1 /* 2 * QEMU Block backends 3 * 4 * Copyright (C) 2014-2016 Red Hat, Inc. 5 * 6 * Authors: 7 * Markus Armbruster <armbru@redhat.com>, 8 * 9 * This work is licensed under the terms of the GNU LGPL, version 2.1 10 * or later. See the COPYING.LIB file in the top-level directory. 11 */ 12 13 #include "qemu/osdep.h" 14 #include "sysemu/block-backend.h" 15 #include "block/block_int.h" 16 #include "block/blockjob.h" 17 #include "block/throttle-groups.h" 18 #include "sysemu/blockdev.h" 19 #include "sysemu/sysemu.h" 20 #include "qapi/error.h" 21 #include "qapi/qapi-events-block.h" 22 #include "qemu/id.h" 23 #include "qemu/option.h" 24 #include "trace.h" 25 #include "migration/misc.h" 26 27 /* Number of coroutines to reserve per attached device model */ 28 #define COROUTINE_POOL_RESERVATION 64 29 30 #define NOT_DONE 0x7fffffff /* used while emulated sync operation in progress */ 31 32 static AioContext *blk_aiocb_get_aio_context(BlockAIOCB *acb); 33 34 typedef struct BlockBackendAioNotifier { 35 void (*attached_aio_context)(AioContext *new_context, void *opaque); 36 void (*detach_aio_context)(void *opaque); 37 void *opaque; 38 QLIST_ENTRY(BlockBackendAioNotifier) list; 39 } BlockBackendAioNotifier; 40 41 struct BlockBackend { 42 char *name; 43 int refcnt; 44 BdrvChild *root; 45 DriveInfo *legacy_dinfo; /* null unless created by drive_new() */ 46 QTAILQ_ENTRY(BlockBackend) link; /* for block_backends */ 47 QTAILQ_ENTRY(BlockBackend) monitor_link; /* for monitor_block_backends */ 48 BlockBackendPublic public; 49 50 void *dev; /* attached device model, if any */ 51 bool legacy_dev; /* true if dev is not a DeviceState */ 52 /* TODO change to DeviceState when all users are qdevified */ 53 const BlockDevOps *dev_ops; 54 void *dev_opaque; 55 56 /* the block size for which the guest device expects atomicity */ 57 int guest_block_size; 58 59 /* If the BDS tree is removed, some of its options are stored here (which 60 * can be used to restore those options in the new BDS on insert) */ 61 BlockBackendRootState root_state; 62 63 bool enable_write_cache; 64 65 /* I/O stats (display with "info blockstats"). */ 66 BlockAcctStats stats; 67 68 BlockdevOnError on_read_error, on_write_error; 69 bool iostatus_enabled; 70 BlockDeviceIoStatus iostatus; 71 72 uint64_t perm; 73 uint64_t shared_perm; 74 bool disable_perm; 75 76 bool allow_write_beyond_eof; 77 78 NotifierList remove_bs_notifiers, insert_bs_notifiers; 79 QLIST_HEAD(, BlockBackendAioNotifier) aio_notifiers; 80 81 int quiesce_counter; 82 VMChangeStateEntry *vmsh; 83 bool force_allow_inactivate; 84 85 /* Number of in-flight aio requests. BlockDriverState also counts 86 * in-flight requests but aio requests can exist even when blk->root is 87 * NULL, so we cannot rely on its counter for that case. 88 * Accessed with atomic ops. 89 */ 90 unsigned int in_flight; 91 AioWait wait; 92 }; 93 94 typedef struct BlockBackendAIOCB { 95 BlockAIOCB common; 96 BlockBackend *blk; 97 int ret; 98 } BlockBackendAIOCB; 99 100 static const AIOCBInfo block_backend_aiocb_info = { 101 .get_aio_context = blk_aiocb_get_aio_context, 102 .aiocb_size = sizeof(BlockBackendAIOCB), 103 }; 104 105 static void drive_info_del(DriveInfo *dinfo); 106 static BlockBackend *bdrv_first_blk(BlockDriverState *bs); 107 108 /* All BlockBackends */ 109 static QTAILQ_HEAD(, BlockBackend) block_backends = 110 QTAILQ_HEAD_INITIALIZER(block_backends); 111 112 /* All BlockBackends referenced by the monitor and which are iterated through by 113 * blk_next() */ 114 static QTAILQ_HEAD(, BlockBackend) monitor_block_backends = 115 QTAILQ_HEAD_INITIALIZER(monitor_block_backends); 116 117 static void blk_root_inherit_options(int *child_flags, QDict *child_options, 118 int parent_flags, QDict *parent_options) 119 { 120 /* We're not supposed to call this function for root nodes */ 121 abort(); 122 } 123 static void blk_root_drained_begin(BdrvChild *child); 124 static void blk_root_drained_end(BdrvChild *child); 125 126 static void blk_root_change_media(BdrvChild *child, bool load); 127 static void blk_root_resize(BdrvChild *child); 128 129 static char *blk_root_get_parent_desc(BdrvChild *child) 130 { 131 BlockBackend *blk = child->opaque; 132 char *dev_id; 133 134 if (blk->name) { 135 return g_strdup(blk->name); 136 } 137 138 dev_id = blk_get_attached_dev_id(blk); 139 if (*dev_id) { 140 return dev_id; 141 } else { 142 /* TODO Callback into the BB owner for something more detailed */ 143 g_free(dev_id); 144 return g_strdup("a block device"); 145 } 146 } 147 148 static const char *blk_root_get_name(BdrvChild *child) 149 { 150 return blk_name(child->opaque); 151 } 152 153 static void blk_vm_state_changed(void *opaque, int running, RunState state) 154 { 155 Error *local_err = NULL; 156 BlockBackend *blk = opaque; 157 158 if (state == RUN_STATE_INMIGRATE) { 159 return; 160 } 161 162 qemu_del_vm_change_state_handler(blk->vmsh); 163 blk->vmsh = NULL; 164 blk_set_perm(blk, blk->perm, blk->shared_perm, &local_err); 165 if (local_err) { 166 error_report_err(local_err); 167 } 168 } 169 170 /* 171 * Notifies the user of the BlockBackend that migration has completed. qdev 172 * devices can tighten their permissions in response (specifically revoke 173 * shared write permissions that we needed for storage migration). 174 * 175 * If an error is returned, the VM cannot be allowed to be resumed. 176 */ 177 static void blk_root_activate(BdrvChild *child, Error **errp) 178 { 179 BlockBackend *blk = child->opaque; 180 Error *local_err = NULL; 181 182 if (!blk->disable_perm) { 183 return; 184 } 185 186 blk->disable_perm = false; 187 188 blk_set_perm(blk, blk->perm, BLK_PERM_ALL, &local_err); 189 if (local_err) { 190 error_propagate(errp, local_err); 191 blk->disable_perm = true; 192 return; 193 } 194 195 if (runstate_check(RUN_STATE_INMIGRATE)) { 196 /* Activation can happen when migration process is still active, for 197 * example when nbd_server_add is called during non-shared storage 198 * migration. Defer the shared_perm update to migration completion. */ 199 if (!blk->vmsh) { 200 blk->vmsh = qemu_add_vm_change_state_handler(blk_vm_state_changed, 201 blk); 202 } 203 return; 204 } 205 206 blk_set_perm(blk, blk->perm, blk->shared_perm, &local_err); 207 if (local_err) { 208 error_propagate(errp, local_err); 209 blk->disable_perm = true; 210 return; 211 } 212 } 213 214 void blk_set_force_allow_inactivate(BlockBackend *blk) 215 { 216 blk->force_allow_inactivate = true; 217 } 218 219 static bool blk_can_inactivate(BlockBackend *blk) 220 { 221 /* If it is a guest device, inactivate is ok. */ 222 if (blk->dev || blk_name(blk)[0]) { 223 return true; 224 } 225 226 /* Inactivating means no more writes to the image can be done, 227 * even if those writes would be changes invisible to the 228 * guest. For block job BBs that satisfy this, we can just allow 229 * it. This is the case for mirror job source, which is required 230 * by libvirt non-shared block migration. */ 231 if (!