2643 lines
103 KiB
Groff
2643 lines
103 KiB
Groff
.\"
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.\" Copyright (c) 2013 by Turbo Fredriksson <turbo@bayour.com>. All rights reserved.
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.\" Copyright (c) 2019, 2021 by Delphix. All rights reserved.
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.\" Copyright (c) 2019 Datto Inc.
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.\" The contents of this file are subject to the terms of the Common Development
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.\" and Distribution License (the "License"). You may not use this file except
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.\" in compliance with the License. You can obtain a copy of the license at
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.\" usr/src/OPENSOLARIS.LICENSE or https://opensource.org/licenses/CDDL-1.0.
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.\"
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.\" See the License for the specific language governing permissions and
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.\" limitations under the License. When distributing Covered Code, include this
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.\" CDDL HEADER in each file and include the License file at
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.\" usr/src/OPENSOLARIS.LICENSE. If applicable, add the following below this
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.\" CDDL HEADER, with the fields enclosed by brackets "[]" replaced with your
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.\" own identifying information:
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.\" Portions Copyright [yyyy] [name of copyright owner]
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.\"
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.Dd January 10, 2023
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.Dt ZFS 4
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.Os
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.
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.Sh NAME
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.Nm zfs
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.Nd tuning of the ZFS kernel module
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.
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.Sh DESCRIPTION
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The ZFS module supports these parameters:
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.Bl -tag -width Ds
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.It Sy dbuf_cache_max_bytes Ns = Ns Sy UINT64_MAX Ns B Pq u64
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Maximum size in bytes of the dbuf cache.
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The target size is determined by the MIN versus
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.No 1/2^ Ns Sy dbuf_cache_shift Pq 1/32nd
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of the target ARC size.
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The behavior of the dbuf cache and its associated settings
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can be observed via the
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.Pa /proc/spl/kstat/zfs/dbufstats
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kstat.
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.
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.It Sy dbuf_metadata_cache_max_bytes Ns = Ns Sy UINT64_MAX Ns B Pq u64
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Maximum size in bytes of the metadata dbuf cache.
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The target size is determined by the MIN versus
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.No 1/2^ Ns Sy dbuf_metadata_cache_shift Pq 1/64th
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of the target ARC size.
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The behavior of the metadata dbuf cache and its associated settings
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can be observed via the
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.Pa /proc/spl/kstat/zfs/dbufstats
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kstat.
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.
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.It Sy dbuf_cache_hiwater_pct Ns = Ns Sy 10 Ns % Pq uint
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The percentage over
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.Sy dbuf_cache_max_bytes
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when dbufs must be evicted directly.
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.
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.It Sy dbuf_cache_lowater_pct Ns = Ns Sy 10 Ns % Pq uint
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The percentage below
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.Sy dbuf_cache_max_bytes
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when the evict thread stops evicting dbufs.
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.
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.It Sy dbuf_cache_shift Ns = Ns Sy 5 Pq uint
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Set the size of the dbuf cache
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.Pq Sy dbuf_cache_max_bytes
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to a log2 fraction of the target ARC size.
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.
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.It Sy dbuf_metadata_cache_shift Ns = Ns Sy 6 Pq uint
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Set the size of the dbuf metadata cache
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.Pq Sy dbuf_metadata_cache_max_bytes
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to a log2 fraction of the target ARC size.
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.
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.It Sy dbuf_mutex_cache_shift Ns = Ns Sy 0 Pq uint
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Set the size of the mutex array for the dbuf cache.
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When set to
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.Sy 0
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the array is dynamically sized based on total system memory.
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.
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.It Sy dmu_object_alloc_chunk_shift Ns = Ns Sy 7 Po 128 Pc Pq uint
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dnode slots allocated in a single operation as a power of 2.
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The default value minimizes lock contention for the bulk operation performed.
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.
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.It Sy dmu_prefetch_max Ns = Ns Sy 134217728 Ns B Po 128 MiB Pc Pq uint
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Limit the amount we can prefetch with one call to this amount in bytes.
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This helps to limit the amount of memory that can be used by prefetching.
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.
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.It Sy ignore_hole_birth Pq int
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Alias for
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.Sy send_holes_without_birth_time .
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.
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.It Sy l2arc_feed_again Ns = Ns Sy 1 Ns | Ns 0 Pq int
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Turbo L2ARC warm-up.
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When the L2ARC is cold the fill interval will be set as fast as possible.
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.
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.It Sy l2arc_feed_min_ms Ns = Ns Sy 200 Pq u64
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Min feed interval in milliseconds.
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Requires
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.Sy l2arc_feed_again Ns = Ns Ar 1
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and only applicable in related situations.
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.
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.It Sy l2arc_feed_secs Ns = Ns Sy 1 Pq u64
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Seconds between L2ARC writing.
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.
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.It Sy l2arc_headroom Ns = Ns Sy 2 Pq u64
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How far through the ARC lists to search for L2ARC cacheable content,
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expressed as a multiplier of
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.Sy l2arc_write_max .
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ARC persistence across reboots can be achieved with persistent L2ARC
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by setting this parameter to
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.Sy 0 ,
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allowing the full length of ARC lists to be searched for cacheable content.
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.
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.It Sy l2arc_headroom_boost Ns = Ns Sy 200 Ns % Pq u64
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Scales
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.Sy l2arc_headroom
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by this percentage when L2ARC contents are being successfully compressed
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before writing.
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A value of
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.Sy 100
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disables this feature.
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.
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.It Sy l2arc_exclude_special Ns = Ns Sy 0 Ns | Ns 1 Pq int
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Controls whether buffers present on special vdevs are eligible for caching
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into L2ARC.
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If set to 1, exclude dbufs on special vdevs from being cached to L2ARC.
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.
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.It Sy l2arc_mfuonly Ns = Ns Sy 0 Ns | Ns 1 Pq int
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Controls whether only MFU metadata and data are cached from ARC into L2ARC.
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This may be desired to avoid wasting space on L2ARC when reading/writing large
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amounts of data that are not expected to be accessed more than once.
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.Pp
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The default is off,
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meaning both MRU and MFU data and metadata are cached.
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When turning off this feature, some MRU buffers will still be present
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in ARC and eventually cached on L2ARC.
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.No If Sy l2arc_noprefetch Ns = Ns Sy 0 ,
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some prefetched buffers will be cached to L2ARC, and those might later
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transition to MRU, in which case the
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.Sy l2arc_mru_asize No arcstat will not be Sy 0 .
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.Pp
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Regardless of
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.Sy l2arc_noprefetch ,
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some MFU buffers might be evicted from ARC,
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accessed later on as prefetches and transition to MRU as prefetches.
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If accessed again they are counted as MRU and the
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.Sy l2arc_mru_asize No arcstat will not be Sy 0 .
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.Pp
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The ARC status of L2ARC buffers when they were first cached in
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L2ARC can be seen in the
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.Sy l2arc_mru_asize , Sy l2arc_mfu_asize , No and Sy l2arc_prefetch_asize
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arcstats when importing the pool or onlining a cache
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device if persistent L2ARC is enabled.
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.Pp
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The
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.Sy evict_l2_eligible_mru
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arcstat does not take into account if this option is enabled as the information
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provided by the
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.Sy evict_l2_eligible_m[rf]u
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arcstats can be used to decide if toggling this option is appropriate
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for the current workload.
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.
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.It Sy l2arc_meta_percent Ns = Ns Sy 33 Ns % Pq uint
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Percent of ARC size allowed for L2ARC-only headers.
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Since L2ARC buffers are not evicted on memory pressure,
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too many headers on a system with an irrationally large L2ARC
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can render it slow or unusable.
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This parameter limits L2ARC writes and rebuilds to achieve the target.
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.
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.It Sy l2arc_trim_ahead Ns = Ns Sy 0 Ns % Pq u64
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Trims ahead of the current write size
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.Pq Sy l2arc_write_max
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on L2ARC devices by this percentage of write size if we have filled the device.
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If set to
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.Sy 100
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we TRIM twice the space required to accommodate upcoming writes.
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A minimum of
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.Sy 64 MiB
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will be trimmed.
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It also enables TRIM of the whole L2ARC device upon creation
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or addition to an existing pool or if the header of the device is
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invalid upon importing a pool or onlining a cache device.
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A value of
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.Sy 0
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disables TRIM on L2ARC altogether and is the default as it can put significant
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stress on the underlying storage devices.
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This will vary depending of how well the specific device handles these commands.
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.
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.It Sy l2arc_noprefetch Ns = Ns Sy 1 Ns | Ns 0 Pq int
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Do not write buffers to L2ARC if they were prefetched but not used by
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applications.
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In case there are prefetched buffers in L2ARC and this option
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is later set, we do not read the prefetched buffers from L2ARC.
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Unsetting this option is useful for caching sequential reads from the
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disks to L2ARC and serve those reads from L2ARC later on.
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This may be beneficial in case the L2ARC device is significantly faster
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in sequential reads than the disks of the pool.
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.Pp
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Use
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.Sy 1
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to disable and
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.Sy 0
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to enable caching/reading prefetches to/from L2ARC.
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.
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.It Sy l2arc_norw Ns = Ns Sy 0 Ns | Ns 1 Pq int
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No reads during writes.
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.
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.It Sy l2arc_write_boost Ns = Ns Sy 8388608 Ns B Po 8 MiB Pc Pq u64
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Cold L2ARC devices will have
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.Sy l2arc_write_max
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increased by this amount while they remain cold.
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.
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.It Sy l2arc_write_max Ns = Ns Sy 8388608 Ns B Po 8 MiB Pc Pq u64
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Max write bytes per interval.
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.
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.It Sy l2arc_rebuild_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
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Rebuild the L2ARC when importing a pool (persistent L2ARC).
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This can be disabled if there are problems importing a pool
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or attaching an L2ARC device (e.g. the L2ARC device is slow
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in reading stored log metadata, or the metadata
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has become somehow fragmented/unusable).
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.
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.It Sy l2arc_rebuild_blocks_min_l2size Ns = Ns Sy 1073741824 Ns B Po 1 GiB Pc Pq u64
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Mininum size of an L2ARC device required in order to write log blocks in it.
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The log blocks are used upon importing the pool to rebuild the persistent L2ARC.
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.Pp
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For L2ARC devices less than 1 GiB, the amount of data
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.Fn l2arc_evict
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evicts is significant compared to the amount of restored L2ARC data.
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In this case, do not write log blocks in L2ARC in order not to waste space.
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.
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.It Sy metaslab_aliquot Ns = Ns Sy 1048576 Ns B Po 1 MiB Pc Pq u64
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Metaslab granularity, in bytes.
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This is roughly similar to what would be referred to as the "stripe size"
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in traditional RAID arrays.
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In normal operation, ZFS will try to write this amount of data to each disk
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before moving on to the next top-level vdev.
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.
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.It Sy metaslab_bias_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
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Enable metaslab group biasing based on their vdevs' over- or under-utilization
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relative to the pool.
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.
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.It Sy metaslab_force_ganging Ns = Ns Sy 16777217 Ns B Po 16 MiB + 1 B Pc Pq u64
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Make some blocks above a certain size be gang blocks.
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This option is used by the test suite to facilitate testing.
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.
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.It Sy zfs_default_bs Ns = Ns Sy 9 Po 512 B Pc Pq int
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Default dnode block size as a power of 2.
