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e8b96c6007
4045 zfs write throttle & i/o scheduler performance work 1. The ZFS i/o scheduler (vdev_queue.c) now divides i/os into 5 classes: sync read, sync write, async read, async write, and scrub/resilver. The scheduler issues a number of concurrent i/os from each class to the device. Once a class has been selected, an i/o is selected from this class using either an elevator algorithem (async, scrub classes) or FIFO (sync classes). The number of concurrent async write i/os is tuned dynamically based on i/o load, to achieve good sync i/o latency when there is not a high load of writes, and good write throughput when there is. See the block comment in vdev_queue.c (reproduced below) for more details. 2. The write throttle (dsl_pool_tempreserve_space() and txg_constrain_throughput()) is rewritten to produce much more consistent delays when under constant load. The new write throttle is based on the amount of dirty data, rather than guesses about future performance of the system. When there is a lot of dirty data, each transaction (e.g. write() syscall) will be delayed by the same small amount. This eliminates the "brick wall of wait" that the old write throttle could hit, causing all transactions to wait several seconds until the next txg opens. One of the keys to the new write throttle is decrementing the amount of dirty data as i/o completes, rather than at the end of spa_sync(). Note that the write throttle is only applied once the i/o scheduler is issuing the maximum number of outstanding async writes. See the block comments in dsl_pool.c and above dmu_tx_delay() (reproduced below) for more details. This diff has several other effects, including: * the commonly-tuned global variable zfs_vdev_max_pending has been removed; use per-class zfs_vdev_*_max_active values or zfs_vdev_max_active instead. * the size of each txg (meaning the amount of dirty data written, and thus the time it takes to write out) is now controlled differently. There is no longer an explicit time goal; the primary determinant is amount of dirty data. Systems that are under light or medium load will now often see that a txg is always syncing, but the impact to performance (e.g. read latency) is minimal. Tune zfs_dirty_data_max and zfs_dirty_data_sync to control this. * zio_taskq_batch_pct = 75 -- Only use 75% of all CPUs for compression, checksum, etc. This improves latency by not allowing these CPU-intensive tasks to consume all CPU (on machines with at least 4 CPU's; the percentage is rounded up). --matt APPENDIX: problems with the current i/o scheduler The current ZFS i/o scheduler (vdev_queue.c) is deadline based. The problem with this is that if there are always i/os pending, then certain classes of i/os can see very long delays. For example, if there are always synchronous reads outstanding, then no async writes will be serviced until they become "past due". One symptom of this situation is that each pass of the txg sync takes at least several seconds (typically 3 seconds). If many i/os become "past due" (their deadline is in the past), then we must service all of these overdue i/os before any new i/os. This happens when we enqueue a batch of async writes for the txg sync, with deadlines 2.5 seconds in the future. If we can't complete all the i/os in 2.5 seconds (e.g. because there were always reads pending), then these i/os will become past due. Now we must service all the "async" writes (which could be hundreds of megabytes) before we service any reads, introducing considerable latency to synchronous i/os (reads or ZIL writes). Notes on porting to ZFS on Linux: - zio_t gained new members io_physdone and io_phys_children. Because object caches in the Linux port call the constructor only once at allocation time, objects may contain residual data when retrieved from the cache. Therefore zio_create() was updated to zero out the two new fields. - vdev_mirror_pending() relied on the depth of the per-vdev pending queue (vq->vq_pending_tree) to select the least-busy leaf vdev to read from. This tree has been replaced by vq->vq_active_tree which is now used for the same purpose. - vdev_queue_init() used the value of zfs_vdev_max_pending to determine the number of vdev I/O buffers to pre-allocate. That global no longer exists, so we instead use the sum of the *_max_active values for each of the five I/O classes described above. - The Illumos implementation of dmu_tx_delay() delays a transaction by sleeping in condition variable embedded in the thread (curthread->t_delay_cv). We do not have an equivalent CV to use in Linux, so this change replaced the delay logic with a wrapper called zfs_sleep_until(). This