMatt Macy * is not NULL since it's possible that we may have just 4061eda14cbcSMatt Macy * added this vdev but not yet initialized its metaslabs. 4062eda14cbcSMatt Macy */ 4063eda14cbcSMatt Macy if (tvd->vdev_islog && mg != NULL) { 4064eda14cbcSMatt Macy /* 4065eda14cbcSMatt Macy * Prevent any future allocations. 4066eda14cbcSMatt Macy */ 4067184c1b94SMartin Matuska ASSERT3P(tvd->vdev_log_mg, ==, NULL); 4068eda14cbcSMatt Macy metaslab_group_passivate(mg); 4069eda14cbcSMatt Macy (void) spa_vdev_state_exit(spa, vd, 0); 4070eda14cbcSMatt Macy 4071eda14cbcSMatt Macy error = spa_reset_logs(spa); 4072eda14cbcSMatt Macy 4073eda14cbcSMatt Macy /* 4074eda14cbcSMatt Macy * If the log device was successfully reset but has 4075eda14cbcSMatt Macy * checkpointed data, do not offline it. 4076eda14cbcSMatt Macy */ 4077eda14cbcSMatt Macy if (error == 0 && 4078eda14cbcSMatt Macy tvd->vdev_checkpoint_sm != NULL) { 4079eda14cbcSMatt Macy ASSERT3U(space_map_allocated( 4080eda14cbcSMatt Macy tvd->vdev_checkpoint_sm), !=, 0); 4081eda14cbcSMatt Macy error = ZFS_ERR_CHECKPOINT_EXISTS; 4082eda14cbcSMatt Macy } 4083eda14cbcSMatt Macy 4084eda14cbcSMatt Macy spa_vdev_state_enter(spa, SCL_ALLOC); 4085eda14cbcSMatt Macy 4086eda14cbcSMatt Macy /* 4087eda14cbcSMatt Macy * Check to see if the config has changed. 4088eda14cbcSMatt Macy */ 4089eda14cbcSMatt Macy if (error || generation != spa->spa_config_generation) { 4090eda14cbcSMatt Macy metaslab_group_activate(mg); 4091eda14cbcSMatt Macy if (error) 4092eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, 4093eda14cbcSMatt Macy vd, error)); 4094eda14cbcSMatt Macy (void) spa_vdev_state_exit(spa, vd, 0); 4095eda14cbcSMatt Macy goto top; 4096eda14cbcSMatt Macy } 4097eda14cbcSMatt Macy ASSERT0(tvd->vdev_stat.vs_alloc); 4098eda14cbcSMatt Macy } 4099eda14cbcSMatt Macy 4100eda14cbcSMatt Macy /* 4101eda14cbcSMatt Macy * Offline this device and reopen its top-level vdev. 4102eda14cbcSMatt Macy * If the top-level vdev is a log device then just offline 4103eda14cbcSMatt Macy * it. Otherwise, if this action results in the top-level 4104eda14cbcSMatt Macy * vdev becoming unusable, undo it and fail the request. 4105eda14cbcSMatt Macy */ 4106eda14cbcSMatt Macy vd->vdev_offline = B_TRUE; 4107eda14cbcSMatt Macy vdev_reopen(tvd); 4108eda14cbcSMatt Macy 4109eda14cbcSMatt Macy if (!tvd->vdev_islog && vd->vdev_aux == NULL && 4110eda14cbcSMatt Macy vdev_is_dead(tvd)) { 4111eda14cbcSMatt Macy vd->vdev_offline = B_FALSE; 4112eda14cbcSMatt Macy vdev_reopen(tvd); 4113eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, NULL, 4114eda14cbcSMatt Macy SET_ERROR(EBUSY))); 4115eda14cbcSMatt Macy } 4116eda14cbcSMatt Macy 4117eda14cbcSMatt Macy /* 4118eda14cbcSMatt Macy * Add the device back into the metaslab rotor so that 4119eda14cbcSMatt Macy * once we online the device it's open for business. 4120eda14cbcSMatt Macy */ 4121eda14cbcSMatt Macy if (tvd->vdev_islog && mg != NULL) 4122eda14cbcSMatt Macy metaslab_group_activate(mg); 4123eda14cbcSMatt Macy } 4124eda14cbcSMatt Macy 4125eda14cbcSMatt Macy vd->vdev_tmpoffline = !!(flags & ZFS_OFFLINE_TEMPORARY); 4126eda14cbcSMatt Macy 4127eda14cbcSMatt Macy return (spa_vdev_state_exit(spa, vd, 0)); 4128eda14cbcSMatt Macy } 4129eda14cbcSMatt Macy 4130eda14cbcSMatt Macy int 4131eda14cbcSMatt Macy vdev_offline(spa_t *spa, uint64_t guid, uint64_t flags) 4132eda14cbcSMatt Macy { 4133eda14cbcSMatt Macy int error; 4134eda14cbcSMatt Macy 4135eda14cbcSMatt Macy mutex_enter(&spa->spa_vdev_top_lock); 4136eda14cbcSMatt Macy error = vdev_offline_locked(spa, guid, flags); 4137eda14cbcSMatt Macy mutex_exit(&spa->spa_vdev_top_lock); 4138eda14cbcSMatt Macy 4139eda14cbcSMatt Macy return (error); 4140eda14cbcSMatt Macy } 4141eda14cbcSMatt Macy 4142eda14cbcSMatt Macy /* 4143eda14cbcSMatt Macy * Clear the error counts associated with this vdev. Unlike vdev_online() and 4144eda14cbcSMatt Macy * vdev_offline(), we assume the spa config is locked. We also clear all 4145eda14cbcSMatt Macy * children. If 'vd' is NULL, then the user wants to clear all vdevs. 4146eda14cbcSMatt Macy */ 4147eda14cbcSMatt Macy void 4148eda14cbcSMatt Macy vdev_clear(spa_t *spa, vdev_t *vd) 4149eda14cbcSMatt Macy { 4150eda14cbcSMatt Macy vdev_t *rvd = spa->spa_root_vdev; 4151eda14cbcSMatt Macy 4152eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_STATE_ALL, RW_WRITER) == SCL_STATE_ALL); 4153eda14cbcSMatt Macy 4154eda14cbcSMatt Macy if (vd == NULL) 4155eda14cbcSMatt Macy vd = rvd; 4156eda14cbcSMatt Macy 4157eda14cbcSMatt Macy vd->vdev_stat.vs_read_errors = 0; 4158eda14cbcSMatt Macy vd->vdev_stat.vs_write_errors = 0; 4159eda14cbcSMatt Macy vd->vdev_stat.vs_checksum_errors = 0; 4160eda14cbcSMatt Macy vd->vdev_stat.vs_slow_ios = 0; 4161eda14cbcSMatt Macy 4162eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 4163eda14cbcSMatt Macy vdev_clear(spa, vd->vdev_child[c]); 4164eda14cbcSMatt Macy 4165eda14cbcSMatt Macy /* 4166eda14cbcSMatt Macy * It makes no sense to "clear" an indirect vdev. 4167eda14cbcSMatt Macy */ 4168eda14cbcSMatt Macy if (!vdev_is_concrete(vd)) 4169eda14cbcSMatt Macy return; 4170eda14cbcSMatt Macy 4171eda14cbcSMatt Macy /* 4172eda14cbcSMatt Macy * If we're in the FAULTED state or have experienced failed I/O, then 4173eda14cbcSMatt Macy * clear the persistent state and attempt to reopen the device. We 4174eda14cbcSMatt Macy * also mark the vdev config dirty, so that the new faulted state is 4175eda14cbcSMatt Macy * written out to disk. 4176eda14cbcSMatt Macy */ 4177eda14cbcSMatt Macy if (vd->vdev_faulted || vd->vdev_degraded || 4178eda14cbcSMatt Macy !vdev_readable(vd) || !vdev_writeable(vd)) { 4179eda14cbcSMatt Macy /* 4180eda14cbcSMatt Macy * When reopening in response to a clear event, it may be due to 4181eda14cbcSMatt Macy * a fmadm repair request. In this case, if the device is 4182eda14cbcSMatt Macy * still broken, we want to still post the ereport again. 4183eda14cbcSMatt Macy */ 4184eda14cbcSMatt Macy vd->vdev_forcefault = B_TRUE; 4185eda14cbcSMatt Macy 4186eda14cbcSMatt Macy vd->vdev_faulted = vd->vdev_degraded = 0ULL; 4187eda14cbcSMatt Macy vd->vdev_cant_read = B_FALSE; 4188eda14cbcSMatt Macy vd->vdev_cant_write = B_FALSE; 4189eda14cbcSMatt Macy vd->vdev_stat.vs_aux = 0; 4190eda14cbcSMatt Macy 4191eda14cbcSMatt Macy vdev_reopen(vd == rvd ? rvd : vd->vdev_top); 4192eda14cbcSMatt Macy 4193eda14cbcSMatt Macy vd->vdev_forcefault = B_FALSE; 4194eda14cbcSMatt Macy 4195eda14cbcSMatt Macy if (vd != rvd && vdev_writeable(vd->vdev_top)) 4196eda14cbcSMatt Macy vdev_state_dirty(vd->vdev_top); 4197eda14cbcSMatt Macy 4198eda14cbcSMatt Macy /* If a resilver isn't required, check if vdevs can be culled */ 4199eda14cbcSMatt Macy if (vd->vdev_aux == NULL && !vdev_is_dead(vd) && 4200eda14cbcSMatt Macy !dsl_scan_resilvering(spa->spa_dsl_pool) && 4201eda14cbcSMatt Macy !dsl_scan_resilver_scheduled(spa->spa_dsl_pool)) 4202eda14cbcSMatt Macy spa_async_request(spa, SPA_ASYNC_RESILVER_DONE); 4203eda14cbcSMatt Macy 4204eda14cbcSMatt Macy spa_event_notify(spa, vd, NULL, ESC_ZFS_VDEV_CLEAR); 4205eda14cbcSMatt Macy } 4206eda14cbcSMatt Macy 4207eda14cbcSMatt Macy /* 4208eda14cbcSMatt Macy * When clearing a FMA-diagnosed fault, we always want to 4209eda14cbcSMatt Macy * unspare the device, as we assume that the original spare was 4210eda14cbcSMatt Macy * done in response to the FMA fault. 4211eda14cbcSMatt Macy */ 4212eda14cbcSMatt Macy if (!vdev_is_dead(vd) && vd->vdev_parent != NULL && 4213eda14cbcSMatt Macy vd->vdev_parent->vdev_ops == &vdev_spare_ops && 4214eda14cbcSMatt Macy vd->vdev_parent->vdev_child[0] == vd) 4215eda14cbcSMatt Macy vd->vdev_unspare = B_TRUE; 4216ba27dd8bSMartin Matuska 4217ba27dd8bSMartin Matuska /* Clear recent error events cache (i.e. duplicate events tracking) */ 4218ba27dd8bSMartin Matuska zfs_ereport_clear(spa, vd); 4219eda14cbcSMatt Macy } 4220eda14cbcSMatt Macy 4221eda14cbcSMatt Macy boolean_t 4222eda14cbcSMatt Macy vdev_is_dead(vdev_t *vd) 4223eda14cbcSMatt Macy { 4224eda14cbcSMatt Macy /* 4225eda14cbcSMatt Macy * Holes and missing devices are always considered "dead". 4226eda14cbcSMatt Macy * This simplifies the code since we don't have to check for 4227eda14cbcSMatt Macy * these types of devices in the various code paths. 4228eda14cbcSMatt Macy * Instead we rely on the fact that we skip over dead devices 4229eda14cbcSMatt Macy * before issuing I/O to them. 4230eda14cbcSMatt Macy */ 4231eda14cbcSMatt Macy return (vd->vdev_state < VDEV_STATE_DEGRADED || 4232eda14cbcSMatt Macy vd->vdev_ops == &vdev_hole_ops || 4233eda14cbcSMatt Macy vd->vdev_ops == &vdev_missing_ops); 4234eda14cbcSMatt Macy } 4235eda14cbcSMatt Macy 4236eda14cbcSMatt Macy boolean_t 4237eda14cbcSMatt Macy vdev_readable(vdev_t *vd) 4238eda14cbcSMatt Macy { 4239eda14cbcSMatt Macy return (!vdev_is_dead(vd) && !vd->vdev_cant_read); 4240eda14cbcSMatt Macy } 4241eda14cbcSMatt Macy 4242eda14cbcSMatt Macy boolean_t 4243eda14cbcSMatt Macy vdev_writeable(vdev_t *vd) 4244eda14cbcSMatt Macy { 4245eda14cbcSMatt Macy return (!vdev_is_dead(vd) && !vd->vdev_cant_write && 4246eda14cbcSMatt Macy vdev_is_concrete(vd)); 4247eda14cbcSMatt Macy } 4248eda14cbcSMatt Macy 4249eda14cbcSMatt Macy boolean_t 4250eda14cbcSMatt Macy vdev_allocatable(vdev_t *vd) 4251eda14cbcSMatt Macy { 4252eda14cbcSMatt Macy uint64_t state = vd->vdev_state; 4253eda14cbcSMatt Macy 4254eda14cbcSMatt Macy /* 4255eda14cbcSMatt Macy * We currently allow allocations from vdevs which may be in the 4256eda14cbcSMatt Macy * process of reopening (i.e. VDEV_STATE_CLOSED). If the device 4257eda14cbcSMatt Macy * fails to reopen then we'll catch it later when we're holding 4258eda14cbcSMatt Macy * the proper locks. Note that we have to get the vdev state 4259eda14cbcSMatt Macy * in a local variable because although it changes atomically, 4260eda14cbcSMatt Macy * we're asking two separate questions about it. 4261eda14cbcSMatt Macy */ 4262eda14cbcSMatt Macy return (!(state < VDEV_STATE_DEGRADED && state != VDEV_STATE_CLOSED) && 4263eda14cbcSMatt Macy !vd->vdev_cant_write && vdev_is_concrete(vd) && 4264eda14cbcSMatt Macy vd->vdev_mg->mg_initialized); 4265eda14cbcSMatt Macy } 4266eda14cbcSMatt Macy 4267eda14cbcSMatt Macy boolean_t 4268eda14cbcSMatt Macy vdev_accessible(vdev_t *vd, zio_t *zio) 4269eda14cbcSMatt Macy { 4270eda14cbcSMatt Macy ASSERT(zio->io_vd == vd); 4271eda14cbcSMatt Macy 4272eda14cbcSMatt Macy if (vdev_is_dead(vd) || vd->vdev_remove_wanted) 4273eda14cbcSMatt Macy return (B_FALSE); 4274eda14cbcSMatt Macy 4275eda14cbcSMatt Macy if (zio->io_type == ZIO_TYPE_READ) 4276eda14cbcSMatt Macy return (!vd->vdev_cant_read); 4277eda14cbcSMatt Macy 4278eda14cbcSMatt Macy if (zio->io_type == ZIO_TYPE_WRITE) 4279eda14cbcSMatt Macy return (!vd->vdev_cant_write); 4280eda14cbcSMatt Macy 4281eda14cbcSMatt Macy return (B_TRUE); 4282eda14cbcSMatt Macy } 4283eda14cbcSMatt Macy 4284eda14cbcSMatt Macy static void 4285eda14cbcSMatt Macy vdev_get_child_stat(vdev_t *cvd, vdev_stat_t *vs, vdev_stat_t *cvs) 4286eda14cbcSMatt Macy { 42877877fdebSMatt Macy /* 42887877fdebSMatt Macy * Exclude the dRAID spare when aggregating to avoid double counting 42897877fdebSMatt Macy * the ops and bytes. These IOs are counted by the physical leaves. 