1b8902de1SWarner Losh /*- 2b8902de1SWarner Losh * Copyright (c) 2007 Doug Rabson 3b8902de1SWarner Losh * All rights reserved. 4b8902de1SWarner Losh * 5b8902de1SWarner Losh * Redistribution and use in source and binary forms, with or without 6b8902de1SWarner Losh * modification, are permitted provided that the following conditions 7b8902de1SWarner Losh * are met: 8b8902de1SWarner Losh * 1. Redistributions of source code must retain the above copyright 9b8902de1SWarner Losh * notice, this list of conditions and the following disclaimer. 10b8902de1SWarner Losh * 2. Redistributions in binary form must reproduce the above copyright 11b8902de1SWarner Losh * notice, this list of conditions and the following disclaimer in the 12b8902de1SWarner Losh * documentation and/or other materials provided with the distribution. 13b8902de1SWarner Losh * 14b8902de1SWarner Losh * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 15b8902de1SWarner Losh * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16b8902de1SWarner Losh * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17b8902de1SWarner Losh * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 18b8902de1SWarner Losh * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19b8902de1SWarner Losh * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20b8902de1SWarner Losh * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21b8902de1SWarner Losh * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22b8902de1SWarner Losh * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23b8902de1SWarner Losh * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24b8902de1SWarner Losh * SUCH DAMAGE. 25b8902de1SWarner Losh */ 26b8902de1SWarner Losh 27b8902de1SWarner Losh #include <sys/cdefs.h> 28b8902de1SWarner Losh __FBSDID("$FreeBSD$"); 29b8902de1SWarner Losh 30b8902de1SWarner Losh /* 31b8902de1SWarner Losh * Stand-alone ZFS file reader. 32b8902de1SWarner Losh */ 33b8902de1SWarner Losh 3412d62cc2SXin LI #include <sys/endian.h> 35b8902de1SWarner Losh #include <sys/stat.h> 36b8902de1SWarner Losh #include <sys/stdint.h> 37b1b93268SToomas Soome #include <sys/list.h> 38*3c2db0efSToomas Soome #include <machine/_inttypes.h> 39b8902de1SWarner Losh 40b8902de1SWarner Losh #include "zfsimpl.h" 41b8902de1SWarner Losh #include "zfssubr.c" 42b8902de1SWarner Losh 43b8902de1SWarner Losh 44b8902de1SWarner Losh struct zfsmount { 45b8902de1SWarner Losh const spa_t *spa; 46b8902de1SWarner Losh objset_phys_t objset; 47b8902de1SWarner Losh uint64_t rootobj; 48b8902de1SWarner Losh }; 49b8902de1SWarner Losh static struct zfsmount zfsmount __unused; 50b8902de1SWarner Losh 51b8902de1SWarner Losh /* 52b1b93268SToomas Soome * The indirect_child_t represents the vdev that we will read from, when we 53b1b93268SToomas Soome * need to read all copies of the data (e.g. for scrub or reconstruction). 54b1b93268SToomas Soome * For plain (non-mirror) top-level vdevs (i.e. is_vdev is not a mirror), 55b1b93268SToomas Soome * ic_vdev is the same as is_vdev. However, for mirror top-level vdevs, 56b1b93268SToomas Soome * ic_vdev is a child of the mirror. 57b1b93268SToomas Soome */ 58b1b93268SToomas Soome typedef struct indirect_child { 59b1b93268SToomas Soome void *ic_data; 60b1b93268SToomas Soome vdev_t *ic_vdev; 61b1b93268SToomas Soome } indirect_child_t; 62b1b93268SToomas Soome 63b1b93268SToomas Soome /* 64b1b93268SToomas Soome * The indirect_split_t represents one mapped segment of an i/o to the 65b1b93268SToomas Soome * indirect vdev. For non-split (contiguously-mapped) blocks, there will be 66b1b93268SToomas Soome * only one indirect_split_t, with is_split_offset==0 and is_size==io_size. 67b1b93268SToomas Soome * For split blocks, there will be several of these. 68b1b93268SToomas Soome */ 69b1b93268SToomas Soome typedef struct indirect_split { 70b1b93268SToomas Soome list_node_t is_node; /* link on iv_splits */ 71b1b93268SToomas Soome 72b1b93268SToomas Soome /* 73b1b93268SToomas Soome * is_split_offset is the offset into the i/o. 74b1b93268SToomas Soome * This is the sum of the previous splits' is_size's. 75b1b93268SToomas Soome */ 76b1b93268SToomas Soome uint64_t is_split_offset; 77b1b93268SToomas Soome 78b1b93268SToomas Soome vdev_t *is_vdev; /* top-level vdev */ 79b1b93268SToomas Soome uint64_t is_target_offset; /* offset on is_vdev */ 80b1b93268SToomas Soome uint64_t is_size; 81b1b93268SToomas Soome int is_children; /* number of entries in is_child[] */ 82b1b93268SToomas Soome 83b1b93268SToomas Soome /* 84b1b93268SToomas Soome * is_good_child is the child that we are currently using to 85b1b93268SToomas Soome * attempt reconstruction. 86b1b93268SToomas Soome */ 87b1b93268SToomas Soome int is_good_child; 88b1b93268SToomas Soome 89b1b93268SToomas Soome indirect_child_t is_child[1]; /* variable-length */ 90b1b93268SToomas Soome } indirect_split_t; 91b1b93268SToomas Soome 92b1b93268SToomas Soome /* 93b1b93268SToomas Soome * The indirect_vsd_t is associated with each i/o to the indirect vdev. 94b1b93268SToomas Soome * It is the "Vdev-Specific Data" in the zio_t's io_vsd. 95b1b93268SToomas Soome */ 96b1b93268SToomas Soome typedef struct indirect_vsd { 97b1b93268SToomas Soome boolean_t iv_split_block; 98b1b93268SToomas Soome boolean_t iv_reconstruct; 99b1b93268SToomas Soome 100b1b93268SToomas Soome list_t iv_splits; /* list of indirect_split_t's */ 101b1b93268SToomas Soome } indirect_vsd_t; 102b1b93268SToomas Soome 103b1b93268SToomas Soome /* 104b8902de1SWarner Losh * List of all vdevs, chained through v_alllink. 105b8902de1SWarner Losh */ 106b8902de1SWarner Losh static vdev_list_t zfs_vdevs; 107b8902de1SWarner Losh 108b8902de1SWarner Losh /* 109b8902de1SWarner Losh * List of ZFS features supported for read 110b8902de1SWarner Losh */ 111b8902de1SWarner Losh static const char *features_for_read[] = { 112b8902de1SWarner Losh "org.illumos:lz4_compress", 113b8902de1SWarner Losh "com.delphix:hole_birth", 114b8902de1SWarner Losh "com.delphix:extensible_dataset", 115b8902de1SWarner Losh "com.delphix:embedded_data", 116b8902de1SWarner Losh "org.open-zfs:large_blocks", 117b8902de1SWarner Losh "org.illumos:sha512", 118b8902de1SWarner Losh "org.illumos:skein", 119b8902de1SWarner Losh "org.zfsonlinux:large_dnode", 1207c52f914SToomas Soome "com.joyent:multi_vdev_crash_dump", 1216459a61eSMatt Macy "com.delphix:spacemap_histogram", 1226459a61eSMatt Macy "com.delphix:zpool_checkpoint", 1236459a61eSMatt Macy "com.delphix:spacemap_v2", 1246459a61eSMatt Macy "com.datto:encryption", 1256459a61eSMatt Macy "org.zfsonlinux:allocation_classes", 1266459a61eSMatt Macy "com.datto:resilver_defer", 127b1b93268SToomas Soome "com.delphix:device_removal", 128b1b93268SToomas Soome "com.delphix:obsolete_counts", 129489912daSAndriy Gapon "com.intel:allocation_classes", 130b8902de1SWarner Losh NULL 131b8902de1SWarner Losh }; 132b8902de1SWarner Losh 133b8902de1SWarner Losh /* 134b8902de1SWarner Losh * List of all pools, chained through spa_link. 135b8902de1SWarner Losh */ 136b8902de1SWarner Losh static spa_list_t zfs_pools; 137b8902de1SWarner Losh 138b8902de1SWarner Losh static const dnode_phys_t *dnode_cache_obj; 139b8902de1SWarner Losh static uint64_t dnode_cache_bn; 140b8902de1SWarner Losh static char *dnode_cache_buf; 141b8902de1SWarner Losh static char *zap_scratch; 142b8902de1SWarner Losh static char *zfs_temp_buf, *zfs_temp_end, *zfs_temp_ptr; 143b8902de1SWarner Losh 144b8902de1SWarner Losh #define TEMP_SIZE (1024 * 1024) 145b8902de1SWarner Losh 146b8902de1SWarner Losh static int zio_read(const spa_t *spa, const blkptr_t *bp, void *buf); 147b8902de1SWarner Losh static int zfs_get_root(const spa_t *spa, uint64_t *objid); 148b8902de1SWarner Losh static int zfs_rlookup(const spa_t *spa, uint64_t objnum, char *result); 149b8902de1SWarner Losh static int zap_lookup(const spa_t *spa, const dnode_phys_t *dnode, 150b8902de1SWarner Losh const char *name, uint64_t integer_size, uint64_t num_integers, 151b8902de1SWarner Losh void *value); 152b1b93268SToomas Soome static int objset_get_dnode(const spa_t *, const objset_phys_t *, uint64_t, 153b1b93268SToomas Soome dnode_phys_t *); 154b1b93268SToomas Soome static int dnode_read(const spa_t *, const dnode_phys_t *, off_t, void *, 155b1b93268SToomas Soome size_t); 156b1b93268SToomas Soome static int vdev_indirect_read(vdev_t *, const blkptr_t *, void *, off_t, 157b1b93268SToomas Soome size_t); 158b1b93268SToomas Soome static int vdev_mirror_read(vdev_t *, const blkptr_t *, void *, off_t, size_t); 159b1b93268SToomas Soome vdev_indirect_mapping_t *vdev_indirect_mapping_open(spa_t *, objset_phys_t *, 160b1b93268SToomas Soome uint64_t); 161b1b93268SToomas Soome vdev_indirect_mapping_entry_phys_t * 162b1b93268SToomas Soome vdev_indirect_mapping_duplicate_adjacent_entries(vdev_t *, uint64_t, 163b1b93268SToomas Soome uint64_t, uint64_t *); 164b8902de1SWarner Losh 165b8902de1SWarner Losh static void 166b8902de1SWarner Losh zfs_init(void) 167b8902de1SWarner Losh { 168b8902de1SWarner Losh STAILQ_INIT(&zfs_vdevs); 169b8902de1SWarner Losh STAILQ_INIT(&zfs_pools); 170b8902de1SWarner Losh 171b8902de1SWarner Losh zfs_temp_buf = malloc(TEMP_SIZE); 172b8902de1SWarner Losh zfs_temp_end = zfs_temp_buf + TEMP_SIZE; 173b8902de1SWarner Losh zfs_temp_ptr = zfs_temp_buf; 174b8902de1SWarner Losh dnode_cache_buf = malloc(SPA_MAXBLOCKSIZE); 175b8902de1SWarner Losh zap_scratch = malloc(SPA_MAXBLOCKSIZE); 176b8902de1SWarner Losh 177b8902de1SWarner Losh zfs_init_crc(); 178b8902de1SWarner Losh } 179b8902de1SWarner Losh 180b8902de1SWarner Losh static void * 181b8902de1SWarner Losh zfs_alloc(size_t size) 182b8902de1SWarner Losh { 183b8902de1SWarner Losh char *ptr; 184b8902de1SWarner Losh 185b8902de1SWarner Losh if (zfs_temp_ptr + size > zfs_temp_end) { 18651e5c6b8SToomas Soome panic("ZFS: out of temporary buffer space"); 187b8902de1SWarner Losh } 188b8902de1SWarner Losh ptr = zfs_temp_ptr; 189b8902de1SWarner Losh zfs_temp_ptr += size; 190b8902de1SWarner Losh 191b8902de1SWarner Losh return (ptr); 192b8902de1SWarner Losh } 193b8902de1SWarner Losh 194b8902de1SWarner Losh static void 195b8902de1SWarner Losh zfs_free(void *ptr, size_t size) 196b8902de1SWarner Losh { 197b8902de1SWarner Losh 198b8902de1SWarner Losh zfs_temp_ptr -= size; 199b8902de1SWarner Losh if (zfs_temp_ptr != ptr) { 20051e5c6b8SToomas Soome panic("ZFS: zfs_alloc()/zfs_free() mismatch"); 201b8902de1SWarner Losh } 202b8902de1SWarner Losh } 203b8902de1SWarner Losh 204b8902de1SWarner Losh static int 205b8902de1SWarner Losh xdr_int(const unsigned char **xdr, int *ip) 206b8902de1SWarner Losh { 20712d62cc2SXin LI *ip = be32dec(*xdr); 208b8902de1SWarner Losh (*xdr) += 4; 209b8902de1SWarner Losh return (0); 210b8902de1SWarner Losh } 211b8902de1SWarner Losh 212b8902de1SWarner Losh static int 213b8902de1SWarner Losh xdr_u_int(const unsigned char **xdr, u_int *ip) 214b8902de1SWarner Losh { 21512d62cc2SXin LI *ip = be32dec(*xdr); 216b8902de1SWarner Losh (*xdr) += 4; 217b8902de1SWarner Losh return (0); 218b8902de1SWarner Losh } 219b8902de1SWarner Losh 220b8902de1SWarner Losh static int 221b8902de1SWarner Losh xdr_uint64_t(const unsigned char **xdr, uint64_t *lp) 222b8902de1SWarner Losh { 223b8902de1SWarner Losh u_int hi, lo; 224b8902de1SWarner Losh 225b8902de1SWarner Losh xdr_u_int(xdr, &hi); 226b8902de1SWarner Losh xdr_u_int(xdr, &lo); 227b8902de1SWarner Losh *lp = (((uint64_t)hi) << 32) | lo; 228b8902de1SWarner Losh return (0); 229b8902de1SWarner Losh } 230b8902de1SWarner Losh 231b8902de1SWarner Losh static int 232b8902de1SWarner Losh nvlist_find(const unsigned char *nvlist, const char *name, int type, 233b8902de1SWarner Losh int *elementsp, void *valuep) 234b8902de1SWarner Losh { 235b8902de1SWarner Losh const unsigned char *p, *pair; 236b8902de1SWarner Losh int junk; 237b8902de1SWarner Losh int encoded_size, decoded_size; 238b8902de1SWarner Losh 239b8902de1SWarner Losh p = nvlist; 240b8902de1SWarner Losh xdr_int(&p, &junk); 241b8902de1SWarner Losh xdr_int(&p, &junk); 242b8902de1SWarner Losh 243b8902de1SWarner Losh pair = p; 244b8902de1SWarner Losh xdr_int(&p, &encoded_size); 245b8902de1SWarner Losh xdr_int(&p, &decoded_size); 246b8902de1SWarner Losh while (encoded_size && decoded_size) { 247b8902de1SWarner Losh int namelen, pairtype, elements; 248b8902de1SWarner Losh const char *pairname; 249b8902de1SWarner Losh 250b8902de1SWarner Losh xdr_int(&p, &namelen); 251b8902de1SWarner Losh pairname = (const char *)p; 252b8902de1SWarner Losh p += roundup(namelen, 4); 253b8902de1SWarner Losh xdr_int(&p, &pairtype); 254b8902de1SWarner Losh 2552e6bb655SToomas Soome if (memcmp(name, pairname, namelen) == 0 && type == pairtype) { 256b8902de1SWarner Losh xdr_int(&p, &elements); 257b8902de1SWarner Losh if (elementsp) 258b8902de1SWarner Losh *elementsp = elements; 259b8902de1SWarner Losh if (type == DATA_TYPE_UINT64) { 260b8902de1SWarner Losh xdr_uint64_t(&p, (uint64_t *)valuep); 261b8902de1SWarner Losh return (0); 262b8902de1SWarner Losh } else if (type == DATA_TYPE_STRING) { 263b8902de1SWarner Losh int len; 264b8902de1SWarner Losh xdr_int(&p, &len); 265b8902de1SWarner Losh (*(const char **)valuep) = (const char *)p; 266b8902de1SWarner Losh return (0); 2672e6bb655SToomas Soome } else if (type == DATA_TYPE_NVLIST || 2682e6bb655SToomas Soome type == DATA_TYPE_NVLIST_ARRAY) { 269b8902de1SWarner Losh (*(const unsigned char **)valuep) = 270b8902de1SWarner Losh (const unsigned char *)p; 271b8902de1SWarner Losh return (0); 272b8902de1SWarner Losh } else { 273b8902de1SWarner Losh return (EIO); 274b8902de1SWarner Losh } 275b8902de1SWarner Losh } else { 276b8902de1SWarner Losh /* 2772e6bb655SToomas Soome * Not the pair we are looking for, skip to the 2782e6bb655SToomas Soome * next one. 279b8902de1SWarner Losh */ 280b8902de1SWarner Losh p = pair + encoded_size; 281b8902de1SWarner Losh } 282b8902de1SWarner Losh 283b8902de1SWarner Losh pair = p; 284b8902de1SWarner Losh xdr_int(&p, &encoded_size); 285b8902de1SWarner Losh xdr_int(&p, &decoded_size); 286b8902de1SWarner Losh } 287b8902de1SWarner Losh 288b8902de1SWarner Losh return (EIO); 289b8902de1SWarner Losh } 290b8902de1SWarner Losh 291b8902de1SWarner Losh static int 292b8902de1SWarner Losh nvlist_check_features_for_read(const unsigned char *nvlist) 293b8902de1SWarner Losh { 294b8902de1SWarner Losh const unsigned char *p, *pair; 295b8902de1SWarner Losh int junk; 296b8902de1SWarner Losh int encoded_size, decoded_size; 297b8902de1SWarner Losh int rc; 298b8902de1SWarner Losh 299b8902de1SWarner Losh rc = 0; 300b8902de1SWarner Losh 301b8902de1SWarner Losh p = nvlist; 302b8902de1SWarner Losh xdr_int(&p, &junk); 303b8902de1SWarner Losh xdr_int(&p, &junk); 304b8902de1SWarner Losh 305b8902de1SWarner Losh pair = p; 306b8902de1SWarner Losh xdr_int(&p, &encoded_size); 307b8902de1SWarner Losh xdr_int(&p, &decoded_size); 308b8902de1SWarner Losh while (encoded_size && decoded_size) { 309b8902de1SWarner Losh int namelen, pairtype; 310b8902de1SWarner Losh const char *pairname; 311b8902de1SWarner Losh int i, found; 312b8902de1SWarner Losh 313b8902de1SWarner Losh found = 0; 314b8902de1SWarner Losh 315b8902de1SWarner Losh xdr_int(&p, &namelen); 316b8902de1SWarner Losh pairname = (const char *)p; 317b8902de1SWarner Losh p += roundup(namelen, 4); 318b8902de1SWarner Losh xdr_int(&p, &pairtype); 319b8902de1SWarner Losh 320b8902de1SWarner Losh for (i = 0; features_for_read[i] != NULL; i++) { 3212e6bb655SToomas Soome if (memcmp(pairname, features_for_read[i], 3222e6bb655SToomas Soome namelen) == 0) { 323b8902de1SWarner Losh found = 1; 324b8902de1SWarner Losh break; 325b8902de1SWarner Losh } 326b8902de1SWarner Losh } 327b8902de1SWarner Losh 328b8902de1SWarner Losh if (!found) { 329b8902de1SWarner Losh printf("ZFS: unsupported feature: %s\n", pairname); 330b8902de1SWarner Losh rc = EIO; 331b8902de1SWarner Losh } 332b8902de1SWarner Losh 333b8902de1SWarner Losh p = pair + encoded_size; 334b8902de1SWarner Losh 335b8902de1SWarner Losh pair = p; 336b8902de1SWarner Losh xdr_int(&p, &encoded_size); 337b8902de1SWarner Losh xdr_int(&p, &decoded_size); 338b8902de1SWarner Losh } 339b8902de1SWarner Losh 340b8902de1SWarner Losh return (rc); 341b8902de1SWarner Losh } 342b8902de1SWarner Losh 343b8902de1SWarner Losh /* 344b8902de1SWarner Losh * Return the next nvlist in an nvlist array. 345b8902de1SWarner Losh */ 346b8902de1SWarner Losh static const unsigned char * 347b8902de1SWarner Losh nvlist_next(const unsigned char *nvlist) 348b8902de1SWarner Losh { 349b8902de1SWarner Losh const unsigned char *p, *pair; 350b8902de1SWarner Losh int junk; 351b8902de1SWarner Losh int encoded_size, decoded_size; 352b8902de1SWarner Losh 353b8902de1SWarner Losh p = nvlist; 354b8902de1SWarner Losh xdr_int(&p, &junk); 355b8902de1SWarner Losh xdr_int(&p, &junk); 356b8902de1SWarner Losh 357b8902de1SWarner Losh pair = p; 358b8902de1SWarner Losh xdr_int(&p, &encoded_size); 359b8902de1SWarner Losh xdr_int(&p, &decoded_size); 360b8902de1SWarner Losh while (encoded_size && decoded_size) { 361b8902de1SWarner Losh p = pair + encoded_size; 362b8902de1SWarner Losh 363b8902de1SWarner Losh pair = p; 364b8902de1SWarner Losh xdr_int(&p, &encoded_size); 365b8902de1SWarner Losh xdr_int(&p, &decoded_size); 366b8902de1SWarner Losh } 367b8902de1SWarner Losh 3682e6bb655SToomas Soome return (p); 369b8902de1SWarner Losh } 370b8902de1SWarner Losh 371b8902de1SWarner Losh #ifdef TEST 372b8902de1SWarner Losh 373b8902de1SWarner Losh static const unsigned char * 374b8902de1SWarner Losh nvlist_print(const unsigned char *nvlist, unsigned int indent) 375b8902de1SWarner Losh { 376b8902de1SWarner Losh static const char *typenames[] = { 377b8902de1SWarner Losh "DATA_TYPE_UNKNOWN", 378b8902de1SWarner Losh "DATA_TYPE_BOOLEAN", 379b8902de1SWarner Losh "DATA_TYPE_BYTE", 380b8902de1SWarner Losh "DATA_TYPE_INT16", 381b8902de1SWarner Losh "DATA_TYPE_UINT16", 382b8902de1SWarner Losh "DATA_TYPE_INT32", 383b8902de1SWarner Losh "DATA_TYPE_UINT32", 384b8902de1SWarner Losh "DATA_TYPE_INT64", 385b8902de1SWarner Losh "DATA_TYPE_UINT64", 386b8902de1SWarner Losh "DATA_TYPE_STRING", 387b8902de1SWarner Losh "DATA_TYPE_BYTE_ARRAY", 388b8902de1SWarner Losh "DATA_TYPE_INT16_ARRAY", 389b8902de1SWarner Losh "DATA_TYPE_UINT16_ARRAY", 390b8902de1SWarner Losh "DATA_TYPE_INT32_ARRAY", 391b8902de1SWarner Losh "DATA_TYPE_UINT32_ARRAY", 392b8902de1SWarner Losh "DATA_TYPE_INT64_ARRAY", 393b8902de1SWarner Losh "DATA_TYPE_UINT64_ARRAY", 394b8902de1SWarner Losh "DATA_TYPE_STRING_ARRAY", 395b8902de1SWarner Losh "DATA_TYPE_HRTIME", 396b8902de1SWarner Losh "DATA_TYPE_NVLIST", 397b8902de1SWarner Losh "DATA_TYPE_NVLIST_ARRAY", 398b8902de1SWarner Losh "DATA_TYPE_BOOLEAN_VALUE", 399b8902de1SWarner Losh "DATA_TYPE_INT8", 400b8902de1SWarner Losh "DATA_TYPE_UINT8", 401b8902de1SWarner Losh "DATA_TYPE_BOOLEAN_ARRAY", 402b8902de1SWarner Losh "DATA_TYPE_INT8_ARRAY", 403b8902de1SWarner Losh "DATA_TYPE_UINT8_ARRAY" 404b8902de1SWarner Losh }; 405b8902de1SWarner Losh 406b8902de1SWarner Losh unsigned int i, j; 407b8902de1SWarner Losh const unsigned char *p, *pair; 408b8902de1SWarner Losh int junk; 409b8902de1SWarner Losh int encoded_size, decoded_size; 410b8902de1SWarner Losh 411b8902de1SWarner Losh p = nvlist; 412b8902de1SWarner Losh xdr_int(&p, &junk); 413b8902de1SWarner Losh xdr_int(&p, &junk); 414b8902de1SWarner Losh 415b8902de1SWarner Losh pair = p; 416b8902de1SWarner Losh xdr_int(&p, &encoded_size); 417b8902de1SWarner Losh xdr_int(&p, &decoded_size); 418b8902de1SWarner Losh while (encoded_size && decoded_size) { 419b8902de1SWarner Losh int namelen, pairtype, elements; 420b8902de1SWarner Losh const char *pairname; 421b8902de1SWarner Losh 422b8902de1SWarner Losh xdr_int(&p, &namelen); 423b8902de1SWarner Losh pairname = (const char *)p; 424b8902de1SWarner Losh p += roundup(namelen, 4); 425b8902de1SWarner Losh xdr_int(&p, &pairtype); 426b8902de1SWarner Losh 427b8902de1SWarner Losh for (i = 0; i < indent; i++) 428b8902de1SWarner Losh printf(" "); 429b8902de1SWarner Losh printf("%s %s", typenames[pairtype], pairname); 430b8902de1SWarner Losh 431b8902de1SWarner Losh xdr_int(&p, &elements); 432b8902de1SWarner Losh switch (pairtype) { 433b8902de1SWarner Losh case DATA_TYPE_UINT64: { 434b8902de1SWarner Losh uint64_t val; 435b8902de1SWarner Losh xdr_uint64_t(&p, &val); 436b8902de1SWarner Losh printf(" = 0x%jx\n", (uintmax_t)val); 437b8902de1SWarner Losh break; 438b8902de1SWarner Losh } 439b8902de1SWarner Losh 440b8902de1SWarner Losh case DATA_TYPE_STRING: { 441b8902de1SWarner Losh int len; 442b8902de1SWarner Losh xdr_int(&p, &len); 443b8902de1SWarner Losh printf(" = \"%s\"\n", p); 444b8902de1SWarner Losh break; 445b8902de1SWarner Losh } 446b8902de1SWarner Losh 447b8902de1SWarner Losh case DATA_TYPE_NVLIST: 448b8902de1SWarner Losh printf("\n"); 449b8902de1SWarner Losh nvlist_print(p, indent + 1); 450b8902de1SWarner Losh