wrapper could be adopted upstream and in other downstream ports to abstract away operating system-specific delay logic. - These tunables are added as module parameters, and descriptions added to the zfs-module-parameters.5 man page. spa_asize_inflation zfs_deadman_synctime_ms zfs_vdev_max_active zfs_vdev_async_write_active_min_dirty_percent zfs_vdev_async_write_active_max_dirty_percent zfs_vdev_async_read_max_active zfs_vdev_async_read_min_active zfs_vdev_async_write_max_active zfs_vdev_async_write_min_active zfs_vdev_scrub_max_active zfs_vdev_scrub_min_active zfs_vdev_sync_read_max_active zfs_vdev_sync_read_min_active zfs_vdev_sync_write_max_active zfs_vdev_sync_write_min_active zfs_dirty_data_max_percent zfs_delay_min_dirty_percent zfs_dirty_data_max_max_percent zfs_dirty_data_max zfs_dirty_data_max_max zfs_dirty_data_sync zfs_delay_scale The latter four have type unsigned long, whereas they are uint64_t in Illumos. This accommodates Linux's module_param() supported types, but means they may overflow on 32-bit architectures. The values zfs_dirty_data_max and zfs_dirty_data_max_max are the most likely to overflow on 32-bit systems, since they express physical RAM sizes in bytes. In fact, Illumos initializes zfs_dirty_data_max_max to 2^32 which does overflow. To resolve that, this port instead initializes it in arc_init() to 25% of physical RAM, and adds the tunable zfs_dirty_data_max_max_percent to override that percentage. While this solution doesn't completely avoid the overflow issue, it should be a reasonable default for most systems, and the minority of affected systems can work around the issue by overriding the defaults. - Fixed reversed logic in comment above zfs_delay_scale declaration. - Clarified comments in vdev_queue.c regarding when per-queue minimums take effect. - Replaced dmu_tx_write_limit in the dmu_tx kstat file with dmu_tx_dirty_delay and dmu_tx_dirty_over_max. The first counts how many times a transaction has been delayed because the pool dirty data has exceeded zfs_delay_min_dirty_percent. The latter counts how many times the pool dirty data has exceeded zfs_dirty_data_max (which we expect to never happen). - The original patch would have regressed the bug fixed in zfsonlinux/zfs@c418410, which prevented users from setting the zfs_vdev_aggregation_limit tuning larger than SPA_MAXBLOCKSIZE. A similar fix is added to vdev_queue_aggregate(). - In vdev_queue_io_to_issue(), dynamically allocate 'zio_t search' on the heap instead of the stack. In Linux we can't afford such large structures on the stack. Reviewed by: George Wilson <george.wilson@delphix.com> Reviewed by: Adam Leventhal <ahl@delphix.com> Reviewed by: Christopher Siden <christopher.siden@delphix.com> Reviewed by: Ned Bass <bass6@llnl.gov> Reviewed by: Brendan Gregg <brendan.gregg@joyent.com> Approved by: Robert Mustacchi <rm@joyent.com> References: http://www.illumos.org/issues/4045 illumos/illumos-gate@69962b5647 Ported-by: Ned Bass <bass6@llnl.gov> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Closes #1913
350 lines
11 KiB
C
350 lines
11 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) 2013 by Delphix. All rights reserved.
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*/
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#ifndef _SYS_VDEV_IMPL_H
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#define _SYS_VDEV_IMPL_H
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#include <sys/avl.h>
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#include <sys/dmu.h>
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#include <sys/metaslab.h>
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#include <sys/nvpair.h>
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#include <sys/space_map.h>
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#include <sys/vdev.h>
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#include <sys/dkio.h>
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#include <sys/uberblock_impl.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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/*
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* Virtual device descriptors.
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*
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* All storage pool operations go through the virtual device framework,
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* which provides data replication and I/O scheduling.
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*/
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/*
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* Forward declarations that lots of things need.
