1 /* 2 * Copyright (c) 2008 The DragonFly Project. All rights reserved. 3 * 4 * This code is derived from software contributed to The DragonFly Project 5 * by Matthew Dillon <dillon@backplane.com> 6 * 7 * Redistribution and use in source and binary forms, with or without 8 * modification, are permitted provided that the following conditions 9 * are met: 10 * 11 * 1. Redistributions of source code must retain the above copyright 12 * notice, this list of conditions and the following disclaimer. 13 * 2. Redistributions in binary form must reproduce the above copyright 14 * notice, this list of conditions and the following disclaimer in 15 * the documentation and/or other materials provided with the 16 * distribution. 17 * 3. Neither the name of The DragonFly Project nor the names of its 18 * contributors may be used to endorse or promote products derived 19 * from this software without specific, prior written permission. 20 * 21 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 22 * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 23 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS 24 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE 25 * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, 26 * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING, 27 * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 28 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 29 * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 30 * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT 31 * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 32 * SUCH DAMAGE. 33 */ 34 35 /* 36 * HAMMER blockmap 37 */ 38 #include <vm/vm_page2.h> 39 40 #include "hammer.h" 41 42 static int hammer_res_rb_compare(hammer_reserve_t res1, hammer_reserve_t res2); 43 static void hammer_reserve_setdelay_offset(hammer_mount_t hmp, 44 hammer_off_t base_offset, int zone, 45 struct hammer_blockmap_layer2 *layer2); 46 static void hammer_reserve_setdelay(hammer_mount_t hmp, hammer_reserve_t resv); 47 static int update_bytes_free(hammer_reserve_t resv, int bytes); 48 static int hammer_check_volume(hammer_mount_t, hammer_off_t*); 49 static void hammer_skip_volume(hammer_off_t *offsetp); 50 51 /* 52 * Reserved big-blocks red-black tree support 53 */ 54 RB_GENERATE2(hammer_res_rb_tree, hammer_reserve, rb_node, 55 hammer_res_rb_compare, hammer_off_t, zone_offset); 56 57 static int 58 hammer_res_rb_compare(hammer_reserve_t res1, hammer_reserve_t res2) 59 { 60 if (res1->zone_offset < res2->zone_offset) 61 return(-1); 62 if (res1->zone_offset > res2->zone_offset) 63 return(1); 64 return(0); 65 } 66 67 /* 68 * Allocate bytes from a zone 69 */ 70 hammer_off_t 71 hammer_blockmap_alloc(hammer_transaction_t trans, int zone, int bytes, 72 hammer_off_t hint, int *errorp) 73 { 74 hammer_mount_t hmp; 75 hammer_volume_t root_volume; 76 hammer_blockmap_t blockmap; 77 hammer_blockmap_t freemap; 78 hammer_reserve_t resv; 79 struct hammer_blockmap_layer1 *layer1; 80 struct hammer_blockmap_layer2 *layer2; 81 hammer_buffer_t buffer1 = NULL; 82 hammer_buffer_t buffer2 = NULL; 83 hammer_buffer_t buffer3 = NULL; 84 hammer_off_t tmp_offset; 85 hammer_off_t next_offset; 86 hammer_off_t result_offset; 87 hammer_off_t layer1_offset; 88 hammer_off_t layer2_offset; 89 hammer_off_t base_off; 90 int loops = 0; 91 int offset; /* offset within big-block */ 92 int use_hint; 93 94 hmp = trans->hmp; 95 96 /* 97 * Deal with alignment and buffer-boundary issues. 98 * 99 * Be careful, certain primary alignments are used below to allocate 100 * new blockmap blocks. 101 */ 102 bytes = (bytes + 15) & ~15; 103 KKASSERT(bytes > 0 && bytes <= HAMMER_XBUFSIZE); 104 KKASSERT(hammer_is_zone2_mapped_index(zone)); 105 106 /* 107 * Setup 108 */ 109 root_volume = trans->rootvol; 110 *errorp = 0; 111 blockmap = &hmp->blockmap[zone]; 112 freemap = &hmp->blockmap[HAMMER_ZONE_FREEMAP_INDEX]; 113 KKASSERT(HAMMER_ZONE_DECODE(blockmap->next_offset) == zone); 114 115 /* 116 * Use the hint if we have one. 117 */ 118 if (hint && HAMMER_ZONE_DECODE(hint) == zone) { 119 next_offset = (hint + 15) & ~(hammer_off_t)15; 120 use_hint = 1; 121 } else { 122 next_offset = blockmap->next_offset; 123 use_hint = 0; 124 } 125 again: 126 127 /* 128 * use_hint is turned off if we leave the hinted big-block. 129 */ 130 if (use_hint && ((next_offset ^ hint) & ~HAMMER_HINTBLOCK_MASK64)) { 131 next_offset = blockmap->next_offset; 132 use_hint = 0; 133 } 134 135 /* 136 * Check for wrap 137 */ 138 if (next_offset == HAMMER_ZONE_ENCODE(zone + 1, 0)) { 139 if (++loops == 2) { 140 result_offset = 0; 141 *errorp = ENOSPC; 142 goto failed; 143 } 144 next_offset = HAMMER_ZONE_ENCODE(zone, 0); 145 } 146 147 /* 148 * The allocation request may not cross a buffer boundary. Special 149 * large allocations must not cross a big-block boundary. 150 */ 151 tmp_offset = next_offset + bytes - 1; 152 if (bytes <= HAMMER_BUFSIZE) { 153 if ((next_offset ^ tmp_offset) & ~HAMMER_BUFMASK64) { 154 next_offset = tmp_offset & ~HAMMER_BUFMASK64; 155 goto again; 156 } 157 } else { 158 if ((next_offset ^ tmp_offset) & ~HAMMER_BIGBLOCK_MASK64) { 159 next_offset = tmp_offset & ~HAMMER_BIGBLOCK_MASK64; 160 goto again; 161 } 162 } 163 offset = (int)next_offset & HAMMER_BIGBLOCK_MASK; 164 165 /* 166 * Dive layer 1. 167 */ 168 layer1_offset = freemap->phys_offset + 169 HAMMER_BLOCKMAP_LAYER1_OFFSET(next_offset); 170 171 layer1 = hammer_bread(hmp, layer1_offset, errorp, &buffer1); 172 if (*errorp) { 173 result_offset = 0; 174 goto failed; 175 } 176 177 /* 178 * Check CRC. 179 */ 180 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) { 181 hammer_lock_ex(&hmp->blkmap_lock); 182 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) 183 hpanic("CRC FAILED: LAYER1"); 184 hammer_unlock(&hmp->blkmap_lock); 185 } 186 187 /* 188 * If we are at a big-block boundary and layer1 indicates no 189 * free big-blocks, then we cannot allocate a new big-block in 190 * layer2, skip to the next layer1 entry. 