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.
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.It Sy zfs_default_ibs Ns = Ns Sy 17 Po 128 KiB Pc Pq int
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Default dnode indirect block size as a power of 2.
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.
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.It Sy zfs_history_output_max Ns = Ns Sy 1048576 Ns B Po 1 MiB Pc Pq u64
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When attempting to log an output nvlist of an ioctl in the on-disk history,
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the output will not be stored if it is larger than this size (in bytes).
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This must be less than
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.Sy DMU_MAX_ACCESS Pq 64 MiB .
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This applies primarily to
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.Fn zfs_ioc_channel_program Pq cf. Xr zfs-program 8 .
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.
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.It Sy zfs_keep_log_spacemaps_at_export Ns = Ns Sy 0 Ns | Ns 1 Pq int
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Prevent log spacemaps from being destroyed during pool exports and destroys.
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.
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.It Sy zfs_metaslab_segment_weight_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
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Enable/disable segment-based metaslab selection.
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.
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.It Sy zfs_metaslab_switch_threshold Ns = Ns Sy 2 Pq int
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When using segment-based metaslab selection, continue allocating
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from the active metaslab until this option's
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worth of buckets have been exhausted.
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.
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.It Sy metaslab_debug_load Ns = Ns Sy 0 Ns | Ns 1 Pq int
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Load all metaslabs during pool import.
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.
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.It Sy metaslab_debug_unload Ns = Ns Sy 0 Ns | Ns 1 Pq int
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Prevent metaslabs from being unloaded.
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.
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.It Sy metaslab_fragmentation_factor_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
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Enable use of the fragmentation metric in computing metaslab weights.
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.
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.It Sy metaslab_df_max_search Ns = Ns Sy 16777216 Ns B Po 16 MiB Pc Pq uint
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Maximum distance to search forward from the last offset.
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Without this limit, fragmented pools can see
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.Em >100`000
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iterations and
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.Fn metaslab_block_picker
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becomes the performance limiting factor on high-performance storage.
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.Pp
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With the default setting of
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.Sy 16 MiB ,
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we typically see less than
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.Em 500
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iterations, even with very fragmented
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.Sy ashift Ns = Ns Sy 9
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pools.
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The maximum number of iterations possible is
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.Sy metaslab_df_max_search / 2^(ashift+1) .
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With the default setting of
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.Sy 16 MiB
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this is
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.Em 16*1024 Pq with Sy ashift Ns = Ns Sy 9
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or
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.Em 2*1024 Pq with Sy ashift Ns = Ns Sy 12 .
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.
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.It Sy metaslab_df_use_largest_segment Ns = Ns Sy 0 Ns | Ns 1 Pq int
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If not searching forward (due to
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.Sy metaslab_df_max_search , metaslab_df_free_pct ,
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.No or Sy metaslab_df_alloc_threshold ) ,
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this tunable controls which segment is used.
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If set, we will use the largest free segment.
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If unset, we will use a segment of at least the requested size.
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.
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.It Sy zfs_metaslab_max_size_cache_sec Ns = Ns Sy 3600 Ns s Po 1 hour Pc Pq u64
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When we unload a metaslab, we cache the size of the largest free chunk.
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We use that cached size to determine whether or not to load a metaslab
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for a given allocation.
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As more frees accumulate in that metaslab while it's unloaded,
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the cached max size becomes less and less accurate.
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After a number of seconds controlled by this tunable,
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we stop considering the cached max size and start
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considering only the histogram instead.
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.
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.It Sy zfs_metaslab_mem_limit Ns = Ns Sy 25 Ns % Pq uint
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When we are loading a new metaslab, we check the amount of memory being used
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to store metaslab range trees.
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If it is over a threshold, we attempt to unload the least recently used metaslab
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to prevent the system from clogging all of its memory with range trees.
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This tunable sets the percentage of total system memory that is the threshold.
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.
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.It Sy zfs_metaslab_try_hard_before_gang Ns = Ns Sy 0 Ns | Ns 1 Pq int
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.Bl -item -compact
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.It
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If unset, we will first try normal allocation.
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.It
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If that fails then we will do a gang allocation.
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.It
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If that fails then we will do a "try hard" gang allocation.
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.It
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If that fails then we will have a multi-layer gang block.
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.El
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.Pp
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.Bl -item -compact
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.It
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If set, we will first try normal allocation.
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.It
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If that fails then we will do a "try hard" allocation.
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.It
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If that fails we will do a gang allocation.
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.It
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If that fails we will do a "try hard" gang allocation.
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.It
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If that fails then we will have a multi-layer gang block.
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.El
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.
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.It Sy zfs_metaslab_find_max_tries Ns = Ns Sy 100 Pq uint
|
|
When not trying hard, we only consider this number of the best metaslabs.
|
|
This improves performance, especially when there are many metaslabs per vdev
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|
and the allocation can't actually be satisfied
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(so we would otherwise iterate all metaslabs).
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.
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.It Sy zfs_vdev_default_ms_count Ns = Ns Sy 200 Pq uint
|
|
When a vdev is added, target this number of metaslabs per top-level vdev.
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.
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.It Sy zfs_vdev_default_ms_shift Ns = Ns Sy 29 Po 512 MiB Pc Pq uint
|
|
Default limit for metaslab size.
|
|
.
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|
.It Sy zfs_vdev_max_auto_ashift Ns = Ns Sy 14 Pq uint
|
|
Maximum ashift used when optimizing for logical \[->] physical sector size on
|
|
new
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|
top-level vdevs.
|
|
May be increased up to
|
|
.Sy ASHIFT_MAX Po 16 Pc ,
|
|
but this may negatively impact pool space efficiency.
|
|
.
|
|
.It Sy zfs_vdev_min_auto_ashift Ns = Ns Sy ASHIFT_MIN Po 9 Pc Pq uint
|
|
Minimum ashift used when creating new top-level vdevs.
|
|
.
|
|
.It Sy zfs_vdev_min_ms_count Ns = Ns Sy 16 Pq uint
|
|
Minimum number of metaslabs to create in a top-level vdev.
|
|
.
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.It Sy vdev_validate_skip Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Skip label validation steps during pool import.
|
|
Changing is not recommended unless you know what you're doing
|
|
and are recovering a damaged label.
|
|
.
|
|
.It Sy zfs_vdev_ms_count_limit Ns = Ns Sy 131072 Po 128k Pc Pq uint
|
|
Practical upper limit of total metaslabs per top-level vdev.
|
|
.
|
|
.It Sy metaslab_preload_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Enable metaslab group preloading.
|
|
.
|
|
.It Sy metaslab_lba_weighting_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Give more weight to metaslabs with lower LBAs,
|
|
assuming they have greater bandwidth,
|
|
as is typically the case on a modern constant angular velocity disk drive.
|
|
.
|
|
.It Sy metaslab_unload_delay Ns = Ns Sy 32 Pq uint
|
|
After a metaslab is used, we keep it loaded for this many TXGs, to attempt to
|
|
reduce unnecessary reloading.
|
|
Note that both this many TXGs and
|
|
.Sy metaslab_unload_delay_ms
|
|
milliseconds must pass before unloading will occur.
|
|
.
|
|
.It Sy metaslab_unload_delay_ms Ns = Ns Sy 600000 Ns ms Po 10 min Pc Pq uint
|
|
After a metaslab is used, we keep it loaded for this many milliseconds,
|
|
to attempt to reduce unnecessary reloading.
|
|
Note, that both this many milliseconds and
|
|
.Sy metaslab_unload_delay
|
|
TXGs must pass before unloading will occur.
|
|
.
|
|
.It Sy reference_history Ns = Ns Sy 3 Pq uint
|
|
Maximum reference holders being tracked when reference_tracking_enable is
|
|
active.
|
|
.
|
|
.It Sy reference_tracking_enable Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Track reference holders to
|
|
.Sy refcount_t
|
|
objects (debug builds only).
|
|
.
|
|
.It Sy send_holes_without_birth_time Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
When set, the
|
|
.Sy hole_birth
|
|
optimization will not be used, and all holes will always be sent during a
|
|
.Nm zfs Cm send .
|
|
This is useful if you suspect your datasets are affected by a bug in
|
|
.Sy hole_birth .
|
|
.
|
|
.It Sy spa_config_path Ns = Ns Pa /etc/zfs/zpool.cache Pq charp
|
|
SPA config file.
|
|
.
|
|
.It Sy spa_asize_inflation Ns = Ns Sy 24 Pq uint
|
|
Multiplication factor used to estimate actual disk consumption from the
|
|
size of data being written.
|
|
The default value is a worst case estimate,
|
|
but lower values may be valid for a given pool depending on its configuration.
|
|
Pool administrators who understand the factors involved
|
|
may wish to specify a more realistic inflation factor,
|
|
particularly if they operate close to quota or capacity limits.
|
|
.
|
|
.It Sy spa_load_print_vdev_tree Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Whether to print the vdev tree in the debugging message buffer during pool
|
|
import.
|
|
.
|
|
.It Sy spa_load_verify_data Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Whether to traverse data blocks during an "extreme rewind"
|
|
.Pq Fl X
|
|
import.
|
|
.Pp
|
|
An extreme rewind import normally performs a full traversal of all
|
|
blocks in the pool for verification.
|
|
If this parameter is unset, the traversal skips non-metadata blocks.
|
|
It can be toggled once the
|
|
import has started to stop or start the traversal of non-metadata blocks.
|
|
.
|
|
.It Sy spa_load_verify_metadata Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Whether to traverse blocks during an "extreme rewind"
|
|
.Pq Fl X
|
|
pool import.
|
|
.Pp
|
|
An extreme rewind import normally performs a full traversal of all
|
|
blocks in the pool for verification.
|
|
If this parameter is unset, the traversal is not performed.
|
|
It can be toggled once the import has started to stop or start the traversal.
|
|
.
|
|
.It Sy spa_load_verify_shift Ns = Ns Sy 4 Po 1/16th Pc Pq uint
|
|
Sets the maximum number of bytes to consume during pool import to the log2
|
|
fraction of the target ARC size.
|
|
.
|
|
.It Sy spa_slop_shift Ns = Ns Sy 5 Po 1/32nd Pc Pq int
|
|
Normally, we don't allow the last
|
|
.Sy 3.2% Pq Sy 1/2^spa_slop_shift
|
|
of space in the pool to be consumed.
|
|
This ensures that we don't run the pool completely out of space,
|
|
due to unaccounted changes (e.g. to the MOS).
|
|
It also limits the worst-case time to allocate space.
|
|
If we have less than this amount of free space,
|
|
most ZPL operations (e.g. write, create) will return
|
|
.Sy ENOSPC .
|
|
.
|
|
.It Sy spa_upgrade_errlog_limit Ns = Ns Sy 0 Pq uint
|
|
Limits the number of on-disk error log entries that will be converted to the
|
|
new format when enabling the
|
|
.Sy head_errlog
|
|
feature.
|
|
The default is to convert all log entries.
|
|
.
|
|
.It Sy vdev_removal_max_span Ns = Ns Sy 32768 Ns B Po 32 KiB Pc Pq uint
|
|
During top-level vdev removal, chunks of data are copied from the vdev
|
|
which may include free space in order to trade bandwidth for IOPS.