(blk->perm & (BLK_PERM_WRITE | BLK_PERM_WRITE_UNCHANGED))) { 232 return true; 233 } 234 235 return blk->force_allow_inactivate; 236 } 237 238 static int blk_root_inactivate(BdrvChild *child) 239 { 240 BlockBackend *blk = child->opaque; 241 242 if (blk->disable_perm) { 243 return 0; 244 } 245 246 if (!blk_can_inactivate(blk)) { 247 return -EPERM; 248 } 249 250 blk->disable_perm = true; 251 if (blk->root) { 252 bdrv_child_try_set_perm(blk->root, 0, BLK_PERM_ALL, &error_abort); 253 } 254 255 return 0; 256 } 257 258 static void blk_root_attach(BdrvChild *child) 259 { 260 BlockBackend *blk = child->opaque; 261 BlockBackendAioNotifier *notifier; 262 263 trace_blk_root_attach(child, blk, child->bs); 264 265 QLIST_FOREACH(notifier, &blk->aio_notifiers, list) { 266 bdrv_add_aio_context_notifier(child->bs, 267 notifier->attached_aio_context, 268 notifier->detach_aio_context, 269 notifier->opaque); 270 } 271 } 272 273 static void blk_root_detach(BdrvChild *child) 274 { 275 BlockBackend *blk = child->opaque; 276 BlockBackendAioNotifier *notifier; 277 278 trace_blk_root_detach(child, blk, child->bs); 279 280 QLIST_FOREACH(notifier, &blk->aio_notifiers, list) { 281 bdrv_remove_aio_context_notifier(child->bs, 282 notifier->attached_aio_context, 283 notifier->detach_aio_context, 284 notifier->opaque); 285 } 286 } 287 288 static const BdrvChildRole child_root = { 289 .inherit_options = blk_root_inherit_options, 290 291 .change_media = blk_root_change_media, 292 .resize = blk_root_resize, 293 .get_name = blk_root_get_name, 294 .get_parent_desc = blk_root_get_parent_desc, 295 296 .drained_begin = blk_root_drained_begin, 297 .drained_end = blk_root_drained_end, 298 299 .activate = blk_root_activate, 300 .inactivate = blk_root_inactivate, 301 302 .attach = blk_root_attach, 303 .detach = blk_root_detach, 304 }; 305 306 /* 307 * Create a new BlockBackend with a reference count of one. 308 * 309 * @perm is a bitmasks of BLK_PERM_* constants which describes the permissions 310 * to request for a block driver node that is attached to this BlockBackend. 311 * @shared_perm is a bitmask which describes which permissions may be granted 312 * to other users of the attached node. 313 * Both sets of permissions can be changed later using blk_set_perm(). 314 * 315 * Return the new BlockBackend on success, null on failure. 316 */ 317 BlockBackend *blk_new(uint64_t perm, uint64_t shared_perm) 318 { 319 BlockBackend *blk; 320 321 blk = g_new0(BlockBackend, 1); 322 blk->refcnt = 1; 323 blk->perm = perm; 324 blk->shared_perm = shared_perm; 325 blk_set_enable_write_cache(blk, true); 326 327 block_acct_init(&blk->stats); 328 329 notifier_list_init(&blk->remove_bs_notifiers); 330 notifier_list_init(&blk->insert_bs_notifiers); 331 QLIST_INIT(&blk->aio_notifiers); 332 333 QTAILQ_INSERT_TAIL(&block_backends, blk, link); 334 return blk; 335 } 336 337 /* 338 * Creates a new BlockBackend, opens a new BlockDriverState, and connects both. 339 * 340 * Just as with bdrv_open(), after having called this function the reference to 341 * @options belongs to the block layer (even on failure). 342 * 343 * TODO: Remove @filename and @flags; it should be possible to specify a whole 344 * BDS tree just by specifying the @options QDict (or @reference, 345 * alternatively). At the time of adding this function, this is not possible, 346 * though, so callers of this function have to be able to specify @filename and 347 * @flags. 348 */ 349 BlockBackend *blk_new_open(const char *filename, const char *reference, 350 QDict *options, int flags, Error **errp) 351 { 352 BlockBackend *blk; 353 BlockDriverState *bs; 354 uint64_t perm = 0; 355 356 /* blk_new_open() is mainly used in .bdrv_create implementations and the 357 * tools where sharing isn't a concern because the BDS stays private, so we 358 * just request permission according to the flags. 359 * 360 * The exceptions are xen_disk and blockdev_init(); in these cases, the 361 * caller of blk_new_open() doesn't make use of the permissions, but they 362 * shouldn't hurt either. We can still share everything here because the 363 * guest devices will add their own blockers if they can't share. */ 364 if ((flags & BDRV_O_NO_IO) == 0) { 365 perm |= BLK_PERM_CONSISTENT_READ; 366 if (flags & BDRV_O_RDWR) { 367 perm |= BLK_PERM_WRITE; 368 } 369 } 370 if (flags & BDRV_O_RESIZE) { 371 perm |= BLK_PERM_RESIZE; 372 } 373 374 blk = blk_new(perm, BLK_PERM_ALL); 375 bs = bdrv_open(filename, reference, options, flags, errp); 376 if (!bs) { 377 blk_unref(blk); 378 return NULL; 379 } 380 381 blk->root = bdrv_root_attach_child(bs, "root", &child_root, 382 perm, BLK_PERM_ALL, blk, errp); 383 if (!blk->root) { 384 bdrv_unref(bs); 385 blk_unref(blk); 386 return NULL; 387 } 388 389 return blk; 390 } 391 392 static void blk_delete(BlockBackend *blk) 393 { 394 assert(!blk->refcnt); 395 assert(!blk->name); 396 assert(!blk->dev); 397 if (blk->public.throttle_group_member.throttle_state) { 398 blk_io_limits_disable(blk); 399 } 400 if (blk->root) { 401 blk_remove_bs(blk); 402 } 403 if (blk->vmsh) { 404 qemu_del_vm_change_state_handler(blk->vmsh); 405 blk->vmsh = NULL; 406 } 407 assert(QLIST_EMPTY(&blk->remove_bs_notifiers.notifiers)); 408 assert(QLIST_EMPTY(&blk->insert_bs_notifiers.notifiers)); 409 assert(QLIST_EMPTY(&blk->aio_notifiers)); 410 QTAILQ_REMOVE(&block_backends, blk, link); 411 drive_info_del(blk->legacy_dinfo); 412 block_acct_cleanup(&blk->stats); 413 g_free(blk); 414 } 415 416 static void drive_info_del(DriveInfo *dinfo) 417 { 418 if (!dinfo) { 419 return; 420 } 421 qemu_opts_del(dinfo->opts); 422 g_free(dinfo->serial); 423 g_free(dinfo); 424 } 425 426 int blk_get_refcnt(BlockBackend *blk) 427 { 428 return blk ? blk->refcnt : 0; 429 } 430 431 /* 432 * Increment @blk's reference count. 433 * @blk must not be null. 434 */ 435 void blk_ref(BlockBackend *blk) 436 { 437 blk->refcnt++; 438 } 439 440 /* 441 * Decrement @blk's reference count. 442 * If this drops it to zero, destroy @blk. 443 * For convenience, do nothing if @blk is null. 444 */ 445 void blk_unref(BlockBackend *blk) 446 { 447 if (blk) { 448 assert(blk->refcnt > 0); 449 if (!--blk->refcnt) { 450 blk_delete(blk); 451 } 452 } 453 } 454 455 /* 456 * Behaves similarly to blk_next() but iterates over all BlockBackends, even the 457 * ones which are hidden (i.e. are not referenced by the monitor). 458 */ 459 BlockBackend *blk_all_next(BlockBackend *blk) 460 { 461 return blk ? QTAILQ_NEXT(blk, link) 462 : QTAILQ_FIRST(&block_backends); 463 } 464 465 void blk_remove_all_bs(void) 466 { 467 BlockBackend *blk = NULL; 468 469 while ((blk = blk_all_next(blk)) != NULL) { 470 AioContext *ctx = blk_get_aio_context(blk); 471 472 aio_context_acquire(ctx); 473 if (blk->root) { 474 blk_remove_bs(blk); 475 } 476 aio_context_release(ctx); 477 } 478 } 479 480 /* 481 * Return the monitor-owned BlockBackend after @blk. 482 * If @blk is null, return the first one. 483 * Else, return @blk's next sibling, which may be null. 484 * 485 * To iterate over all BlockBackends, do 486 * for (blk = blk_next(NULL); blk; blk = blk_next(blk)) { 487 * ... 