191 */ 192 if (offset == 0 && layer1->blocks_free == 0) { 193 next_offset = (next_offset + HAMMER_BLOCKMAP_LAYER2) & 194 ~HAMMER_BLOCKMAP_LAYER2_MASK; 195 if (hammer_check_volume(hmp, &next_offset)) { 196 result_offset = 0; 197 goto failed; 198 } 199 goto again; 200 } 201 KKASSERT(layer1->phys_offset != HAMMER_BLOCKMAP_UNAVAIL); 202 203 /* 204 * Skip the whole volume if it is pointing to a layer2 big-block 205 * on a volume that we are currently trying to remove from the 206 * file-system. This is used by the volume-del code together with 207 * the reblocker to free up a volume. 208 */ 209 if (HAMMER_VOL_DECODE(layer1->phys_offset) == hmp->volume_to_remove) { 210 hammer_skip_volume(&next_offset); 211 goto again; 212 } 213 214 /* 215 * Dive layer 2, each entry represents a big-block. 216 */ 217 layer2_offset = layer1->phys_offset + 218 HAMMER_BLOCKMAP_LAYER2_OFFSET(next_offset); 219 layer2 = hammer_bread(hmp, layer2_offset, errorp, &buffer2); 220 if (*errorp) { 221 result_offset = 0; 222 goto failed; 223 } 224 225 /* 226 * Check CRC. This can race another thread holding the lock 227 * and in the middle of modifying layer2. 228 */ 229 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) { 230 hammer_lock_ex(&hmp->blkmap_lock); 231 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) 232 hpanic("CRC FAILED: LAYER2"); 233 hammer_unlock(&hmp->blkmap_lock); 234 } 235 236 /* 237 * Skip the layer if the zone is owned by someone other then us. 238 */ 239 if (layer2->zone && layer2->zone != zone) { 240 next_offset += (HAMMER_BIGBLOCK_SIZE - offset); 241 goto again; 242 } 243 if (offset < layer2->append_off) { 244 next_offset += layer2->append_off - offset; 245 goto again; 246 } 247 248 #if 0 249 /* 250 * If operating in the current non-hint blockmap block, do not 251 * allow it to get over-full. Also drop any active hinting so 252 * blockmap->next_offset is updated at the end. 253 * 254 * We do this for B-Tree and meta-data allocations to provide 255 * localization for updates. 256 */ 257 if ((zone == HAMMER_ZONE_BTREE_INDEX || 258 zone == HAMMER_ZONE_META_INDEX) && 259 offset >= HAMMER_BIGBLOCK_OVERFILL && 260 !((next_offset ^ blockmap->next_offset) & ~HAMMER_BIGBLOCK_MASK64)) { 261 if (offset >= HAMMER_BIGBLOCK_OVERFILL) { 262 next_offset += (HAMMER_BIGBLOCK_SIZE - offset); 263 use_hint = 0; 264 goto again; 265 } 266 } 267 #endif 268 269 /* 270 * We need the lock from this point on. We have to re-check zone 271 * ownership after acquiring the lock and also check for reservations. 272 */ 273 hammer_lock_ex(&hmp->blkmap_lock); 274 275 if (layer2->zone && layer2->zone != zone) { 276 hammer_unlock(&hmp->blkmap_lock); 277 next_offset += (HAMMER_BIGBLOCK_SIZE - offset); 278 goto again; 279 } 280 if (offset < layer2->append_off) { 281 hammer_unlock(&hmp->blkmap_lock); 282 next_offset += layer2->append_off - offset; 283 goto again; 284 } 285 286 /* 287 * The big-block might be reserved by another zone. If it is reserved 288 * by our zone we may have to move next_offset past the append_off. 289 */ 290 base_off = hammer_xlate_to_zone2(next_offset & 291 ~HAMMER_BIGBLOCK_MASK64); 292 resv = RB_LOOKUP(hammer_res_rb_tree, &hmp->rb_resv_root, base_off); 293 if (resv) { 294 if (resv->zone != zone) { 295 hammer_unlock(&hmp->blkmap_lock); 296 next_offset = (next_offset + HAMMER_BIGBLOCK_SIZE) & 297 ~HAMMER_BIGBLOCK_MASK64; 298 goto again; 299 } 300 if (offset < resv->append_off) { 301 hammer_unlock(&hmp->blkmap_lock); 302 next_offset += resv->append_off - offset; 303 goto again; 304 } 305 ++resv->refs; 306 } 307 308 /* 309 * Ok, we can allocate out of this layer2 big-block. Assume ownership 310 * of the layer for real. At this point we've validated any 311 * reservation that might exist and can just ignore resv. 312 */ 313 if (layer2->zone == 0) { 314 /* 315 * Assign the big-block to our zone 316 */ 317 hammer_modify_buffer(trans, buffer1, layer1, sizeof(*layer1)); 318 --layer1->blocks_free; 319 layer1->layer1_crc = crc32(layer1, HAMMER_LAYER1_CRCSIZE); 320 hammer_modify_buffer_done(buffer1); 321 hammer_modify_buffer(trans, buffer2, layer2, sizeof(*layer2)); 322 layer2->zone = zone; 323 KKASSERT(layer2->bytes_free == HAMMER_BIGBLOCK_SIZE); 324 KKASSERT(layer2->append_off == 0); 325 hammer_modify_volume_field(trans, trans->rootvol, 326 vol0_stat_freebigblocks); 327 --root_volume->ondisk->vol0_stat_freebigblocks; 328 hmp->copy_stat_freebigblocks = 329 root_volume->ondisk->vol0_stat_freebigblocks; 330 hammer_modify_volume_done(trans->rootvol); 331 } else { 332 hammer_modify_buffer(trans, buffer2, layer2, sizeof(*layer2)); 333 } 334 KKASSERT(layer2->zone == zone); 335 336 /* 337 * NOTE: bytes_free can legally go negative due to de-dup. 338 */ 339 layer2->bytes_free -= bytes; 340 KKASSERT(layer2->append_off <= offset); 341 layer2->append_off = offset + bytes; 342 layer2->entry_crc = crc32(layer2, HAMMER_LAYER2_CRCSIZE); 343 hammer_modify_buffer_done(buffer2); 344 345 /* 346 * We hold the blockmap lock and should be the only ones 347 * capable of modifying resv->append_off. Track the allocation 348 * as appropriate. 349 */ 350 KKASSERT(bytes != 0); 351 if (resv) { 352 KKASSERT(resv->append_off <= offset); 353 resv->append_off = offset + bytes; 354 resv->flags &= ~HAMMER_RESF_LAYER2FREE; 355 hammer_blockmap_reserve_complete(hmp, resv); 356 } 357 358 /* 359 * If we are allocating from the base of a new buffer we can avoid 360 * a disk read by calling hammer_bnew_ext(). 