break; 451b8902de1SWarner Losh 452b8902de1SWarner Losh case DATA_TYPE_NVLIST_ARRAY: 453b8902de1SWarner Losh for (j = 0; j < elements; j++) { 454b8902de1SWarner Losh printf("[%d]\n", j); 455b8902de1SWarner Losh p = nvlist_print(p, indent + 1); 456b8902de1SWarner Losh if (j != elements - 1) { 457b8902de1SWarner Losh for (i = 0; i < indent; i++) 458b8902de1SWarner Losh printf(" "); 4592e6bb655SToomas Soome printf("%s %s", typenames[pairtype], 4602e6bb655SToomas Soome pairname); 461b8902de1SWarner Losh } 462b8902de1SWarner Losh } 463b8902de1SWarner Losh break; 464b8902de1SWarner Losh 465b8902de1SWarner Losh default: 466b8902de1SWarner Losh printf("\n"); 467b8902de1SWarner Losh } 468b8902de1SWarner Losh 469b8902de1SWarner Losh p = pair + encoded_size; 470b8902de1SWarner Losh 471b8902de1SWarner Losh pair = p; 472b8902de1SWarner Losh xdr_int(&p, &encoded_size); 473b8902de1SWarner Losh xdr_int(&p, &decoded_size); 474b8902de1SWarner Losh } 475b8902de1SWarner Losh 4762e6bb655SToomas Soome return (p); 477b8902de1SWarner Losh } 478b8902de1SWarner Losh 479b8902de1SWarner Losh #endif 480b8902de1SWarner Losh 481b8902de1SWarner Losh static int 482b8902de1SWarner Losh vdev_read_phys(vdev_t *vdev, const blkptr_t *bp, void *buf, 483b8902de1SWarner Losh off_t offset, size_t size) 484b8902de1SWarner Losh { 485b8902de1SWarner Losh size_t psize; 486b8902de1SWarner Losh int rc; 487b8902de1SWarner Losh 488b8902de1SWarner Losh if (!vdev->v_phys_read) 489b8902de1SWarner Losh return (EIO); 490b8902de1SWarner Losh 491b8902de1SWarner Losh if (bp) { 492b8902de1SWarner Losh psize = BP_GET_PSIZE(bp); 493b8902de1SWarner Losh } else { 494b8902de1SWarner Losh psize = size; 495b8902de1SWarner Losh } 496b8902de1SWarner Losh 497b8902de1SWarner Losh rc = vdev->v_phys_read(vdev, vdev->v_read_priv, offset, buf, psize); 498*3c2db0efSToomas Soome if (rc == 0) { 499b1b93268SToomas Soome if (bp != NULL) 500*3c2db0efSToomas Soome rc = zio_checksum_verify(vdev->v_spa, bp, buf); 501*3c2db0efSToomas Soome } 502b8902de1SWarner Losh 503*3c2db0efSToomas Soome return (rc); 504b8902de1SWarner Losh } 505b8902de1SWarner Losh 506b1b93268SToomas Soome typedef struct remap_segment { 507b1b93268SToomas Soome vdev_t *rs_vd; 508b1b93268SToomas Soome uint64_t rs_offset; 509b1b93268SToomas Soome uint64_t rs_asize; 510b1b93268SToomas Soome uint64_t rs_split_offset; 511b1b93268SToomas Soome list_node_t rs_node; 512b1b93268SToomas Soome } remap_segment_t; 513b1b93268SToomas Soome 514b1b93268SToomas Soome static remap_segment_t * 515b1b93268SToomas Soome rs_alloc(vdev_t *vd, uint64_t offset, uint64_t asize, uint64_t split_offset) 516b1b93268SToomas Soome { 517b1b93268SToomas Soome remap_segment_t *rs = malloc(sizeof (remap_segment_t)); 518b1b93268SToomas Soome 519b1b93268SToomas Soome if (rs != NULL) { 520b1b93268SToomas Soome rs->rs_vd = vd; 521b1b93268SToomas Soome rs->rs_offset = offset; 522b1b93268SToomas Soome rs->rs_asize = asize; 523b1b93268SToomas Soome rs->rs_split_offset = split_offset; 524b1b93268SToomas Soome } 525b1b93268SToomas Soome 526b1b93268SToomas Soome return (rs); 527b1b93268SToomas Soome } 528b1b93268SToomas Soome 529b1b93268SToomas Soome vdev_indirect_mapping_t * 530b1b93268SToomas Soome vdev_indirect_mapping_open(spa_t *spa, objset_phys_t *os, 531b1b93268SToomas Soome uint64_t mapping_object) 532b1b93268SToomas Soome { 533b1b93268SToomas Soome vdev_indirect_mapping_t *vim; 534b1b93268SToomas Soome vdev_indirect_mapping_phys_t *vim_phys; 535b1b93268SToomas Soome int rc; 536b1b93268SToomas Soome 537b1b93268SToomas Soome vim = calloc(1, sizeof (*vim)); 538b1b93268SToomas Soome if (vim == NULL) 539b1b93268SToomas Soome return (NULL); 540b1b93268SToomas Soome 541b1b93268SToomas Soome vim->vim_dn = calloc(1, sizeof (*vim->vim_dn)); 542b1b93268SToomas Soome if (vim->vim_dn == NULL) { 543b1b93268SToomas Soome free(vim); 544b1b93268SToomas Soome return (NULL); 545b1b93268SToomas Soome } 546b1b93268SToomas Soome 547b1b93268SToomas Soome rc = objset_get_dnode(spa, os, mapping_object, vim->vim_dn); 548b1b93268SToomas Soome if (rc != 0) { 549b1b93268SToomas Soome free(vim->vim_dn); 550b1b93268SToomas Soome free(vim); 551b1b93268SToomas Soome return (NULL); 552b1b93268SToomas Soome } 553b1b93268SToomas Soome 554b1b93268SToomas Soome vim->vim_spa = spa; 555b1b93268SToomas Soome vim->vim_phys = malloc(sizeof (*vim->vim_phys)); 556b1b93268SToomas Soome if (vim->vim_phys == NULL) { 557b1b93268SToomas Soome free(vim->vim_dn); 558b1b93268SToomas Soome free(vim); 559b1b93268SToomas Soome return (NULL); 560b1b93268SToomas Soome } 561b1b93268SToomas Soome 562b1b93268SToomas Soome vim_phys = (vdev_indirect_mapping_phys_t *)DN_BONUS(vim->vim_dn); 563b1b93268SToomas Soome *vim->vim_phys = *vim_phys; 564b1b93268SToomas Soome 565b1b93268SToomas Soome vim->vim_objset = os; 566b1b93268SToomas Soome vim->vim_object = mapping_object; 567b1b93268SToomas Soome vim->vim_entries = NULL; 568b1b93268SToomas Soome 569b1b93268SToomas Soome vim->vim_havecounts = 570b1b93268SToomas Soome (vim->vim_dn->dn_bonuslen > VDEV_INDIRECT_MAPPING_SIZE_V0); 571*3c2db0efSToomas Soome 572b1b93268SToomas Soome return (vim); 573b1b93268SToomas Soome } 574b1b93268SToomas Soome 575b1b93268SToomas Soome /* 576b1b93268SToomas Soome * Compare an offset with an indirect mapping entry; there are three 577b1b93268SToomas Soome * possible scenarios: 578b1b93268SToomas Soome * 579b1b93268SToomas Soome * 1. The offset is "less than" the mapping entry; meaning the 580b1b93268SToomas Soome * offset is less than the source offset of the mapping entry. In 581b1b93268SToomas Soome * this case, there is no overlap between the offset and the 582b1b93268SToomas Soome * mapping entry and -1 will be returned. 583b1b93268SToomas Soome * 584b1b93268SToomas Soome * 2. The offset is "greater than" the mapping entry; meaning the 585b1b93268SToomas Soome * offset is greater than the mapping entry's source offset plus 586b1b93268SToomas Soome * the entry's size. In this case, there is no overlap between 587b1b93268SToomas Soome * the offset and the mapping entry and 1 will be returned. 588b1b93268SToomas Soome * 589b1b93268SToomas Soome * NOTE: If the offset is actually equal to the entry's offset 590b1b93268SToomas Soome * plus size, this is considered to be "greater" than the entry, 591b1b93268SToomas Soome * and this case applies (i.e. 1 will be returned). Thus, the 592b1b93268SToomas Soome * entry's "range" can be considered to be inclusive at its 593b1b93268SToomas Soome * start, but exclusive at its end: e.g. [src, src + size). 594b1b93268SToomas Soome * 595b1b93268SToomas Soome * 3. The last case to consider is if the offset actually falls 596b1b93268SToomas Soome * within the mapping entry's range. If this is the case, the 597b1b93268SToomas Soome * offset is considered to be "equal to" the mapping entry and 598b1b93268SToomas Soome * 0 will be returned. 599b1b93268SToomas Soome * 600b1b93268SToomas Soome * NOTE: If the offset is equal to the entry's source offset, 601b1b93268SToomas Soome * this case applies and 0 will be returned. If the offset is 602b1b93268SToomas Soome * equal to the entry's source plus its size, this case does 603b1b93268SToomas Soome * *not* apply (see "NOTE" above for scenario 2), and 1 will be 604b1b93268SToomas Soome * returned. 605b1b93268SToomas Soome */ 606b1b93268SToomas Soome static int 607b1b93268SToomas Soome dva_mapping_overlap_compare(const void *v_key, const void *v_array_elem) 608b1b93268SToomas Soome { 609b1b93268SToomas Soome const uint64_t *key = v_key; 610b1b93268SToomas Soome const vdev_indirect_mapping_entry_phys_t *array_elem = 611b1b93268SToomas Soome v_array_elem; 612b1b93268SToomas Soome uint64_t src_offset = DVA_MAPPING_GET_SRC_OFFSET(array_elem); 613b1b93268SToomas Soome 614b1b93268SToomas Soome if (*key < src_offset) { 615b1b93268SToomas Soome return (-1); 616b1b93268SToomas Soome } else if (*key < src_offset + DVA_GET_ASIZE(&array_elem->vimep_dst)) { 617b1b93268SToomas Soome return (0); 618b1b93268SToomas Soome } else { 619b1b93268SToomas Soome return (1); 620b1b93268SToomas Soome } 621b1b93268SToomas Soome } 622b1b93268SToomas Soome 623b1b93268SToomas Soome /* 624b1b93268SToomas Soome * Return array entry. 625b1b93268SToomas Soome */ 626b1b93268SToomas Soome static vdev_indirect_mapping_entry_phys_t * 627b1b93268SToomas Soome vdev_indirect_mapping_entry(vdev_indirect_mapping_t *vim, uint64_t index) 628b1b93268SToomas Soome { 629b1b93268SToomas Soome uint64_t size; 630b1b93268SToomas Soome off_t offset = 0; 631b1b93268SToomas Soome int rc; 632b1b93268SToomas Soome 633b1b93268SToomas Soome if (vim->vim_phys->vimp_num_entries == 0) 634b1b93268SToomas Soome return (NULL); 635b1b93268SToomas Soome 636b1b93268SToomas Soome if (vim->vim_entries == NULL) { 637b1b93268SToomas Soome uint64_t bsize; 638b1b93268SToomas Soome 639b1b93268SToomas Soome bsize = vim->vim_dn->dn_datablkszsec << SPA_MINBLOCKSHIFT; 640b1b93268SToomas Soome size = vim->vim_phys->vimp_num_entries * 641b1b93268SToomas Soome sizeof (*vim->vim_entries); 642b1b93268SToomas Soome if (size > bsize) { 643b1b93268SToomas Soome size = bsize / sizeof (*vim->vim_entries); 644b1b93268SToomas Soome size *= sizeof (*vim->vim_entries); 645b1b93268SToomas Soome } 646b1b93268SToomas Soome vim->vim_entries = malloc(size); 647b1b93268SToomas Soome if (vim->vim_entries == NULL) 648b1b93268SToomas Soome return (NULL); 649b1b93268SToomas Soome vim->vim_num_entries = size / sizeof (*vim->vim_entries); 650b1b93268SToomas Soome offset = index * sizeof (*vim->vim_entries); 651b1b93268SToomas Soome } 652b1b93268SToomas Soome 653b1b93268SToomas Soome /* We have data in vim_entries */ 654b1b93268SToomas Soome if (offset == 0) { 655b1b93268SToomas Soome if (index >= vim->vim_entry_offset && 656b1b93268SToomas Soome index <= vim->vim_entry_offset + vim->vim_num_entries) { 657b1b93268SToomas Soome index -= vim->vim_entry_offset; 658b1b93268SToomas Soome return (&vim->vim_entries[index]); 659b1b93268SToomas Soome } 660b1b93268SToomas Soome offset = index * sizeof (*vim->vim_entries); 661b1b93268SToomas Soome } 662b1b93268SToomas Soome 663b1b93268SToomas Soome vim->vim_entry_offset = index; 664b1b93268SToomas Soome size = vim->vim_num_entries * sizeof (*vim->vim_entries); 665b1b93268SToomas Soome rc = dnode_read(vim->vim_spa, vim->vim_dn, offset, vim->vim_entries, 666b1b93268SToomas Soome size); 667b1b93268SToomas Soome if (rc != 0) { 668b1b93268SToomas Soome /* Read error, invalidate vim_entries. */ 669b1b93268SToomas Soome free(vim->vim_entries); 670b1b93268SToomas Soome vim->vim_entries = NULL; 671b1b93268SToomas Soome return (NULL); 672b1b93268SToomas Soome } 673b1b93268SToomas Soome index -= vim->vim_entry_offset; 674b1b93268SToomas Soome return (&vim->vim_entries[index]); 675b1b93268SToomas Soome } 676b1b93268SToomas Soome 677b1b93268SToomas Soome /* 678b1b93268SToomas Soome * Returns the mapping entry for the given offset. 679b1b93268SToomas Soome * 680b1b93268SToomas Soome * It's possible that the given offset will not be in the mapping table 681b1b93268SToomas Soome * (i.e. no mapping entries contain this offset), in which case, the 682b1b93268SToomas Soome * return value value depends on the "next_if_missing" parameter. 683b1b93268SToomas Soome * 684b1b93268SToomas Soome * If the offset is not found in the table and "next_if_missing" is 685b1b93268SToomas Soome * B_FALSE, then NULL will always be returned. The behavior is intended 686b1b93268SToomas Soome * to allow consumers to get the entry corresponding to the offset 687b1b93268SToomas Soome * parameter, iff the offset overlaps with an entry in the table. 688b1b93268SToomas Soome * 689b1b93268SToomas Soome * If the offset is not found in the table and "next_if_missing" is 690b1b93268SToomas Soome * B_TRUE, then the entry nearest to the given offset will be returned, 691b1b93268SToomas Soome * such that the entry's source offset is greater than the offset 692b1b93268SToomas Soome * passed in (i.e. the "next" mapping entry in the table is returned, if 693b1b93268SToomas Soome * the offset is missing from the table). If there are no entries whose 694b1b93268SToomas Soome * source offset is greater than the passed in offset, NULL is returned. 695b1b93268SToomas Soome */ 696b1b93268SToomas Soome static vdev_indirect_mapping_entry_phys_t * 697b1b93268SToomas Soome vdev_indirect_mapping_entry_for_offset(vdev_indirect_mapping_t *vim, 698b1b93268SToomas Soome uint64_t offset) 699b1b93268SToomas Soome { 700b1b93268SToomas Soome ASSERT(vim->vim_phys->vimp_num_entries > 0); 701b1b93268SToomas Soome 702b1b93268SToomas Soome vdev_indirect_mapping_entry_phys_t *entry; 703b1b93268SToomas Soome 704b1b93268SToomas Soome uint64_t last = vim->vim_phys->vimp_num_entries - 1; 705b1b93268SToomas Soome uint64_t base = 0; 706b1b93268SToomas Soome 707b1b93268SToomas Soome /* 708b1b93268SToomas Soome * We don't define these inside of the while loop because we use 709b1b93268SToomas Soome * their value in the case that offset isn't in the mapping. 710b1b93268SToomas Soome */ 711b1b93268SToomas Soome uint64_t mid; 712b1b93268SToomas Soome int result; 713b1b93268SToomas Soome 714b1b93268SToomas Soome while (last >= base) { 715b1b93268SToomas Soome mid = base + ((last - base) >> 1); 716b1b93268SToomas Soome 717b1b93268SToomas Soome entry = vdev_indirect_mapping_entry(vim, mid); 718b1b93268SToomas Soome if (entry == NULL) 719b1b93268SToomas Soome break; 720b1b93268SToomas Soome result = dva_mapping_overlap_compare(&offset, entry); 721b1b93268SToomas Soome 722b1b93268SToomas Soome if (result == 0) { 723b1b93268SToomas Soome break; 724b1b93268SToomas Soome } else if (result < 0) { 725b1b93268SToomas Soome last = mid - 1; 726b1b93268SToomas Soome } else { 727b1b93268SToomas Soome base = mid + 1; 728b1b93268SToomas Soome } 729b1b93268SToomas Soome } 730b1b93268SToomas Soome return (entry); 731b1b93268SToomas Soome } 732b1b93268SToomas Soome 733b1b93268SToomas Soome /* 734b1b93268SToomas Soome * Given an indirect vdev and an extent on that vdev, it duplicates the 735b1b93268SToomas Soome * physical entries of the indirect mapping that correspond to the extent 736b1b93268SToomas Soome * to a new array and returns a pointer to it. In addition, copied_entries 737b1b93268SToomas Soome * is populated with the number of mapping entries that were duplicated. 738b1b93268SToomas Soome * 739b1b93268SToomas Soome * Finally, since we are doing an allocation, it is up to the caller to 740b1b93268SToomas Soome * free the array allocated in this function. 741b1b93268SToomas Soome */ 742b1b93268SToomas Soome vdev_indirect_mapping_entry_phys_t * 743b1b93268SToomas Soome vdev_indirect_mapping_duplicate_adjacent_entries(vdev_t *vd, uint64_t offset, 744b1b93268SToomas Soome uint64_t asize, uint64_t *copied_entries) 745b1b93268SToomas Soome { 746b1b93268SToomas Soome vdev_indirect_mapping_entry_phys_t *duplicate_mappings = NULL; 747b1b93268SToomas Soome vdev_indirect_mapping_t *vim = vd->v_mapping; 748b1b93268SToomas Soome uint64_t entries = 0; 749b1b93268SToomas Soome 750b1b93268SToomas Soome vdev_indirect_mapping_entry_phys_t *first_mapping = 751b1b93268SToomas Soome vdev_indirect_mapping_entry_for_offset(vim, offset); 752b1b93268SToomas Soome ASSERT3P(first_mapping, !=, NULL); 753b1b93268SToomas Soome 754b1b93268SToomas Soome vdev_indirect_mapping_entry_phys_t *m = first_mapping; 755b1b93268SToomas Soome while (asize > 0) { 756b1b93268SToomas Soome uint64_t size = DVA_GET_ASIZE(&m->vimep_dst); 757b1b93268SToomas Soome uint64_t inner_offset = offset - DVA_MAPPING_GET_SRC_OFFSET(m); 758b1b93268SToomas Soome uint64_t inner_size = MIN(asize, size - inner_offset); 759b1b93268SToomas Soome 760b1b93268SToomas Soome offset += inner_size; 761b1b93268SToomas Soome asize -= inner_size; 762b1b93268SToomas Soome entries++; 763b1b93268SToomas Soome m++; 764b1b93268SToomas Soome } 765b1b93268SToomas Soome 766b1b93268SToomas Soome size_t copy_length = entries * sizeof (*first_mapping); 767b1b93268SToomas Soome duplicate_mappings = malloc(copy_length); 768b1b93268SToomas Soome if (duplicate_mappings != NULL) 769b1b93268SToomas Soome bcopy(first_mapping, duplicate_mappings, copy_length); 770b1b93268SToomas Soome else 771b1b93268SToomas Soome entries = 0; 772b1b93268SToomas Soome 773b1b93268SToomas Soome *copied_entries = entries; 774b1b93268SToomas Soome 775b1b93268SToomas Soome return (duplicate_mappings); 776b1b93268SToomas Soome } 777b1b93268SToomas Soome 778b1b93268SToomas Soome static vdev_t * 779b1b93268SToomas Soome vdev_lookup_top(spa_t *spa, uint64_t vdev) 780b1b93268SToomas Soome { 781b1b93268SToomas Soome vdev_t *rvd; 782*3c2db0efSToomas Soome vdev_list_t *vlist; 783b1b93268SToomas Soome 784*3c2db0efSToomas Soome vlist = &spa->spa_root_vdev->v_children; 785*3c2db0efSToomas Soome STAILQ_FOREACH(rvd, vlist, v_childlink) 786b1b93268SToomas Soome if (rvd->v_id == vdev) 787b1b93268SToomas Soome break; 788b1b93268SToomas Soome 789b1b93268SToomas Soome return (rvd); 790b1b93268SToomas Soome } 791b1b93268SToomas Soome 792b1b93268SToomas Soome /* 793b1b93268SToomas Soome * This is a callback for vdev_indirect_remap() which allocates an 794b1b93268SToomas Soome * indirect_split_t for each split segment and adds it to iv_splits. 795b1b93268SToomas Soome */ 796b1b93268SToomas Soome static void 797b1b93268SToomas Soome vdev_indirect_gather_splits(uint64_t split_offset, vdev_t *vd, uint64_t offset, 798b1b93268SToomas Soome uint64_t size, void *arg) 799b1b93268SToomas Soome { 800b1b93268SToomas Soome int n = 1; 801b1b93268SToomas Soome zio_t *zio = arg; 802b1b93268SToomas Soome indirect_vsd_t *iv = zio->io_vsd; 803b1b93268SToomas Soome 804b1b93268SToomas Soome if (vd->v_read == vdev_indirect_read) 805b1b93268SToomas Soome return; 806b1b93268SToomas Soome 807b1b93268SToomas Soome if (vd->v_read == vdev_mirror_read) 808b1b93268SToomas Soome n = vd->v_nchildren; 809b1b93268SToomas Soome 810b1b93268SToomas Soome indirect_split_t *is = 811b1b93268SToomas Soome malloc(offsetof(indirect_split_t, is_child[n])); 812b1b93268SToomas Soome if (is == NULL) { 813b1b93268SToomas Soome zio->io_error = ENOMEM; 814b1b93268SToomas Soome return; 815b1b93268SToomas Soome } 816b1b93268SToomas Soome bzero(is, offsetof(indirect_split_t, is_child[n])); 817b1b93268SToomas Soome 818b1b93268SToomas Soome is->is_children = n; 819b1b93268SToomas Soome is->is_size = size; 820b1b93268SToomas Soome is->is_split_offset = split_offset; 821b1b93268SToomas Soome is->is_target_offset = offset; 822b1b93268SToomas Soome is->is_vdev = vd; 823b1b93268SToomas Soome 824b1b93268SToomas Soome /* 825b1b93268SToomas Soome * Note that we only consider multiple copies of the data for 826b1b93268SToomas Soome * *mirror* vdevs. We don't for "replacing" or "spare" vdevs, even 827b1b93268SToomas Soome * though they use the same ops as mirror, because there's only one 828b1b93268SToomas Soome * "good" copy under the replacing/spare. 829b1b93268SToomas Soome */ 830b1b93268SToomas Soome if (vd->v_read == vdev_mirror_read) { 831b1b93268SToomas Soome int i = 0; 832b1b93268SToomas Soome vdev_t *kid; 833b1b93268SToomas Soome 834b1b93268SToomas Soome STAILQ_FOREACH(kid, &vd->v_children, v_childlink) { 835b1b93268SToomas Soome is->is_child[i++].ic_vdev = kid; 836b1b93268SToomas Soome } 837b1b93268SToomas Soome } else { 838b1b93268SToomas Soome is->is_child[0].ic_vdev = vd; 839b1b93268SToomas Soome } 840b1b93268SToomas Soome 841b1b93268SToomas Soome list_insert_tail(&iv->iv_splits, is); 842b1b93268SToomas Soome } 843b1b93268SToomas Soome 844b1b93268SToomas Soome static void 845b1b93268SToomas Soome vdev_indirect_remap(vdev_t *vd, uint64_t offset, uint64_t asize, void *arg) 846b1b93268SToomas Soome { 847b1b93268SToomas Soome list_t stack; 848*3c2db0efSToomas Soome spa_t *spa = vd->v_spa; 8496e5555adSToomas Soome zio_t *zio = arg; 8504efce32aSToomas Soome remap_segment_t *rs; 851b1b93268SToomas Soome 852b1b93268SToomas Soome list_create(&stack, sizeof (remap_segment_t), 853b1b93268SToomas Soome offsetof(remap_segment_t, rs_node)); 854b1b93268SToomas Soome 8554efce32aSToomas Soome rs = rs_alloc(vd, offset, asize, 0); 8564efce32aSToomas Soome if (rs == NULL) { 8574efce32aSToomas Soome printf("vdev_indirect_remap: out of memory.