|
|
This parameter determines the maximum span of free space, in bytes,
|
|
which will be included as "unnecessary" data in a chunk of copied data.
|
|
.Pp
|
|
The default value here was chosen to align with
|
|
.Sy zfs_vdev_read_gap_limit ,
|
|
which is a similar concept when doing
|
|
regular reads (but there's no reason it has to be the same).
|
|
.
|
|
.It Sy vdev_file_logical_ashift Ns = Ns Sy 9 Po 512 B Pc Pq u64
|
|
Logical ashift for file-based devices.
|
|
.
|
|
.It Sy vdev_file_physical_ashift Ns = Ns Sy 9 Po 512 B Pc Pq u64
|
|
Physical ashift for file-based devices.
|
|
.
|
|
.It Sy zap_iterate_prefetch Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
If set, when we start iterating over a ZAP object,
|
|
prefetch the entire object (all leaf blocks).
|
|
However, this is limited by
|
|
.Sy dmu_prefetch_max .
|
|
.
|
|
.It Sy zap_micro_max_size Ns = Ns Sy 131072 Ns B Po 128 KiB Pc Pq int
|
|
Maximum micro ZAP size.
|
|
A micro ZAP is upgraded to a fat ZAP, once it grows beyond the specified size.
|
|
.
|
|
.It Sy zfetch_array_rd_sz Ns = Ns Sy 1048576 Ns B Po 1 MiB Pc Pq u64
|
|
If prefetching is enabled, disable prefetching for reads larger than this size.
|
|
.
|
|
.It Sy zfetch_min_distance Ns = Ns Sy 4194304 Ns B Po 4 MiB Pc Pq uint
|
|
Min bytes to prefetch per stream.
|
|
Prefetch distance starts from the demand access size and quickly grows to
|
|
this value, doubling on each hit.
|
|
After that it may grow further by 1/8 per hit, but only if some prefetch
|
|
since last time haven't completed in time to satisfy demand request, i.e.
|
|
prefetch depth didn't cover the read latency or the pool got saturated.
|
|
.
|
|
.It Sy zfetch_max_distance Ns = Ns Sy 67108864 Ns B Po 64 MiB Pc Pq uint
|
|
Max bytes to prefetch per stream.
|
|
.
|
|
.It Sy zfetch_max_idistance Ns = Ns Sy 67108864 Ns B Po 64 MiB Pc Pq uint
|
|
Max bytes to prefetch indirects for per stream.
|
|
.
|
|
.It Sy zfetch_max_streams Ns = Ns Sy 8 Pq uint
|
|
Max number of streams per zfetch (prefetch streams per file).
|
|
.
|
|
.It Sy zfetch_min_sec_reap Ns = Ns Sy 1 Pq uint
|
|
Min time before inactive prefetch stream can be reclaimed
|
|
.
|
|
.It Sy zfetch_max_sec_reap Ns = Ns Sy 2 Pq uint
|
|
Max time before inactive prefetch stream can be deleted
|
|
.
|
|
.It Sy zfs_abd_scatter_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Enables ARC from using scatter/gather lists and forces all allocations to be
|
|
linear in kernel memory.
|
|
Disabling can improve performance in some code paths
|
|
at the expense of fragmented kernel memory.
|
|
.
|
|
.It Sy zfs_abd_scatter_max_order Ns = Ns Sy MAX_ORDER\-1 Pq uint
|
|
Maximum number of consecutive memory pages allocated in a single block for
|
|
scatter/gather lists.
|
|
.Pp
|
|
The value of
|
|
.Sy MAX_ORDER
|
|
depends on kernel configuration.
|
|
.
|
|
.It Sy zfs_abd_scatter_min_size Ns = Ns Sy 1536 Ns B Po 1.5 KiB Pc Pq uint
|
|
This is the minimum allocation size that will use scatter (page-based) ABDs.
|
|
Smaller allocations will use linear ABDs.
|
|
.
|
|
.It Sy zfs_arc_dnode_limit Ns = Ns Sy 0 Ns B Pq u64
|
|
When the number of bytes consumed by dnodes in the ARC exceeds this number of
|
|
bytes, try to unpin some of it in response to demand for non-metadata.
|
|
This value acts as a ceiling to the amount of dnode metadata, and defaults to
|
|
.Sy 0 ,
|
|
which indicates that a percent which is based on
|
|
.Sy zfs_arc_dnode_limit_percent
|
|
of the ARC meta buffers that may be used for dnodes.
|
|
.Pp
|
|
Also see
|
|
.Sy zfs_arc_meta_prune
|
|
which serves a similar purpose but is used
|
|
when the amount of metadata in the ARC exceeds
|
|
.Sy zfs_arc_meta_limit
|
|
rather than in response to overall demand for non-metadata.
|
|
.
|
|
.It Sy zfs_arc_dnode_limit_percent Ns = Ns Sy 10 Ns % Pq u64
|
|
Percentage that can be consumed by dnodes of ARC meta buffers.
|
|
.Pp
|
|
See also
|
|
.Sy zfs_arc_dnode_limit ,
|
|
which serves a similar purpose but has a higher priority if nonzero.
|
|
.
|
|
.It Sy zfs_arc_dnode_reduce_percent Ns = Ns Sy 10 Ns % Pq u64
|
|
Percentage of ARC dnodes to try to scan in response to demand for non-metadata
|
|
when the number of bytes consumed by dnodes exceeds
|
|
.Sy zfs_arc_dnode_limit .
|
|
.
|
|
.It Sy zfs_arc_average_blocksize Ns = Ns Sy 8192 Ns B Po 8 KiB Pc Pq uint
|
|
The ARC's buffer hash table is sized based on the assumption of an average
|
|
block size of this value.
|
|
This works out to roughly 1 MiB of hash table per 1 GiB of physical memory
|
|
with 8-byte pointers.
|
|
For configurations with a known larger average block size,
|
|
this value can be increased to reduce the memory footprint.
|
|
.
|
|
.It Sy zfs_arc_eviction_pct Ns = Ns Sy 200 Ns % Pq uint
|
|
When
|
|
.Fn arc_is_overflowing ,
|
|
.Fn arc_get_data_impl
|
|
waits for this percent of the requested amount of data to be evicted.
|
|
For example, by default, for every
|
|
.Em 2 KiB
|
|
that's evicted,
|
|
.Em 1 KiB
|
|
of it may be "reused" by a new allocation.
|
|
Since this is above
|
|
.Sy 100 Ns % ,
|
|
it ensures that progress is made towards getting
|
|
.Sy arc_size No under Sy arc_c .
|
|
Since this is finite, it ensures that allocations can still happen,
|
|
even during the potentially long time that
|
|
.Sy arc_size No is more than Sy arc_c .
|
|
.
|
|
.It Sy zfs_arc_evict_batch_limit Ns = Ns Sy 10 Pq uint
|
|
Number ARC headers to evict per sub-list before proceeding to another sub-list.
|
|
This batch-style operation prevents entire sub-lists from being evicted at once
|
|
but comes at a cost of additional unlocking and locking.
|
|
.
|
|
.It Sy zfs_arc_grow_retry Ns = Ns Sy 0 Ns s Pq uint
|
|
If set to a non zero value, it will replace the
|
|
.Sy arc_grow_retry
|
|
value with this value.
|
|
The
|
|
.Sy arc_grow_retry
|
|
.No value Pq default Sy 5 Ns s
|
|
is the number of seconds the ARC will wait before
|
|
trying to resume growth after a memory pressure event.
|
|
.
|
|
.It Sy zfs_arc_lotsfree_percent Ns = Ns Sy 10 Ns % Pq int
|
|
Throttle I/O when free system memory drops below this percentage of total
|
|
system memory.
|
|
Setting this value to
|
|
.Sy 0
|
|
will disable the throttle.
|
|
.
|
|
.It Sy zfs_arc_max Ns = Ns Sy 0 Ns B Pq u64
|
|
Max size of ARC in bytes.
|
|
If
|
|
.Sy 0 ,
|
|
then the max size of ARC is determined by the amount of system memory installed.
|
|
Under Linux, half of system memory will be used as the limit.
|
|
Under
|
|
.Fx ,
|
|
the larger of
|
|
.Sy all_system_memory No \- Sy 1 GiB
|
|
and
|
|
.Sy 5/8 No \(mu Sy all_system_memory
|
|
will be used as the limit.
|
|
This value must be at least
|
|
.Sy 67108864 Ns B Pq 64 MiB .
|
|
.Pp
|
|
This value can be changed dynamically, with some caveats.
|
|
It cannot be set back to
|
|
.Sy 0
|
|
while running, and reducing it below the current ARC size will not cause
|
|
the ARC to shrink without memory pressure to induce shrinking.
|
|
.
|
|
.It Sy zfs_arc_meta_adjust_restarts Ns = Ns Sy 4096 Pq uint
|
|
The number of restart passes to make while scanning the ARC attempting
|
|
the free buffers in order to stay below the
|
|
.Sy fs_arc_meta_limit .
|
|
This value should not need to be tuned but is available to facilitate
|
|
performance analysis.
|
|
.
|
|
.It Sy zfs_arc_meta_limit Ns = Ns Sy 0 Ns B Pq u64
|
|
The maximum allowed size in bytes that metadata buffers are allowed to
|
|
consume in the ARC.
|
|
When this limit is reached, metadata buffers will be reclaimed,
|
|
even if the overall
|
|
.Sy arc_c_max
|
|
has not been reached.
|
|
It defaults to
|
|
.Sy 0 ,
|
|
which indicates that a percentage based on
|
|
.Sy zfs_arc_meta_limit_percent
|
|
of the ARC may be used for metadata.
|
|
.Pp
|
|
This value my be changed dynamically, except that must be set to an explicit
|
|
value
|
|
.Pq cannot be set back to Sy 0 .
|
|
.
|
|
.It Sy zfs_arc_meta_limit_percent Ns = Ns Sy 75 Ns % Pq u64
|
|
Percentage of ARC buffers that can be used for metadata.
|
|
.Pp
|
|
See also
|
|
.Sy zfs_arc_meta_limit ,
|
|
which serves a similar purpose but has a higher priority if nonzero.
|
|
.
|
|
.It Sy zfs_arc_meta_min Ns = Ns Sy 0 Ns B Pq u64
|
|
The minimum allowed size in bytes that metadata buffers may consume in
|
|
the ARC.
|
|
.
|
|
.It Sy zfs_arc_meta_prune Ns = Ns Sy 10000 Pq int
|
|
The number of dentries and inodes to be scanned looking for entries
|
|
which can be dropped.
|
|
This may be required when the ARC reaches the
|
|
.Sy zfs_arc_meta_limit
|
|
because dentries and inodes can pin buffers in the ARC.
|
|
Increasing this value will cause to dentry and inode caches
|
|
to be pruned more aggressively.
|
|
Setting this value to
|
|
.Sy 0
|
|
will disable pruning the inode and dentry caches.
|
|
.
|
|
.It Sy zfs_arc_meta_strategy Ns = Ns Sy 1 Ns | Ns 0 Pq uint
|
|
Define the strategy for ARC metadata buffer eviction (meta reclaim strategy):
|
|
.Bl -tag -compact -offset 4n -width "0 (META_ONLY)"
|
|
.It Sy 0 Pq META_ONLY
|
|
evict only the ARC metadata buffers
|
|
.It Sy 1 Pq BALANCED
|
|
additional data buffers may be evicted if required
|
|
to evict the required number of metadata buffers.