361 */ 362 if ((next_offset & HAMMER_BUFMASK) == 0) { 363 hammer_bnew_ext(trans->hmp, next_offset, bytes, 364 errorp, &buffer3); 365 if (*errorp) { 366 result_offset = 0; 367 goto failed; 368 } 369 } 370 result_offset = next_offset; 371 372 /* 373 * If we weren't supplied with a hint or could not use the hint 374 * then we wound up using blockmap->next_offset as the hint and 375 * need to save it. 376 */ 377 if (use_hint == 0) { 378 hammer_modify_volume_noundo(NULL, root_volume); 379 blockmap->next_offset = next_offset + bytes; 380 hammer_modify_volume_done(root_volume); 381 } 382 hammer_unlock(&hmp->blkmap_lock); 383 failed: 384 385 /* 386 * Cleanup 387 */ 388 if (buffer1) 389 hammer_rel_buffer(buffer1, 0); 390 if (buffer2) 391 hammer_rel_buffer(buffer2, 0); 392 if (buffer3) 393 hammer_rel_buffer(buffer3, 0); 394 395 return(result_offset); 396 } 397 398 /* 399 * Frontend function - Reserve bytes in a zone. 400 * 401 * This code reserves bytes out of a blockmap without committing to any 402 * meta-data modifications, allowing the front-end to directly issue disk 403 * write I/O for big-blocks of data 404 * 405 * The backend later finalizes the reservation with hammer_blockmap_finalize() 406 * upon committing the related record. 407 */ 408 hammer_reserve_t 409 hammer_blockmap_reserve(hammer_mount_t hmp, int zone, int bytes, 410 hammer_off_t *zone_offp, int *errorp) 411 { 412 hammer_volume_t root_volume; 413 hammer_blockmap_t blockmap; 414 hammer_blockmap_t freemap; 415 struct hammer_blockmap_layer1 *layer1; 416 struct hammer_blockmap_layer2 *layer2; 417 hammer_buffer_t buffer1 = NULL; 418 hammer_buffer_t buffer2 = NULL; 419 hammer_buffer_t buffer3 = NULL; 420 hammer_off_t tmp_offset; 421 hammer_off_t next_offset; 422 hammer_off_t layer1_offset; 423 hammer_off_t layer2_offset; 424 hammer_off_t base_off; 425 hammer_reserve_t resv; 426 hammer_reserve_t resx; 427 int loops = 0; 428 int offset; 429 430 /* 431 * Setup 432 */ 433 KKASSERT(hammer_is_zone2_mapped_index(zone)); 434 root_volume = hammer_get_root_volume(hmp, errorp); 435 if (*errorp) 436 return(NULL); 437 blockmap = &hmp->blockmap[zone]; 438 freemap = &hmp->blockmap[HAMMER_ZONE_FREEMAP_INDEX]; 439 KKASSERT(HAMMER_ZONE_DECODE(blockmap->next_offset) == zone); 440 441 /* 442 * Deal with alignment and buffer-boundary issues. 443 * 444 * Be careful, certain primary alignments are used below to allocate 445 * new blockmap blocks. 446 */ 447 bytes = (bytes + 15) & ~15; 448 KKASSERT(bytes > 0 && bytes <= HAMMER_XBUFSIZE); 449 450 next_offset = blockmap->next_offset; 451 again: 452 resv = NULL; 453 /* 454 * Check for wrap 455 */ 456 if (next_offset == HAMMER_ZONE_ENCODE(zone + 1, 0)) { 457 if (++loops == 2) { 458 *errorp = ENOSPC; 459 goto failed; 460 } 461 next_offset = HAMMER_ZONE_ENCODE(zone, 0); 462 } 463 464 /* 465 * The allocation request may not cross a buffer boundary. Special 466 * large allocations must not cross a big-block boundary. 467 */ 468 tmp_offset = next_offset + bytes - 1; 469 if (bytes <= HAMMER_BUFSIZE) { 470 if ((next_offset ^ tmp_offset) & ~HAMMER_BUFMASK64) { 471 next_offset = tmp_offset & ~HAMMER_BUFMASK64; 472 goto again; 473 } 474 } else { 475 if ((next_offset ^ tmp_offset) & ~HAMMER_BIGBLOCK_MASK64) { 476 next_offset = tmp_offset & ~HAMMER_BIGBLOCK_MASK64; 477 goto again; 478 } 479 } 480 offset = (int)next_offset & HAMMER_BIGBLOCK_MASK; 481 482 /* 483 * Dive layer 1. 484 */ 485 layer1_offset = freemap->phys_offset + 486 HAMMER_BLOCKMAP_LAYER1_OFFSET(next_offset); 487 layer1 = hammer_bread(hmp, layer1_offset, errorp, &buffer1); 488 if (*errorp) 489 goto failed; 490 491 /* 492 * Check CRC. 493 */ 494 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) { 495 hammer_lock_ex(&hmp->blkmap_lock); 496 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) 497 hpanic("CRC FAILED: LAYER1"); 498 hammer_unlock(&hmp->blkmap_lock); 499 } 500 501 /* 502 * If we are at a big-block boundary and layer1 indicates no 503 * free big-blocks, then we cannot allocate a new big-block in 504 * layer2, skip to the next layer1 entry. 505 */ 506 if ((next_offset & HAMMER_BIGBLOCK_MASK) == 0 && 507 layer1->blocks_free == 0) { 508 next_offset = (next_offset + HAMMER_BLOCKMAP_LAYER2) & 509 ~HAMMER_BLOCKMAP_LAYER2_MASK; 510 if (hammer_check_volume(hmp, &next_offset)) 511 goto failed; 512 goto again; 513 } 514 KKASSERT(layer1->phys_offset != HAMMER_BLOCKMAP_UNAVAIL); 515 516 /* 517 * Dive layer 2, each entry represents a big-block. 518 */ 519 layer2_offset = layer1->phys_offset + 520 HAMMER_BLOCKMAP_LAYER2_OFFSET(next_offset); 521 layer2 = hammer_bread(hmp, layer2_offset, errorp, &buffer2); 522 if (*errorp) 523 goto failed; 524 525 /* 526 * Check CRC if not allocating into uninitialized space (which we 527 * aren't when reserving space). 528 */ 529 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) { 530 hammer_lock_ex(&hmp->blkmap_lock); 531 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) 532 hpanic("CRC FAILED: LAYER2"); 533 hammer_unlock(&hmp->blkmap_lock); 534 } 535 536 /* 537 * Skip the layer if the zone is owned by someone other then us. 538 */ 539 if (layer2->zone && layer2->zone != zone) { 540 next_offset += (HAMMER_BIGBLOCK_SIZE - offset); 541 goto again; 542 } 543 if (offset < layer2->append_off) { 544 next_offset += layer2->append_off - offset; 545 goto again; 546 } 547 548 /* 549 * We need the lock from this point on. We have to re-check zone 550 * ownership after acquiring the lock and also check for reservations. 551 */ 552 hammer_lock_ex(&hmp->blkmap_lock); 553 554 if (layer2->zone && layer2->zone != zone) { 555 hammer_unlock(&hmp->blkmap_lock); 556 next_offset += (HAMMER_BIGBLOCK_SIZE - offset); 557 goto again; 558 } 559 if (offset < layer2->append_off) { 560 hammer_unlock(&hmp->blkmap_lock); 561 next_offset += layer2->append_off - offset; 562 goto again; 563 } 564 565 /* 566 * The big-block might be reserved by another zone. If it is reserved 567 * by our zone we may have to move next_offset past the append_off. 568 */ 569 base_off = hammer_xlate_to_zone2(next_offset & 570 ~HAMMER_BIGBLOCK_MASK64); 571 resv = RB_LOOKUP(hammer_res_rb_tree, &hmp->rb_resv_root, base_off); 572 if (resv) { 573 if (resv->zone != zone) { 574 hammer_unlock(&hmp->blkmap_lock); 575 next_offset = (next_offset + HAMMER_BIGBLOCK_SIZE) & 576 ~HAMMER_BIGBLOCK_MASK64; 577 goto again; 578 } 579 if (offset < resv->append_off) { 580 hammer_unlock(&hmp->blkmap_lock); 581 next_offset += resv->append_off - offset; 582 goto again; 583 } 584 ++resv->refs; 585 resx = NULL; 586 } else { 587 resx = kmalloc(sizeof(*resv), hmp->m_misc, 588 M_WAITOK | M_ZERO | M_USE_RESERVE); 589 resx->refs = 1; 590 resx->zone = zone; 591 resx->zone_offset = base_off; 592 if (layer2->bytes_free == HAMMER_BIGBLOCK_SIZE) 593 resx->flags |= HAMMER_RESF_LAYER2FREE; 594 resv = RB_INSERT(hammer_res_rb_tree, &hmp->rb_resv_root, resx); 595 KKASSERT(resv == NULL); 596 resv = resx; 597 ++hammer_count_reservations; 598 } 599 resv->append_off = offset + bytes; 600 601 /* 602 * If we are not reserving a whole buffer but are at the start of 603 * a new block, call hammer_bnew() to avoid a disk read. 604 * 605 * If we are reserving a whole buffer (or more), the caller will 606 * probably use a direct read, so do nothing. 