\n"); 8584efce32aSToomas Soome zio->io_error = ENOMEM; 8594efce32aSToomas Soome } 8604efce32aSToomas Soome for (; rs != NULL; rs = list_remove_head(&stack)) { 861b1b93268SToomas Soome vdev_t *v = rs->rs_vd; 862b1b93268SToomas Soome uint64_t num_entries = 0; 863b1b93268SToomas Soome /* vdev_indirect_mapping_t *vim = v->v_mapping; */ 864b1b93268SToomas Soome vdev_indirect_mapping_entry_phys_t *mapping = 865b1b93268SToomas Soome vdev_indirect_mapping_duplicate_adjacent_entries(v, 866b1b93268SToomas Soome rs->rs_offset, rs->rs_asize, &num_entries); 867b1b93268SToomas Soome 8684efce32aSToomas Soome if (num_entries == 0) 8694efce32aSToomas Soome zio->io_error = ENOMEM; 8704efce32aSToomas Soome 871b1b93268SToomas Soome for (uint64_t i = 0; i < num_entries; i++) { 872b1b93268SToomas Soome vdev_indirect_mapping_entry_phys_t *m = &mapping[i]; 873b1b93268SToomas Soome uint64_t size = DVA_GET_ASIZE(&m->vimep_dst); 874b1b93268SToomas Soome uint64_t dst_offset = DVA_GET_OFFSET(&m->vimep_dst); 875b1b93268SToomas Soome uint64_t dst_vdev = DVA_GET_VDEV(&m->vimep_dst); 876b1b93268SToomas Soome uint64_t inner_offset = rs->rs_offset - 877b1b93268SToomas Soome DVA_MAPPING_GET_SRC_OFFSET(m); 878b1b93268SToomas Soome uint64_t inner_size = 879b1b93268SToomas Soome MIN(rs->rs_asize, size - inner_offset); 880b1b93268SToomas Soome vdev_t *dst_v = vdev_lookup_top(spa, dst_vdev); 881b1b93268SToomas Soome 882b1b93268SToomas Soome if (dst_v->v_read == vdev_indirect_read) { 8834efce32aSToomas Soome remap_segment_t *o; 8844efce32aSToomas Soome 8854efce32aSToomas Soome o = rs_alloc(dst_v, dst_offset + inner_offset, 8864efce32aSToomas Soome inner_size, rs->rs_split_offset); 8874efce32aSToomas Soome if (o == NULL) { 8884efce32aSToomas Soome printf("vdev_indirect_remap: " 8894efce32aSToomas Soome "out of memory.\n"); 8904efce32aSToomas Soome zio->io_error = ENOMEM; 8914efce32aSToomas Soome break; 8924efce32aSToomas Soome } 8934efce32aSToomas Soome 8944efce32aSToomas Soome list_insert_head(&stack, o); 895b1b93268SToomas Soome } 896b1b93268SToomas Soome vdev_indirect_gather_splits(rs->rs_split_offset, dst_v, 897b1b93268SToomas Soome dst_offset + inner_offset, 898b1b93268SToomas Soome inner_size, arg); 899b1b93268SToomas Soome 9006e5555adSToomas Soome /* 9016e5555adSToomas Soome * vdev_indirect_gather_splits can have memory 9026e5555adSToomas Soome * allocation error, we can not recover from it. 9036e5555adSToomas Soome */ 9046e5555adSToomas Soome if (zio->io_error != 0) 9056e5555adSToomas Soome break; 906b1b93268SToomas Soome rs->rs_offset += inner_size; 907b1b93268SToomas Soome rs->rs_asize -= inner_size; 908b1b93268SToomas Soome rs->rs_split_offset += inner_size; 909b1b93268SToomas Soome } 910b1b93268SToomas Soome 911b1b93268SToomas Soome free(mapping); 912b1b93268SToomas Soome free(rs); 9136e5555adSToomas Soome if (zio->io_error != 0) 9146e5555adSToomas Soome break; 915b1b93268SToomas Soome } 916b1b93268SToomas Soome 917b1b93268SToomas Soome list_destroy(&stack); 918b1b93268SToomas Soome } 919b1b93268SToomas Soome 920b1b93268SToomas Soome static void 921b1b93268SToomas Soome vdev_indirect_map_free(zio_t *zio) 922b1b93268SToomas Soome { 923b1b93268SToomas Soome indirect_vsd_t *iv = zio->io_vsd; 924b1b93268SToomas Soome indirect_split_t *is; 925b1b93268SToomas Soome 926b1b93268SToomas Soome while ((is = list_head(&iv->iv_splits)) != NULL) { 927b1b93268SToomas Soome for (int c = 0; c < is->is_children; c++) { 928b1b93268SToomas Soome indirect_child_t *ic = &is->is_child[c]; 929b1b93268SToomas Soome free(ic->ic_data); 930b1b93268SToomas Soome } 931b1b93268SToomas Soome list_remove(&iv->iv_splits, is); 932b1b93268SToomas Soome free(is); 933b1b93268SToomas Soome } 934b1b93268SToomas Soome free(iv); 935b1b93268SToomas Soome } 936b1b93268SToomas Soome 937b1b93268SToomas Soome static int 938b1b93268SToomas Soome vdev_indirect_read(vdev_t *vdev, const blkptr_t *bp, void *buf, 939b1b93268SToomas Soome off_t offset, size_t bytes) 940b1b93268SToomas Soome { 941*3c2db0efSToomas Soome zio_t zio; 942*3c2db0efSToomas Soome spa_t *spa = vdev->v_spa; 943*3c2db0efSToomas Soome indirect_vsd_t *iv; 944b1b93268SToomas Soome indirect_split_t *first; 945b1b93268SToomas Soome int rc = EIO; 946b1b93268SToomas Soome 947*3c2db0efSToomas Soome iv = calloc(1, sizeof(*iv)); 948b1b93268SToomas Soome if (iv == NULL) 949b1b93268SToomas Soome return (ENOMEM); 950b1b93268SToomas Soome 951b1b93268SToomas Soome list_create(&iv->iv_splits, 952b1b93268SToomas Soome sizeof (indirect_split_t), offsetof(indirect_split_t, is_node)); 953b1b93268SToomas Soome 954*3c2db0efSToomas Soome bzero(&zio, sizeof(zio)); 955b1b93268SToomas Soome zio.io_spa = spa; 956b1b93268SToomas Soome zio.io_bp = (blkptr_t *)bp; 957b1b93268SToomas Soome zio.io_data = buf; 958b1b93268SToomas Soome zio.io_size = bytes; 959b1b93268SToomas Soome zio.io_offset = offset; 960b1b93268SToomas Soome zio.io_vd = vdev; 961b1b93268SToomas Soome zio.io_vsd = iv; 962b1b93268SToomas Soome 963b1b93268SToomas Soome if (vdev->v_mapping == NULL) { 964b1b93268SToomas Soome vdev_indirect_config_t *vic; 965b1b93268SToomas Soome 966b1b93268SToomas Soome vic = &vdev->vdev_indirect_config; 967b1b93268SToomas Soome vdev->v_mapping = vdev_indirect_mapping_open(spa, 968b1b93268SToomas Soome &spa->spa_mos, vic->vic_mapping_object); 969b1b93268SToomas Soome } 970b1b93268SToomas Soome 971b1b93268SToomas Soome vdev_indirect_remap(vdev, offset, bytes, &zio); 9726e5555adSToomas Soome if (zio.io_error != 0) 9736e5555adSToomas Soome return (zio.io_error); 974b1b93268SToomas Soome 975b1b93268SToomas Soome first = list_head(&iv->iv_splits); 976b1b93268SToomas Soome if (first->is_size == zio.io_size) { 977b1b93268SToomas Soome /* 978b1b93268SToomas Soome * This is not a split block; we are pointing to the entire 979b1b93268SToomas Soome * data, which will checksum the same as the original data. 980b1b93268SToomas Soome * Pass the BP down so that the child i/o can verify the 981b1b93268SToomas Soome * checksum, and try a different location if available 982b1b93268SToomas Soome * (e.g. on a mirror). 983b1b93268SToomas Soome * 984b1b93268SToomas Soome * While this special case could be handled the same as the 985b1b93268SToomas Soome * general (split block) case, doing it this way ensures 986b1b93268SToomas Soome * that the vast majority of blocks on indirect vdevs 987b1b93268SToomas Soome * (which are not split) are handled identically to blocks 988b1b93268SToomas Soome * on non-indirect vdevs. This allows us to be less strict 989b1b93268SToomas Soome * about performance in the general (but rare) case. 990b1b93268SToomas Soome */ 991b1b93268SToomas Soome rc = first->is_vdev->v_read(first->is_vdev, zio.io_bp, 992b1b93268SToomas Soome zio.io_data, first->is_target_offset, bytes); 993b1b93268SToomas Soome } else { 994b1b93268SToomas Soome iv->iv_split_block = B_TRUE; 995b1b93268SToomas Soome /* 996b1b93268SToomas Soome * Read one copy of each split segment, from the 997b1b93268SToomas Soome * top-level vdev. Since we don't know the 998b1b93268SToomas Soome * checksum of each split individually, the child 999b1b93268SToomas Soome * zio can't ensure that we get the right data. 1000b1b93268SToomas Soome * E.g. if it's a mirror, it will just read from a 1001b1b93268SToomas Soome * random (healthy) leaf vdev. We have to verify 1002b1b93268SToomas Soome * the checksum in vdev_indirect_io_done(). 1003b1b93268SToomas Soome */ 1004b1b93268SToomas Soome for (indirect_split_t *is = list_head(&iv->iv_splits); 1005b1b93268SToomas Soome is != NULL; is = list_next(&iv->iv_splits, is)) { 1006b1b93268SToomas Soome char *ptr = zio.io_data; 1007b1b93268SToomas Soome 1008b1b93268SToomas Soome rc = is->is_vdev->v_read(is->is_vdev, zio.io_bp, 1009b1b93268SToomas Soome ptr + is->is_split_offset, is->is_target_offset, 1010b1b93268SToomas Soome is->is_size); 1011b1b93268SToomas Soome } 1012b1b93268SToomas Soome if (zio_checksum_verify(spa, zio.io_bp, zio.io_data)) 1013b1b93268SToomas Soome rc = ECKSUM; 1014b1b93268SToomas Soome else 1015b1b93268SToomas Soome rc = 0; 1016b1b93268SToomas Soome } 1017b1b93268SToomas Soome 1018b1b93268SToomas Soome vdev_indirect_map_free(&zio); 1019b1b93268SToomas Soome if (rc == 0) 1020b1b93268SToomas Soome rc = zio.io_error; 1021b1b93268SToomas Soome 1022b1b93268SToomas Soome return (rc); 1023b1b93268SToomas Soome } 1024b1b93268SToomas Soome 1025b8902de1SWarner Losh static int 1026b8902de1SWarner Losh vdev_disk_read(vdev_t *vdev, const blkptr_t *bp, void *buf, 1027b8902de1SWarner Losh off_t offset, size_t bytes) 1028b8902de1SWarner Losh { 1029b8902de1SWarner Losh 1030b8902de1SWarner Losh return (vdev_read_phys(vdev, bp, buf, 1031b8902de1SWarner Losh offset + VDEV_LABEL_START_SIZE, bytes)); 1032b8902de1SWarner Losh } 1033b8902de1SWarner Losh 1034b8902de1SWarner Losh 1035b8902de1SWarner Losh static int 1036b8902de1SWarner Losh vdev_mirror_read(vdev_t *vdev, const blkptr_t *bp, void *buf, 1037b8902de1SWarner Losh off_t offset, size_t bytes) 1038b8902de1SWarner Losh { 1039b8902de1SWarner Losh vdev_t *kid; 1040b8902de1SWarner Losh int rc; 1041b8902de1SWarner Losh 1042b8902de1SWarner Losh rc = EIO; 1043b8902de1SWarner Losh STAILQ_FOREACH(kid, &vdev->v_children, v_childlink) { 1044b8902de1SWarner Losh if (kid->v_state != VDEV_STATE_HEALTHY) 1045b8902de1SWarner Losh continue; 1046b8902de1SWarner Losh rc = kid->v_read(kid, bp, buf, offset, bytes); 1047b8902de1SWarner Losh if (!rc) 1048b8902de1SWarner Losh return (0); 1049b8902de1SWarner Losh } 1050b8902de1SWarner Losh 1051b8902de1SWarner Losh return (rc); 1052b8902de1SWarner Losh } 1053b8902de1SWarner Losh 1054b8902de1SWarner Losh static int 1055b8902de1SWarner Losh vdev_replacing_read(vdev_t *vdev, const blkptr_t *bp, void *buf, 1056b8902de1SWarner Losh off_t offset, size_t bytes) 1057b8902de1SWarner Losh { 1058b8902de1SWarner Losh vdev_t *kid; 1059b8902de1SWarner Losh 1060b8902de1SWarner Losh /* 1061b8902de1SWarner Losh * Here we should have two kids: 1062b8902de1SWarner Losh * First one which is the one we are replacing and we can trust 1063b8902de1SWarner Losh * only this one to have valid data, but it might not be present. 1064b8902de1SWarner Losh * Second one is that one we are replacing with. It is most likely 1065b8902de1SWarner Losh * healthy, but we can't trust it has needed data, so we won't use it. 1066b8902de1SWarner Losh */ 1067b8902de1SWarner Losh kid = STAILQ_FIRST(&vdev->v_children); 1068b8902de1SWarner Losh if (kid == NULL) 1069b8902de1SWarner Losh return (EIO); 1070b8902de1SWarner Losh if (kid->v_state != VDEV_STATE_HEALTHY) 1071b8902de1SWarner Losh return (EIO); 1072b8902de1SWarner Losh return (kid->v_read(kid, bp, buf, offset, bytes)); 1073b8902de1SWarner Losh } 1074b8902de1SWarner Losh 1075b8902de1SWarner Losh static vdev_t * 1076b8902de1SWarner Losh vdev_find(uint64_t guid) 1077b8902de1SWarner Losh { 1078b8902de1SWarner Losh vdev_t *vdev; 1079b8902de1SWarner Losh 1080b8902de1SWarner Losh STAILQ_FOREACH(vdev, &zfs_vdevs, v_alllink) 1081b8902de1SWarner Losh if (vdev->v_guid == guid) 1082b8902de1SWarner Losh return (vdev); 1083b8902de1SWarner Losh 1084b8902de1SWarner Losh return (0); 1085b8902de1SWarner Losh } 1086b8902de1SWarner Losh 1087b8902de1SWarner Losh static vdev_t * 1088b8902de1SWarner Losh vdev_create(uint64_t guid, vdev_read_t *_read) 1089b8902de1SWarner Losh { 1090b8902de1SWarner Losh vdev_t *vdev; 1091b1b93268SToomas Soome vdev_indirect_config_t *vic; 1092b8902de1SWarner Losh 1093*3c2db0efSToomas Soome vdev = calloc(1, sizeof(vdev_t)); 1094*3c2db0efSToomas Soome if (vdev != NULL) { 1095b8902de1SWarner Losh STAILQ_INIT(&vdev->v_children); 1096b8902de1SWarner Losh vdev->v_guid = guid; 1097b8902de1SWarner Losh vdev->v_read = _read; 1098b1b93268SToomas Soome 1099*3c2db0efSToomas Soome /* 1100*3c2db0efSToomas Soome * root vdev has no read function. 1101*3c2db0efSToomas Soome * We only point root vdev from spa. 1102*3c2db0efSToomas Soome */ 1103*3c2db0efSToomas Soome if (_read != NULL) { 1104b1b93268SToomas Soome vic = &vdev->vdev_indirect_config; 1105b1b93268SToomas Soome vic->vic_prev_indirect_vdev = UINT64_MAX; 1106b8902de1SWarner Losh STAILQ_INSERT_TAIL(&zfs_vdevs, vdev, v_alllink); 1107*3c2db0efSToomas Soome } 1108*3c2db0efSToomas Soome } 1109b8902de1SWarner Losh 1110b8902de1SWarner Losh return (vdev); 1111b8902de1SWarner Losh } 1112b8902de1SWarner Losh 1113*3c2db0efSToomas Soome static void 1114*3c2db0efSToomas Soome vdev_set_initial_state(vdev_t *vdev, const unsigned char *nvlist) 1115b8902de1SWarner Losh { 1116b8902de1SWarner Losh uint64_t is_offline, is_faulted, is_degraded, is_removed, isnt_present; 11170c0a882cSToomas Soome uint64_t is_log; 1118b8902de1SWarner Losh 1119*3c2db0efSToomas Soome is_offline = is_removed = is_faulted = is_degraded = isnt_present = 0; 1120*3c2db0efSToomas Soome is_log = 0; 1121*3c2db0efSToomas Soome (void) nvlist_find(nvlist, ZPOOL_CONFIG_OFFLINE, DATA_TYPE_UINT64, NULL, 1122*3c2db0efSToomas Soome &is_offline); 1123*3c2db0efSToomas Soome (void) nvlist_find(nvlist, ZPOOL_CONFIG_REMOVED, DATA_TYPE_UINT64, NULL, 1124*3c2db0efSToomas Soome &is_removed); 1125*3c2db0efSToomas Soome (void) nvlist_find(nvlist, ZPOOL_CONFIG_FAULTED, DATA_TYPE_UINT64, NULL, 1126*3c2db0efSToomas Soome &is_faulted); 1127*3c2db0efSToomas Soome (void) nvlist_find(nvlist, ZPOOL_CONFIG_DEGRADED, DATA_TYPE_UINT64, 1128*3c2db0efSToomas Soome NULL, &is_degraded); 1129*3c2db0efSToomas Soome (void) nvlist_find(nvlist, ZPOOL_CONFIG_NOT_PRESENT, DATA_TYPE_UINT64, 1130*3c2db0efSToomas Soome NULL, &isnt_present); 1131*3c2db0efSToomas Soome (void) nvlist_find(nvlist, ZPOOL_CONFIG_IS_LOG, DATA_TYPE_UINT64, NULL, 1132*3c2db0efSToomas Soome &is_log); 1133*3c2db0efSToomas Soome 1134*3c2db0efSToomas Soome if (is_offline != 0) 1135*3c2db0efSToomas Soome vdev->v_state = VDEV_STATE_OFFLINE; 1136*3c2db0efSToomas Soome else if (is_removed != 0) 1137*3c2db0efSToomas Soome vdev->v_state = VDEV_STATE_REMOVED; 1138*3c2db0efSToomas Soome else if (is_faulted != 0) 1139*3c2db0efSToomas Soome vdev->v_state = VDEV_STATE_FAULTED; 1140*3c2db0efSToomas Soome else if (is_degraded != 0) 1141*3c2db0efSToomas Soome vdev->v_state = VDEV_STATE_DEGRADED; 1142*3c2db0efSToomas Soome else if (isnt_present != 0) 1143*3c2db0efSToomas Soome vdev->v_state = VDEV_STATE_CANT_OPEN; 1144*3c2db0efSToomas Soome 1145*3c2db0efSToomas Soome vdev->v_islog = is_log == 1; 1146*3c2db0efSToomas Soome } 1147*3c2db0efSToomas Soome 1148*3c2db0efSToomas Soome static int 1149*3c2db0efSToomas Soome vdev_init(uint64_t guid, const unsigned char *nvlist, vdev_t **vdevp) 1150*3c2db0efSToomas Soome { 1151*3c2db0efSToomas Soome uint64_t id, ashift, asize, nparity; 1152*3c2db0efSToomas Soome const char *path; 1153*3c2db0efSToomas Soome const char *type; 1154*3c2db0efSToomas Soome vdev_t *vdev; 1155*3c2db0efSToomas Soome 1156*3c2db0efSToomas Soome if (nvlist_find(nvlist, ZPOOL_CONFIG_ID, DATA_TYPE_UINT64, NULL, &id) || 1157*3c2db0efSToomas Soome nvlist_find(nvlist, ZPOOL_CONFIG_TYPE, DATA_TYPE_STRING, 1158b8902de1SWarner Losh NULL, &type)) { 1159b8902de1SWarner Losh return (ENOENT); 1160b8902de1SWarner Losh } 1161b8902de1SWarner Losh 11622e6bb655SToomas Soome if (strcmp(type, VDEV_TYPE_MIRROR) != 0 && 11632e6bb655SToomas Soome strcmp(type, VDEV_TYPE_DISK) != 0 && 1164b8902de1SWarner Losh #ifdef ZFS_TEST 11652e6bb655SToomas Soome strcmp(type, VDEV_TYPE_FILE) != 0 && 1166b8902de1SWarner Losh #endif 11672e6bb655SToomas Soome strcmp(type, VDEV_TYPE_RAIDZ) != 0 && 11682e6bb655SToomas Soome strcmp(type, VDEV_TYPE_INDIRECT) != 0 && 11692e6bb655SToomas Soome strcmp(type, VDEV_TYPE_REPLACING) != 0) { 11702e6bb655SToomas Soome printf("ZFS: can only boot from disk, mirror, raidz1, " 11712e6bb655SToomas Soome "raidz2 and raidz3 vdevs\n"); 1172b8902de1SWarner Losh return (EIO); 1173b8902de1SWarner Losh } 1174b8902de1SWarner Losh 11752e6bb655SToomas Soome if (strcmp(type, VDEV_TYPE_MIRROR) == 0) 1176b8902de1SWarner Losh vdev = vdev_create(guid, vdev_mirror_read); 11772e6bb655SToomas Soome else if (strcmp(type, VDEV_TYPE_RAIDZ) == 0) 1178b8902de1SWarner Losh vdev = vdev_create(guid, vdev_raidz_read); 11792e6bb655SToomas Soome else if (strcmp(type, VDEV_TYPE_REPLACING) == 0) 1180b8902de1SWarner Losh vdev = vdev_create(guid, vdev_replacing_read); 11812e6bb655SToomas Soome else if (strcmp(type, VDEV_TYPE_INDIRECT) == 0) { 1182b1b93268SToomas Soome vdev_indirect_config_t *vic; 1183b1b93268SToomas Soome 1184b1b93268SToomas Soome vdev = vdev_create(guid, vdev_indirect_read); 1185*3c2db0efSToomas Soome if (vdev != NULL) { 1186b1b93268SToomas Soome vdev->v_state = VDEV_STATE_HEALTHY; 1187b1b93268SToomas Soome vic = &vdev->vdev_indirect_config; 1188b1b93268SToomas Soome 1189b1b93268SToomas Soome nvlist_find(nvlist, 1190*3c2db0efSToomas Soome ZPOOL_CONFIG_INDIRECT_OBJECT, 1191*3c2db0efSToomas Soome DATA_TYPE_UINT64, 1192b1b93268SToomas Soome NULL, &vic->vic_mapping_object); 1193b1b93268SToomas Soome nvlist_find(nvlist, 1194*3c2db0efSToomas Soome ZPOOL_CONFIG_INDIRECT_BIRTHS, 1195*3c2db0efSToomas Soome DATA_TYPE_UINT64, 1196b1b93268SToomas Soome NULL, &vic->vic_births_object); 1197b1b93268SToomas Soome nvlist_find(nvlist, 1198*3c2db0efSToomas Soome ZPOOL_CONFIG_PREV_INDIRECT_VDEV, 1199*3c2db0efSToomas Soome DATA_TYPE_UINT64, 1200b1b93268SToomas Soome NULL, &vic->vic_prev_indirect_vdev); 1201b8902de1SWarner Losh } 1202*3c2db0efSToomas Soome } else { 1203*3c2db0efSToomas Soome vdev = vdev_create(guid, vdev_disk_read); 1204*3c2db0efSToomas Soome } 1205*3c2db0efSToomas Soome 1206*3c2db0efSToomas Soome if (vdev == NULL) 1207*3c2db0efSToomas Soome return (ENOMEM); 1208*3c2db0efSToomas Soome 1209*3c2db0efSToomas Soome vdev_set_initial_state(vdev, nvlist); 1210*3c2db0efSToomas Soome vdev->v_id = id; 1211*3c2db0efSToomas Soome if (nvlist_find(nvlist, ZPOOL_CONFIG_ASHIFT, 1212*3c2db0efSToomas Soome DATA_TYPE_UINT64, NULL, &ashift) == 0) 1213*3c2db0efSToomas Soome vdev->v_ashift = ashift; 1214*3c2db0efSToomas Soome 1215abca0bd5SToomas Soome if (nvlist_find(nvlist, ZPOOL_CONFIG_ASIZE, 1216abca0bd5SToomas Soome DATA_TYPE_UINT64, NULL, &asize) == 0) { 1217abca0bd5SToomas Soome vdev->v_psize = asize + 1218abca0bd5SToomas Soome VDEV_LABEL_START_SIZE + VDEV_LABEL_END_SIZE; 1219abca0bd5SToomas Soome } 1220*3c2db0efSToomas Soome 1221b8902de1SWarner Losh if (nvlist_find(nvlist, ZPOOL_CONFIG_NPARITY, 1222*3c2db0efSToomas Soome DATA_TYPE_UINT64, NULL, &nparity) == 0) 1223b8902de1SWarner Losh vdev->v_nparity = nparity; 1224*3c2db0efSToomas Soome 1225b8902de1SWarner Losh if (nvlist_find(nvlist, ZPOOL_CONFIG_PATH, 1226b8902de1SWarner Losh DATA_TYPE_STRING, NULL, &path) == 0) { 1227b8902de1SWarner Losh if (strncmp(path, "/dev/", 5) == 0) 1228b8902de1SWarner Losh path += 5; 1229b8902de1SWarner Losh vdev->v_name = strdup(path); 1230b8902de1SWarner Losh } else { 1231b1b93268SToomas Soome char *name; 1232b1b93268SToomas Soome 1233*3c2db0efSToomas Soome name = NULL; 12342e6bb655SToomas Soome if (strcmp(type, "raidz") == 0) { 1235b1b93268SToomas Soome if (vdev->v_nparity < 1 || 1236b1b93268SToomas Soome vdev->v_nparity > 3) { 1237b1b93268SToomas Soome printf("ZFS: can only boot from disk, " 1238b1b93268SToomas Soome "mirror, raidz1, raidz2 and raidz3 " 1239b1b93268SToomas Soome "vdevs\n"); 1240b8902de1SWarner Losh return (EIO); 1241b8902de1SWarner Losh } 1242*3c2db0efSToomas Soome (void) asprintf(&name, "%s%d-%" PRIu64, type, 1243b1b93268SToomas Soome vdev->v_nparity, id); 1244b8902de1SWarner Losh } else { 1245*3c2db0efSToomas Soome (void) asprintf(&name, "%s-%" PRIu64, type, id); 1246b8902de1SWarner Losh } 1247b1b93268SToomas Soome vdev->v_name = name; 1248b8902de1SWarner Losh } 1249*3c2db0efSToomas Soome *vdevp = vdev; 1250*3c2db0efSToomas Soome return (0); 1251b8902de1SWarner Losh } 1252b8902de1SWarner Losh 1253b8902de1SWarner Losh /* 1254*3c2db0efSToomas Soome * Find slot for vdev. We return either NULL to signal to use 1255*3c2db0efSToomas Soome * STAILQ_INSERT_HEAD, or we return link element to be used with 1256*3c2db0efSToomas Soome * STAILQ_INSERT_AFTER. 1257b8902de1SWarner Losh */ 1258*3c2db0efSToomas Soome static vdev_t * 1259*3c2db0efSToomas Soome vdev_find_previous(vdev_t *top_vdev, vdev_t *vdev) 1260*3c2db0efSToomas Soome { 1261*3c2db0efSToomas Soome vdev_t *v, *previous; 1262*3c2db0efSToomas Soome 1263*3c2db0efSToomas Soome if (STAILQ_EMPTY(&top_vdev->v_children)) 1264*3c2db0efSToomas Soome return (NULL); 1265*3c2db0efSToomas Soome 1266*3c2db0efSToomas Soome previous = NULL; 1267*3c2db0efSToomas Soome STAILQ_FOREACH(v, &top_vdev->v_children, v_childlink) { 1268*3c2db0efSToomas Soome if (v->v_id > vdev->v_id) 1269*3c2db0efSToomas Soome return (previous); 1270*3c2db0efSToomas Soome 1271*3c2db0efSToomas Soome if (v->v_id == vdev->v_id) 1272*3c2db0efSToomas Soome return (v); 1273*3c2db0efSToomas Soome 1274*3c2db0efSToomas Soome if (v->v_id < vdev->v_id) 1275*3c2db0efSToomas Soome previous = v; 1276*3c2db0efSToomas Soome } 1277*3c2db0efSToomas Soome return (previous); 1278b8902de1SWarner Losh } 1279b8902de1SWarner Losh 1280*3c2db0efSToomas Soome static size_t 1281*3c2db0efSToomas Soome vdev_child_count(vdev_t *vdev) 1282*3c2db0efSToomas Soome { 1283*3c2db0efSToomas Soome vdev_t *v; 1284*3c2db0efSToomas Soome size_t count; 1285*3c2db0efSToomas Soome 1286*3c2db0efSToomas Soome count = 0; 1287*3c2db0efSToomas Soome STAILQ_FOREACH(v, &vdev->v_children, v_childlink) { 1288*3c2db0efSToomas Soome count++; 1289*3c2db0efSToomas Soome } 1290*3c2db0efSToomas Soome return (count); 1291*3c2db0efSToomas Soome } 1292*3c2db0efSToomas Soome 1293*3c2db0efSToomas Soome /* 1294*3c2db0efSToomas Soome * Insert vdev into top_vdev children list. List is ordered by v_id. 1295*3c2db0efSToomas Soome */ 1296*3c2db0efSToomas Soome static void 1297*3c2db0efSToomas Soome vdev_insert(vdev_t *top_vdev, vdev_t *vdev) 1298*3c2db0efSToomas Soome { 1299*3c2db0efSToomas Soome vdev_t *previous; 1300*3c2db0efSToomas Soome size_t count; 1301*3c2db0efSToomas Soome 1302*3c2db0efSToomas Soome /* 1303*3c2db0efSToomas Soome * The top level vdev can appear in random order, depending how 1304*3c2db0efSToomas Soome * the firmware is presenting the disk devices. 