42907877fdebSMatt Macy */ 42917877fdebSMatt Macy if (cvd->vdev_ops == &vdev_draid_spare_ops) 42927877fdebSMatt Macy return; 42937877fdebSMatt Macy 4294eda14cbcSMatt Macy for (int t = 0; t < VS_ZIO_TYPES; t++) { 4295eda14cbcSMatt Macy vs->vs_ops[t] += cvs->vs_ops[t]; 4296eda14cbcSMatt Macy vs->vs_bytes[t] += cvs->vs_bytes[t]; 4297eda14cbcSMatt Macy } 4298eda14cbcSMatt Macy 4299eda14cbcSMatt Macy cvs->vs_scan_removing = cvd->vdev_removing; 4300eda14cbcSMatt Macy } 4301eda14cbcSMatt Macy 4302eda14cbcSMatt Macy /* 4303eda14cbcSMatt Macy * Get extended stats 4304eda14cbcSMatt Macy */ 4305eda14cbcSMatt Macy static void 4306eda14cbcSMatt Macy vdev_get_child_stat_ex(vdev_t *cvd, vdev_stat_ex_t *vsx, vdev_stat_ex_t *cvsx) 4307eda14cbcSMatt Macy { 4308e92ffd9bSMartin Matuska (void) cvd; 4309e92ffd9bSMartin Matuska 4310eda14cbcSMatt Macy int t, b; 4311eda14cbcSMatt Macy for (t = 0; t < ZIO_TYPES; t++) { 4312eda14cbcSMatt Macy for (b = 0; b < ARRAY_SIZE(vsx->vsx_disk_histo[0]); b++) 4313eda14cbcSMatt Macy vsx->vsx_disk_histo[t][b] += cvsx->vsx_disk_histo[t][b]; 4314eda14cbcSMatt Macy 4315eda14cbcSMatt Macy for (b = 0; b < ARRAY_SIZE(vsx->vsx_total_histo[0]); b++) { 4316eda14cbcSMatt Macy vsx->vsx_total_histo[t][b] += 4317eda14cbcSMatt Macy cvsx->vsx_total_histo[t][b]; 4318eda14cbcSMatt Macy } 4319eda14cbcSMatt Macy } 4320eda14cbcSMatt Macy 4321eda14cbcSMatt Macy for (t = 0; t < ZIO_PRIORITY_NUM_QUEUEABLE; t++) { 4322eda14cbcSMatt Macy for (b = 0; b < ARRAY_SIZE(vsx->vsx_queue_histo[0]); b++) { 4323eda14cbcSMatt Macy vsx->vsx_queue_histo[t][b] += 4324eda14cbcSMatt Macy cvsx->vsx_queue_histo[t][b]; 4325eda14cbcSMatt Macy } 4326eda14cbcSMatt Macy vsx->vsx_active_queue[t] += cvsx->vsx_active_queue[t]; 4327eda14cbcSMatt Macy vsx->vsx_pend_queue[t] += cvsx->vsx_pend_queue[t]; 4328eda14cbcSMatt Macy 4329eda14cbcSMatt Macy for (b = 0; b < ARRAY_SIZE(vsx->vsx_ind_histo[0]); b++) 4330eda14cbcSMatt Macy vsx->vsx_ind_histo[t][b] += cvsx->vsx_ind_histo[t][b]; 4331eda14cbcSMatt Macy 4332eda14cbcSMatt Macy for (b = 0; b < ARRAY_SIZE(vsx->vsx_agg_histo[0]); b++) 4333eda14cbcSMatt Macy vsx->vsx_agg_histo[t][b] += cvsx->vsx_agg_histo[t][b]; 4334eda14cbcSMatt Macy } 4335eda14cbcSMatt Macy 4336eda14cbcSMatt Macy } 4337eda14cbcSMatt Macy 4338eda14cbcSMatt Macy boolean_t 4339eda14cbcSMatt Macy vdev_is_spacemap_addressable(vdev_t *vd) 4340eda14cbcSMatt Macy { 4341eda14cbcSMatt Macy if (spa_feature_is_active(vd->vdev_spa, SPA_FEATURE_SPACEMAP_V2)) 4342eda14cbcSMatt Macy return (B_TRUE); 4343eda14cbcSMatt Macy 4344eda14cbcSMatt Macy /* 4345eda14cbcSMatt Macy * If double-word space map entries are not enabled we assume 4346eda14cbcSMatt Macy * 47 bits of the space map entry are dedicated to the entry's 4347eda14cbcSMatt Macy * offset (see SM_OFFSET_BITS in space_map.h). We then use that 4348eda14cbcSMatt Macy * to calculate the maximum address that can be described by a 4349eda14cbcSMatt Macy * space map entry for the given device. 4350eda14cbcSMatt Macy */ 4351eda14cbcSMatt Macy uint64_t shift = vd->vdev_ashift + SM_OFFSET_BITS; 4352eda14cbcSMatt Macy 4353eda14cbcSMatt Macy if (shift >= 63) /* detect potential overflow */ 4354eda14cbcSMatt Macy return (B_TRUE); 4355eda14cbcSMatt Macy 4356eda14cbcSMatt Macy return (vd->vdev_asize < (1ULL << shift)); 4357eda14cbcSMatt Macy } 4358eda14cbcSMatt Macy 4359eda14cbcSMatt Macy /* 4360eda14cbcSMatt Macy * Get statistics for the given vdev. 4361eda14cbcSMatt Macy */ 4362eda14cbcSMatt Macy static void 4363eda14cbcSMatt Macy vdev_get_stats_ex_impl(vdev_t *vd, vdev_stat_t *vs, vdev_stat_ex_t *vsx) 4364eda14cbcSMatt Macy { 4365eda14cbcSMatt Macy int t; 4366eda14cbcSMatt Macy /* 4367eda14cbcSMatt Macy * If we're getting stats on the root vdev, aggregate the I/O counts 4368eda14cbcSMatt Macy * over all top-level vdevs (i.e. the direct children of the root). 4369eda14cbcSMatt Macy */ 4370eda14cbcSMatt Macy if (!vd->vdev_ops->vdev_op_leaf) { 4371eda14cbcSMatt Macy if (vs) { 4372eda14cbcSMatt Macy memset(vs->vs_ops, 0, sizeof (vs->vs_ops)); 4373eda14cbcSMatt Macy memset(vs->vs_bytes, 0, sizeof (vs->vs_bytes)); 4374eda14cbcSMatt Macy } 4375eda14cbcSMatt Macy if (vsx) 4376eda14cbcSMatt Macy memset(vsx, 0, sizeof (*vsx)); 4377eda14cbcSMatt Macy 4378eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 4379eda14cbcSMatt Macy vdev_t *cvd = vd->vdev_child[c]; 4380eda14cbcSMatt Macy vdev_stat_t *cvs = &cvd->vdev_stat; 4381eda14cbcSMatt Macy vdev_stat_ex_t *cvsx = &cvd->vdev_stat_ex; 4382eda14cbcSMatt Macy 4383eda14cbcSMatt Macy vdev_get_stats_ex_impl(cvd, cvs, cvsx); 4384eda14cbcSMatt Macy if (vs) 4385eda14cbcSMatt Macy vdev_get_child_stat(cvd, vs, cvs); 4386eda14cbcSMatt Macy if (vsx) 4387eda14cbcSMatt Macy vdev_get_child_stat_ex(cvd, vsx, cvsx); 4388eda14cbcSMatt Macy } 4389eda14cbcSMatt Macy } else { 4390eda14cbcSMatt Macy /* 4391eda14cbcSMatt Macy * We're a leaf. Just copy our ZIO active queue stats in. The 4392eda14cbcSMatt Macy * other leaf stats are updated in vdev_stat_update(). 4393eda14cbcSMatt Macy */ 4394eda14cbcSMatt Macy if (!vsx) 4395eda14cbcSMatt Macy return; 4396eda14cbcSMatt Macy 4397eda14cbcSMatt Macy memcpy(vsx, &vd->vdev_stat_ex, sizeof (vd->vdev_stat_ex)); 4398eda14cbcSMatt Macy 4399eda14cbcSMatt Macy for (t = 0; t < ARRAY_SIZE(vd->vdev_queue.vq_class); t++) { 4400eda14cbcSMatt Macy vsx->vsx_active_queue[t] = 4401eda14cbcSMatt Macy vd->vdev_queue.vq_class[t].vqc_active; 4402eda14cbcSMatt Macy vsx->vsx_pend_queue[t] = avl_numnodes( 4403eda14cbcSMatt Macy &vd->vdev_queue.vq_class[t].vqc_queued_tree); 4404eda14cbcSMatt Macy } 4405eda14cbcSMatt Macy } 4406eda14cbcSMatt Macy } 4407eda14cbcSMatt Macy 4408eda14cbcSMatt Macy void 4409eda14cbcSMatt Macy vdev_get_stats_ex(vdev_t *vd, vdev_stat_t *vs, vdev_stat_ex_t *vsx) 4410eda14cbcSMatt Macy { 4411eda14cbcSMatt Macy vdev_t *tvd = vd->vdev_top; 4412eda14cbcSMatt Macy mutex_enter(&vd->vdev_stat_lock); 4413eda14cbcSMatt Macy if (vs) { 4414da5137abSMartin Matuska memcpy(vs, &vd->vdev_stat, sizeof (*vs)); 4415eda14cbcSMatt Macy vs->vs_timestamp = gethrtime() - vs->vs_timestamp; 4416eda14cbcSMatt Macy vs->vs_state = vd->vdev_state; 4417eda14cbcSMatt Macy vs->vs_rsize = vdev_get_min_asize(vd); 4418eda14cbcSMatt Macy 4419eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf) { 4420da5137abSMartin Matuska vs->vs_pspace = vd->vdev_psize; 4421eda14cbcSMatt Macy vs->vs_rsize += VDEV_LABEL_START_SIZE + 4422eda14cbcSMatt Macy VDEV_LABEL_END_SIZE; 4423eda14cbcSMatt Macy /* 4424eda14cbcSMatt Macy * Report initializing progress. Since we don't 4425eda14cbcSMatt Macy * have the initializing locks held, this is only 4426eda14cbcSMatt Macy * an estimate (although a fairly accurate one). 4427eda14cbcSMatt Macy */ 4428eda14cbcSMatt Macy vs->vs_initialize_bytes_done = 4429eda14cbcSMatt Macy vd->vdev_initialize_bytes_done; 4430eda14cbcSMatt Macy vs->vs_initialize_bytes_est = 4431eda14cbcSMatt Macy vd->vdev_initialize_bytes_est; 4432eda14cbcSMatt Macy vs->vs_initialize_state = vd->vdev_initialize_state; 4433eda14cbcSMatt Macy vs->vs_initialize_action_time = 4434eda14cbcSMatt Macy vd->vdev_initialize_action_time; 4435eda14cbcSMatt Macy 4436eda14cbcSMatt Macy /* 4437eda14cbcSMatt Macy * Report manual TRIM progress. Since we don't have 4438eda14cbcSMatt Macy * the manual TRIM locks held, this is only an 4439eda14cbcSMatt Macy * estimate (although fairly accurate one). 4440eda14cbcSMatt Macy */ 4441eda14cbcSMatt Macy vs->vs_trim_notsup = !vd->vdev_has_trim; 4442eda14cbcSMatt Macy vs->vs_trim_bytes_done = vd->vdev_trim_bytes_done; 4443eda14cbcSMatt Macy vs->vs_trim_bytes_est = vd->vdev_trim_bytes_est; 4444eda14cbcSMatt Macy vs->vs_trim_state = vd->vdev_trim_state; 4445eda14cbcSMatt Macy vs->vs_trim_action_time = vd->vdev_trim_action_time; 4446eda14cbcSMatt Macy 4447eda14cbcSMatt Macy /* Set when there is a deferred resilver. */ 4448eda14cbcSMatt Macy vs->vs_resilver_deferred = vd->vdev_resilver_deferred; 4449eda14cbcSMatt Macy } 4450eda14cbcSMatt Macy 4451eda14cbcSMatt Macy /* 4452eda14cbcSMatt Macy * Report expandable space on top-level, non-auxiliary devices 4453eda14cbcSMatt Macy * only. The expandable space is reported in terms of metaslab 4454eda14cbcSMatt Macy * sized units since that determines how much space the pool 4455eda14cbcSMatt Macy * can expand. 4456eda14cbcSMatt Macy */ 4457eda14cbcSMatt Macy if (vd->vdev_aux == NULL && tvd != NULL) { 4458eda14cbcSMatt Macy vs->vs_esize = P2ALIGN( 4459eda14cbcSMatt Macy vd->vdev_max_asize - vd->vdev_asize, 4460eda14cbcSMatt Macy 1ULL << tvd->vdev_ms_shift); 4461eda14cbcSMatt Macy } 4462eda14cbcSMatt Macy 4463eda14cbcSMatt Macy vs->vs_configured_ashift = vd->vdev_top != NULL 4464eda14cbcSMatt Macy ? vd->vdev_top->vdev_ashift : vd->vdev_ashift; 4465eda14cbcSMatt Macy vs->vs_logical_ashift = vd->vdev_logical_ashift; 4466eda14cbcSMatt Macy vs->vs_physical_ashift = vd->vdev_physical_ashift; 4467eda14cbcSMatt Macy 4468eda14cbcSMatt Macy /* 4469eda14cbcSMatt Macy * Report fragmentation and rebuild progress for top-level, 4470eda14cbcSMatt Macy * non-auxiliary, concrete devices. 4471eda14cbcSMatt Macy */ 4472eda14cbcSMatt Macy if (vd->vdev_aux == NULL && vd == vd->vdev_top && 4473eda14cbcSMatt Macy vdev_is_concrete(vd)) { 4474184c1b94SMartin Matuska /* 4475184c1b94SMartin Matuska * The vdev fragmentation rating doesn't take into 4476184c1b94SMartin Matuska * account the embedded slog metaslab (vdev_log_mg). 4477184c1b94SMartin Matuska * Since it's only one metaslab, it would have a tiny 4478184c1b94SMartin Matuska * impact on the overall fragmentation. 4479184c1b94SMartin Matuska */ 4480eda14cbcSMatt Macy vs->vs_fragmentation = (vd->vdev_mg != NULL) ? 4481eda14cbcSMatt Macy vd->vdev_mg->mg_fragmentation : 0; 4482eda14cbcSMatt Macy } 4483681ce946SMartin Matuska vs->vs_noalloc = MAX(vd->vdev_noalloc, 4484681ce946SMartin Matuska tvd ? tvd->vdev_noalloc : 0); 4485eda14cbcSMatt Macy } 4486eda14cbcSMatt Macy 4487eda14cbcSMatt Macy vdev_get_stats_ex_impl(vd, vs, vsx); 4488eda14cbcSMatt Macy mutex_exit(&vd->vdev_stat_lock); 4489eda14cbcSMatt Macy } 4490eda14cbcSMatt Macy 4491eda14cbcSMatt Macy void 4492eda14cbcSMatt Macy vdev_get_stats(vdev_t *vd, vdev_stat_t *vs) 4493eda14cbcSMatt Macy { 4494eda14cbcSMatt Macy return (vdev_get_stats_ex(vd, vs, NULL)); 4495eda14cbcSMatt Macy } 4496eda14cbcSMatt Macy 4497eda14cbcSMatt Macy void 4498eda14cbcSMatt Macy vdev_clear_stats(vdev_t *vd) 4499eda14cbcSMatt Macy { 4500eda14cbcSMatt Macy mutex_enter(&vd->vdev_stat_lock); 4501eda14cbcSMatt Macy vd->vdev_stat.vs_space = 0; 4502eda14cbcSMatt Macy vd->vdev_stat.vs_dspace = 0; 4503eda14cbcSMatt Macy vd->vdev_stat.vs_alloc = 0; 4504eda14cbcSMatt Macy mutex_exit(&vd->vdev_stat_lock); 4505eda14cbcSMatt Macy } 4506eda14cbcSMatt Macy 4507eda14cbcSMatt Macy void 4508eda14cbcSMatt Macy vdev_scan_stat_init(vdev_t *vd) 4509eda14cbcSMatt Macy { 4510eda14cbcSMatt Macy vdev_stat_t *vs = &vd->vdev_stat; 4511eda14cbcSMatt Macy 4512eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 4513eda14cbcSMatt Macy vdev_scan_stat_init(vd->vdev_child[c]); 4514eda14cbcSMatt Macy 4515eda14cbcSMatt Macy mutex_enter(&vd->vdev_stat_lock); 4516eda14cbcSMatt Macy vs->vs_scan_processed = 0; 4517eda14cbcSMatt Macy mutex_exit(&vd->vdev_stat_lock); 4518eda14cbcSMatt Macy } 4519eda14cbcSMatt Macy 4520eda14cbcSMatt Macy void 4521eda14cbcSMatt Macy vdev_stat_update(zio_t *zio, uint64_t psize) 4522eda14cbcSMatt Macy { 4523eda14cbcSMatt Macy spa_t *spa = zio->io_spa; 4524eda14cbcSMatt Macy vdev_t *rvd = spa->spa_root_vdev; 4525eda14cbcSMatt Macy vdev_t *vd = zio->io_vd ? zio->io_vd : rvd; 4526eda14cbcSMatt Macy vdev_t *pvd; 4527eda14cbcSMatt Macy uint64_t txg = zio->io_txg; 4528c03c5b1cSMartin Matuska vdev_stat_t *vs = vd ? &vd->vdev_stat : NULL; 4529c03c5b1cSMartin Matuska vdev_stat_ex_t *vsx = vd ? &vd->vdev_stat_ex : NULL; 4530eda14cbcSMatt Macy zio_type_t type = zio->io_type; 4531eda14cbcSMatt Macy int flags = zio->io_flags; 4532eda14cbcSMatt Macy 4533eda14cbcSMatt Macy /* 4534eda14cbcSMatt Macy * If this i/o is a gang leader, it didn't do any actual work. 4535eda14cbcSMatt Macy */ 4536eda14cbcSMatt Macy if (zio->io_gang_tree) 4537eda14cbcSMatt Macy return; 4538eda14cbcSMatt Macy 4539eda14cbcSMatt Macy if (zio->io_error == 0) { 4540eda14cbcSMatt Macy /* 4541eda14cbcSMatt Macy * If this is a root i/o, don't count it -- we've already 4542eda14cbcSMatt Macy * counted the top-level vdevs, and vdev_get_stats() will 4543eda14cbcSMatt Macy * aggregate them when asked. This reduces contention on 4544eda14cbcSMatt Macy * the root vdev_stat_lock and implicitly handles blocks 4545eda14cbcSMatt Macy * that compress away to holes, for which there is no i/o. 4546eda14cbcSMatt Macy * (Holes never create vdev children, so all the counters 4547eda14cbcSMatt Macy * remain zero, which is what we want.) 4548eda14cbcSMatt Macy * 4549eda14cbcSMatt Macy * Note: this only applies to successful i/o (io_error == 0) 4550eda14cbcSMatt Macy * because unlike i/o counts, errors are not additive. 4551eda14cbcSMatt Macy * When reading a ditto block, for example, failure of 4552eda14cbcSMatt Macy * one top-level vdev does not imply a root-level error. 4553eda14cbcSMatt Macy */ 4554eda14cbcSMatt Macy if (vd == rvd) 4555eda14cbcSMatt Macy return; 4556eda14cbcSMatt Macy 4557eda14cbcSMatt Macy ASSERT(vd == zio->io_vd); 4558eda14cbcSMatt Macy 4559eda14cbcSMatt Macy if (flags & ZIO_FLAG_IO_BYPASS) 4560eda14cbcSMatt Macy return; 4561eda14cbcSMatt Macy 4562eda14cbcSMatt Macy mutex_enter(&vd->vdev_stat_lock); 4563eda14cbcSMatt Macy 4564eda14cbcSMatt Macy if (flags & ZIO_FLAG_IO_REPAIR) { 4565eda14cbcSMatt Macy /* 4566eda14cbcSMatt Macy * Repair is the result of a resilver issued by the 4567eda14cbcSMatt Macy * scan thread (spa_sync). 