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3dfb57a35e
OpenZFS 7090 - zfs should throttle allocations Authored by: George Wilson <george.wilson@delphix.com> Reviewed by: Alex Reece <alex@delphix.com> Reviewed by: Christopher Siden <christopher.siden@delphix.com> Reviewed by: Dan Kimmel <dan.kimmel@delphix.com> Reviewed by: Matthew Ahrens <mahrens@delphix.com> Reviewed by: Paul Dagnelie <paul.dagnelie@delphix.com> Reviewed by: Prakash Surya <prakash.surya@delphix.com> Reviewed by: Sebastien Roy <sebastien.roy@delphix.com> Approved by: Matthew Ahrens <mahrens@delphix.com> Ported-by: Don Brady <don.brady@intel.com> Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov> When write I/Os are issued, they are issued in block order but the ZIO pipeline will drive them asynchronously through the allocation stage which can result in blocks being allocated out-of-order. It would be nice to preserve as much of the logical order as possible. In addition, the allocations are equally scattered across all top-level VDEVs but not all top-level VDEVs are created equally. The pipeline should be able to detect devices that are more capable of handling allocations and should allocate more blocks to those devices. This allows for dynamic allocation distribution when devices are imbalanced as fuller devices will tend to be slower than empty devices. The change includes a new pool-wide allocation queue which would throttle and order allocations in the ZIO pipeline. The queue would be ordered by issued time and offset and would provide an initial amount of allocation of work to each top-level vdev. The allocation logic utilizes a reservation system to reserve allocations that will be performed by the allocator. Once an allocation is successfully completed it's scheduled on a given top-level vdev. Each top-level vdev maintains a maximum number of allocations that it can handle (mg_alloc_queue_depth). The pool-wide reserved allocations (top-levels * mg_alloc_queue_depth) are distributed across the top-level vdevs metaslab groups and round robin across all eligible metaslab groups to distribute the work. As top-levels complete their work, they receive additional work from the pool-wide allocation queue until the allocation queue is emptied. OpenZFS-issue: https://www.illumos.org/issues/7090 OpenZFS-commit: https://github.com/openzfs/openzfs/commit/4756c3d7 Closes #5258 Porting Notes: - Maintained minimal stack in zio_done - Preserve linux-specific io sizes in zio_write_compress - Added module params and documentation - Updated to use optimize AVL cmp macros
318 lines
7.2 KiB
C
318 lines
7.2 KiB
C
/*
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* CDDL HEADER START
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*
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* The contents of this file are subject to the terms of the
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* Common Development and Distribution License (the "License").
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* You may not use this file except in compliance with the License.
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*
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* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
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* or http://www.opensolaris.org/os/licensing.
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* See the License for the specific language governing permissions
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* and limitations under the License.
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*
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* When distributing Covered Code, include this CDDL HEADER in each
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* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
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* If applicable, add the following below this CDDL HEADER, with the
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* fields enclosed by brackets "[]" replaced with your own identifying
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* information: Portions Copyright [yyyy] [name of copyright owner]
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*
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* CDDL HEADER END
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*/
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/*
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* Copyright (c) 2005, 2010, Oracle and/or its affiliates. All rights reserved.
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* Copyright (c) 2012, 2015 by Delphix. All rights reserved.
