1 1.1 haad /* 2 1.1 haad * CDDL HEADER START 3 1.1 haad * 4 1.1 haad * The contents of this file are subject to the terms of the 5 1.1 haad * Common Development and Distribution License (the "License"). 6 1.1 haad * You may not use this file except in compliance with the License. 7 1.1 haad * 8 1.1 haad * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 9 1.1 haad * or http://www.opensolaris.org/os/licensing. 10 1.1 haad * See the License for the specific language governing permissions 11 1.1 haad * and limitations under the License. 12 1.1 haad * 13 1.1 haad * When distributing Covered Code, include this CDDL HEADER in each 14 1.1 haad * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 15 1.1 haad * If applicable, add the following below this CDDL HEADER, with the 16 1.1 haad * fields enclosed by brackets "[]" replaced with your own identifying 17 1.1 haad * information: Portions Copyright [yyyy] [name of copyright owner] 18 1.1 haad * 19 1.1 haad * CDDL HEADER END 20 1.1 haad */ 21 1.1 haad /* 22 1.1.1.3 chs * Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved. 23 1.1.1.3 chs * Copyright (c) 2012, 2016 by Delphix. All rights reserved. 24 1.1.1.3 chs * Copyright (c) 2014 Spectra Logic Corporation, All rights reserved. 25 1.1 haad */ 26 1.1 haad 27 1.1 haad /* 28 1.1 haad * This file contains the top half of the zfs directory structure 29 1.1 haad * implementation. The bottom half is in zap_leaf.c. 30 1.1 haad * 31 1.1 haad * The zdir is an extendable hash data structure. There is a table of 32 1.1 haad * pointers to buckets (zap_t->zd_data->zd_leafs). The buckets are 33 1.1 haad * each a constant size and hold a variable number of directory entries. 34 1.1 haad * The buckets (aka "leaf nodes") are implemented in zap_leaf.c. 35 1.1 haad * 36 1.1 haad * The pointer table holds a power of 2 number of pointers. 37 1.1 haad * (1<<zap_t->zd_data->zd_phys->zd_prefix_len). The bucket pointed to 38 1.1 haad * by the pointer at index i in the table holds entries whose hash value 39 1.1 haad * has a zd_prefix_len - bit prefix 40 1.1 haad */ 41 1.1 haad 42 1.1 haad #include <sys/spa.h> 43 1.1 haad #include <sys/dmu.h> 44 1.1 haad #include <sys/zfs_context.h> 45 1.1 haad #include <sys/zfs_znode.h> 46 1.1.1.2 haad #include <sys/fs/zfs.h> 47 1.1 haad #include <sys/zap.h> 48 1.1 haad #include <sys/refcount.h> 49 1.1 haad #include <sys/zap_impl.h> 50 1.1 haad #include <sys/zap_leaf.h> 51 1.1 haad 52 1.1 haad int fzap_default_block_shift = 14; /* 16k blocksize */ 53 1.1 haad 54 1.1.1.3 chs extern inline zap_phys_t *zap_f_phys(zap_t *zap); 55 1.1 haad 56 1.1.1.3 chs static uint64_t zap_allocate_blocks(zap_t *zap, int nblocks); 57 1.1 haad 58 1.1 haad void 59 1.1 haad fzap_byteswap(void *vbuf, size_t size) 60 1.1 haad { 61 1.1 haad uint64_t block_type; 62 1.1 haad 63 1.1 haad block_type = *(uint64_t *)vbuf; 64 1.1 haad 65 1.1 haad if (block_type == ZBT_LEAF || block_type == BSWAP_64(ZBT_LEAF)) 66 1.1 haad zap_leaf_byteswap(vbuf, size); 67 1.1 haad else { 68 1.1 haad /* it's a ptrtbl block */ 69 1.1 haad byteswap_uint64_array(vbuf, size); 70 1.1 haad } 71 1.1 haad } 72 1.1 haad 73 1.1 haad void 74 1.1.1.2 haad fzap_upgrade(zap_t *zap, dmu_tx_t *tx, zap_flags_t flags) 75 1.1 haad { 76 1.1 haad dmu_buf_t *db; 77 1.1 haad zap_leaf_t *l; 78 1.1 haad int i; 79 1.1 haad zap_phys_t *zp; 80 1.1 haad 81 1.1 haad ASSERT(RW_WRITE_HELD(&zap->zap_rwlock)); 82 1.1 haad zap->zap_ismicro = FALSE; 83 1.1 haad 84 1.1.1.3 chs zap->zap_dbu.dbu_evict_func_sync = zap_evict_sync; 85 1.1.1.3 chs zap->zap_dbu.dbu_evict_func_async = NULL; 86 1.1 haad 87 1.1 haad mutex_init(&zap->zap_f.zap_num_entries_mtx, 0, 0, 0); 88 1.1.1.3 chs zap->zap_f.zap_block_shift = highbit64(zap->zap_dbuf->db_size) - 1; 89 1.1 haad 90 1.1.1.3 chs zp = zap_f_phys(zap); 91 1.1 haad /* 92 1.1 haad * explicitly zero it since it might be coming from an 93 1.1 haad * initialized microzap 94 1.1 haad */ 95 1.1 haad bzero(zap->zap_dbuf->db_data, zap->zap_dbuf->db_size); 96 1.1 haad zp->zap_block_type = ZBT_HEADER; 97 1.1 haad zp->zap_magic = ZAP_MAGIC; 98 1.1 haad 99 1.1 haad zp->zap_ptrtbl.zt_shift = ZAP_EMBEDDED_PTRTBL_SHIFT(zap); 100 1.1 haad 101 1.1 haad zp->zap_freeblk = 2; /* block 1 will be the first leaf */ 102 1.1 haad zp->zap_num_leafs = 1; 103 1.1 haad zp->zap_num_entries = 0; 104 1.1 haad zp->zap_salt = zap->zap_salt; 105 1.1 haad zp->zap_normflags = zap->zap_normflags; 106 1.1.1.2 haad zp->zap_flags = flags; 107 1.1 haad 108 1.1 haad /* block 1 will be the first leaf */ 109 1.1 haad for (i = 0; i < (1<<zp->zap_ptrtbl.zt_shift); i++) 110 1.1 haad ZAP_EMBEDDED_PTRTBL_ENT(zap, i) = 1; 111 1.1 haad 112 1.1 haad /* 113 1.1 haad * set up block 1 - the first leaf 114 1.1 haad */ 115 1.1 haad VERIFY(0 == dmu_buf_hold(zap->zap_objset, zap->zap_object, 116 1.1.1.3 chs 1<<FZAP_BLOCK_SHIFT(zap), FTAG, &db, DMU_READ_NO_PREFETCH)); 117 1.1 haad dmu_buf_will_dirty(db, tx); 118 1.1 haad 119 1.1 haad l = kmem_zalloc(sizeof (zap_leaf_t), KM_SLEEP); 120 1.1 haad l->l_dbuf = db; 121 1.1 haad 122 1.1 haad zap_leaf_init(l, zp->zap_normflags != 0); 123 1.1 haad 124 1.1 haad kmem_free(l, sizeof (zap_leaf_t)); 125 1.1 haad dmu_buf_rele(db, FTAG); 126 1.1 haad } 127 1.1 haad 128 1.1 haad static int 129 1.1 haad zap_tryupgradedir(zap_t *zap, dmu_tx_t *tx) 130 1.1 haad { 131 1.1 haad if (RW_WRITE_HELD(&zap->zap_rwlock)) 132 1.1 haad return (1); 133 1.1 haad if (rw_tryupgrade(&zap->zap_rwlock)) { 134 1.1 haad dmu_buf_will_dirty(zap->zap_dbuf, tx); 135 1.1 haad return (1); 136 1.1 haad } 137 1.1 haad return (0); 138 1.1 haad } 139 1.1 haad 140 1.1 haad /* 141 1.1 haad * Generic routines for dealing with the pointer & cookie tables. 142 1.1 haad */ 143 1.1 haad 144 1.1 haad static int 145 1.1 haad zap_table_grow(zap_t *zap, zap_table_phys_t *tbl, 146 1.1 haad void (*transfer_func)(const uint64_t *src, uint64_t *dst, int n), 147 1.1 haad dmu_tx_t *tx) 148 1.1 haad { 149 1.1 haad uint64_t b, newblk; 150 1.1 haad dmu_buf_t *db_old, *db_new; 151 1.1 haad int err; 152 1.1 haad int bs = FZAP_BLOCK_SHIFT(zap); 153 1.1 haad int hepb = 1<<(bs-4); 154 1.1 haad /* hepb = half the number of entries in a block */ 155 1.1 haad 156 1.1 haad ASSERT(RW_WRITE_HELD(&zap->zap_rwlock)); 157 1.1 haad ASSERT(tbl->zt_blk != 0); 158 1.1 haad ASSERT(tbl->zt_numblks > 0); 159 1.1 haad 160 1.1 haad if (tbl->zt_nextblk != 0) { 161 1.1 haad newblk = tbl->zt_nextblk; 162 1.1 haad } else { 163 1.1 haad newblk = zap_allocate_blocks(zap, tbl->zt_numblks * 2); 164 1.1 haad tbl->zt_nextblk = newblk; 165 1.1.1.3 chs ASSERT0(tbl->zt_blks_copied); 166 1.1.1.3 chs dmu_prefetch(zap->zap_objset, zap->zap_object, 0, 167 1.1.1.3 chs tbl->zt_blk << bs, tbl->zt_numblks << bs, 168 1.1.1.3 chs ZIO_PRIORITY_SYNC_READ); 169 1.1 haad } 170 1.1 haad 171 1.1 haad /* 172 1.1 haad * Copy the ptrtbl from the old to new location. 