|
|
.El
|
|
.
|
|
.It Sy zfs_arc_min Ns = Ns Sy 0 Ns B Pq u64
|
|
Min size of ARC in bytes.
|
|
.No If set to Sy 0 , arc_c_min
|
|
will default to consuming the larger of
|
|
.Sy 32 MiB
|
|
and
|
|
.Sy all_system_memory No / Sy 32 .
|
|
.
|
|
.It Sy zfs_arc_min_prefetch_ms Ns = Ns Sy 0 Ns ms Ns Po Ns ≡ Ns 1s Pc Pq uint
|
|
Minimum time prefetched blocks are locked in the ARC.
|
|
.
|
|
.It Sy zfs_arc_min_prescient_prefetch_ms Ns = Ns Sy 0 Ns ms Ns Po Ns ≡ Ns 6s Pc Pq uint
|
|
Minimum time "prescient prefetched" blocks are locked in the ARC.
|
|
These blocks are meant to be prefetched fairly aggressively ahead of
|
|
the code that may use them.
|
|
.
|
|
.It Sy zfs_arc_prune_task_threads Ns = Ns Sy 1 Pq int
|
|
Number of arc_prune threads.
|
|
.Fx
|
|
does not need more than one.
|
|
Linux may theoretically use one per mount point up to number of CPUs,
|
|
but that was not proven to be useful.
|
|
.
|
|
.It Sy zfs_max_missing_tvds Ns = Ns Sy 0 Pq int
|
|
Number of missing top-level vdevs which will be allowed during
|
|
pool import (only in read-only mode).
|
|
.
|
|
.It Sy zfs_max_nvlist_src_size Ns = Sy 0 Pq u64
|
|
Maximum size in bytes allowed to be passed as
|
|
.Sy zc_nvlist_src_size
|
|
for ioctls on
|
|
.Pa /dev/zfs .
|
|
This prevents a user from causing the kernel to allocate
|
|
an excessive amount of memory.
|
|
When the limit is exceeded, the ioctl fails with
|
|
.Sy EINVAL
|
|
and a description of the error is sent to the
|
|
.Pa zfs-dbgmsg
|
|
log.
|
|
This parameter should not need to be touched under normal circumstances.
|
|
If
|
|
.Sy 0 ,
|
|
equivalent to a quarter of the user-wired memory limit under
|
|
.Fx
|
|
and to
|
|
.Sy 134217728 Ns B Pq 128 MiB
|
|
under Linux.
|
|
.
|
|
.It Sy zfs_multilist_num_sublists Ns = Ns Sy 0 Pq uint
|
|
To allow more fine-grained locking, each ARC state contains a series
|
|
of lists for both data and metadata objects.
|
|
Locking is performed at the level of these "sub-lists".
|
|
This parameters controls the number of sub-lists per ARC state,
|
|
and also applies to other uses of the multilist data structure.
|
|
.Pp
|
|
If
|
|
.Sy 0 ,
|
|
equivalent to the greater of the number of online CPUs and
|
|
.Sy 4 .
|
|
.
|
|
.It Sy zfs_arc_overflow_shift Ns = Ns Sy 8 Pq int
|
|
The ARC size is considered to be overflowing if it exceeds the current
|
|
ARC target size
|
|
.Pq Sy arc_c
|
|
by thresholds determined by this parameter.
|
|
Exceeding by
|
|
.Sy ( arc_c No >> Sy zfs_arc_overflow_shift ) No / Sy 2
|
|
starts ARC reclamation process.
|
|
If that appears insufficient, exceeding by
|
|
.Sy ( arc_c No >> Sy zfs_arc_overflow_shift ) No \(mu Sy 1.5
|
|
blocks new buffer allocation until the reclaim thread catches up.
|
|
Started reclamation process continues till ARC size returns below the
|
|
target size.
|
|
.Pp
|
|
The default value of
|
|
.Sy 8
|
|
causes the ARC to start reclamation if it exceeds the target size by
|
|
.Em 0.2%
|
|
of the target size, and block allocations by
|
|
.Em 0.6% .
|
|
.
|
|
.It Sy zfs_arc_p_min_shift Ns = Ns Sy 0 Pq uint
|
|
If nonzero, this will update
|
|
.Sy arc_p_min_shift Pq default Sy 4
|
|
with the new value.
|
|
.Sy arc_p_min_shift No is used as a shift of Sy arc_c
|
|
when calculating the minumum
|
|
.Sy arc_p No size .
|
|
.
|
|
.It Sy zfs_arc_p_dampener_disable Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Disable
|
|
.Sy arc_p
|
|
adapt dampener, which reduces the maximum single adjustment to
|
|
.Sy arc_p .
|
|
.
|
|
.It Sy zfs_arc_shrink_shift Ns = Ns Sy 0 Pq uint
|
|
If nonzero, this will update
|
|
.Sy arc_shrink_shift Pq default Sy 7
|
|
with the new value.
|
|
.
|
|
.It Sy zfs_arc_pc_percent Ns = Ns Sy 0 Ns % Po off Pc Pq uint
|
|
Percent of pagecache to reclaim ARC to.
|
|
.Pp
|
|
This tunable allows the ZFS ARC to play more nicely
|
|
with the kernel's LRU pagecache.
|
|
It can guarantee that the ARC size won't collapse under scanning
|
|
pressure on the pagecache, yet still allows the ARC to be reclaimed down to
|
|
.Sy zfs_arc_min
|
|
if necessary.
|
|
This value is specified as percent of pagecache size (as measured by
|
|
.Sy NR_FILE_PAGES ) ,
|
|
where that percent may exceed
|
|
.Sy 100 .
|
|
This
|
|
only operates during memory pressure/reclaim.
|
|
.
|
|
.It Sy zfs_arc_shrinker_limit Ns = Ns Sy 10000 Pq int
|
|
This is a limit on how many pages the ARC shrinker makes available for
|
|
eviction in response to one page allocation attempt.
|
|
Note that in practice, the kernel's shrinker can ask us to evict
|
|
up to about four times this for one allocation attempt.
|
|
.Pp
|
|
The default limit of
|
|
.Sy 10000 Pq in practice, Em 160 MiB No per allocation attempt with 4 KiB pages
|
|
limits the amount of time spent attempting to reclaim ARC memory to
|
|
less than 100 ms per allocation attempt,
|
|
even with a small average compressed block size of ~8 KiB.
|
|
.Pp
|
|
The parameter can be set to 0 (zero) to disable the limit,
|
|
and only applies on Linux.
|
|
.
|
|
.It Sy zfs_arc_sys_free Ns = Ns Sy 0 Ns B Pq u64
|
|
The target number of bytes the ARC should leave as free memory on the system.
|
|
If zero, equivalent to the bigger of
|
|
.Sy 512 KiB No and Sy all_system_memory/64 .
|
|
.
|
|
.It Sy zfs_autoimport_disable Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Disable pool import at module load by ignoring the cache file
|
|
.Pq Sy spa_config_path .
|
|
.
|
|
.It Sy zfs_checksum_events_per_second Ns = Ns Sy 20 Ns /s Pq uint
|
|
Rate limit checksum events to this many per second.
|
|
Note that this should not be set below the ZED thresholds
|
|
(currently 10 checksums over 10 seconds)
|
|
or else the daemon may not trigger any action.
|
|
.
|
|
.It Sy zfs_commit_timeout_pct Ns = Ns Sy 5 Ns % Pq uint
|
|
This controls the amount of time that a ZIL block (lwb) will remain "open"
|
|
when it isn't "full", and it has a thread waiting for it to be committed to
|
|
stable storage.
|
|
The timeout is scaled based on a percentage of the last lwb
|
|
latency to avoid significantly impacting the latency of each individual
|
|
transaction record (itx).
|
|
.
|
|
.It Sy zfs_condense_indirect_commit_entry_delay_ms Ns = Ns Sy 0 Ns ms Pq int
|
|
Vdev indirection layer (used for device removal) sleeps for this many
|
|
milliseconds during mapping generation.
|
|
Intended for use with the test suite to throttle vdev removal speed.
|
|
.
|
|
.It Sy zfs_condense_indirect_obsolete_pct Ns = Ns Sy 25 Ns % Pq uint
|
|
Minimum percent of obsolete bytes in vdev mapping required to attempt to
|
|
condense
|
|
.Pq see Sy zfs_condense_indirect_vdevs_enable .
|
|
Intended for use with the test suite
|
|
to facilitate triggering condensing as needed.
|
|
.
|
|
.It Sy zfs_condense_indirect_vdevs_enable Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Enable condensing indirect vdev mappings.
|
|
When set, attempt to condense indirect vdev mappings
|
|
if the mapping uses more than
|
|
.Sy zfs_condense_min_mapping_bytes
|
|
bytes of memory and if the obsolete space map object uses more than
|
|
.Sy zfs_condense_max_obsolete_bytes
|
|
bytes on-disk.
|
|
The condensing process is an attempt to save memory by removing obsolete
|
|
mappings.
|
|
.
|
|
.It Sy zfs_condense_max_obsolete_bytes Ns = Ns Sy 1073741824 Ns B Po 1 GiB Pc Pq u64
|
|
Only attempt to condense indirect vdev mappings if the on-disk size
|
|
of the obsolete space map object is greater than this number of bytes
|
|
.Pq see Sy zfs_condense_indirect_vdevs_enable .
|
|
.
|
|
.It Sy zfs_condense_min_mapping_bytes Ns = Ns Sy 131072 Ns B Po 128 KiB Pc Pq u64
|
|
Minimum size vdev mapping to attempt to condense
|
|
.Pq see Sy zfs_condense_indirect_vdevs_enable .
|
|
.
|
|
.It Sy zfs_dbgmsg_enable Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Internally ZFS keeps a small log to facilitate debugging.
|
|
The log is enabled by default, and can be disabled by unsetting this option.
|
|
The contents of the log can be accessed by reading
|
|
.Pa /proc/spl/kstat/zfs/dbgmsg .
|
|
Writing
|
|
.Sy 0
|
|
to the file clears the log.
|
|
.Pp
|
|
This setting does not influence debug prints due to
|
|
.Sy zfs_flags .
|
|
.
|
|
.It Sy zfs_dbgmsg_maxsize Ns = Ns Sy 4194304 Ns B Po 4 MiB Pc Pq uint
|
|
Maximum size of the internal ZFS debug log.
|
|
.
|
|
.It Sy zfs_dbuf_state_index Ns = Ns Sy 0 Pq int
|
|
Historically used for controlling what reporting was available under
|
|
.Pa /proc/spl/kstat/zfs .
|
|
No effect.
|
|
.
|
|
.It Sy zfs_deadman_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
When a pool sync operation takes longer than
|
|
.Sy zfs_deadman_synctime_ms ,
|
|
or when an individual I/O operation takes longer than
|
|
.Sy zfs_deadman_ziotime_ms ,
|
|
then the operation is considered to be "hung".
|
|
If
|
|
.Sy zfs_deadman_enabled
|
|
is set, then the deadman behavior is invoked as described by
|
|
.Sy zfs_deadman_failmode .
|
|
By default, the deadman is enabled and set to
|
|
.Sy wait
|
|
which results in "hung" I/O operations only being logged.