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*/
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#include <sys/zfs_context.h>
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#include <sys/refcount.h>
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#ifdef ZFS_DEBUG
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#ifdef _KERNEL
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int reference_tracking_enable = FALSE; /* runs out of memory too easily */
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#else
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int reference_tracking_enable = TRUE;
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#endif
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int reference_history = 3; /* tunable */
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static kmem_cache_t *reference_cache;
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static kmem_cache_t *reference_history_cache;
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void
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refcount_init(void)
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{
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reference_cache = kmem_cache_create("reference_cache",
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sizeof (reference_t), 0, NULL, NULL, NULL, NULL, NULL, 0);
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reference_history_cache = kmem_cache_create("reference_history_cache",
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sizeof (uint64_t), 0, NULL, NULL, NULL, NULL, NULL, 0);
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}
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void
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refcount_fini(void)
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{
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kmem_cache_destroy(reference_cache);
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kmem_cache_destroy(reference_history_cache);
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}
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void
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refcount_create(refcount_t *rc)
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{
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mutex_init(&rc->rc_mtx, NULL, MUTEX_DEFAULT, NULL);
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list_create(&rc->rc_list, sizeof (reference_t),
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offsetof(reference_t, ref_link));
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list_create(&rc->rc_removed, sizeof (reference_t),
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offsetof(reference_t, ref_link));
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rc->rc_count = 0;
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rc->rc_removed_count = 0;
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rc->rc_tracked = reference_tracking_enable;
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}
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void
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refcount_create_tracked(refcount_t *rc)
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{
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refcount_create(rc);
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rc->rc_tracked = B_TRUE;
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}
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void
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refcount_create_untracked(refcount_t *rc)
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{
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refcount_create(rc);
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rc->rc_tracked = B_FALSE;
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}
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void
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refcount_destroy_many(refcount_t *rc, uint64_t number)
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{
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reference_t *ref;
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ASSERT(rc->rc_count == number);
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while ((ref = list_head(&rc->rc_list))) {
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list_remove(&rc->rc_list, ref);
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kmem_cache_free(reference_cache, ref);
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}
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list_destroy(&rc->rc_list);
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while ((ref = list_head(&rc->rc_removed))) {
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list_remove(&rc->rc_removed, ref);
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kmem_cache_free(reference_history_cache, ref->ref_removed);
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kmem_cache_free(reference_cache, ref);
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}
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list_destroy(&rc->rc_removed);
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mutex_destroy(&rc->rc_mtx);
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}
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void
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refcount_destroy(refcount_t *rc)
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{
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refcount_destroy_many(rc, 0);
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}
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int
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refcount_is_zero(refcount_t *rc)
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{
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return (rc->rc_count == 0);
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}
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int64_t
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refcount_count(refcount_t *rc)
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{
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return (rc->rc_count);
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}
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int64_t
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refcount_add_many(refcount_t *rc, uint64_t number, void *holder)
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{
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reference_t *ref = NULL;
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int64_t count;
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if (rc->rc_tracked) {
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ref = kmem_cache_alloc(reference_cache, KM_SLEEP);
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ref->ref_holder = holder;
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ref->ref_number = number;
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}
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mutex_enter(&rc->rc_mtx);
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ASSERT(rc->rc_count >= 0);
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if (rc->rc_tracked)
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list_insert_head(&rc->rc_list, ref);
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rc->rc_count += number;
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count = rc->rc_count;
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mutex_exit(&rc->rc_mtx);
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return (count);
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}
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int64_t
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refcount_add(refcount_t *rc, void *holder)
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{
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return (refcount_add_many(rc, 1, holder));
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}
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int64_t
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refcount_remove_many(refcount_t *rc, uint64_t number, void *holder)
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{
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reference_t *ref;
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int64_t count;
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mutex_enter(&rc->rc_mtx);
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ASSERT(rc->rc_count >= number);
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if (!rc->rc_tracked) {
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rc->rc_count -= number;
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count = rc->rc_count;
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mutex_exit(&rc->rc_mtx);
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return (count);
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}
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for (ref = list_head(&rc->rc_list); ref;
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ref = list_next(&rc->rc_list, ref)) {
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if (ref->ref_holder == holder && ref->ref_number == number) {
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list_remove(&rc->rc_list, ref);
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if (reference_history > 0) {
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ref->ref_removed =
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kmem_cache_alloc(reference_history_cache,