173 1.1 haad */ 174 1.1 haad 175 1.1 haad b = tbl->zt_blks_copied; 176 1.1 haad err = dmu_buf_hold(zap->zap_objset, zap->zap_object, 177 1.1.1.3 chs (tbl->zt_blk + b) << bs, FTAG, &db_old, DMU_READ_NO_PREFETCH); 178 1.1 haad if (err) 179 1.1 haad return (err); 180 1.1 haad 181 1.1 haad /* first half of entries in old[b] go to new[2*b+0] */ 182 1.1 haad VERIFY(0 == dmu_buf_hold(zap->zap_objset, zap->zap_object, 183 1.1.1.3 chs (newblk + 2*b+0) << bs, FTAG, &db_new, DMU_READ_NO_PREFETCH)); 184 1.1 haad dmu_buf_will_dirty(db_new, tx); 185 1.1 haad transfer_func(db_old->db_data, db_new->db_data, hepb); 186 1.1 haad dmu_buf_rele(db_new, FTAG); 187 1.1 haad 188 1.1 haad /* second half of entries in old[b] go to new[2*b+1] */ 189 1.1 haad VERIFY(0 == dmu_buf_hold(zap->zap_objset, zap->zap_object, 190 1.1.1.3 chs (newblk + 2*b+1) << bs, FTAG, &db_new, DMU_READ_NO_PREFETCH)); 191 1.1 haad dmu_buf_will_dirty(db_new, tx); 192 1.1 haad transfer_func((uint64_t *)db_old->db_data + hepb, 193 1.1 haad db_new->db_data, hepb); 194 1.1 haad dmu_buf_rele(db_new, FTAG); 195 1.1 haad 196 1.1 haad dmu_buf_rele(db_old, FTAG); 197 1.1 haad 198 1.1 haad tbl->zt_blks_copied++; 199 1.1 haad 200 1.1 haad dprintf("copied block %llu of %llu\n", 201 1.1 haad tbl->zt_blks_copied, tbl->zt_numblks); 202 1.1 haad 203 1.1 haad if (tbl->zt_blks_copied == tbl->zt_numblks) { 204 1.1 haad (void) dmu_free_range(zap->zap_objset, zap->zap_object, 205 1.1 haad tbl->zt_blk << bs, tbl->zt_numblks << bs, tx); 206 1.1 haad 207 1.1 haad tbl->zt_blk = newblk; 208 1.1 haad tbl->zt_numblks *= 2; 209 1.1 haad tbl->zt_shift++; 210 1.1 haad tbl->zt_nextblk = 0; 211 1.1 haad tbl->zt_blks_copied = 0; 212 1.1 haad 213 1.1 haad dprintf("finished; numblocks now %llu (%lluk entries)\n", 214 1.1 haad tbl->zt_numblks, 1<<(tbl->zt_shift-10)); 215 1.1 haad } 216 1.1 haad 217 1.1 haad return (0); 218 1.1 haad } 219 1.1 haad 220 1.1 haad static int 221 1.1 haad zap_table_store(zap_t *zap, zap_table_phys_t *tbl, uint64_t idx, uint64_t val, 222 1.1 haad dmu_tx_t *tx) 223 1.1 haad { 224 1.1 haad int err; 225 1.1 haad uint64_t blk, off; 226 1.1 haad int bs = FZAP_BLOCK_SHIFT(zap); 227 1.1 haad dmu_buf_t *db; 228 1.1 haad 229 1.1 haad ASSERT(RW_LOCK_HELD(&zap->zap_rwlock)); 230 1.1 haad ASSERT(tbl->zt_blk != 0); 231 1.1 haad 232 1.1 haad dprintf("storing %llx at index %llx\n", val, idx); 233 1.1 haad 234 1.1 haad blk = idx >> (bs-3); 235 1.1 haad off = idx & ((1<<(bs-3))-1); 236 1.1 haad 237 1.1 haad err = dmu_buf_hold(zap->zap_objset, zap->zap_object, 238 1.1.1.3 chs (tbl->zt_blk + blk) << bs, FTAG, &db, DMU_READ_NO_PREFETCH); 239 1.1 haad if (err) 240 1.1 haad return (err); 241 1.1 haad dmu_buf_will_dirty(db, tx); 242 1.1 haad 243 1.1 haad if (tbl->zt_nextblk != 0) { 244 1.1 haad uint64_t idx2 = idx * 2; 245 1.1 haad uint64_t blk2 = idx2 >> (bs-3); 246 1.1 haad uint64_t off2 = idx2 & ((1<<(bs-3))-1); 247 1.1 haad dmu_buf_t *db2; 248 1.1 haad 249 1.1 haad err = dmu_buf_hold(zap->zap_objset, zap->zap_object, 250 1.1.1.3 chs (tbl->zt_nextblk + blk2) << bs, FTAG, &db2, 251 1.1.1.3 chs DMU_READ_NO_PREFETCH); 252 1.1 haad if (err) { 253 1.1 haad dmu_buf_rele(db, FTAG); 254 1.1 haad return (err); 255 1.1 haad } 256 1.1 haad dmu_buf_will_dirty(db2, tx); 257 1.1 haad ((uint64_t *)db2->db_data)[off2] = val; 258 1.1 haad ((uint64_t *)db2->db_data)[off2+1] = val; 259 1.1 haad dmu_buf_rele(db2, FTAG); 260 1.1 haad } 261 1.1 haad 262 1.1 haad ((uint64_t *)db->db_data)[off] = val; 263 1.1 haad dmu_buf_rele(db, FTAG); 264 1.1 haad 265 1.1 haad return (0); 266 1.1 haad } 267 1.1 haad 268 1.1 haad static int 269 1.1 haad zap_table_load(zap_t *zap, zap_table_phys_t *tbl, uint64_t idx, uint64_t *valp) 270 1.1 haad { 271 1.1 haad uint64_t blk, off; 272 1.1 haad int err; 273 1.1 haad dmu_buf_t *db; 274 1.1.1.3 chs dnode_t *dn; 275 1.1 haad int bs = FZAP_BLOCK_SHIFT(zap); 276 1.1 haad 277 1.1 haad ASSERT(RW_LOCK_HELD(&zap->zap_rwlock)); 278 1.1 haad 279 1.1 haad blk = idx >> (bs-3); 280 1.1 haad off = idx & ((1<<(bs-3))-1); 281 1.1 haad 282 1.1.1.3 chs /* 283 1.1.1.3 chs * Note: this is equivalent to dmu_buf_hold(), but we use 284 1.1.1.3 chs * _dnode_enter / _by_dnode because it's faster because we don't 285 1.1.1.3 chs * have to hold the dnode. 286 1.1.1.3 chs */ 287 1.1.1.3 chs dn = dmu_buf_dnode_enter(zap->zap_dbuf); 288 1.1.1.3 chs err = dmu_buf_hold_by_dnode(dn, 289 1.1.1.3 chs (tbl->zt_blk + blk) << bs, FTAG, &db, DMU_READ_NO_PREFETCH); 290 1.1.1.3 chs dmu_buf_dnode_exit(zap->zap_dbuf); 291 1.1 haad if (err) 292 1.1 haad return (err); 293 1.1 haad *valp = ((uint64_t *)db->db_data)[off]; 294 1.1 haad dmu_buf_rele(db, FTAG); 295 1.1 haad 296 1.1 haad if (tbl->zt_nextblk != 0) { 297 1.1 haad /* 298 1.1 haad * read the nextblk for the sake of i/o error checking, 299 1.1 haad * so that zap_table_load() will catch errors for 300 1.1 haad * zap_table_store. 301 1.1 haad */ 302 1.1 haad blk = (idx*2) >> (bs-3); 303 1.1 haad 304 1.1.1.3 chs dn = dmu_buf_dnode_enter(zap->zap_dbuf); 305 1.1.1.3 chs err = dmu_buf_hold_by_dnode(dn, 306 1.1.1.3 chs (tbl->zt_nextblk + blk) << bs, FTAG, &db, 307 1.1.1.3 chs DMU_READ_NO_PREFETCH); 308 1.1.1.3 chs dmu_buf_dnode_exit(zap->zap_dbuf); 309 1.1.1.3 chs if (err == 0) 310 1.1.1.3 chs dmu_buf_rele(db, FTAG); 311 1.1 haad } 312 1.1 haad return (err); 313 1.1 haad } 314 1.1 haad 315 1.1 haad /* 316 1.1 haad * Routines for growing the ptrtbl. 317 1.1 haad */ 318 1.1 haad 319 1.1 haad static void 320 1.1 haad zap_ptrtbl_transfer(const uint64_t *src, uint64_t *dst, int n) 321 1.1 haad { 322 1.1 haad int i; 323 1.1 haad for (i = 0; i < n; i++) { 324 1.1 haad uint64_t lb = src[i]; 325 1.1 haad dst[2*i+0] = lb; 326 1.1 haad dst[2*i+1] = lb; 327 1.1 haad } 328 1.1 haad } 329 1.1 haad 330 1.1 haad static int 331 1.1 haad zap_grow_ptrtbl(zap_t *zap, dmu_tx_t *tx) 332 1.1 haad { 333 1.1.1.2 haad /* 334 1.1.1.2 haad * The pointer table should never use more hash bits than we 335 1.1.1.2 haad * have (otherwise we'd be using useless zero bits to index it). 336 1.1.1.2 haad * If we are within 2 bits of running out, stop growing, since 337 1.1.1.2 haad * this is already an aberrant condition. 338 1.1.1.2 haad */ 339 1.1.1.3 chs if (zap_f_phys(zap)->zap_ptrtbl.zt_shift >= zap_hashbits(zap) - 2) 340 1.1.1.3 chs return (SET_ERROR(ENOSPC)); 341 1.1 haad 342 1.1.1.3 chs if (zap_f_phys(zap)->zap_ptrtbl.zt_numblks == 0) { 343 1.1 haad /* 344 1.1 haad * We are outgrowing the "embedded" ptrtbl (the one 345 1.1 haad * stored in the header block). Give it its own entire 346 1.1 haad * block, which will double the size of the ptrtbl. 