|
|
The deadman is automatically disabled when a pool gets suspended.
|
|
.
|
|
.It Sy zfs_deadman_failmode Ns = Ns Sy wait Pq charp
|
|
Controls the failure behavior when the deadman detects a "hung" I/O operation.
|
|
Valid values are:
|
|
.Bl -tag -compact -offset 4n -width "continue"
|
|
.It Sy wait
|
|
Wait for a "hung" operation to complete.
|
|
For each "hung" operation a "deadman" event will be posted
|
|
describing that operation.
|
|
.It Sy continue
|
|
Attempt to recover from a "hung" operation by re-dispatching it
|
|
to the I/O pipeline if possible.
|
|
.It Sy panic
|
|
Panic the system.
|
|
This can be used to facilitate automatic fail-over
|
|
to a properly configured fail-over partner.
|
|
.El
|
|
.
|
|
.It Sy zfs_deadman_checktime_ms Ns = Ns Sy 60000 Ns ms Po 1 min Pc Pq u64
|
|
Check time in milliseconds.
|
|
This defines the frequency at which we check for hung I/O requests
|
|
and potentially invoke the
|
|
.Sy zfs_deadman_failmode
|
|
behavior.
|
|
.
|
|
.It Sy zfs_deadman_synctime_ms Ns = Ns Sy 600000 Ns ms Po 10 min Pc Pq u64
|
|
Interval in milliseconds after which the deadman is triggered and also
|
|
the interval after which a pool sync operation is considered to be "hung".
|
|
Once this limit is exceeded the deadman will be invoked every
|
|
.Sy zfs_deadman_checktime_ms
|
|
milliseconds until the pool sync completes.
|
|
.
|
|
.It Sy zfs_deadman_ziotime_ms Ns = Ns Sy 300000 Ns ms Po 5 min Pc Pq u64
|
|
Interval in milliseconds after which the deadman is triggered and an
|
|
individual I/O operation is considered to be "hung".
|
|
As long as the operation remains "hung",
|
|
the deadman will be invoked every
|
|
.Sy zfs_deadman_checktime_ms
|
|
milliseconds until the operation completes.
|
|
.
|
|
.It Sy zfs_dedup_prefetch Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Enable prefetching dedup-ed blocks which are going to be freed.
|
|
.
|
|
.It Sy zfs_delay_min_dirty_percent Ns = Ns Sy 60 Ns % Pq uint
|
|
Start to delay each transaction once there is this amount of dirty data,
|
|
expressed as a percentage of
|
|
.Sy zfs_dirty_data_max .
|
|
This value should be at least
|
|
.Sy zfs_vdev_async_write_active_max_dirty_percent .
|
|
.No See Sx ZFS TRANSACTION DELAY .
|
|
.
|
|
.It Sy zfs_delay_scale Ns = Ns Sy 500000 Pq int
|
|
This controls how quickly the transaction delay approaches infinity.
|
|
Larger values cause longer delays for a given amount of dirty data.
|
|
.Pp
|
|
For the smoothest delay, this value should be about 1 billion divided
|
|
by the maximum number of operations per second.
|
|
This will smoothly handle between ten times and a tenth of this number.
|
|
.No See Sx ZFS TRANSACTION DELAY .
|
|
.Pp
|
|
.Sy zfs_delay_scale No \(mu Sy zfs_dirty_data_max Em must No be smaller than Sy 2^64 .
|
|
.
|
|
.It Sy zfs_disable_ivset_guid_check Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Disables requirement for IVset GUIDs to be present and match when doing a raw
|
|
receive of encrypted datasets.
|
|
Intended for users whose pools were created with
|
|
OpenZFS pre-release versions and now have compatibility issues.
|
|
.
|
|
.It Sy zfs_key_max_salt_uses Ns = Ns Sy 400000000 Po 4*10^8 Pc Pq ulong
|
|
Maximum number of uses of a single salt value before generating a new one for
|
|
encrypted datasets.
|
|
The default value is also the maximum.
|
|
.
|
|
.It Sy zfs_object_mutex_size Ns = Ns Sy 64 Pq uint
|
|
Size of the znode hashtable used for holds.
|
|
.Pp
|
|
Due to the need to hold locks on objects that may not exist yet, kernel mutexes
|
|
are not created per-object and instead a hashtable is used where collisions
|
|
will result in objects waiting when there is not actually contention on the
|
|
same object.
|
|
.
|
|
.It Sy zfs_slow_io_events_per_second Ns = Ns Sy 20 Ns /s Pq int
|
|
Rate limit delay and deadman zevents (which report slow I/O operations) to this
|
|
many per
|
|
second.
|
|
.
|
|
.It Sy zfs_unflushed_max_mem_amt Ns = Ns Sy 1073741824 Ns B Po 1 GiB Pc Pq u64
|
|
Upper-bound limit for unflushed metadata changes to be held by the
|
|
log spacemap in memory, in bytes.
|
|
.
|
|
.It Sy zfs_unflushed_max_mem_ppm Ns = Ns Sy 1000 Ns ppm Po 0.1% Pc Pq u64
|
|
Part of overall system memory that ZFS allows to be used
|
|
for unflushed metadata changes by the log spacemap, in millionths.
|
|
.
|
|
.It Sy zfs_unflushed_log_block_max Ns = Ns Sy 131072 Po 128k Pc Pq u64
|
|
Describes the maximum number of log spacemap blocks allowed for each pool.
|
|
The default value means that the space in all the log spacemaps
|
|
can add up to no more than
|
|
.Sy 131072
|
|
blocks (which means
|
|
.Em 16 GiB
|
|
of logical space before compression and ditto blocks,
|
|
assuming that blocksize is
|
|
.Em 128 KiB ) .
|
|
.Pp
|
|
This tunable is important because it involves a trade-off between import
|
|
time after an unclean export and the frequency of flushing metaslabs.
|
|
The higher this number is, the more log blocks we allow when the pool is
|
|
active which means that we flush metaslabs less often and thus decrease
|
|
the number of I/O operations for spacemap updates per TXG.
|
|
At the same time though, that means that in the event of an unclean export,
|
|
there will be more log spacemap blocks for us to read, inducing overhead
|
|
in the import time of the pool.
|
|
The lower the number, the amount of flushing increases, destroying log
|
|
blocks quicker as they become obsolete faster, which leaves less blocks
|
|
to be read during import time after a crash.
|
|
.Pp
|
|
Each log spacemap block existing during pool import leads to approximately
|
|
one extra logical I/O issued.
|
|
This is the reason why this tunable is exposed in terms of blocks rather
|
|
than space used.
|
|
.
|
|
.It Sy zfs_unflushed_log_block_min Ns = Ns Sy 1000 Pq u64
|
|
If the number of metaslabs is small and our incoming rate is high,
|
|
we could get into a situation that we are flushing all our metaslabs every TXG.
|
|
Thus we always allow at least this many log blocks.
|
|
.
|
|
.It Sy zfs_unflushed_log_block_pct Ns = Ns Sy 400 Ns % Pq u64
|
|
Tunable used to determine the number of blocks that can be used for
|
|
the spacemap log, expressed as a percentage of the total number of
|
|
unflushed metaslabs in the pool.
|
|
.
|
|
.It Sy zfs_unflushed_log_txg_max Ns = Ns Sy 1000 Pq u64
|
|
Tunable limiting maximum time in TXGs any metaslab may remain unflushed.
|
|
It effectively limits maximum number of unflushed per-TXG spacemap logs
|
|
that need to be read after unclean pool export.
|
|
.
|
|
.It Sy zfs_unlink_suspend_progress Ns = Ns Sy 0 Ns | Ns 1 Pq uint
|
|
When enabled, files will not be asynchronously removed from the list of pending
|
|
unlinks and the space they consume will be leaked.
|
|
Once this option has been disabled and the dataset is remounted,
|
|
the pending unlinks will be processed and the freed space returned to the pool.
|
|
This option is used by the test suite.
|
|
.
|
|
.It Sy zfs_delete_blocks Ns = Ns Sy 20480 Pq ulong
|
|
This is the used to define a large file for the purposes of deletion.
|
|
Files containing more than
|
|
.Sy zfs_delete_blocks
|
|
will be deleted asynchronously, while smaller files are deleted synchronously.
|
|
Decreasing this value will reduce the time spent in an
|
|
.Xr unlink 2
|
|
system call, at the expense of a longer delay before the freed space is
|
|
available.
|
|
This only applies on Linux.
|
|
.
|
|
.It Sy zfs_dirty_data_max Ns = Pq int
|
|
Determines the dirty space limit in bytes.
|
|
Once this limit is exceeded, new writes are halted until space frees up.
|
|
This parameter takes precedence over
|
|
.Sy zfs_dirty_data_max_percent .
|
|
.No See Sx ZFS TRANSACTION DELAY .
|
|
.Pp
|
|
Defaults to
|
|
.Sy physical_ram/10 ,
|
|
capped at
|
|
.Sy zfs_dirty_data_max_max .
|
|
.
|
|
.It Sy zfs_dirty_data_max_max Ns = Pq int
|
|
Maximum allowable value of
|
|
.Sy zfs_dirty_data_max ,
|
|
expressed in bytes.
|
|
This limit is only enforced at module load time, and will be ignored if
|
|
.Sy zfs_dirty_data_max
|
|
is later changed.
|
|
This parameter takes precedence over
|
|
.Sy zfs_dirty_data_max_max_percent .
|
|
.No See Sx ZFS TRANSACTION DELAY .
|
|
.Pp
|
|
Defaults to
|
|
.Sy physical_ram/4 ,
|
|
.
|
|
.It Sy zfs_dirty_data_max_max_percent Ns = Ns Sy 25 Ns % Pq uint
|
|
Maximum allowable value of
|
|
.Sy zfs_dirty_data_max ,
|
|
expressed as a percentage of physical RAM.
|
|
This limit is only enforced at module load time, and will be ignored if
|
|
.Sy zfs_dirty_data_max
|
|
is later changed.
|
|
The parameter
|
|
.Sy zfs_dirty_data_max_max
|
|
takes precedence over this one.
|
|
.No See Sx ZFS TRANSACTION DELAY .
|
|
.
|
|
.It Sy zfs_dirty_data_max_percent Ns = Ns Sy 10 Ns % Pq uint
|
|
Determines the dirty space limit, expressed as a percentage of all memory.
|
|
Once this limit is exceeded, new writes are halted until space frees up.
|
|
The parameter
|
|
.Sy zfs_dirty_data_max
|
|
takes precedence over this one.
|
|
.No See Sx ZFS TRANSACTION DELAY .
|
|
.Pp
|
|
Subject to
|
|
.Sy zfs_dirty_data_max_max .
|
|
.
|
|
.It Sy zfs_dirty_data_sync_percent Ns = Ns Sy 20 Ns % Pq uint
|
|
Start syncing out a transaction group if there's at least this much dirty data
|
|
.Pq as a percentage of Sy zfs_dirty_data_max .
|
|
This should be less than
|
|
.Sy zfs_vdev_async_write_active_min_dirty_percent .
|
|
.
|
|
.It Sy zfs_wrlog_data_max Ns = Pq int
|
|
The upper limit of write-transaction zil log data size in bytes.
|
|
Write operations are throttled when approaching the limit until log data is
|
|
cleared out after transaction group sync.