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KM_SLEEP);
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list_insert_head(&rc->rc_removed, ref);
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rc->rc_removed_count++;
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if (rc->rc_removed_count > reference_history) {
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ref = list_tail(&rc->rc_removed);
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list_remove(&rc->rc_removed, ref);
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kmem_cache_free(reference_history_cache,
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ref->ref_removed);
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kmem_cache_free(reference_cache, ref);
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rc->rc_removed_count--;
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}
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} else {
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kmem_cache_free(reference_cache, ref);
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}
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rc->rc_count -= number;
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count = rc->rc_count;
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mutex_exit(&rc->rc_mtx);
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return (count);
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}
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}
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panic("No such hold %p on refcount %llx", holder,
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(u_longlong_t)(uintptr_t)rc);
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return (-1);
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}
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int64_t
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refcount_remove(refcount_t *rc, void *holder)
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{
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return (refcount_remove_many(rc, 1, holder));
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}
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void
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refcount_transfer(refcount_t *dst, refcount_t *src)
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{
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int64_t count, removed_count;
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list_t list, removed;
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list_create(&list, sizeof (reference_t),
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offsetof(reference_t, ref_link));
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list_create(&removed, sizeof (reference_t),
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offsetof(reference_t, ref_link));
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mutex_enter(&src->rc_mtx);
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count = src->rc_count;
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removed_count = src->rc_removed_count;
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src->rc_count = 0;
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src->rc_removed_count = 0;
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list_move_tail(&list, &src->rc_list);
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list_move_tail(&removed, &src->rc_removed);
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mutex_exit(&src->rc_mtx);
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mutex_enter(&dst->rc_mtx);
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dst->rc_count += count;
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dst->rc_removed_count += removed_count;
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list_move_tail(&dst->rc_list, &list);
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list_move_tail(&dst->rc_removed, &removed);
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mutex_exit(&dst->rc_mtx);
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list_destroy(&list);
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list_destroy(&removed);
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}
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void
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refcount_transfer_ownership(refcount_t *rc, void *current_holder,
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void *new_holder)
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{
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reference_t *ref;
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boolean_t found = B_FALSE;
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mutex_enter(&rc->rc_mtx);
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if (!rc->rc_tracked) {
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mutex_exit(&rc->rc_mtx);
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return;
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}
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for (ref = list_head(&rc->rc_list); ref;
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ref = list_next(&rc->rc_list, ref)) {
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if (ref->ref_holder == current_holder) {
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ref->ref_holder = new_holder;
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found = B_TRUE;
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break;
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}
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}
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ASSERT(found);
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mutex_exit(&rc->rc_mtx);
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}
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/*
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* If tracking is enabled, return true if a reference exists that matches
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* the "holder" tag. If tracking is disabled, then return true if a reference
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* might be held.
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*/
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boolean_t
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refcount_held(refcount_t *rc, void *holder)
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{
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reference_t *ref;
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mutex_enter(&rc->rc_mtx);
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if (!rc->rc_tracked) {
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mutex_exit(&rc->rc_mtx);
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return (rc->rc_count > 0);
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}
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for (ref = list_head(&rc->rc_list); ref;
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ref = list_next(&rc->rc_list, ref)) {
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if (ref->ref_holder == holder) {
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mutex_exit(&rc->rc_mtx);
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return (B_TRUE);
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}
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}
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mutex_exit(&rc->rc_mtx);
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return (B_FALSE);
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}
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/*
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* If tracking is enabled, return true if a reference does not exist that
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* matches the "holder" tag. If tracking is disabled, always return true
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* since the reference might not be held.
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*/
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boolean_t
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refcount_not_held(refcount_t *rc, void *holder)
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{
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reference_t *ref;
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mutex_enter(&rc->rc_mtx);
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if (!rc->rc_tracked) {
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mutex_exit(&rc->rc_mtx);
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return (B_TRUE);
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}
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for (ref = list_head(&rc->rc_list); ref;
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ref = list_next(&rc->rc_list, ref)) {
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if (ref->ref_holder == holder) {
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mutex_exit(&rc->rc_mtx);
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return (B_FALSE);
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}
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}
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mutex_exit(&rc->rc_mtx);
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return (B_TRUE);
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}
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#endif /* ZFS_DEBUG */
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