347 1.1 haad */ 348 1.1 haad uint64_t newblk; 349 1.1 haad dmu_buf_t *db_new; 350 1.1 haad int err; 351 1.1 haad 352 1.1.1.3 chs ASSERT3U(zap_f_phys(zap)->zap_ptrtbl.zt_shift, ==, 353 1.1 haad ZAP_EMBEDDED_PTRTBL_SHIFT(zap)); 354 1.1.1.3 chs ASSERT0(zap_f_phys(zap)->zap_ptrtbl.zt_blk); 355 1.1 haad 356 1.1 haad newblk = zap_allocate_blocks(zap, 1); 357 1.1 haad err = dmu_buf_hold(zap->zap_objset, zap->zap_object, 358 1.1.1.3 chs newblk << FZAP_BLOCK_SHIFT(zap), FTAG, &db_new, 359 1.1.1.3 chs DMU_READ_NO_PREFETCH); 360 1.1 haad if (err) 361 1.1 haad return (err); 362 1.1 haad dmu_buf_will_dirty(db_new, tx); 363 1.1 haad zap_ptrtbl_transfer(&ZAP_EMBEDDED_PTRTBL_ENT(zap, 0), 364 1.1 haad db_new->db_data, 1 << ZAP_EMBEDDED_PTRTBL_SHIFT(zap)); 365 1.1 haad dmu_buf_rele(db_new, FTAG); 366 1.1 haad 367 1.1.1.3 chs zap_f_phys(zap)->zap_ptrtbl.zt_blk = newblk; 368 1.1.1.3 chs zap_f_phys(zap)->zap_ptrtbl.zt_numblks = 1; 369 1.1.1.3 chs zap_f_phys(zap)->zap_ptrtbl.zt_shift++; 370 1.1 haad 371 1.1.1.3 chs ASSERT3U(1ULL << zap_f_phys(zap)->zap_ptrtbl.zt_shift, ==, 372 1.1.1.3 chs zap_f_phys(zap)->zap_ptrtbl.zt_numblks << 373 1.1 haad (FZAP_BLOCK_SHIFT(zap)-3)); 374 1.1 haad 375 1.1 haad return (0); 376 1.1 haad } else { 377 1.1.1.3 chs return (zap_table_grow(zap, &zap_f_phys(zap)->zap_ptrtbl, 378 1.1 haad zap_ptrtbl_transfer, tx)); 379 1.1 haad } 380 1.1 haad } 381 1.1 haad 382 1.1 haad static void 383 1.1 haad zap_increment_num_entries(zap_t *zap, int delta, dmu_tx_t *tx) 384 1.1 haad { 385 1.1 haad dmu_buf_will_dirty(zap->zap_dbuf, tx); 386 1.1 haad mutex_enter(&zap->zap_f.zap_num_entries_mtx); 387 1.1.1.3 chs ASSERT(delta > 0 || zap_f_phys(zap)->zap_num_entries >= -delta); 388 1.1.1.3 chs zap_f_phys(zap)->zap_num_entries += delta; 389 1.1 haad mutex_exit(&zap->zap_f.zap_num_entries_mtx); 390 1.1 haad } 391 1.1 haad 392 1.1 haad static uint64_t 393 1.1 haad zap_allocate_blocks(zap_t *zap, int nblocks) 394 1.1 haad { 395 1.1 haad uint64_t newblk; 396 1.1 haad ASSERT(RW_WRITE_HELD(&zap->zap_rwlock)); 397 1.1.1.3 chs newblk = zap_f_phys(zap)->zap_freeblk; 398 1.1.1.3 chs zap_f_phys(zap)->zap_freeblk += nblocks; 399 1.1 haad return (newblk); 400 1.1 haad } 401 1.1 haad 402 1.1.1.3 chs static void 403 1.1.1.3 chs zap_leaf_evict_sync(void *dbu) 404 1.1.1.3 chs { 405 1.1.1.3 chs zap_leaf_t *l = dbu; 406 1.1.1.3 chs 407 1.1.1.3 chs rw_destroy(&l->l_rwlock); 408 1.1.1.3 chs kmem_free(l, sizeof (zap_leaf_t)); 409 1.1.1.3 chs } 410 1.1.1.3 chs 411 1.1 haad static zap_leaf_t * 412 1.1 haad zap_create_leaf(zap_t *zap, dmu_tx_t *tx) 413 1.1 haad { 414 1.1 haad void *winner; 415 1.1.1.3 chs zap_leaf_t *l = kmem_zalloc(sizeof (zap_leaf_t), KM_SLEEP); 416 1.1 haad 417 1.1 haad ASSERT(RW_WRITE_HELD(&zap->zap_rwlock)); 418 1.1 haad 419 1.1 haad rw_init(&l->l_rwlock, 0, 0, 0); 420 1.1 haad rw_enter(&l->l_rwlock, RW_WRITER); 421 1.1 haad l->l_blkid = zap_allocate_blocks(zap, 1); 422 1.1 haad l->l_dbuf = NULL; 423 1.1 haad 424 1.1 haad VERIFY(0 == dmu_buf_hold(zap->zap_objset, zap->zap_object, 425 1.1.1.3 chs l->l_blkid << FZAP_BLOCK_SHIFT(zap), NULL, &l->l_dbuf, 426 1.1.1.3 chs DMU_READ_NO_PREFETCH)); 427 1.1.1.3 chs dmu_buf_init_user(&l->l_dbu, zap_leaf_evict_sync, NULL, &l->l_dbuf); 428 1.1.1.3 chs winner = dmu_buf_set_user(l->l_dbuf, &l->l_dbu); 429 1.1 haad ASSERT(winner == NULL); 430 1.1 haad dmu_buf_will_dirty(l->l_dbuf, tx); 431 1.1 haad 432 1.1 haad zap_leaf_init(l, zap->zap_normflags != 0); 433 1.1 haad 434 1.1.1.3 chs zap_f_phys(zap)->zap_num_leafs++; 435 1.1 haad 436 1.1 haad return (l); 437 1.1 haad } 438 1.1 haad 439 1.1 haad int 440 1.1 haad fzap_count(zap_t *zap, uint64_t *count) 441 1.1 haad { 442 1.1 haad ASSERT(!zap->zap_ismicro); 443 1.1 haad mutex_enter(&zap->zap_f.zap_num_entries_mtx); /* unnecessary */ 444 1.1.1.3 chs *count = zap_f_phys(zap)->zap_num_entries; 445 1.1 haad mutex_exit(&zap->zap_f.zap_num_entries_mtx); 446 1.1 haad return (0); 447 1.1 haad } 448 1.1 haad 449 1.1 haad /* 450 1.1 haad * Routines for obtaining zap_leaf_t's 451 1.1 haad */ 452 1.1 haad 453 1.1 haad void 454 1.1 haad zap_put_leaf(zap_leaf_t *l) 455 1.1 haad { 456 1.1 haad rw_exit(&l->l_rwlock); 457 1.1 haad dmu_buf_rele(l->l_dbuf, NULL); 458 1.1 haad } 459 1.1 haad 460 1.1 haad static zap_leaf_t * 461 1.1 haad zap_open_leaf(uint64_t blkid, dmu_buf_t *db) 462 1.1 haad { 463 1.1 haad zap_leaf_t *l, *winner; 464 1.1 haad 465 1.1 haad ASSERT(blkid != 0); 466 1.1 haad 467 1.1.1.3 chs l = kmem_zalloc(sizeof (zap_leaf_t), KM_SLEEP); 468 1.1 haad rw_init(&l->l_rwlock, 0, 0, 0); 469 1.1 haad rw_enter(&l->l_rwlock, RW_WRITER); 470 1.1 haad l->l_blkid = blkid; 471 1.1.1.3 chs l->l_bs = highbit64(db->db_size) - 1; 472 1.1 haad l->l_dbuf = db; 473 1.1 haad 474 1.1.1.3 chs dmu_buf_init_user(&l->l_dbu, zap_leaf_evict_sync, NULL, &l->l_dbuf); 475 1.1.1.3 chs winner = dmu_buf_set_user(db, &l->l_dbu); 476 1.1 haad 477 1.1 haad rw_exit(&l->l_rwlock); 478 1.1 haad if (winner != NULL) { 479 1.1 haad /* someone else set it first */ 480 1.1.1.3 chs zap_leaf_evict_sync(&l->l_dbu); 481 1.1 haad l = winner; 482 1.1 haad } 483 1.1 haad 484 1.1 haad /* 485 1.1 haad * lhr_pad was previously used for the next leaf in the leaf 486 1.1 haad * chain. There should be no chained leafs (as we have removed 487 1.1 haad * support for them). 488 1.1 haad */ 489 1.1.1.3 chs ASSERT0(zap_leaf_phys(l)->l_hdr.lh_pad1); 490 1.1 haad 491 1.1 haad /* 492 1.1 haad * There should be more hash entries than there can be 493 1.1 haad * chunks to put in the hash table 494 1.1 haad */ 495 1.1 haad ASSERT3U(ZAP_LEAF_HASH_NUMENTRIES(l), >, ZAP_LEAF_NUMCHUNKS(l) / 3); 496 1.1 haad 497 1.1 haad /* The chunks should begin at the end of the hash table */ 498 1.1 haad ASSERT3P(&ZAP_LEAF_CHUNK(l, 0), ==, 499 1.1.1.3 chs &zap_leaf_phys(l)->l_hash[ZAP_LEAF_HASH_NUMENTRIES(l)]); 500 1.1 haad 501 1.1 haad /* The chunks should end at the end of the block */ 502 1.1 haad ASSERT3U((uintptr_t)&ZAP_LEAF_CHUNK(l, ZAP_LEAF_NUMCHUNKS(l)) - 503 1.1.1.3 chs (uintptr_t)zap_leaf_phys(l), ==, l->l_dbuf->db_size); 504 1.1 haad 505 1.1 haad return (l); 506 1.1 haad } 507 1.1 haad 508 1.1 haad static int 509 1.1 haad zap_get_leaf_byblk(zap_t *zap, uint64_t blkid, dmu_tx_t *tx, krw_t lt, 510 1.1 haad zap_leaf_t **lp) 511 1.1 haad { 512 1.1 haad dmu_buf_t *db; 513 1.1 haad zap_leaf_t *l; 514 1.1 haad int bs = FZAP_BLOCK_SHIFT(zap); 515 1.1 haad int err; 516 1.1 haad 517 1.1 haad ASSERT(RW_LOCK_HELD(&zap->zap_rwlock)); 518 1.1 haad 519 1.1.1.3 chs dnode_t *dn = dmu_buf_dnode_enter(zap->zap_dbuf); 520 1.1.1.3 chs