4568eda14cbcSMatt Macy */ 4569eda14cbcSMatt Macy if (flags & ZIO_FLAG_SCAN_THREAD) { 4570eda14cbcSMatt Macy dsl_scan_t *scn = spa->spa_dsl_pool->dp_scan; 4571eda14cbcSMatt Macy dsl_scan_phys_t *scn_phys = &scn->scn_phys; 4572eda14cbcSMatt Macy uint64_t *processed = &scn_phys->scn_processed; 4573eda14cbcSMatt Macy 4574eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf) 4575eda14cbcSMatt Macy atomic_add_64(processed, psize); 4576eda14cbcSMatt Macy vs->vs_scan_processed += psize; 4577eda14cbcSMatt Macy } 4578eda14cbcSMatt Macy 4579eda14cbcSMatt Macy /* 4580eda14cbcSMatt Macy * Repair is the result of a rebuild issued by the 45817877fdebSMatt Macy * rebuild thread (vdev_rebuild_thread). To avoid 45827877fdebSMatt Macy * double counting repaired bytes the virtual dRAID 45837877fdebSMatt Macy * spare vdev is excluded from the processed bytes. 4584eda14cbcSMatt Macy */ 4585eda14cbcSMatt Macy if (zio->io_priority == ZIO_PRIORITY_REBUILD) { 4586eda14cbcSMatt Macy vdev_t *tvd = vd->vdev_top; 4587eda14cbcSMatt Macy vdev_rebuild_t *vr = &tvd->vdev_rebuild_config; 4588eda14cbcSMatt Macy vdev_rebuild_phys_t *vrp = &vr->vr_rebuild_phys; 4589eda14cbcSMatt Macy uint64_t *rebuilt = &vrp->vrp_bytes_rebuilt; 4590eda14cbcSMatt Macy 45917877fdebSMatt Macy if (vd->vdev_ops->vdev_op_leaf && 45927877fdebSMatt Macy vd->vdev_ops != &vdev_draid_spare_ops) { 4593eda14cbcSMatt Macy atomic_add_64(rebuilt, psize); 45947877fdebSMatt Macy } 4595eda14cbcSMatt Macy vs->vs_rebuild_processed += psize; 4596eda14cbcSMatt Macy } 4597eda14cbcSMatt Macy 4598eda14cbcSMatt Macy if (flags & ZIO_FLAG_SELF_HEAL) 4599eda14cbcSMatt Macy vs->vs_self_healed += psize; 4600eda14cbcSMatt Macy } 4601eda14cbcSMatt Macy 4602eda14cbcSMatt Macy /* 4603eda14cbcSMatt Macy * The bytes/ops/histograms are recorded at the leaf level and 4604eda14cbcSMatt Macy * aggregated into the higher level vdevs in vdev_get_stats(). 4605eda14cbcSMatt Macy */ 4606eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf && 4607eda14cbcSMatt Macy (zio->io_priority < ZIO_PRIORITY_NUM_QUEUEABLE)) { 4608eda14cbcSMatt Macy zio_type_t vs_type = type; 4609eda14cbcSMatt Macy zio_priority_t priority = zio->io_priority; 4610eda14cbcSMatt Macy 4611eda14cbcSMatt Macy /* 4612eda14cbcSMatt Macy * TRIM ops and bytes are reported to user space as 4613eda14cbcSMatt Macy * ZIO_TYPE_IOCTL. This is done to preserve the 4614eda14cbcSMatt Macy * vdev_stat_t structure layout for user space. 4615eda14cbcSMatt Macy */ 4616eda14cbcSMatt Macy if (type == ZIO_TYPE_TRIM) 4617eda14cbcSMatt Macy vs_type = ZIO_TYPE_IOCTL; 4618eda14cbcSMatt Macy 4619eda14cbcSMatt Macy /* 4620eda14cbcSMatt Macy * Solely for the purposes of 'zpool iostat -lqrw' 462116038816SMartin Matuska * reporting use the priority to categorize the IO. 4622eda14cbcSMatt Macy * Only the following are reported to user space: 4623eda14cbcSMatt Macy * 4624eda14cbcSMatt Macy * ZIO_PRIORITY_SYNC_READ, 4625eda14cbcSMatt Macy * ZIO_PRIORITY_SYNC_WRITE, 4626eda14cbcSMatt Macy * ZIO_PRIORITY_ASYNC_READ, 4627eda14cbcSMatt Macy * ZIO_PRIORITY_ASYNC_WRITE, 4628eda14cbcSMatt Macy * ZIO_PRIORITY_SCRUB, 462921b492edSMartin Matuska * ZIO_PRIORITY_TRIM, 463021b492edSMartin Matuska * ZIO_PRIORITY_REBUILD. 4631eda14cbcSMatt Macy */ 463221b492edSMartin Matuska if (priority == ZIO_PRIORITY_INITIALIZING) { 4633eda14cbcSMatt Macy ASSERT3U(type, ==, ZIO_TYPE_WRITE); 4634eda14cbcSMatt Macy priority = ZIO_PRIORITY_ASYNC_WRITE; 4635eda14cbcSMatt Macy } else if (priority == ZIO_PRIORITY_REMOVAL) { 4636eda14cbcSMatt Macy priority = ((type == ZIO_TYPE_WRITE) ? 4637eda14cbcSMatt Macy ZIO_PRIORITY_ASYNC_WRITE : 4638eda14cbcSMatt Macy ZIO_PRIORITY_ASYNC_READ); 4639eda14cbcSMatt Macy } 4640eda14cbcSMatt Macy 4641eda14cbcSMatt Macy vs->vs_ops[vs_type]++; 4642eda14cbcSMatt Macy vs->vs_bytes[vs_type] += psize; 4643eda14cbcSMatt Macy 4644eda14cbcSMatt Macy if (flags & ZIO_FLAG_DELEGATED) { 4645eda14cbcSMatt Macy vsx->vsx_agg_histo[priority] 4646eda14cbcSMatt Macy [RQ_HISTO(zio->io_size)]++; 4647eda14cbcSMatt Macy } else { 4648eda14cbcSMatt Macy vsx->vsx_ind_histo[priority] 4649eda14cbcSMatt Macy [RQ_HISTO(zio->io_size)]++; 4650eda14cbcSMatt Macy } 4651eda14cbcSMatt Macy 4652eda14cbcSMatt Macy if (zio->io_delta && zio->io_delay) { 4653eda14cbcSMatt Macy vsx->vsx_queue_histo[priority] 4654eda14cbcSMatt Macy [L_HISTO(zio->io_delta - zio->io_delay)]++; 4655eda14cbcSMatt Macy vsx->vsx_disk_histo[type] 4656eda14cbcSMatt Macy [L_HISTO(zio->io_delay)]++; 4657eda14cbcSMatt Macy vsx->vsx_total_histo[type] 4658eda14cbcSMatt Macy [L_HISTO(zio->io_delta)]++; 4659eda14cbcSMatt Macy } 4660eda14cbcSMatt Macy } 4661eda14cbcSMatt Macy 4662eda14cbcSMatt Macy mutex_exit(&vd->vdev_stat_lock); 4663eda14cbcSMatt Macy return; 4664eda14cbcSMatt Macy } 4665eda14cbcSMatt Macy 4666eda14cbcSMatt Macy if (flags & ZIO_FLAG_SPECULATIVE) 4667eda14cbcSMatt Macy return; 4668eda14cbcSMatt Macy 4669eda14cbcSMatt Macy /* 4670eda14cbcSMatt Macy * If this is an I/O error that is going to be retried, then ignore the 4671eda14cbcSMatt Macy * error. Otherwise, the user may interpret B_FAILFAST I/O errors as 4672eda14cbcSMatt Macy * hard errors, when in reality they can happen for any number of 4673eda14cbcSMatt Macy * innocuous reasons (bus resets, MPxIO link failure, etc). 4674eda14cbcSMatt Macy */ 4675eda14cbcSMatt Macy if (zio->io_error == EIO && 4676eda14cbcSMatt Macy !(zio->io_flags & ZIO_FLAG_IO_RETRY)) 4677eda14cbcSMatt Macy return; 4678eda14cbcSMatt Macy 4679eda14cbcSMatt Macy /* 4680eda14cbcSMatt Macy * Intent logs writes won't propagate their error to the root 4681eda14cbcSMatt Macy * I/O so don't mark these types of failures as pool-level 4682eda14cbcSMatt Macy * errors. 4683eda14cbcSMatt Macy */ 4684eda14cbcSMatt Macy if (zio->io_vd == NULL && (zio->io_flags & ZIO_FLAG_DONT_PROPAGATE)) 4685eda14cbcSMatt Macy return; 4686eda14cbcSMatt Macy 46877877fdebSMatt Macy if (type == ZIO_TYPE_WRITE && txg != 0 && 4688eda14cbcSMatt Macy (!(flags & ZIO_FLAG_IO_REPAIR) || 4689eda14cbcSMatt Macy (flags & ZIO_FLAG_SCAN_THREAD) || 4690eda14cbcSMatt Macy spa->spa_claiming)) { 4691eda14cbcSMatt Macy /* 4692eda14cbcSMatt Macy * This is either a normal write (not a repair), or it's 4693eda14cbcSMatt Macy * a repair induced by the scrub thread, or it's a repair 4694eda14cbcSMatt Macy * made by zil_claim() during spa_load() in the first txg. 4695eda14cbcSMatt Macy * In the normal case, we commit the DTL change in the same 4696eda14cbcSMatt Macy * txg as the block was born. In the scrub-induced repair 4697eda14cbcSMatt Macy * case, we know that scrubs run in first-pass syncing context, 4698eda14cbcSMatt Macy * so we commit the DTL change in spa_syncing_txg(spa). 4699eda14cbcSMatt Macy * In the zil_claim() case, we commit in spa_first_txg(spa). 4700eda14cbcSMatt Macy * 4701eda14cbcSMatt Macy * We currently do not make DTL entries for failed spontaneous 4702eda14cbcSMatt Macy * self-healing writes triggered by normal (non-scrubbing) 4703eda14cbcSMatt Macy * reads, because we have no transactional context in which to 4704eda14cbcSMatt Macy * do so -- and it's not clear that it'd be desirable anyway. 4705eda14cbcSMatt Macy */ 4706eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf) { 4707eda14cbcSMatt Macy uint64_t commit_txg = txg; 4708eda14cbcSMatt Macy if (flags & ZIO_FLAG_SCAN_THREAD) { 4709eda14cbcSMatt Macy ASSERT(flags & ZIO_FLAG_IO_REPAIR); 4710eda14cbcSMatt Macy ASSERT(spa_sync_pass(spa) == 1); 4711eda14cbcSMatt Macy vdev_dtl_dirty(vd, DTL_SCRUB, txg, 1); 4712eda14cbcSMatt Macy commit_txg = spa_syncing_txg(spa); 4713eda14cbcSMatt Macy } else if (spa->spa_claiming) { 4714eda14cbcSMatt Macy ASSERT(flags & ZIO_FLAG_IO_REPAIR); 4715eda14cbcSMatt Macy commit_txg = spa_first_txg(spa); 4716eda14cbcSMatt Macy } 4717eda14cbcSMatt Macy ASSERT(commit_txg >= spa_syncing_txg(spa)); 4718eda14cbcSMatt Macy if (vdev_dtl_contains(vd, DTL_MISSING, txg, 1)) 4719eda14cbcSMatt Macy return; 4720eda14cbcSMatt Macy for (pvd = vd; pvd != rvd; pvd = pvd->vdev_parent) 4721eda14cbcSMatt Macy vdev_dtl_dirty(pvd, DTL_PARTIAL, txg, 1); 4722eda14cbcSMatt Macy vdev_dirty(vd->vdev_top, VDD_DTL, vd, commit_txg); 4723eda14cbcSMatt Macy } 4724eda14cbcSMatt Macy if (vd != rvd) 4725eda14cbcSMatt Macy vdev_dtl_dirty(vd, DTL_MISSING, txg, 1); 4726eda14cbcSMatt Macy } 4727eda14cbcSMatt Macy } 4728eda14cbcSMatt Macy 4729eda14cbcSMatt Macy int64_t 4730eda14cbcSMatt Macy vdev_deflated_space(vdev_t *vd, int64_t space) 4731eda14cbcSMatt Macy { 4732eda14cbcSMatt Macy ASSERT((space & (SPA_MINBLOCKSIZE-1)) == 0); 4733eda14cbcSMatt Macy ASSERT(vd->vdev_deflate_ratio != 0 || vd->vdev_isl2cache); 4734eda14cbcSMatt Macy 4735eda14cbcSMatt Macy return ((space >> SPA_MINBLOCKSHIFT) * vd->vdev_deflate_ratio); 4736eda14cbcSMatt Macy } 4737eda14cbcSMatt Macy 4738eda14cbcSMatt Macy /* 4739eda14cbcSMatt Macy * Update the in-core space usage stats for this vdev, its metaslab class, 4740eda14cbcSMatt Macy * and the root vdev. 4741eda14cbcSMatt Macy */ 4742eda14cbcSMatt Macy void 4743eda14cbcSMatt Macy vdev_space_update(vdev_t *vd, int64_t alloc_delta, int64_t defer_delta, 4744eda14cbcSMatt Macy int64_t space_delta) 4745eda14cbcSMatt Macy { 4746e92ffd9bSMartin Matuska (void) defer_delta; 4747eda14cbcSMatt Macy int64_t dspace_delta; 4748eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 4749eda14cbcSMatt Macy vdev_t *rvd = spa->spa_root_vdev; 4750eda14cbcSMatt Macy 4751eda14cbcSMatt Macy ASSERT(vd == vd->vdev_top); 4752eda14cbcSMatt Macy 4753eda14cbcSMatt Macy /* 4754eda14cbcSMatt Macy * Apply the inverse of the psize-to-asize (ie. RAID-Z) space-expansion 4755eda14cbcSMatt Macy * factor. We must calculate this here and not at the root vdev 4756eda14cbcSMatt Macy * because the root vdev's psize-to-asize is simply the max of its 4757eda14cbcSMatt Macy * children's, thus not accurate enough for us. 4758eda14cbcSMatt Macy */ 4759eda14cbcSMatt Macy dspace_delta = vdev_deflated_space(vd, space_delta); 4760eda14cbcSMatt Macy 4761eda14cbcSMatt Macy mutex_enter(&vd->vdev_stat_lock); 4762eda14cbcSMatt Macy /* ensure we won't underflow */ 4763eda14cbcSMatt Macy if (alloc_delta < 0) { 4764eda14cbcSMatt Macy ASSERT3U(vd->vdev_stat.vs_alloc, >=, -alloc_delta); 4765eda14cbcSMatt Macy } 4766eda14cbcSMatt Macy 4767eda14cbcSMatt Macy vd->vdev_stat.vs_alloc += alloc_delta; 4768eda14cbcSMatt Macy vd->vdev_stat.vs_space += space_delta; 4769eda14cbcSMatt Macy vd->vdev_stat.vs_dspace += dspace_delta; 4770eda14cbcSMatt Macy mutex_exit(&vd->vdev_stat_lock); 4771eda14cbcSMatt Macy 4772eda14cbcSMatt Macy /* every class but log contributes to root space stats */ 4773eda14cbcSMatt Macy if (vd->vdev_mg != NULL && !vd->vdev_islog) { 4774eda14cbcSMatt Macy ASSERT(!vd->vdev_isl2cache); 4775eda14cbcSMatt Macy mutex_enter(&rvd->vdev_stat_lock); 4776eda14cbcSMatt Macy rvd->vdev_stat.vs_alloc += alloc_delta; 4777eda14cbcSMatt Macy rvd->vdev_stat.vs_space += space_delta; 4778eda14cbcSMatt Macy rvd->vdev_stat.vs_dspace += dspace_delta; 4779eda14cbcSMatt Macy mutex_exit(&rvd->vdev_stat_lock); 4780eda14cbcSMatt Macy } 4781eda14cbcSMatt Macy /* Note: metaslab_class_space_update moved to metaslab_space_update */ 4782eda14cbcSMatt Macy } 4783eda14cbcSMatt Macy 4784eda14cbcSMatt Macy /* 4785eda14cbcSMatt Macy * Mark a top-level vdev's config as dirty, placing it on the dirty list 4786eda14cbcSMatt Macy * so that it will be written out next time the vdev configuration is synced. 4787eda14cbcSMatt Macy * If the root vdev is specified (vdev_top == NULL), dirty all top-level vdevs. 4788eda14cbcSMatt Macy */ 4789eda14cbcSMatt Macy void 4790eda14cbcSMatt Macy vdev_config_dirty(vdev_t *vd) 4791eda14cbcSMatt Macy { 4792eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 4793eda14cbcSMatt Macy vdev_t *rvd = spa->spa_root_vdev; 4794eda14cbcSMatt Macy int c; 4795eda14cbcSMatt Macy 4796eda14cbcSMatt Macy ASSERT(spa_writeable(spa)); 4797eda14cbcSMatt Macy 4798eda14cbcSMatt Macy /* 4799eda14cbcSMatt Macy * If this is an aux vdev (as with l2cache and spare devices), then we 4800eda14cbcSMatt Macy * update the vdev config manually and set the sync flag. 4801eda14cbcSMatt Macy */ 4802eda14cbcSMatt Macy if (vd->vdev_aux != NULL) { 4803eda14cbcSMatt Macy spa_aux_vdev_t *sav = vd->vdev_aux; 4804eda14cbcSMatt Macy nvlist_t **aux; 4805eda14cbcSMatt Macy uint_t naux; 4806eda14cbcSMatt Macy 4807eda14cbcSMatt Macy for (c = 0; c < sav->sav_count; c++) { 4808eda14cbcSMatt Macy if (sav->sav_vdevs[c] == vd) 4809eda14cbcSMatt Macy break; 4810eda14cbcSMatt Macy } 4811eda14cbcSMatt Macy 4812eda14cbcSMatt Macy if (c == sav->sav_count) { 4813eda14cbcSMatt Macy /* 4814eda14cbcSMatt Macy * We're being removed. There's nothing more to do. 4815eda14cbcSMatt Macy */ 4816eda14cbcSMatt Macy ASSERT(sav->sav_sync == B_TRUE); 4817eda14cbcSMatt Macy return; 4818eda14cbcSMatt Macy } 4819eda14cbcSMatt Macy 4820eda14cbcSMatt Macy sav->sav_sync = B_TRUE; 4821eda14cbcSMatt Macy 4822eda14cbcSMatt Macy if (nvlist_lookup_nvlist_array(sav->sav_config, 4823eda14cbcSMatt Macy ZPOOL_CONFIG_L2CACHE, &aux, &naux) != 0) { 4824eda14cbcSMatt Macy VERIFY(nvlist_lookup_nvlist_array(sav->sav_config, 4825eda14cbcSMatt Macy ZPOOL_CONFIG_SPARES, &aux, &naux) == 0); 4826eda14cbcSMatt Macy } 4827eda14cbcSMatt Macy 4828eda14cbcSMatt Macy ASSERT(c < naux); 4829eda14cbcSMatt Macy 4830eda14cbcSMatt Macy /* 4831eda14cbcSMatt Macy * Setting the nvlist in the middle if the array is a little 4832eda14cbcSMatt Macy * sketchy, but it will work. 4833eda14cbcSMatt Macy */ 4834eda14cbcSMatt Macy nvlist_free(aux[c]); 4835eda14cbcSMatt Macy aux[c] = vdev_config_generate(spa, vd, B_TRUE, 0); 4836eda14cbcSMatt Macy 4837eda14cbcSMatt Macy return; 4838eda14cbcSMatt Macy } 4839eda14cbcSMatt Macy 4840eda14cbcSMatt Macy /* 4841eda14cbcSMatt Macy * The dirty list is protected by the SCL_CONFIG lock. The caller 4842eda14cbcSMatt Macy * must either hold SCL_CONFIG as writer, or must be the sync thread 4843eda14cbcSMatt Macy * (which holds SCL_CONFIG as reader). There's only one sync thread, 4844eda14cbcSMatt Macy * so this is sufficient to ensure mutual exclusion. 