607 * 608 * If we do not have a whole lot of system memory we really can't 609 * afford to block while holding the blkmap_lock! 610 */ 611 if (bytes < HAMMER_BUFSIZE && (next_offset & HAMMER_BUFMASK) == 0) { 612 if (!vm_page_count_min(HAMMER_BUFSIZE / PAGE_SIZE)) { 613 hammer_bnew(hmp, next_offset, errorp, &buffer3); 614 if (*errorp) 615 goto failed; 616 } 617 } 618 619 /* 620 * Adjust our iterator and alloc_offset. The layer1 and layer2 621 * space beyond alloc_offset is uninitialized. alloc_offset must 622 * be big-block aligned. 623 */ 624 blockmap->next_offset = next_offset + bytes; 625 hammer_unlock(&hmp->blkmap_lock); 626 627 failed: 628 if (buffer1) 629 hammer_rel_buffer(buffer1, 0); 630 if (buffer2) 631 hammer_rel_buffer(buffer2, 0); 632 if (buffer3) 633 hammer_rel_buffer(buffer3, 0); 634 hammer_rel_volume(root_volume, 0); 635 *zone_offp = next_offset; 636 637 return(resv); 638 } 639 640 /* 641 * Frontend function - Dedup bytes in a zone. 642 * 643 * Dedup reservations work exactly the same as normal write reservations 644 * except we only adjust bytes_free field and don't touch append offset. 645 * Finalization mechanic for dedup reservations is also the same as for 646 * normal write ones - the backend finalizes the reservation with 647 * hammer_blockmap_finalize(). 648 */ 649 hammer_reserve_t 650 hammer_blockmap_reserve_dedup(hammer_mount_t hmp, int zone, int bytes, 651 hammer_off_t zone_offset, int *errorp) 652 { 653 hammer_volume_t root_volume; 654 hammer_blockmap_t freemap; 655 struct hammer_blockmap_layer1 *layer1; 656 struct hammer_blockmap_layer2 *layer2; 657 hammer_buffer_t buffer1 = NULL; 658 hammer_buffer_t buffer2 = NULL; 659 hammer_off_t layer1_offset; 660 hammer_off_t layer2_offset; 661 hammer_off_t base_off; 662 hammer_reserve_t resv = NULL; 663 hammer_reserve_t resx = NULL; 664 665 /* 666 * Setup 667 */ 668 KKASSERT(hammer_is_zone2_mapped_index(zone)); 669 root_volume = hammer_get_root_volume(hmp, errorp); 670 if (*errorp) 671 return (NULL); 672 freemap = &hmp->blockmap[HAMMER_ZONE_FREEMAP_INDEX]; 673 KKASSERT(freemap->phys_offset != 0); 674 675 bytes = (bytes + 15) & ~15; 676 KKASSERT(bytes > 0 && bytes <= HAMMER_XBUFSIZE); 677 678 /* 679 * Dive layer 1. 680 */ 681 layer1_offset = freemap->phys_offset + 682 HAMMER_BLOCKMAP_LAYER1_OFFSET(zone_offset); 683 layer1 = hammer_bread(hmp, layer1_offset, errorp, &buffer1); 684 if (*errorp) 685 goto failed; 686 687 /* 688 * Check CRC. 689 */ 690 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) { 691 hammer_lock_ex(&hmp->blkmap_lock); 692 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) 693 hpanic("CRC FAILED: LAYER1"); 694 hammer_unlock(&hmp->blkmap_lock); 695 } 696 KKASSERT(layer1->phys_offset != HAMMER_BLOCKMAP_UNAVAIL); 697 698 /* 699 * Dive layer 2, each entry represents a big-block. 700 */ 701 layer2_offset = layer1->phys_offset + 702 HAMMER_BLOCKMAP_LAYER2_OFFSET(zone_offset); 703 layer2 = hammer_bread(hmp, layer2_offset, errorp, &buffer2); 704 if (*errorp) 705 goto failed; 706 707 /* 708 * Check CRC. 709 */ 710 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) { 711 hammer_lock_ex(&hmp->blkmap_lock); 712 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) 713 hpanic("CRC FAILED: LAYER2"); 714 hammer_unlock(&hmp->blkmap_lock); 715 } 716 717 /* 718 * Fail if the zone is owned by someone other than us. 719 */ 720 if (layer2->zone && layer2->zone != zone) 721 goto failed; 722 723 /* 724 * We need the lock from this point on. We have to re-check zone 725 * ownership after acquiring the lock and also check for reservations. 726 */ 727 hammer_lock_ex(&hmp->blkmap_lock); 728 729 if (layer2->zone && layer2->zone != zone) { 730 hammer_unlock(&hmp->blkmap_lock); 731 goto failed; 732 } 733 734 base_off = hammer_xlate_to_zone2(zone_offset & 735 ~HAMMER_BIGBLOCK_MASK64); 736 resv = RB_LOOKUP(hammer_res_rb_tree, &hmp->rb_resv_root, base_off); 737 if (resv) { 738 if (resv->zone != zone) { 739 hammer_unlock(&hmp->blkmap_lock); 740 resv = NULL; 741 goto failed; 742 } 743 /* 744 * Due to possible big-block underflow we can't simply 745 * subtract bytes from bytes_free. 746 */ 747 if (update_bytes_free(resv, bytes) == 0) { 748 hammer_unlock(&hmp->blkmap_lock); 749 resv = NULL; 750 goto failed; 751 } 752 ++resv->refs; 753 resx = NULL; 754 } else { 755 resx = kmalloc(sizeof(*resv), hmp->m_misc, 756 M_WAITOK | M_ZERO | M_USE_RESERVE); 757 resx->refs = 1; 758 resx->zone = zone; 759 resx->bytes_free = layer2->bytes_free; 760 /* 761 * Due to possible big-block underflow we can't simply 762 * subtract bytes from bytes_free. 763 */ 764 if (update_bytes_free(resx, bytes) == 0) { 765 hammer_unlock(&hmp->blkmap_lock); 766 kfree(resx, hmp->m_misc); 767 goto failed; 768 } 769 resx->zone_offset = base_off; 770 resv = RB_INSERT(hammer_res_rb_tree, &hmp->rb_resv_root, resx); 771 KKASSERT(resv == NULL); 772 resv = resx; 773 ++hammer_count_reservations; 774 } 775 776 hammer_unlock(&hmp->blkmap_lock); 777 778 failed: 779 if (buffer1) 780 hammer_rel_buffer(buffer1, 0); 781 if (buffer2) 782 hammer_rel_buffer(buffer2, 0); 783 hammer_rel_volume(root_volume, 0); 784 785 return(resv); 786 } 787 788 static int 789 update_bytes_free(hammer_reserve_t resv, int bytes) 790 { 791 int32_t temp; 792 793 /* 794 * Big-block underflow check 795 */ 796 temp = resv->bytes_free - HAMMER_BIGBLOCK_SIZE * 2; 797 cpu_ccfence(); /* XXX do we really need it ? */ 798 if (temp > resv->bytes_free) { 799 hdkprintf("BIGBLOCK UNDERFLOW\n"); 800 return (0); 801 } 802 803 resv->bytes_free -= bytes; 804 return (1); 805 } 806 807 /* 808 * Dereference a reservation structure. Upon the final release the 809 * underlying big-block is checked and if it is entirely free we delete 810 * any related HAMMER buffers to avoid potential conflicts with future 811 * reuse of the big-block. 