err = dmu_buf_hold_by_dnode(dn, 521 1.1.1.3 chs blkid << bs, NULL, &db, DMU_READ_NO_PREFETCH); 522 1.1.1.3 chs dmu_buf_dnode_exit(zap->zap_dbuf); 523 1.1 haad if (err) 524 1.1 haad return (err); 525 1.1 haad 526 1.1 haad ASSERT3U(db->db_object, ==, zap->zap_object); 527 1.1 haad ASSERT3U(db->db_offset, ==, blkid << bs); 528 1.1 haad ASSERT3U(db->db_size, ==, 1 << bs); 529 1.1 haad ASSERT(blkid != 0); 530 1.1 haad 531 1.1 haad l = dmu_buf_get_user(db); 532 1.1 haad 533 1.1 haad if (l == NULL) 534 1.1 haad l = zap_open_leaf(blkid, db); 535 1.1 haad 536 1.1 haad rw_enter(&l->l_rwlock, lt); 537 1.1 haad /* 538 1.1.1.3 chs * Must lock before dirtying, otherwise zap_leaf_phys(l) could change, 539 1.1 haad * causing ASSERT below to fail. 540 1.1 haad */ 541 1.1 haad if (lt == RW_WRITER) 542 1.1 haad dmu_buf_will_dirty(db, tx); 543 1.1 haad ASSERT3U(l->l_blkid, ==, blkid); 544 1.1 haad ASSERT3P(l->l_dbuf, ==, db); 545 1.1.1.3 chs ASSERT3U(zap_leaf_phys(l)->l_hdr.lh_block_type, ==, ZBT_LEAF); 546 1.1.1.3 chs ASSERT3U(zap_leaf_phys(l)->l_hdr.lh_magic, ==, ZAP_LEAF_MAGIC); 547 1.1 haad 548 1.1 haad *lp = l; 549 1.1 haad return (0); 550 1.1 haad } 551 1.1 haad 552 1.1 haad static int 553 1.1 haad zap_idx_to_blk(zap_t *zap, uint64_t idx, uint64_t *valp) 554 1.1 haad { 555 1.1 haad ASSERT(RW_LOCK_HELD(&zap->zap_rwlock)); 556 1.1 haad 557 1.1.1.3 chs if (zap_f_phys(zap)->zap_ptrtbl.zt_numblks == 0) { 558 1.1 haad ASSERT3U(idx, <, 559 1.1.1.3 chs (1ULL << zap_f_phys(zap)->zap_ptrtbl.zt_shift)); 560 1.1 haad *valp = ZAP_EMBEDDED_PTRTBL_ENT(zap, idx); 561 1.1 haad return (0); 562 1.1 haad } else { 563 1.1.1.3 chs return (zap_table_load(zap, &zap_f_phys(zap)->zap_ptrtbl, 564 1.1 haad idx, valp)); 565 1.1 haad } 566 1.1 haad } 567 1.1 haad 568 1.1 haad static int 569 1.1 haad zap_set_idx_to_blk(zap_t *zap, uint64_t idx, uint64_t blk, dmu_tx_t *tx) 570 1.1 haad { 571 1.1 haad ASSERT(tx != NULL); 572 1.1 haad ASSERT(RW_WRITE_HELD(&zap->zap_rwlock)); 573 1.1 haad 574 1.1.1.3 chs if (zap_f_phys(zap)->zap_ptrtbl.zt_blk == 0) { 575 1.1 haad ZAP_EMBEDDED_PTRTBL_ENT(zap, idx) = blk; 576 1.1 haad return (0); 577 1.1 haad } else { 578 1.1.1.3 chs return (zap_table_store(zap, &zap_f_phys(zap)->zap_ptrtbl, 579 1.1 haad idx, blk, tx)); 580 1.1 haad } 581 1.1 haad } 582 1.1 haad 583 1.1 haad static int 584 1.1 haad zap_deref_leaf(zap_t *zap, uint64_t h, dmu_tx_t *tx, krw_t lt, zap_leaf_t **lp) 585 1.1 haad { 586 1.1 haad uint64_t idx, blk; 587 1.1 haad int err; 588 1.1 haad 589 1.1 haad ASSERT(zap->zap_dbuf == NULL || 590 1.1.1.3 chs zap_f_phys(zap) == zap->zap_dbuf->db_data); 591 1.1.1.3 chs 592 1.1.1.3 chs /* Reality check for corrupt zap objects (leaf or header). */ 593 1.1.1.3 chs if ((zap_f_phys(zap)->zap_block_type != ZBT_LEAF && 594 1.1.1.3 chs zap_f_phys(zap)->zap_block_type != ZBT_HEADER) || 595 1.1.1.3 chs zap_f_phys(zap)->zap_magic != ZAP_MAGIC) { 596 1.1.1.3 chs return (SET_ERROR(EIO)); 597 1.1.1.3 chs } 598 1.1.1.3 chs 599 1.1.1.3 chs idx = ZAP_HASH_IDX(h, zap_f_phys(zap)->zap_ptrtbl.zt_shift); 600 1.1 haad err = zap_idx_to_blk(zap, idx, &blk); 601 1.1 haad if (err != 0) 602 1.1 haad return (err); 603 1.1 haad err = zap_get_leaf_byblk(zap, blk, tx, lt, lp); 604 1.1 haad 605 1.1.1.3 chs ASSERT(err || 606 1.1.1.3 chs ZAP_HASH_IDX(h, zap_leaf_phys(*lp)->l_hdr.lh_prefix_len) == 607 1.1.1.3 chs zap_leaf_phys(*lp)->l_hdr.lh_prefix); 608 1.1 haad return (err); 609 1.1 haad } 610 1.1 haad 611 1.1 haad static int 612 1.1.1.3 chs zap_expand_leaf(zap_name_t *zn, zap_leaf_t *l, 613 1.1.1.3 chs void *tag, dmu_tx_t *tx, zap_leaf_t **lp) 614 1.1 haad { 615 1.1 haad zap_t *zap = zn->zn_zap; 616 1.1 haad uint64_t hash = zn->zn_hash; 617 1.1 haad zap_leaf_t *nl; 618 1.1 haad int prefix_diff, i, err; 619 1.1 haad uint64_t sibling; 620 1.1.1.3 chs int old_prefix_len = zap_leaf_phys(l)->l_hdr.lh_prefix_len; 621 1.1 haad 622 1.1.1.3 chs ASSERT3U(old_prefix_len, <=, zap_f_phys(zap)->zap_ptrtbl.zt_shift); 623 1.1 haad ASSERT(RW_LOCK_HELD(&zap->zap_rwlock)); 624 1.1 haad 625 1.1 haad ASSERT3U(ZAP_HASH_IDX(hash, old_prefix_len), ==, 626 1.1.1.3 chs zap_leaf_phys(l)->l_hdr.lh_prefix); 627 1.1 haad 628 1.1 haad if (zap_tryupgradedir(zap, tx) == 0 || 629 1.1.1.3 chs old_prefix_len == zap_f_phys(zap)->zap_ptrtbl.zt_shift) { 630 1.1 haad /* We failed to upgrade, or need to grow the pointer table */ 631 1.1 haad objset_t *os = zap->zap_objset; 632 1.1 haad uint64_t object = zap->zap_object; 633 1.1 haad 634 1.1 haad zap_put_leaf(l); 635 1.1.1.3 chs zap_unlockdir(zap, tag); 636 1.1 haad err = zap_lockdir(os, object, tx, RW_WRITER, 637 1.1.1.3 chs FALSE, FALSE, tag, &zn->zn_zap); 638 1.1 haad zap = zn->zn_zap; 639 1.1 haad if (err) 640 1.1 haad return (err); 641 1.1 haad ASSERT(!zap->zap_ismicro); 642 1.1 haad 643 1.1 haad while (old_prefix_len == 644 1.1.1.3 chs zap_f_phys(zap)->zap_ptrtbl.zt_shift) { 645 1.1 haad err = zap_grow_ptrtbl(zap, tx); 646 1.1 haad if (err) 647 1.1 haad return (err); 648 1.1 haad } 649 1.1 haad 650 1.1 haad err = zap_deref_leaf(zap, hash, tx, RW_WRITER, &l); 651 1.1 haad if (err) 652 1.1 haad return (err); 653 1.1 haad 654 1.1.1.3 chs if (zap_leaf_phys(l)->l_hdr.lh_prefix_len != old_prefix_len) { 655 1.1 haad /* it split while our locks were down */ 656 1.1 haad *lp = l; 657 1.1 haad return (0); 658 1.1 haad } 659 1.1 haad } 660 1.1 haad ASSERT(RW_WRITE_HELD(&zap->zap_rwlock)); 661 1.1.1.3 chs ASSERT3U(old_prefix_len, <, zap_f_phys(zap)->zap_ptrtbl.zt_shift); 662 1.1 haad ASSERT3U(ZAP_HASH_IDX(hash, old_prefix_len), ==, 663 1.1.1.3 chs zap_leaf_phys(l)->l_hdr.lh_prefix); 664 1.1 haad 665 1.1.1.3 chs prefix_diff = zap_f_phys(zap)->zap_ptrtbl.zt_shift - 666 1.1 haad (old_prefix_len + 1); 667 1.1 haad sibling = (ZAP_HASH_IDX(hash, old_prefix_len + 1) | 1) << prefix_diff; 668 1.1 haad 669 1.1 haad /* check for i/o errors before doing zap_leaf_split */ 670 1.1 haad for (i = 0; i < (1ULL<<prefix_diff); i++) { 671 1.1 haad uint64_t blk; 672 1.1 haad err = zap_idx_to_blk(zap, sibling+i, &blk); 673 1.1 haad if (err) 674 1.1 haad return (err); 675 1.1 haad ASSERT3U(blk, ==, l->l_blkid); 676 1.1 haad } 677 1.1 haad 678 1.1 haad nl = zap_create_leaf(zap, tx); 679 1.1 haad zap_leaf_split(l, nl, zap->zap_normflags != 0); 680 1.1 haad 681 1.1 haad /* set sibling pointers */ 682 1.1.1.3 chs for (i = 0; i < (1ULL << prefix_diff); i++) { 683 1.1 haad err = zap_set_idx_to_blk(zap, sibling+i, nl->l_blkid, tx); 684 1.1.1.3 chs ASSERT0(err); /* we checked for i/o errors above */ 685 1.1 haad } 686 1.1 haad 687 1.1.1.3 chs if (hash & (1ULL << (64 - zap_leaf_phys(l)->l_hdr.lh_prefix_len))) { 688 1.1 haad /* we want the sibling */ 689 1.1 haad zap_put_leaf(l); 