488 * } 489 */ 490 BlockBackend *blk_next(BlockBackend *blk) 491 { 492 return blk ? QTAILQ_NEXT(blk, monitor_link) 493 : QTAILQ_FIRST(&monitor_block_backends); 494 } 495 496 /* Iterates over all top-level BlockDriverStates, i.e. BDSs that are owned by 497 * the monitor or attached to a BlockBackend */ 498 BlockDriverState *bdrv_next(BdrvNextIterator *it) 499 { 500 BlockDriverState *bs, *old_bs; 501 502 /* Must be called from the main loop */ 503 assert(qemu_get_current_aio_context() == qemu_get_aio_context()); 504 505 /* First, return all root nodes of BlockBackends. In order to avoid 506 * returning a BDS twice when multiple BBs refer to it, we only return it 507 * if the BB is the first one in the parent list of the BDS. */ 508 if (it->phase == BDRV_NEXT_BACKEND_ROOTS) { 509 BlockBackend *old_blk = it->blk; 510 511 old_bs = old_blk ? blk_bs(old_blk) : NULL; 512 513 do { 514 it->blk = blk_all_next(it->blk); 515 bs = it->blk ? blk_bs(it->blk) : NULL; 516 } while (it->blk && (bs == NULL || bdrv_first_blk(bs) != it->blk)); 517 518 if (it->blk) { 519 blk_ref(it->blk); 520 } 521 blk_unref(old_blk); 522 523 if (bs) { 524 bdrv_ref(bs); 525 bdrv_unref(old_bs); 526 return bs; 527 } 528 it->phase = BDRV_NEXT_MONITOR_OWNED; 529 } else { 530 old_bs = it->bs; 531 } 532 533 /* Then return the monitor-owned BDSes without a BB attached. Ignore all 534 * BDSes that are attached to a BlockBackend here; they have been handled 535 * by the above block already */ 536 do { 537 it->bs = bdrv_next_monitor_owned(it->bs); 538 bs = it->bs; 539 } while (bs && bdrv_has_blk(bs)); 540 541 if (bs) { 542 bdrv_ref(bs); 543 } 544 bdrv_unref(old_bs); 545 546 return bs; 547 } 548 549 static void bdrv_next_reset(BdrvNextIterator *it) 550 { 551 *it = (BdrvNextIterator) { 552 .phase = BDRV_NEXT_BACKEND_ROOTS, 553 }; 554 } 555 556 BlockDriverState *bdrv_first(BdrvNextIterator *it) 557 { 558 bdrv_next_reset(it); 559 return bdrv_next(it); 560 } 561 562 /* Must be called when aborting a bdrv_next() iteration before 563 * bdrv_next() returns NULL */ 564 void bdrv_next_cleanup(BdrvNextIterator *it) 565 { 566 /* Must be called from the main loop */ 567 assert(qemu_get_current_aio_context() == qemu_get_aio_context()); 568 569 if (it->phase == BDRV_NEXT_BACKEND_ROOTS) { 570 if (it->blk) { 571 bdrv_unref(blk_bs(it->blk)); 572 blk_unref(it->blk); 573 } 574 } else { 575 bdrv_unref(it->bs); 576 } 577 578 bdrv_next_reset(it); 579 } 580 581 /* 582 * Add a BlockBackend into the list of backends referenced by the monitor, with 583 * the given @name acting as the handle for the monitor. 584 * Strictly for use by blockdev.c. 585 * 586 * @name must not be null or empty. 587 * 588 * Returns true on success and false on failure. In the latter case, an Error 589 * object is returned through @errp. 590 */ 591 bool monitor_add_blk(BlockBackend *blk, const char *name, Error **errp) 592 { 593 assert(!blk->name); 594 assert(name && name[0]); 595 596 if (!id_wellformed(name)) { 597 error_setg(errp, "Invalid device name"); 598 return false; 599 } 600 if (blk_by_name(name)) { 601 error_setg(errp, "Device with id '%s' already exists", name); 602 return false; 603 } 604 if (bdrv_find_node(name)) { 605 error_setg(errp, 606 "Device name '%s' conflicts with an existing node name", 607 name); 608 return false; 609 } 610 611 blk->name = g_strdup(name); 612 QTAILQ_INSERT_TAIL(&monitor_block_backends, blk, monitor_link); 613 return true; 614 } 615 616 /* 617 * Remove a BlockBackend from the list of backends referenced by the monitor. 618 * Strictly for use by blockdev.c. 619 */ 620 void monitor_remove_blk(BlockBackend *blk) 621 { 622 if (!blk->name) { 623 return; 624 } 625 626 QTAILQ_REMOVE(&monitor_block_backends, blk, monitor_link); 627 g_free(blk->name); 628 blk->name = NULL; 629 } 630 631 /* 632 * Return @blk's name, a non-null string. 633 * Returns an empty string iff @blk is not referenced by the monitor. 634 */ 635 const char *blk_name(const BlockBackend *blk) 636 { 637 return blk->name ?: ""; 638 } 639 640 /* 641 * Return the BlockBackend with name @name if it exists, else null. 642 * @name must not be null. 643 */ 644 BlockBackend *blk_by_name(const char *name) 645 { 646 BlockBackend *blk = NULL; 647 648 assert(name); 649 while ((blk = blk_next(blk)) != NULL) { 650 if (!strcmp(name, blk->name)) { 651 return blk; 652 } 653 } 654 return NULL; 655 } 656 657 /* 658 * Return the BlockDriverState attached to @blk if any, else null. 659 */ 660 BlockDriverState *blk_bs(BlockBackend *blk) 661 { 662 return blk->root ? blk->root->bs : NULL; 663 } 664 665 static BlockBackend *bdrv_first_blk(BlockDriverState *bs) 666 { 667 BdrvChild *child; 668 QLIST_FOREACH(child, &bs->parents, next_parent) { 669 if (child->role == &child_root) { 670 return child->opaque; 671 } 672 } 673 674 return NULL; 675 } 676 677 /* 678 * Returns true if @bs has an associated BlockBackend. 679 */ 680 bool bdrv_has_blk(BlockDriverState *bs) 681 { 682 return bdrv_first_blk(bs) != NULL; 683 } 684 685 /* 686 * Returns true if @bs has only BlockBackends as parents. 687 */ 688 bool bdrv_is_root_node(BlockDriverState *bs) 689 { 690 BdrvChild *c; 691 692 QLIST_FOREACH(c, &bs->parents, next_parent) { 693 if (c->role != &child_root) { 694 return false; 695 } 696 } 697 698 return true; 699 } 700 701 /* 702 * Return @blk's DriveInfo if any, else null. 703 */ 704 DriveInfo *blk_legacy_dinfo(BlockBackend *blk) 705 { 706 return blk->legacy_dinfo; 707 } 708 709 /* 710 * Set @blk's DriveInfo to @dinfo, and return it. 711 * @blk must not have a DriveInfo set already. 712 * No other BlockBackend may have the same DriveInfo set. 713 */ 714 DriveInfo *blk_set_legacy_dinfo(BlockBackend *blk, DriveInfo *dinfo) 715 { 716 assert(!blk->legacy_dinfo); 717 return blk->legacy_dinfo = dinfo; 718 } 719 720 /* 721 * Return the BlockBackend with DriveInfo @dinfo. 722 * It must exist. 723 */ 724 BlockBackend *blk_by_legacy_dinfo(DriveInfo *dinfo) 725 { 726 BlockBackend *blk = NULL; 727 728 while ((blk = blk_next(blk)) != NULL) { 729 if (blk->legacy_dinfo == dinfo) { 730 return blk; 731 } 732 } 733 abort(); 734 } 735 736 /* 737 * Returns a pointer to the publicly accessible fields of @blk. 738 */ 739 BlockBackendPublic *blk_get_public(BlockBackend *blk) 740 { 741 return &blk->public; 742 } 743 744 /* 745 * Returns a BlockBackend given the associated @public fields. 746 */ 747 BlockBackend *blk_by_public(BlockBackendPublic *public) 748 { 749 return container_of(public, BlockBackend, public); 750 } 751 752 /* 753 * Disassociates the currently associated BlockDriverState from @blk. 754 */ 755 void blk_remove_bs(BlockBackend *blk) 756 { 757 ThrottleGroupMember *tgm = &blk->public.throttle_group_member; 758 BlockDriverState *bs; 759 760 notifier_list_notify(&blk->remove_bs_notifiers, blk); 761 if (tgm->throttle_state) { 762 bs = blk_bs(blk); 763 bdrv_drained_begin(bs); 764 throttle_group_detach_aio_context(tgm); 765 throttle_group_attach_aio_context(tgm, qemu_get_aio_context()); 766 bdrv_drained_end(bs); 767 } 768 769 blk_update_root_state(blk); 770 771 /* bdrv_root_unref_child() will cause blk->root to become stale and may 772 * switch to a completion coroutine later on. Let's drain all I/O here 773 * to avoid that and a potential QEMU crash. 774 */ 775 blk_drain(blk); 776 bdrv_root_unref_child(blk->root); 777 blk->root = NULL; 778 } 779 780 /* 781 * Associates a new BlockDriverState with @blk. 782 */ 783 int blk_insert_bs(BlockBackend *blk, BlockDriverState *bs, Error **errp) 784 { 785 ThrottleGroupMember *tgm = &blk->public.throttle_group_member; 786 blk->root = bdrv_root_attach_child(bs, "root", &child_root, 787 blk->perm, blk->shared_perm, blk, errp); 788 if (blk->root == NULL) { 789 return -EPERM; 790 } 791 bdrv_ref(bs); 792 793 notifier_list_notify(&blk->insert_bs_notifiers, blk); 794 if (tgm->throttle_state) { 795 throttle_group_detach_aio_context(tgm); 796 throttle_group_attach_aio_context(tgm, bdrv_get_aio_context(bs)); 797 } 798 799 return 0; 800 } 801 802 /* 803 * Sets the permission bitmasks that the user of the BlockBackend needs. 