812 */ 813 void 814 hammer_blockmap_reserve_complete(hammer_mount_t hmp, hammer_reserve_t resv) 815 { 816 hammer_off_t base_offset; 817 int error; 818 819 KKASSERT(resv->refs > 0); 820 KKASSERT(hammer_is_zone_raw_buffer(resv->zone_offset)); 821 822 /* 823 * Setting append_off to the max prevents any new allocations 824 * from occuring while we are trying to dispose of the reservation, 825 * allowing us to safely delete any related HAMMER buffers. 826 * 827 * If we are unable to clean out all related HAMMER buffers we 828 * requeue the delay. 829 */ 830 if (resv->refs == 1 && (resv->flags & HAMMER_RESF_LAYER2FREE)) { 831 resv->append_off = HAMMER_BIGBLOCK_SIZE; 832 base_offset = hammer_xlate_to_zoneX(resv->zone, resv->zone_offset); 833 if (!TAILQ_EMPTY(&hmp->dedup_lru_list)) 834 hammer_dedup_cache_inval(hmp, base_offset); 835 error = hammer_del_buffers(hmp, base_offset, 836 resv->zone_offset, 837 HAMMER_BIGBLOCK_SIZE, 838 1); 839 if (hammer_debug_general & 0x20000) { 840 hkprintf("delbgblk %016jx error %d\n", 841 (intmax_t)base_offset, error); 842 } 843 if (error) 844 hammer_reserve_setdelay(hmp, resv); 845 } 846 if (--resv->refs == 0) { 847 if (hammer_debug_general & 0x20000) { 848 hkprintf("delresvr %016jx zone %02x\n", 849 (intmax_t)resv->zone_offset, resv->zone); 850 } 851 KKASSERT((resv->flags & HAMMER_RESF_ONDELAY) == 0); 852 RB_REMOVE(hammer_res_rb_tree, &hmp->rb_resv_root, resv); 853 kfree(resv, hmp->m_misc); 854 --hammer_count_reservations; 855 } 856 } 857 858 /* 859 * Prevent a potentially free big-block from being reused until after 860 * the related flushes have completely cycled, otherwise crash recovery 861 * could resurrect a data block that was already reused and overwritten. 862 * 863 * The caller might reset the underlying layer2 entry's append_off to 0, so 864 * our covering append_off must be set to max to prevent any reallocation 865 * until after the flush delays complete, not to mention proper invalidation 866 * of any underlying cached blocks. 867 */ 868 static void 869 hammer_reserve_setdelay_offset(hammer_mount_t hmp, hammer_off_t base_offset, 870 int zone, struct hammer_blockmap_layer2 *layer2) 871 { 872 hammer_reserve_t resv; 873 874 /* 875 * Allocate the reservation if necessary. 876 * 877 * NOTE: need lock in future around resv lookup/allocation and 878 * the setdelay call, currently refs is not bumped until the call. 879 */ 880 again: 881 resv = RB_LOOKUP(hammer_res_rb_tree, &hmp->rb_resv_root, base_offset); 882 if (resv == NULL) { 883 resv = kmalloc(sizeof(*resv), hmp->m_misc, 884 M_WAITOK | M_ZERO | M_USE_RESERVE); 885 resv->zone = zone; 886 resv->zone_offset = base_offset; 887 resv->refs = 0; 888 resv->append_off = HAMMER_BIGBLOCK_SIZE; 889 890 if (layer2->bytes_free == HAMMER_BIGBLOCK_SIZE) 891 resv->flags |= HAMMER_RESF_LAYER2FREE; 892 if (RB_INSERT(hammer_res_rb_tree, &hmp->rb_resv_root, resv)) { 893 kfree(resv, hmp->m_misc); 894 goto again; 895 } 896 ++hammer_count_reservations; 897 } else { 898 if (layer2->bytes_free == HAMMER_BIGBLOCK_SIZE) 899 resv->flags |= HAMMER_RESF_LAYER2FREE; 900 } 901 hammer_reserve_setdelay(hmp, resv); 902 } 903 904 /* 905 * Enter the reservation on the on-delay list, or move it if it 906 * is already on the list. 907 */ 908 static void 909 hammer_reserve_setdelay(hammer_mount_t hmp, hammer_reserve_t resv) 910 { 911 if (resv->flags & HAMMER_RESF_ONDELAY) { 912 TAILQ_REMOVE(&hmp->delay_list, resv, delay_entry); 913 resv->flg_no = hmp->flusher.next + 1; 914 TAILQ_INSERT_TAIL(&hmp->delay_list, resv, delay_entry); 915 } else { 916 ++resv->refs; 917 ++hmp->rsv_fromdelay; 918 resv->flags |= HAMMER_RESF_ONDELAY; 919 resv->flg_no = hmp->flusher.next + 1; 920 TAILQ_INSERT_TAIL(&hmp->delay_list, resv, delay_entry); 921 } 922 } 923 924 /* 925 * Reserve has reached its flush point, remove it from the delay list 926 * and finish it off. hammer_blockmap_reserve_complete() inherits 927 * the ondelay reference. 928 */ 929 void 930 hammer_reserve_clrdelay(hammer_mount_t hmp, hammer_reserve_t resv) 931 { 932 KKASSERT(resv->flags & HAMMER_RESF_ONDELAY); 933 resv->flags &= ~HAMMER_RESF_ONDELAY; 934 TAILQ_REMOVE(&hmp->delay_list, resv, delay_entry); 935 --hmp->rsv_fromdelay; 936 hammer_blockmap_reserve_complete(hmp, resv); 937 } 938 939 /* 940 * Backend function - free (offset, bytes) in a zone. 941 * 942 * XXX error return 943 */ 944 void 945 hammer_blockmap_free(hammer_transaction_t trans, 946 hammer_off_t zone_offset, int bytes) 947 { 948 hammer_mount_t hmp; 949 hammer_volume_t root_volume; 950 hammer_blockmap_t freemap; 951 struct hammer_blockmap_layer1 *layer1; 952 struct hammer_blockmap_layer2 *layer2; 953 hammer_buffer_t buffer1 = NULL; 954 hammer_buffer_t buffer2 = NULL; 955 hammer_off_t layer1_offset; 956 hammer_off_t layer2_offset; 957 hammer_off_t base_off; 958 int error; 959 int zone; 960 961 if (bytes == 0) 962 return; 963 hmp = trans->hmp; 964 965 /* 966 * Alignment 967 */ 968 bytes = (bytes + 15) & ~15; 969 KKASSERT(bytes <= HAMMER_XBUFSIZE); 970 KKASSERT(((zone_offset ^ (zone_offset + (bytes - 1))) & 971 ~HAMMER_BIGBLOCK_MASK64) == 0); 972 973 /* 974 * Basic zone validation & locking 975 */ 976 zone = HAMMER_ZONE_DECODE(zone_offset); 977 KKASSERT(hammer_is_zone2_mapped_index(zone)); 978 root_volume = trans->rootvol; 979 error = 0; 980 981 freemap = &hmp->blockmap[HAMMER_ZONE_FREEMAP_INDEX]; 982 983 /* 984 * Dive layer 1. 