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*/
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typedef struct vdev_queue vdev_queue_t;
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typedef struct vdev_io vdev_io_t;
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typedef struct vdev_cache vdev_cache_t;
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typedef struct vdev_cache_entry vdev_cache_entry_t;
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/*
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* Virtual device operations
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*/
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typedef int vdev_open_func_t(vdev_t *vd, uint64_t *size, uint64_t *max_size,
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uint64_t *ashift);
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typedef void vdev_close_func_t(vdev_t *vd);
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typedef uint64_t vdev_asize_func_t(vdev_t *vd, uint64_t psize);
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typedef int vdev_io_start_func_t(zio_t *zio);
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typedef void vdev_io_done_func_t(zio_t *zio);
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typedef void vdev_state_change_func_t(vdev_t *vd, int, int);
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typedef void vdev_hold_func_t(vdev_t *vd);
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typedef void vdev_rele_func_t(vdev_t *vd);
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typedef const struct vdev_ops {
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vdev_open_func_t *vdev_op_open;
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vdev_close_func_t *vdev_op_close;
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vdev_asize_func_t *vdev_op_asize;
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vdev_io_start_func_t *vdev_op_io_start;
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vdev_io_done_func_t *vdev_op_io_done;
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vdev_state_change_func_t *vdev_op_state_change;
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vdev_hold_func_t *vdev_op_hold;
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vdev_rele_func_t *vdev_op_rele;
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char vdev_op_type[16];
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boolean_t vdev_op_leaf;
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} vdev_ops_t;
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/*
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* Virtual device properties
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*/
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struct vdev_cache_entry {
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char *ve_data;
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uint64_t ve_offset;
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uint64_t ve_lastused;
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avl_node_t ve_offset_node;
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avl_node_t ve_lastused_node;
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uint32_t ve_hits;
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uint16_t ve_missed_update;
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zio_t *ve_fill_io;
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};
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struct vdev_cache {
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avl_tree_t vc_offset_tree;
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avl_tree_t vc_lastused_tree;
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kmutex_t vc_lock;
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};
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typedef struct vdev_queue_class {
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uint32_t vqc_active;
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/*
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* Sorted by offset or timestamp, depending on if the queue is
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* LBA-ordered vs FIFO.
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*/
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avl_tree_t vqc_queued_tree;
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} vdev_queue_class_t;
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struct vdev_queue {
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vdev_t *vq_vdev;
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vdev_queue_class_t vq_class[ZIO_PRIORITY_NUM_QUEUEABLE];
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avl_tree_t vq_active_tree;
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uint64_t vq_last_offset;
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hrtime_t vq_io_complete_ts; /* time last i/o completed */
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hrtime_t vq_io_delta_ts;
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list_t vq_io_list;
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kmutex_t vq_lock;
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};
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struct vdev_io {
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char vi_buffer[SPA_MAXBLOCKSIZE]; /* Must be first */
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list_node_t vi_node;
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};
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/*
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* Virtual device descriptor
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*/
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struct vdev {
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/*
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* Common to all vdev types.
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*/
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uint64_t vdev_id; /* child number in vdev parent */
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uint64_t vdev_guid; /* unique ID for this vdev */
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uint64_t vdev_guid_sum; /* self guid + all child guids */
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uint64_t vdev_orig_guid; /* orig. guid prior to remove */
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uint64_t vdev_asize; /* allocatable device capacity */
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uint64_t vdev_min_asize; /* min acceptable asize */
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uint64_t vdev_max_asize; /* max acceptable asize */
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uint64_t vdev_ashift; /* block alignment shift */
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uint64_t vdev_state; /* see VDEV_STATE_* #defines */
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uint64_t vdev_prevstate; /* used when reopening a vdev */
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vdev_ops_t *vdev_ops; /* vdev operations */
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spa_t *vdev_spa; /* spa for this vdev */
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void *vdev_tsd; /* type-specific data */
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vnode_t *vdev_name_vp; /* vnode for pathname */
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vnode_t *vdev_devid_vp; /* vnode for devid */
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vdev_t *vdev_top; /* top-level vdev */
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vdev_t *vdev_parent; /* parent vdev */
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vdev_t **vdev_child; /* array of children */
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uint64_t vdev_children; /* number of children */
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space_map_t vdev_dtl[DTL_TYPES]; /* in-core dirty time logs */
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vdev_stat_t vdev_stat; /* virtual device statistics */
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boolean_t vdev_expanding; /* expand the vdev? */
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boolean_t vdev_reopening; /* reopen in progress? */
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int vdev_open_error; /* error on last open */
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kthread_t *vdev_open_thread; /* thread opening children */
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uint64_t vdev_crtxg; /* txg when top-level was added */
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/*
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* Top-level vdev state.