804 */ 805 int blk_set_perm(BlockBackend *blk, uint64_t perm, uint64_t shared_perm, 806 Error **errp) 807 { 808 int ret; 809 810 if (blk->root && !blk->disable_perm) { 811 ret = bdrv_child_try_set_perm(blk->root, perm, shared_perm, errp); 812 if (ret < 0) { 813 return ret; 814 } 815 } 816 817 blk->perm = perm; 818 blk->shared_perm = shared_perm; 819 820 return 0; 821 } 822 823 void blk_get_perm(BlockBackend *blk, uint64_t *perm, uint64_t *shared_perm) 824 { 825 *perm = blk->perm; 826 *shared_perm = blk->shared_perm; 827 } 828 829 static int blk_do_attach_dev(BlockBackend *blk, void *dev) 830 { 831 if (blk->dev) { 832 return -EBUSY; 833 } 834 835 /* While migration is still incoming, we don't need to apply the 836 * permissions of guest device BlockBackends. We might still have a block 837 * job or NBD server writing to the image for storage migration. */ 838 if (runstate_check(RUN_STATE_INMIGRATE)) { 839 blk->disable_perm = true; 840 } 841 842 blk_ref(blk); 843 blk->dev = dev; 844 blk->legacy_dev = false; 845 blk_iostatus_reset(blk); 846 847 return 0; 848 } 849 850 /* 851 * Attach device model @dev to @blk. 852 * Return 0 on success, -EBUSY when a device model is attached already. 853 */ 854 int blk_attach_dev(BlockBackend *blk, DeviceState *dev) 855 { 856 return blk_do_attach_dev(blk, dev); 857 } 858 859 /* 860 * Attach device model @dev to @blk. 861 * @blk must not have a device model attached already. 862 * TODO qdevified devices don't use this, remove when devices are qdevified 863 */ 864 void blk_attach_dev_legacy(BlockBackend *blk, void *dev) 865 { 866 if (blk_do_attach_dev(blk, dev) < 0) { 867 abort(); 868 } 869 blk->legacy_dev = true; 870 } 871 872 /* 873 * Detach device model @dev from @blk. 874 * @dev must be currently attached to @blk. 875 */ 876 void blk_detach_dev(BlockBackend *blk, void *dev) 877 /* TODO change to DeviceState *dev when all users are qdevified */ 878 { 879 assert(blk->dev == dev); 880 blk->dev = NULL; 881 blk->dev_ops = NULL; 882 blk->dev_opaque = NULL; 883 blk->guest_block_size = 512; 884 blk_set_perm(blk, 0, BLK_PERM_ALL, &error_abort); 885 blk_unref(blk); 886 } 887 888 /* 889 * Return the device model attached to @blk if any, else null. 890 */ 891 void *blk_get_attached_dev(BlockBackend *blk) 892 /* TODO change to return DeviceState * when all users are qdevified */ 893 { 894 return blk->dev; 895 } 896 897 /* Return the qdev ID, or if no ID is assigned the QOM path, of the block 898 * device attached to the BlockBackend. */ 899 char *blk_get_attached_dev_id(BlockBackend *blk) 900 { 901 DeviceState *dev; 902 903 assert(!blk->legacy_dev); 904 dev = blk->dev; 905 906 if (!dev) { 907 return g_strdup(""); 908 } else if (dev->id) { 909 return g_strdup(dev->id); 910 } 911 return object_get_canonical_path(OBJECT(dev)); 912 } 913 914 /* 915 * Return the BlockBackend which has the device model @dev attached if it 916 * exists, else null. 917 * 918 * @dev must not be null. 919 */ 920 BlockBackend *blk_by_dev(void *dev) 921 { 922 BlockBackend *blk = NULL; 923 924 assert(dev != NULL); 925 while ((blk = blk_all_next(blk)) != NULL) { 926 if (blk->dev == dev) { 927 return blk; 928 } 929 } 930 return NULL; 931 } 932 933 /* 934 * Set @blk's device model callbacks to @ops. 935 * @opaque is the opaque argument to pass to the callbacks. 936 * This is for use by device models. 937 */ 938 void blk_set_dev_ops(BlockBackend *blk, const BlockDevOps *ops, 939 void *opaque) 940 { 941 /* All drivers that use blk_set_dev_ops() are qdevified and we want to keep 942 * it that way, so we can assume blk->dev, if present, is a DeviceState if 943 * blk->dev_ops is set. Non-device users may use dev_ops without device. */ 944 assert(!blk->legacy_dev); 945 946 blk->dev_ops = ops; 947 blk->dev_opaque = opaque; 948 949 /* Are we currently quiesced? Should we enforce this right now? */ 950 if (blk->quiesce_counter && ops->drained_begin) { 951 ops->drained_begin(opaque); 952 } 953 } 954 955 /* 956 * Notify @blk's attached device model of media change. 957 * 958 * If @load is true, notify of media load. This action can fail, meaning that 959 * the medium cannot be loaded. @errp is set then. 960 * 961 * If @load is false, notify of media eject. This can never fail. 962 * 963 * Also send DEVICE_TRAY_MOVED events as appropriate. 964 */ 965 void blk_dev_change_media_cb(BlockBackend *blk, bool load, Error **errp) 966 { 967 if (blk->dev_ops && blk->dev_ops->change_media_cb) { 968 bool tray_was_open, tray_is_open; 969 Error *local_err = NULL; 970 971 assert(!blk->legacy_dev); 972 973 tray_was_open = blk_dev_is_tray_open(blk); 974 blk->dev_ops->change_media_cb(blk->dev_opaque, load, &local_err); 975 if (local_err) { 976 assert(load == true); 977 error_propagate(errp, local_err); 978 return; 979 } 980 tray_is_open = blk_dev_is_tray_open(blk); 981 982 if (tray_was_open != tray_is_open) { 983 char *id = blk_get_attached_dev_id(blk); 984 qapi_event_send_device_tray_moved(blk_name(blk), id, tray_is_open, 985 &error_abort); 986 g_free(id); 987 } 988 } 989 } 990 991 static void blk_root_change_media(BdrvChild *child, bool load) 992 { 993 blk_dev_change_media_cb(child->opaque, load, NULL); 994 } 995 996 /* 997 * Does @blk's attached device model have removable media? 998 * %true if no device model is attached. 999 */ 1000 bool blk_dev_has_removable_media(BlockBackend *blk) 1001 { 1002 return !blk->dev || (blk->dev_ops && blk->dev_ops->change_media_cb); 1003 } 1004 1005 /* 1006 * Does @blk's attached device model have a tray? 1007 */ 1008 bool blk_dev_has_tray(BlockBackend *blk) 1009 { 1010 return blk->dev_ops && blk->dev_ops->is_tray_open; 1011 } 1012 1013 /* 1014 * Notify @blk's attached device model of a media eject request. 1015 * If @force is true, the medium is about to be yanked out forcefully. 1016 */ 1017 void blk_dev_eject_request(BlockBackend *blk, bool force) 1018 { 1019 if (blk->dev_ops && blk->dev_ops->eject_request_cb) { 1020 blk->dev_ops->eject_request_cb(blk->dev_opaque, force); 1021 } 1022 } 1023 1024 /* 1025 * Does @blk's attached device model have a tray, and is it open? 1026 */ 1027 bool blk_dev_is_tray_open(BlockBackend *blk) 1028 { 1029 if (blk_dev_has_tray(blk)) { 1030 return blk->dev_ops->is_tray_open(blk->dev_opaque); 1031 } 1032 return false; 1033 } 1034 1035 /* 1036 * Does @blk's attached device model have the medium locked? 1037 * %false if the device model has no such lock. 1038 */ 1039 bool blk_dev_is_medium_locked(BlockBackend *blk) 1040 { 1041 if (blk->dev_ops && blk->dev_ops->is_medium_locked) { 1042 return blk->dev_ops->is_medium_locked(blk->dev_opaque); 1043 } 1044 return false; 1045 } 1046 1047 /* 1048 * Notify @blk's attached device model of a backend size change. 1049 */ 1050 static void blk_root_resize(BdrvChild *child) 1051 { 1052 BlockBackend *blk = child->opaque; 1053 1054 if (blk->dev_ops && blk->dev_ops->resize_cb) { 1055 blk->dev_ops->resize_cb(blk->dev_opaque); 1056 } 1057 } 1058 1059 void blk_iostatus_enable(BlockBackend *blk) 1060 { 1061 blk->iostatus_enabled = true; 1062 blk->iostatus = BLOCK_DEVICE_IO_STATUS_OK; 1063 } 1064 1065 /* The I/O status is only enabled if the drive explicitly 1066 * enables it _and_ the VM is configured to stop on errors */ 1067 bool blk_iostatus_is_enabled(const BlockBackend *blk) 1068 { 1069 return (blk->iostatus_enabled && 1070 (blk->on_write_error == BLOCKDEV_ON_ERROR_ENOSPC || 1071 blk->on_write_error == BLOCKDEV_ON_ERROR_STOP || 1072 blk->on_read_error == BLOCKDEV_ON_ERROR_STOP)); 1073 } 1074 1075 BlockDeviceIoStatus blk_iostatus(const BlockBackend *blk) 1076 { 1077 return blk->iostatus; 1078 } 1079 1080 void blk_iostatus_disable(BlockBackend *blk) 1081 { 1082 blk->iostatus_enabled = false; 1083 } 1084 1085 void blk_iostatus_reset(BlockBackend *blk) 1086 { 1087 if (blk_iostatus_is_enabled(blk)) { 1088 BlockDriverState *bs = blk_bs(blk); 1089 blk->iostatus = BLOCK_DEVICE_IO_STATUS_OK; 1090 if (bs && bs->job) { 1091 block_job_iostatus_reset(bs->job); 1092 } 1093 } 1094 } 1095 1096 void blk_iostatus_set_err(BlockBackend *blk, int error) 1097 { 1098 assert(blk_iostatus_is_enabled(blk)); 