985 */ 986 layer1_offset = freemap->phys_offset + 987 HAMMER_BLOCKMAP_LAYER1_OFFSET(zone_offset); 988 layer1 = hammer_bread(hmp, layer1_offset, &error, &buffer1); 989 if (error) 990 goto failed; 991 KKASSERT(layer1->phys_offset && 992 layer1->phys_offset != HAMMER_BLOCKMAP_UNAVAIL); 993 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) { 994 hammer_lock_ex(&hmp->blkmap_lock); 995 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) 996 hpanic("CRC FAILED: LAYER1"); 997 hammer_unlock(&hmp->blkmap_lock); 998 } 999 1000 /* 1001 * Dive layer 2, each entry represents a big-block. 1002 */ 1003 layer2_offset = layer1->phys_offset + 1004 HAMMER_BLOCKMAP_LAYER2_OFFSET(zone_offset); 1005 layer2 = hammer_bread(hmp, layer2_offset, &error, &buffer2); 1006 if (error) 1007 goto failed; 1008 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) { 1009 hammer_lock_ex(&hmp->blkmap_lock); 1010 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) 1011 hpanic("CRC FAILED: LAYER2"); 1012 hammer_unlock(&hmp->blkmap_lock); 1013 } 1014 1015 hammer_lock_ex(&hmp->blkmap_lock); 1016 1017 hammer_modify_buffer(trans, buffer2, layer2, sizeof(*layer2)); 1018 1019 /* 1020 * Free space previously allocated via blockmap_alloc(). 1021 * 1022 * NOTE: bytes_free can be and remain negative due to de-dup ops 1023 * but can never become larger than HAMMER_BIGBLOCK_SIZE. 1024 */ 1025 KKASSERT(layer2->zone == zone); 1026 layer2->bytes_free += bytes; 1027 KKASSERT(layer2->bytes_free <= HAMMER_BIGBLOCK_SIZE); 1028 1029 /* 1030 * If a big-block becomes entirely free we must create a covering 1031 * reservation to prevent premature reuse. Note, however, that 1032 * the big-block and/or reservation may still have an append_off 1033 * that allows further (non-reused) allocations. 1034 * 1035 * Once the reservation has been made we re-check layer2 and if 1036 * the big-block is still entirely free we reset the layer2 entry. 1037 * The reservation will prevent premature reuse. 1038 * 1039 * NOTE: hammer_buffer's are only invalidated when the reservation 1040 * is completed, if the layer2 entry is still completely free at 1041 * that time. Any allocations from the reservation that may have 1042 * occured in the mean time, or active references on the reservation 1043 * from new pending allocations, will prevent the invalidation from 1044 * occuring. 1045 */ 1046 if (layer2->bytes_free == HAMMER_BIGBLOCK_SIZE) { 1047 base_off = hammer_xlate_to_zone2(zone_offset & 1048 ~HAMMER_BIGBLOCK_MASK64); 1049 1050 hammer_reserve_setdelay_offset(hmp, base_off, zone, layer2); 1051 if (layer2->bytes_free == HAMMER_BIGBLOCK_SIZE) { 1052 layer2->zone = 0; 1053 layer2->append_off = 0; 1054 hammer_modify_buffer(trans, buffer1, 1055 layer1, sizeof(*layer1)); 1056 ++layer1->blocks_free; 1057 layer1->layer1_crc = crc32(layer1, 1058 HAMMER_LAYER1_CRCSIZE); 1059 hammer_modify_buffer_done(buffer1); 1060 hammer_modify_volume_field(trans, 1061 trans->rootvol, 1062 vol0_stat_freebigblocks); 1063 ++root_volume->ondisk->vol0_stat_freebigblocks; 1064 hmp->copy_stat_freebigblocks = 1065 root_volume->ondisk->vol0_stat_freebigblocks; 1066 hammer_modify_volume_done(trans->rootvol); 1067 } 1068 } 1069 layer2->entry_crc = crc32(layer2, HAMMER_LAYER2_CRCSIZE); 1070 hammer_modify_buffer_done(buffer2); 1071 hammer_unlock(&hmp->blkmap_lock); 1072 1073 failed: 1074 if (buffer1) 1075 hammer_rel_buffer(buffer1, 0); 1076 if (buffer2) 1077 hammer_rel_buffer(buffer2, 0); 1078 } 1079 1080 int 1081 hammer_blockmap_dedup(hammer_transaction_t trans, 1082 hammer_off_t zone_offset, int bytes) 1083 { 1084 hammer_mount_t hmp; 1085 hammer_blockmap_t freemap; 1086 struct hammer_blockmap_layer1 *layer1; 1087 struct hammer_blockmap_layer2 *layer2; 1088 hammer_buffer_t buffer1 = NULL; 1089 hammer_buffer_t buffer2 = NULL; 1090 hammer_off_t layer1_offset; 1091 hammer_off_t layer2_offset; 1092 int32_t temp; 1093 int error; 1094 int zone __debugvar; 1095 1096 if (bytes == 0) 1097 return (0); 1098 hmp = trans->hmp; 1099 1100 /* 1101 * Alignment 1102 */ 1103 bytes = (bytes + 15) & ~15; 1104 KKASSERT(bytes <= HAMMER_BIGBLOCK_SIZE); 1105 KKASSERT(((zone_offset ^ (zone_offset + (bytes - 1))) & 1106 ~HAMMER_BIGBLOCK_MASK64) == 0); 1107 1108 /* 1109 * Basic zone validation & locking 1110 */ 1111 zone = HAMMER_ZONE_DECODE(zone_offset); 1112 KKASSERT(hammer_is_zone2_mapped_index(zone)); 1113 error = 0; 1114 1115 freemap = &hmp->blockmap[HAMMER_ZONE_FREEMAP_INDEX]; 1116 1117 /* 1118 * Dive layer 1. 1119 */ 1120 layer1_offset = freemap->phys_offset + 1121 HAMMER_BLOCKMAP_LAYER1_OFFSET(zone_offset); 1122 layer1 = hammer_bread(hmp, layer1_offset, &error, &buffer1); 1123 if (error) 1124 goto failed; 1125 KKASSERT(layer1->phys_offset && 1126 layer1->phys_offset != HAMMER_BLOCKMAP_UNAVAIL); 1127 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) { 1128 hammer_lock_ex(&hmp->blkmap_lock); 1129 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) 1130 hpanic("CRC FAILED: LAYER1"); 1131 hammer_unlock(&hmp->blkmap_lock); 1132 } 1133 1134 /* 1135 * Dive layer 2, each entry represents a big-block. 1136 */ 1137 layer2_offset = layer1->phys_offset + 1138 HAMMER_BLOCKMAP_LAYER2_OFFSET(zone_offset); 1139 layer2 = hammer_bread(hmp, layer2_offset, &error, &buffer2); 1140 if (error) 1141 goto failed; 1142 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) { 1143 hammer_lock_ex(&hmp->blkmap_lock); 1144 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) 1145 hpanic("CRC FAILED: LAYER2"); 1146 hammer_unlock(&hmp->blkmap_lock); 1147 } 1148 1149 hammer_lock_ex(&hmp->blkmap_lock); 1150 1151 hammer_modify_buffer(trans, buffer2, layer2, sizeof(*layer2)); 1152 1153 /* 1154 * Free space previously allocated via blockmap_alloc(). 1155 * 1156 * NOTE: bytes_free can be and remain negative due to de-dup ops 1157 * but can never become larger than HAMMER_BIGBLOCK_SIZE. 1158 */ 1159 KKASSERT(layer2->zone == zone); 1160 temp = layer2->bytes_free - HAMMER_BIGBLOCK_SIZE * 2; 1161 cpu_ccfence(); /* prevent gcc from optimizing temp out */ 1162 if (temp > layer2->bytes_free) { 1163 error = ERANGE; 1164 goto underflow; 1165 } 1166 layer2->bytes_free -= bytes; 1167 1168 KKASSERT(layer2->bytes_free <= HAMMER_BIGBLOCK_SIZE); 1169 1170 layer2->entry_crc = crc32(layer2, HAMMER_LAYER2_CRCSIZE); 1171 underflow: 1172 hammer_modify_buffer_done(buffer2); 1173 hammer_unlock(&hmp->blkmap_lock); 1174 1175 failed: 1176 if (buffer1) 1177 hammer_rel_buffer(buffer1, 0); 1178 if (buffer2) 1179 hammer_rel_buffer(buffer2, 0); 1180 return (error); 1181 } 1182 1183 /* 1184 * Backend function - finalize (offset, bytes) in a zone. 1185 * 1186 * Allocate space that was previously reserved by the frontend. 