690 1.1 haad *lp = nl; 691 1.1 haad } else { 692 1.1 haad zap_put_leaf(nl); 693 1.1 haad *lp = l; 694 1.1 haad } 695 1.1 haad 696 1.1 haad return (0); 697 1.1 haad } 698 1.1 haad 699 1.1 haad static void 700 1.1.1.3 chs zap_put_leaf_maybe_grow_ptrtbl(zap_name_t *zn, zap_leaf_t *l, 701 1.1.1.3 chs void *tag, dmu_tx_t *tx) 702 1.1 haad { 703 1.1 haad zap_t *zap = zn->zn_zap; 704 1.1.1.3 chs int shift = zap_f_phys(zap)->zap_ptrtbl.zt_shift; 705 1.1.1.3 chs int leaffull = (zap_leaf_phys(l)->l_hdr.lh_prefix_len == shift && 706 1.1.1.3 chs zap_leaf_phys(l)->l_hdr.lh_nfree < ZAP_LEAF_LOW_WATER); 707 1.1 haad 708 1.1 haad zap_put_leaf(l); 709 1.1 haad 710 1.1.1.3 chs if (leaffull || zap_f_phys(zap)->zap_ptrtbl.zt_nextblk) { 711 1.1 haad int err; 712 1.1 haad 713 1.1 haad /* 714 1.1 haad * We are in the middle of growing the pointer table, or 715 1.1 haad * this leaf will soon make us grow it. 716 1.1 haad */ 717 1.1 haad if (zap_tryupgradedir(zap, tx) == 0) { 718 1.1 haad objset_t *os = zap->zap_objset; 719 1.1 haad uint64_t zapobj = zap->zap_object; 720 1.1 haad 721 1.1.1.3 chs zap_unlockdir(zap, tag); 722 1.1 haad err = zap_lockdir(os, zapobj, tx, 723 1.1.1.3 chs RW_WRITER, FALSE, FALSE, tag, &zn->zn_zap); 724 1.1 haad zap = zn->zn_zap; 725 1.1 haad if (err) 726 1.1 haad return; 727 1.1 haad } 728 1.1 haad 729 1.1 haad /* could have finished growing while our locks were down */ 730 1.1.1.3 chs if (zap_f_phys(zap)->zap_ptrtbl.zt_shift == shift) 731 1.1 haad (void) zap_grow_ptrtbl(zap, tx); 732 1.1 haad } 733 1.1 haad } 734 1.1 haad 735 1.1 haad static int 736 1.1.1.2 haad fzap_checkname(zap_name_t *zn) 737 1.1 haad { 738 1.1.1.2 haad if (zn->zn_key_orig_numints * zn->zn_key_intlen > ZAP_MAXNAMELEN) 739 1.1.1.3 chs return (SET_ERROR(ENAMETOOLONG)); 740 1.1.1.2 haad return (0); 741 1.1.1.2 haad } 742 1.1 haad 743 1.1.1.2 haad static int 744 1.1.1.2 haad fzap_checksize(uint64_t integer_size, uint64_t num_integers) 745 1.1.1.2 haad { 746 1.1 haad /* Only integer sizes supported by C */ 747 1.1 haad switch (integer_size) { 748 1.1 haad case 1: 749 1.1 haad case 2: 750 1.1 haad case 4: 751 1.1 haad case 8: 752 1.1 haad break; 753 1.1 haad default: 754 1.1.1.3 chs return (SET_ERROR(EINVAL)); 755 1.1 haad } 756 1.1 haad 757 1.1 haad if (integer_size * num_integers > ZAP_MAXVALUELEN) 758 1.1 haad return (E2BIG); 759 1.1 haad 760 1.1 haad return (0); 761 1.1 haad } 762 1.1 haad 763 1.1.1.2 haad static int 764 1.1.1.2 haad fzap_check(zap_name_t *zn, uint64_t integer_size, uint64_t num_integers) 765 1.1.1.2 haad { 766 1.1.1.2 haad int err; 767 1.1.1.2 haad 768 1.1.1.2 haad if ((err = fzap_checkname(zn)) != 0) 769 1.1.1.2 haad return (err); 770 1.1.1.2 haad return (fzap_checksize(integer_size, num_integers)); 771 1.1.1.2 haad } 772 1.1.1.2 haad 773 1.1 haad /* 774 1.1 haad * Routines for manipulating attributes. 775 1.1 haad */ 776 1.1 haad int 777 1.1 haad fzap_lookup(zap_name_t *zn, 778 1.1 haad uint64_t integer_size, uint64_t num_integers, void *buf, 779 1.1 haad char *realname, int rn_len, boolean_t *ncp) 780 1.1 haad { 781 1.1 haad zap_leaf_t *l; 782 1.1 haad int err; 783 1.1 haad zap_entry_handle_t zeh; 784 1.1 haad 785 1.1.1.2 haad if ((err = fzap_checkname(zn)) != 0) 786 1.1 haad return (err); 787 1.1 haad 788 1.1 haad err = zap_deref_leaf(zn->zn_zap, zn->zn_hash, NULL, RW_READER, &l); 789 1.1 haad if (err != 0) 790 1.1 haad return (err); 791 1.1 haad err = zap_leaf_lookup(l, zn, &zeh); 792 1.1 haad if (err == 0) { 793 1.1.1.2 haad if ((err = fzap_checksize(integer_size, num_integers)) != 0) { 794 1.1.1.2 haad zap_put_leaf(l); 795 1.1.1.2 haad return (err); 796 1.1.1.2 haad } 797 1.1.1.2 haad 798 1.1 haad err = zap_entry_read(&zeh, integer_size, num_integers, buf); 799 1.1.1.2 haad (void) zap_entry_read_name(zn->zn_zap, &zeh, rn_len, realname); 800 1.1 haad if (ncp) { 801 1.1 haad *ncp = zap_entry_normalization_conflict(&zeh, 802 1.1 haad zn, NULL, zn->zn_zap); 803 1.1 haad } 804 1.1 haad } 805 1.1 haad 806 1.1 haad zap_put_leaf(l); 807 1.1 haad return (err); 808 1.1 haad } 809 1.1 haad 810 1.1 haad int 811 1.1 haad fzap_add_cd(zap_name_t *zn, 812 1.1 haad uint64_t integer_size, uint64_t num_integers, 813 1.1.1.3 chs const void *val, uint32_t cd, void *tag, dmu_tx_t *tx) 814 1.1 haad { 815 1.1 haad zap_leaf_t *l; 816 1.1 haad int err; 817 1.1 haad zap_entry_handle_t zeh; 818 1.1 haad zap_t *zap = zn->zn_zap; 819 1.1 haad 820 1.1 haad ASSERT(RW_LOCK_HELD(&zap->zap_rwlock)); 821 1.1 haad ASSERT(!zap->zap_ismicro); 822 1.1.1.2 haad ASSERT(fzap_check(zn, integer_size, num_integers) == 0); 823 1.1 haad 824 1.1 haad err = zap_deref_leaf(zap, zn->zn_hash, tx, RW_WRITER, &l); 825 1.1 haad if (err != 0) 826 1.1 haad return (err); 827 1.1 haad retry: 828 1.1 haad err = zap_leaf_lookup(l, zn, &zeh); 829 1.1 haad if (err == 0) { 830 1.1.1.3 chs err = SET_ERROR(EEXIST); 831 1.1 haad goto out; 832 1.1 haad } 833 1.1 haad if (err != ENOENT) 834 1.1 haad goto out; 835 1.1 haad 836 1.1.1.2 haad err = zap_entry_create(l, zn, cd, 837 1.1 haad integer_size, num_integers, val, &zeh); 838 1.1 haad 839 1.1 haad if (err == 0) { 840 1.1 haad zap_increment_num_entries(zap, 1, tx); 841 1.1 haad } else if (err == EAGAIN) { 842 1.1.1.3 chs err = zap_expand_leaf(zn, l, tag, tx, &l); 843 1.1 haad zap = zn->zn_zap; /* zap_expand_leaf() may change zap */ 844 1.1 haad if (err == 0) 845 1.1 haad goto retry; 846 1.1 haad } 847 1.1 haad 848 1.1 haad out: 849 1.1 haad if (zap != NULL) 850 1.1.1.3 chs zap_put_leaf_maybe_grow_ptrtbl(zn, l, tag, tx); 851 1.1 haad return (err); 852 1.1 haad } 853 1.1 haad 854 1.1 haad int 855 1.1 haad fzap_add(zap_name_t *zn, 856 1.1 haad uint64_t integer_size, uint64_t num_integers, 857 1.1.1.3 chs const void *val, void *tag, dmu_tx_t *tx) 858 1.1 haad { 859 1.1.1.2 haad int err = fzap_check(zn, integer_size, num_integers); 860 1.1 haad if (err != 0) 861 1.1 haad return (err); 862 1.1 haad 863 1.1 haad return (fzap_add_cd(zn, integer_size, num_integers, 864 1.1.1.3 chs val, ZAP_NEED_CD, tag, tx)); 865 1.1 haad } 866 1.1 haad 867 1.1 haad int 868 1.1 haad fzap_update(zap_name_t *zn, 869 1.1.1.3 chs int integer_size, uint64_t num_integers, const void *val, 870 1.1.1.3 chs void *tag, dmu_tx_t *tx) 871 1.1 haad { 872 1.1 haad zap_leaf_t *l; 873 1.1 haad int err, create; 874 1.1 haad zap_entry_handle_t zeh; 875 1.1 haad zap_t *zap = zn->zn_zap; 876 1.1 haad 877 1.1 haad ASSERT(RW_LOCK_HELD(&zap->zap_rwlock)); 878 1.1.1.2 haad err = fzap_check(zn, integer_size, num_integers); 879 1.1 haad if (err != 0) 880 1.1 haad return (err); 881 1.1 haad 882 1.1 haad err = zap_deref_leaf(zap, zn->zn_hash, tx, RW_WRITER, &l); 883 1.1 haad if (err != 