1305*3c2db0efSToomas Soome * However, we will insert vdev to create list ordered by v_id, 1306*3c2db0efSToomas Soome * so we can use either STAILQ_INSERT_HEAD or STAILQ_INSERT_AFTER 1307*3c2db0efSToomas Soome * as STAILQ does not have insert before. 1308*3c2db0efSToomas Soome */ 1309*3c2db0efSToomas Soome previous = vdev_find_previous(top_vdev, vdev); 1310*3c2db0efSToomas Soome 1311*3c2db0efSToomas Soome if (previous == NULL) { 1312*3c2db0efSToomas Soome STAILQ_INSERT_HEAD(&top_vdev->v_children, vdev, v_childlink); 1313*3c2db0efSToomas Soome count = vdev_child_count(top_vdev); 1314*3c2db0efSToomas Soome if (top_vdev->v_nchildren < count) 1315*3c2db0efSToomas Soome top_vdev->v_nchildren = count; 1316*3c2db0efSToomas Soome return; 1317*3c2db0efSToomas Soome } 1318*3c2db0efSToomas Soome 1319*3c2db0efSToomas Soome if (previous->v_id == vdev->v_id) 1320*3c2db0efSToomas Soome return; 1321*3c2db0efSToomas Soome 1322*3c2db0efSToomas Soome STAILQ_INSERT_AFTER(&top_vdev->v_children, previous, vdev, v_childlink); 1323*3c2db0efSToomas Soome count = vdev_child_count(top_vdev); 1324*3c2db0efSToomas Soome if (top_vdev->v_nchildren < count) 1325*3c2db0efSToomas Soome top_vdev->v_nchildren = count; 1326*3c2db0efSToomas Soome } 1327*3c2db0efSToomas Soome 1328*3c2db0efSToomas Soome static int 1329*3c2db0efSToomas Soome vdev_from_nvlist(spa_t *spa, uint64_t top_guid, const unsigned char *nvlist) 1330*3c2db0efSToomas Soome { 1331*3c2db0efSToomas Soome vdev_t *top_vdev, *vdev; 1332*3c2db0efSToomas Soome const unsigned char *kids; 1333*3c2db0efSToomas Soome int rc, nkids; 1334*3c2db0efSToomas Soome 1335*3c2db0efSToomas Soome /* Get top vdev. */ 1336*3c2db0efSToomas Soome top_vdev = vdev_find(top_guid); 1337*3c2db0efSToomas Soome if (top_vdev == NULL) { 1338*3c2db0efSToomas Soome rc = vdev_init(top_guid, nvlist, &top_vdev); 1339*3c2db0efSToomas Soome if (rc != 0) 1340*3c2db0efSToomas Soome return (rc); 1341*3c2db0efSToomas Soome top_vdev->v_spa = spa; 1342*3c2db0efSToomas Soome top_vdev->v_top = top_vdev; 1343*3c2db0efSToomas Soome vdev_insert(spa->spa_root_vdev, top_vdev); 1344*3c2db0efSToomas Soome } 1345*3c2db0efSToomas Soome 1346*3c2db0efSToomas Soome /* Add children if there are any. */ 1347b8902de1SWarner Losh rc = nvlist_find(nvlist, ZPOOL_CONFIG_CHILDREN, DATA_TYPE_NVLIST_ARRAY, 1348b8902de1SWarner Losh &nkids, &kids); 1349b8902de1SWarner Losh if (rc == 0) { 1350*3c2db0efSToomas Soome for (int i = 0; i < nkids; i++) { 1351*3c2db0efSToomas Soome uint64_t guid; 1352*3c2db0efSToomas Soome 1353*3c2db0efSToomas Soome rc = nvlist_find(kids, ZPOOL_CONFIG_GUID, 1354*3c2db0efSToomas Soome DATA_TYPE_UINT64, NULL, &guid); 1355*3c2db0efSToomas Soome if (rc != 0) 1356b8902de1SWarner Losh return (rc); 1357*3c2db0efSToomas Soome rc = vdev_init(guid, kids, &vdev); 1358*3c2db0efSToomas Soome if (rc != 0) 1359*3c2db0efSToomas Soome return (rc); 1360*3c2db0efSToomas Soome 1361*3c2db0efSToomas Soome vdev->v_spa = spa; 1362*3c2db0efSToomas Soome vdev->v_top = top_vdev; 1363*3c2db0efSToomas Soome vdev_insert(top_vdev, vdev); 1364*3c2db0efSToomas Soome 1365b8902de1SWarner Losh kids = nvlist_next(kids); 1366b8902de1SWarner Losh } 1367b8902de1SWarner Losh } else { 1368*3c2db0efSToomas Soome rc = 0; 1369b8902de1SWarner Losh } 1370b8902de1SWarner Losh 1371*3c2db0efSToomas Soome return (rc); 1372*3c2db0efSToomas Soome } 1373*3c2db0efSToomas Soome 1374*3c2db0efSToomas Soome static int 1375*3c2db0efSToomas Soome vdev_init_from_label(spa_t *spa, const unsigned char *nvlist) 1376*3c2db0efSToomas Soome { 1377*3c2db0efSToomas Soome uint64_t pool_guid, top_guid; 1378*3c2db0efSToomas Soome const unsigned char *vdevs; 1379*3c2db0efSToomas Soome 1380*3c2db0efSToomas Soome if (nvlist_find(nvlist, ZPOOL_CONFIG_POOL_GUID, DATA_TYPE_UINT64, 1381*3c2db0efSToomas Soome NULL, &pool_guid) || 1382*3c2db0efSToomas Soome nvlist_find(nvlist, ZPOOL_CONFIG_TOP_GUID, DATA_TYPE_UINT64, 1383*3c2db0efSToomas Soome NULL, &top_guid) || 1384*3c2db0efSToomas Soome nvlist_find(nvlist, ZPOOL_CONFIG_VDEV_TREE, DATA_TYPE_NVLIST, 1385*3c2db0efSToomas Soome NULL, &vdevs)) { 1386*3c2db0efSToomas Soome printf("ZFS: can't find vdev details\n"); 1387*3c2db0efSToomas Soome return (ENOENT); 1388*3c2db0efSToomas Soome } 1389*3c2db0efSToomas Soome 1390*3c2db0efSToomas Soome return (vdev_from_nvlist(spa, top_guid, vdevs)); 1391b8902de1SWarner Losh } 1392b8902de1SWarner Losh 1393b8902de1SWarner Losh static void 1394b8902de1SWarner Losh vdev_set_state(vdev_t *vdev) 1395b8902de1SWarner Losh { 1396b8902de1SWarner Losh vdev_t *kid; 1397b8902de1SWarner Losh int good_kids; 1398b8902de1SWarner Losh int bad_kids; 1399b8902de1SWarner Losh 1400*3c2db0efSToomas Soome STAILQ_FOREACH(kid, &vdev->v_children, v_childlink) { 1401*3c2db0efSToomas Soome vdev_set_state(kid); 1402*3c2db0efSToomas Soome } 1403*3c2db0efSToomas Soome 1404b8902de1SWarner Losh /* 1405b8902de1SWarner Losh * A mirror or raidz is healthy if all its kids are healthy. A 1406b8902de1SWarner Losh * mirror is degraded if any of its kids is healthy; a raidz 1407b8902de1SWarner Losh * is degraded if at most nparity kids are offline. 1408b8902de1SWarner Losh */ 1409b8902de1SWarner Losh if (STAILQ_FIRST(&vdev->v_children)) { 1410b8902de1SWarner Losh good_kids = 0; 1411b8902de1SWarner Losh bad_kids = 0; 1412b8902de1SWarner Losh STAILQ_FOREACH(kid, &vdev->v_children, v_childlink) { 1413b8902de1SWarner Losh if (kid->v_state == VDEV_STATE_HEALTHY) 1414b8902de1SWarner Losh good_kids++; 1415b8902de1SWarner Losh else 1416b8902de1SWarner Losh bad_kids++; 1417b8902de1SWarner Losh } 1418b8902de1SWarner Losh if (bad_kids == 0) { 1419b8902de1SWarner Losh vdev->v_state = VDEV_STATE_HEALTHY; 1420b8902de1SWarner Losh } else { 1421b8902de1SWarner Losh if (vdev->v_read == vdev_mirror_read) { 1422b8902de1SWarner Losh if (good_kids) { 1423b8902de1SWarner Losh vdev->v_state = VDEV_STATE_DEGRADED; 1424b8902de1SWarner Losh } else { 1425b8902de1SWarner Losh vdev->v_state = VDEV_STATE_OFFLINE; 1426b8902de1SWarner Losh } 1427b8902de1SWarner Losh } else if (vdev->v_read == vdev_raidz_read) { 1428b8902de1SWarner Losh if (bad_kids > vdev->v_nparity) { 1429b8902de1SWarner Losh vdev->v_state = VDEV_STATE_OFFLINE; 1430b8902de1SWarner Losh } else { 1431b8902de1SWarner Losh vdev->v_state = VDEV_STATE_DEGRADED; 1432b8902de1SWarner Losh } 1433b8902de1SWarner Losh } 1434b8902de1SWarner Losh } 1435b8902de1SWarner Losh } 1436b8902de1SWarner Losh } 1437b8902de1SWarner Losh 1438*3c2db0efSToomas Soome static int 1439*3c2db0efSToomas Soome vdev_update_from_nvlist(uint64_t top_guid, const unsigned char *nvlist) 1440*3c2db0efSToomas Soome { 1441*3c2db0efSToomas Soome vdev_t *vdev; 1442*3c2db0efSToomas Soome const unsigned char *kids; 1443*3c2db0efSToomas Soome int rc, nkids; 1444*3c2db0efSToomas Soome 1445*3c2db0efSToomas Soome /* Update top vdev. */ 1446*3c2db0efSToomas Soome vdev = vdev_find(top_guid); 1447*3c2db0efSToomas Soome if (vdev != NULL) 1448*3c2db0efSToomas Soome vdev_set_initial_state(vdev, nvlist); 1449*3c2db0efSToomas Soome 1450*3c2db0efSToomas Soome /* Update children if there are any. */ 1451*3c2db0efSToomas Soome rc = nvlist_find(nvlist, ZPOOL_CONFIG_CHILDREN, DATA_TYPE_NVLIST_ARRAY, 1452*3c2db0efSToomas Soome &nkids, &kids); 1453*3c2db0efSToomas Soome if (rc == 0) { 1454*3c2db0efSToomas Soome for (int i = 0; i < nkids; i++) { 1455*3c2db0efSToomas Soome uint64_t guid; 1456*3c2db0efSToomas Soome 1457*3c2db0efSToomas Soome rc = nvlist_find(kids, ZPOOL_CONFIG_GUID, 1458*3c2db0efSToomas Soome DATA_TYPE_UINT64, NULL, &guid); 1459*3c2db0efSToomas Soome if (rc != 0) 1460*3c2db0efSToomas Soome break; 1461*3c2db0efSToomas Soome 1462*3c2db0efSToomas Soome vdev = vdev_find(guid); 1463*3c2db0efSToomas Soome if (vdev != NULL) 1464*3c2db0efSToomas Soome vdev_set_initial_state(vdev, kids); 1465*3c2db0efSToomas Soome 1466*3c2db0efSToomas Soome kids = nvlist_next(kids); 1467*3c2db0efSToomas Soome } 1468*3c2db0efSToomas Soome } else { 1469*3c2db0efSToomas Soome rc = 0; 1470*3c2db0efSToomas Soome } 1471*3c2db0efSToomas Soome 1472*3c2db0efSToomas Soome return (rc); 1473*3c2db0efSToomas Soome } 1474*3c2db0efSToomas Soome 1475*3c2db0efSToomas Soome static int 1476*3c2db0efSToomas Soome vdev_init_from_nvlist(spa_t *spa, const unsigned char *nvlist) 1477*3c2db0efSToomas Soome { 1478*3c2db0efSToomas Soome uint64_t pool_guid, vdev_children; 1479*3c2db0efSToomas Soome const unsigned char *vdevs, *kids; 1480*3c2db0efSToomas Soome int rc, nkids; 1481*3c2db0efSToomas Soome 1482*3c2db0efSToomas Soome if (nvlist_find(nvlist, ZPOOL_CONFIG_POOL_GUID, DATA_TYPE_UINT64, 1483*3c2db0efSToomas Soome NULL, &pool_guid) || 1484*3c2db0efSToomas Soome nvlist_find(nvlist, ZPOOL_CONFIG_VDEV_CHILDREN, DATA_TYPE_UINT64, 1485*3c2db0efSToomas Soome NULL, &vdev_children) || 1486*3c2db0efSToomas Soome nvlist_find(nvlist, ZPOOL_CONFIG_VDEV_TREE, DATA_TYPE_NVLIST, 1487*3c2db0efSToomas Soome NULL, &vdevs)) { 1488*3c2db0efSToomas Soome printf("ZFS: can't find vdev details\n"); 1489*3c2db0efSToomas Soome return (ENOENT); 1490*3c2db0efSToomas Soome } 1491*3c2db0efSToomas Soome 1492*3c2db0efSToomas Soome /* Wrong guid?! */ 1493*3c2db0efSToomas Soome if (spa->spa_guid != pool_guid) 1494*3c2db0efSToomas Soome return (EIO); 1495*3c2db0efSToomas Soome 1496*3c2db0efSToomas Soome spa->spa_root_vdev->v_nchildren = vdev_children; 1497*3c2db0efSToomas Soome 1498*3c2db0efSToomas Soome rc = nvlist_find(vdevs, ZPOOL_CONFIG_CHILDREN, DATA_TYPE_NVLIST_ARRAY, 1499*3c2db0efSToomas Soome &nkids, &kids); 1500*3c2db0efSToomas Soome 1501*3c2db0efSToomas Soome /* 1502*3c2db0efSToomas Soome * MOS config has at least one child for root vdev. 1503*3c2db0efSToomas Soome */ 1504*3c2db0efSToomas Soome if (rc != 0) 1505*3c2db0efSToomas Soome return (EIO); 1506*3c2db0efSToomas Soome 1507*3c2db0efSToomas Soome for (int i = 0; i < nkids; i++) { 1508*3c2db0efSToomas Soome uint64_t guid; 1509*3c2db0efSToomas Soome vdev_t *vdev; 1510*3c2db0efSToomas Soome 1511*3c2db0efSToomas Soome rc = nvlist_find(kids, ZPOOL_CONFIG_GUID, DATA_TYPE_UINT64, 1512*3c2db0efSToomas Soome NULL, &guid); 1513*3c2db0efSToomas Soome if (rc != 0) 1514*3c2db0efSToomas Soome break; 1515*3c2db0efSToomas Soome vdev = vdev_find(guid); 1516*3c2db0efSToomas Soome /* 1517*3c2db0efSToomas Soome * Top level vdev is missing, create it. 1518*3c2db0efSToomas Soome */ 1519*3c2db0efSToomas Soome if (vdev == NULL) 1520*3c2db0efSToomas Soome rc = vdev_from_nvlist(spa, guid, kids); 1521*3c2db0efSToomas Soome else 1522*3c2db0efSToomas Soome rc = vdev_update_from_nvlist(guid, kids); 1523*3c2db0efSToomas Soome if (rc != 0) 1524*3c2db0efSToomas Soome break; 1525*3c2db0efSToomas Soome kids = nvlist_next(kids); 1526*3c2db0efSToomas Soome } 1527*3c2db0efSToomas Soome 1528*3c2db0efSToomas Soome /* 1529*3c2db0efSToomas Soome * Re-evaluate top-level vdev state. 1530*3c2db0efSToomas Soome */ 1531*3c2db0efSToomas Soome vdev_set_state(spa->spa_root_vdev); 1532*3c2db0efSToomas Soome 1533*3c2db0efSToomas Soome return (rc); 1534*3c2db0efSToomas Soome } 1535*3c2db0efSToomas Soome 1536b8902de1SWarner Losh static spa_t * 1537b8902de1SWarner Losh spa_find_by_guid(uint64_t guid) 1538b8902de1SWarner Losh { 1539b8902de1SWarner Losh spa_t *spa; 1540b8902de1SWarner Losh 1541b8902de1SWarner Losh STAILQ_FOREACH(spa, &zfs_pools, spa_link) 1542b8902de1SWarner Losh if (spa->spa_guid == guid) 1543b8902de1SWarner Losh return (spa); 1544b8902de1SWarner Losh 15452e6bb655SToomas Soome return (NULL); 1546b8902de1SWarner Losh } 1547b8902de1SWarner Losh 1548b8902de1SWarner Losh static spa_t * 1549b8902de1SWarner Losh spa_find_by_name(const char *name) 1550b8902de1SWarner Losh { 1551b8902de1SWarner Losh spa_t *spa; 1552b8902de1SWarner Losh 1553b8902de1SWarner Losh STAILQ_FOREACH(spa, &zfs_pools, spa_link) 15542e6bb655SToomas Soome if (strcmp(spa->spa_name, name) == 0) 1555b8902de1SWarner Losh return (spa); 1556b8902de1SWarner Losh 15572e6bb655SToomas Soome return (NULL); 1558b8902de1SWarner Losh } 1559b8902de1SWarner Losh 1560b8902de1SWarner Losh #ifdef BOOT2 1561b8902de1SWarner Losh static spa_t * 1562b8902de1SWarner Losh spa_get_primary(void) 1563b8902de1SWarner Losh { 1564b8902de1SWarner Losh 1565b8902de1SWarner Losh return (STAILQ_FIRST(&zfs_pools)); 1566b8902de1SWarner Losh } 1567b8902de1SWarner Losh 1568b8902de1SWarner Losh static vdev_t * 1569b8902de1SWarner Losh spa_get_primary_vdev(const spa_t *spa) 1570b8902de1SWarner Losh { 1571b8902de1SWarner Losh vdev_t *vdev; 1572b8902de1SWarner Losh vdev_t *kid; 1573b8902de1SWarner Losh 1574b8902de1SWarner Losh if (spa == NULL) 1575b8902de1SWarner Losh spa = spa_get_primary(); 1576b8902de1SWarner Losh if (spa == NULL) 1577b8902de1SWarner Losh return (NULL); 1578*3c2db0efSToomas Soome vdev = spa->spa_root_vdev; 1579b8902de1SWarner Losh if (vdev == NULL) 1580b8902de1SWarner Losh return (NULL); 1581b8902de1SWarner Losh for (kid = STAILQ_FIRST(&vdev->v_children); kid != NULL; 1582b8902de1SWarner Losh kid = STAILQ_FIRST(&vdev->v_children)) 1583b8902de1SWarner Losh vdev = kid; 1584b8902de1SWarner Losh return (vdev); 1585b8902de1SWarner Losh } 1586b8902de1SWarner Losh #endif 1587b8902de1SWarner Losh 1588b8902de1SWarner Losh static spa_t * 1589b8902de1SWarner Losh spa_create(uint64_t guid, const char *name) 1590b8902de1SWarner Losh { 1591b8902de1SWarner Losh spa_t *spa; 1592b8902de1SWarner Losh 159393a2d4c9SToomas Soome if ((spa = calloc(1, sizeof(spa_t))) == NULL) 1594b8902de1SWarner Losh return (NULL); 1595b8902de1SWarner Losh if ((spa->spa_name = strdup(name)) == NULL) { 1596b8902de1SWarner Losh free(spa); 1597b8902de1SWarner Losh return (NULL); 1598b8902de1SWarner Losh } 1599b8902de1SWarner Losh spa->spa_guid = guid; 1600*3c2db0efSToomas Soome spa->spa_root_vdev = vdev_create(guid, NULL); 1601*3c2db0efSToomas Soome if (spa->spa_root_vdev == NULL) { 1602*3c2db0efSToomas Soome free(spa->spa_name); 1603*3c2db0efSToomas Soome free(spa); 1604*3c2db0efSToomas Soome return (NULL); 1605*3c2db0efSToomas Soome } 1606*3c2db0efSToomas Soome spa->spa_root_vdev->v_name = strdup("root"); 1607b8902de1SWarner Losh STAILQ_INSERT_TAIL(&zfs_pools, spa, spa_link); 1608b8902de1SWarner Losh 1609b8902de1SWarner Losh return (spa); 1610b8902de1SWarner Losh } 1611b8902de1SWarner Losh 1612b8902de1SWarner Losh static const char * 1613b8902de1SWarner Losh state_name(vdev_state_t state) 1614b8902de1SWarner Losh { 1615b8902de1SWarner Losh static const char *names[] = { 1616b8902de1SWarner Losh "UNKNOWN", 1617b8902de1SWarner Losh "CLOSED", 1618b8902de1SWarner Losh "OFFLINE", 1619b8902de1SWarner Losh "REMOVED", 1620b8902de1SWarner Losh "CANT_OPEN", 1621b8902de1SWarner Losh "FAULTED", 1622b8902de1SWarner Losh "DEGRADED", 1623b8902de1SWarner Losh "ONLINE" 1624b8902de1SWarner Losh }; 16252e6bb655SToomas Soome return (names[state]); 1626b8902de1SWarner Losh } 1627b8902de1SWarner Losh 1628b8902de1SWarner Losh #ifdef BOOT2 1629b8902de1SWarner Losh 1630b8902de1SWarner Losh #define pager_printf printf 1631b8902de1SWarner Losh 1632b8902de1SWarner Losh #else 1633b8902de1SWarner Losh 1634b8902de1SWarner Losh static int 1635b8902de1SWarner Losh pager_printf(const char *fmt, ...) 1636b8902de1SWarner Losh { 1637b8902de1SWarner Losh char line[80]; 1638b8902de1SWarner Losh va_list args; 1639b8902de1SWarner Losh 1640b8902de1SWarner Losh va_start(args, fmt); 1641*3c2db0efSToomas Soome vsnprintf(line, sizeof(line), fmt, args); 1642b8902de1SWarner Losh va_end(args); 1643b8902de1SWarner Losh return (pager_output(line)); 1644b8902de1SWarner Losh } 1645b8902de1SWarner Losh 1646b8902de1SWarner Losh #endif 1647b8902de1SWarner Losh 1648b8902de1SWarner Losh #define STATUS_FORMAT " %s %s\n" 1649b8902de1SWarner Losh 1650b8902de1SWarner Losh static int 1651b8902de1SWarner Losh print_state(int indent, const char *name, vdev_state_t state) 1652b8902de1SWarner Losh { 1653b8902de1SWarner Losh int i; 1654*3c2db0efSToomas Soome char buf[512]; 1655b8902de1SWarner Losh 1656b8902de1SWarner Losh buf[0] = 0; 1657b8902de1SWarner Losh for (i = 0; i < indent; i++) 1658b8902de1SWarner Losh strcat(buf, " "); 1659b8902de1SWarner Losh strcat(buf, name); 1660b8902de1SWarner Losh return (pager_printf(STATUS_FORMAT, buf, state_name(state))); 1661b8902de1SWarner Losh } 1662b8902de1SWarner Losh 1663b8902de1SWarner Losh static int 1664b8902de1SWarner Losh vdev_status(vdev_t *vdev, int indent) 1665b8902de1SWarner Losh { 1666b8902de1SWarner Losh vdev_t *kid; 1667b8902de1SWarner Losh int ret; 16680c0a882cSToomas Soome 16690c0a882cSToomas Soome if (vdev->v_islog) { 16700c0a882cSToomas Soome (void) pager_output(" logs\n"); 16710c0a882cSToomas Soome indent++; 16720c0a882cSToomas Soome } 16730c0a882cSToomas Soome 1674b8902de1SWarner Losh ret = print_state(indent, vdev->v_name, vdev->v_state); 1675b8902de1SWarner Losh if (ret != 0) 1676b8902de1SWarner Losh return (ret); 1677b8902de1SWarner Losh 1678b8902de1SWarner Losh STAILQ_FOREACH(kid, &vdev->v_children, v_childlink) { 1679b8902de1SWarner Losh ret = vdev_status(kid, indent + 1); 1680b8902de1SWarner Losh if (ret != 0) 1681b8902de1SWarner Losh return (ret); 1682b8902de1SWarner Losh } 1683b8902de1SWarner Losh return (ret); 1684b8902de1SWarner Losh } 1685b8902de1SWarner Losh 1686b8902de1SWarner Losh static int 1687b8902de1SWarner Losh spa_status(spa_t *spa) 1688b8902de1SWarner Losh { 1689b8902de1SWarner Losh static char bootfs[ZFS_MAXNAMELEN]; 1690b8902de1SWarner Losh uint64_t rootid; 1691*3c2db0efSToomas Soome vdev_list_t *vlist; 1692b8902de1SWarner Losh vdev_t *vdev; 1693b8902de1SWarner Losh int good_kids, bad_kids, degraded_kids, ret; 1694b8902de1SWarner Losh vdev_state_t state; 1695b8902de1SWarner Losh 1696b8902de1SWarner Losh ret = pager_printf(" pool: %s\n", spa->spa_name); 1697b8902de1SWarner Losh if (ret != 0) 1698b8902de1SWarner Losh return (ret); 1699b8902de1SWarner Losh 1700b8902de1SWarner Losh if (zfs_get_root(spa, &rootid) == 0 && 1701b8902de1SWarner Losh zfs_rlookup(spa, rootid, bootfs) == 0) { 1702b8902de1SWarner Losh if (bootfs[0] == '\0') 1703b8902de1SWarner Losh ret = pager_printf("bootfs: %s\n", spa->spa_name); 1704b8902de1SWarner Losh else 1705b8902de1SWarner Losh ret = pager_printf("bootfs: %s/%s\n", spa->spa_name, 1706b8902de1SWarner Losh bootfs); 1707b8902de1SWarner Losh if (ret != 0) 1708b8902de1SWarner Losh return (ret); 1709b8902de1SWarner Losh } 1710b8902de1SWarner Losh ret = pager_printf("config:\n\n"); 1711b8902de1SWarner Losh if (ret != 0) 1712b8902de1SWarner Losh return (ret); 1713b8902de1SWarner Losh ret = pager_printf(STATUS_FORMAT, "NAME", "STATE"); 1714b8902de1SWarner Losh if (ret != 0) 1715b8902de1SWarner Losh return (ret); 1716b8902de1SWarner Losh 1717b8902de1SWarner Losh good_kids = 0; 1718b8902de1SWarner Losh degraded_kids = 0; 1719b8902de1SWarner Losh bad_kids = 0; 1720*3c2db0efSToomas Soome vlist = &spa->spa_root_vdev->v_children; 1721*3c2db0efSToomas Soome STAILQ_FOREACH(vdev, vlist, v_childlink) { 1722b8902de1SWarner Losh if (vdev->v_state == VDEV_STATE_HEALTHY) 1723b8902de1SWarner Losh good_kids++; 1724b8902de1SWarner Losh else if (vdev->v_state == VDEV_STATE_DEGRADED) 1725b8902de1SWarner Losh degraded_kids++; 1726b8902de1SWarner Losh else 1727b8902de1SWarner Losh bad_kids++; 1728b8902de1SWarner Losh } 1729b8902de1SWarner Losh 1730b8902de1SWarner Losh state = VDEV_STATE_CLOSED; 1731b8902de1SWarner Losh if (good_kids > 0 && (degraded_kids + bad_kids) == 0) 1732b8902de1SWarner Losh state = VDEV_STATE_HEALTHY; 1733b8902de1SWarner Losh else if ((good_kids + degraded_kids) > 0) 1734b8902de1SWarner Losh state = VDEV_STATE_DEGRADED; 1735b8902de1SWarner Losh 1736b8902de1SWarner Losh ret = print_state(0, spa->spa_name, state); 1737b8902de1SWarner Losh if (ret != 0) 1738b8902de1SWarner Losh return (ret); 1739*3c2db0efSToomas Soome 1740*3c2db0efSToomas Soome STAILQ_FOREACH(vdev, vlist, v_childlink) { 1741b8902de1SWarner Losh ret = vdev_status(vdev, 1); 1742b8902de1SWarner Losh if (ret != 0) 1743b8902de1SWarner Losh return (ret); 1744b8902de1SWarner Losh } 1745b8902de1SWarner Losh return (ret); 