1099 if (blk->iostatus == BLOCK_DEVICE_IO_STATUS_OK) { 1100 blk->iostatus = error == ENOSPC ? BLOCK_DEVICE_IO_STATUS_NOSPACE : 1101 BLOCK_DEVICE_IO_STATUS_FAILED; 1102 } 1103 } 1104 1105 void blk_set_allow_write_beyond_eof(BlockBackend *blk, bool allow) 1106 { 1107 blk->allow_write_beyond_eof = allow; 1108 } 1109 1110 static int blk_check_byte_request(BlockBackend *blk, int64_t offset, 1111 size_t size) 1112 { 1113 int64_t len; 1114 1115 if (size > INT_MAX) { 1116 return -EIO; 1117 } 1118 1119 if (!blk_is_available(blk)) { 1120 return -ENOMEDIUM; 1121 } 1122 1123 if (offset < 0) { 1124 return -EIO; 1125 } 1126 1127 if (!blk->allow_write_beyond_eof) { 1128 len = blk_getlength(blk); 1129 if (len < 0) { 1130 return len; 1131 } 1132 1133 if (offset > len || len - offset < size) { 1134 return -EIO; 1135 } 1136 } 1137 1138 return 0; 1139 } 1140 1141 int coroutine_fn blk_co_preadv(BlockBackend *blk, int64_t offset, 1142 unsigned int bytes, QEMUIOVector *qiov, 1143 BdrvRequestFlags flags) 1144 { 1145 int ret; 1146 BlockDriverState *bs = blk_bs(blk); 1147 1148 trace_blk_co_preadv(blk, bs, offset, bytes, flags); 1149 1150 ret = blk_check_byte_request(blk, offset, bytes); 1151 if (ret < 0) { 1152 return ret; 1153 } 1154 1155 bdrv_inc_in_flight(bs); 1156 1157 /* throttling disk I/O */ 1158 if (blk->public.throttle_group_member.throttle_state) { 1159 throttle_group_co_io_limits_intercept(&blk->public.throttle_group_member, 1160 bytes, false); 1161 } 1162 1163 ret = bdrv_co_preadv(blk->root, offset, bytes, qiov, flags); 1164 bdrv_dec_in_flight(bs); 1165 return ret; 1166 } 1167 1168 int coroutine_fn blk_co_pwritev(BlockBackend *blk, int64_t offset, 1169 unsigned int bytes, QEMUIOVector *qiov, 1170 BdrvRequestFlags flags) 1171 { 1172 int ret; 1173 BlockDriverState *bs = blk_bs(blk); 1174 1175 trace_blk_co_pwritev(blk, bs, offset, bytes, flags); 1176 1177 ret = blk_check_byte_request(blk, offset, bytes); 1178 if (ret < 0) { 1179 return ret; 1180 } 1181 1182 bdrv_inc_in_flight(bs); 1183 /* throttling disk I/O */ 1184 if (blk->public.throttle_group_member.throttle_state) { 1185 throttle_group_co_io_limits_intercept(&blk->public.throttle_group_member, 1186 bytes, true); 1187 } 1188 1189 if (!blk->enable_write_cache) { 1190 flags |= BDRV_REQ_FUA; 1191 } 1192 1193 ret = bdrv_co_pwritev(blk->root, offset, bytes, qiov, flags); 1194 bdrv_dec_in_flight(bs); 1195 return ret; 1196 } 1197 1198 typedef struct BlkRwCo { 1199 BlockBackend *blk; 1200 int64_t offset; 1201 void *iobuf; 1202 int ret; 1203 BdrvRequestFlags flags; 1204 } BlkRwCo; 1205 1206 static void blk_read_entry(void *opaque) 1207 { 1208 BlkRwCo *rwco = opaque; 1209 QEMUIOVector *qiov = rwco->iobuf; 1210 1211 rwco->ret = blk_co_preadv(rwco->blk, rwco->offset, qiov->size, 1212 qiov, rwco->flags); 1213 } 1214 1215 static void blk_write_entry(void *opaque) 1216 { 1217 BlkRwCo *rwco = opaque; 1218 QEMUIOVector *qiov = rwco->iobuf; 1219 1220 rwco->ret = blk_co_pwritev(rwco->blk, rwco->offset, qiov->size, 1221 qiov, rwco->flags); 1222 } 1223 1224 static int blk_prw(BlockBackend *blk, int64_t offset, uint8_t *buf, 1225 int64_t bytes, CoroutineEntry co_entry, 1226 BdrvRequestFlags flags) 1227 { 1228 QEMUIOVector qiov; 1229 struct iovec iov; 1230 BlkRwCo rwco; 1231 1232 iov = (struct iovec) { 1233 .iov_base = buf, 1234 .iov_len = bytes, 1235 }; 1236 qemu_iovec_init_external(&qiov, &iov, 1); 1237 1238 rwco = (BlkRwCo) { 1239 .blk = blk, 1240 .offset = offset, 1241 .iobuf = &qiov, 1242 .flags = flags, 1243 .ret = NOT_DONE, 1244 }; 1245 1246 if (qemu_in_coroutine()) { 1247 /* Fast-path if already in coroutine context */ 1248 co_entry(&rwco); 1249 } else { 1250 Coroutine *co = qemu_coroutine_create(co_entry, &rwco); 1251 bdrv_coroutine_enter(blk_bs(blk), co); 1252 BDRV_POLL_WHILE(blk_bs(blk), rwco.ret == NOT_DONE); 1253 } 1254 1255 return rwco.ret; 1256 } 1257 1258 int blk_pread_unthrottled(BlockBackend *blk, int64_t offset, uint8_t *buf, 1259 int count) 1260 { 1261 int ret; 1262 1263 ret = blk_check_byte_request(blk, offset, count); 1264 if (ret < 0) { 1265 return ret; 1266 } 1267 1268 blk_root_drained_begin(blk->root); 1269 ret = blk_pread(blk, offset, buf, count); 1270 blk_root_drained_end(blk->root); 1271 return ret; 1272 } 1273 1274 int blk_pwrite_zeroes(BlockBackend *blk, int64_t offset, 1275 int bytes, BdrvRequestFlags flags) 1276 { 1277 return blk_prw(blk, offset, NULL, bytes, blk_write_entry, 1278 flags | BDRV_REQ_ZERO_WRITE); 1279 } 1280 1281 int blk_make_zero(BlockBackend *blk, BdrvRequestFlags flags) 1282 { 1283 return bdrv_make_zero(blk->root, flags); 1284 } 1285 1286 static void blk_inc_in_flight(BlockBackend *blk) 1287 { 1288 atomic_inc(&blk->in_flight); 1289 } 1290 1291 static void blk_dec_in_flight(BlockBackend *blk) 1292 { 1293 atomic_dec(&blk->in_flight); 1294 aio_wait_kick(&blk->wait); 1295 } 1296 1297 static void error_callback_bh(void *opaque) 1298 { 1299 struct BlockBackendAIOCB *acb = opaque; 1300 1301 blk_dec_in_flight(acb->blk); 1302 acb->common.cb(acb->common.opaque, acb->ret); 1303 qemu_aio_unref(acb); 1304 } 1305 1306 BlockAIOCB *blk_abort_aio_request(BlockBackend *blk, 1307 BlockCompletionFunc *cb, 1308 void *opaque, int ret) 1309 { 1310 struct BlockBackendAIOCB *acb; 1311 1312 blk_inc_in_flight(blk); 1313 acb = blk_aio_get(&block_backend_aiocb_info, blk, cb, opaque); 1314 acb->blk = blk; 1315 acb->ret = ret; 1316 1317 aio_bh_schedule_oneshot(blk_get_aio_context(blk), error_callback_bh, acb); 1318 return &acb->common; 1319 } 1320 1321 typedef struct BlkAioEmAIOCB { 1322 BlockAIOCB common; 1323 BlkRwCo rwco; 1324 int bytes; 1325 bool has_returned; 1326 } BlkAioEmAIOCB; 1327 1328 static const AIOCBInfo blk_aio_em_aiocb_info = { 1329 .aiocb_size = sizeof(BlkAioEmAIOCB), 1330 }; 1331 1332 static void blk_aio_complete(BlkAioEmAIOCB *acb) 1333 { 1334 if (acb->has_returned) { 1335 blk_dec_in_flight(acb->rwco.blk); 1336 acb->common.cb(acb->common.opaque, acb->rwco.ret); 1337 qemu_aio_unref(acb); 1338 } 1339 } 1340 1341 static void blk_aio_complete_bh(void *opaque) 1342 { 1343 BlkAioEmAIOCB *acb = opaque; 1344 assert(acb->has_returned); 1345 blk_aio_complete(acb); 1346 } 1347 1348 static BlockAIOCB *blk_aio_prwv(BlockBackend *blk, int64_t offset, int bytes, 1349 void *iobuf, CoroutineEntry co_entry, 1350 BdrvRequestFlags flags, 1351 BlockCompletionFunc *cb, void *opaque) 1352 { 1353 BlkAioEmAIOCB *acb; 1354 Coroutine *co; 1355 1356 blk_inc_in_flight(blk); 1357 acb = blk_aio_get(&blk_aio_em_aiocb_info, blk, cb, opaque); 1358 acb->rwco = (BlkRwCo) { 1359 .blk = blk, 1360 .offset = offset, 1361 .iobuf = iobuf, 1362 .flags = flags, 1363 .ret = NOT_DONE, 1364 }; 1365 acb->bytes = bytes; 1366 acb->has_returned = false; 1367 1368 co = qemu_coroutine_create(co_entry, acb); 1369 bdrv_coroutine_enter(blk_bs(blk), co); 1370 1371 acb->has_returned = true; 1372 if (acb->rwco.ret != NOT_DONE) { 1373 aio_bh_schedule_oneshot(blk_get_aio_context(blk), 1374 blk_aio_complete_bh, acb); 1375 } 1376 1377 return &acb->common; 1378 } 1379 1380 static void blk_aio_read_entry(void *opaque) 1381 { 1382 BlkAioEmAIOCB *acb = opaque; 1383 BlkRwCo *rwco = &acb->rwco; 1384 QEMUIOVector *qiov = rwco->iobuf; 1385 1386 assert(qiov->size == acb->bytes); 1387 rwco->ret = blk_co_preadv(rwco->blk, rwco->offset, acb->bytes, 1388 qiov, rwco->flags); 1389 blk_aio_complete(acb); 1390 } 1391 1392 static void blk_aio_write_entry(void *opaque) 1393 { 1394 BlkAioEmAIOCB *acb = opaque; 1395 BlkRwCo *rwco = &acb->rwco; 1396 QEMUIOVector *qiov = rwco->iobuf; 1397 1398 assert(!qiov || qiov->size == acb->bytes); 1399 rwco->ret = blk_co_pwritev(rwco->blk, rwco->offset, acb->bytes, 1400 qiov, rwco->flags); 1401 blk_aio_complete(acb); 1402 } 1403 1404 BlockAIOCB *blk_aio_pwrite_zeroes(BlockBackend *blk, int64_t offset, 1405 int count, BdrvRequestFlags flags, 1406 BlockCompletionFunc *cb, void *opaque) 1407 { 1408 return blk_aio_prwv(blk, offset, count, NULL, blk_aio_write_entry, 1409 flags | BDRV_REQ_ZERO_WRITE, cb, opaque); 1410 } 1411 1412 int blk_pread(BlockBackend *blk, int64_t offset, void *buf, int count) 1413 { 1414 int ret = blk_prw(blk, offset, buf, count, blk_read_entry, 0); 1415 if (ret < 0) { 1416 return ret; 1417 } 1418 return count; 1419 } 1420 1421 int blk_pwrite(BlockBackend *blk, int64_t offset, const void *buf, int count, 1422 BdrvRequestFlags flags) 1423 { 1424 int ret = blk_prw(blk, offset, (void *) buf, count, blk_write_entry, 1425 flags); 1426 if (ret < 0) { 1427 return ret; 1428 } 1429 return count; 1430 } 1431 1432 int64_t blk_getlength(BlockBackend *blk) 1433 { 1434 if (!blk_is_available(blk)) { 1435 return -ENOMEDIUM; 1436 } 1437 1438 return bdrv_getlength(blk_bs(blk)); 1439 } 1440 1441 void blk_get_geometry(BlockBackend *blk, uint64_t *nb_sectors_ptr) 1442 { 1443 if (!blk_bs(blk)) { 1444 *nb_sectors_ptr = 0; 1445 } else { 1446 bdrv_get_geometry(blk_bs(blk), nb_sectors_ptr); 1447 } 1448 } 1449 1450 int64_t blk_nb_sectors(BlockBackend *blk) 1451 { 1452 if (!blk_is_available(blk)) { 1453 return -ENOMEDIUM; 1454 } 1455 1456 return bdrv_nb_sectors(blk_bs(blk)); 1457 } 1458 1459 BlockAIOCB *blk_aio_preadv(BlockBackend *blk, int64_t offset, 1460 QEMUIOVector *qiov, BdrvRequestFlags flags, 1461 BlockCompletionFunc *cb, void *opaque) 1462 { 1463 return blk_aio_prwv(blk, offset, qiov->size, qiov, 1464 blk_aio_read_entry, flags, cb, opaque); 1465 } 1466 1467 BlockAIOCB *blk_aio_pwritev(BlockBackend *blk, int64_t offset, 1468 QEMUIOVector *qiov, BdrvRequestFlags flags, 1469 BlockCompletionFunc *cb, void *opaque) 1470 { 1471 return blk_aio_prwv(blk, offset, qiov->size, qiov, 1472 blk_aio_write_entry, flags, cb, opaque); 1473 } 1474 1475 static void blk_aio_flush_entry(void *opaque) 1476 { 1477 BlkAioEmAIOCB *acb = opaque; 1478 BlkRwCo *rwco = &acb->rwco; 1479 1480 rwco->ret = blk_co_flush(rwco->blk); 1481 blk_aio_complete(acb); 1482 } 1483 1484 BlockAIOCB *blk_aio_flush(BlockBackend *blk, 1485 BlockCompletionFunc *cb, void *opaque) 1486 { 1487 return blk_aio_prwv(blk, 0, 0, NULL, blk_aio_flush_entry, 0, cb, opaque); 1488 } 1489 1490 static void blk_aio_pdiscard_entry(void *opaque) 1491 { 1492 BlkAioEmAIOCB *acb = opaque; 1493 BlkRwCo *rwco = &acb->rwco; 1494 1495 rwco->ret = blk_co_pdiscard(rwco->blk, rwco->offset, acb->bytes); 1496 blk_aio_complete(acb); 1497 } 1498 1499 BlockAIOCB *blk_aio_pdiscard(BlockBackend *blk, 1500 int64_t offset, int bytes, 1501 BlockCompletionFunc *cb, void *opaque) 1502 { 1503 return blk_aio_prwv(blk, offset, bytes, NULL, blk_aio_pdiscard_entry, 0, 1504 cb, opaque); 1505 } 1506 1507 void blk_aio_cancel(BlockAIOCB *acb) 1508 { 1509 bdrv_aio_cancel(acb); 1510 } 1511 1512 void blk_aio_cancel_async(BlockAIOCB *acb) 1513 { 1514 bdrv_aio_cancel_async(acb); 1515 } 1516 1517 int blk_co_ioctl(BlockBackend *blk, unsigned long int req, void *buf) 1518 { 1519 if (!blk_is_available(blk)) { 1520 return -ENOMEDIUM; 1521 } 1522 1523 return bdrv_co_ioctl(blk_bs(blk), req, buf); 1524 } 1525 1526 static void blk_ioctl_entry(void *opaque) 1527 { 1528 BlkRwCo *rwco = opaque; 1529 QEMUIOVector *qiov = rwco->iobuf; 1530 1531 rwco->ret = blk_co_ioctl(rwco->blk, rwco->offset, 1532 qiov->iov[0].iov_base); 1533 } 1534 1535 int blk_ioctl(BlockBackend *blk, unsigned long int req, void *buf) 1536 { 1537 return blk_prw(blk, req, buf, 0, blk_ioctl_entry, 0); 1538 } 1539 1540 static void blk_aio_ioctl_entry(void *opaque) 1541 { 1542 BlkAioEmAIOCB *acb = opaque; 1543 BlkRwCo *rwco = &acb->rwco; 1544 1545 rwco->ret = blk_co_ioctl(rwco->blk, rwco->offset, rwco->iobuf); 1546 1547 blk_aio_complete(acb); 1548 } 1549 1550 BlockAIOCB *blk_aio_ioctl(BlockBackend *blk, unsigned long int req, void *buf, 1551 BlockCompletionFunc *cb, void *opaque) 1552 { 1553 return blk_aio_prwv(blk, req, 0, buf, blk_aio_ioctl_entry, 0, cb, opaque); 1554 } 1555 1556 int blk_co_pdiscard(BlockBackend *blk, int64_t offset, int bytes) 1557 { 1558 int ret = blk_check_byte_request(blk, offset, bytes); 1559 if (ret < 0) { 1560 return ret; 1561 } 1562 1563 return bdrv_co_pdiscard(blk->root, offset, bytes); 1564 } 1565 1566 int blk_co_flush(BlockBackend *blk) 1567 { 1568 if (!blk_is_available(blk)) { 1569 return -ENOMEDIUM; 1570 } 1571 1572 return bdrv_co_flush(blk_bs(blk)); 1573 } 1574 1575 static void blk_flush_entry(void *opaque) 1576 { 1577 BlkRwCo *rwco = opaque; 1578 rwco->ret = blk_co_flush(rwco->blk); 1579 } 1580 1581 int blk_flush(BlockBackend *blk) 1582 { 1583 return blk_prw(blk, 0, NULL, 0, blk_flush_entry, 0); 1584 } 1585 1586 void blk_drain(BlockBackend *blk) 1587 { 1588 BlockDriverState *bs = blk_bs(blk); 1589 1590 if (bs) { 1591 bdrv_drained_begin(bs); 1592 } 1593 1594 /* We may have -ENOMEDIUM completions in flight */ 1595 AIO_WAIT_WHILE(&blk->wait, 1596 blk_get_aio_context(blk), 1597 atomic_mb_read(&blk->in_flight) > 0); 1598 1599 if (bs) { 1600 bdrv_drained_end(bs); 1601 } 1602 } 1603 1604 void blk_drain_all(void) 1605 { 1606 BlockBackend *blk = NULL; 1607 1608 bdrv_drain_all_begin(); 1609 1610 while ((blk = blk_all_next(blk)) != NULL) { 1611 AioContext *ctx = blk_get_aio_context(blk); 1612 1613 aio_context_acquire(ctx); 1614 1615 /* We may have -ENOMEDIUM completions in flight */ 1616 AIO_WAIT_WHILE(&blk->wait, ctx, 1617 atomic_mb_read(&blk->in_flight) > 0); 1618 1619 aio_context_release(ctx); 1620 } 1621 1622 bdrv_drain_all_end(); 1623 } 1624 1625 void blk_set_on_error(BlockBackend *blk, BlockdevOnError on_read_error, 1626 BlockdevOnError on_write_error) 1627 { 1628 blk->on_read_error = on_read_error; 1629 blk->on_write_error = on_write_error; 1630 } 1631 1632 BlockdevOnError blk_get_on_error(BlockBackend *blk, bool is_read) 1633 { 1634 return is_read ? blk->on_read_error : blk->on_write_error; 1635 } 1636 1637 BlockErrorAction blk_get_error_action(BlockBackend *blk, bool is_read, 1638 int error) 1639 { 1640 BlockdevOnError on_err = blk_get_on_error(blk, is_read); 1641 1642 switch (on_err) { 1643 case BLOCKDEV_ON_ERROR_ENOSPC: 1644 return (error == ENOSPC) ? 1645 BLOCK_ERROR_ACTION_STOP : BLOCK_ERROR_ACTION_REPORT; 1646 case BLOCKDEV_ON_ERROR_STOP: 1647 return BLOCK_ERROR_ACTION_STOP; 1648 case BLOCKDEV_ON_ERROR_REPORT: 1649 return BLOCK_ERROR_ACTION_REPORT; 1650 case BLOCKDEV_ON_ERROR_IGNORE: 1651 return BLOCK_ERROR_ACTION_IGNORE; 1652 case BLOCKDEV_ON_ERROR_AUTO: 1653 default: 1654 abort(); 1655 } 1656 } 1657 1658 static void send_qmp_error_event(BlockBackend *blk, 1659 BlockErrorAction action, 1660 bool is_read, int error) 1661 { 1662 IoOperationType optype; 1663 BlockDriverState *bs = blk_bs(blk); 1664 1665 optype = is_read ? IO_OPERATION_TYPE_READ : IO_OPERATION_TYPE_WRITE; 1666 qapi_event_send_block_io_error(blk_name(blk), !!bs, 1667 bs ? bdrv_get_node_name(bs) : NULL, optype, 1668 action, blk_iostatus_is_enabled(blk), 1669 error == ENOSPC, strerror(error), 1670 &error_abort); 1671 } 1672 1673 /* This is done by device models because, while the block layer knows 1674 * about the error, it does not know whether an operation comes from 1675 * the device or the block layer (from a job, for example). 