|
|
Because of some overhead, it should be set at least 2 times the size of
|
|
.Sy zfs_dirty_data_max
|
|
.No to prevent harming normal write throughput .
|
|
It also should be smaller than the size of the slog device if slog is present.
|
|
.Pp
|
|
Defaults to
|
|
.Sy zfs_dirty_data_max*2
|
|
.
|
|
.It Sy zfs_fallocate_reserve_percent Ns = Ns Sy 110 Ns % Pq uint
|
|
Since ZFS is a copy-on-write filesystem with snapshots, blocks cannot be
|
|
preallocated for a file in order to guarantee that later writes will not
|
|
run out of space.
|
|
Instead,
|
|
.Xr fallocate 2
|
|
space preallocation only checks that sufficient space is currently available
|
|
in the pool or the user's project quota allocation,
|
|
and then creates a sparse file of the requested size.
|
|
The requested space is multiplied by
|
|
.Sy zfs_fallocate_reserve_percent
|
|
to allow additional space for indirect blocks and other internal metadata.
|
|
Setting this to
|
|
.Sy 0
|
|
disables support for
|
|
.Xr fallocate 2
|
|
and causes it to return
|
|
.Sy EOPNOTSUPP .
|
|
.
|
|
.It Sy zfs_fletcher_4_impl Ns = Ns Sy fastest Pq string
|
|
Select a fletcher 4 implementation.
|
|
.Pp
|
|
Supported selectors are:
|
|
.Sy fastest , scalar , sse2 , ssse3 , avx2 , avx512f , avx512bw ,
|
|
.No and Sy aarch64_neon .
|
|
All except
|
|
.Sy fastest No and Sy scalar
|
|
require instruction set extensions to be available,
|
|
and will only appear if ZFS detects that they are present at runtime.
|
|
If multiple implementations of fletcher 4 are available, the
|
|
.Sy fastest
|
|
will be chosen using a micro benchmark.
|
|
Selecting
|
|
.Sy scalar
|
|
results in the original CPU-based calculation being used.
|
|
Selecting any option other than
|
|
.Sy fastest No or Sy scalar
|
|
results in vector instructions
|
|
from the respective CPU instruction set being used.
|
|
.
|
|
.It Sy zfs_blake3_impl Ns = Ns Sy fastest Pq string
|
|
Select a BLAKE3 implementation.
|
|
.Pp
|
|
Supported selectors are:
|
|
.Sy cycle , fastest , generic , sse2 , sse41 , avx2 , avx512 .
|
|
All except
|
|
.Sy cycle , fastest No and Sy generic
|
|
require instruction set extensions to be available,
|
|
and will only appear if ZFS detects that they are present at runtime.
|
|
If multiple implementations of BLAKE3 are available, the
|
|
.Sy fastest will be chosen using a micro benchmark. You can see the
|
|
benchmark results by reading this kstat file:
|
|
.Pa /proc/spl/kstat/zfs/chksum_bench .
|
|
.
|
|
.It Sy zfs_free_bpobj_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Enable/disable the processing of the free_bpobj object.
|
|
.
|
|
.It Sy zfs_async_block_max_blocks Ns = Ns Sy UINT64_MAX Po unlimited Pc Pq u64
|
|
Maximum number of blocks freed in a single TXG.
|
|
.
|
|
.It Sy zfs_max_async_dedup_frees Ns = Ns Sy 100000 Po 10^5 Pc Pq u64
|
|
Maximum number of dedup blocks freed in a single TXG.
|
|
.
|
|
.It Sy zfs_vdev_async_read_max_active Ns = Ns Sy 3 Pq uint
|
|
Maximum asynchronous read I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_async_read_min_active Ns = Ns Sy 1 Pq uint
|
|
Minimum asynchronous read I/O operation active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_async_write_active_max_dirty_percent Ns = Ns Sy 60 Ns % Pq uint
|
|
When the pool has more than this much dirty data, use
|
|
.Sy zfs_vdev_async_write_max_active
|
|
to limit active async writes.
|
|
If the dirty data is between the minimum and maximum,
|
|
the active I/O limit is linearly interpolated.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_async_write_active_min_dirty_percent Ns = Ns Sy 30 Ns % Pq uint
|
|
When the pool has less than this much dirty data, use
|
|
.Sy zfs_vdev_async_write_min_active
|
|
to limit active async writes.
|
|
If the dirty data is between the minimum and maximum,
|
|
the active I/O limit is linearly
|
|
interpolated.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_async_write_max_active Ns = Ns Sy 10 Pq uint
|
|
Maximum asynchronous write I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_async_write_min_active Ns = Ns Sy 2 Pq uint
|
|
Minimum asynchronous write I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.Pp
|
|
Lower values are associated with better latency on rotational media but poorer
|
|
resilver performance.
|
|
The default value of
|
|
.Sy 2
|
|
was chosen as a compromise.
|
|
A value of
|
|
.Sy 3
|
|
has been shown to improve resilver performance further at a cost of
|
|
further increasing latency.
|
|
.
|
|
.It Sy zfs_vdev_initializing_max_active Ns = Ns Sy 1 Pq uint
|
|
Maximum initializing I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_initializing_min_active Ns = Ns Sy 1 Pq uint
|
|
Minimum initializing I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_max_active Ns = Ns Sy 1000 Pq uint
|
|
The maximum number of I/O operations active to each device.
|
|
Ideally, this will be at least the sum of each queue's
|
|
.Sy max_active .
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_open_timeout_ms Ns = Ns Sy 1000 Pq uint
|
|
Timeout value to wait before determining a device is missing
|
|
during import.
|
|
This is helpful for transient missing paths due
|
|
to links being briefly removed and recreated in response to
|
|
udev events.
|
|
.
|
|
.It Sy zfs_vdev_rebuild_max_active Ns = Ns Sy 3 Pq uint
|
|
Maximum sequential resilver I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_rebuild_min_active Ns = Ns Sy 1 Pq uint
|
|
Minimum sequential resilver I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_removal_max_active Ns = Ns Sy 2 Pq uint
|
|
Maximum removal I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_removal_min_active Ns = Ns Sy 1 Pq uint
|
|
Minimum removal I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_scrub_max_active Ns = Ns Sy 2 Pq uint
|
|
Maximum scrub I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_scrub_min_active Ns = Ns Sy 1 Pq uint
|
|
Minimum scrub I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_sync_read_max_active Ns = Ns Sy 10 Pq uint
|
|
Maximum synchronous read I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_sync_read_min_active Ns = Ns Sy 10 Pq uint
|
|
Minimum synchronous read I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_sync_write_max_active Ns = Ns Sy 10 Pq uint
|
|
Maximum synchronous write I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_sync_write_min_active Ns = Ns Sy 10 Pq uint
|
|
Minimum synchronous write I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_trim_max_active Ns = Ns Sy 2 Pq uint
|
|
Maximum trim/discard I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_trim_min_active Ns = Ns Sy 1 Pq uint
|
|
Minimum trim/discard I/O operations active to each device.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_nia_delay Ns = Ns Sy 5 Pq uint
|
|
For non-interactive I/O (scrub, resilver, removal, initialize and rebuild),
|
|
the number of concurrently-active I/O operations is limited to
|
|
.Sy zfs_*_min_active ,
|
|
unless the vdev is "idle".
|
|
When there are no interactive I/O operations active (synchronous or otherwise),
|
|
and
|
|
.Sy zfs_vdev_nia_delay
|
|
operations have completed since the last interactive operation,
|
|
then the vdev is considered to be "idle",
|
|
and the number of concurrently-active non-interactive operations is increased to
|
|
.Sy zfs_*_max_active .
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_nia_credit Ns = Ns Sy 5 Pq uint
|
|
Some HDDs tend to prioritize sequential I/O so strongly, that concurrent
|
|
random I/O latency reaches several seconds.
|
|
On some HDDs this happens even if sequential I/O operations
|
|
are submitted one at a time, and so setting
|
|
.Sy zfs_*_max_active Ns = Sy 1
|
|
does not help.
|
|
To prevent non-interactive I/O, like scrub,
|
|
from monopolizing the device, no more than
|
|
.Sy zfs_vdev_nia_credit operations can be sent
|
|
while there are outstanding incomplete interactive operations.
|
|
This enforced wait ensures the HDD services the interactive I/O
|
|
within a reasonable amount of time.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_queue_depth_pct Ns = Ns Sy 1000 Ns % Pq uint
|
|
Maximum number of queued allocations per top-level vdev expressed as
|
|
a percentage of
|
|
.Sy zfs_vdev_async_write_max_active ,
|
|
which allows the system to detect devices that are more capable
|
|
of handling allocations and to 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.
|
|
.Pp
|
|
Also see
|
|
.Sy zio_dva_throttle_enabled .
|
|
.
|
|
.It Sy zfs_vdev_failfast_mask Ns = Ns Sy 1 Pq uint
|
|
Defines if the driver should retire on a given error type.
|
|
The following options may be bitwise-ored together:
|
|
.TS
|
|
box;
|
|
lbz r l l .
|
|
Value Name Description
|
|
_
|
|
1 Device No driver retries on device errors
|
|
2 Transport No driver retries on transport errors.
|
|
4 Driver No driver retries on driver errors.
|
|
.TE
|
|
.
|
|
.It Sy zfs_expire_snapshot Ns = Ns Sy 300 Ns s Pq int
|
|
Time before expiring
|
|
.Pa .zfs/snapshot .
|
|
.
|
|
.It Sy zfs_admin_snapshot Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Allow the creation, removal, or renaming of entries in the
|
|
.Sy .zfs/snapshot
|
|
directory to cause the creation, destruction, or renaming of snapshots.
|
|
When enabled, this functionality works both locally and over NFS exports
|
|
which have the
|
|
.Em no_root_squash
|
|
option set.
|
|
.
|
|
.It Sy zfs_flags Ns = Ns Sy 0 Pq int
|
|
Set additional debugging flags.
|
|
The following flags may be bitwise-ored together:
|
|
.TS
|
|
box;
|
|
lbz r l l .
|
|
Value Name Description
|
|
_
|
|
1 ZFS_DEBUG_DPRINTF Enable dprintf entries in the debug log.
|
|
* 2 ZFS_DEBUG_DBUF_VERIFY Enable extra dbuf verifications.
|
|
* 4 ZFS_DEBUG_DNODE_VERIFY Enable extra dnode verifications.
|
|
8 ZFS_DEBUG_SNAPNAMES Enable snapshot name verification.
|
|
* 16 ZFS_DEBUG_MODIFY Check for illegally modified ARC buffers.
|
|
64 ZFS_DEBUG_ZIO_FREE Enable verification of block frees.
|
|
128 ZFS_DEBUG_HISTOGRAM_VERIFY Enable extra spacemap histogram verifications.
|
|
256 ZFS_DEBUG_METASLAB_VERIFY Verify space accounting on disk matches in-memory \fBrange_trees\fP.
|
|
512 ZFS_DEBUG_SET_ERROR Enable \fBSET_ERROR\fP and dprintf entries in the debug log.
|
|
1024 ZFS_DEBUG_INDIRECT_REMAP Verify split blocks created by device removal.
|
|
2048 ZFS_DEBUG_TRIM Verify TRIM ranges are always within the allocatable range tree.
|
|
4096 ZFS_DEBUG_LOG_SPACEMAP Verify that the log summary is consistent with the spacemap log
|
|
and enable \fBzfs_dbgmsgs\fP for metaslab loading and flushing.