4845eda14cbcSMatt Macy */ 4846eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_CONFIG, RW_WRITER) || 4847eda14cbcSMatt Macy (dsl_pool_sync_context(spa_get_dsl(spa)) && 4848eda14cbcSMatt Macy spa_config_held(spa, SCL_CONFIG, RW_READER))); 4849eda14cbcSMatt Macy 4850eda14cbcSMatt Macy if (vd == rvd) { 4851eda14cbcSMatt Macy for (c = 0; c < rvd->vdev_children; c++) 4852eda14cbcSMatt Macy vdev_config_dirty(rvd->vdev_child[c]); 4853eda14cbcSMatt Macy } else { 4854eda14cbcSMatt Macy ASSERT(vd == vd->vdev_top); 4855eda14cbcSMatt Macy 4856eda14cbcSMatt Macy if (!list_link_active(&vd->vdev_config_dirty_node) && 4857eda14cbcSMatt Macy vdev_is_concrete(vd)) { 4858eda14cbcSMatt Macy list_insert_head(&spa->spa_config_dirty_list, vd); 4859eda14cbcSMatt Macy } 4860eda14cbcSMatt Macy } 4861eda14cbcSMatt Macy } 4862eda14cbcSMatt Macy 4863eda14cbcSMatt Macy void 4864eda14cbcSMatt Macy vdev_config_clean(vdev_t *vd) 4865eda14cbcSMatt Macy { 4866eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 4867eda14cbcSMatt Macy 4868eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_CONFIG, RW_WRITER) || 4869eda14cbcSMatt Macy (dsl_pool_sync_context(spa_get_dsl(spa)) && 4870eda14cbcSMatt Macy spa_config_held(spa, SCL_CONFIG, RW_READER))); 4871eda14cbcSMatt Macy 4872eda14cbcSMatt Macy ASSERT(list_link_active(&vd->vdev_config_dirty_node)); 4873eda14cbcSMatt Macy list_remove(&spa->spa_config_dirty_list, vd); 4874eda14cbcSMatt Macy } 4875eda14cbcSMatt Macy 4876eda14cbcSMatt Macy /* 4877eda14cbcSMatt Macy * Mark a top-level vdev's state as dirty, so that the next pass of 4878eda14cbcSMatt Macy * spa_sync() can convert this into vdev_config_dirty(). We distinguish 4879eda14cbcSMatt Macy * the state changes from larger config changes because they require 4880eda14cbcSMatt Macy * much less locking, and are often needed for administrative actions. 4881eda14cbcSMatt Macy */ 4882eda14cbcSMatt Macy void 4883eda14cbcSMatt Macy vdev_state_dirty(vdev_t *vd) 4884eda14cbcSMatt Macy { 4885eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 4886eda14cbcSMatt Macy 4887eda14cbcSMatt Macy ASSERT(spa_writeable(spa)); 4888eda14cbcSMatt Macy ASSERT(vd == vd->vdev_top); 4889eda14cbcSMatt Macy 4890eda14cbcSMatt Macy /* 4891eda14cbcSMatt Macy * The state list is protected by the SCL_STATE lock. The caller 4892eda14cbcSMatt Macy * must either hold SCL_STATE as writer, or must be the sync thread 4893eda14cbcSMatt Macy * (which holds SCL_STATE as reader). There's only one sync thread, 4894eda14cbcSMatt Macy * so this is sufficient to ensure mutual exclusion. 4895eda14cbcSMatt Macy */ 4896eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_STATE, RW_WRITER) || 4897eda14cbcSMatt Macy (dsl_pool_sync_context(spa_get_dsl(spa)) && 4898eda14cbcSMatt Macy spa_config_held(spa, SCL_STATE, RW_READER))); 4899eda14cbcSMatt Macy 4900eda14cbcSMatt Macy if (!list_link_active(&vd->vdev_state_dirty_node) && 4901eda14cbcSMatt Macy vdev_is_concrete(vd)) 4902eda14cbcSMatt Macy list_insert_head(&spa->spa_state_dirty_list, vd); 4903eda14cbcSMatt Macy } 4904eda14cbcSMatt Macy 4905eda14cbcSMatt Macy void 4906eda14cbcSMatt Macy vdev_state_clean(vdev_t *vd) 4907eda14cbcSMatt Macy { 4908eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 4909eda14cbcSMatt Macy 4910eda14cbcSMatt Macy ASSERT(spa_config_held(spa, SCL_STATE, RW_WRITER) || 4911eda14cbcSMatt Macy (dsl_pool_sync_context(spa_get_dsl(spa)) && 4912eda14cbcSMatt Macy spa_config_held(spa, SCL_STATE, RW_READER))); 4913eda14cbcSMatt Macy 4914eda14cbcSMatt Macy ASSERT(list_link_active(&vd->vdev_state_dirty_node)); 4915eda14cbcSMatt Macy list_remove(&spa->spa_state_dirty_list, vd); 4916eda14cbcSMatt Macy } 4917eda14cbcSMatt Macy 4918eda14cbcSMatt Macy /* 4919eda14cbcSMatt Macy * Propagate vdev state up from children to parent. 4920eda14cbcSMatt Macy */ 4921eda14cbcSMatt Macy void 4922eda14cbcSMatt Macy vdev_propagate_state(vdev_t *vd) 4923eda14cbcSMatt Macy { 4924eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 4925eda14cbcSMatt Macy vdev_t *rvd = spa->spa_root_vdev; 4926eda14cbcSMatt Macy int degraded = 0, faulted = 0; 4927eda14cbcSMatt Macy int corrupted = 0; 4928eda14cbcSMatt Macy vdev_t *child; 4929eda14cbcSMatt Macy 4930eda14cbcSMatt Macy if (vd->vdev_children > 0) { 4931eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 4932eda14cbcSMatt Macy child = vd->vdev_child[c]; 4933eda14cbcSMatt Macy 4934eda14cbcSMatt Macy /* 4935eda14cbcSMatt Macy * Don't factor holes or indirect vdevs into the 4936eda14cbcSMatt Macy * decision. 4937eda14cbcSMatt Macy */ 4938eda14cbcSMatt Macy if (!vdev_is_concrete(child)) 4939eda14cbcSMatt Macy continue; 4940eda14cbcSMatt Macy 4941eda14cbcSMatt Macy if (!vdev_readable(child) || 4942eda14cbcSMatt Macy (!vdev_writeable(child) && spa_writeable(spa))) { 4943eda14cbcSMatt Macy /* 4944eda14cbcSMatt Macy * Root special: if there is a top-level log 4945eda14cbcSMatt Macy * device, treat the root vdev as if it were 4946eda14cbcSMatt Macy * degraded. 4947eda14cbcSMatt Macy */ 4948eda14cbcSMatt Macy if (child->vdev_islog && vd == rvd) 4949eda14cbcSMatt Macy degraded++; 4950eda14cbcSMatt Macy else 4951eda14cbcSMatt Macy faulted++; 4952eda14cbcSMatt Macy } else if (child->vdev_state <= VDEV_STATE_DEGRADED) { 4953eda14cbcSMatt Macy degraded++; 4954eda14cbcSMatt Macy } 4955eda14cbcSMatt Macy 4956eda14cbcSMatt Macy if (child->vdev_stat.vs_aux == VDEV_AUX_CORRUPT_DATA) 4957eda14cbcSMatt Macy corrupted++; 4958eda14cbcSMatt Macy } 4959eda14cbcSMatt Macy 4960eda14cbcSMatt Macy vd->vdev_ops->vdev_op_state_change(vd, faulted, degraded); 4961eda14cbcSMatt Macy 4962eda14cbcSMatt Macy /* 4963eda14cbcSMatt Macy * Root special: if there is a top-level vdev that cannot be 4964eda14cbcSMatt Macy * opened due to corrupted metadata, then propagate the root 4965eda14cbcSMatt Macy * vdev's aux state as 'corrupt' rather than 'insufficient 4966eda14cbcSMatt Macy * replicas'. 4967eda14cbcSMatt Macy */ 4968eda14cbcSMatt Macy if (corrupted && vd == rvd && 4969eda14cbcSMatt Macy rvd->vdev_state == VDEV_STATE_CANT_OPEN) 4970eda14cbcSMatt Macy vdev_set_state(rvd, B_FALSE, VDEV_STATE_CANT_OPEN, 4971eda14cbcSMatt Macy VDEV_AUX_CORRUPT_DATA); 4972eda14cbcSMatt Macy } 4973eda14cbcSMatt Macy 4974eda14cbcSMatt Macy if (vd->vdev_parent) 4975eda14cbcSMatt Macy vdev_propagate_state(vd->vdev_parent); 4976eda14cbcSMatt Macy } 4977eda14cbcSMatt Macy 4978eda14cbcSMatt Macy /* 4979eda14cbcSMatt Macy * Set a vdev's state. If this is during an open, we don't update the parent 4980eda14cbcSMatt Macy * state, because we're in the process of opening children depth-first. 4981eda14cbcSMatt Macy * Otherwise, we propagate the change to the parent. 4982eda14cbcSMatt Macy * 4983eda14cbcSMatt Macy * If this routine places a device in a faulted state, an appropriate ereport is 4984eda14cbcSMatt Macy * generated. 4985eda14cbcSMatt Macy */ 4986eda14cbcSMatt Macy void 4987eda14cbcSMatt Macy vdev_set_state(vdev_t *vd, boolean_t isopen, vdev_state_t state, vdev_aux_t aux) 4988eda14cbcSMatt Macy { 4989eda14cbcSMatt Macy uint64_t save_state; 4990eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 4991eda14cbcSMatt Macy 4992eda14cbcSMatt Macy if (state == vd->vdev_state) { 4993eda14cbcSMatt Macy /* 4994eda14cbcSMatt Macy * Since vdev_offline() code path is already in an offline 4995eda14cbcSMatt Macy * state we can miss a statechange event to OFFLINE. Check 4996eda14cbcSMatt Macy * the previous state to catch this condition. 4997eda14cbcSMatt Macy */ 4998eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf && 4999eda14cbcSMatt Macy (state == VDEV_STATE_OFFLINE) && 5000eda14cbcSMatt Macy (vd->vdev_prevstate >= VDEV_STATE_FAULTED)) { 5001eda14cbcSMatt Macy /* post an offline state change */ 5002eda14cbcSMatt Macy zfs_post_state_change(spa, vd, vd->vdev_prevstate); 5003eda14cbcSMatt Macy } 5004eda14cbcSMatt Macy vd->vdev_stat.vs_aux = aux; 5005eda14cbcSMatt Macy return; 5006eda14cbcSMatt Macy } 5007eda14cbcSMatt Macy 5008eda14cbcSMatt Macy save_state = vd->vdev_state; 5009eda14cbcSMatt Macy 5010eda14cbcSMatt Macy vd->vdev_state = state; 5011eda14cbcSMatt Macy vd->vdev_stat.vs_aux = aux; 5012eda14cbcSMatt Macy 5013eda14cbcSMatt Macy /* 5014eda14cbcSMatt Macy * If we are setting the vdev state to anything but an open state, then 5015eda14cbcSMatt Macy * always close the underlying device unless the device has requested 5016eda14cbcSMatt Macy * a delayed close (i.e. we're about to remove or fault the device). 5017eda14cbcSMatt Macy * Otherwise, we keep accessible but invalid devices open forever. 5018eda14cbcSMatt Macy * We don't call vdev_close() itself, because that implies some extra 5019eda14cbcSMatt Macy * checks (offline, etc) that we don't want here. This is limited to 5020eda14cbcSMatt Macy * leaf devices, because otherwise closing the device will affect other 5021eda14cbcSMatt Macy * children. 5022eda14cbcSMatt Macy */ 5023eda14cbcSMatt Macy if (!vd->vdev_delayed_close && vdev_is_dead(vd) && 5024eda14cbcSMatt Macy vd->vdev_ops->vdev_op_leaf) 5025eda14cbcSMatt Macy vd->vdev_ops->vdev_op_close(vd); 5026eda14cbcSMatt Macy 5027eda14cbcSMatt Macy if (vd->vdev_removed && 5028eda14cbcSMatt Macy state == VDEV_STATE_CANT_OPEN && 5029eda14cbcSMatt Macy (aux == VDEV_AUX_OPEN_FAILED || vd->vdev_checkremove)) { 5030eda14cbcSMatt Macy /* 5031eda14cbcSMatt Macy * If the previous state is set to VDEV_STATE_REMOVED, then this 5032eda14cbcSMatt Macy * device was previously marked removed and someone attempted to 5033eda14cbcSMatt Macy * reopen it. If this failed due to a nonexistent device, then 5034eda14cbcSMatt Macy * keep the device in the REMOVED state. We also let this be if 5035eda14cbcSMatt Macy * it is one of our special test online cases, which is only 5036eda14cbcSMatt Macy * attempting to online the device and shouldn't generate an FMA 5037eda14cbcSMatt Macy * fault. 5038eda14cbcSMatt Macy */ 5039eda14cbcSMatt Macy vd->vdev_state = VDEV_STATE_REMOVED; 5040eda14cbcSMatt Macy vd->vdev_stat.vs_aux = VDEV_AUX_NONE; 5041eda14cbcSMatt Macy } else if (state == VDEV_STATE_REMOVED) { 5042eda14cbcSMatt Macy vd->vdev_removed = B_TRUE; 5043eda14cbcSMatt Macy } else if (state == VDEV_STATE_CANT_OPEN) { 5044eda14cbcSMatt Macy /* 5045eda14cbcSMatt Macy * If we fail to open a vdev during an import or recovery, we 5046eda14cbcSMatt Macy * mark it as "not available", which signifies that it was 5047eda14cbcSMatt Macy * never there to begin with. Failure to open such a device 5048eda14cbcSMatt Macy * is not considered an error. 5049eda14cbcSMatt Macy */ 5050eda14cbcSMatt Macy if ((spa_load_state(spa) == SPA_LOAD_IMPORT || 5051eda14cbcSMatt Macy spa_load_state(spa) == SPA_LOAD_RECOVER) && 5052eda14cbcSMatt Macy vd->vdev_ops->vdev_op_leaf) 5053eda14cbcSMatt Macy vd->vdev_not_present = 1; 5054eda14cbcSMatt Macy 5055eda14cbcSMatt Macy /* 5056eda14cbcSMatt Macy * Post the appropriate ereport. If the 'prevstate' field is 5057eda14cbcSMatt Macy * set to something other than VDEV_STATE_UNKNOWN, it indicates 5058eda14cbcSMatt Macy * that this is part of a vdev_reopen(). In this case, we don't 5059eda14cbcSMatt Macy * want to post the ereport if the device was already in the 5060eda14cbcSMatt Macy * CANT_OPEN state beforehand. 5061eda14cbcSMatt Macy * 5062eda14cbcSMatt Macy * If the 'checkremove' flag is set, then this is an attempt to 5063eda14cbcSMatt Macy * online the device in response to an insertion event. If we 5064eda14cbcSMatt Macy * hit this case, then we have detected an insertion event for a 5065eda14cbcSMatt Macy * faulted or offline device that wasn't in the removed state. 