1187 */ 1188 int 1189 hammer_blockmap_finalize(hammer_transaction_t trans, 1190 hammer_reserve_t resv, 1191 hammer_off_t zone_offset, int bytes) 1192 { 1193 hammer_mount_t hmp; 1194 hammer_volume_t root_volume; 1195 hammer_blockmap_t freemap; 1196 struct hammer_blockmap_layer1 *layer1; 1197 struct hammer_blockmap_layer2 *layer2; 1198 hammer_buffer_t buffer1 = NULL; 1199 hammer_buffer_t buffer2 = NULL; 1200 hammer_off_t layer1_offset; 1201 hammer_off_t layer2_offset; 1202 int error; 1203 int zone; 1204 int offset; 1205 1206 if (bytes == 0) 1207 return(0); 1208 hmp = trans->hmp; 1209 1210 /* 1211 * Alignment 1212 */ 1213 bytes = (bytes + 15) & ~15; 1214 KKASSERT(bytes <= HAMMER_XBUFSIZE); 1215 1216 /* 1217 * Basic zone validation & locking 1218 */ 1219 zone = HAMMER_ZONE_DECODE(zone_offset); 1220 KKASSERT(hammer_is_zone2_mapped_index(zone)); 1221 root_volume = trans->rootvol; 1222 error = 0; 1223 1224 freemap = &hmp->blockmap[HAMMER_ZONE_FREEMAP_INDEX]; 1225 1226 /* 1227 * Dive layer 1. 1228 */ 1229 layer1_offset = freemap->phys_offset + 1230 HAMMER_BLOCKMAP_LAYER1_OFFSET(zone_offset); 1231 layer1 = hammer_bread(hmp, layer1_offset, &error, &buffer1); 1232 if (error) 1233 goto failed; 1234 KKASSERT(layer1->phys_offset && 1235 layer1->phys_offset != HAMMER_BLOCKMAP_UNAVAIL); 1236 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) { 1237 hammer_lock_ex(&hmp->blkmap_lock); 1238 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) 1239 hpanic("CRC FAILED: LAYER1"); 1240 hammer_unlock(&hmp->blkmap_lock); 1241 } 1242 1243 /* 1244 * Dive layer 2, each entry represents a big-block. 1245 */ 1246 layer2_offset = layer1->phys_offset + 1247 HAMMER_BLOCKMAP_LAYER2_OFFSET(zone_offset); 1248 layer2 = hammer_bread(hmp, layer2_offset, &error, &buffer2); 1249 if (error) 1250 goto failed; 1251 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) { 1252 hammer_lock_ex(&hmp->blkmap_lock); 1253 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) 1254 hpanic("CRC FAILED: LAYER2"); 1255 hammer_unlock(&hmp->blkmap_lock); 1256 } 1257 1258 hammer_lock_ex(&hmp->blkmap_lock); 1259 1260 hammer_modify_buffer(trans, buffer2, layer2, sizeof(*layer2)); 1261 1262 /* 1263 * Finalize some or all of the space covered by a current 1264 * reservation. An allocation in the same layer may have 1265 * already assigned ownership. 1266 */ 1267 if (layer2->zone == 0) { 1268 hammer_modify_buffer(trans, buffer1, layer1, sizeof(*layer1)); 1269 --layer1->blocks_free; 1270 layer1->layer1_crc = crc32(layer1, HAMMER_LAYER1_CRCSIZE); 1271 hammer_modify_buffer_done(buffer1); 1272 layer2->zone = zone; 1273 KKASSERT(layer2->bytes_free == HAMMER_BIGBLOCK_SIZE); 1274 KKASSERT(layer2->append_off == 0); 1275 hammer_modify_volume_field(trans, 1276 trans->rootvol, 1277 vol0_stat_freebigblocks); 1278 --root_volume->ondisk->vol0_stat_freebigblocks; 1279 hmp->copy_stat_freebigblocks = 1280 root_volume->ondisk->vol0_stat_freebigblocks; 1281 hammer_modify_volume_done(trans->rootvol); 1282 } 1283 if (layer2->zone != zone) 1284 hdkprintf("layer2 zone mismatch %d %d\n", layer2->zone, zone); 1285 KKASSERT(layer2->zone == zone); 1286 KKASSERT(bytes != 0); 1287 layer2->bytes_free -= bytes; 1288 1289 if (resv) { 1290 resv->flags &= ~HAMMER_RESF_LAYER2FREE; 1291 } 1292 1293 /* 1294 * Finalizations can occur out of order, or combined with allocations. 1295 * append_off must be set to the highest allocated offset. 1296 */ 1297 offset = ((int)zone_offset & HAMMER_BIGBLOCK_MASK) + bytes; 1298 if (layer2->append_off < offset) 1299 layer2->append_off = offset; 1300 1301 layer2->entry_crc = crc32(layer2, HAMMER_LAYER2_CRCSIZE); 1302 hammer_modify_buffer_done(buffer2); 1303 hammer_unlock(&hmp->blkmap_lock); 1304 1305 failed: 1306 if (buffer1) 1307 hammer_rel_buffer(buffer1, 0); 1308 if (buffer2) 1309 hammer_rel_buffer(buffer2, 0); 1310 return(error); 1311 } 1312 1313 /* 1314 * Return the approximate number of free bytes in the big-block 1315 * containing the specified blockmap offset. 1316 * 1317 * WARNING: A negative number can be returned if data de-dup exists, 1318 * and the result will also not represent he actual number 1319 * of free bytes in this case. 1320 * 1321 * This code is used only by the reblocker. 1322 */ 1323 int 1324 hammer_blockmap_getfree(hammer_mount_t hmp, hammer_off_t zone_offset, 1325 int *curp, int *errorp) 1326 { 1327 hammer_volume_t root_volume; 1328 hammer_blockmap_t blockmap; 1329 hammer_blockmap_t freemap; 1330 struct hammer_blockmap_layer1 *layer1; 1331 struct hammer_blockmap_layer2 *layer2; 1332 hammer_buffer_t buffer = NULL; 1333 hammer_off_t layer1_offset; 1334 hammer_off_t layer2_offset; 1335 int32_t bytes; 1336 int zone; 1337 1338 zone = HAMMER_ZONE_DECODE(zone_offset); 1339 KKASSERT(hammer_is_zone2_mapped_index(zone)); 1340 root_volume = hammer_get_root_volume(hmp, errorp); 1341 if (*errorp) { 1342 *curp = 0; 1343 return(0); 1344 } 1345 blockmap = &hmp->blockmap[zone]; 1346 freemap = &hmp->blockmap[HAMMER_ZONE_FREEMAP_INDEX]; 1347 1348 /* 1349 * Dive layer 1. 1350 */ 1351 layer1_offset = freemap->phys_offset + 1352 HAMMER_BLOCKMAP_LAYER1_OFFSET(zone_offset); 1353 layer1 = hammer_bread(hmp, layer1_offset, errorp, &buffer); 1354 if (*errorp) { 1355 *curp = 0; 1356 bytes = 0; 1357 goto failed; 1358 } 1359 KKASSERT(layer1->phys_offset); 1360 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) { 1361 hammer_lock_ex(&hmp->blkmap_lock); 1362 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) 1363 hpanic("CRC FAILED: LAYER1"); 1364 hammer_unlock(&hmp->blkmap_lock); 1365 } 1366 1367 /* 1368 * Dive layer 2, each entry represents a big-block. 