1746b8902de1SWarner Losh } 1747b8902de1SWarner Losh 1748b8902de1SWarner Losh static int 1749b8902de1SWarner Losh spa_all_status(void) 1750b8902de1SWarner Losh { 1751b8902de1SWarner Losh spa_t *spa; 1752b8902de1SWarner Losh int first = 1, ret = 0; 1753b8902de1SWarner Losh 1754b8902de1SWarner Losh STAILQ_FOREACH(spa, &zfs_pools, spa_link) { 1755b8902de1SWarner Losh if (!first) { 1756b8902de1SWarner Losh ret = pager_printf("\n"); 1757b8902de1SWarner Losh if (ret != 0) 1758b8902de1SWarner Losh return (ret); 1759b8902de1SWarner Losh } 1760b8902de1SWarner Losh first = 0; 1761b8902de1SWarner Losh ret = spa_status(spa); 1762b8902de1SWarner Losh if (ret != 0) 1763b8902de1SWarner Losh return (ret); 1764b8902de1SWarner Losh } 1765b8902de1SWarner Losh return (ret); 1766b8902de1SWarner Losh } 1767b8902de1SWarner Losh 1768b8902de1SWarner Losh static uint64_t 1769b8902de1SWarner Losh vdev_label_offset(uint64_t psize, int l, uint64_t offset) 1770b8902de1SWarner Losh { 1771b8902de1SWarner Losh uint64_t label_offset; 1772b8902de1SWarner Losh 1773b8902de1SWarner Losh if (l < VDEV_LABELS / 2) 1774b8902de1SWarner Losh label_offset = 0; 1775b8902de1SWarner Losh else 1776b8902de1SWarner Losh label_offset = psize - VDEV_LABELS * sizeof (vdev_label_t); 1777b8902de1SWarner Losh 1778b8902de1SWarner Losh return (offset + l * sizeof (vdev_label_t) + label_offset); 1779b8902de1SWarner Losh } 1780b8902de1SWarner Losh 1781b8902de1SWarner Losh static int 178279a4bf89SToomas Soome vdev_uberblock_compare(const uberblock_t *ub1, const uberblock_t *ub2) 178379a4bf89SToomas Soome { 178479a4bf89SToomas Soome unsigned int seq1 = 0; 178579a4bf89SToomas Soome unsigned int seq2 = 0; 178679a4bf89SToomas Soome int cmp = AVL_CMP(ub1->ub_txg, ub2->ub_txg); 178779a4bf89SToomas Soome 178879a4bf89SToomas Soome if (cmp != 0) 178979a4bf89SToomas Soome return (cmp); 179079a4bf89SToomas Soome 179179a4bf89SToomas Soome cmp = AVL_CMP(ub1->ub_timestamp, ub2->ub_timestamp); 179279a4bf89SToomas Soome if (cmp != 0) 179379a4bf89SToomas Soome return (cmp); 179479a4bf89SToomas Soome 179579a4bf89SToomas Soome if (MMP_VALID(ub1) && MMP_SEQ_VALID(ub1)) 179679a4bf89SToomas Soome seq1 = MMP_SEQ(ub1); 179779a4bf89SToomas Soome 179879a4bf89SToomas Soome if (MMP_VALID(ub2) && MMP_SEQ_VALID(ub2)) 179979a4bf89SToomas Soome seq2 = MMP_SEQ(ub2); 180079a4bf89SToomas Soome 180179a4bf89SToomas Soome return (AVL_CMP(seq1, seq2)); 180279a4bf89SToomas Soome } 180379a4bf89SToomas Soome 180479a4bf89SToomas Soome static int 180579a4bf89SToomas Soome uberblock_verify(uberblock_t *ub) 180679a4bf89SToomas Soome { 180779a4bf89SToomas Soome if (ub->ub_magic == BSWAP_64((uint64_t)UBERBLOCK_MAGIC)) { 180879a4bf89SToomas Soome byteswap_uint64_array(ub, sizeof (uberblock_t)); 180979a4bf89SToomas Soome } 181079a4bf89SToomas Soome 181179a4bf89SToomas Soome if (ub->ub_magic != UBERBLOCK_MAGIC || 181279a4bf89SToomas Soome !SPA_VERSION_IS_SUPPORTED(ub->ub_version)) 181379a4bf89SToomas Soome return (EINVAL); 181479a4bf89SToomas Soome 181579a4bf89SToomas Soome return (0); 181679a4bf89SToomas Soome } 181779a4bf89SToomas Soome 181879a4bf89SToomas Soome static int 181979a4bf89SToomas Soome vdev_label_read(vdev_t *vd, int l, void *buf, uint64_t offset, 182079a4bf89SToomas Soome size_t size) 182179a4bf89SToomas Soome { 182279a4bf89SToomas Soome blkptr_t bp; 182379a4bf89SToomas Soome off_t off; 182479a4bf89SToomas Soome 182579a4bf89SToomas Soome off = vdev_label_offset(vd->v_psize, l, offset); 182679a4bf89SToomas Soome 182779a4bf89SToomas Soome BP_ZERO(&bp); 182879a4bf89SToomas Soome BP_SET_LSIZE(&bp, size); 182979a4bf89SToomas Soome BP_SET_PSIZE(&bp, size); 183079a4bf89SToomas Soome BP_SET_CHECKSUM(&bp, ZIO_CHECKSUM_LABEL); 183179a4bf89SToomas Soome BP_SET_COMPRESS(&bp, ZIO_COMPRESS_OFF); 183279a4bf89SToomas Soome DVA_SET_OFFSET(BP_IDENTITY(&bp), off); 183379a4bf89SToomas Soome ZIO_SET_CHECKSUM(&bp.blk_cksum, off, 0, 0, 0); 183479a4bf89SToomas Soome 183579a4bf89SToomas Soome return (vdev_read_phys(vd, &bp, buf, off, size)); 183679a4bf89SToomas Soome } 183779a4bf89SToomas Soome 183879a4bf89SToomas Soome static unsigned char * 183979a4bf89SToomas Soome vdev_label_read_config(vdev_t *vd, uint64_t txg) 184079a4bf89SToomas Soome { 184179a4bf89SToomas Soome vdev_phys_t *label; 184279a4bf89SToomas Soome uint64_t best_txg = 0; 184379a4bf89SToomas Soome uint64_t label_txg = 0; 184479a4bf89SToomas Soome uint64_t asize; 184579a4bf89SToomas Soome unsigned char *nvl; 184679a4bf89SToomas Soome size_t nvl_size; 184779a4bf89SToomas Soome int error; 184879a4bf89SToomas Soome 184979a4bf89SToomas Soome label = malloc(sizeof (vdev_phys_t)); 185079a4bf89SToomas Soome if (label == NULL) 185179a4bf89SToomas Soome return (NULL); 185279a4bf89SToomas Soome 185379a4bf89SToomas Soome nvl_size = VDEV_PHYS_SIZE - sizeof (zio_eck_t) - 4; 185479a4bf89SToomas Soome nvl = malloc(nvl_size); 18553cac32d1SToomas Soome if (nvl == NULL) 18563cac32d1SToomas Soome goto done; 185779a4bf89SToomas Soome 185879a4bf89SToomas Soome for (int l = 0; l < VDEV_LABELS; l++) { 185979a4bf89SToomas Soome const unsigned char *nvlist; 186079a4bf89SToomas Soome 186179a4bf89SToomas Soome if (vdev_label_read(vd, l, label, 186279a4bf89SToomas Soome offsetof(vdev_label_t, vl_vdev_phys), 186379a4bf89SToomas Soome sizeof (vdev_phys_t))) 186479a4bf89SToomas Soome continue; 186579a4bf89SToomas Soome 186679a4bf89SToomas Soome if (label->vp_nvlist[0] != NV_ENCODE_XDR) 186779a4bf89SToomas Soome continue; 186879a4bf89SToomas Soome 186979a4bf89SToomas Soome nvlist = (const unsigned char *) label->vp_nvlist + 4; 187079a4bf89SToomas Soome error = nvlist_find(nvlist, ZPOOL_CONFIG_POOL_TXG, 187179a4bf89SToomas Soome DATA_TYPE_UINT64, NULL, &label_txg); 18729a3ea759SToomas Soome if (error != 0 || label_txg == 0) { 18739a3ea759SToomas Soome memcpy(nvl, nvlist, nvl_size); 18743cac32d1SToomas Soome goto done; 18759a3ea759SToomas Soome } 187679a4bf89SToomas Soome 187779a4bf89SToomas Soome if (label_txg <= txg && label_txg > best_txg) { 187879a4bf89SToomas Soome best_txg = label_txg; 187979a4bf89SToomas Soome memcpy(nvl, nvlist, nvl_size); 188079a4bf89SToomas Soome 188179a4bf89SToomas Soome /* 188279a4bf89SToomas Soome * Use asize from pool config. We need this 188379a4bf89SToomas Soome * because we can get bad value from BIOS. 188479a4bf89SToomas Soome */ 188579a4bf89SToomas Soome if (nvlist_find(nvlist, ZPOOL_CONFIG_ASIZE, 188679a4bf89SToomas Soome DATA_TYPE_UINT64, NULL, &asize) == 0) { 188779a4bf89SToomas Soome vd->v_psize = asize + 188879a4bf89SToomas Soome VDEV_LABEL_START_SIZE + VDEV_LABEL_END_SIZE; 188979a4bf89SToomas Soome } 189079a4bf89SToomas Soome } 189179a4bf89SToomas Soome } 189279a4bf89SToomas Soome 189379a4bf89SToomas Soome if (best_txg == 0) { 189479a4bf89SToomas Soome free(nvl); 189579a4bf89SToomas Soome nvl = NULL; 189679a4bf89SToomas Soome } 18973cac32d1SToomas Soome done: 18983cac32d1SToomas Soome free(label); 189979a4bf89SToomas Soome return (nvl); 190079a4bf89SToomas Soome } 190179a4bf89SToomas Soome 190279a4bf89SToomas Soome static void 190379a4bf89SToomas Soome vdev_uberblock_load(vdev_t *vd, uberblock_t *ub) 190479a4bf89SToomas Soome { 190579a4bf89SToomas Soome uberblock_t *buf; 190679a4bf89SToomas Soome 190779a4bf89SToomas Soome buf = malloc(VDEV_UBERBLOCK_SIZE(vd)); 190879a4bf89SToomas Soome if (buf == NULL) 190979a4bf89SToomas Soome return; 191079a4bf89SToomas Soome 191179a4bf89SToomas Soome for (int l = 0; l < VDEV_LABELS; l++) { 191279a4bf89SToomas Soome for (int n = 0; n < VDEV_UBERBLOCK_COUNT(vd); n++) { 191379a4bf89SToomas Soome if (vdev_label_read(vd, l, buf, 191479a4bf89SToomas Soome VDEV_UBERBLOCK_OFFSET(vd, n), 191579a4bf89SToomas Soome VDEV_UBERBLOCK_SIZE(vd))) 191679a4bf89SToomas Soome continue; 191779a4bf89SToomas Soome if (uberblock_verify(buf) != 0) 191879a4bf89SToomas Soome continue; 191979a4bf89SToomas Soome 192079a4bf89SToomas Soome if (vdev_uberblock_compare(buf, ub) > 0) 192179a4bf89SToomas Soome *ub = *buf; 192279a4bf89SToomas Soome } 192379a4bf89SToomas Soome } 192479a4bf89SToomas Soome free(buf); 192579a4bf89SToomas Soome } 192679a4bf89SToomas Soome 192779a4bf89SToomas Soome static int 1928b8902de1SWarner Losh vdev_probe(vdev_phys_read_t *_read, void *read_priv, spa_t **spap) 1929b8902de1SWarner Losh { 1930c082b391SToomas Soome vdev_t vtmp; 1931b8902de1SWarner Losh spa_t *spa; 1932*3c2db0efSToomas Soome vdev_t *vdev; 193379a4bf89SToomas Soome unsigned char *nvlist; 1934b8902de1SWarner Losh uint64_t val; 1935*3c2db0efSToomas Soome uint64_t guid, vdev_children; 1936b8902de1SWarner Losh uint64_t pool_txg, pool_guid; 1937b8902de1SWarner Losh const char *pool_name; 1938b8902de1SWarner Losh const unsigned char *features; 1939*3c2db0efSToomas Soome int rc; 1940b8902de1SWarner Losh 1941b8902de1SWarner Losh /* 1942b8902de1SWarner Losh * Load the vdev label and figure out which 1943b8902de1SWarner Losh * uberblock is most current. 1944b8902de1SWarner Losh */ 1945c082b391SToomas Soome memset(&vtmp, 0, sizeof(vtmp)); 1946b8902de1SWarner Losh vtmp.v_phys_read = _read; 1947b8902de1SWarner Losh vtmp.v_read_priv = read_priv; 1948abca0bd5SToomas Soome vtmp.v_psize = P2ALIGN(ldi_get_size(read_priv), 1949b8902de1SWarner Losh (uint64_t)sizeof (vdev_label_t)); 1950b8902de1SWarner Losh 195179a4bf89SToomas Soome /* Test for minimum device size. */ 1952abca0bd5SToomas Soome if (vtmp.v_psize < SPA_MINDEVSIZE) 1953b8902de1SWarner Losh return (EIO); 1954b8902de1SWarner Losh 195579a4bf89SToomas Soome nvlist = vdev_label_read_config(&vtmp, UINT64_MAX); 195679a4bf89SToomas Soome if (nvlist == NULL) 1957b8902de1SWarner Losh return (EIO); 1958b8902de1SWarner Losh 1959b8902de1SWarner Losh if (nvlist_find(nvlist, ZPOOL_CONFIG_VERSION, DATA_TYPE_UINT64, 1960b8902de1SWarner Losh NULL, &val) != 0) { 196179a4bf89SToomas Soome free(nvlist); 1962b8902de1SWarner Losh return (EIO); 1963b8902de1SWarner Losh } 1964b8902de1SWarner Losh 1965b8902de1SWarner Losh if (!SPA_VERSION_IS_SUPPORTED(val)) { 1966b8902de1SWarner Losh printf("ZFS: unsupported ZFS version %u (should be %u)\n", 1967b8902de1SWarner Losh (unsigned)val, (unsigned)SPA_VERSION); 196879a4bf89SToomas Soome free(nvlist); 1969b8902de1SWarner Losh return (EIO); 1970b8902de1SWarner Losh } 1971b8902de1SWarner Losh 1972b8902de1SWarner Losh /* Check ZFS features for read */ 1973b8902de1SWarner Losh if (nvlist_find(nvlist, ZPOOL_CONFIG_FEATURES_FOR_READ, 1974b8902de1SWarner Losh DATA_TYPE_NVLIST, NULL, &features) == 0 && 1975b8902de1SWarner Losh nvlist_check_features_for_read(features) != 0) { 197679a4bf89SToomas Soome free(nvlist); 1977b8902de1SWarner Losh return (EIO); 1978b8902de1SWarner Losh } 1979b8902de1SWarner Losh 1980b8902de1SWarner Losh if (nvlist_find(nvlist, ZPOOL_CONFIG_POOL_STATE, DATA_TYPE_UINT64, 1981b8902de1SWarner Losh NULL, &val) != 0) { 198279a4bf89SToomas Soome free(nvlist); 1983b8902de1SWarner Losh return (EIO); 1984b8902de1SWarner Losh } 1985b8902de1SWarner Losh 1986b8902de1SWarner Losh if (val == POOL_STATE_DESTROYED) { 1987b8902de1SWarner Losh /* We don't boot only from destroyed pools. */ 198879a4bf89SToomas Soome free(nvlist); 1989b8902de1SWarner Losh return (EIO); 1990b8902de1SWarner Losh } 1991b8902de1SWarner Losh 1992b8902de1SWarner Losh if (nvlist_find(nvlist, ZPOOL_CONFIG_POOL_TXG, DATA_TYPE_UINT64, 1993b8902de1SWarner Losh NULL, &pool_txg) != 0 || 1994b8902de1SWarner Losh nvlist_find(nvlist, ZPOOL_CONFIG_POOL_GUID, DATA_TYPE_UINT64, 1995b8902de1SWarner Losh NULL, &pool_guid) != 0 || 1996b8902de1SWarner Losh nvlist_find(nvlist, ZPOOL_CONFIG_POOL_NAME, DATA_TYPE_STRING, 1997b8902de1SWarner Losh NULL, &pool_name) != 0) { 1998b8902de1SWarner Losh /* 1999b8902de1SWarner Losh * Cache and spare devices end up here - just ignore 2000b8902de1SWarner Losh * them. 2001b8902de1SWarner Losh */ 200279a4bf89SToomas Soome free(nvlist); 2003b8902de1SWarner Losh return (EIO); 2004b8902de1SWarner Losh } 2005b8902de1SWarner Losh 2006b8902de1SWarner Losh /* 2007b8902de1SWarner Losh * Create the pool if this is the first time we've seen it. 2008b8902de1SWarner Losh */ 2009b8902de1SWarner Losh spa = spa_find_by_guid(pool_guid); 2010b8902de1SWarner Losh if (spa == NULL) { 2011*3c2db0efSToomas Soome nvlist_find(nvlist, ZPOOL_CONFIG_VDEV_CHILDREN, 2012*3c2db0efSToomas Soome DATA_TYPE_UINT64, NULL, &vdev_children); 2013b8902de1SWarner Losh spa = spa_create(pool_guid, pool_name); 201479a4bf89SToomas Soome if (spa == NULL) { 201579a4bf89SToomas Soome free(nvlist); 2016b8902de1SWarner Losh return (ENOMEM); 2017b8902de1SWarner Losh } 2018*3c2db0efSToomas Soome spa->spa_root_vdev->v_nchildren = vdev_children; 201979a4bf89SToomas Soome } 2020*3c2db0efSToomas Soome if (pool_txg > spa->spa_txg) 2021b8902de1SWarner Losh spa->spa_txg = pool_txg; 2022b8902de1SWarner Losh 2023b8902de1SWarner Losh /* 2024b8902de1SWarner Losh * Get the vdev tree and create our in-core copy of it. 2025b8902de1SWarner Losh * If we already have a vdev with this guid, this must 2026b8902de1SWarner Losh * be some kind of alias (overlapping slices, dangerously dedicated 2027b8902de1SWarner Losh * disks etc). 2028b8902de1SWarner Losh */ 2029b8902de1SWarner Losh if (nvlist_find(nvlist, ZPOOL_CONFIG_GUID, DATA_TYPE_UINT64, 2030b8902de1SWarner Losh NULL, &guid) != 0) { 203179a4bf89SToomas Soome free(nvlist); 2032b8902de1SWarner Losh return (EIO); 2033b8902de1SWarner Losh } 2034b8902de1SWarner Losh vdev = vdev_find(guid); 203579a4bf89SToomas Soome /* Has this vdev already been inited? */ 203679a4bf89SToomas Soome if (vdev && vdev->v_phys_read) { 203779a4bf89SToomas Soome free(nvlist); 2038b8902de1SWarner Losh return (EIO); 203979a4bf89SToomas Soome } 2040b8902de1SWarner Losh 2041*3c2db0efSToomas Soome rc = vdev_init_from_label(spa, nvlist); 204279a4bf89SToomas Soome free(nvlist); 2043b8902de1SWarner Losh if (rc != 0) 2044b8902de1SWarner Losh return (rc); 2045b8902de1SWarner Losh 2046b8902de1SWarner Losh /* 2047b8902de1SWarner Losh * We should already have created an incomplete vdev for this 2048b8902de1SWarner Losh * vdev. Find it and initialise it with our read proc. 2049b8902de1SWarner Losh */ 2050b8902de1SWarner Losh vdev = vdev_find(guid); 2051*3c2db0efSToomas Soome if (vdev != NULL) { 2052b8902de1SWarner Losh vdev->v_phys_read = _read; 2053b8902de1SWarner Losh vdev->v_read_priv = read_priv; 2054abca0bd5SToomas Soome vdev->v_psize = vtmp.v_psize; 2055*3c2db0efSToomas Soome /* 2056*3c2db0efSToomas Soome * If no other state is set, mark vdev healthy. 2057*3c2db0efSToomas Soome */ 2058*3c2db0efSToomas Soome if (vdev->v_state == VDEV_STATE_UNKNOWN) 2059*3c2db0efSToomas Soome vdev->v_state = VDEV_STATE_HEALTHY; 2060b8902de1SWarner Losh } else { 2061b8902de1SWarner Losh printf("ZFS: inconsistent nvlist contents\n"); 2062b8902de1SWarner Losh return (EIO); 2063b8902de1SWarner Losh } 2064b8902de1SWarner Losh 20650c0a882cSToomas Soome if (vdev->v_islog) 20660c0a882cSToomas Soome spa->spa_with_log = vdev->v_islog; 20670c0a882cSToomas Soome 20680c0a882cSToomas Soome /* 2069b8902de1SWarner Losh * Re-evaluate top-level vdev state. 2070b8902de1SWarner Losh */ 2071*3c2db0efSToomas Soome vdev_set_state(vdev->v_top); 2072b8902de1SWarner Losh 2073b8902de1SWarner Losh /* 2074b8902de1SWarner Losh * Ok, we are happy with the pool so far. Lets find 2075b8902de1SWarner Losh * the best uberblock and then we can actually access 2076b8902de1SWarner Losh * the contents of the pool. 2077b8902de1SWarner Losh */ 207879a4bf89SToomas Soome vdev_uberblock_load(vdev, &spa->spa_uberblock); 2079b8902de1SWarner Losh 2080b8902de1SWarner Losh if (spap != NULL) 2081b8902de1SWarner Losh *spap = spa; 2082b8902de1SWarner Losh return (0); 2083b8902de1SWarner Losh } 2084b8902de1SWarner Losh 2085b8902de1SWarner Losh static int 2086b8902de1SWarner Losh ilog2(int n) 2087b8902de1SWarner Losh { 2088b8902de1SWarner Losh int v; 2089b8902de1SWarner Losh 2090b8902de1SWarner Losh for (v = 0; v < 32; v++) 2091b8902de1SWarner Losh if (n == (1 << v)) 20922e6bb655SToomas Soome return (v); 20932e6bb655SToomas Soome return (-1); 2094b8902de1SWarner Losh } 2095b8902de1SWarner Losh 2096b8902de1SWarner Losh static int 2097b8902de1SWarner Losh zio_read_gang(const spa_t *spa, const blkptr_t *bp, void *buf) 2098b8902de1SWarner Losh { 2099b8902de1SWarner Losh blkptr_t gbh_bp; 2100b8902de1SWarner Losh zio_gbh_phys_t zio_gb; 2101b8902de1SWarner Losh char *pbuf; 2102b8902de1SWarner Losh int i; 2103b8902de1SWarner Losh 2104b8902de1SWarner Losh /* Artificial BP for gang block header. */ 2105b8902de1SWarner Losh gbh_bp = *bp; 2106b8902de1SWarner Losh BP_SET_PSIZE(&gbh_bp, SPA_GANGBLOCKSIZE); 2107b8902de1SWarner Losh BP_SET_LSIZE(&gbh_bp, SPA_GANGBLOCKSIZE); 2108b8902de1SWarner Losh BP_SET_CHECKSUM(&gbh_bp, ZIO_CHECKSUM_GANG_HEADER); 2109b8902de1SWarner Losh BP_SET_COMPRESS(&gbh_bp, ZIO_COMPRESS_OFF); 2110b8902de1SWarner Losh for (i = 0; i < SPA_DVAS_PER_BP; i++) 2111b8902de1SWarner Losh DVA_SET_GANG(&gbh_bp.blk_dva[i], 0); 2112b8902de1SWarner Losh 2113b8902de1SWarner Losh /* Read gang header block using the artificial BP. */ 2114b8902de1SWarner Losh if (zio_read(spa, &gbh_bp, &zio_gb)) 2115b8902de1SWarner Losh return (EIO); 2116b8902de1SWarner Losh 2117b8902de1SWarner Losh pbuf = buf; 2118b8902de1SWarner Losh for (i = 0; i < SPA_GBH_NBLKPTRS; i++) { 2119b8902de1SWarner Losh blkptr_t *gbp = &zio_gb.zg_blkptr[i]; 2120b8902de1SWarner Losh 2121b8902de1SWarner Losh if (BP_IS_HOLE(gbp)) 2122b8902de1SWarner Losh continue; 2123b8902de1SWarner Losh if (zio_read(spa, gbp, pbuf)) 2124b8902de1SWarner Losh return (EIO); 2125b8902de1SWarner Losh pbuf += BP_GET_PSIZE(gbp); 2126b8902de1SWarner Losh } 2127b8902de1SWarner Losh 2128b8902de1SWarner Losh if (zio_checksum_verify(spa, bp, buf)) 2129b8902de1SWarner Losh return (EIO); 2130b8902de1SWarner Losh return (0); 2131b8902de1SWarner Losh } 2132b8902de1SWarner Losh 2133b8902de1SWarner Losh static int 2134b8902de1SWarner Losh zio_read(const spa_t *spa, const blkptr_t *bp, void *buf) 2135b8902de1SWarner Losh { 2136b8902de1SWarner Losh int cpfunc = BP_GET_COMPRESS(bp); 2137b8902de1SWarner Losh uint64_t align, size; 2138b8902de1SWarner Losh void *pbuf; 2139b8902de1SWarner Losh int i, error; 2140b8902de1SWarner Losh 2141b8902de1SWarner Losh /* 2142b8902de1SWarner Losh * Process data embedded in block pointer 2143b8902de1SWarner Losh */ 2144b8902de1SWarner Losh if (BP_IS_EMBEDDED(bp)) { 2145b8902de1SWarner Losh ASSERT(BPE_GET_ETYPE(bp) == BP_EMBEDDED_TYPE_DATA); 2146b8902de1SWarner Losh 2147b8902de1SWarner Losh size = BPE_GET_PSIZE(bp); 2148b8902de1SWarner Losh ASSERT(size <= BPE_PAYLOAD_SIZE); 2149b8902de1SWarner Losh 2150b8902de1SWarner Losh if (cpfunc != ZIO_COMPRESS_OFF) 2151b8902de1SWarner Losh pbuf = zfs_alloc(size); 2152b8902de1SWarner Losh else 2153b8902de1SWarner Losh pbuf = buf; 2154b8902de1SWarner Losh 2155b8902de1SWarner Losh decode_embedded_bp_compressed(bp, pbuf); 2156b8902de1SWarner Losh error = 0; 2157b8902de1SWarner Losh 2158b8902de1SWarner Losh if (cpfunc != ZIO_COMPRESS_OFF) { 2159b8902de1SWarner Losh error = zio_decompress_data(cpfunc, pbuf, 2160b8902de1SWarner Losh size, buf, BP_GET_LSIZE(bp)); 2161b8902de1SWarner Losh zfs_free(pbuf, size); 2162b8902de1SWarner Losh } 2163b8902de1SWarner Losh if (error != 0) 21642e6bb655SToomas Soome printf("ZFS: i/o error - unable to decompress " 21652e6bb655SToomas Soome "block pointer data, error %d\n", error); 2166b8902de1SWarner Losh return (error); 2167b8902de1SWarner Losh } 2168b8902de1SWarner Losh 2169b8902de1SWarner Losh error = EIO; 2170b8902de1SWarner Losh 2171b8902de1SWarner Losh for (i = 0; i < SPA_DVAS_PER_BP; i++) { 2172b8902de1SWarner Losh const dva_t *dva = &bp->blk_dva[i]; 2173b8902de1SWarner Losh vdev_t *vdev; 2174*3c2db0efSToomas Soome vdev_list_t *vlist; 2175*3c2db0efSToomas Soome uint64_t vdevid; 2176b8902de1SWarner Losh off_t offset; 2177b8902de1SWarner Losh 2178b8902de1SWarner Losh if (!dva->dva_word[0] && !dva->dva_word[1]) 2179b8902de1SWarner Losh continue; 2180b8902de1SWarner Losh 2181b8902de1SWarner Losh vdevid = DVA_GET_VDEV(dva); 2182b8902de1SWarner Losh offset = DVA_GET_OFFSET(dva); 2183*3c2db0efSToomas Soome vlist = &spa->spa_root_vdev->v_children; 2184*3c2db0efSToomas Soome STAILQ_FOREACH(vdev, vlist, v_childlink) { 2185b8902de1SWarner Losh if (vdev->v_id == vdevid) 2186b8902de1SWarner Losh break; 2187b8902de1SWarner Losh } 2188b8902de1SWarner Losh if (!vdev || !vdev->v_read) 2189b8902de1SWarner Losh continue; 2190b8902de1SWarner Losh 2191b8902de1SWarner Losh size = BP_GET_PSIZE(bp); 2192b8902de1SWarner Losh if (vdev->v_read == vdev_raidz_read) { 2193*3c2db0efSToomas Soome align = 1ULL << vdev->v_ashift; 2194b8902de1SWarner Losh if (P2PHASE(size, align) != 0) 2195b8902de1SWarner Losh size = P2ROUNDUP(size, align); 2196b8902de1SWarner Losh } 2197b8902de1SWarner Losh if (size != BP_GET_PSIZE(bp) || cpfunc != ZIO_COMPRESS_OFF) 2198b8902de1SWarner Losh pbuf = zfs_alloc(size); 2199b8902de1SWarner Losh else 2200b8902de1SWarner Losh pbuf = buf; 2201b8902de1SWarner Losh 2202b8902de1SWarner Losh if (DVA_GET_GANG(dva)) 2203b8902de1SWarner Losh error = zio_read_gang(spa, bp, pbuf); 2204b8902de1SWarner Losh else 2205b8902de1SWarner Losh error = vdev->v_read(vdev, bp, pbuf, offset, size); 2206b8902de1SWarner Losh if (error == 0) { 2207b8902de1SWarner Losh if (cpfunc != ZIO_COMPRESS_OFF) 2208b8902de1SWarner Losh error = zio_decompress_data(cpfunc, pbuf, 2209b8902de1SWarner Losh BP_GET_PSIZE(bp), buf, BP_GET_LSIZE(bp)); 2210b8902de1SWarner Losh else if (size != BP_GET_PSIZE(bp)) 2211b8902de1SWarner Losh bcopy(pbuf, buf, BP_GET_PSIZE(bp)); 2212b8902de1SWarner Losh } 2213b8902de1SWarner Losh if (buf != pbuf) 2214b8902de1SWarner Losh zfs_free(pbuf, size); 2215b8902de1SWarner Losh if (error == 0) 2216b8902de1SWarner Losh break; 2217b8902de1SWarner Losh } 2218b8902de1SWarner Losh if (error != 0) 2219b8902de1SWarner Losh printf("ZFS: i/o error - all block copies unavailable\n"); 2220b8902de1SWarner Losh return (error); 2221b8902de1SWarner Losh } 2222b8902de1SWarner Losh 2223b8902de1SWarner Losh static int 22242e6bb655SToomas Soome dnode_read(const spa_t *spa, const dnode_phys_t *dnode, off_t offset, 22252e6bb655SToomas Soome void *buf, size_t buflen) 2226b8902de1SWarner Losh { 2227b8902de1SWarner Losh int ibshift = dnode->dn_indblkshift - SPA_BLKPTRSHIFT; 2228b8902de1SWarner Losh int bsize = dnode->dn_datablkszsec << SPA_MINBLOCKSHIFT; 2229b8902de1SWarner Losh int nlevels = dnode->dn_nlevels; 2230b8902de1SWarner Losh int i, rc; 2231b8902de1SWarner Losh 2232b8902de1SWarner Losh if (bsize > SPA_MAXBLOCKSIZE) { 2233b8902de1SWarner Losh printf("ZFS: I/O error - blocks larger than %llu are not " 2234b8902de1SWarner Losh "supported\n", SPA_MAXBLOCKSIZE); 2235b8902de1SWarner Losh return (EIO); 2236b8902de1SWarner Losh } 2237b8902de1SWarner Losh 2238b8902de1SWarner Losh /* 2239b8902de1SWarner Losh * Note: bsize may not be a power of two here so we need to do an 2240b8902de1SWarner Losh * actual divide rather than a bitshift. 