5066eda14cbcSMatt Macy * In this scenario, we don't post an ereport because we are 5067eda14cbcSMatt Macy * about to replace the device, or attempt an online with 5068eda14cbcSMatt Macy * vdev_forcefault, which will generate the fault for us. 5069eda14cbcSMatt Macy */ 5070eda14cbcSMatt Macy if ((vd->vdev_prevstate != state || vd->vdev_forcefault) && 5071eda14cbcSMatt Macy !vd->vdev_not_present && !vd->vdev_checkremove && 5072eda14cbcSMatt Macy vd != spa->spa_root_vdev) { 5073eda14cbcSMatt Macy const char *class; 5074eda14cbcSMatt Macy 5075eda14cbcSMatt Macy switch (aux) { 5076eda14cbcSMatt Macy case VDEV_AUX_OPEN_FAILED: 5077eda14cbcSMatt Macy class = FM_EREPORT_ZFS_DEVICE_OPEN_FAILED; 5078eda14cbcSMatt Macy break; 5079eda14cbcSMatt Macy case VDEV_AUX_CORRUPT_DATA: 5080eda14cbcSMatt Macy class = FM_EREPORT_ZFS_DEVICE_CORRUPT_DATA; 5081eda14cbcSMatt Macy break; 5082eda14cbcSMatt Macy case VDEV_AUX_NO_REPLICAS: 5083eda14cbcSMatt Macy class = FM_EREPORT_ZFS_DEVICE_NO_REPLICAS; 5084eda14cbcSMatt Macy break; 5085eda14cbcSMatt Macy case VDEV_AUX_BAD_GUID_SUM: 5086eda14cbcSMatt Macy class = FM_EREPORT_ZFS_DEVICE_BAD_GUID_SUM; 5087eda14cbcSMatt Macy break; 5088eda14cbcSMatt Macy case VDEV_AUX_TOO_SMALL: 5089eda14cbcSMatt Macy class = FM_EREPORT_ZFS_DEVICE_TOO_SMALL; 5090eda14cbcSMatt Macy break; 5091eda14cbcSMatt Macy case VDEV_AUX_BAD_LABEL: 5092eda14cbcSMatt Macy class = FM_EREPORT_ZFS_DEVICE_BAD_LABEL; 5093eda14cbcSMatt Macy break; 5094eda14cbcSMatt Macy case VDEV_AUX_BAD_ASHIFT: 5095eda14cbcSMatt Macy class = FM_EREPORT_ZFS_DEVICE_BAD_ASHIFT; 5096eda14cbcSMatt Macy break; 5097eda14cbcSMatt Macy default: 5098eda14cbcSMatt Macy class = FM_EREPORT_ZFS_DEVICE_UNKNOWN; 5099eda14cbcSMatt Macy } 5100eda14cbcSMatt Macy 5101eac7052fSMatt Macy (void) zfs_ereport_post(class, spa, vd, NULL, NULL, 51022c48331dSMatt Macy save_state); 5103eda14cbcSMatt Macy } 5104eda14cbcSMatt Macy 5105eda14cbcSMatt Macy /* Erase any notion of persistent removed state */ 5106eda14cbcSMatt Macy vd->vdev_removed = B_FALSE; 5107eda14cbcSMatt Macy } else { 5108eda14cbcSMatt Macy vd->vdev_removed = B_FALSE; 5109eda14cbcSMatt Macy } 5110eda14cbcSMatt Macy 5111eda14cbcSMatt Macy /* 5112eda14cbcSMatt Macy * Notify ZED of any significant state-change on a leaf vdev. 5113eda14cbcSMatt Macy * 5114eda14cbcSMatt Macy */ 5115eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf) { 5116eda14cbcSMatt Macy /* preserve original state from a vdev_reopen() */ 5117eda14cbcSMatt Macy if ((vd->vdev_prevstate != VDEV_STATE_UNKNOWN) && 5118eda14cbcSMatt Macy (vd->vdev_prevstate != vd->vdev_state) && 5119eda14cbcSMatt Macy (save_state <= VDEV_STATE_CLOSED)) 5120eda14cbcSMatt Macy save_state = vd->vdev_prevstate; 5121eda14cbcSMatt Macy 5122eda14cbcSMatt Macy /* filter out state change due to initial vdev_open */ 5123eda14cbcSMatt Macy if (save_state > VDEV_STATE_CLOSED) 5124eda14cbcSMatt Macy zfs_post_state_change(spa, vd, save_state); 5125eda14cbcSMatt Macy } 5126eda14cbcSMatt Macy 5127eda14cbcSMatt Macy if (!isopen && vd->vdev_parent) 5128eda14cbcSMatt Macy vdev_propagate_state(vd->vdev_parent); 5129eda14cbcSMatt Macy } 5130eda14cbcSMatt Macy 5131eda14cbcSMatt Macy boolean_t 5132eda14cbcSMatt Macy vdev_children_are_offline(vdev_t *vd) 5133eda14cbcSMatt Macy { 5134eda14cbcSMatt Macy ASSERT(!vd->vdev_ops->vdev_op_leaf); 5135eda14cbcSMatt Macy 5136eda14cbcSMatt Macy for (uint64_t i = 0; i < vd->vdev_children; i++) { 5137eda14cbcSMatt Macy if (vd->vdev_child[i]->vdev_state != VDEV_STATE_OFFLINE) 5138eda14cbcSMatt Macy return (B_FALSE); 5139eda14cbcSMatt Macy } 5140eda14cbcSMatt Macy 5141eda14cbcSMatt Macy return (B_TRUE); 5142eda14cbcSMatt Macy } 5143eda14cbcSMatt Macy 5144eda14cbcSMatt Macy /* 5145eda14cbcSMatt Macy * Check the vdev configuration to ensure that it's capable of supporting 5146eda14cbcSMatt Macy * a root pool. We do not support partial configuration. 5147eda14cbcSMatt Macy */ 5148eda14cbcSMatt Macy boolean_t 5149eda14cbcSMatt Macy vdev_is_bootable(vdev_t *vd) 5150eda14cbcSMatt Macy { 5151eda14cbcSMatt Macy if (!vd->vdev_ops->vdev_op_leaf) { 5152eda14cbcSMatt Macy const char *vdev_type = vd->vdev_ops->vdev_op_type; 5153eda14cbcSMatt Macy 5154f9693befSMartin Matuska if (strcmp(vdev_type, VDEV_TYPE_MISSING) == 0) 5155eda14cbcSMatt Macy return (B_FALSE); 5156eda14cbcSMatt Macy } 5157eda14cbcSMatt Macy 5158eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 5159eda14cbcSMatt Macy if (!vdev_is_bootable(vd->vdev_child[c])) 5160eda14cbcSMatt Macy return (B_FALSE); 5161eda14cbcSMatt Macy } 5162eda14cbcSMatt Macy return (B_TRUE); 5163eda14cbcSMatt Macy } 5164eda14cbcSMatt Macy 5165eda14cbcSMatt Macy boolean_t 5166eda14cbcSMatt Macy vdev_is_concrete(vdev_t *vd) 5167eda14cbcSMatt Macy { 5168eda14cbcSMatt Macy vdev_ops_t *ops = vd->vdev_ops; 5169eda14cbcSMatt Macy if (ops == &vdev_indirect_ops || ops == &vdev_hole_ops || 5170eda14cbcSMatt Macy ops == &vdev_missing_ops || ops == &vdev_root_ops) { 5171eda14cbcSMatt Macy return (B_FALSE); 5172eda14cbcSMatt Macy } else { 5173eda14cbcSMatt Macy return (B_TRUE); 5174eda14cbcSMatt Macy } 5175eda14cbcSMatt Macy } 5176eda14cbcSMatt Macy 5177eda14cbcSMatt Macy /* 5178eda14cbcSMatt Macy * Determine if a log device has valid content. If the vdev was 5179eda14cbcSMatt Macy * removed or faulted in the MOS config then we know that 5180eda14cbcSMatt Macy * the content on the log device has already been written to the pool. 5181eda14cbcSMatt Macy */ 5182eda14cbcSMatt Macy boolean_t 5183eda14cbcSMatt Macy vdev_log_state_valid(vdev_t *vd) 5184eda14cbcSMatt Macy { 5185eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf && !vd->vdev_faulted && 5186eda14cbcSMatt Macy !vd->vdev_removed) 5187eda14cbcSMatt Macy return (B_TRUE); 5188eda14cbcSMatt Macy 5189eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) 5190eda14cbcSMatt Macy if (vdev_log_state_valid(vd->vdev_child[c])) 5191eda14cbcSMatt Macy return (B_TRUE); 5192eda14cbcSMatt Macy 5193eda14cbcSMatt Macy return (B_FALSE); 5194eda14cbcSMatt Macy } 5195eda14cbcSMatt Macy 5196eda14cbcSMatt Macy /* 5197eda14cbcSMatt Macy * Expand a vdev if possible. 5198eda14cbcSMatt Macy */ 5199eda14cbcSMatt Macy void 5200eda14cbcSMatt Macy vdev_expand(vdev_t *vd, uint64_t txg) 5201eda14cbcSMatt Macy { 5202eda14cbcSMatt Macy ASSERT(vd->vdev_top == vd); 5203eda14cbcSMatt Macy ASSERT(spa_config_held(vd->vdev_spa, SCL_ALL, RW_WRITER) == SCL_ALL); 5204eda14cbcSMatt Macy ASSERT(vdev_is_concrete(vd)); 5205eda14cbcSMatt Macy 5206eda14cbcSMatt Macy vdev_set_deflate_ratio(vd); 5207eda14cbcSMatt Macy 5208eda14cbcSMatt Macy if ((vd->vdev_asize >> vd->vdev_ms_shift) > vd->vdev_ms_count && 5209eda14cbcSMatt Macy vdev_is_concrete(vd)) { 5210eda14cbcSMatt Macy vdev_metaslab_group_create(vd); 5211eda14cbcSMatt Macy VERIFY(vdev_metaslab_init(vd, txg) == 0); 5212eda14cbcSMatt Macy vdev_config_dirty(vd); 5213eda14cbcSMatt Macy } 5214eda14cbcSMatt Macy } 5215eda14cbcSMatt Macy 5216eda14cbcSMatt Macy /* 5217eda14cbcSMatt Macy * Split a vdev. 5218eda14cbcSMatt Macy */ 5219eda14cbcSMatt Macy void 5220eda14cbcSMatt Macy vdev_split(vdev_t *vd) 5221eda14cbcSMatt Macy { 5222eda14cbcSMatt Macy vdev_t *cvd, *pvd = vd->vdev_parent; 5223eda14cbcSMatt Macy 5224eda14cbcSMatt Macy vdev_remove_child(pvd, vd); 5225eda14cbcSMatt Macy vdev_compact_children(pvd); 5226eda14cbcSMatt Macy 5227eda14cbcSMatt Macy cvd = pvd->vdev_child[0]; 5228eda14cbcSMatt Macy if (pvd->vdev_children == 1) { 5229eda14cbcSMatt Macy vdev_remove_parent(cvd); 5230eda14cbcSMatt Macy cvd->vdev_splitting = B_TRUE; 5231eda14cbcSMatt Macy } 5232eda14cbcSMatt Macy vdev_propagate_state(cvd); 5233eda14cbcSMatt Macy } 5234eda14cbcSMatt Macy 5235eda14cbcSMatt Macy void 5236a0b956f5SMartin Matuska vdev_deadman(vdev_t *vd, const char *tag) 5237eda14cbcSMatt Macy { 5238eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 5239eda14cbcSMatt Macy vdev_t *cvd = vd->vdev_child[c]; 5240eda14cbcSMatt Macy 5241eda14cbcSMatt Macy vdev_deadman(cvd, tag); 5242eda14cbcSMatt Macy } 5243eda14cbcSMatt Macy 5244eda14cbcSMatt Macy if (vd->vdev_ops->vdev_op_leaf) { 5245eda14cbcSMatt Macy vdev_queue_t *vq = &vd->vdev_queue; 5246eda14cbcSMatt Macy 5247eda14cbcSMatt Macy mutex_enter(&vq->vq_lock); 5248eda14cbcSMatt Macy if (avl_numnodes(&vq->vq_active_tree) > 0) { 5249eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 5250eda14cbcSMatt Macy zio_t *fio; 5251eda14cbcSMatt Macy uint64_t delta; 5252eda14cbcSMatt Macy 525333b8c039SMartin Matuska zfs_dbgmsg("slow vdev: %s has %lu active IOs", 5254eda14cbcSMatt Macy vd->vdev_path, avl_numnodes(&vq->vq_active_tree)); 5255eda14cbcSMatt Macy 5256eda14cbcSMatt Macy /* 5257eda14cbcSMatt Macy * Look at the head of all the pending queues, 5258eda14cbcSMatt Macy * if any I/O has been outstanding for longer than 5259eda14cbcSMatt Macy * the spa_deadman_synctime invoke the deadman logic. 5260eda14cbcSMatt Macy */ 5261eda14cbcSMatt Macy fio = avl_first(&vq->vq_active_tree); 5262eda14cbcSMatt Macy delta = gethrtime() - fio->io_timestamp; 5263eda14cbcSMatt Macy if (delta > spa_deadman_synctime(spa)) 5264eda14cbcSMatt Macy zio_deadman(fio, tag); 5265eda14cbcSMatt Macy } 5266eda14cbcSMatt Macy mutex_exit(&vq->vq_lock); 5267eda14cbcSMatt Macy } 5268eda14cbcSMatt Macy } 5269eda14cbcSMatt Macy 5270eda14cbcSMatt Macy void 5271eda14cbcSMatt Macy vdev_defer_resilver(vdev_t *vd) 5272eda14cbcSMatt Macy { 5273eda14cbcSMatt Macy ASSERT(vd->vdev_ops->vdev_op_leaf); 5274eda14cbcSMatt Macy 5275eda14cbcSMatt Macy vd->vdev_resilver_deferred = B_TRUE; 5276eda14cbcSMatt Macy vd->vdev_spa->spa_resilver_deferred = B_TRUE; 5277eda14cbcSMatt Macy } 5278eda14cbcSMatt Macy 5279eda14cbcSMatt Macy /* 5280eda14cbcSMatt Macy * Clears the resilver deferred flag on all leaf devs under vd. Returns 5281eda14cbcSMatt Macy * B_TRUE if we have devices that need to be resilvered and are available to 5282eda14cbcSMatt Macy * accept resilver I/Os. 5283eda14cbcSMatt Macy */ 5284eda14cbcSMatt Macy boolean_t 5285eda14cbcSMatt Macy vdev_clear_resilver_deferred(vdev_t *vd, dmu_tx_t *tx) 5286eda14cbcSMatt Macy { 5287eda14cbcSMatt Macy boolean_t resilver_needed = B_FALSE; 5288eda14cbcSMatt Macy spa_t *spa = vd->vdev_spa; 5289eda14cbcSMatt Macy 5290eda14cbcSMatt Macy for (int c = 0; c < vd->vdev_children; c++) { 5291eda14cbcSMatt Macy vdev_t *cvd = vd->vdev_child[c]; 5292eda14cbcSMatt Macy resilver_needed |= vdev_clear_resilver_deferred(cvd, tx); 5293eda14cbcSMatt Macy } 5294eda14cbcSMatt Macy 5295eda14cbcSMatt Macy if (vd == spa->spa_root_vdev && 5296eda14cbcSMatt Macy spa_feature_is_active(spa, SPA_FEATURE_RESILVER_DEFER)) { 5297eda14cbcSMatt Macy spa_feature_decr(spa, SPA_FEATURE_RESILVER_DEFER, tx); 5298eda14cbcSMatt Macy vdev_config_dirty(vd); 5299eda14cbcSMatt Macy spa->spa_resilver_deferred = B_FALSE; 5300eda14cbcSMatt Macy return (resilver_needed); 5301eda14cbcSMatt Macy } 5302eda14cbcSMatt Macy 5303eda14cbcSMatt Macy if (!vdev_is_concrete(vd) || vd->vdev_aux || 5304eda14cbcSMatt Macy !vd->vdev_ops->vdev_op_leaf) 5305eda14cbcSMatt Macy return (resilver_needed); 5306eda14cbcSMatt Macy 5307eda14cbcSMatt Macy vd->vdev_resilver_deferred = B_FALSE; 5308eda14cbcSMatt Macy 5309eda14cbcSMatt Macy return (!vdev_is_dead(vd) && !vd->vdev_offline && 5310eda14cbcSMatt Macy vdev_resilver_needed(vd, NULL, NULL)); 5311eda14cbcSMatt Macy } 5312eda14cbcSMatt Macy 53137877fdebSMatt Macy boolean_t 53147877fdebSMatt Macy vdev_xlate_is_empty(range_seg64_t *rs) 53157877fdebSMatt Macy { 53167877fdebSMatt Macy return (rs->rs_start == rs->rs_end); 53177877fdebSMatt Macy } 53187877fdebSMatt Macy 5319eda14cbcSMatt Macy /* 53207877fdebSMatt Macy * Translate a logical range to the first contiguous physical range for the 53217877fdebSMatt Macy * specified vdev_t. This function is initially called with a leaf vdev and 53227877fdebSMatt Macy * will walk each parent vdev until it reaches a top-level vdev. Once the 53237877fdebSMatt Macy * top-level is reached the physical range is initialized and the recursive 53247877fdebSMatt Macy * function begins to unwind. As it unwinds it calls the parent's vdev 53257877fdebSMatt Macy * specific translation function to do the real conversion. 5326eda14cbcSMatt Macy */ 5327eda14cbcSMatt Macy void 5328eda14cbcSMatt Macy vdev_xlate(vdev_t *vd, const range_seg64_t *logical_rs, 53297877fdebSMatt Macy range_seg64_t *physical_rs, range_seg64_t *remain_rs) 5330eda14cbcSMatt Macy { 5331eda14cbcSMatt Macy /* 5332eda14cbcSMatt Macy * Walk up the vdev tree 5333eda14cbcSMatt Macy */ 5334eda14cbcSMatt Macy if (vd != vd->vdev_top) { 53357877fdebSMatt Macy vdev_xlate(vd->vdev_parent, logical_rs, physical_rs, 53367877fdebSMatt Macy remain_rs); 5337eda14cbcSMatt Macy } else { 5338eda14cbcSMatt Macy /* 53397877fdebSMatt Macy * We've reached the top-level vdev, initialize the physical 53407877fdebSMatt Macy * range to the logical range and set an empty remaining 53417877fdebSMatt Macy * range then start to unwind. 