|
|
.TE
|
|
.Sy \& * No Requires debug build .
|
|
.
|
|
.It Sy zfs_btree_verify_intensity Ns = Ns Sy 0 Pq uint
|
|
Enables btree verification.
|
|
The following settings are culminative:
|
|
.TS
|
|
box;
|
|
lbz r l l .
|
|
Value Description
|
|
|
|
1 Verify height.
|
|
2 Verify pointers from children to parent.
|
|
3 Verify element counts.
|
|
4 Verify element order. (expensive)
|
|
* 5 Verify unused memory is poisoned. (expensive)
|
|
.TE
|
|
.Sy \& * No Requires debug build .
|
|
.
|
|
.It Sy zfs_free_leak_on_eio Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
If destroy encounters an
|
|
.Sy EIO
|
|
while reading metadata (e.g. indirect blocks),
|
|
space referenced by the missing metadata can not be freed.
|
|
Normally this causes the background destroy to become "stalled",
|
|
as it is unable to make forward progress.
|
|
While in this stalled state, all remaining space to free
|
|
from the error-encountering filesystem is "temporarily leaked".
|
|
Set this flag to cause it to ignore the
|
|
.Sy EIO ,
|
|
permanently leak the space from indirect blocks that can not be read,
|
|
and continue to free everything else that it can.
|
|
.Pp
|
|
The default "stalling" behavior is useful if the storage partially
|
|
fails (i.e. some but not all I/O operations fail), and then later recovers.
|
|
In this case, we will be able to continue pool operations while it is
|
|
partially failed, and when it recovers, we can continue to free the
|
|
space, with no leaks.
|
|
Note, however, that this case is actually fairly rare.
|
|
.Pp
|
|
Typically pools either
|
|
.Bl -enum -compact -offset 4n -width "1."
|
|
.It
|
|
fail completely (but perhaps temporarily,
|
|
e.g. due to a top-level vdev going offline), or
|
|
.It
|
|
have localized, permanent errors (e.g. disk returns the wrong data
|
|
due to bit flip or firmware bug).
|
|
.El
|
|
In the former case, this setting does not matter because the
|
|
pool will be suspended and the sync thread will not be able to make
|
|
forward progress regardless.
|
|
In the latter, because the error is permanent, the best we can do
|
|
is leak the minimum amount of space,
|
|
which is what setting this flag will do.
|
|
It is therefore reasonable for this flag to normally be set,
|
|
but we chose the more conservative approach of not setting it,
|
|
so that there is no possibility of
|
|
leaking space in the "partial temporary" failure case.
|
|
.
|
|
.It Sy zfs_free_min_time_ms Ns = Ns Sy 1000 Ns ms Po 1s Pc Pq uint
|
|
During a
|
|
.Nm zfs Cm destroy
|
|
operation using the
|
|
.Sy async_destroy
|
|
feature,
|
|
a minimum of this much time will be spent working on freeing blocks per TXG.
|
|
.
|
|
.It Sy zfs_obsolete_min_time_ms Ns = Ns Sy 500 Ns ms Pq uint
|
|
Similar to
|
|
.Sy zfs_free_min_time_ms ,
|
|
but for cleanup of old indirection records for removed vdevs.
|
|
.
|
|
.It Sy zfs_immediate_write_sz Ns = Ns Sy 32768 Ns B Po 32 KiB Pc Pq s64
|
|
Largest data block to write to the ZIL.
|
|
Larger blocks will be treated as if the dataset being written to had the
|
|
.Sy logbias Ns = Ns Sy throughput
|
|
property set.
|
|
.
|
|
.It Sy zfs_initialize_value Ns = Ns Sy 16045690984833335022 Po 0xDEADBEEFDEADBEEE Pc Pq u64
|
|
Pattern written to vdev free space by
|
|
.Xr zpool-initialize 8 .
|
|
.
|
|
.It Sy zfs_initialize_chunk_size Ns = Ns Sy 1048576 Ns B Po 1 MiB Pc Pq u64
|
|
Size of writes used by
|
|
.Xr zpool-initialize 8 .
|
|
This option is used by the test suite.
|
|
.
|
|
.It Sy zfs_livelist_max_entries Ns = Ns Sy 500000 Po 5*10^5 Pc Pq u64
|
|
The threshold size (in block pointers) at which we create a new sub-livelist.
|
|
Larger sublists are more costly from a memory perspective but the fewer
|
|
sublists there are, the lower the cost of insertion.
|
|
.
|
|
.It Sy zfs_livelist_min_percent_shared Ns = Ns Sy 75 Ns % Pq int
|
|
If the amount of shared space between a snapshot and its clone drops below
|
|
this threshold, the clone turns off the livelist and reverts to the old
|
|
deletion method.
|
|
This is in place because livelists no long give us a benefit
|
|
once a clone has been overwritten enough.
|
|
.
|
|
.It Sy zfs_livelist_condense_new_alloc Ns = Ns Sy 0 Pq int
|
|
Incremented each time an extra ALLOC blkptr is added to a livelist entry while
|
|
it is being condensed.
|
|
This option is used by the test suite to track race conditions.
|
|
.
|
|
.It Sy zfs_livelist_condense_sync_cancel Ns = Ns Sy 0 Pq int
|
|
Incremented each time livelist condensing is canceled while in
|
|
.Fn spa_livelist_condense_sync .
|
|
This option is used by the test suite to track race conditions.
|
|
.
|
|
.It Sy zfs_livelist_condense_sync_pause Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
When set, the livelist condense process pauses indefinitely before
|
|
executing the synctask \(em
|
|
.Fn spa_livelist_condense_sync .
|
|
This option is used by the test suite to trigger race conditions.
|
|
.
|
|
.It Sy zfs_livelist_condense_zthr_cancel Ns = Ns Sy 0 Pq int
|
|
Incremented each time livelist condensing is canceled while in
|
|
.Fn spa_livelist_condense_cb .
|
|
This option is used by the test suite to track race conditions.
|
|
.
|
|
.It Sy zfs_livelist_condense_zthr_pause Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
When set, the livelist condense process pauses indefinitely before
|
|
executing the open context condensing work in
|
|
.Fn spa_livelist_condense_cb .
|
|
This option is used by the test suite to trigger race conditions.
|
|
.
|
|
.It Sy zfs_lua_max_instrlimit Ns = Ns Sy 100000000 Po 10^8 Pc Pq u64
|
|
The maximum execution time limit that can be set for a ZFS channel program,
|
|
specified as a number of Lua instructions.
|
|
.
|
|
.It Sy zfs_lua_max_memlimit Ns = Ns Sy 104857600 Po 100 MiB Pc Pq u64
|
|
The maximum memory limit that can be set for a ZFS channel program, specified
|
|
in bytes.
|
|
.
|
|
.It Sy zfs_max_dataset_nesting Ns = Ns Sy 50 Pq int
|
|
The maximum depth of nested datasets.
|
|
This value can be tuned temporarily to
|
|
fix existing datasets that exceed the predefined limit.
|
|
.
|
|
.It Sy zfs_max_log_walking Ns = Ns Sy 5 Pq u64
|
|
The number of past TXGs that the flushing algorithm of the log spacemap
|
|
feature uses to estimate incoming log blocks.
|
|
.
|
|
.It Sy zfs_max_logsm_summary_length Ns = Ns Sy 10 Pq u64
|
|
Maximum number of rows allowed in the summary of the spacemap log.
|
|
.
|
|
.It Sy zfs_max_recordsize Ns = Ns Sy 16777216 Po 16 MiB Pc Pq uint
|
|
We currently support block sizes from
|
|
.Em 512 Po 512 B Pc No to Em 16777216 Po 16 MiB Pc .
|
|
The benefits of larger blocks, and thus larger I/O,
|
|
need to be weighed against the cost of COWing a giant block to modify one byte.
|
|
Additionally, very large blocks can have an impact on I/O latency,
|
|
and also potentially on the memory allocator.
|
|
Therefore, we formerly forbade creating blocks larger than 1M.
|
|
Larger blocks could be created by changing it,
|
|
and pools with larger blocks can always be imported and used,
|
|
regardless of this setting.
|
|
.
|
|
.It Sy zfs_allow_redacted_dataset_mount Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Allow datasets received with redacted send/receive to be mounted.
|
|
Normally disabled because these datasets may be missing key data.
|
|
.
|
|
.It Sy zfs_min_metaslabs_to_flush Ns = Ns Sy 1 Pq u64
|
|
Minimum number of metaslabs to flush per dirty TXG.
|
|
.
|
|
.It Sy zfs_metaslab_fragmentation_threshold Ns = Ns Sy 70 Ns % Pq uint
|
|
Allow metaslabs to keep their active state as long as their fragmentation
|
|
percentage is no more than this value.
|
|
An active metaslab that exceeds this threshold
|
|
will no longer keep its active status allowing better metaslabs to be selected.
|
|
.
|
|
.It Sy zfs_mg_fragmentation_threshold Ns = Ns Sy 95 Ns % Pq uint
|
|
Metaslab groups are considered eligible for allocations if their
|
|
fragmentation metric (measured as a percentage) is less than or equal to
|
|
this value.
|
|
If a metaslab group exceeds this threshold then it will be
|
|
skipped unless all metaslab groups within the metaslab class have also
|
|
crossed this threshold.
|
|
.
|
|
.It Sy zfs_mg_noalloc_threshold Ns = Ns Sy 0 Ns % Pq uint
|
|
Defines a threshold at which metaslab groups should be eligible for allocations.
|
|
The value is expressed as a percentage of free space
|
|
beyond which a metaslab group is always eligible for allocations.
|
|
If a metaslab group's free space is less than or equal to the
|
|
threshold, the allocator will avoid allocating to that group
|
|
unless all groups in the pool have reached the threshold.
|
|
Once all groups have reached the threshold, all groups are allowed to accept
|
|
allocations.
|
|
The default value of
|
|
.Sy 0
|
|
disables the feature and causes all metaslab groups to be eligible for
|
|
allocations.
|
|
.Pp
|
|
This parameter allows one to deal with pools having heavily imbalanced
|
|
vdevs such as would be the case when a new vdev has been added.
|
|
Setting the threshold to a non-zero percentage will stop allocations
|
|
from being made to vdevs that aren't filled to the specified percentage
|
|
and allow lesser filled vdevs to acquire more allocations than they
|
|
otherwise would under the old
|
|
.Sy zfs_mg_alloc_failures
|
|
facility.
|
|
.
|
|
.It Sy zfs_ddt_data_is_special Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
If enabled, ZFS will place DDT data into the special allocation class.
|
|
.
|
|
.It Sy zfs_user_indirect_is_special Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
If enabled, ZFS will place user data indirect blocks
|
|
into the special allocation class.
|
|
.
|
|
.It Sy zfs_multihost_history Ns = Ns Sy 0 Pq uint
|
|
Historical statistics for this many latest multihost updates will be available
|
|
in
|
|
.Pa /proc/spl/kstat/zfs/ Ns Ao Ar pool Ac Ns Pa /multihost .
|
|
.