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*/
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uint64_t vdev_ms_array; /* metaslab array object */
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uint64_t vdev_ms_shift; /* metaslab size shift */
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uint64_t vdev_ms_count; /* number of metaslabs */
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metaslab_group_t *vdev_mg; /* metaslab group */
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metaslab_t **vdev_ms; /* metaslab array */
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uint64_t vdev_pending_fastwrite; /* allocated fastwrites */
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txg_list_t vdev_ms_list; /* per-txg dirty metaslab lists */
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txg_list_t vdev_dtl_list; /* per-txg dirty DTL lists */
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txg_node_t vdev_txg_node; /* per-txg dirty vdev linkage */
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boolean_t vdev_remove_wanted; /* async remove wanted? */
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boolean_t vdev_probe_wanted; /* async probe wanted? */
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uint64_t vdev_removing; /* device is being removed? */
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list_node_t vdev_config_dirty_node; /* config dirty list */
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list_node_t vdev_state_dirty_node; /* state dirty list */
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uint64_t vdev_deflate_ratio; /* deflation ratio (x512) */
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uint64_t vdev_islog; /* is an intent log device */
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uint64_t vdev_ishole; /* is a hole in the namespace */
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/*
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* Leaf vdev state.
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*/
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uint64_t vdev_psize; /* physical device capacity */
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space_map_obj_t vdev_dtl_smo; /* dirty time log space map obj */
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txg_node_t vdev_dtl_node; /* per-txg dirty DTL linkage */
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uint64_t vdev_wholedisk; /* true if this is a whole disk */
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uint64_t vdev_offline; /* persistent offline state */
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uint64_t vdev_faulted; /* persistent faulted state */
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uint64_t vdev_degraded; /* persistent degraded state */
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uint64_t vdev_removed; /* persistent removed state */
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uint64_t vdev_resilver_txg; /* persistent resilvering state */
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uint64_t vdev_nparity; /* number of parity devices for raidz */
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char *vdev_path; /* vdev path (if any) */
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char *vdev_devid; /* vdev devid (if any) */
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char *vdev_physpath; /* vdev device path (if any) */
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char *vdev_fru; /* physical FRU location */
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uint64_t vdev_not_present; /* not present during import */
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uint64_t vdev_unspare; /* unspare when resilvering done */
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hrtime_t vdev_last_try; /* last reopen time */
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boolean_t vdev_nowritecache; /* true if flushwritecache failed */
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boolean_t vdev_checkremove; /* temporary online test */
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boolean_t vdev_forcefault; /* force online fault */
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boolean_t vdev_splitting; /* split or repair in progress */
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boolean_t vdev_delayed_close; /* delayed device close? */
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uint8_t vdev_tmpoffline; /* device taken offline temporarily? */
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uint8_t vdev_detached; /* device detached? */
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uint8_t vdev_cant_read; /* vdev is failing all reads */
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uint8_t vdev_cant_write; /* vdev is failing all writes */
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uint64_t vdev_isspare; /* was a hot spare */
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uint64_t vdev_isl2cache; /* was a l2cache device */
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vdev_queue_t vdev_queue; /* I/O deadline schedule queue */
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vdev_cache_t vdev_cache; /* physical block cache */
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spa_aux_vdev_t *vdev_aux; /* for l2cache vdevs */
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zio_t *vdev_probe_zio; /* root of current probe */
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vdev_aux_t vdev_label_aux; /* on-disk aux state */
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/*
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* For DTrace to work in userland (libzpool) context, these fields must
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* remain at the end of the structure. DTrace will use the kernel's
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* CTF definition for 'struct vdev', and since the size of a kmutex_t is
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* larger in userland, the offsets for the rest of the fields would be
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* incorrect.
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*/
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kmutex_t vdev_dtl_lock; /* vdev_dtl_{map,resilver} */
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kmutex_t vdev_stat_lock; /* vdev_stat */
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kmutex_t vdev_probe_lock; /* protects vdev_probe_zio */
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};
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#define VDEV_RAIDZ_MAXPARITY 3
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#define VDEV_PAD_SIZE (8 << 10)
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/* 2 padding areas (vl_pad1 and vl_pad2) to skip */
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#define VDEV_SKIP_SIZE VDEV_PAD_SIZE * 2
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#define VDEV_PHYS_SIZE (112 << 10)
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#define VDEV_UBERBLOCK_RING (128 << 10)
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#define VDEV_UBERBLOCK_SHIFT(vd) \
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MAX((vd)->vdev_top->vdev_ashift, UBERBLOCK_SHIFT)
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#define VDEV_UBERBLOCK_COUNT(vd) \
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(VDEV_UBERBLOCK_RING >> VDEV_UBERBLOCK_SHIFT(vd))
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#define VDEV_UBERBLOCK_OFFSET(vd, n) \
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offsetof(vdev_label_t, vl_uberblock[(n) << VDEV_UBERBLOCK_SHIFT(vd)])
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#define VDEV_UBERBLOCK_SIZE(vd) (1ULL << VDEV_UBERBLOCK_SHIFT(vd))
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typedef struct vdev_phys {
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char vp_nvlist[VDEV_PHYS_SIZE - sizeof (zio_eck_t)];
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zio_eck_t vp_zbt;
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} vdev_phys_t;
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typedef struct vdev_label {
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char vl_pad1[VDEV_PAD_SIZE]; /* 8K */
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char vl_pad2[VDEV_PAD_SIZE]; /* 8K */
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vdev_phys_t vl_vdev_phys; /* 112K */
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char vl_uberblock[VDEV_UBERBLOCK_RING]; /* 128K */
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} vdev_label_t; /* 256K total */
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/*
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* vdev_dirty() flags
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*/
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#define VDD_METASLAB 0x01
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#define VDD_DTL 0x02
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/* Offset of embedded boot loader region on each label */
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#define VDEV_BOOT_OFFSET (2 * sizeof (vdev_label_t))
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/*
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* Size of embedded boot loader region on each label.