5342eda14cbcSMatt Macy */ 5343eda14cbcSMatt Macy physical_rs->rs_start = logical_rs->rs_start; 5344eda14cbcSMatt Macy physical_rs->rs_end = logical_rs->rs_end; 53457877fdebSMatt Macy 53467877fdebSMatt Macy remain_rs->rs_start = logical_rs->rs_start; 53477877fdebSMatt Macy remain_rs->rs_end = logical_rs->rs_start; 53487877fdebSMatt Macy 5349eda14cbcSMatt Macy return; 5350eda14cbcSMatt Macy } 5351eda14cbcSMatt Macy 5352eda14cbcSMatt Macy vdev_t *pvd = vd->vdev_parent; 5353eda14cbcSMatt Macy ASSERT3P(pvd, !=, NULL); 5354eda14cbcSMatt Macy ASSERT3P(pvd->vdev_ops->vdev_op_xlate, !=, NULL); 5355eda14cbcSMatt Macy 5356eda14cbcSMatt Macy /* 5357eda14cbcSMatt Macy * As this recursive function unwinds, translate the logical 53587877fdebSMatt Macy * range into its physical and any remaining components by calling 53597877fdebSMatt Macy * the vdev specific translate function. 5360eda14cbcSMatt Macy */ 5361eda14cbcSMatt Macy range_seg64_t intermediate = { 0 }; 53627877fdebSMatt Macy pvd->vdev_ops->vdev_op_xlate(vd, physical_rs, &intermediate, remain_rs); 5363eda14cbcSMatt Macy 5364eda14cbcSMatt Macy physical_rs->rs_start = intermediate.rs_start; 5365eda14cbcSMatt Macy physical_rs->rs_end = intermediate.rs_end; 5366eda14cbcSMatt Macy } 5367eda14cbcSMatt Macy 53687877fdebSMatt Macy void 53697877fdebSMatt Macy vdev_xlate_walk(vdev_t *vd, const range_seg64_t *logical_rs, 53707877fdebSMatt Macy vdev_xlate_func_t *func, void *arg) 53717877fdebSMatt Macy { 53727877fdebSMatt Macy range_seg64_t iter_rs = *logical_rs; 53737877fdebSMatt Macy range_seg64_t physical_rs; 53747877fdebSMatt Macy range_seg64_t remain_rs; 53757877fdebSMatt Macy 53767877fdebSMatt Macy while (!vdev_xlate_is_empty(&iter_rs)) { 53777877fdebSMatt Macy 53787877fdebSMatt Macy vdev_xlate(vd, &iter_rs, &physical_rs, &remain_rs); 53797877fdebSMatt Macy 53807877fdebSMatt Macy /* 53817877fdebSMatt Macy * With raidz and dRAID, it's possible that the logical range 53827877fdebSMatt Macy * does not live on this leaf vdev. Only when there is a non- 53837877fdebSMatt Macy * zero physical size call the provided function. 53847877fdebSMatt Macy */ 53857877fdebSMatt Macy if (!vdev_xlate_is_empty(&physical_rs)) 53867877fdebSMatt Macy func(arg, &physical_rs); 53877877fdebSMatt Macy 53887877fdebSMatt Macy iter_rs = remain_rs; 53897877fdebSMatt Macy } 53907877fdebSMatt Macy } 53917877fdebSMatt Macy 5392681ce946SMartin Matuska static char * 5393681ce946SMartin Matuska vdev_name(vdev_t *vd, char *buf, int buflen) 5394681ce946SMartin Matuska { 5395681ce946SMartin Matuska if (vd->vdev_path == NULL) { 5396681ce946SMartin Matuska if (strcmp(vd->vdev_ops->vdev_op_type, "root") == 0) { 5397681ce946SMartin Matuska strlcpy(buf, vd->vdev_spa->spa_name, buflen); 5398681ce946SMartin Matuska } else if (!vd->vdev_ops->vdev_op_leaf) { 5399681ce946SMartin Matuska snprintf(buf, buflen, "%s-%llu", 5400681ce946SMartin Matuska vd->vdev_ops->vdev_op_type, 5401681ce946SMartin Matuska (u_longlong_t)vd->vdev_id); 5402681ce946SMartin Matuska } 5403681ce946SMartin Matuska } else { 5404681ce946SMartin Matuska strlcpy(buf, vd->vdev_path, buflen); 5405681ce946SMartin Matuska } 5406681ce946SMartin Matuska return (buf); 5407681ce946SMartin Matuska } 5408681ce946SMartin Matuska 5409eda14cbcSMatt Macy /* 5410eda14cbcSMatt Macy * Look at the vdev tree and determine whether any devices are currently being 5411eda14cbcSMatt Macy * replaced. 5412eda14cbcSMatt Macy */ 5413eda14cbcSMatt Macy boolean_t 5414eda14cbcSMatt Macy vdev_replace_in_progress(vdev_t *vdev) 5415eda14cbcSMatt Macy { 5416eda14cbcSMatt Macy ASSERT(spa_config_held(vdev->vdev_spa, SCL_ALL, RW_READER) != 0); 5417eda14cbcSMatt Macy 5418eda14cbcSMatt Macy if (vdev->vdev_ops == &vdev_replacing_ops) 5419eda14cbcSMatt Macy return (B_TRUE); 5420eda14cbcSMatt Macy 5421eda14cbcSMatt Macy /* 5422eda14cbcSMatt Macy * A 'spare' vdev indicates that we have a replace in progress, unless 5423eda14cbcSMatt Macy * it has exactly two children, and the second, the hot spare, has 5424eda14cbcSMatt Macy * finished being resilvered. 5425eda14cbcSMatt Macy */ 5426eda14cbcSMatt Macy if (vdev->vdev_ops == &vdev_spare_ops && (vdev->vdev_children > 2 || 5427eda14cbcSMatt Macy !vdev_dtl_empty(vdev->vdev_child[1], DTL_MISSING))) 5428eda14cbcSMatt Macy return (B_TRUE); 5429eda14cbcSMatt Macy 5430eda14cbcSMatt Macy for (int i = 0; i < vdev->vdev_children; i++) { 5431eda14cbcSMatt Macy if (vdev_replace_in_progress(vdev->vdev_child[i])) 5432eda14cbcSMatt Macy return (B_TRUE); 5433eda14cbcSMatt Macy } 5434eda14cbcSMatt Macy 5435eda14cbcSMatt Macy return (B_FALSE); 5436eda14cbcSMatt Macy } 5437eda14cbcSMatt Macy 5438681ce946SMartin Matuska /* 5439681ce946SMartin Matuska * Add a (source=src, propname=propval) list to an nvlist. 5440681ce946SMartin Matuska */ 5441681ce946SMartin Matuska static void 5442681ce946SMartin Matuska vdev_prop_add_list(nvlist_t *nvl, const char *propname, char *strval, 5443681ce946SMartin Matuska uint64_t intval, zprop_source_t src) 5444681ce946SMartin Matuska { 5445681ce946SMartin Matuska nvlist_t *propval; 5446681ce946SMartin Matuska 5447681ce946SMartin Matuska propval = fnvlist_alloc(); 5448681ce946SMartin Matuska fnvlist_add_uint64(propval, ZPROP_SOURCE, src); 5449681ce946SMartin Matuska 5450681ce946SMartin Matuska if (strval != NULL) 5451681ce946SMartin Matuska fnvlist_add_string(propval, ZPROP_VALUE, strval); 5452681ce946SMartin Matuska else 5453681ce946SMartin Matuska fnvlist_add_uint64(propval, ZPROP_VALUE, intval); 5454681ce946SMartin Matuska 5455681ce946SMartin Matuska fnvlist_add_nvlist(nvl, propname, propval); 5456681ce946SMartin Matuska nvlist_free(propval); 5457681ce946SMartin Matuska } 5458681ce946SMartin Matuska 5459681ce946SMartin Matuska static void 5460681ce946SMartin Matuska vdev_props_set_sync(void *arg, dmu_tx_t *tx) 5461681ce946SMartin Matuska { 5462681ce946SMartin Matuska vdev_t *vd; 5463681ce946SMartin Matuska nvlist_t *nvp = arg; 5464681ce946SMartin Matuska spa_t *spa = dmu_tx_pool(tx)->dp_spa; 5465681ce946SMartin Matuska objset_t *mos = spa->spa_meta_objset; 5466681ce946SMartin Matuska nvpair_t *elem = NULL; 5467681ce946SMartin Matuska uint64_t vdev_guid; 5468681ce946SMartin Matuska nvlist_t *nvprops; 5469681ce946SMartin Matuska 5470681ce946SMartin Matuska vdev_guid = fnvlist_lookup_uint64(nvp, ZPOOL_VDEV_PROPS_SET_VDEV); 5471681ce946SMartin Matuska nvprops = fnvlist_lookup_nvlist(nvp, ZPOOL_VDEV_PROPS_SET_PROPS); 5472681ce946SMartin Matuska vd = spa_lookup_by_guid(spa, vdev_guid, B_TRUE); 5473e92ffd9bSMartin Matuska 5474e92ffd9bSMartin Matuska /* this vdev could get removed while waiting for this sync task */ 5475e92ffd9bSMartin Matuska if (vd == NULL) 5476e92ffd9bSMartin Matuska return; 5477681ce946SMartin Matuska 5478681ce946SMartin Matuska mutex_enter(&spa->spa_props_lock); 5479681ce946SMartin Matuska 5480681ce946SMartin Matuska while ((elem = nvlist_next_nvpair(nvprops, elem)) != NULL) { 5481681ce946SMartin Matuska uint64_t intval, objid = 0; 5482681ce946SMartin Matuska char *strval; 5483681ce946SMartin Matuska vdev_prop_t prop; 5484681ce946SMartin Matuska const char *propname = nvpair_name(elem); 5485681ce946SMartin Matuska zprop_type_t proptype; 5486681ce946SMartin Matuska 5487681ce946SMartin Matuska /* 5488681ce946SMartin Matuska * Set vdev property values in the vdev props mos object. 5489681ce946SMartin Matuska */ 5490681ce946SMartin Matuska if (vd->vdev_top_zap != 0) { 5491681ce946SMartin Matuska objid = vd->vdev_top_zap; 5492681ce946SMartin Matuska } else if (vd->vdev_leaf_zap != 0) { 5493681ce946SMartin Matuska objid = vd->vdev_leaf_zap; 5494681ce946SMartin Matuska } else { 5495681ce946SMartin Matuska panic("vdev not top or leaf"); 5496681ce946SMartin Matuska } 5497681ce946SMartin Matuska 5498681ce946SMartin Matuska switch (prop = vdev_name_to_prop(propname)) { 54991f1e2261SMartin Matuska case VDEV_PROP_USERPROP: 5500681ce946SMartin Matuska if (vdev_prop_user(propname)) { 5501681ce946SMartin Matuska strval = fnvpair_value_string(elem); 5502681ce946SMartin Matuska if (strlen(strval) == 0) { 5503681ce946SMartin Matuska /* remove the property if value == "" */ 5504681ce946SMartin Matuska (void) zap_remove(mos, objid, propname, 5505681ce946SMartin Matuska tx); 5506681ce946SMartin Matuska } else { 5507681ce946SMartin Matuska VERIFY0(zap_update(mos, objid, propname, 5508681ce946SMartin Matuska 1, strlen(strval) + 1, strval, tx)); 5509681ce946SMartin Matuska } 5510681ce946SMartin Matuska spa_history_log_internal(spa, "vdev set", tx, 5511681ce946SMartin Matuska "vdev_guid=%llu: %s=%s", 5512681ce946SMartin Matuska (u_longlong_t)vdev_guid, nvpair_name(elem), 5513681ce946SMartin Matuska strval); 5514681ce946SMartin Matuska } 5515681ce946SMartin Matuska break; 5516681ce946SMartin Matuska default: 5517681ce946SMartin Matuska /* normalize the property name */ 5518681ce946SMartin Matuska propname = vdev_prop_to_name(prop); 5519681ce946SMartin Matuska proptype = vdev_prop_get_type(prop); 5520681ce946SMartin Matuska 5521681ce946SMartin Matuska if (nvpair_type(elem) == DATA_TYPE_STRING) { 5522681ce946SMartin Matuska ASSERT(proptype == PROP_TYPE_STRING); 5523681ce946SMartin Matuska strval = fnvpair_value_string(elem); 5524681ce946SMartin Matuska VERIFY0(zap_update(mos, objid, propname, 5525681ce946SMartin Matuska 1, strlen(strval) + 1, strval, tx)); 5526681ce946SMartin Matuska spa_history_log_internal(spa, "vdev set", tx, 5527681ce946SMartin Matuska "vdev_guid=%llu: %s=%s", 5528681ce946SMartin Matuska (u_longlong_t)vdev_guid, nvpair_name(elem), 5529681ce946SMartin Matuska strval); 5530681ce946SMartin Matuska } else if (nvpair_type(elem) == DATA_TYPE_UINT64) { 5531681ce946SMartin Matuska intval = fnvpair_value_uint64(elem); 5532681ce946SMartin Matuska 5533681ce946SMartin Matuska if (proptype == PROP_TYPE_INDEX) { 5534681ce946SMartin Matuska const char *unused; 5535681ce946SMartin Matuska VERIFY0(vdev_prop_index_to_string( 5536681ce946SMartin Matuska prop, intval, &unused)); 5537681ce946SMartin Matuska } 5538681ce946SMartin Matuska VERIFY0(zap_update(mos, objid, propname, 5539681ce946SMartin Matuska sizeof (uint64_t), 1, &intval, tx)); 5540681ce946SMartin Matuska spa_history_log_internal(spa, "vdev set", tx, 5541681ce946SMartin Matuska "vdev_guid=%llu: %s=%lld", 5542681ce946SMartin Matuska (u_longlong_t)vdev_guid, 5543681ce946SMartin Matuska nvpair_name(elem), (longlong_t)intval); 5544681ce946SMartin Matuska } else { 5545681ce946SMartin Matuska panic("invalid vdev property type %u", 5546681ce946SMartin Matuska nvpair_type(elem)); 5547681ce946SMartin Matuska } 5548681ce946SMartin Matuska } 5549681ce946SMartin Matuska 5550681ce946SMartin Matuska } 5551681ce946SMartin Matuska 5552681ce946SMartin Matuska mutex_exit(&spa->spa_props_lock); 5553681ce946SMartin Matuska } 5554681ce946SMartin Matuska 5555681ce946SMartin Matuska int 5556681ce946SMartin Matuska vdev_prop_set(vdev_t *vd, nvlist_t *innvl, nvlist_t *outnvl) 5557681ce946SMartin Matuska { 5558681ce946SMartin Matuska spa_t *spa = vd->vdev_spa; 5559681ce946SMartin Matuska nvpair_t *elem = NULL; 5560681ce946SMartin Matuska uint64_t vdev_guid; 5561681ce946SMartin Matuska nvlist_t *nvprops; 5562681ce946SMartin Matuska int error; 5563681ce946SMartin Matuska 5564681ce946SMartin Matuska ASSERT(vd != NULL); 5565681ce946SMartin Matuska 5566681ce946SMartin Matuska if (nvlist_lookup_uint64(innvl, ZPOOL_VDEV_PROPS_SET_VDEV, 5567681ce946SMartin Matuska &vdev_guid) != 0) 5568681ce946SMartin Matuska return (SET_ERROR(EINVAL)); 5569681ce946SMartin Matuska 5570681ce946SMartin Matuska if (nvlist_lookup_nvlist(innvl, ZPOOL_VDEV_PROPS_SET_PROPS, 5571681ce946SMartin Matuska &nvprops) != 0) 5572681ce946SMartin Matuska return (SET_ERROR(EINVAL)); 5573681ce946SMartin Matuska 5574681ce946SMartin Matuska if ((vd = spa_lookup_by_guid(spa, vdev_guid, B_TRUE)) == NULL) 5575681ce946SMartin Matuska return (SET_ERROR(EINVAL)); 5576681ce946SMartin Matuska 5577681ce946SMartin Matuska while ((elem = nvlist_next_nvpair(nvprops, elem)) != NULL) { 5578681ce946SMartin Matuska char *propname = nvpair_name(elem); 5579681ce946SMartin Matuska vdev_prop_t prop = vdev_name_to_prop(propname); 5580681ce946SMartin Matuska uint64_t intval = 0; 5581681ce946SMartin Matuska char *strval = NULL; 5582681ce946SMartin Matuska 55831f1e2261SMartin Matuska if (prop == VDEV_PROP_USERPROP && !vdev_prop_user(propname)) { 5584681ce946SMartin Matuska error = EINVAL; 