2241b8902de1SWarner Losh */ 2242b8902de1SWarner Losh while (buflen > 0) { 2243b8902de1SWarner Losh uint64_t bn = offset / bsize; 2244b8902de1SWarner Losh int boff = offset % bsize; 2245b8902de1SWarner Losh int ibn; 2246b8902de1SWarner Losh const blkptr_t *indbp; 2247b8902de1SWarner Losh blkptr_t bp; 2248b8902de1SWarner Losh 2249b8902de1SWarner Losh if (bn > dnode->dn_maxblkid) 2250b8902de1SWarner Losh return (EIO); 2251b8902de1SWarner Losh 2252b8902de1SWarner Losh if (dnode == dnode_cache_obj && bn == dnode_cache_bn) 2253b8902de1SWarner Losh goto cached; 2254b8902de1SWarner Losh 2255b8902de1SWarner Losh indbp = dnode->dn_blkptr; 2256b8902de1SWarner Losh for (i = 0; i < nlevels; i++) { 2257b8902de1SWarner Losh /* 2258b8902de1SWarner Losh * Copy the bp from the indirect array so that 2259b8902de1SWarner Losh * we can re-use the scratch buffer for multi-level 2260b8902de1SWarner Losh * objects. 2261b8902de1SWarner Losh */ 2262b8902de1SWarner Losh ibn = bn >> ((nlevels - i - 1) * ibshift); 2263b8902de1SWarner Losh ibn &= ((1 << ibshift) - 1); 2264b8902de1SWarner Losh bp = indbp[ibn]; 2265b8902de1SWarner Losh if (BP_IS_HOLE(&bp)) { 2266b8902de1SWarner Losh memset(dnode_cache_buf, 0, bsize); 2267b8902de1SWarner Losh break; 2268b8902de1SWarner Losh } 2269b8902de1SWarner Losh rc = zio_read(spa, &bp, dnode_cache_buf); 2270b8902de1SWarner Losh if (rc) 2271b8902de1SWarner Losh return (rc); 2272b8902de1SWarner Losh indbp = (const blkptr_t *) dnode_cache_buf; 2273b8902de1SWarner Losh } 2274b8902de1SWarner Losh dnode_cache_obj = dnode; 2275b8902de1SWarner Losh dnode_cache_bn = bn; 2276b8902de1SWarner Losh cached: 2277b8902de1SWarner Losh 2278b8902de1SWarner Losh /* 2279b8902de1SWarner Losh * The buffer contains our data block. Copy what we 2280b8902de1SWarner Losh * need from it and loop. 2281b8902de1SWarner Losh */ 2282b8902de1SWarner Losh i = bsize - boff; 2283b8902de1SWarner Losh if (i > buflen) i = buflen; 2284b8902de1SWarner Losh memcpy(buf, &dnode_cache_buf[boff], i); 2285b8902de1SWarner Losh buf = ((char *)buf) + i; 2286b8902de1SWarner Losh offset += i; 2287b8902de1SWarner Losh buflen -= i; 2288b8902de1SWarner Losh } 2289b8902de1SWarner Losh 2290b8902de1SWarner Losh return (0); 2291b8902de1SWarner Losh } 2292b8902de1SWarner Losh 2293b8902de1SWarner Losh /* 2294b8902de1SWarner Losh * Lookup a value in a microzap directory. Assumes that the zap 2295b8902de1SWarner Losh * scratch buffer contains the directory contents. 2296b8902de1SWarner Losh */ 2297b8902de1SWarner Losh static int 2298b8902de1SWarner Losh mzap_lookup(const dnode_phys_t *dnode, const char *name, uint64_t *value) 2299b8902de1SWarner Losh { 2300b8902de1SWarner Losh const mzap_phys_t *mz; 2301b8902de1SWarner Losh const mzap_ent_phys_t *mze; 2302b8902de1SWarner Losh size_t size; 2303b8902de1SWarner Losh int chunks, i; 2304b8902de1SWarner Losh 2305b8902de1SWarner Losh /* 2306b8902de1SWarner Losh * Microzap objects use exactly one block. Read the whole 2307b8902de1SWarner Losh * thing. 2308b8902de1SWarner Losh */ 2309b8902de1SWarner Losh size = dnode->dn_datablkszsec * 512; 2310b8902de1SWarner Losh 2311b8902de1SWarner Losh mz = (const mzap_phys_t *) zap_scratch; 2312b8902de1SWarner Losh chunks = size / MZAP_ENT_LEN - 1; 2313b8902de1SWarner Losh 2314b8902de1SWarner Losh for (i = 0; i < chunks; i++) { 2315b8902de1SWarner Losh mze = &mz->mz_chunk[i]; 23162e6bb655SToomas Soome if (strcmp(mze->mze_name, name) == 0) { 2317b8902de1SWarner Losh *value = mze->mze_value; 2318b8902de1SWarner Losh return (0); 2319b8902de1SWarner Losh } 2320b8902de1SWarner Losh } 2321b8902de1SWarner Losh 2322b8902de1SWarner Losh return (ENOENT); 2323b8902de1SWarner Losh } 2324b8902de1SWarner Losh 2325b8902de1SWarner Losh /* 2326b8902de1SWarner Losh * Compare a name with a zap leaf entry. Return non-zero if the name 2327b8902de1SWarner Losh * matches. 2328b8902de1SWarner Losh */ 2329b8902de1SWarner Losh static int 23302e6bb655SToomas Soome fzap_name_equal(const zap_leaf_t *zl, const zap_leaf_chunk_t *zc, 23312e6bb655SToomas Soome const char *name) 2332b8902de1SWarner Losh { 2333b8902de1SWarner Losh size_t namelen; 2334b8902de1SWarner Losh const zap_leaf_chunk_t *nc; 2335b8902de1SWarner Losh const char *p; 2336b8902de1SWarner Losh 2337b8902de1SWarner Losh namelen = zc->l_entry.le_name_numints; 2338b8902de1SWarner Losh 2339b8902de1SWarner Losh nc = &ZAP_LEAF_CHUNK(zl, zc->l_entry.le_name_chunk); 2340b8902de1SWarner Losh p = name; 2341b8902de1SWarner Losh while (namelen > 0) { 2342b8902de1SWarner Losh size_t len; 23432e6bb655SToomas Soome 2344b8902de1SWarner Losh len = namelen; 2345b8902de1SWarner Losh if (len > ZAP_LEAF_ARRAY_BYTES) 2346b8902de1SWarner Losh len = ZAP_LEAF_ARRAY_BYTES; 2347b8902de1SWarner Losh if (memcmp(p, nc->l_array.la_array, len)) 2348b8902de1SWarner Losh return (0); 2349b8902de1SWarner Losh p += len; 2350b8902de1SWarner Losh namelen -= len; 2351b8902de1SWarner Losh nc = &ZAP_LEAF_CHUNK(zl, nc->l_array.la_next); 2352b8902de1SWarner Losh } 2353b8902de1SWarner Losh 23542e6bb655SToomas Soome return (1); 2355b8902de1SWarner Losh } 2356b8902de1SWarner Losh 2357b8902de1SWarner Losh /* 2358b8902de1SWarner Losh * Extract a uint64_t value from a zap leaf entry. 2359b8902de1SWarner Losh */ 2360b8902de1SWarner Losh static uint64_t 2361b8902de1SWarner Losh fzap_leaf_value(const zap_leaf_t *zl, const zap_leaf_chunk_t *zc) 2362b8902de1SWarner Losh { 2363b8902de1SWarner Losh const zap_leaf_chunk_t *vc; 2364b8902de1SWarner Losh int i; 2365b8902de1SWarner Losh uint64_t value; 2366b8902de1SWarner Losh const uint8_t *p; 2367b8902de1SWarner Losh 2368b8902de1SWarner Losh vc = &ZAP_LEAF_CHUNK(zl, zc->l_entry.le_value_chunk); 2369b8902de1SWarner Losh for (i = 0, value = 0, p = vc->l_array.la_array; i < 8; i++) { 2370b8902de1SWarner Losh value = (value << 8) | p[i]; 2371b8902de1SWarner Losh } 2372b8902de1SWarner Losh 23732e6bb655SToomas Soome return (value); 2374b8902de1SWarner Losh } 2375b8902de1SWarner Losh 2376b8902de1SWarner Losh static void 2377b8902de1SWarner Losh stv(int len, void *addr, uint64_t value) 2378b8902de1SWarner Losh { 2379b8902de1SWarner Losh switch (len) { 2380b8902de1SWarner Losh case 1: 2381b8902de1SWarner Losh *(uint8_t *)addr = value; 2382b8902de1SWarner Losh return; 2383b8902de1SWarner Losh case 2: 2384b8902de1SWarner Losh *(uint16_t *)addr = value; 2385b8902de1SWarner Losh return; 2386b8902de1SWarner Losh case 4: 2387b8902de1SWarner Losh *(uint32_t *)addr = value; 2388b8902de1SWarner Losh return; 2389b8902de1SWarner Losh case 8: 2390b8902de1SWarner Losh *(uint64_t *)addr = value; 2391b8902de1SWarner Losh return; 2392b8902de1SWarner Losh } 2393b8902de1SWarner Losh } 2394b8902de1SWarner Losh 2395b8902de1SWarner Losh /* 2396b8902de1SWarner Losh * Extract a array from a zap leaf entry. 2397b8902de1SWarner Losh */ 2398b8902de1SWarner Losh static void 2399b8902de1SWarner Losh fzap_leaf_array(const zap_leaf_t *zl, const zap_leaf_chunk_t *zc, 2400b8902de1SWarner Losh uint64_t integer_size, uint64_t num_integers, void *buf) 2401b8902de1SWarner Losh { 2402b8902de1SWarner Losh uint64_t array_int_len = zc->l_entry.le_value_intlen; 2403b8902de1SWarner Losh uint64_t value = 0; 2404b8902de1SWarner Losh uint64_t *u64 = buf; 2405b8902de1SWarner Losh char *p = buf; 2406b8902de1SWarner Losh int len = MIN(zc->l_entry.le_value_numints, num_integers); 2407b8902de1SWarner Losh int chunk = zc->l_entry.le_value_chunk; 2408b8902de1SWarner Losh int byten = 0; 2409b8902de1SWarner Losh 2410b8902de1SWarner Losh if (integer_size == 8 && len == 1) { 2411b8902de1SWarner Losh *u64 = fzap_leaf_value(zl, zc); 2412b8902de1SWarner Losh return; 2413b8902de1SWarner Losh } 2414b8902de1SWarner Losh 2415b8902de1SWarner Losh while (len > 0) { 2416b8902de1SWarner Losh struct zap_leaf_array *la = &ZAP_LEAF_CHUNK(zl, chunk).l_array; 2417b8902de1SWarner Losh int i; 2418b8902de1SWarner Losh 2419b8902de1SWarner Losh ASSERT3U(chunk, <, ZAP_LEAF_NUMCHUNKS(zl)); 2420b8902de1SWarner Losh for (i = 0; i < ZAP_LEAF_ARRAY_BYTES && len > 0; i++) { 2421b8902de1SWarner Losh value = (value << 8) | la->la_array[i]; 2422b8902de1SWarner Losh byten++; 2423b8902de1SWarner Losh if (byten == array_int_len) { 2424b8902de1SWarner Losh stv(integer_size, p, value); 2425b8902de1SWarner Losh byten = 0; 2426b8902de1SWarner Losh len--; 2427b8902de1SWarner Losh if (len == 0) 2428b8902de1SWarner Losh return; 2429b8902de1SWarner Losh p += integer_size; 2430b8902de1SWarner Losh } 2431b8902de1SWarner Losh } 2432b8902de1SWarner Losh chunk = la->la_next; 2433b8902de1SWarner Losh } 2434b8902de1SWarner Losh } 2435b8902de1SWarner Losh 2436*3c2db0efSToomas Soome static int 2437*3c2db0efSToomas Soome fzap_check_size(uint64_t integer_size, uint64_t num_integers) 2438*3c2db0efSToomas Soome { 2439*3c2db0efSToomas Soome 2440*3c2db0efSToomas Soome switch (integer_size) { 2441*3c2db0efSToomas Soome case 1: 2442*3c2db0efSToomas Soome case 2: 2443*3c2db0efSToomas Soome case 4: 2444*3c2db0efSToomas Soome case 8: 2445*3c2db0efSToomas Soome break; 2446*3c2db0efSToomas Soome default: 2447*3c2db0efSToomas Soome return (EINVAL); 2448*3c2db0efSToomas Soome } 2449*3c2db0efSToomas Soome 2450*3c2db0efSToomas Soome if (integer_size * num_integers > ZAP_MAXVALUELEN) 2451*3c2db0efSToomas Soome return (E2BIG); 2452*3c2db0efSToomas Soome 2453*3c2db0efSToomas Soome return (0); 2454*3c2db0efSToomas Soome } 2455*3c2db0efSToomas Soome 2456b8902de1SWarner Losh /* 2457b8902de1SWarner Losh * Lookup a value in a fatzap directory. Assumes that the zap scratch 2458b8902de1SWarner Losh * buffer contains the directory header. 2459b8902de1SWarner Losh */ 2460b8902de1SWarner Losh static int 2461b8902de1SWarner Losh fzap_lookup(const spa_t *spa, const dnode_phys_t *dnode, const char *name, 2462b8902de1SWarner Losh uint64_t integer_size, uint64_t num_integers, void *value) 2463b8902de1SWarner Losh { 2464b8902de1SWarner Losh int bsize = dnode->dn_datablkszsec << SPA_MINBLOCKSHIFT; 2465b8902de1SWarner Losh zap_phys_t zh = *(zap_phys_t *)zap_scratch; 2466b8902de1SWarner Losh fat_zap_t z; 2467b8902de1SWarner Losh uint64_t *ptrtbl; 2468b8902de1SWarner Losh uint64_t hash; 2469b8902de1SWarner Losh int rc; 2470b8902de1SWarner Losh 2471b8902de1SWarner Losh if (zh.zap_magic != ZAP_MAGIC) 2472b8902de1SWarner Losh return (EIO); 2473b8902de1SWarner Losh 2474*3c2db0efSToomas Soome if ((rc = fzap_check_size(integer_size, num_integers)) != 0) 2475*3c2db0efSToomas Soome return (rc); 2476*3c2db0efSToomas Soome 2477b8902de1SWarner Losh z.zap_block_shift = ilog2(bsize); 2478b8902de1SWarner Losh z.zap_phys = (zap_phys_t *)zap_scratch; 2479b8902de1SWarner Losh 2480b8902de1SWarner Losh /* 2481b8902de1SWarner Losh * Figure out where the pointer table is and read it in if necessary. 2482b8902de1SWarner Losh */ 2483b8902de1SWarner Losh if (zh.zap_ptrtbl.zt_blk) { 2484b8902de1SWarner Losh rc = dnode_read(spa, dnode, zh.zap_ptrtbl.zt_blk * bsize, 2485b8902de1SWarner Losh zap_scratch, bsize); 2486b8902de1SWarner Losh if (rc) 2487b8902de1SWarner Losh return (rc); 2488b8902de1SWarner Losh ptrtbl = (uint64_t *)zap_scratch; 2489b8902de1SWarner Losh } else { 2490b8902de1SWarner Losh ptrtbl = &ZAP_EMBEDDED_PTRTBL_ENT(&z, 0); 2491b8902de1SWarner Losh } 2492b8902de1SWarner Losh 2493b8902de1SWarner Losh hash = zap_hash(zh.zap_salt, name); 2494b8902de1SWarner Losh 2495b8902de1SWarner Losh zap_leaf_t zl; 2496b8902de1SWarner Losh zl.l_bs = z.zap_block_shift; 2497b8902de1SWarner Losh 2498b8902de1SWarner Losh off_t off = ptrtbl[hash >> (64 - zh.zap_ptrtbl.zt_shift)] << zl.l_bs; 2499b8902de1SWarner Losh zap_leaf_chunk_t *zc; 2500b8902de1SWarner Losh 2501b8902de1SWarner Losh rc = dnode_read(spa, dnode, off, zap_scratch, bsize); 2502b8902de1SWarner Losh if (rc) 2503b8902de1SWarner Losh return (rc); 2504b8902de1SWarner Losh 2505b8902de1SWarner Losh zl.l_phys = (zap_leaf_phys_t *)zap_scratch; 2506b8902de1SWarner Losh 2507b8902de1SWarner Losh /* 2508b8902de1SWarner Losh * Make sure this chunk matches our hash. 2509b8902de1SWarner Losh */ 25102e6bb655SToomas Soome if (zl.l_phys->l_hdr.lh_prefix_len > 0 && 25112e6bb655SToomas Soome zl.l_phys->l_hdr.lh_prefix != 25122e6bb655SToomas Soome hash >> (64 - zl.l_phys->l_hdr.lh_prefix_len)) 2513b8902de1SWarner Losh return (ENOENT); 2514b8902de1SWarner Losh 2515b8902de1SWarner Losh /* 2516b8902de1SWarner Losh * Hash within the chunk to find our entry. 2517b8902de1SWarner Losh */ 25182e6bb655SToomas Soome int shift = (64 - ZAP_LEAF_HASH_SHIFT(&zl) - 25192e6bb655SToomas Soome zl.l_phys->l_hdr.lh_prefix_len); 2520b8902de1SWarner Losh int h = (hash >> shift) & ((1 << ZAP_LEAF_HASH_SHIFT(&zl)) - 1); 2521b8902de1SWarner Losh h = zl.l_phys->l_hash[h]; 2522b8902de1SWarner Losh if (h == 0xffff) 2523b8902de1SWarner Losh return (ENOENT); 2524b8902de1SWarner Losh zc = &ZAP_LEAF_CHUNK(&zl, h); 2525b8902de1SWarner Losh while (zc->l_entry.le_hash != hash) { 2526c527e920SAndriy Gapon if (zc->l_entry.le_next == 0xffff) 2527c527e920SAndriy Gapon return (ENOENT); 2528b8902de1SWarner Losh zc = &ZAP_LEAF_CHUNK(&zl, zc->l_entry.le_next); 2529b8902de1SWarner Losh } 2530b8902de1SWarner Losh if (fzap_name_equal(&zl, zc, name)) { 2531b8902de1SWarner Losh if (zc->l_entry.le_value_intlen * zc->l_entry.le_value_numints > 2532b8902de1SWarner Losh integer_size * num_integers) 2533b8902de1SWarner Losh return (E2BIG); 2534b8902de1SWarner Losh fzap_leaf_array(&zl, zc, integer_size, num_integers, value); 2535b8902de1SWarner Losh return (0); 2536b8902de1SWarner Losh } 2537b8902de1SWarner Losh 2538b8902de1SWarner Losh return (ENOENT); 2539b8902de1SWarner Losh } 2540b8902de1SWarner Losh 2541b8902de1SWarner Losh /* 2542b8902de1SWarner Losh * Lookup a name in a zap object and return its value as a uint64_t. 2543b8902de1SWarner Losh */ 2544b8902de1SWarner Losh static int 2545b8902de1SWarner Losh zap_lookup(const spa_t *spa, const dnode_phys_t *dnode, const char *name, 2546b8902de1SWarner Losh uint64_t integer_size, uint64_t num_integers, void *value) 2547b8902de1SWarner Losh { 2548b8902de1SWarner Losh int rc; 2549b8902de1SWarner Losh uint64_t zap_type; 2550b8902de1SWarner Losh size_t size = dnode->dn_datablkszsec << SPA_MINBLOCKSHIFT; 2551b8902de1SWarner Losh 2552b8902de1SWarner Losh rc = dnode_read(spa, dnode, 0, zap_scratch, size); 2553b8902de1SWarner Losh if (rc) 2554b8902de1SWarner Losh return (rc); 2555b8902de1SWarner Losh 2556b8902de1SWarner Losh zap_type = *(uint64_t *)zap_scratch; 2557b8902de1SWarner Losh if (zap_type == ZBT_MICRO) 25582e6bb655SToomas Soome return (mzap_lookup(dnode, name, value)); 2559b8902de1SWarner Losh else if (zap_type == ZBT_HEADER) { 25602e6bb655SToomas Soome return (fzap_lookup(spa, dnode, name, integer_size, 25612e6bb655SToomas Soome num_integers, value)); 2562b8902de1SWarner Losh } 2563b8902de1SWarner Losh printf("ZFS: invalid zap_type=%d\n", (int)zap_type); 2564b8902de1SWarner Losh return (EIO); 2565b8902de1SWarner Losh } 2566b8902de1SWarner Losh 2567b8902de1SWarner Losh /* 2568b8902de1SWarner Losh * List a microzap directory. Assumes that the zap scratch buffer contains 2569b8902de1SWarner Losh * the directory contents. 2570b8902de1SWarner Losh */ 2571b8902de1SWarner Losh static int 2572b8902de1SWarner Losh mzap_list(const dnode_phys_t *dnode, int (*callback)(const char *, uint64_t)) 2573b8902de1SWarner Losh { 2574b8902de1SWarner Losh const mzap_phys_t *mz; 2575b8902de1SWarner Losh const mzap_ent_phys_t *mze; 2576b8902de1SWarner Losh size_t size; 2577b8902de1SWarner Losh int chunks, i, rc; 2578b8902de1SWarner Losh 2579b8902de1SWarner Losh /* 2580b8902de1SWarner Losh * Microzap objects use exactly one block. Read the whole 2581b8902de1SWarner Losh * thing. 2582b8902de1SWarner Losh */ 2583b8902de1SWarner Losh size = dnode->dn_datablkszsec * 512; 2584b8902de1SWarner Losh mz = (const mzap_phys_t *) zap_scratch; 2585b8902de1SWarner Losh chunks = size / MZAP_ENT_LEN - 1; 2586b8902de1SWarner Losh 2587b8902de1SWarner Losh for (i = 0; i < chunks; i++) { 2588b8902de1SWarner Losh mze = &mz->mz_chunk[i]; 2589b8902de1SWarner Losh if (mze->mze_name[0]) { 2590b8902de1SWarner Losh rc = callback(mze->mze_name, mze->mze_value); 2591b8902de1SWarner Losh if (rc != 0) 2592b8902de1SWarner Losh return (rc); 2593b8902de1SWarner Losh } 2594b8902de1SWarner Losh } 2595b8902de1SWarner Losh 2596b8902de1SWarner Losh return (0); 2597b8902de1SWarner Losh } 2598b8902de1SWarner Losh 2599b8902de1SWarner Losh /* 2600b8902de1SWarner Losh * List a fatzap directory. Assumes that the zap scratch buffer contains 2601b8902de1SWarner Losh * the directory header. 2602b8902de1SWarner Losh */ 2603b8902de1SWarner Losh static int 26042e6bb655SToomas Soome fzap_list(const spa_t *spa, const dnode_phys_t *dnode, 26052e6bb655SToomas Soome int (*callback)(const char *, uint64_t)) 2606b8902de1SWarner Losh { 2607b8902de1SWarner Losh int bsize = dnode->dn_datablkszsec << SPA_MINBLOCKSHIFT; 2608b8902de1SWarner Losh zap_phys_t zh = *(zap_phys_t *)zap_scratch; 2609b8902de1SWarner Losh fat_zap_t z; 2610b8902de1SWarner Losh int i, j, rc; 2611b8902de1SWarner Losh 2612b8902de1SWarner Losh if (zh.zap_magic != ZAP_MAGIC) 2613b8902de1SWarner Losh return (EIO); 2614b8902de1SWarner Losh 2615b8902de1SWarner Losh z.zap_block_shift = ilog2(bsize); 2616b8902de1SWarner Losh z.zap_phys = (zap_phys_t *)zap_scratch; 2617b8902de1SWarner Losh 2618b8902de1SWarner Losh /* 2619b8902de1SWarner Losh * This assumes that the leaf blocks start at block 1. The 2620b8902de1SWarner Losh * documentation isn't exactly clear on this. 2621b8902de1SWarner Losh */ 2622b8902de1SWarner Losh zap_leaf_t zl; 2623b8902de1SWarner Losh zl.l_bs = z.zap_block_shift; 2624b8902de1SWarner Losh for (i = 0; i < zh.zap_num_leafs; i++) { 2625*3c2db0efSToomas Soome off_t off = ((off_t)(i + 1)) << zl.l_bs; 2626b8902de1SWarner Losh char name[256], *p; 2627b8902de1SWarner Losh uint64_t value; 2628b8902de1SWarner Losh 2629b8902de1SWarner Losh if (dnode_read(spa, dnode, off, zap_scratch, bsize)) 2630b8902de1SWarner Losh return (EIO); 2631b8902de1SWarner Losh 2632b8902de1SWarner Losh zl.l_phys = (zap_leaf_phys_t *)zap_scratch; 2633b8902de1SWarner Losh 2634b8902de1SWarner Losh for (j = 0; j < ZAP_LEAF_NUMCHUNKS(&zl); j++) { 2635b8902de1SWarner Losh zap_leaf_chunk_t *zc, *nc; 2636b8902de1SWarner Losh int namelen; 2637b8902de1SWarner Losh 2638b8902de1SWarner Losh zc = &ZAP_LEAF_CHUNK(&zl, j); 2639b8902de1SWarner Losh if (zc->l_entry.le_type != ZAP_CHUNK_ENTRY) 2640b8902de1SWarner Losh continue; 2641b8902de1SWarner Losh namelen = zc->l_entry.le_name_numints; 2642b8902de1SWarner Losh if (namelen > sizeof(name)) 2643b8902de1SWarner Losh namelen = sizeof(name); 2644b8902de1SWarner Losh 2645b8902de1SWarner Losh /* 2646b8902de1SWarner Losh * Paste the name back together. 