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* The total size of the first two labels plus the boot area is 4MB.
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*/
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#define VDEV_BOOT_SIZE (7ULL << 19) /* 3.5M */
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/*
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* Size of label regions at the start and end of each leaf device.
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*/
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#define VDEV_LABEL_START_SIZE (2 * sizeof (vdev_label_t) + VDEV_BOOT_SIZE)
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#define VDEV_LABEL_END_SIZE (2 * sizeof (vdev_label_t))
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#define VDEV_LABELS 4
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#define VDEV_BEST_LABEL VDEV_LABELS
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#define VDEV_ALLOC_LOAD 0
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#define VDEV_ALLOC_ADD 1
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#define VDEV_ALLOC_SPARE 2
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#define VDEV_ALLOC_L2CACHE 3
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#define VDEV_ALLOC_ROOTPOOL 4
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#define VDEV_ALLOC_SPLIT 5
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#define VDEV_ALLOC_ATTACH 6
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/*
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* Allocate or free a vdev
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*/
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extern vdev_t *vdev_alloc_common(spa_t *spa, uint_t id, uint64_t guid,
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vdev_ops_t *ops);
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extern int vdev_alloc(spa_t *spa, vdev_t **vdp, nvlist_t *config,
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vdev_t *parent, uint_t id, int alloctype);
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extern void vdev_free(vdev_t *vd);
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/*
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* Add or remove children and parents
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*/
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extern void vdev_add_child(vdev_t *pvd, vdev_t *cvd);
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extern void vdev_remove_child(vdev_t *pvd, vdev_t *cvd);
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extern void vdev_compact_children(vdev_t *pvd);
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extern vdev_t *vdev_add_parent(vdev_t *cvd, vdev_ops_t *ops);
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extern void vdev_remove_parent(vdev_t *cvd);
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/*
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* vdev sync load and sync
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*/
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extern void vdev_load_log_state(vdev_t *nvd, vdev_t *ovd);
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extern boolean_t vdev_log_state_valid(vdev_t *vd);
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extern void vdev_load(vdev_t *vd);
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extern void vdev_sync(vdev_t *vd, uint64_t txg);
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extern void vdev_sync_done(vdev_t *vd, uint64_t txg);
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extern void vdev_dirty(vdev_t *vd, int flags, void *arg, uint64_t txg);
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/*
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* Available vdev types.
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*/
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extern vdev_ops_t vdev_root_ops;
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extern vdev_ops_t vdev_mirror_ops;
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extern vdev_ops_t vdev_replacing_ops;
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extern vdev_ops_t vdev_raidz_ops;
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extern vdev_ops_t vdev_disk_ops;
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extern vdev_ops_t vdev_file_ops;
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extern vdev_ops_t vdev_missing_ops;
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extern vdev_ops_t vdev_hole_ops;
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extern vdev_ops_t vdev_spare_ops;
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/*
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* Common size functions
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*/
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extern uint64_t vdev_default_asize(vdev_t *vd, uint64_t psize);
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extern uint64_t vdev_get_min_asize(vdev_t *vd);
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extern void vdev_set_min_asize(vdev_t *vd);
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/*
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* Global variables
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*/
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/* zdb uses this tunable, so it must be declared here to make lint happy. */
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extern int zfs_vdev_cache_size;
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#ifdef __cplusplus
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}
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#endif
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#endif /* _SYS_VDEV_IMPL_H */
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