5585681ce946SMartin Matuska goto end; 5586681ce946SMartin Matuska } 5587681ce946SMartin Matuska 5588681ce946SMartin Matuska if (vdev_prop_readonly(prop)) { 5589681ce946SMartin Matuska error = EROFS; 5590681ce946SMartin Matuska goto end; 5591681ce946SMartin Matuska } 5592681ce946SMartin Matuska 5593681ce946SMartin Matuska /* Special Processing */ 5594681ce946SMartin Matuska switch (prop) { 5595681ce946SMartin Matuska case VDEV_PROP_PATH: 5596681ce946SMartin Matuska if (vd->vdev_path == NULL) { 5597681ce946SMartin Matuska error = EROFS; 5598681ce946SMartin Matuska break; 5599681ce946SMartin Matuska } 5600681ce946SMartin Matuska if (nvpair_value_string(elem, &strval) != 0) { 5601681ce946SMartin Matuska error = EINVAL; 5602681ce946SMartin Matuska break; 5603681ce946SMartin Matuska } 5604681ce946SMartin Matuska /* New path must start with /dev/ */ 5605681ce946SMartin Matuska if (strncmp(strval, "/dev/", 5)) { 5606681ce946SMartin Matuska error = EINVAL; 5607681ce946SMartin Matuska break; 5608681ce946SMartin Matuska } 5609681ce946SMartin Matuska error = spa_vdev_setpath(spa, vdev_guid, strval); 5610681ce946SMartin Matuska break; 5611681ce946SMartin Matuska case VDEV_PROP_ALLOCATING: 5612681ce946SMartin Matuska if (nvpair_value_uint64(elem, &intval) != 0) { 5613681ce946SMartin Matuska error = EINVAL; 5614681ce946SMartin Matuska break; 5615681ce946SMartin Matuska } 5616681ce946SMartin Matuska if (intval != vd->vdev_noalloc) 5617681ce946SMartin Matuska break; 5618681ce946SMartin Matuska if (intval == 0) 5619681ce946SMartin Matuska error = spa_vdev_noalloc(spa, vdev_guid); 5620681ce946SMartin Matuska else 5621681ce946SMartin Matuska error = spa_vdev_alloc(spa, vdev_guid); 5622681ce946SMartin Matuska break; 5623681ce946SMartin Matuska default: 5624681ce946SMartin Matuska /* Most processing is done in vdev_props_set_sync */ 5625681ce946SMartin Matuska break; 5626681ce946SMartin Matuska } 5627681ce946SMartin Matuska end: 5628681ce946SMartin Matuska if (error != 0) { 5629681ce946SMartin Matuska intval = error; 5630681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, strval, intval, 0); 5631681ce946SMartin Matuska return (error); 5632681ce946SMartin Matuska } 5633681ce946SMartin Matuska } 5634681ce946SMartin Matuska 5635681ce946SMartin Matuska return (dsl_sync_task(spa->spa_name, NULL, vdev_props_set_sync, 5636681ce946SMartin Matuska innvl, 6, ZFS_SPACE_CHECK_EXTRA_RESERVED)); 5637681ce946SMartin Matuska } 5638681ce946SMartin Matuska 5639681ce946SMartin Matuska int 5640681ce946SMartin Matuska vdev_prop_get(vdev_t *vd, nvlist_t *innvl, nvlist_t *outnvl) 5641681ce946SMartin Matuska { 5642681ce946SMartin Matuska spa_t *spa = vd->vdev_spa; 5643681ce946SMartin Matuska objset_t *mos = spa->spa_meta_objset; 5644681ce946SMartin Matuska int err = 0; 5645681ce946SMartin Matuska uint64_t objid; 5646681ce946SMartin Matuska uint64_t vdev_guid; 5647681ce946SMartin Matuska nvpair_t *elem = NULL; 5648681ce946SMartin Matuska nvlist_t *nvprops = NULL; 5649681ce946SMartin Matuska uint64_t intval = 0; 5650681ce946SMartin Matuska char *strval = NULL; 5651681ce946SMartin Matuska const char *propname = NULL; 5652681ce946SMartin Matuska vdev_prop_t prop; 5653681ce946SMartin Matuska 5654681ce946SMartin Matuska ASSERT(vd != NULL); 5655681ce946SMartin Matuska ASSERT(mos != NULL); 5656681ce946SMartin Matuska 5657681ce946SMartin Matuska if (nvlist_lookup_uint64(innvl, ZPOOL_VDEV_PROPS_GET_VDEV, 5658681ce946SMartin Matuska &vdev_guid) != 0) 5659681ce946SMartin Matuska return (SET_ERROR(EINVAL)); 5660681ce946SMartin Matuska 5661681ce946SMartin Matuska nvlist_lookup_nvlist(innvl, ZPOOL_VDEV_PROPS_GET_PROPS, &nvprops); 5662681ce946SMartin Matuska 5663681ce946SMartin Matuska if (vd->vdev_top_zap != 0) { 5664681ce946SMartin Matuska objid = vd->vdev_top_zap; 5665681ce946SMartin Matuska } else if (vd->vdev_leaf_zap != 0) { 5666681ce946SMartin Matuska objid = vd->vdev_leaf_zap; 5667681ce946SMartin Matuska } else { 5668681ce946SMartin Matuska return (SET_ERROR(EINVAL)); 5669681ce946SMartin Matuska } 5670681ce946SMartin Matuska ASSERT(objid != 0); 5671681ce946SMartin Matuska 5672681ce946SMartin Matuska mutex_enter(&spa->spa_props_lock); 5673681ce946SMartin Matuska 5674681ce946SMartin Matuska if (nvprops != NULL) { 5675681ce946SMartin Matuska char namebuf[64] = { 0 }; 5676681ce946SMartin Matuska 5677681ce946SMartin Matuska while ((elem = nvlist_next_nvpair(nvprops, elem)) != NULL) { 5678681ce946SMartin Matuska intval = 0; 5679681ce946SMartin Matuska strval = NULL; 5680681ce946SMartin Matuska propname = nvpair_name(elem); 5681681ce946SMartin Matuska prop = vdev_name_to_prop(propname); 5682681ce946SMartin Matuska zprop_source_t src = ZPROP_SRC_DEFAULT; 5683681ce946SMartin Matuska uint64_t integer_size, num_integers; 5684681ce946SMartin Matuska 5685681ce946SMartin Matuska switch (prop) { 5686681ce946SMartin Matuska /* Special Read-only Properties */ 5687681ce946SMartin Matuska case VDEV_PROP_NAME: 5688681ce946SMartin Matuska strval = vdev_name(vd, namebuf, 5689681ce946SMartin Matuska sizeof (namebuf)); 5690681ce946SMartin Matuska if (strval == NULL) 5691681ce946SMartin Matuska continue; 5692681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, strval, 0, 5693681ce946SMartin Matuska ZPROP_SRC_NONE); 5694681ce946SMartin Matuska continue; 5695681ce946SMartin Matuska case VDEV_PROP_CAPACITY: 5696681ce946SMartin Matuska /* percent used */ 5697681ce946SMartin Matuska intval = (vd->vdev_stat.vs_dspace == 0) ? 0 : 5698681ce946SMartin Matuska (vd->vdev_stat.vs_alloc * 100 / 5699681ce946SMartin Matuska vd->vdev_stat.vs_dspace); 5700681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5701681ce946SMartin Matuska intval, ZPROP_SRC_NONE); 5702681ce946SMartin Matuska continue; 5703681ce946SMartin Matuska case VDEV_PROP_STATE: 5704681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5705681ce946SMartin Matuska vd->vdev_state, ZPROP_SRC_NONE); 5706681ce946SMartin Matuska continue; 5707681ce946SMartin Matuska case VDEV_PROP_GUID: 5708681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5709681ce946SMartin Matuska vd->vdev_guid, ZPROP_SRC_NONE); 5710681ce946SMartin Matuska continue; 5711681ce946SMartin Matuska case VDEV_PROP_ASIZE: 5712681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5713681ce946SMartin Matuska vd->vdev_asize, ZPROP_SRC_NONE); 5714681ce946SMartin Matuska continue; 5715681ce946SMartin Matuska case VDEV_PROP_PSIZE: 5716681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5717681ce946SMartin Matuska vd->vdev_psize, ZPROP_SRC_NONE); 5718681ce946SMartin Matuska continue; 5719681ce946SMartin Matuska case VDEV_PROP_ASHIFT: 5720681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5721681ce946SMartin Matuska vd->vdev_ashift, ZPROP_SRC_NONE); 5722681ce946SMartin Matuska continue; 5723681ce946SMartin Matuska case VDEV_PROP_SIZE: 5724681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5725681ce946SMartin Matuska vd->vdev_stat.vs_dspace, ZPROP_SRC_NONE); 5726681ce946SMartin Matuska continue; 5727681ce946SMartin Matuska case VDEV_PROP_FREE: 5728681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5729681ce946SMartin Matuska vd->vdev_stat.vs_dspace - 5730681ce946SMartin Matuska vd->vdev_stat.vs_alloc, ZPROP_SRC_NONE); 5731681ce946SMartin Matuska continue; 5732681ce946SMartin Matuska case VDEV_PROP_ALLOCATED: 5733681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5734681ce946SMartin Matuska vd->vdev_stat.vs_alloc, ZPROP_SRC_NONE); 5735681ce946SMartin Matuska continue; 5736681ce946SMartin Matuska case VDEV_PROP_EXPANDSZ: 5737681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5738681ce946SMartin Matuska vd->vdev_stat.vs_esize, ZPROP_SRC_NONE); 5739681ce946SMartin Matuska continue; 5740681ce946SMartin Matuska case VDEV_PROP_FRAGMENTATION: 5741681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5742681ce946SMartin Matuska vd->vdev_stat.vs_fragmentation, 5743681ce946SMartin Matuska ZPROP_SRC_NONE); 5744681ce946SMartin Matuska continue; 5745681ce946SMartin Matuska case VDEV_PROP_PARITY: 5746681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5747681ce946SMartin Matuska vdev_get_nparity(vd), ZPROP_SRC_NONE); 5748681ce946SMartin Matuska continue; 5749681ce946SMartin Matuska case VDEV_PROP_PATH: 5750681ce946SMartin Matuska if (vd->vdev_path == NULL) 5751681ce946SMartin Matuska continue; 5752681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, 5753681ce946SMartin Matuska vd->vdev_path, 0, ZPROP_SRC_NONE); 5754681ce946SMartin Matuska continue; 5755681ce946SMartin Matuska case VDEV_PROP_DEVID: 5756681ce946SMartin Matuska if (vd->vdev_devid == NULL) 5757681ce946SMartin Matuska continue; 5758681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, 5759681ce946SMartin Matuska vd->vdev_devid, 0, ZPROP_SRC_NONE); 5760681ce946SMartin Matuska continue; 5761681ce946SMartin Matuska case VDEV_PROP_PHYS_PATH: 5762681ce946SMartin Matuska if (vd->vdev_physpath == NULL) 5763681ce946SMartin Matuska continue; 5764681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, 5765681ce946SMartin Matuska vd->vdev_physpath, 0, ZPROP_SRC_NONE); 5766681ce946SMartin Matuska continue; 5767681ce946SMartin Matuska case VDEV_PROP_ENC_PATH: 5768681ce946SMartin Matuska if (vd->vdev_enc_sysfs_path == NULL) 5769681ce946SMartin Matuska continue; 5770681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, 5771681ce946SMartin Matuska vd->vdev_enc_sysfs_path, 0, ZPROP_SRC_NONE); 5772681ce946SMartin Matuska continue; 5773681ce946SMartin Matuska case VDEV_PROP_FRU: 5774681ce946SMartin Matuska if (vd->vdev_fru == NULL) 5775681ce946SMartin Matuska continue; 5776681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, 5777681ce946SMartin Matuska vd->vdev_fru, 0, ZPROP_SRC_NONE); 5778681ce946SMartin Matuska continue; 5779681ce946SMartin Matuska case VDEV_PROP_PARENT: 5780681ce946SMartin Matuska if (vd->vdev_parent != NULL) { 5781681ce946SMartin Matuska strval = vdev_name(vd->vdev_parent, 5782681ce946SMartin Matuska namebuf, sizeof (namebuf)); 5783681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, 5784681ce946SMartin Matuska strval, 0, ZPROP_SRC_NONE); 5785681ce946SMartin Matuska } 5786681ce946SMartin Matuska continue; 5787681ce946SMartin Matuska case VDEV_PROP_CHILDREN: 5788681ce946SMartin Matuska if (vd->vdev_children > 0) 5789681ce946SMartin Matuska strval = kmem_zalloc(ZAP_MAXVALUELEN, 5790681ce946SMartin Matuska KM_SLEEP); 5791681ce946SMartin Matuska for (uint64_t i = 0; i < vd->vdev_children; 5792681ce946SMartin Matuska i++) { 5793a0b956f5SMartin Matuska const char *vname; 5794681ce946SMartin Matuska 5795681ce946SMartin Matuska vname = vdev_name(vd->vdev_child[i], 5796681ce946SMartin Matuska namebuf, sizeof (namebuf)); 5797681ce946SMartin Matuska if (vname == NULL) 5798681ce946SMartin Matuska vname = "(unknown)"; 5799681ce946SMartin Matuska if (strlen(strval) > 0) 5800681ce946SMartin Matuska strlcat(strval, ",", 5801681ce946SMartin Matuska ZAP_MAXVALUELEN); 5802681ce946SMartin Matuska strlcat(strval, vname, ZAP_MAXVALUELEN); 5803681ce946SMartin Matuska } 5804681ce946SMartin Matuska if (strval != NULL) { 5805681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, 5806681ce946SMartin Matuska strval, 0, ZPROP_SRC_NONE); 5807681ce946SMartin Matuska kmem_free(strval, ZAP_MAXVALUELEN); 5808681ce946SMartin Matuska } 5809681ce946SMartin Matuska continue; 5810681ce946SMartin Matuska case VDEV_PROP_NUMCHILDREN: 5811681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5812681ce946SMartin Matuska vd->vdev_children, ZPROP_SRC_NONE); 5813681ce946SMartin Matuska continue; 5814681ce946SMartin Matuska case VDEV_PROP_READ_ERRORS: 5815681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5816681ce946SMartin Matuska vd->vdev_stat.vs_read_errors, 5817681ce946SMartin Matuska ZPROP_SRC_NONE); 5818681ce946SMartin Matuska continue; 5819681ce946SMartin Matuska case VDEV_PROP_WRITE_ERRORS: 5820681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5821681ce946SMartin Matuska vd->vdev_stat.vs_write_errors, 5822681ce946SMartin Matuska ZPROP_SRC_NONE); 5823681ce946SMartin Matuska continue; 5824681ce946SMartin Matuska case VDEV_PROP_CHECKSUM_ERRORS: 5825681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5826681ce946SMartin Matuska vd->vdev_stat.vs_checksum_errors, 5827681ce946SMartin Matuska ZPROP_SRC_NONE); 5828681ce946SMartin Matuska continue; 5829681ce946SMartin Matuska case VDEV_PROP_INITIALIZE_ERRORS: 5830681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5831681ce946SMartin Matuska vd->vdev_stat.vs_initialize_errors, 5832681ce946SMartin Matuska ZPROP_SRC_NONE); 5833681ce946SMartin Matuska continue; 5834681ce946SMartin Matuska case VDEV_PROP_OPS_NULL: 5835681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5836681ce946SMartin Matuska vd->vdev_stat.vs_ops[ZIO_TYPE_NULL], 5837681ce946SMartin Matuska ZPROP_SRC_NONE); 5838681ce946SMartin Matuska continue; 5839681ce946SMartin Matuska case VDEV_PROP_OPS_READ: 5840681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5841681ce946SMartin Matuska vd->vdev_stat.vs_ops[ZIO_TYPE_READ], 5842681ce946SMartin Matuska ZPROP_SRC_NONE); 5843681ce946SMartin Matuska continue; 5844681ce946SMartin Matuska case VDEV_PROP_OPS_WRITE: 5845681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5846681ce946SMartin Matuska vd->vdev_stat.vs_ops[ZIO_TYPE_WRITE], 5847681ce946SMartin Matuska ZPROP_SRC_NONE); 5848681ce946SMartin Matuska continue; 5849681ce946SMartin Matuska case VDEV_PROP_OPS_FREE: 5850681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5851681ce946SMartin Matuska vd->vdev_stat.vs_ops[ZIO_TYPE_FREE], 5852681ce946SMartin Matuska ZPROP_SRC_NONE); 5853681ce946SMartin Matuska continue; 5854681ce946SMartin Matuska case VDEV_PROP_OPS_CLAIM: 5855681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5856681ce946SMartin Matuska vd->vdev_stat.vs_ops[ZIO_TYPE_CLAIM], 5857681ce946SMartin Matuska ZPROP_SRC_NONE); 5858681ce946SMartin Matuska continue; 5859681ce946SMartin Matuska case VDEV_PROP_OPS_TRIM: 5860681ce946SMartin Matuska /* 5861681ce946SMartin Matuska * TRIM ops and bytes are reported to user 5862681ce946SMartin Matuska * space as ZIO_TYPE_IOCTL. This is done to 5863681ce946SMartin Matuska * preserve the vdev_stat_t structure layout 5864681ce946SMartin Matuska * for user space. 