0) 884 1.1 haad return (err); 885 1.1 haad retry: 886 1.1 haad err = zap_leaf_lookup(l, zn, &zeh); 887 1.1 haad create = (err == ENOENT); 888 1.1 haad ASSERT(err == 0 || err == ENOENT); 889 1.1 haad 890 1.1 haad if (create) { 891 1.1.1.2 haad err = zap_entry_create(l, zn, ZAP_NEED_CD, 892 1.1.1.2 haad integer_size, num_integers, val, &zeh); 893 1.1 haad if (err == 0) 894 1.1 haad zap_increment_num_entries(zap, 1, tx); 895 1.1 haad } else { 896 1.1 haad err = zap_entry_update(&zeh, integer_size, num_integers, val); 897 1.1 haad } 898 1.1 haad 899 1.1 haad if (err == EAGAIN) { 900 1.1.1.3 chs err = zap_expand_leaf(zn, l, tag, tx, &l); 901 1.1 haad zap = zn->zn_zap; /* zap_expand_leaf() may change zap */ 902 1.1 haad if (err == 0) 903 1.1 haad goto retry; 904 1.1 haad } 905 1.1 haad 906 1.1 haad if (zap != NULL) 907 1.1.1.3 chs zap_put_leaf_maybe_grow_ptrtbl(zn, l, tag, tx); 908 1.1 haad return (err); 909 1.1 haad } 910 1.1 haad 911 1.1 haad int 912 1.1 haad fzap_length(zap_name_t *zn, 913 1.1 haad uint64_t *integer_size, uint64_t *num_integers) 914 1.1 haad { 915 1.1 haad zap_leaf_t *l; 916 1.1 haad int err; 917 1.1 haad zap_entry_handle_t zeh; 918 1.1 haad 919 1.1 haad err = zap_deref_leaf(zn->zn_zap, zn->zn_hash, NULL, RW_READER, &l); 920 1.1 haad if (err != 0) 921 1.1 haad return (err); 922 1.1 haad err = zap_leaf_lookup(l, zn, &zeh); 923 1.1 haad if (err != 0) 924 1.1 haad goto out; 925 1.1 haad 926 1.1 haad if (integer_size) 927 1.1 haad *integer_size = zeh.zeh_integer_size; 928 1.1 haad if (num_integers) 929 1.1 haad *num_integers = zeh.zeh_num_integers; 930 1.1 haad out: 931 1.1 haad zap_put_leaf(l); 932 1.1 haad return (err); 933 1.1 haad } 934 1.1 haad 935 1.1 haad int 936 1.1 haad fzap_remove(zap_name_t *zn, dmu_tx_t *tx) 937 1.1 haad { 938 1.1 haad zap_leaf_t *l; 939 1.1 haad int err; 940 1.1 haad zap_entry_handle_t zeh; 941 1.1 haad 942 1.1 haad err = zap_deref_leaf(zn->zn_zap, zn->zn_hash, tx, RW_WRITER, &l); 943 1.1 haad if (err != 0) 944 1.1 haad return (err); 945 1.1 haad err = zap_leaf_lookup(l, zn, &zeh); 946 1.1 haad if (err == 0) { 947 1.1 haad zap_entry_remove(&zeh); 948 1.1 haad zap_increment_num_entries(zn->zn_zap, -1, tx); 949 1.1 haad } 950 1.1 haad zap_put_leaf(l); 951 1.1 haad return (err); 952 1.1 haad } 953 1.1 haad 954 1.1.1.3 chs void 955 1.1.1.3 chs fzap_prefetch(zap_name_t *zn) 956 1.1.1.3 chs { 957 1.1.1.3 chs uint64_t idx, blk; 958 1.1.1.3 chs zap_t *zap = zn->zn_zap; 959 1.1.1.3 chs int bs; 960 1.1.1.3 chs 961 1.1.1.3 chs idx = ZAP_HASH_IDX(zn->zn_hash, 962 1.1.1.3 chs zap_f_phys(zap)->zap_ptrtbl.zt_shift); 963 1.1.1.3 chs if (zap_idx_to_blk(zap, idx, &blk) != 0) 964 1.1.1.3 chs return; 965 1.1.1.3 chs bs = FZAP_BLOCK_SHIFT(zap); 966 1.1.1.3 chs dmu_prefetch(zap->zap_objset, zap->zap_object, 0, blk << bs, 1 << bs, 967 1.1.1.3 chs ZIO_PRIORITY_SYNC_READ); 968 1.1.1.3 chs } 969 1.1.1.3 chs 970 1.1 haad /* 971 1.1 haad * Helper functions for consumers. 972 1.1 haad */ 973 1.1 haad 974 1.1.1.3 chs uint64_t 975 1.1.1.3 chs zap_create_link(objset_t *os, dmu_object_type_t ot, uint64_t parent_obj, 976 1.1.1.3 chs const char *name, dmu_tx_t *tx) 977 1.1.1.3 chs { 978 1.1.1.3 chs uint64_t new_obj; 979 1.1.1.3 chs 980 1.1.1.3 chs VERIFY((new_obj = zap_create(os, ot, DMU_OT_NONE, 0, tx)) > 0); 981 1.1.1.3 chs VERIFY0(zap_add(os, parent_obj, name, sizeof (uint64_t), 1, &new_obj, 982 1.1.1.3 chs tx)); 983 1.1.1.3 chs 984 1.1.1.3 chs return (new_obj); 985 1.1.1.3 chs } 986 1.1.1.3 chs 987 1.1 haad int 988 1.1 haad zap_value_search(objset_t *os, uint64_t zapobj, uint64_t value, uint64_t mask, 989 1.1 haad char *name) 990 1.1 haad { 991 1.1 haad zap_cursor_t zc; 992 1.1 haad zap_attribute_t *za; 993 1.1 haad int err; 994 1.1 haad 995 1.1 haad if (mask == 0) 996 1.1 haad mask = -1ULL; 997 1.1 haad 998 1.1 haad za = kmem_alloc(sizeof (zap_attribute_t), KM_SLEEP); 999 1.1 haad for (zap_cursor_init(&zc, os, zapobj); 1000 1.1 haad (err = zap_cursor_retrieve(&zc, za)) == 0; 1001 1.1 haad zap_cursor_advance(&zc)) { 1002 1.1 haad if ((za->za_first_integer & mask) == (value & mask)) { 1003 1.1 haad (void) strcpy(name, za->za_name); 1004 1.1 haad break; 1005 1.1 haad } 1006 1.1 haad } 1007 1.1 haad zap_cursor_fini(&zc); 1008 1.1 haad kmem_free(za, sizeof (zap_attribute_t)); 1009 1.1 haad return (err); 1010 1.1 haad } 1011 1.1 haad 1012 1.1 haad int 1013 1.1 haad zap_join(objset_t *os, uint64_t fromobj, uint64_t intoobj, dmu_tx_t *tx) 1014 1.1 haad { 1015 1.1 haad zap_cursor_t zc; 1016 1.1 haad zap_attribute_t za; 1017 1.1 haad int err; 1018 1.1 haad 1019 1.1.1.3 chs err = 0; 1020 1.1 haad for (zap_cursor_init(&zc, os, fromobj); 1021 1.1 haad zap_cursor_retrieve(&zc, &za) == 0; 1022 1.1 haad (void) zap_cursor_advance(&zc)) { 1023 1.1.1.3 chs if (za.za_integer_length != 8 || za.za_num_integers != 1) { 1024 1.1.1.3 chs err = SET_ERROR(EINVAL); 1025 1.1.1.3 chs break; 1026 1.1.1.3 chs } 1027 1.1 haad err = zap_add(os, intoobj, za.za_name, 1028 1.1 haad 8, 1, &za.za_first_integer, tx); 1029 1.1 haad if (err) 1030 1.1.1.3 chs break; 1031 1.1 haad } 1032 1.1 haad zap_cursor_fini(&zc); 1033 1.1.1.3 chs return (err); 1034 1.1.1.3 chs } 1035 1.1.1.3 chs 1036 1.1.1.3 chs int 1037 1.1.1.3 chs zap_join_key(objset_t *os, uint64_t fromobj, uint64_t intoobj, 1038 1.1.1.3 chs uint64_t value, dmu_tx_t *tx) 1039 1.1.1.3 chs { 1040 1.1.1.3 chs zap_cursor_t zc; 1041 1.1.1.3 chs zap_attribute_t za; 1042 1.1.1.3 chs int err; 1043 1.1.1.3 chs 1044 1.1.1.3 chs err = 0; 1045 1.1.1.3 chs for (zap_cursor_init(&zc, os, fromobj); 1046 1.1.1.3 chs zap_cursor_retrieve(&zc, &za) == 0; 1047 1.1.1.3 chs (void) zap_cursor_advance(&zc)) { 1048 1.1.1.3 chs if (za.za_integer_length != 8 || za.za_num_integers != 1) { 1049 1.1.1.3 chs err = SET_ERROR(EINVAL); 1050 1.1.1.3 chs break; 1051 1.1.1.3 chs } 1052 1.1.1.3 chs err = zap_add(os, intoobj, za.za_name, 1053 1.1.1.3 chs 8, 1, &value, tx); 1054 1.1.1.3 chs if (err) 1055 1.1.1.3 chs break; 1056 1.1.1.3 chs } 1057 1.1.1.3 chs zap_cursor_fini(&zc); 1058 1.1.1.3 chs return (err); 1059 1.1.1.3 chs } 1060 1.1.1.3 chs 1061 1.1.1.3 chs int 1062 1.1.1.3 chs zap_join_increment(objset_t *os, uint64_t fromobj, uint64_t intoobj, 1063 1.1.1.3 chs dmu_tx_t *tx) 1064 1.1.1.3 chs { 1065 1.1.1.3 chs zap_cursor_t zc; 1066 1.1.1.3 chs zap_attribute_t za; 1067 1.1.1.3 chs int err; 1068 1.1.1.3 chs 1069 1.1.1.3 chs err = 0; 1070 1.1.1.3 chs for (zap_cursor_init(&zc, os, fromobj); 1071 1.1.1.3 chs zap_cursor_retrieve(&zc, &za) == 0; 1072 1.1.1.3 chs (void) zap_cursor_advance(&zc)) { 1073 1.1.1.3 chs uint64_t delta = 0; 1074 1.1.1.3 chs 1075 1.1.1.3 chs if (za.za_integer_length != 8 || za.za_num_integers != 1) { 1076 