2647b8902de1SWarner Losh */ 2648b8902de1SWarner Losh nc = &ZAP_LEAF_CHUNK(&zl, zc->l_entry.le_name_chunk); 2649b8902de1SWarner Losh p = name; 2650b8902de1SWarner Losh while (namelen > 0) { 2651b8902de1SWarner Losh int len; 2652b8902de1SWarner Losh len = namelen; 2653b8902de1SWarner Losh if (len > ZAP_LEAF_ARRAY_BYTES) 2654b8902de1SWarner Losh len = ZAP_LEAF_ARRAY_BYTES; 2655b8902de1SWarner Losh memcpy(p, nc->l_array.la_array, len); 2656b8902de1SWarner Losh p += len; 2657b8902de1SWarner Losh namelen -= len; 2658b8902de1SWarner Losh nc = &ZAP_LEAF_CHUNK(&zl, nc->l_array.la_next); 2659b8902de1SWarner Losh } 2660b8902de1SWarner Losh 2661b8902de1SWarner Losh /* 2662b8902de1SWarner Losh * Assume the first eight bytes of the value are 2663b8902de1SWarner Losh * a uint64_t. 2664b8902de1SWarner Losh */ 2665b8902de1SWarner Losh value = fzap_leaf_value(&zl, zc); 2666b8902de1SWarner Losh 26672e6bb655SToomas Soome /* printf("%s 0x%jx\n", name, (uintmax_t)value); */ 2668b8902de1SWarner Losh rc = callback((const char *)name, value); 2669b8902de1SWarner Losh if (rc != 0) 2670b8902de1SWarner Losh return (rc); 2671b8902de1SWarner Losh } 2672b8902de1SWarner Losh } 2673b8902de1SWarner Losh 2674b8902de1SWarner Losh return (0); 2675b8902de1SWarner Losh } 2676b8902de1SWarner Losh 2677b8902de1SWarner Losh static int zfs_printf(const char *name, uint64_t value __unused) 2678b8902de1SWarner Losh { 2679b8902de1SWarner Losh 2680b8902de1SWarner Losh printf("%s\n", name); 2681b8902de1SWarner Losh 2682b8902de1SWarner Losh return (0); 2683b8902de1SWarner Losh } 2684b8902de1SWarner Losh 2685b8902de1SWarner Losh /* 2686b8902de1SWarner Losh * List a zap directory. 2687b8902de1SWarner Losh */ 2688b8902de1SWarner Losh static int 2689b8902de1SWarner Losh zap_list(const spa_t *spa, const dnode_phys_t *dnode) 2690b8902de1SWarner Losh { 2691b8902de1SWarner Losh uint64_t zap_type; 2692b8902de1SWarner Losh size_t size = dnode->dn_datablkszsec * 512; 2693b8902de1SWarner Losh 2694b8902de1SWarner Losh if (dnode_read(spa, dnode, 0, zap_scratch, size)) 2695b8902de1SWarner Losh return (EIO); 2696b8902de1SWarner Losh 2697b8902de1SWarner Losh zap_type = *(uint64_t *)zap_scratch; 2698b8902de1SWarner Losh if (zap_type == ZBT_MICRO) 26992e6bb655SToomas Soome return (mzap_list(dnode, zfs_printf)); 2700b8902de1SWarner Losh else 27012e6bb655SToomas Soome return (fzap_list(spa, dnode, zfs_printf)); 2702b8902de1SWarner Losh } 2703b8902de1SWarner Losh 2704b8902de1SWarner Losh static int 27052e6bb655SToomas Soome objset_get_dnode(const spa_t *spa, const objset_phys_t *os, uint64_t objnum, 27062e6bb655SToomas Soome dnode_phys_t *dnode) 2707b8902de1SWarner Losh { 2708b8902de1SWarner Losh off_t offset; 2709b8902de1SWarner Losh 2710b8902de1SWarner Losh offset = objnum * sizeof(dnode_phys_t); 2711b8902de1SWarner Losh return dnode_read(spa, &os->os_meta_dnode, offset, 2712b8902de1SWarner Losh dnode, sizeof(dnode_phys_t)); 2713b8902de1SWarner Losh } 2714b8902de1SWarner Losh 2715b8902de1SWarner Losh static int 27162e6bb655SToomas Soome mzap_rlookup(const spa_t *spa, const dnode_phys_t *dnode, char *name, 27172e6bb655SToomas Soome uint64_t value) 2718b8902de1SWarner Losh { 2719b8902de1SWarner Losh const mzap_phys_t *mz; 2720b8902de1SWarner Losh const mzap_ent_phys_t *mze; 2721b8902de1SWarner Losh size_t size; 2722b8902de1SWarner Losh int chunks, i; 2723b8902de1SWarner Losh 2724b8902de1SWarner Losh /* 2725b8902de1SWarner Losh * Microzap objects use exactly one block. Read the whole 2726b8902de1SWarner Losh * thing. 2727b8902de1SWarner Losh */ 2728b8902de1SWarner Losh size = dnode->dn_datablkszsec * 512; 2729b8902de1SWarner Losh 2730b8902de1SWarner Losh mz = (const mzap_phys_t *)zap_scratch; 2731b8902de1SWarner Losh chunks = size / MZAP_ENT_LEN - 1; 2732b8902de1SWarner Losh 2733b8902de1SWarner Losh for (i = 0; i < chunks; i++) { 2734b8902de1SWarner Losh mze = &mz->mz_chunk[i]; 2735b8902de1SWarner Losh if (value == mze->mze_value) { 2736b8902de1SWarner Losh strcpy(name, mze->mze_name); 2737b8902de1SWarner Losh return (0); 2738b8902de1SWarner Losh } 2739b8902de1SWarner Losh } 2740b8902de1SWarner Losh 2741b8902de1SWarner Losh return (ENOENT); 2742b8902de1SWarner Losh } 2743b8902de1SWarner Losh 2744b8902de1SWarner Losh static void 2745b8902de1SWarner Losh fzap_name_copy(const zap_leaf_t *zl, const zap_leaf_chunk_t *zc, char *name) 2746b8902de1SWarner Losh { 2747b8902de1SWarner Losh size_t namelen; 2748b8902de1SWarner Losh const zap_leaf_chunk_t *nc; 2749b8902de1SWarner Losh char *p; 2750b8902de1SWarner Losh 2751b8902de1SWarner Losh namelen = zc->l_entry.le_name_numints; 2752b8902de1SWarner Losh 2753b8902de1SWarner Losh nc = &ZAP_LEAF_CHUNK(zl, zc->l_entry.le_name_chunk); 2754b8902de1SWarner Losh p = name; 2755b8902de1SWarner Losh while (namelen > 0) { 2756b8902de1SWarner Losh size_t len; 2757b8902de1SWarner Losh len = namelen; 2758b8902de1SWarner Losh if (len > ZAP_LEAF_ARRAY_BYTES) 2759b8902de1SWarner Losh len = ZAP_LEAF_ARRAY_BYTES; 2760b8902de1SWarner Losh memcpy(p, nc->l_array.la_array, len); 2761b8902de1SWarner Losh p += len; 2762b8902de1SWarner Losh namelen -= len; 2763b8902de1SWarner Losh nc = &ZAP_LEAF_CHUNK(zl, nc->l_array.la_next); 2764b8902de1SWarner Losh } 2765b8902de1SWarner Losh 2766b8902de1SWarner Losh *p = '\0'; 2767b8902de1SWarner Losh } 2768b8902de1SWarner Losh 2769b8902de1SWarner Losh static int 27702e6bb655SToomas Soome fzap_rlookup(const spa_t *spa, const dnode_phys_t *dnode, char *name, 27712e6bb655SToomas Soome uint64_t value) 2772b8902de1SWarner Losh { 2773b8902de1SWarner Losh int bsize = dnode->dn_datablkszsec << SPA_MINBLOCKSHIFT; 2774b8902de1SWarner Losh zap_phys_t zh = *(zap_phys_t *)zap_scratch; 2775b8902de1SWarner Losh fat_zap_t z; 2776b8902de1SWarner Losh int i, j; 2777b8902de1SWarner Losh 2778b8902de1SWarner Losh if (zh.zap_magic != ZAP_MAGIC) 2779b8902de1SWarner Losh return (EIO); 2780b8902de1SWarner Losh 2781b8902de1SWarner Losh z.zap_block_shift = ilog2(bsize); 2782b8902de1SWarner Losh z.zap_phys = (zap_phys_t *)zap_scratch; 2783b8902de1SWarner Losh 2784b8902de1SWarner Losh /* 2785b8902de1SWarner Losh * This assumes that the leaf blocks start at block 1. The 2786b8902de1SWarner Losh * documentation isn't exactly clear on this. 2787b8902de1SWarner Losh */ 2788b8902de1SWarner Losh zap_leaf_t zl; 2789b8902de1SWarner Losh zl.l_bs = z.zap_block_shift; 2790b8902de1SWarner Losh for (i = 0; i < zh.zap_num_leafs; i++) { 2791*3c2db0efSToomas Soome off_t off = ((off_t)(i + 1)) << zl.l_bs; 2792b8902de1SWarner Losh 2793b8902de1SWarner Losh if (dnode_read(spa, dnode, off, zap_scratch, bsize)) 2794b8902de1SWarner Losh return (EIO); 2795b8902de1SWarner Losh 2796b8902de1SWarner Losh zl.l_phys = (zap_leaf_phys_t *)zap_scratch; 2797b8902de1SWarner Losh 2798b8902de1SWarner Losh for (j = 0; j < ZAP_LEAF_NUMCHUNKS(&zl); j++) { 2799b8902de1SWarner Losh zap_leaf_chunk_t *zc; 2800b8902de1SWarner Losh 2801b8902de1SWarner Losh zc = &ZAP_LEAF_CHUNK(&zl, j); 2802b8902de1SWarner Losh if (zc->l_entry.le_type != ZAP_CHUNK_ENTRY) 2803b8902de1SWarner Losh continue; 2804b8902de1SWarner Losh if (zc->l_entry.le_value_intlen != 8 || 2805b8902de1SWarner Losh zc->l_entry.le_value_numints != 1) 2806b8902de1SWarner Losh continue; 2807b8902de1SWarner Losh 2808b8902de1SWarner Losh if (fzap_leaf_value(&zl, zc) == value) { 2809b8902de1SWarner Losh fzap_name_copy(&zl, zc, name); 2810b8902de1SWarner Losh return (0); 2811b8902de1SWarner Losh } 2812b8902de1SWarner Losh } 2813b8902de1SWarner Losh } 2814b8902de1SWarner Losh 2815b8902de1SWarner Losh return (ENOENT); 2816b8902de1SWarner Losh } 2817b8902de1SWarner Losh 2818b8902de1SWarner Losh static int 28192e6bb655SToomas Soome zap_rlookup(const spa_t *spa, const dnode_phys_t *dnode, char *name, 28202e6bb655SToomas Soome uint64_t value) 2821b8902de1SWarner Losh { 2822b8902de1SWarner Losh int rc; 2823b8902de1SWarner Losh uint64_t zap_type; 2824b8902de1SWarner Losh size_t size = dnode->dn_datablkszsec * 512; 2825b8902de1SWarner Losh 2826b8902de1SWarner Losh rc = dnode_read(spa, dnode, 0, zap_scratch, size); 2827b8902de1SWarner Losh if (rc) 2828b8902de1SWarner Losh return (rc); 2829b8902de1SWarner Losh 2830b8902de1SWarner Losh zap_type = *(uint64_t *)zap_scratch; 2831b8902de1SWarner Losh if (zap_type == ZBT_MICRO) 28322e6bb655SToomas Soome return (mzap_rlookup(spa, dnode, name, value)); 2833b8902de1SWarner Losh else 28342e6bb655SToomas Soome return (fzap_rlookup(spa, dnode, name, value)); 2835b8902de1SWarner Losh } 2836b8902de1SWarner Losh 2837b8902de1SWarner Losh static int 2838b8902de1SWarner Losh zfs_rlookup(const spa_t *spa, uint64_t objnum, char *result) 2839b8902de1SWarner Losh { 2840b8902de1SWarner Losh char name[256]; 2841b8902de1SWarner Losh char component[256]; 2842b8902de1SWarner Losh uint64_t dir_obj, parent_obj, child_dir_zapobj; 2843b8902de1SWarner Losh dnode_phys_t child_dir_zap, dataset, dir, parent; 2844b8902de1SWarner Losh dsl_dir_phys_t *dd; 2845b8902de1SWarner Losh dsl_dataset_phys_t *ds; 2846b8902de1SWarner Losh char *p; 2847b8902de1SWarner Losh int len; 2848b8902de1SWarner Losh 2849b8902de1SWarner Losh p = &name[sizeof(name) - 1]; 2850b8902de1SWarner Losh *p = '\0'; 2851b8902de1SWarner Losh 2852b8902de1SWarner Losh if (objset_get_dnode(spa, &spa->spa_mos, objnum, &dataset)) { 2853b8902de1SWarner Losh printf("ZFS: can't find dataset %ju\n", (uintmax_t)objnum); 2854b8902de1SWarner Losh return (EIO); 2855b8902de1SWarner Losh } 2856b8902de1SWarner Losh ds = (dsl_dataset_phys_t *)&dataset.dn_bonus; 2857b8902de1SWarner Losh dir_obj = ds->ds_dir_obj; 2858b8902de1SWarner Losh 2859b8902de1SWarner Losh for (;;) { 2860b8902de1SWarner Losh if (objset_get_dnode(spa, &spa->spa_mos, dir_obj, &dir) != 0) 2861b8902de1SWarner Losh return (EIO); 2862b8902de1SWarner Losh dd = (dsl_dir_phys_t *)&dir.dn_bonus; 2863b8902de1SWarner Losh 2864b8902de1SWarner Losh /* Actual loop condition. */ 2865b8902de1SWarner Losh parent_obj = dd->dd_parent_obj; 2866b8902de1SWarner Losh if (parent_obj == 0) 2867b8902de1SWarner Losh break; 2868b8902de1SWarner Losh 28692e6bb655SToomas Soome if (objset_get_dnode(spa, &spa->spa_mos, parent_obj, 28702e6bb655SToomas Soome &parent) != 0) 2871b8902de1SWarner Losh return (EIO); 2872b8902de1SWarner Losh dd = (dsl_dir_phys_t *)&parent.dn_bonus; 2873b8902de1SWarner Losh child_dir_zapobj = dd->dd_child_dir_zapobj; 28742e6bb655SToomas Soome if (objset_get_dnode(spa, &spa->spa_mos, child_dir_zapobj, 28752e6bb655SToomas Soome &child_dir_zap) != 0) 2876b8902de1SWarner Losh return (EIO); 2877b8902de1SWarner Losh if (zap_rlookup(spa, &child_dir_zap, component, dir_obj) != 0) 2878b8902de1SWarner Losh return (EIO); 2879b8902de1SWarner Losh 2880b8902de1SWarner Losh len = strlen(component); 2881b8902de1SWarner Losh p -= len; 2882b8902de1SWarner Losh memcpy(p, component, len); 2883b8902de1SWarner Losh --p; 2884b8902de1SWarner Losh *p = '/'; 2885b8902de1SWarner Losh 2886b8902de1SWarner Losh /* Actual loop iteration. */ 2887b8902de1SWarner Losh dir_obj = parent_obj; 2888b8902de1SWarner Losh } 2889b8902de1SWarner Losh 2890b8902de1SWarner Losh if (*p != '\0') 2891b8902de1SWarner Losh ++p; 2892b8902de1SWarner Losh strcpy(result, p); 2893b8902de1SWarner Losh 2894b8902de1SWarner Losh return (0); 2895b8902de1SWarner Losh } 2896b8902de1SWarner Losh 2897b8902de1SWarner Losh static int 2898b8902de1SWarner Losh zfs_lookup_dataset(const spa_t *spa, const char *name, uint64_t *objnum) 2899b8902de1SWarner Losh { 2900b8902de1SWarner Losh char element[256]; 2901b8902de1SWarner Losh uint64_t dir_obj, child_dir_zapobj; 2902b8902de1SWarner Losh dnode_phys_t child_dir_zap, dir; 2903b8902de1SWarner Losh dsl_dir_phys_t *dd; 2904b8902de1SWarner Losh const char *p, *q; 2905b8902de1SWarner Losh 29062e6bb655SToomas Soome if (objset_get_dnode(spa, &spa->spa_mos, 29072e6bb655SToomas Soome DMU_POOL_DIRECTORY_OBJECT, &dir)) 2908b8902de1SWarner Losh return (EIO); 2909b8902de1SWarner Losh if (zap_lookup(spa, &dir, DMU_POOL_ROOT_DATASET, sizeof (dir_obj), 2910b8902de1SWarner Losh 1, &dir_obj)) 2911b8902de1SWarner Losh return (EIO); 2912b8902de1SWarner Losh 2913b8902de1SWarner Losh p = name; 2914b8902de1SWarner Losh for (;;) { 2915b8902de1SWarner Losh if (objset_get_dnode(spa, &spa->spa_mos, dir_obj, &dir)) 2916b8902de1SWarner Losh return (EIO); 2917b8902de1SWarner Losh dd = (dsl_dir_phys_t *)&dir.dn_bonus; 2918b8902de1SWarner Losh 2919b8902de1SWarner Losh while (*p == '/') 2920b8902de1SWarner Losh p++; 2921b8902de1SWarner Losh /* Actual loop condition #1. */ 2922b8902de1SWarner Losh if (*p == '\0') 2923b8902de1SWarner Losh break; 2924b8902de1SWarner Losh 2925b8902de1SWarner Losh q = strchr(p, '/'); 2926b8902de1SWarner Losh if (q) { 2927b8902de1SWarner Losh memcpy(element, p, q - p); 2928b8902de1SWarner Losh element[q - p] = '\0'; 2929b8902de1SWarner Losh p = q + 1; 2930b8902de1SWarner Losh } else { 2931b8902de1SWarner Losh strcpy(element, p); 2932b8902de1SWarner Losh p += strlen(p); 2933b8902de1SWarner Losh } 2934b8902de1SWarner Losh 2935b8902de1SWarner Losh child_dir_zapobj = dd->dd_child_dir_zapobj; 29362e6bb655SToomas Soome if (objset_get_dnode(spa, &spa->spa_mos, child_dir_zapobj, 29372e6bb655SToomas Soome &child_dir_zap) != 0) 2938b8902de1SWarner Losh return (EIO); 2939b8902de1SWarner Losh 2940b8902de1SWarner Losh /* Actual loop condition #2. */ 2941b8902de1SWarner Losh if (zap_lookup(spa, &child_dir_zap, element, sizeof (dir_obj), 2942b8902de1SWarner Losh 1, &dir_obj) != 0) 2943b8902de1SWarner Losh return (ENOENT); 2944b8902de1SWarner Losh } 2945b8902de1SWarner Losh 2946b8902de1SWarner Losh *objnum = dd->dd_head_dataset_obj; 2947b8902de1SWarner Losh return (0); 2948b8902de1SWarner Losh } 2949b8902de1SWarner Losh 2950b8902de1SWarner Losh #ifndef BOOT2 2951b8902de1SWarner Losh static int 2952b8902de1SWarner Losh zfs_list_dataset(const spa_t *spa, uint64_t objnum/*, int pos, char *entry*/) 2953b8902de1SWarner Losh { 2954b8902de1SWarner Losh uint64_t dir_obj, child_dir_zapobj; 2955b8902de1SWarner Losh dnode_phys_t child_dir_zap, dir, dataset; 2956b8902de1SWarner Losh dsl_dataset_phys_t *ds; 2957b8902de1SWarner Losh dsl_dir_phys_t *dd; 2958b8902de1SWarner Losh 2959b8902de1SWarner Losh if (objset_get_dnode(spa, &spa->spa_mos, objnum, &dataset)) { 2960b8902de1SWarner Losh printf("ZFS: can't find dataset %ju\n", (uintmax_t)objnum); 2961b8902de1SWarner Losh return (EIO); 2962b8902de1SWarner Losh } 2963b8902de1SWarner Losh ds = (dsl_dataset_phys_t *)&dataset.dn_bonus; 2964b8902de1SWarner Losh dir_obj = ds->ds_dir_obj; 2965b8902de1SWarner Losh 2966b8902de1SWarner Losh if (objset_get_dnode(spa, &spa->spa_mos, dir_obj, &dir)) { 2967b8902de1SWarner Losh printf("ZFS: can't find dirobj %ju\n", (uintmax_t)dir_obj); 2968b8902de1SWarner Losh return (EIO); 2969b8902de1SWarner Losh } 2970b8902de1SWarner Losh dd = (dsl_dir_phys_t *)&dir.dn_bonus; 2971b8902de1SWarner Losh 2972b8902de1SWarner Losh child_dir_zapobj = dd->dd_child_dir_zapobj; 29732e6bb655SToomas Soome if (objset_get_dnode(spa, &spa->spa_mos, child_dir_zapobj, 29742e6bb655SToomas Soome &child_dir_zap) != 0) { 2975b8902de1SWarner Losh printf("ZFS: can't find child zap %ju\n", (uintmax_t)dir_obj); 2976b8902de1SWarner Losh return (EIO); 2977b8902de1SWarner Losh } 2978b8902de1SWarner Losh 2979b8902de1SWarner Losh return (zap_list(spa, &child_dir_zap) != 0); 2980b8902de1SWarner Losh } 2981b8902de1SWarner Losh 2982b8902de1SWarner Losh int 29832e6bb655SToomas Soome zfs_callback_dataset(const spa_t *spa, uint64_t objnum, 29842e6bb655SToomas Soome int (*callback)(const char *, uint64_t)) 2985b8902de1SWarner Losh { 2986b8902de1SWarner Losh uint64_t dir_obj, child_dir_zapobj, zap_type; 2987b8902de1SWarner Losh dnode_phys_t child_dir_zap, dir, dataset; 2988b8902de1SWarner Losh dsl_dataset_phys_t *ds; 2989b8902de1SWarner Losh dsl_dir_phys_t *dd; 2990b8902de1SWarner Losh int err; 2991b8902de1SWarner Losh 2992b8902de1SWarner Losh err = objset_get_dnode(spa, &spa->spa_mos, objnum, &dataset); 2993b8902de1SWarner Losh if (err != 0) { 2994b8902de1SWarner Losh printf("ZFS: can't find dataset %ju\n", (uintmax_t)objnum); 2995b8902de1SWarner Losh return (err); 2996b8902de1SWarner Losh } 2997b8902de1SWarner Losh ds = (dsl_dataset_phys_t *)&dataset.dn_bonus; 2998b8902de1SWarner Losh dir_obj = ds->ds_dir_obj; 2999b8902de1SWarner Losh 3000b8902de1SWarner Losh err = objset_get_dnode(spa, &spa->spa_mos, dir_obj, &dir); 3001b8902de1SWarner Losh if (err != 0) { 3002b8902de1SWarner Losh printf("ZFS: can't find dirobj %ju\n", (uintmax_t)dir_obj); 3003b8902de1SWarner Losh return (err); 3004b8902de1SWarner Losh } 3005b8902de1SWarner Losh dd = (dsl_dir_phys_t *)&dir.dn_bonus; 3006b8902de1SWarner Losh 3007b8902de1SWarner Losh child_dir_zapobj = dd->dd_child_dir_zapobj; 30082e6bb655SToomas Soome err = objset_get_dnode(spa, &spa->spa_mos, child_dir_zapobj, 30092e6bb655SToomas Soome &child_dir_zap); 3010b8902de1SWarner Losh if (err != 0) { 3011b8902de1SWarner Losh printf("ZFS: can't find child zap %ju\n", (uintmax_t)dir_obj); 3012b8902de1SWarner Losh return (err); 3013b8902de1SWarner Losh } 3014b8902de1SWarner Losh 30152e6bb655SToomas Soome err = dnode_read(spa, &child_dir_zap, 0, zap_scratch, 30162e6bb655SToomas Soome child_dir_zap.dn_datablkszsec * 512); 3017b8902de1SWarner Losh if (err != 0) 3018b8902de1SWarner Losh return (err); 3019b8902de1SWarner Losh 3020b8902de1SWarner Losh zap_type = *(uint64_t *)zap_scratch; 3021b8902de1SWarner Losh if (zap_type == ZBT_MICRO) 30222e6bb655SToomas Soome return (mzap_list(&child_dir_zap, callback)); 3023b8902de1SWarner Losh else 30242e6bb655SToomas Soome return (fzap_list(spa, &child_dir_zap, callback)); 3025b8902de1SWarner Losh } 3026b8902de1SWarner Losh #endif 3027b8902de1SWarner Losh 3028b8902de1SWarner Losh /* 3029b8902de1SWarner Losh * Find the object set given the object number of its dataset object 3030b8902de1SWarner Losh * and return its details in *objset 3031b8902de1SWarner Losh */ 3032b8902de1SWarner Losh static int 3033b8902de1SWarner Losh zfs_mount_dataset(const spa_t *spa, uint64_t objnum, objset_phys_t *objset) 3034b8902de1SWarner Losh { 3035b8902de1SWarner Losh dnode_phys_t dataset; 3036b8902de1SWarner Losh dsl_dataset_phys_t *ds; 3037b8902de1SWarner Losh 3038b8902de1SWarner Losh if (objset_get_dnode(spa, &spa->spa_mos, objnum, &dataset)) { 3039b8902de1SWarner Losh printf("ZFS: can't find dataset %ju\n", (uintmax_t)objnum); 3040b8902de1SWarner Losh return (EIO); 3041b8902de1SWarner Losh } 3042b8902de1SWarner Losh 3043b8902de1SWarner Losh ds = (dsl_dataset_phys_t *)&dataset.dn_bonus; 3044b8902de1SWarner Losh if (zio_read(spa, &ds->ds_bp, objset)) { 3045b8902de1SWarner Losh printf("ZFS: can't read object set for dataset %ju\n", 3046b8902de1SWarner Losh (uintmax_t)objnum); 3047b8902de1SWarner Losh return (EIO); 3048b8902de1SWarner Losh } 3049b8902de1SWarner Losh 3050b8902de1SWarner Losh return (0); 3051b8902de1SWarner Losh } 3052b8902de1SWarner Losh 3053b8902de1SWarner Losh /* 3054b8902de1SWarner Losh * Find the object set pointed to by the BOOTFS property or the root 3055b8902de1SWarner Losh * dataset if there is none and return its details in *objset 3056b8902de1SWarner Losh */ 3057b8902de1SWarner Losh static int 3058b8902de1SWarner Losh zfs_get_root(const spa_t *spa, uint64_t *objid) 3059b8902de1SWarner Losh { 3060b8902de1SWarner Losh dnode_phys_t dir, propdir; 3061b8902de1SWarner Losh uint64_t props, bootfs, root; 3062b8902de1SWarner Losh 3063b8902de1SWarner Losh *objid = 0; 3064b8902de1SWarner Losh 3065b8902de1SWarner Losh /* 3066b8902de1SWarner Losh * Start with the MOS directory object. 3067b8902de1SWarner Losh */ 30682e6bb655SToomas Soome if (objset_get_dnode(spa, &spa->spa_mos, 30692e6bb655SToomas Soome DMU_POOL_DIRECTORY_OBJECT, &dir)) { 3070b8902de1SWarner Losh printf("ZFS: can't read MOS object directory\n"); 3071b8902de1SWarner Losh return (EIO); 3072b8902de1SWarner Losh } 3073b8902de1SWarner Losh 3074b8902de1SWarner Losh /* 3075b8902de1SWarner Losh * Lookup the pool_props and see if we can find a bootfs. 3076b8902de1SWarner Losh */ 30772e6bb655SToomas Soome if (zap_lookup(spa, &dir, DMU_POOL_PROPS, 30782e6bb655SToomas Soome sizeof(props), 1, &props) == 0 && 30792e6bb655SToomas Soome objset_get_dnode(spa, &spa->spa_mos, props, &propdir) == 0 && 30802e6bb655SToomas Soome zap_lookup(spa, &propdir, "bootfs", 3081*3c2db0efSToomas Soome sizeof(bootfs), 1, &bootfs) == 0 && bootfs != 0) { 3082b8902de1SWarner Losh *objid = bootfs; 3083b8902de1SWarner Losh return (0); 3084b8902de1SWarner Losh } 3085b8902de1SWarner Losh /* 3086b8902de1SWarner Losh * Lookup the root dataset directory 3087b8902de1SWarner Losh */ 30882e6bb655SToomas Soome if (zap_lookup(spa, &dir, DMU_POOL_ROOT_DATASET, 30892e6bb655SToomas Soome sizeof(root), 1, &root) || 30902e6bb655SToomas Soome objset_get_dnode(spa, &spa->spa_mos, root, &dir)) { 3091b8902de1SWarner Losh printf("ZFS: can't find root dsl_dir\n"); 3092b8902de1SWarner Losh return (EIO); 3093b8902de1SWarner Losh } 3094b8902de1SWarner Losh 3095b8902de1SWarner Losh /* 3096b8902de1SWarner Losh * Use the information from the dataset directory's bonus buffer 3097b8902de1SWarner Losh * to find the dataset object and from that the object set itself. 