5865681ce946SMartin Matuska */ 5866681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5867681ce946SMartin Matuska vd->vdev_stat.vs_ops[ZIO_TYPE_IOCTL], 5868681ce946SMartin Matuska ZPROP_SRC_NONE); 5869681ce946SMartin Matuska continue; 5870681ce946SMartin Matuska case VDEV_PROP_BYTES_NULL: 5871681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5872681ce946SMartin Matuska vd->vdev_stat.vs_bytes[ZIO_TYPE_NULL], 5873681ce946SMartin Matuska ZPROP_SRC_NONE); 5874681ce946SMartin Matuska continue; 5875681ce946SMartin Matuska case VDEV_PROP_BYTES_READ: 5876681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5877681ce946SMartin Matuska vd->vdev_stat.vs_bytes[ZIO_TYPE_READ], 5878681ce946SMartin Matuska ZPROP_SRC_NONE); 5879681ce946SMartin Matuska continue; 5880681ce946SMartin Matuska case VDEV_PROP_BYTES_WRITE: 5881681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5882681ce946SMartin Matuska vd->vdev_stat.vs_bytes[ZIO_TYPE_WRITE], 5883681ce946SMartin Matuska ZPROP_SRC_NONE); 5884681ce946SMartin Matuska continue; 5885681ce946SMartin Matuska case VDEV_PROP_BYTES_FREE: 5886681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5887681ce946SMartin Matuska vd->vdev_stat.vs_bytes[ZIO_TYPE_FREE], 5888681ce946SMartin Matuska ZPROP_SRC_NONE); 5889681ce946SMartin Matuska continue; 5890681ce946SMartin Matuska case VDEV_PROP_BYTES_CLAIM: 5891681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5892681ce946SMartin Matuska vd->vdev_stat.vs_bytes[ZIO_TYPE_CLAIM], 5893681ce946SMartin Matuska ZPROP_SRC_NONE); 5894681ce946SMartin Matuska continue; 5895681ce946SMartin Matuska case VDEV_PROP_BYTES_TRIM: 5896681ce946SMartin Matuska /* 5897681ce946SMartin Matuska * TRIM ops and bytes are reported to user 5898681ce946SMartin Matuska * space as ZIO_TYPE_IOCTL. This is done to 5899681ce946SMartin Matuska * preserve the vdev_stat_t structure layout 5900681ce946SMartin Matuska * for user space. 5901681ce946SMartin Matuska */ 5902681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5903681ce946SMartin Matuska vd->vdev_stat.vs_bytes[ZIO_TYPE_IOCTL], 5904681ce946SMartin Matuska ZPROP_SRC_NONE); 5905681ce946SMartin Matuska continue; 5906681ce946SMartin Matuska case VDEV_PROP_REMOVING: 5907681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, NULL, 5908681ce946SMartin Matuska vd->vdev_removing, ZPROP_SRC_NONE); 5909681ce946SMartin Matuska continue; 5910681ce946SMartin Matuska /* Numeric Properites */ 5911681ce946SMartin Matuska case VDEV_PROP_ALLOCATING: 5912681ce946SMartin Matuska src = ZPROP_SRC_LOCAL; 5913681ce946SMartin Matuska strval = NULL; 5914681ce946SMartin Matuska 5915681ce946SMartin Matuska err = zap_lookup(mos, objid, nvpair_name(elem), 5916681ce946SMartin Matuska sizeof (uint64_t), 1, &intval); 5917681ce946SMartin Matuska if (err == ENOENT) { 5918681ce946SMartin Matuska intval = 5919681ce946SMartin Matuska vdev_prop_default_numeric(prop); 5920681ce946SMartin Matuska err = 0; 5921681ce946SMartin Matuska } else if (err) 5922681ce946SMartin Matuska break; 5923681ce946SMartin Matuska if (intval == vdev_prop_default_numeric(prop)) 5924681ce946SMartin Matuska src = ZPROP_SRC_DEFAULT; 5925681ce946SMartin Matuska 5926681ce946SMartin Matuska /* Leaf vdevs cannot have this property */ 5927681ce946SMartin Matuska if (vd->vdev_mg == NULL && 5928681ce946SMartin Matuska vd->vdev_top != NULL) { 5929681ce946SMartin Matuska src = ZPROP_SRC_NONE; 5930681ce946SMartin Matuska intval = ZPROP_BOOLEAN_NA; 5931681ce946SMartin Matuska } 5932681ce946SMartin Matuska 5933681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, strval, 5934681ce946SMartin Matuska intval, src); 5935681ce946SMartin Matuska break; 5936681ce946SMartin Matuska /* Text Properties */ 5937681ce946SMartin Matuska case VDEV_PROP_COMMENT: 5938681ce946SMartin Matuska /* Exists in the ZAP below */ 5939681ce946SMartin Matuska /* FALLTHRU */ 59401f1e2261SMartin Matuska case VDEV_PROP_USERPROP: 5941681ce946SMartin Matuska /* User Properites */ 5942681ce946SMartin Matuska src = ZPROP_SRC_LOCAL; 5943681ce946SMartin Matuska 5944681ce946SMartin Matuska err = zap_length(mos, objid, nvpair_name(elem), 5945681ce946SMartin Matuska &integer_size, &num_integers); 5946681ce946SMartin Matuska if (err) 5947681ce946SMartin Matuska break; 5948681ce946SMartin Matuska 5949681ce946SMartin Matuska switch (integer_size) { 5950681ce946SMartin Matuska case 8: 5951681ce946SMartin Matuska /* User properties cannot be integers */ 5952681ce946SMartin Matuska err = EINVAL; 5953681ce946SMartin Matuska break; 5954681ce946SMartin Matuska case 1: 5955681ce946SMartin Matuska /* string property */ 5956681ce946SMartin Matuska strval = kmem_alloc(num_integers, 5957681ce946SMartin Matuska KM_SLEEP); 5958681ce946SMartin Matuska err = zap_lookup(mos, objid, 5959681ce946SMartin Matuska nvpair_name(elem), 1, 5960681ce946SMartin Matuska num_integers, strval); 5961681ce946SMartin Matuska if (err) { 5962681ce946SMartin Matuska kmem_free(strval, 5963681ce946SMartin Matuska num_integers); 5964681ce946SMartin Matuska break; 5965681ce946SMartin Matuska } 5966681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, 5967681ce946SMartin Matuska strval, 0, src); 5968681ce946SMartin Matuska kmem_free(strval, num_integers); 5969681ce946SMartin Matuska break; 5970681ce946SMartin Matuska } 5971681ce946SMartin Matuska break; 5972681ce946SMartin Matuska default: 5973681ce946SMartin Matuska err = ENOENT; 5974681ce946SMartin Matuska break; 5975681ce946SMartin Matuska } 5976681ce946SMartin Matuska if (err) 5977681ce946SMartin Matuska break; 5978681ce946SMartin Matuska } 5979681ce946SMartin Matuska } else { 5980681ce946SMartin Matuska /* 5981681ce946SMartin Matuska * Get all properties from the MOS vdev property object. 5982681ce946SMartin Matuska */ 5983681ce946SMartin Matuska zap_cursor_t zc; 5984681ce946SMartin Matuska zap_attribute_t za; 5985681ce946SMartin Matuska for (zap_cursor_init(&zc, mos, objid); 5986681ce946SMartin Matuska (err = zap_cursor_retrieve(&zc, &za)) == 0; 5987681ce946SMartin Matuska zap_cursor_advance(&zc)) { 5988681ce946SMartin Matuska intval = 0; 5989681ce946SMartin Matuska strval = NULL; 5990681ce946SMartin Matuska zprop_source_t src = ZPROP_SRC_DEFAULT; 5991681ce946SMartin Matuska propname = za.za_name; 5992681ce946SMartin Matuska prop = vdev_name_to_prop(propname); 5993681ce946SMartin Matuska 5994681ce946SMartin Matuska switch (za.za_integer_length) { 5995681ce946SMartin Matuska case 8: 5996681ce946SMartin Matuska /* We do not allow integer user properties */ 5997681ce946SMartin Matuska /* This is likely an internal value */ 5998681ce946SMartin Matuska break; 5999681ce946SMartin Matuska case 1: 6000681ce946SMartin Matuska /* string property */ 6001681ce946SMartin Matuska strval = kmem_alloc(za.za_num_integers, 6002681ce946SMartin Matuska KM_SLEEP); 6003681ce946SMartin Matuska err = zap_lookup(mos, objid, za.za_name, 1, 6004681ce946SMartin Matuska za.za_num_integers, strval); 6005681ce946SMartin Matuska if (err) { 6006681ce946SMartin Matuska kmem_free(strval, za.za_num_integers); 6007681ce946SMartin Matuska break; 6008681ce946SMartin Matuska } 6009681ce946SMartin Matuska vdev_prop_add_list(outnvl, propname, strval, 0, 6010681ce946SMartin Matuska src); 6011681ce946SMartin Matuska kmem_free(strval, za.za_num_integers); 6012681ce946SMartin Matuska break; 6013681ce946SMartin Matuska 6014681ce946SMartin Matuska default: 6015681ce946SMartin Matuska break; 6016681ce946SMartin Matuska } 6017681ce946SMartin Matuska } 6018681ce946SMartin Matuska zap_cursor_fini(&zc); 6019681ce946SMartin Matuska } 6020681ce946SMartin Matuska 6021681ce946SMartin Matuska mutex_exit(&spa->spa_props_lock); 6022681ce946SMartin Matuska if (err && err != ENOENT) { 6023681ce946SMartin Matuska return (err); 6024681ce946SMartin Matuska } 6025681ce946SMartin Matuska 6026681ce946SMartin Matuska return (0); 6027681ce946SMartin Matuska } 6028681ce946SMartin Matuska 6029eda14cbcSMatt Macy EXPORT_SYMBOL(vdev_fault); 6030eda14cbcSMatt Macy EXPORT_SYMBOL(vdev_degrade); 6031eda14cbcSMatt Macy EXPORT_SYMBOL(vdev_online); 6032eda14cbcSMatt Macy EXPORT_SYMBOL(vdev_offline); 6033eda14cbcSMatt Macy EXPORT_SYMBOL(vdev_clear); 6034eda14cbcSMatt Macy 6035eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs_vdev, zfs_vdev_, default_ms_count, INT, ZMOD_RW, 6036eda14cbcSMatt Macy "Target number of metaslabs per top-level vdev"); 6037eda14cbcSMatt Macy 6038eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs_vdev, zfs_vdev_, default_ms_shift, INT, ZMOD_RW, 6039eda14cbcSMatt Macy "Default limit for metaslab size"); 6040eda14cbcSMatt Macy 6041eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs_vdev, zfs_vdev_, min_ms_count, INT, ZMOD_RW, 6042eda14cbcSMatt Macy "Minimum number of metaslabs per top-level vdev"); 6043eda14cbcSMatt Macy 6044eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs_vdev, zfs_vdev_, ms_count_limit, INT, ZMOD_RW, 6045eda14cbcSMatt Macy "Practical upper limit of total metaslabs per top-level vdev"); 6046eda14cbcSMatt Macy 6047eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs, zfs_, slow_io_events_per_second, UINT, ZMOD_RW, 6048eda14cbcSMatt Macy "Rate limit slow IO (delay) events to this many per second"); 6049eda14cbcSMatt Macy 6050c03c5b1cSMartin Matuska /* BEGIN CSTYLED */ 6051eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs, zfs_, checksum_events_per_second, UINT, ZMOD_RW, 6052eda14cbcSMatt Macy "Rate limit checksum events to this many checksum errors per second " 6053c03c5b1cSMartin Matuska "(do not set below ZED threshold)."); 6054c03c5b1cSMartin Matuska /* END CSTYLED */ 6055eda14cbcSMatt Macy 6056eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs, zfs_, scan_ignore_errors, INT, ZMOD_RW, 6057eda14cbcSMatt Macy "Ignore errors during resilver/scrub"); 6058eda14cbcSMatt Macy 6059eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs_vdev, vdev_, validate_skip, INT, ZMOD_RW, 6060eda14cbcSMatt Macy "Bypass vdev_validate()"); 6061eda14cbcSMatt Macy 6062eda14cbcSMatt Macy ZFS_MODULE_PARAM(zfs, zfs_, nocacheflush, INT, ZMOD_RW, 6063eda14cbcSMatt Macy "Disable cache flushes"); 6064eda14cbcSMatt Macy 6065184c1b94SMartin Matuska ZFS_MODULE_PARAM(zfs, zfs_, embedded_slog_min_ms, INT, ZMOD_RW, 6066184c1b94SMartin Matuska "Minimum number of metaslabs required to dedicate one for log blocks"); 6067184c1b94SMartin Matuska 6068c03c5b1cSMartin Matuska /* BEGIN CSTYLED */ 6069eda14cbcSMatt Macy ZFS_MODULE_PARAM_CALL(zfs_vdev, zfs_vdev_, min_auto_ashift, 6070eda14cbcSMatt Macy param_set_min_auto_ashift, param_get_ulong, ZMOD_RW, 6071eda14cbcSMatt Macy "Minimum ashift used when creating new top-level vdevs"); 6072eda14cbcSMatt Macy 6073eda14cbcSMatt Macy ZFS_MODULE_PARAM_CALL(zfs_vdev, zfs_vdev_, max_auto_ashift, 6074eda14cbcSMatt Macy param_set_max_auto_ashift, param_get_ulong, ZMOD_RW, 6075eda14cbcSMatt Macy "Maximum ashift used when optimizing for logical -> physical sector " 6076eda14cbcSMatt Macy "size on new top-level vdevs"); 6077eda14cbcSMatt Macy /* END CSTYLED */ 6078