1676 */ 1677 void blk_error_action(BlockBackend *blk, BlockErrorAction action, 1678 bool is_read, int error) 1679 { 1680 assert(error >= 0); 1681 1682 if (action == BLOCK_ERROR_ACTION_STOP) { 1683 /* First set the iostatus, so that "info block" returns an iostatus 1684 * that matches the events raised so far (an additional error iostatus 1685 * is fine, but not a lost one). 1686 */ 1687 blk_iostatus_set_err(blk, error); 1688 1689 /* Then raise the request to stop the VM and the event. 1690 * qemu_system_vmstop_request_prepare has two effects. First, 1691 * it ensures that the STOP event always comes after the 1692 * BLOCK_IO_ERROR event. Second, it ensures that even if management 1693 * can observe the STOP event and do a "cont" before the STOP 1694 * event is issued, the VM will not stop. In this case, vm_start() 1695 * also ensures that the STOP/RESUME pair of events is emitted. 1696 */ 1697 qemu_system_vmstop_request_prepare(); 1698 send_qmp_error_event(blk, action, is_read, error); 1699 qemu_system_vmstop_request(RUN_STATE_IO_ERROR); 1700 } else { 1701 send_qmp_error_event(blk, action, is_read, error); 1702 } 1703 } 1704 1705 int blk_is_read_only(BlockBackend *blk) 1706 { 1707 BlockDriverState *bs = blk_bs(blk); 1708 1709 if (bs) { 1710 return bdrv_is_read_only(bs); 1711 } else { 1712 return blk->root_state.read_only; 1713 } 1714 } 1715 1716 int blk_is_sg(BlockBackend *blk) 1717 { 1718 BlockDriverState *bs = blk_bs(blk); 1719 1720 if (!bs) { 1721 return 0; 1722 } 1723 1724 return bdrv_is_sg(bs); 1725 } 1726 1727 int blk_enable_write_cache(BlockBackend *blk) 1728 { 1729 return blk->enable_write_cache; 1730 } 1731 1732 void blk_set_enable_write_cache(BlockBackend *blk, bool wce) 1733 { 1734 blk->enable_write_cache = wce; 1735 } 1736 1737 void blk_invalidate_cache(BlockBackend *blk, Error **errp) 1738 { 1739 BlockDriverState *bs = blk_bs(blk); 1740 1741 if (!bs) { 1742 error_setg(errp, "Device '%s' has no medium", blk->name); 1743 return; 1744 } 1745 1746 bdrv_invalidate_cache(bs, errp); 1747 } 1748 1749 bool blk_is_inserted(BlockBackend *blk) 1750 { 1751 BlockDriverState *bs = blk_bs(blk); 1752 1753 return bs && bdrv_is_inserted(bs); 1754 } 1755 1756 bool blk_is_available(BlockBackend *blk) 1757 { 1758 return blk_is_inserted(blk) && !blk_dev_is_tray_open(blk); 1759 } 1760 1761 void blk_lock_medium(BlockBackend *blk, bool locked) 1762 { 1763 BlockDriverState *bs = blk_bs(blk); 1764 1765 if (bs) { 1766 bdrv_lock_medium(bs, locked); 1767 } 1768 } 1769 1770 void blk_eject(BlockBackend *blk, bool eject_flag) 1771 { 1772 BlockDriverState *bs = blk_bs(blk); 1773 char *id; 1774 1775 /* blk_eject is only called by qdevified devices */ 1776 assert(!blk->legacy_dev); 1777 1778 if (bs) { 1779 bdrv_eject(bs, eject_flag); 1780 } 1781 1782 /* Whether or not we ejected on the backend, 1783 * the frontend experienced a tray event. */ 1784 id = blk_get_attached_dev_id(blk); 1785 qapi_event_send_device_tray_moved(blk_name(blk), id, 1786 eject_flag, &error_abort); 1787 g_free(id); 1788 } 1789 1790 int blk_get_flags(BlockBackend *blk) 1791 { 1792 BlockDriverState *bs = blk_bs(blk); 1793 1794 if (bs) { 1795 return bdrv_get_flags(bs); 1796 } else { 1797 return blk->root_state.open_flags; 1798 } 1799 } 1800 1801 /* Returns the maximum transfer length, in bytes; guaranteed nonzero */ 1802 uint32_t blk_get_max_transfer(BlockBackend *blk) 1803 { 1804 BlockDriverState *bs = blk_bs(blk); 1805 uint32_t max = 0; 1806 1807 if (bs) { 1808 max = bs->bl.max_transfer; 1809 } 1810 return MIN_NON_ZERO(max, INT_MAX); 1811 } 1812 1813 int blk_get_max_iov(BlockBackend *blk) 1814 { 1815 return blk->root->bs->bl.max_iov; 1816 } 1817 1818 void blk_set_guest_block_size(BlockBackend *blk, int align) 1819 { 1820 blk->guest_block_size = align; 1821 } 1822 1823 void *blk_try_blockalign(BlockBackend *blk, size_t size) 1824 { 1825 return qemu_try_blockalign(blk ? blk_bs(blk) : NULL, size); 1826 } 1827 1828 void *blk_blockalign(BlockBackend *blk, size_t size) 1829 { 1830 return qemu_blockalign(blk ? blk_bs(blk) : NULL, size); 1831 } 1832 1833 bool blk_op_is_blocked(BlockBackend *blk, BlockOpType op, Error **errp) 1834 { 1835 BlockDriverState *bs = blk_bs(blk); 1836 1837 if (!bs) { 1838 return false; 1839 } 1840 1841 return bdrv_op_is_blocked(bs, op, errp); 1842 } 1843 1844 void blk_op_unblock(BlockBackend *blk, BlockOpType op, Error *reason) 1845 { 1846 BlockDriverState *bs = blk_bs(blk); 1847 1848 if (bs) { 1849 bdrv_op_unblock(bs, op, reason); 1850 } 1851 } 1852 1853 void blk_op_block_all(BlockBackend *blk, Error *reason) 1854 { 1855 BlockDriverState *bs = blk_bs(blk); 1856 1857 if (bs) { 1858 bdrv_op_block_all(bs, reason); 1859 } 1860 } 1861 1862 void blk_op_unblock_all(BlockBackend *blk, Error *reason) 1863 { 1864 BlockDriverState *bs = blk_bs(blk); 1865 1866 if (bs) { 1867 bdrv_op_unblock_all(bs, reason); 1868 } 1869 } 1870 1871 AioContext *blk_get_aio_context(BlockBackend *blk) 1872 { 1873 return bdrv_get_aio_context(blk_bs(blk)); 1874 } 1875 1876 static AioContext *blk_aiocb_get_aio_context(BlockAIOCB *acb) 1877 { 1878 BlockBackendAIOCB *blk_acb = DO_UPCAST(BlockBackendAIOCB, common, acb); 1879 return blk_get_aio_context(blk_acb->blk); 1880 } 1881 1882 void blk_set_aio_context(BlockBackend *blk, AioContext *new_context) 1883 { 1884 BlockDriverState *bs = blk_bs(blk); 1885 ThrottleGroupMember *tgm = &blk->public.throttle_group_member; 1886 1887 if (bs) { 1888 if (tgm->throttle_state) { 1889 bdrv_drained_begin(bs); 1890 throttle_group_detach_aio_context(tgm); 1891 throttle_group_attach_aio_context(tgm, new_context); 1892 bdrv_drained_end(bs); 1893 } 1894 bdrv_set_aio_context(bs, new_context); 1895 } 1896 } 1897 1898 void blk_add_aio_context_notifier(BlockBackend *blk, 1899 void (*attached_aio_context)(AioContext *new_context, void *opaque), 1900 void (*detach_aio_context)(void *opaque), void *opaque) 1901 { 1902 BlockBackendAioNotifier *notifier; 1903 BlockDriverState *bs = blk_bs(blk); 1904 1905 notifier = g_new(BlockBackendAioNotifier, 1); 1906 notifier->attached_aio_context = attached_aio_context; 1907 notifier->detach_aio_context = detach_aio_context; 1908 notifier->opaque = opaque; 1909 QLIST_INSERT_HEAD(&blk->aio_notifiers, notifier, list); 1910 1911 if (bs) { 1912 bdrv_add_aio_context_notifier(bs, attached_aio_context, 1913 detach_aio_context, opaque); 1914 } 1915 } 1916 1917 void blk_remove_aio_context_notifier(BlockBackend *blk, 1918 void (*attached_aio_context)(AioContext *, 1919 void *), 1920 void (*detach_aio_context)(void *), 1921 void *opaque) 1922 { 1923 BlockBackendAioNotifier *notifier; 1924 BlockDriverState *bs = blk_bs(blk); 1925 1926 if (bs) { 1927 bdrv_remove_aio_context_notifier(bs, attached_aio_context, 1928 detach_aio_context, opaque); 1929 } 1930 1931 QLIST_FOREACH(notifier, &blk->aio_notifiers, list) { 1932 if (notifier->attached_aio_context == attached_aio_context && 1933 notifier->detach_aio_context == detach_aio_context && 1934 notifier->opaque == opaque) { 1935 QLIST_REMOVE(notifier, list); 1936 g_free(notifier); 1937 return; 1938 } 1939 } 1940 1941 abort(); 1942 } 1943 1944 void blk_add_remove_bs_notifier(BlockBackend *blk, Notifier *notify) 1945 { 1946 notifier_list_add(&blk->remove_bs_notifiers, notify); 1947 } 1948 1949 void blk_add_insert_bs_notifier(BlockBackend *blk, Notifier *notify) 1950 { 1951 notifier_list_add(&blk->insert_bs_notifiers, notify); 1952 } 1953 1954 void blk_io_plug(BlockBackend *blk) 1955 { 1956 BlockDriverState *bs = blk_bs(blk); 1957 1958 if (bs) { 1959 bdrv_io_plug(bs); 1960 } 1961 } 1962 1963 void blk_io_unplug(BlockBackend *blk) 1964 { 1965 BlockDriverState *bs = blk_bs(blk); 1966 1967 if (bs) { 1968 bdrv_io_unplug(bs); 1969 } 1970 } 1971 1972 BlockAcctStats *blk_get_stats(BlockBackend *blk) 1973 { 1974 return &blk->stats; 1975 } 1976 1977 void *blk_aio_get(const AIOCBInfo *aiocb_info, BlockBackend *blk, 1978 BlockCompletionFunc *cb, void *opaque) 1979 { 1980 return qemu_aio_get(aiocb_info, blk_bs(blk), cb, opaque); 1981 } 1982 1983 int coroutine_fn blk_co_pwrite_zeroes(BlockBackend *blk, int64_t offset, 1984 int bytes, BdrvRequestFlags flags) 1985 { 1986 return blk_co_pwritev(blk, offset, bytes, NULL, 1987 flags | BDRV_REQ_ZERO_WRITE); 1988 } 1989 1990 int blk_pwrite_compressed(BlockBackend *blk, int64_t offset, const void *buf, 1991 int count) 1992 { 1993 return blk_prw(blk, offset, (void *) buf, count, blk_write_entry, 1994 BDRV_REQ_WRITE_COMPRESSED); 1995 } 1996 1997 int blk_truncate(BlockBackend *blk, int64_t offset, PreallocMode prealloc, 1998 Error **errp) 1999 { 2000 if (!blk_is_available(blk)) { 2001 error_setg(errp, "No medium inserted"); 2002 return -ENOMEDIUM; 2003 } 2004 2005 return bdrv_truncate(blk->root, offset, prealloc, errp); 2006 } 2007 2008 static void blk_pdiscard_entry(void *opaque) 2009 { 2010 BlkRwCo *rwco = opaque; 2011 QEMUIOVector *qiov = rwco->iobuf; 2012 2013 rwco->ret = blk_co_pdiscard(rwco->blk, rwco->offset, qiov->size); 2014 } 2015 2016 int blk_pdiscard(BlockBackend *blk, int64_t offset, int bytes) 2017 { 2018 return blk_prw(blk, offset, NULL, bytes, blk_pdiscard_entry, 0); 2019 } 2020 2021 int blk_save_vmstate(BlockBackend *blk, const uint8_t *buf, 2022 int64_t pos, int size) 2023 { 2024 int ret; 2025 2026 if (!blk_is_available(blk)) { 2027 return -ENOMEDIUM; 2028 } 2029 2030 ret = bdrv_save_vmstate(blk_bs(blk), buf, pos, size); 2031 if (ret < 0) { 2032 return ret; 2033 } 2034 2035 if (ret == size && !blk->enable_write_cache) { 2036 ret = bdrv_flush(blk_bs(blk)); 2037 } 2038 2039 return ret < 0 ? ret : size; 2040 } 2041 2042 int blk_load_vmstate(BlockBackend *blk, uint8_t *buf, int64_t pos, int size) 2043 { 2044 if (!blk_is_available(blk)) { 2045 return -ENOMEDIUM; 2046 } 2047 2048 return bdrv_load_vmstate(blk_bs(blk), buf, pos, size); 2049 } 2050 2051 int blk_probe_blocksizes(BlockBackend *blk, BlockSizes *bsz) 2052 { 2053 if (!blk_is_available(blk)) { 2054 return -ENOMEDIUM; 2055 } 2056 2057 return bdrv_probe_blocksizes(blk_bs(blk), bsz); 2058 } 2059 2060 int blk_probe_geometry(BlockBackend *blk, HDGeometry *geo) 2061 { 2062 if (!blk_is_available(blk)) { 2063 return -ENOMEDIUM; 2064 } 2065 2066 return bdrv_probe_geometry(blk_bs(blk), geo); 2067 } 2068 2069 /* 2070 * Updates the BlockBackendRootState object with data from the currently 2071 * attached BlockDriverState. 2072 */ 2073 void blk_update_root_state(BlockBackend *blk) 2074 { 2075 assert(blk->root); 2076 2077 blk->root_state.open_flags = blk->root->bs->open_flags; 2078 blk->root_state.read_only = blk->root->bs->read_only; 2079 blk->root_state.detect_zeroes = blk->root->bs->detect_zeroes; 2080 } 2081 2082 /* 2083 * Returns the detect-zeroes setting to be used for bdrv_open() of a 2084 * BlockDriverState which is supposed to inherit the root state. 2085 */ 2086 bool blk_get_detect_zeroes_from_root_state(BlockBackend *blk) 2087 { 2088 return blk->root_state.detect_zeroes; 2089 } 2090 2091 /* 2092 * Returns the flags to be used for bdrv_open() of a BlockDriverState which is 2093 * supposed to inherit the root state. 2094 */ 2095 int blk_get_open_flags_from_root_state(BlockBackend *blk) 2096 { 2097 int bs_flags; 2098 2099 bs_flags = blk->root_state.read_only ? 0 : BDRV_O_RDWR; 2100 bs_flags |= blk->root_state.open_flags & ~BDRV_O_RDWR; 2101 2102 return bs_flags; 2103 } 2104 2105 BlockBackendRootState *blk_get_root_state(BlockBackend *blk) 2106 { 2107 return &blk->root_state; 2108 } 2109 2110 int blk_commit_all(void) 2111 { 2112 BlockBackend *blk = NULL; 2113 2114 while ((blk = blk_all_next(blk)) != NULL) { 2115 AioContext *aio_context = blk_get_aio_context(blk); 2116 2117 aio_context_acquire(aio_context); 2118 if (blk_is_inserted(blk) && blk->root->bs->backing) { 2119 int ret = bdrv_commit(blk->root->bs); 2120 if (ret < 0) { 2121 aio_context_release(aio_context); 2122 return ret; 2123 } 2124 } 2125 aio_context_release(aio_context); 2126 } 2127 return 0; 2128 } 2129 2130 2131 /* throttling disk I/O limits */ 2132 void blk_set_io_limits(BlockBackend *blk, ThrottleConfig *cfg) 2133 { 2134 throttle_group_config(&blk->public.throttle_group_member, cfg); 2135 } 2136 2137 void blk_io_limits_disable(BlockBackend *blk) 2138 { 2139 BlockDriverState *bs = blk_bs(blk); 2140 ThrottleGroupMember *tgm = &blk->public.throttle_group_member; 2141 assert(tgm->throttle_state); 2142 if (bs) { 2143 bdrv_drained_begin(bs); 2144 } 2145 throttle_group_unregister_tgm(tgm); 2146 if (bs) { 2147 bdrv_drained_end(bs); 2148 } 2149 } 2150 2151 /* should be called before blk_set_io_limits if a limit is set */ 2152 void blk_io_limits_enable(BlockBackend *blk, const char *group) 2153 { 2154 assert(!blk->public.throttle_group_member.throttle_state); 2155 throttle_group_register_tgm(&blk->public.throttle_group_member, 2156 group, blk_get_aio_context(blk)); 2157 } 2158 2159 void blk_io_limits_update_group(BlockBackend *blk, const char *group) 2160 { 2161 /* this BB is not part of any group */ 2162 if (!blk->public.throttle_group_member.throttle_state) { 2163 return; 2164 } 2165 2166 /* this BB is a part of the same group than the one we want */ 2167 if (!g_strcmp0(throttle_group_get_name(&blk->public.throttle_group_member), 2168 group)) { 2169 return; 2170 } 2171 2172 /* need to change the group this bs belong to */ 2173 blk_io_limits_disable(blk); 2174 blk_io_limits_enable(blk, group); 2175 } 2176 2177 static void blk_root_drained_begin(BdrvChild *child) 2178 { 2179 BlockBackend *blk = child->opaque; 2180 2181 if (++blk->quiesce_counter == 1) { 2182 if (blk->dev_ops && blk->dev_ops->drained_begin) { 2183 blk->dev_ops->drained_begin(blk->dev_opaque); 2184 } 2185 } 2186 2187 /* Note that blk->root may not be accessible here yet if we are just 2188 * attaching to a BlockDriverState that is drained. Use child instead. */ 2189 2190 if (atomic_fetch_inc(&blk->public.throttle_group_member.io_limits_disabled) == 0) { 2191 throttle_group_restart_tgm(&blk->public.throttle_group_member); 2192 } 2193 } 2194 2195 static void blk_root_drained_end(BdrvChild *child) 2196 { 2197 BlockBackend *blk = child->opaque; 2198 assert(blk->quiesce_counter); 2199 2200 assert(blk->public.throttle_group_member.io_limits_disabled); 2201 atomic_dec(&blk->public.throttle_group_member.io_limits_disabled); 2202 2203 if (--blk->quiesce_counter == 0) { 2204 if (blk->dev_ops && blk->dev_ops->drained_end) { 2205 blk->dev_ops->drained_end(blk->dev_opaque); 2206 } 2207 } 2208 } 2209 2210 void blk_register_buf(BlockBackend *blk, void *host, size_t size) 2211 { 2212 bdrv_register_buf(blk_bs(blk), host, size); 2213 } 2214 2215 void blk_unregister_buf(BlockBackend *blk, void *host) 2216 { 2217 bdrv_unregister_buf(blk_bs(blk), host); 2218 } 2219 2220 int coroutine_fn blk_co_copy_range(BlockBackend *blk_in, int64_t off_in, 2221 BlockBackend *blk_out, int64_t off_out, 2222 int bytes, BdrvRequestFlags read_flags, 2223 BdrvRequestFlags write_flags) 2224 { 2225 int r; 2226 r = blk_check_byte_request(blk_in, off_in, bytes); 2227 if (r) { 2228 return r; 2229 } 2230 r = blk_check_byte_request(blk_out, off_out, bytes); 2231 if (r) { 2232 return r; 2233 } 2234 return bdrv_co_copy_range(blk_in->root, off_in, 2235 blk_out->root, off_out, 2236 bytes, read_flags, write_flags); 2237 } 2238