1369 * 1370 * (reuse buffer, layer1 pointer becomes invalid) 1371 */ 1372 layer2_offset = layer1->phys_offset + 1373 HAMMER_BLOCKMAP_LAYER2_OFFSET(zone_offset); 1374 layer2 = hammer_bread(hmp, layer2_offset, errorp, &buffer); 1375 if (*errorp) { 1376 *curp = 0; 1377 bytes = 0; 1378 goto failed; 1379 } 1380 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) { 1381 hammer_lock_ex(&hmp->blkmap_lock); 1382 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) 1383 hpanic("CRC FAILED: LAYER2"); 1384 hammer_unlock(&hmp->blkmap_lock); 1385 } 1386 KKASSERT(layer2->zone == zone); 1387 1388 bytes = layer2->bytes_free; 1389 1390 /* 1391 * *curp becomes 1 only when no error and, 1392 * next_offset and zone_offset are in the same big-block. 1393 */ 1394 if ((blockmap->next_offset ^ zone_offset) & ~HAMMER_BIGBLOCK_MASK64) 1395 *curp = 0; /* not same */ 1396 else 1397 *curp = 1; 1398 failed: 1399 if (buffer) 1400 hammer_rel_buffer(buffer, 0); 1401 hammer_rel_volume(root_volume, 0); 1402 if (hammer_debug_general & 0x4000) { 1403 hdkprintf("%016jx -> %d\n", (intmax_t)zone_offset, bytes); 1404 } 1405 return(bytes); 1406 } 1407 1408 1409 /* 1410 * Lookup a blockmap offset and verify blockmap layers. 1411 */ 1412 hammer_off_t 1413 hammer_blockmap_lookup_verify(hammer_mount_t hmp, hammer_off_t zone_offset, 1414 int *errorp) 1415 { 1416 hammer_volume_t root_volume; 1417 hammer_blockmap_t freemap; 1418 struct hammer_blockmap_layer1 *layer1; 1419 struct hammer_blockmap_layer2 *layer2; 1420 hammer_buffer_t buffer = NULL; 1421 hammer_off_t layer1_offset; 1422 hammer_off_t layer2_offset; 1423 hammer_off_t result_offset; 1424 hammer_off_t base_off; 1425 hammer_reserve_t resv __debugvar; 1426 int zone; 1427 1428 /* 1429 * Calculate the zone-2 offset. 1430 */ 1431 zone = HAMMER_ZONE_DECODE(zone_offset); 1432 result_offset = hammer_xlate_to_zone2(zone_offset); 1433 1434 /* 1435 * Validate the allocation zone 1436 */ 1437 root_volume = hammer_get_root_volume(hmp, errorp); 1438 if (*errorp) 1439 return(0); 1440 freemap = &hmp->blockmap[HAMMER_ZONE_FREEMAP_INDEX]; 1441 KKASSERT(freemap->phys_offset != 0); 1442 1443 /* 1444 * Dive layer 1. 1445 */ 1446 layer1_offset = freemap->phys_offset + 1447 HAMMER_BLOCKMAP_LAYER1_OFFSET(zone_offset); 1448 layer1 = hammer_bread(hmp, layer1_offset, errorp, &buffer); 1449 if (*errorp) 1450 goto failed; 1451 KKASSERT(layer1->phys_offset != HAMMER_BLOCKMAP_UNAVAIL); 1452 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) { 1453 hammer_lock_ex(&hmp->blkmap_lock); 1454 if (layer1->layer1_crc != crc32(layer1, HAMMER_LAYER1_CRCSIZE)) 1455 hpanic("CRC FAILED: LAYER1"); 1456 hammer_unlock(&hmp->blkmap_lock); 1457 } 1458 1459 /* 1460 * Dive layer 2, each entry represents a big-block. 1461 */ 1462 layer2_offset = layer1->phys_offset + 1463 HAMMER_BLOCKMAP_LAYER2_OFFSET(zone_offset); 1464 layer2 = hammer_bread(hmp, layer2_offset, errorp, &buffer); 1465 1466 if (*errorp) 1467 goto failed; 1468 if (layer2->zone == 0) { 1469 base_off = hammer_xlate_to_zone2(zone_offset & 1470 ~HAMMER_BIGBLOCK_MASK64); 1471 resv = RB_LOOKUP(hammer_res_rb_tree, &hmp->rb_resv_root, 1472 base_off); 1473 KKASSERT(resv && resv->zone == zone); 1474 1475 } else if (layer2->zone != zone) { 1476 hpanic("bad zone %d/%d", layer2->zone, zone); 1477 } 1478 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) { 1479 hammer_lock_ex(&hmp->blkmap_lock); 1480 if (layer2->entry_crc != crc32(layer2, HAMMER_LAYER2_CRCSIZE)) 1481 hpanic("CRC FAILED: LAYER2"); 1482 hammer_unlock(&hmp->blkmap_lock); 1483 } 1484 1485 failed: 1486 if (buffer) 1487 hammer_rel_buffer(buffer, 0); 1488 hammer_rel_volume(root_volume, 0); 1489 if (hammer_debug_general & 0x0800) { 1490 hdkprintf("%016jx -> %016jx\n", 1491 (intmax_t)zone_offset, (intmax_t)result_offset); 1492 } 1493 return(result_offset); 1494 } 1495 1496 1497 /* 1498 * Check space availability 1499 * 1500 * MPSAFE - does not require fs_token 1501 */ 1502 int 1503 _hammer_checkspace(hammer_mount_t hmp, int slop, int64_t *resp) 1504 { 1505 const int in_size = sizeof(struct hammer_inode_data) + 1506 sizeof(union hammer_btree_elm); 1507 const int rec_size = (sizeof(union hammer_btree_elm) * 2); 1508 int64_t usedbytes; 1509 1510 usedbytes = hmp->rsv_inodes * in_size + 1511 hmp->rsv_recs * rec_size + 1512 hmp->rsv_databytes + 1513 ((int64_t)hmp->rsv_fromdelay << HAMMER_BIGBLOCK_BITS) + 1514 ((int64_t)hammer_limit_dirtybufspace) + 1515 (slop << HAMMER_BIGBLOCK_BITS); 1516 1517 hammer_count_extra_space_used = usedbytes; /* debugging */ 1518 if (resp) 1519 *resp = usedbytes; 1520 1521 if (hmp->copy_stat_freebigblocks >= 1522 (usedbytes >> HAMMER_BIGBLOCK_BITS)) { 1523 return(0); 1524 } 1525 return (ENOSPC); 1526 } 1527 1528 static int 1529 hammer_check_volume(hammer_mount_t hmp, hammer_off_t *offsetp) 1530 { 1531 hammer_blockmap_t freemap; 1532 struct hammer_blockmap_layer1 *layer1; 1533 hammer_buffer_t buffer1 = NULL; 1534 hammer_off_t layer1_offset; 1535 int error = 0; 1536 1537 freemap = &hmp->blockmap[HAMMER_ZONE_FREEMAP_INDEX]; 1538 1539 layer1_offset = freemap->phys_offset + 1540 HAMMER_BLOCKMAP_LAYER1_OFFSET(*offsetp); 1541 layer1 = hammer_bread(hmp, layer1_offset, &error, &buffer1); 1542 if (error) 1543 goto end; 1544 1545 /* 1546 * No more physically available space in layer1s 1547 * of the current volume, go to the next volume. 1548 */ 1549 if (layer1->phys_offset == HAMMER_BLOCKMAP_UNAVAIL) 1550 hammer_skip_volume(offsetp); 1551 end: 1552 if (buffer1) 1553 hammer_rel_buffer(buffer1, 0); 1554 return(error); 1555 } 1556 1557 static void 1558 hammer_skip_volume(hammer_off_t *offsetp) 1559 { 1560 hammer_off_t offset; 1561 int zone, vol_no; 1562 1563 offset = *offsetp; 1564 zone = HAMMER_ZONE_DECODE(offset); 1565 vol_no = HAMMER_VOL_DECODE(offset) + 1; 1566 KKASSERT(vol_no <= HAMMER_MAX_VOLUMES); 1567 1568 if (vol_no == HAMMER_MAX_VOLUMES) { /* wrap */ 1569 vol_no = 0; 1570 ++zone; 1571 } 1572 1573 *offsetp = HAMMER_ENCODE(zone, vol_no, 0); 1574 } 1575