3098b8902de1SWarner Losh */ 3099b8902de1SWarner Losh dsl_dir_phys_t *dd = (dsl_dir_phys_t *)&dir.dn_bonus; 3100b8902de1SWarner Losh *objid = dd->dd_head_dataset_obj; 3101b8902de1SWarner Losh return (0); 3102b8902de1SWarner Losh } 3103b8902de1SWarner Losh 3104b8902de1SWarner Losh static int 3105b8902de1SWarner Losh zfs_mount(const spa_t *spa, uint64_t rootobj, struct zfsmount *mount) 3106b8902de1SWarner Losh { 3107b8902de1SWarner Losh 3108b8902de1SWarner Losh mount->spa = spa; 3109b8902de1SWarner Losh 3110b8902de1SWarner Losh /* 3111b8902de1SWarner Losh * Find the root object set if not explicitly provided 3112b8902de1SWarner Losh */ 3113b8902de1SWarner Losh if (rootobj == 0 && zfs_get_root(spa, &rootobj)) { 3114b8902de1SWarner Losh printf("ZFS: can't find root filesystem\n"); 3115b8902de1SWarner Losh return (EIO); 3116b8902de1SWarner Losh } 3117b8902de1SWarner Losh 3118b8902de1SWarner Losh if (zfs_mount_dataset(spa, rootobj, &mount->objset)) { 3119b8902de1SWarner Losh printf("ZFS: can't open root filesystem\n"); 3120b8902de1SWarner Losh return (EIO); 3121b8902de1SWarner Losh } 3122b8902de1SWarner Losh 3123b8902de1SWarner Losh mount->rootobj = rootobj; 3124b8902de1SWarner Losh 3125b8902de1SWarner Losh return (0); 3126b8902de1SWarner Losh } 3127b8902de1SWarner Losh 3128b8902de1SWarner Losh /* 3129b8902de1SWarner Losh * callback function for feature name checks. 3130b8902de1SWarner Losh */ 3131b8902de1SWarner Losh static int 3132b8902de1SWarner Losh check_feature(const char *name, uint64_t value) 3133b8902de1SWarner Losh { 3134b8902de1SWarner Losh int i; 3135b8902de1SWarner Losh 3136b8902de1SWarner Losh if (value == 0) 3137b8902de1SWarner Losh return (0); 3138b8902de1SWarner Losh if (name[0] == '\0') 3139b8902de1SWarner Losh return (0); 3140b8902de1SWarner Losh 3141b8902de1SWarner Losh for (i = 0; features_for_read[i] != NULL; i++) { 3142b8902de1SWarner Losh if (strcmp(name, features_for_read[i]) == 0) 3143b8902de1SWarner Losh return (0); 3144b8902de1SWarner Losh } 3145b8902de1SWarner Losh printf("ZFS: unsupported feature: %s\n", name); 3146b8902de1SWarner Losh return (EIO); 3147b8902de1SWarner Losh } 3148b8902de1SWarner Losh 3149b8902de1SWarner Losh /* 3150b8902de1SWarner Losh * Checks whether the MOS features that are active are supported. 3151b8902de1SWarner Losh */ 3152b8902de1SWarner Losh static int 3153b8902de1SWarner Losh check_mos_features(const spa_t *spa) 3154b8902de1SWarner Losh { 3155b8902de1SWarner Losh dnode_phys_t dir; 3156b8902de1SWarner Losh uint64_t objnum, zap_type; 3157b8902de1SWarner Losh size_t size; 3158b8902de1SWarner Losh int rc; 3159b8902de1SWarner Losh 3160b8902de1SWarner Losh if ((rc = objset_get_dnode(spa, &spa->spa_mos, DMU_OT_OBJECT_DIRECTORY, 3161b8902de1SWarner Losh &dir)) != 0) 3162b8902de1SWarner Losh return (rc); 3163b8902de1SWarner Losh if ((rc = zap_lookup(spa, &dir, DMU_POOL_FEATURES_FOR_READ, 3164b8902de1SWarner Losh sizeof (objnum), 1, &objnum)) != 0) { 3165b8902de1SWarner Losh /* 3166b8902de1SWarner Losh * It is older pool without features. As we have already 3167b8902de1SWarner Losh * tested the label, just return without raising the error. 3168b8902de1SWarner Losh */ 3169b8902de1SWarner Losh return (0); 3170b8902de1SWarner Losh } 3171b8902de1SWarner Losh 3172b8902de1SWarner Losh if ((rc = objset_get_dnode(spa, &spa->spa_mos, objnum, &dir)) != 0) 3173b8902de1SWarner Losh return (rc); 3174b8902de1SWarner Losh 3175b8902de1SWarner Losh if (dir.dn_type != DMU_OTN_ZAP_METADATA) 3176b8902de1SWarner Losh return (EIO); 3177b8902de1SWarner Losh 3178b8902de1SWarner Losh size = dir.dn_datablkszsec * 512; 3179b8902de1SWarner Losh if (dnode_read(spa, &dir, 0, zap_scratch, size)) 3180b8902de1SWarner Losh return (EIO); 3181b8902de1SWarner Losh 3182b8902de1SWarner Losh zap_type = *(uint64_t *)zap_scratch; 3183b8902de1SWarner Losh if (zap_type == ZBT_MICRO) 3184b8902de1SWarner Losh rc = mzap_list(&dir, check_feature); 3185b8902de1SWarner Losh else 3186b8902de1SWarner Losh rc = fzap_list(spa, &dir, check_feature); 3187b8902de1SWarner Losh 3188b8902de1SWarner Losh return (rc); 3189b8902de1SWarner Losh } 3190b8902de1SWarner Losh 3191b8902de1SWarner Losh static int 3192b1b93268SToomas Soome load_nvlist(spa_t *spa, uint64_t obj, unsigned char **value) 3193b1b93268SToomas Soome { 3194b1b93268SToomas Soome dnode_phys_t dir; 3195b1b93268SToomas Soome size_t size; 3196b1b93268SToomas Soome int rc; 3197b1b93268SToomas Soome unsigned char *nv; 3198b1b93268SToomas Soome 3199b1b93268SToomas Soome *value = NULL; 3200b1b93268SToomas Soome if ((rc = objset_get_dnode(spa, &spa->spa_mos, obj, &dir)) != 0) 3201b1b93268SToomas Soome return (rc); 3202b1b93268SToomas Soome if (dir.dn_type != DMU_OT_PACKED_NVLIST && 3203b1b93268SToomas Soome dir.dn_bonustype != DMU_OT_PACKED_NVLIST_SIZE) { 3204b1b93268SToomas Soome return (EIO); 3205b1b93268SToomas Soome } 3206b1b93268SToomas Soome 3207b1b93268SToomas Soome if (dir.dn_bonuslen != sizeof (uint64_t)) 3208b1b93268SToomas Soome return (EIO); 3209b1b93268SToomas Soome 3210b1b93268SToomas Soome size = *(uint64_t *)DN_BONUS(&dir); 3211b1b93268SToomas Soome nv = malloc(size); 3212b1b93268SToomas Soome if (nv == NULL) 3213b1b93268SToomas Soome return (ENOMEM); 3214b1b93268SToomas Soome 3215b1b93268SToomas Soome rc = dnode_read(spa, &dir, 0, nv, size); 3216b1b93268SToomas Soome if (rc != 0) { 3217b1b93268SToomas Soome free(nv); 3218b1b93268SToomas Soome nv = NULL; 3219b1b93268SToomas Soome return (rc); 3220b1b93268SToomas Soome } 3221b1b93268SToomas Soome *value = nv; 3222b1b93268SToomas Soome return (rc); 3223b1b93268SToomas Soome } 3224b1b93268SToomas Soome 3225b1b93268SToomas Soome static int 3226b8902de1SWarner Losh zfs_spa_init(spa_t *spa) 3227b8902de1SWarner Losh { 3228b8902de1SWarner Losh dnode_phys_t dir; 3229b1b93268SToomas Soome uint64_t config_object; 3230b1b93268SToomas Soome unsigned char *nvlist; 3231*3c2db0efSToomas Soome int rc; 3232b8902de1SWarner Losh 3233b8902de1SWarner Losh if (zio_read(spa, &spa->spa_uberblock.ub_rootbp, &spa->spa_mos)) { 3234b8902de1SWarner Losh printf("ZFS: can't read MOS of pool %s\n", spa->spa_name); 3235b8902de1SWarner Losh return (EIO); 3236b8902de1SWarner Losh } 3237b8902de1SWarner Losh if (spa->spa_mos.os_type != DMU_OST_META) { 3238b8902de1SWarner Losh printf("ZFS: corrupted MOS of pool %s\n", spa->spa_name); 3239b8902de1SWarner Losh return (EIO); 3240b8902de1SWarner Losh } 3241b8902de1SWarner Losh 3242b8902de1SWarner Losh if (objset_get_dnode(spa, &spa->spa_mos, DMU_POOL_DIRECTORY_OBJECT, 3243b8902de1SWarner Losh &dir)) { 3244b8902de1SWarner Losh printf("ZFS: failed to read pool %s directory object\n", 3245b8902de1SWarner Losh spa->spa_name); 3246b8902de1SWarner Losh return (EIO); 3247b8902de1SWarner Losh } 3248b8902de1SWarner Losh /* this is allowed to fail, older pools do not have salt */ 3249b8902de1SWarner Losh rc = zap_lookup(spa, &dir, DMU_POOL_CHECKSUM_SALT, 1, 3250b8902de1SWarner Losh sizeof (spa->spa_cksum_salt.zcs_bytes), 3251b8902de1SWarner Losh spa->spa_cksum_salt.zcs_bytes); 3252b8902de1SWarner Losh 3253b8902de1SWarner Losh rc = check_mos_features(spa); 3254b8902de1SWarner Losh if (rc != 0) { 3255b8902de1SWarner Losh printf("ZFS: pool %s is not supported\n", spa->spa_name); 3256b1b93268SToomas Soome return (rc); 3257b8902de1SWarner Losh } 3258b8902de1SWarner Losh 3259b1b93268SToomas Soome rc = zap_lookup(spa, &dir, DMU_POOL_CONFIG, 3260b1b93268SToomas Soome sizeof (config_object), 1, &config_object); 3261b1b93268SToomas Soome if (rc != 0) { 3262b1b93268SToomas Soome printf("ZFS: can not read MOS %s\n", DMU_POOL_CONFIG); 3263b1b93268SToomas Soome return (EIO); 3264b1b93268SToomas Soome } 3265b1b93268SToomas Soome rc = load_nvlist(spa, config_object, &nvlist); 3266b1b93268SToomas Soome if (rc != 0) 3267b1b93268SToomas Soome return (rc); 3268b1b93268SToomas Soome 3269b1b93268SToomas Soome /* Update vdevs from MOS config. */ 3270*3c2db0efSToomas Soome rc = vdev_init_from_nvlist(spa, nvlist + 4); 3271b1b93268SToomas Soome free(nvlist); 3272b8902de1SWarner Losh return (rc); 3273b8902de1SWarner Losh } 3274b8902de1SWarner Losh 3275b8902de1SWarner Losh static int 3276b8902de1SWarner Losh zfs_dnode_stat(const spa_t *spa, dnode_phys_t *dn, struct stat *sb) 3277b8902de1SWarner Losh { 3278b8902de1SWarner Losh 3279b8902de1SWarner Losh if (dn->dn_bonustype != DMU_OT_SA) { 3280b8902de1SWarner Losh znode_phys_t *zp = (znode_phys_t *)dn->dn_bonus; 3281b8902de1SWarner Losh 3282b8902de1SWarner Losh sb->st_mode = zp->zp_mode; 3283b8902de1SWarner Losh sb->st_uid = zp->zp_uid; 3284b8902de1SWarner Losh sb->st_gid = zp->zp_gid; 3285b8902de1SWarner Losh sb->st_size = zp->zp_size; 3286b8902de1SWarner Losh } else { 3287b8902de1SWarner Losh sa_hdr_phys_t *sahdrp; 3288b8902de1SWarner Losh int hdrsize; 3289b8902de1SWarner Losh size_t size = 0; 3290b8902de1SWarner Losh void *buf = NULL; 3291b8902de1SWarner Losh 3292b8902de1SWarner Losh if (dn->dn_bonuslen != 0) 3293b8902de1SWarner Losh sahdrp = (sa_hdr_phys_t *)DN_BONUS(dn); 3294b8902de1SWarner Losh else { 3295b8902de1SWarner Losh if ((dn->dn_flags & DNODE_FLAG_SPILL_BLKPTR) != 0) { 3296b8902de1SWarner Losh blkptr_t *bp = DN_SPILL_BLKPTR(dn); 3297b8902de1SWarner Losh int error; 3298b8902de1SWarner Losh 3299b8902de1SWarner Losh size = BP_GET_LSIZE(bp); 3300b8902de1SWarner Losh buf = zfs_alloc(size); 3301b8902de1SWarner Losh error = zio_read(spa, bp, buf); 3302b8902de1SWarner Losh if (error != 0) { 3303b8902de1SWarner Losh zfs_free(buf, size); 3304b8902de1SWarner Losh return (error); 3305b8902de1SWarner Losh } 3306b8902de1SWarner Losh sahdrp = buf; 3307b8902de1SWarner Losh } else { 3308b8902de1SWarner Losh return (EIO); 3309b8902de1SWarner Losh } 3310b8902de1SWarner Losh } 3311b8902de1SWarner Losh hdrsize = SA_HDR_SIZE(sahdrp); 3312b8902de1SWarner Losh sb->st_mode = *(uint64_t *)((char *)sahdrp + hdrsize + 3313b8902de1SWarner Losh SA_MODE_OFFSET); 3314b8902de1SWarner Losh sb->st_uid = *(uint64_t *)((char *)sahdrp + hdrsize + 3315b8902de1SWarner Losh SA_UID_OFFSET); 3316b8902de1SWarner Losh sb->st_gid = *(uint64_t *)((char *)sahdrp + hdrsize + 3317b8902de1SWarner Losh SA_GID_OFFSET); 3318b8902de1SWarner Losh sb->st_size = *(uint64_t *)((char *)sahdrp + hdrsize + 3319b8902de1SWarner Losh SA_SIZE_OFFSET); 3320b8902de1SWarner Losh if (buf != NULL) 3321b8902de1SWarner Losh zfs_free(buf, size); 3322b8902de1SWarner Losh } 3323b8902de1SWarner Losh 3324b8902de1SWarner Losh return (0); 3325b8902de1SWarner Losh } 3326b8902de1SWarner Losh 3327b8902de1SWarner Losh static int 3328b8902de1SWarner Losh zfs_dnode_readlink(const spa_t *spa, dnode_phys_t *dn, char *path, size_t psize) 3329b8902de1SWarner Losh { 3330b8902de1SWarner Losh int rc = 0; 3331b8902de1SWarner Losh 3332b8902de1SWarner Losh if (dn->dn_bonustype == DMU_OT_SA) { 3333b8902de1SWarner Losh sa_hdr_phys_t *sahdrp = NULL; 3334b8902de1SWarner Losh size_t size = 0; 3335b8902de1SWarner Losh void *buf = NULL; 3336b8902de1SWarner Losh int hdrsize; 3337b8902de1SWarner Losh char *p; 3338b8902de1SWarner Losh 3339b8902de1SWarner Losh if (dn->dn_bonuslen != 0) 3340b8902de1SWarner Losh sahdrp = (sa_hdr_phys_t *)DN_BONUS(dn); 3341b8902de1SWarner Losh else { 3342b8902de1SWarner Losh blkptr_t *bp; 3343b8902de1SWarner Losh 3344b8902de1SWarner Losh if ((dn->dn_flags & DNODE_FLAG_SPILL_BLKPTR) == 0) 3345b8902de1SWarner Losh return (EIO); 3346b8902de1SWarner Losh bp = DN_SPILL_BLKPTR(dn); 3347b8902de1SWarner Losh 3348b8902de1SWarner Losh size = BP_GET_LSIZE(bp); 3349b8902de1SWarner Losh buf = zfs_alloc(size); 3350b8902de1SWarner Losh rc = zio_read(spa, bp, buf); 3351b8902de1SWarner Losh if (rc != 0) { 3352b8902de1SWarner Losh zfs_free(buf, size); 3353b8902de1SWarner Losh return (rc); 3354b8902de1SWarner Losh } 3355b8902de1SWarner Losh sahdrp = buf; 3356b8902de1SWarner Losh } 3357b8902de1SWarner Losh hdrsize = SA_HDR_SIZE(sahdrp); 3358b8902de1SWarner Losh p = (char *)((uintptr_t)sahdrp + hdrsize + SA_SYMLINK_OFFSET); 3359b8902de1SWarner Losh memcpy(path, p, psize); 3360b8902de1SWarner Losh if (buf != NULL) 3361b8902de1SWarner Losh zfs_free(buf, size); 3362b8902de1SWarner Losh return (0); 3363b8902de1SWarner Losh } 3364b8902de1SWarner Losh /* 3365b8902de1SWarner Losh * Second test is purely to silence bogus compiler 3366b8902de1SWarner Losh * warning about accessing past the end of dn_bonus. 3367b8902de1SWarner Losh */ 3368b8902de1SWarner Losh if (psize + sizeof(znode_phys_t) <= dn->dn_bonuslen && 3369b8902de1SWarner Losh sizeof(znode_phys_t) <= sizeof(dn->dn_bonus)) { 3370b8902de1SWarner Losh memcpy(path, &dn->dn_bonus[sizeof(znode_phys_t)], psize); 3371b8902de1SWarner Losh } else { 3372b8902de1SWarner Losh rc = dnode_read(spa, dn, 0, path, psize); 3373b8902de1SWarner Losh } 3374b8902de1SWarner Losh return (rc); 3375b8902de1SWarner Losh } 3376b8902de1SWarner Losh 3377b8902de1SWarner Losh struct obj_list { 3378b8902de1SWarner Losh uint64_t objnum; 3379b8902de1SWarner Losh STAILQ_ENTRY(obj_list) entry; 3380b8902de1SWarner Losh }; 3381b8902de1SWarner Losh 3382b8902de1SWarner Losh /* 3383b8902de1SWarner Losh * Lookup a file and return its dnode. 3384b8902de1SWarner Losh */ 3385b8902de1SWarner Losh static int 3386b8902de1SWarner Losh zfs_lookup(const struct zfsmount *mount, const char *upath, dnode_phys_t *dnode) 3387b8902de1SWarner Losh { 3388b8902de1SWarner Losh int rc; 3389b8902de1SWarner Losh uint64_t objnum; 3390b8902de1SWarner Losh const spa_t *spa; 3391b8902de1SWarner Losh dnode_phys_t dn; 3392b8902de1SWarner Losh const char *p, *q; 3393b8902de1SWarner Losh char element[256]; 3394b8902de1SWarner Losh char path[1024]; 3395b8902de1SWarner Losh int symlinks_followed = 0; 3396b8902de1SWarner Losh struct stat sb; 3397b8902de1SWarner Losh struct obj_list *entry, *tentry; 3398b8902de1SWarner Losh STAILQ_HEAD(, obj_list) on_cache = STAILQ_HEAD_INITIALIZER(on_cache); 3399b8902de1SWarner Losh 3400b8902de1SWarner Losh spa = mount->spa; 3401b8902de1SWarner Losh if (mount->objset.os_type != DMU_OST_ZFS) { 3402b8902de1SWarner Losh printf("ZFS: unexpected object set type %ju\n", 3403b8902de1SWarner Losh (uintmax_t)mount->objset.os_type); 3404b8902de1SWarner Losh return (EIO); 3405b8902de1SWarner Losh } 3406b8902de1SWarner Losh 3407b8902de1SWarner Losh if ((entry = malloc(sizeof(struct obj_list))) == NULL) 3408b8902de1SWarner Losh return (ENOMEM); 3409b8902de1SWarner Losh 3410b8902de1SWarner Losh /* 3411b8902de1SWarner Losh * Get the root directory dnode. 3412b8902de1SWarner Losh */ 3413b8902de1SWarner Losh rc = objset_get_dnode(spa, &mount->objset, MASTER_NODE_OBJ, &dn); 3414b8902de1SWarner Losh if (rc) { 3415b8902de1SWarner Losh free(entry); 3416b8902de1SWarner Losh return (rc); 3417b8902de1SWarner Losh } 3418b8902de1SWarner Losh 3419b8902de1SWarner Losh rc = zap_lookup(spa, &dn, ZFS_ROOT_OBJ, sizeof(objnum), 1, &objnum); 3420b8902de1SWarner Losh if (rc) { 3421b8902de1SWarner Losh free(entry); 3422b8902de1SWarner Losh return (rc); 3423b8902de1SWarner Losh } 3424b8902de1SWarner Losh entry->objnum = objnum; 3425b8902de1SWarner Losh STAILQ_INSERT_HEAD(&on_cache, entry, entry); 3426b8902de1SWarner Losh 3427b8902de1SWarner Losh rc = objset_get_dnode(spa, &mount->objset, objnum, &dn); 3428b8902de1SWarner Losh if (rc != 0) 3429b8902de1SWarner Losh goto done; 3430b8902de1SWarner Losh 3431b8902de1SWarner Losh p = upath; 3432b8902de1SWarner Losh while (p && *p) { 3433b8902de1SWarner Losh rc = objset_get_dnode(spa, &mount->objset, objnum, &dn); 3434b8902de1SWarner Losh if (rc != 0) 3435b8902de1SWarner Losh goto done; 3436b8902de1SWarner Losh 3437b8902de1SWarner Losh while (*p == '/') 3438b8902de1SWarner Losh p++; 3439b8902de1SWarner Losh if (*p == '\0') 3440b8902de1SWarner Losh break; 3441b8902de1SWarner Losh q = p; 3442b8902de1SWarner Losh while (*q != '\0' && *q != '/') 3443b8902de1SWarner Losh q++; 3444b8902de1SWarner Losh 3445b8902de1SWarner Losh /* skip dot */ 3446b8902de1SWarner Losh if (p + 1 == q && p[0] == '.') { 3447b8902de1SWarner Losh p++; 3448b8902de1SWarner Losh continue; 3449b8902de1SWarner Losh } 3450b8902de1SWarner Losh /* double dot */ 3451b8902de1SWarner Losh if (p + 2 == q && p[0] == '.' && p[1] == '.') { 3452b8902de1SWarner Losh p += 2; 3453b8902de1SWarner Losh if (STAILQ_FIRST(&on_cache) == 3454b8902de1SWarner Losh STAILQ_LAST(&on_cache, obj_list, entry)) { 3455b8902de1SWarner Losh rc = ENOENT; 3456b8902de1SWarner Losh goto done; 3457b8902de1SWarner Losh } 3458b8902de1SWarner Losh entry = STAILQ_FIRST(&on_cache); 3459b8902de1SWarner Losh STAILQ_REMOVE_HEAD(&on_cache, entry); 3460b8902de1SWarner Losh free(entry); 3461b8902de1SWarner Losh objnum = (STAILQ_FIRST(&on_cache))->objnum; 3462b8902de1SWarner Losh continue; 3463b8902de1SWarner Losh } 3464b8902de1SWarner Losh if (q - p + 1 > sizeof(element)) { 3465b8902de1SWarner Losh rc = ENAMETOOLONG; 3466b8902de1SWarner Losh goto done; 3467b8902de1SWarner Losh } 3468b8902de1SWarner Losh memcpy(element, p, q - p); 3469b8902de1SWarner Losh element[q - p] = 0; 3470b8902de1SWarner Losh p = q; 3471b8902de1SWarner Losh 3472b8902de1SWarner Losh if ((rc = zfs_dnode_stat(spa, &dn, &sb)) != 0) 3473b8902de1SWarner Losh goto done; 3474b8902de1SWarner Losh if (!S_ISDIR(sb.st_mode)) { 3475b8902de1SWarner Losh rc = ENOTDIR; 3476b8902de1SWarner Losh goto done; 3477b8902de1SWarner Losh } 3478b8902de1SWarner Losh 3479b8902de1SWarner Losh rc = zap_lookup(spa, &dn, element, sizeof (objnum), 1, &objnum); 3480b8902de1SWarner Losh if (rc) 3481b8902de1SWarner Losh goto done; 3482b8902de1SWarner Losh objnum = ZFS_DIRENT_OBJ(objnum); 3483b8902de1SWarner Losh 3484b8902de1SWarner Losh if ((entry = malloc(sizeof(struct obj_list))) == NULL) { 3485b8902de1SWarner Losh rc = ENOMEM; 3486b8902de1SWarner Losh goto done; 3487b8902de1SWarner Losh } 3488b8902de1SWarner Losh entry->objnum = objnum; 3489b8902de1SWarner Losh STAILQ_INSERT_HEAD(&on_cache, entry, entry); 3490b8902de1SWarner Losh rc = objset_get_dnode(spa, &mount->objset, objnum, &dn); 3491b8902de1SWarner Losh if (rc) 3492b8902de1SWarner Losh goto done; 3493b8902de1SWarner Losh 3494b8902de1SWarner Losh /* 3495b8902de1SWarner Losh * Check for symlink. 3496b8902de1SWarner Losh */ 3497b8902de1SWarner Losh rc = zfs_dnode_stat(spa, &dn, &sb); 3498b8902de1SWarner Losh if (rc) 3499b8902de1SWarner Losh goto done; 3500b8902de1SWarner Losh if (S_ISLNK(sb.st_mode)) { 3501b8902de1SWarner Losh if (symlinks_followed > 10) { 3502b8902de1SWarner Losh rc = EMLINK; 3503b8902de1SWarner Losh goto done; 3504b8902de1SWarner Losh } 3505b8902de1SWarner Losh symlinks_followed++; 3506b8902de1SWarner Losh 3507b8902de1SWarner Losh /* 3508b8902de1SWarner Losh * Read the link value and copy the tail of our 3509b8902de1SWarner Losh * current path onto the end. 3510b8902de1SWarner Losh */ 3511b8902de1SWarner Losh if (sb.st_size + strlen(p) + 1 > sizeof(path)) { 3512b8902de1SWarner Losh rc = ENAMETOOLONG; 3513b8902de1SWarner Losh goto done; 3514b8902de1SWarner Losh } 3515b8902de1SWarner Losh strcpy(&path[sb.st_size], p); 3516b8902de1SWarner Losh 3517b8902de1SWarner Losh rc = zfs_dnode_readlink(spa, &dn, path, sb.st_size); 3518b8902de1SWarner Losh if (rc != 0) 3519b8902de1SWarner Losh goto done; 3520b8902de1SWarner Losh 3521b8902de1SWarner Losh /* 3522b8902de1SWarner Losh * Restart with the new path, starting either at 3523b8902de1SWarner Losh * the root or at the parent depending whether or 3524b8902de1SWarner Losh * not the link is relative. 3525b8902de1SWarner Losh */ 3526b8902de1SWarner Losh p = path; 3527b8902de1SWarner Losh if (*p == '/') { 3528b8902de1SWarner Losh while (STAILQ_FIRST(&on_cache) != 3529b8902de1SWarner Losh STAILQ_LAST(&on_cache, obj_list, entry)) { 3530b8902de1SWarner Losh entry = STAILQ_FIRST(&on_cache); 3531b8902de1SWarner Losh STAILQ_REMOVE_HEAD(&on_cache, entry); 3532b8902de1SWarner Losh free(entry); 3533b8902de1SWarner Losh } 3534b8902de1SWarner Losh } else { 3535b8902de1SWarner Losh entry = STAILQ_FIRST(&on_cache); 3536b8902de1SWarner Losh STAILQ_REMOVE_HEAD(&on_cache, entry); 3537b8902de1SWarner Losh free(entry); 3538b8902de1SWarner Losh } 3539b8902de1SWarner Losh objnum = (STAILQ_FIRST(&on_cache))->objnum; 3540b8902de1SWarner Losh } 3541b8902de1SWarner Losh } 3542b8902de1SWarner Losh 3543b8902de1SWarner Losh *dnode = dn; 3544b8902de1SWarner Losh done: 3545b8902de1SWarner Losh STAILQ_FOREACH_SAFE(entry, &on_cache, entry, tentry) 3546b8902de1SWarner Losh free(entry); 3547b8902de1SWarner Losh return (rc); 3548b8902de1SWarner Losh } 3549