1.1.1.3 chs err = SET_ERROR(EINVAL); 1077 1.1.1.3 chs break; 1078 1.1.1.3 chs } 1079 1.1.1.3 chs 1080 1.1.1.3 chs err = zap_lookup(os, intoobj, za.za_name, 8, 1, &delta); 1081 1.1.1.3 chs if (err != 0 && err != ENOENT) 1082 1.1.1.3 chs break; 1083 1.1.1.3 chs delta += za.za_first_integer; 1084 1.1.1.3 chs err = zap_update(os, intoobj, za.za_name, 8, 1, &delta, tx); 1085 1.1.1.3 chs if (err) 1086 1.1.1.3 chs break; 1087 1.1.1.3 chs } 1088 1.1.1.3 chs zap_cursor_fini(&zc); 1089 1.1.1.3 chs return (err); 1090 1.1 haad } 1091 1.1 haad 1092 1.1 haad int 1093 1.1 haad zap_add_int(objset_t *os, uint64_t obj, uint64_t value, dmu_tx_t *tx) 1094 1.1 haad { 1095 1.1 haad char name[20]; 1096 1.1 haad 1097 1.1 haad (void) snprintf(name, sizeof (name), "%llx", (longlong_t)value); 1098 1.1 haad return (zap_add(os, obj, name, 8, 1, &value, tx)); 1099 1.1 haad } 1100 1.1 haad 1101 1.1 haad int 1102 1.1 haad zap_remove_int(objset_t *os, uint64_t obj, uint64_t value, dmu_tx_t *tx) 1103 1.1 haad { 1104 1.1 haad char name[20]; 1105 1.1 haad 1106 1.1 haad (void) snprintf(name, sizeof (name), "%llx", (longlong_t)value); 1107 1.1 haad return (zap_remove(os, obj, name, tx)); 1108 1.1 haad } 1109 1.1 haad 1110 1.1 haad int 1111 1.1 haad zap_lookup_int(objset_t *os, uint64_t obj, uint64_t value) 1112 1.1 haad { 1113 1.1 haad char name[20]; 1114 1.1 haad 1115 1.1 haad (void) snprintf(name, sizeof (name), "%llx", (longlong_t)value); 1116 1.1 haad return (zap_lookup(os, obj, name, 8, 1, &value)); 1117 1.1 haad } 1118 1.1 haad 1119 1.1.1.2 haad int 1120 1.1.1.3 chs zap_add_int_key(objset_t *os, uint64_t obj, 1121 1.1.1.3 chs uint64_t key, uint64_t value, dmu_tx_t *tx) 1122 1.1.1.2 haad { 1123 1.1.1.2 haad char name[20]; 1124 1.1.1.3 chs 1125 1.1.1.3 chs (void) snprintf(name, sizeof (name), "%llx", (longlong_t)key); 1126 1.1.1.3 chs return (zap_add(os, obj, name, 8, 1, &value, tx)); 1127 1.1.1.3 chs } 1128 1.1.1.3 chs 1129 1.1.1.3 chs int 1130 1.1.1.3 chs zap_update_int_key(objset_t *os, uint64_t obj, 1131 1.1.1.3 chs uint64_t key, uint64_t value, dmu_tx_t *tx) 1132 1.1.1.3 chs { 1133 1.1.1.3 chs char name[20]; 1134 1.1.1.3 chs 1135 1.1.1.3 chs (void) snprintf(name, sizeof (name), "%llx", (longlong_t)key); 1136 1.1.1.3 chs return (zap_update(os, obj, name, 8, 1, &value, tx)); 1137 1.1.1.3 chs } 1138 1.1.1.3 chs 1139 1.1.1.3 chs int 1140 1.1.1.3 chs zap_lookup_int_key(objset_t *os, uint64_t obj, uint64_t key, uint64_t *valuep) 1141 1.1.1.3 chs { 1142 1.1.1.3 chs char name[20]; 1143 1.1.1.3 chs 1144 1.1.1.3 chs (void) snprintf(name, sizeof (name), "%llx", (longlong_t)key); 1145 1.1.1.3 chs return (zap_lookup(os, obj, name, 8, 1, valuep)); 1146 1.1.1.3 chs } 1147 1.1.1.3 chs 1148 1.1.1.3 chs int 1149 1.1.1.3 chs zap_increment(objset_t *os, uint64_t obj, const char *name, int64_t delta, 1150 1.1.1.3 chs dmu_tx_t *tx) 1151 1.1.1.3 chs { 1152 1.1.1.2 haad uint64_t value = 0; 1153 1.1.1.2 haad int err; 1154 1.1.1.2 haad 1155 1.1.1.2 haad if (delta == 0) 1156 1.1.1.2 haad return (0); 1157 1.1.1.2 haad 1158 1.1.1.2 haad err = zap_lookup(os, obj, name, 8, 1, &value); 1159 1.1.1.2 haad if (err != 0 && err != ENOENT) 1160 1.1.1.2 haad return (err); 1161 1.1.1.2 haad value += delta; 1162 1.1.1.2 haad if (value == 0) 1163 1.1.1.2 haad err = zap_remove(os, obj, name, tx); 1164 1.1.1.2 haad else 1165 1.1.1.2 haad err = zap_update(os, obj, name, 8, 1, &value, tx); 1166 1.1.1.2 haad return (err); 1167 1.1.1.2 haad } 1168 1.1.1.2 haad 1169 1.1.1.3 chs int 1170 1.1.1.3 chs zap_increment_int(objset_t *os, uint64_t obj, uint64_t key, int64_t delta, 1171 1.1.1.3 chs dmu_tx_t *tx) 1172 1.1.1.3 chs { 1173 1.1.1.3 chs char name[20]; 1174 1.1.1.3 chs 1175 1.1.1.3 chs (void) snprintf(name, sizeof (name), "%llx", (longlong_t)key); 1176 1.1.1.3 chs return (zap_increment(os, obj, name, delta, tx)); 1177 1.1.1.3 chs } 1178 1.1.1.2 haad 1179 1.1 haad /* 1180 1.1 haad * Routines for iterating over the attributes. 1181 1.1 haad */ 1182 1.1 haad 1183 1.1 haad int 1184 1.1 haad fzap_cursor_retrieve(zap_t *zap, zap_cursor_t *zc, zap_attribute_t *za) 1185 1.1 haad { 1186 1.1 haad int err = ENOENT; 1187 1.1 haad zap_entry_handle_t zeh; 1188 1.1 haad zap_leaf_t *l; 1189 1.1 haad 1190 1.1 haad /* retrieve the next entry at or after zc_hash/zc_cd */ 1191 1.1 haad /* if no entry, return ENOENT */ 1192 1.1 haad 1193 1.1 haad if (zc->zc_leaf && 1194 1.1 haad (ZAP_HASH_IDX(zc->zc_hash, 1195 1.1.1.3 chs zap_leaf_phys(zc->zc_leaf)->l_hdr.lh_prefix_len) != 1196 1.1.1.3 chs zap_leaf_phys(zc->zc_leaf)->l_hdr.lh_prefix)) { 1197 1.1 haad rw_enter(&zc->zc_leaf->l_rwlock, RW_READER); 1198 1.1 haad zap_put_leaf(zc->zc_leaf); 1199 1.1 haad zc->zc_leaf = NULL; 1200 1.1 haad } 1201 1.1 haad 1202 1.1 haad again: 1203 1.1 haad if (zc->zc_leaf == NULL) { 1204 1.1 haad err = zap_deref_leaf(zap, zc->zc_hash, NULL, RW_READER, 1205 1.1 haad &zc->zc_leaf); 1206 1.1 haad if (err != 0) 1207 1.1 haad return (err); 1208 1.1 haad } else { 1209 1.1 haad rw_enter(&zc->zc_leaf->l_rwlock, RW_READER); 1210 1.1 haad } 1211 1.1 haad l = zc->zc_leaf; 1212 1.1 haad 1213 1.1 haad err = zap_leaf_lookup_closest(l, zc->zc_hash, zc->zc_cd, &zeh); 1214 1.1 haad 1215 1.1 haad if (err == ENOENT) { 1216 1.1 haad uint64_t nocare = 1217 1.1.1.3 chs (1ULL << (64 - zap_leaf_phys(l)->l_hdr.lh_prefix_len)) - 1; 1218 1.1 haad zc->zc_hash = (zc->zc_hash & ~nocare) + nocare + 1; 1219 1.1 haad zc->zc_cd = 0; 1220 1.1.1.3 chs if (zap_leaf_phys(l)->l_hdr.lh_prefix_len == 0 || 1221 1.1.1.3 chs zc->zc_hash == 0) { 1222 1.1 haad zc->zc_hash = -1ULL; 1223 1.1 haad } else { 1224 1.1 haad zap_put_leaf(zc->zc_leaf); 1225 1.1 haad zc->zc_leaf = NULL; 1226 1.1 haad goto again; 1227 1.1 haad } 1228 1.1 haad } 1229 1.1 haad 1230 1.1 haad if (err == 0) { 1231 1.1 haad zc->zc_hash = zeh.zeh_hash; 1232 1.1 haad zc->zc_cd = zeh.zeh_cd; 1233 1.1 haad za->za_integer_length = zeh.zeh_integer_size; 1234 1.1 haad za->za_num_integers = zeh.zeh_num_integers; 1235 1.1 haad if (zeh.zeh_num_integers == 0) { 1236 1.1 haad za->za_first_integer = 0; 1237 1.1 haad } else { 1238 1.1 haad err = zap_entry_read(&zeh, 8, 1, &za->za_first_integer); 1239 1.1 haad ASSERT(err == 0 || err == EOVERFLOW); 1240 1.1 haad } 1241 1.1.1.2 haad err = zap_entry_read_name(zap, &zeh, 1242 1.1 haad sizeof (za->za_name), za->za_name); 1243 1.1 haad ASSERT(err == 0); 1244 1.1 haad 1245 1.1 haad za->za_normalization_conflict = 1246 1.1 haad zap_entry_normalization_conflict(&zeh, 1247 1.1 haad NULL, za->za_name, zap); 1248 1.1 haad } 1249 1.1 haad rw_exit(&zc->zc_leaf->l_rwlock); 1250 1.1 haad return (err); 1251 1.1 haad } 1252 1.1 haad 1253 1.1 haad static void 1254 1.1 haad zap_stats_ptrtbl(zap_t *zap, uint64_t *tbl, int len, zap_stats_t *zs) 1255 1.1 haad { 1256 1.1 haad int i, err; 1257 1.1 haad uint64_t lastblk = 0; 1258 1.1 haad 1259 1.1 haad /* 1260 1.1 haad * NB: if a leaf has more pointers than an entire ptrtbl block 1261 1.1 haad * can hold, then it'll be accounted for more than once, since 1262 1.1 haad * we won't have lastblk. 1263 1.1 haad */ 1264 1.1 haad for (i = 0; i < len; i++) { 1265 1.1 haad zap_leaf_t *l; 1266 1.1 haad 1267 1.1 haad if (tbl[i] == lastblk) 1268 1.1 haad continue; 1269 1.1 haad lastblk = tbl[i]; 1270 1.1 haad 1271 1.1 haad err = zap_get_leaf_byblk(zap, tbl[i], NULL, RW_READER, &l); 1272 1.1 haad if (err == 0) { 1273 1.1 haad zap_leaf_stats(zap, l, zs); 1274 1.1 haad zap_put_leaf(l); 1275 1.1 haad } 1276 1.1 haad } 1277 1.1 haad } 1278 1.1 haad 1279 1.1.1.2 haad int 1280 1.1.1.2 haad fzap_cursor_move_to_key(zap_cursor_t *zc, zap_name_t *zn) 1281 1.1.1.2 haad { 1282 1.1.1.2 haad int err; 1283 1.1.1.2 haad zap_leaf_t *l; 1284 1.1.1.2 haad zap_entry_handle_t zeh; 1285 1.1.1.2 haad 1286 1.1.1.2 haad if (zn->zn_key_orig_numints * zn->zn_key_intlen > ZAP_MAXNAMELEN) 1287 1.1.1.3 chs return (SET_ERROR(ENAMETOOLONG)); 1288 1.1.1.2 haad 1289 1.1.1.2 haad err = zap_deref_leaf(zc->zc_zap, zn->zn_hash, NULL, RW_READER, &l); 1290 1.1.1.2 haad if (err != 0) 1291 1.1.1.2 haad return (err); 1292 1.1.1.2 haad 1293 1.1.1.2 haad err = zap_leaf_lookup(l, zn, &zeh); 1294 1.1.1.2 haad if (err != 0) 1295 1.1.1.2 haad return (err); 1296 1.1.1.2 haad 1297 1.1.1.2 haad zc->zc_leaf = l; 1298 1.1.1.2 haad zc->zc_hash = zeh.zeh_hash; 1299 1.1.1.2 haad zc->zc_cd = zeh.zeh_cd; 1300 1.1.1.2 haad 1301 1.1.1.2 haad return (err); 1302 1.1.1.2 haad } 1303 1.1.1.2 haad 1304 1.1 haad void 1305 1.1 haad fzap_get_stats(zap_t *zap, zap_stats_t *zs) 1306 1.1 haad { 1307 1.1 haad int bs = FZAP_BLOCK_SHIFT(zap); 1308 1.1 haad zs->zs_blocksize = 1ULL << bs; 1309 1.1 haad 1310 1.1 haad /* 1311 1.1 haad * Set zap_phys_t fields 1312 1.1 haad */ 1313 1.1.1.3 chs zs->zs_num_leafs = zap_f_phys(zap)->zap_num_leafs; 1314 1.1.1.3 chs zs->zs_num_entries = zap_f_phys(zap)->zap_num_entries; 1315 1.1.1.3 chs zs->zs_num_blocks = zap_f_phys(zap)->zap_freeblk; 1316 1.1.1.3 chs zs->zs_block_type = zap_f_phys(zap)->zap_block_type; 1317 1.1.1.3 chs zs->zs_magic = zap_f_phys(zap)->zap_magic; 1318 1.1.1.3 chs zs->zs_salt = zap_f_phys(zap)->zap_salt; 1319 1.1 haad 1320 1.1 haad /* 1321 1.1 haad * Set zap_ptrtbl fields 1322 1.1 haad */ 1323 1.1.1.3 chs zs->zs_ptrtbl_len = 1ULL << zap_f_phys(zap)->zap_ptrtbl.zt_shift; 1324 1.1.1.3 chs zs->zs_ptrtbl_nextblk = zap_f_phys(zap)->zap_ptrtbl.zt_nextblk; 1325 1.1 haad zs->zs_ptrtbl_blks_copied = 1326 1.1.1.3 chs zap_f_phys(zap)->zap_ptrtbl.zt_blks_copied; 1327 1.1.1.3 chs zs->zs_ptrtbl_zt_blk = zap_f_phys(zap)->zap_ptrtbl.zt_blk; 1328 1.1.1.3 chs zs->zs_ptrtbl_zt_numblks = zap_f_phys(zap)->zap_ptrtbl.zt_numblks; 1329 1.1.1.3 chs zs->zs_ptrtbl_zt_shift = zap_f_phys(zap)->zap_ptrtbl.zt_shift; 1330 1.1 haad 1331 1.1.1.3 chs if (zap_f_phys(zap)->zap_ptrtbl.zt_numblks == 0) { 1332 1.1 haad /* the ptrtbl is entirely in the header block. */ 1333 1.1 haad zap_stats_ptrtbl(zap, &ZAP_EMBEDDED_PTRTBL_ENT(zap, 0), 1334 1.1 haad 1 << ZAP_EMBEDDED_PTRTBL_SHIFT(zap), zs); 1335 1.1 haad } else { 1336 1.1 haad int b; 1337 1.1 haad 1338 1.1.1.3 chs dmu_prefetch(zap->zap_objset, zap->zap_object, 0, 1339 1.1.1.3 chs zap_f_phys(zap)->zap_ptrtbl.zt_blk << bs, 1340 1.1.1.3 chs zap_f_phys(zap)->zap_ptrtbl.zt_numblks << bs, 1341 1.1.1.3 chs ZIO_PRIORITY_SYNC_READ); 1342 1.1 haad 1343 1.1.1.3 chs for (b = 0; b < zap_f_phys(zap)->zap_ptrtbl.zt_numblks; 1344 1.1 haad b++) { 1345 1.1 haad dmu_buf_t *db; 1346 1.1 haad int err; 1347 1.1 haad 1348 1.1 haad err = dmu_buf_hold(zap->zap_objset, zap->zap_object, 1349 1.1.1.3 chs (zap_f_phys(zap)->zap_ptrtbl.zt_blk + b) << bs, 1350 1.1.1.3 chs FTAG, &db, DMU_READ_NO_PREFETCH); 1351 1.1 haad if (err == 0) { 1352 1.1 haad zap_stats_ptrtbl(zap, db->db_data, 1353 1.1 haad 1<<(bs-3), zs); 1354 1.1 haad dmu_buf_rele(db, FTAG); 1355 1.1 haad } 1356 1.1 haad } 1357 1.1 haad } 1358 1.1 haad } 1359 1.1.1.2 haad 1360 1.1.1.2 haad int 1361 1.1.1.3 chs fzap_count_write(zap_name_t *zn, int add, refcount_t *towrite, 1362 1.1.1.3 chs refcount_t *tooverwrite) 1363 1.1.1.2 haad { 1364 1.1.1.2 haad zap_t *zap = zn->zn_zap; 1365 1.1.1.2 haad zap_leaf_t *l; 1366 1.1.1.2 haad int err; 1367 1.1.1.2 haad 1368 1.1.1.2 haad /* 1369 1.1.1.2 haad * Account for the header block of the fatzap. 1370 1.1.1.2 haad */ 1371 1.1.1.2 haad if (!add && dmu_buf_freeable(zap->zap_dbuf)) { 1372 1.1.1.3 chs (void) refcount_add_many(tooverwrite, 1373 1.1.1.3 chs zap->zap_dbuf->db_size, FTAG); 1374 1.1.1.2 haad } else { 1375 1.1.1.3 chs (void) refcount_add_many(towrite, 1376 1.1.1.3 chs zap->zap_dbuf->db_size, FTAG); 1377 1.1.1.2 haad } 1378 1.1.1.2 haad 1379 1.1.1.2 haad /* 1380 1.1.1.2 haad * Account for the pointer table blocks. 1381 1.1.1.2 haad * If we are adding we need to account for the following cases : 1382 1.1.1.2 haad * - If the pointer table is embedded, this operation could force an 1383 1.1.1.2 haad * external pointer table. 1384 1.1.1.2 haad * - If this already has an external pointer table this operation 1385 1.1.1.2 haad * could extend the table. 1386 1.1.1.2 haad */ 1387 1.1.1.2 haad if (add) { 1388 1.1.1.3 chs if (zap_f_phys(zap)->zap_ptrtbl.zt_blk == 0) { 1389 1.1.1.3 chs (void) refcount_add_many(towrite, 1390 1.1.1.3 chs zap->zap_dbuf->db_size, FTAG); 1391 1.1.1.3 chs } else { 1392 1.1.1.3 chs (void) refcount_add_many(towrite, 1393 1.1.1.3 chs zap->zap_dbuf->db_size * 3, FTAG); 1394 1.1.1.3 chs } 1395 1.1.1.2 haad } 1396 1.1.1.2 haad 1397 1.1.1.2 haad /* 1398 1.1.1.2 haad * Now, check if the block containing leaf is freeable 1399 1.1.1.2 haad * and account accordingly. 1400 1.1.1.2 haad */ 1401 1.1.1.2 haad err = zap_deref_leaf(zap, zn->zn_hash, NULL, RW_READER, &l); 1402 1.1.1.2 haad if (err != 0) { 1403 1.1.1.2 haad return (err); 1404 1.1.1.2 haad } 1405 1.1.1.2 haad 1406 1.1.1.2 haad if (!add && dmu_buf_freeable(l->l_dbuf)) { 1407 1.1.1.3 chs (void) refcount_add_many(tooverwrite, l->l_dbuf->db_size, FTAG); 1408 1.1.1.2 haad } else { 1409 1.1.1.2 haad /* 1410 1.1.1.2 haad * If this an add operation, the leaf block could split. 1411 1.1.1.2 haad * Hence, we need to account for an additional leaf block. 1412 1.1.1.2 haad */ 1413 1.1.1.3 chs (void) refcount_add_many(towrite, 1414 1.1.1.3 chs (add ? 2 : 1) * l->l_dbuf->db_size, FTAG); 1415 1.1.1.2 haad } 1416 1.1.1.2 haad 1417 1.1.1.2 haad zap_put_leaf(l); 1418 1.1.1.2 haad return (0); 1419 1.1.1.2 haad } 1420
Indexes created Sat Feb 28 05:31:39 UTC 2026