|
|
.It Sy zfs_multihost_interval Ns = Ns Sy 1000 Ns ms Po 1 s Pc Pq u64
|
|
Used to control the frequency of multihost writes which are performed when the
|
|
.Sy multihost
|
|
pool property is on.
|
|
This is one of the factors used to determine the
|
|
length of the activity check during import.
|
|
.Pp
|
|
The multihost write period is
|
|
.Sy zfs_multihost_interval No / Sy leaf-vdevs .
|
|
On average a multihost write will be issued for each leaf vdev
|
|
every
|
|
.Sy zfs_multihost_interval
|
|
milliseconds.
|
|
In practice, the observed period can vary with the I/O load
|
|
and this observed value is the delay which is stored in the uberblock.
|
|
.
|
|
.It Sy zfs_multihost_import_intervals Ns = Ns Sy 20 Pq uint
|
|
Used to control the duration of the activity test on import.
|
|
Smaller values of
|
|
.Sy zfs_multihost_import_intervals
|
|
will reduce the import time but increase
|
|
the risk of failing to detect an active pool.
|
|
The total activity check time is never allowed to drop below one second.
|
|
.Pp
|
|
On import the activity check waits a minimum amount of time determined by
|
|
.Sy zfs_multihost_interval No \(mu Sy zfs_multihost_import_intervals ,
|
|
or the same product computed on the host which last had the pool imported,
|
|
whichever is greater.
|
|
The activity check time may be further extended if the value of MMP
|
|
delay found in the best uberblock indicates actual multihost updates happened
|
|
at longer intervals than
|
|
.Sy zfs_multihost_interval .
|
|
A minimum of
|
|
.Em 100 ms
|
|
is enforced.
|
|
.Pp
|
|
.Sy 0 No is equivalent to Sy 1 .
|
|
.
|
|
.It Sy zfs_multihost_fail_intervals Ns = Ns Sy 10 Pq uint
|
|
Controls the behavior of the pool when multihost write failures or delays are
|
|
detected.
|
|
.Pp
|
|
When
|
|
.Sy 0 ,
|
|
multihost write failures or delays are ignored.
|
|
The failures will still be reported to the ZED which depending on
|
|
its configuration may take action such as suspending the pool or offlining a
|
|
device.
|
|
.Pp
|
|
Otherwise, the pool will be suspended if
|
|
.Sy zfs_multihost_fail_intervals No \(mu Sy zfs_multihost_interval
|
|
milliseconds pass without a successful MMP write.
|
|
This guarantees the activity test will see MMP writes if the pool is imported.
|
|
.Sy 1 No is equivalent to Sy 2 ;
|
|
this is necessary to prevent the pool from being suspended
|
|
due to normal, small I/O latency variations.
|
|
.
|
|
.It Sy zfs_no_scrub_io Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Set to disable scrub I/O.
|
|
This results in scrubs not actually scrubbing data and
|
|
simply doing a metadata crawl of the pool instead.
|
|
.
|
|
.It Sy zfs_no_scrub_prefetch Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Set to disable block prefetching for scrubs.
|
|
.
|
|
.It Sy zfs_nocacheflush Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Disable cache flush operations on disks when writing.
|
|
Setting this will cause pool corruption on power loss
|
|
if a volatile out-of-order write cache is enabled.
|
|
.
|
|
.It Sy zfs_nopwrite_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Allow no-operation writes.
|
|
The occurrence of nopwrites will further depend on other pool properties
|
|
.Pq i.a. the checksumming and compression algorithms .
|
|
.
|
|
.It Sy zfs_dmu_offset_next_sync Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Enable forcing TXG sync to find holes.
|
|
When enabled forces ZFS to sync data when
|
|
.Sy SEEK_HOLE No or Sy SEEK_DATA
|
|
flags are used allowing holes in a file to be accurately reported.
|
|
When disabled holes will not be reported in recently dirtied files.
|
|
.
|
|
.It Sy zfs_pd_bytes_max Ns = Ns Sy 52428800 Ns B Po 50 MiB Pc Pq int
|
|
The number of bytes which should be prefetched during a pool traversal, like
|
|
.Nm zfs Cm send
|
|
or other data crawling operations.
|
|
.
|
|
.It Sy zfs_traverse_indirect_prefetch_limit Ns = Ns Sy 32 Pq uint
|
|
The number of blocks pointed by indirect (non-L0) block which should be
|
|
prefetched during a pool traversal, like
|
|
.Nm zfs Cm send
|
|
or other data crawling operations.
|
|
.
|
|
.It Sy zfs_per_txg_dirty_frees_percent Ns = Ns Sy 30 Ns % Pq u64
|
|
Control percentage of dirtied indirect blocks from frees allowed into one TXG.
|
|
After this threshold is crossed, additional frees will wait until the next TXG.
|
|
.Sy 0 No disables this throttle .
|
|
.
|
|
.It Sy zfs_prefetch_disable Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Disable predictive prefetch.
|
|
Note that it leaves "prescient" prefetch
|
|
.Pq for, e.g., Nm zfs Cm send
|
|
intact.
|
|
Unlike predictive prefetch, prescient prefetch never issues I/O
|
|
that ends up not being needed, so it can't hurt performance.
|
|
.
|
|
.It Sy zfs_qat_checksum_disable Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Disable QAT hardware acceleration for SHA256 checksums.
|
|
May be unset after the ZFS modules have been loaded to initialize the QAT
|
|
hardware as long as support is compiled in and the QAT driver is present.
|
|
.
|
|
.It Sy zfs_qat_compress_disable Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Disable QAT hardware acceleration for gzip compression.
|
|
May be unset after the ZFS modules have been loaded to initialize the QAT
|
|
hardware as long as support is compiled in and the QAT driver is present.
|
|
.
|
|
.It Sy zfs_qat_encrypt_disable Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Disable QAT hardware acceleration for AES-GCM encryption.
|
|
May be unset after the ZFS modules have been loaded to initialize the QAT
|
|
hardware as long as support is compiled in and the QAT driver is present.
|
|
.
|
|
.It Sy zfs_vnops_read_chunk_size Ns = Ns Sy 1048576 Ns B Po 1 MiB Pc Pq u64
|
|
Bytes to read per chunk.
|
|
.
|
|
.It Sy zfs_read_history Ns = Ns Sy 0 Pq uint
|
|
Historical statistics for this many latest reads will be available in
|
|
.Pa /proc/spl/kstat/zfs/ Ns Ao Ar pool Ac Ns Pa /reads .
|
|
.
|
|
.It Sy zfs_read_history_hits Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Include cache hits in read history
|
|
.
|
|
.It Sy zfs_rebuild_max_segment Ns = Ns Sy 1048576 Ns B Po 1 MiB Pc Pq u64
|
|
Maximum read segment size to issue when sequentially resilvering a
|
|
top-level vdev.
|
|
.
|
|
.It Sy zfs_rebuild_scrub_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Automatically start a pool scrub when the last active sequential resilver
|
|
completes in order to verify the checksums of all blocks which have been
|
|
resilvered.
|
|
This is enabled by default and strongly recommended.
|
|
.
|
|
.It Sy zfs_rebuild_vdev_limit Ns = Ns Sy 33554432 Ns B Po 32 MiB Pc Pq u64
|
|
Maximum amount of I/O that can be concurrently issued for a sequential
|
|
resilver per leaf device, given in bytes.
|
|
.
|
|
.It Sy zfs_reconstruct_indirect_combinations_max Ns = Ns Sy 4096 Pq int
|
|
If an indirect split block contains more than this many possible unique
|
|
combinations when being reconstructed, consider it too computationally
|
|
expensive to check them all.
|
|
Instead, try at most this many randomly selected
|
|
combinations each time the block is accessed.
|
|
This allows all segment copies to participate fairly
|
|
in the reconstruction when all combinations
|
|
cannot be checked and prevents repeated use of one bad copy.
|
|
.
|
|
.It Sy zfs_recover Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Set to attempt to recover from fatal errors.
|
|
This should only be used as a last resort,
|
|
as it typically results in leaked space, or worse.
|
|
.
|
|
.It Sy zfs_removal_ignore_errors Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Ignore hard I/O errors during device removal.
|
|
When set, if a device encounters a hard I/O error during the removal process
|
|
the removal will not be cancelled.
|
|
This can result in a normally recoverable block becoming permanently damaged
|
|
and is hence not recommended.
|
|
This should only be used as a last resort when the
|
|
pool cannot be returned to a healthy state prior to removing the device.
|
|
.
|
|
.It Sy zfs_removal_suspend_progress Ns = Ns Sy 0 Ns | Ns 1 Pq uint
|
|
This is used by the test suite so that it can ensure that certain actions
|
|
happen while in the middle of a removal.
|
|
.
|
|
.It Sy zfs_remove_max_segment Ns = Ns Sy 16777216 Ns B Po 16 MiB Pc Pq uint
|
|
The largest contiguous segment that we will attempt to allocate when removing
|
|
a device.
|
|
If there is a performance problem with attempting to allocate large blocks,
|
|
consider decreasing this.
|
|
The default value is also the maximum.
|
|
.
|
|
.It Sy zfs_resilver_disable_defer Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Ignore the
|
|
.Sy resilver_defer
|
|
feature, causing an operation that would start a resilver to
|
|
immediately restart the one in progress.
|
|
.
|
|
.It Sy zfs_resilver_min_time_ms Ns = Ns Sy 3000 Ns ms Po 3 s Pc Pq uint
|
|
Resilvers are processed by the sync thread.
|
|
While resilvering, it will spend at least this much time
|
|
working on a resilver between TXG flushes.
|
|
.
|
|
.It Sy zfs_scan_ignore_errors Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
If set, remove the DTL (dirty time list) upon completion of a pool scan (scrub),
|
|
even if there were unrepairable errors.
|
|
Intended to be used during pool repair or recovery to
|
|
stop resilvering when the pool is next imported.
|
|
.
|
|
.It Sy zfs_scrub_min_time_ms Ns = Ns Sy 1000 Ns ms Po 1 s Pc Pq uint
|
|
Scrubs are processed by the sync thread.
|
|
While scrubbing, it will spend at least this much time
|
|
working on a scrub between TXG flushes.
|
|
.
|
|
.It Sy zfs_scan_checkpoint_intval Ns = Ns Sy 7200 Ns s Po 2 hour Pc Pq uint
|
|
To preserve progress across reboots, the sequential scan algorithm periodically
|
|
needs to stop metadata scanning and issue all the verification I/O to disk.
|
|
The frequency of this flushing is determined by this tunable.
|
|
.
|
|
.It Sy zfs_scan_fill_weight Ns = Ns Sy 3 Pq uint
|
|
This tunable affects how scrub and resilver I/O segments are ordered.
|
|
A higher number indicates that we care more about how filled in a segment is,
|
|
while a lower number indicates we care more about the size of the extent without
|
|
considering the gaps within a segment.
|
|
This value is only tunable upon module insertion.
|
|
Changing the value afterwards will have no effect on scrub or resilver
|
|
performance.
|
|
.
|
|
.It Sy zfs_scan_issue_strategy Ns = Ns Sy 0 Pq uint
|
|
Determines the order that data will be verified while scrubbing or resilvering:
|
|
.Bl -tag -compact -offset 4n -width "a"
|
|
.It Sy 1
|
|
Data will be verified as sequentially as possible, given the
|
|
amount of memory reserved for scrubbing
|
|
.Pq see Sy zfs_scan_mem_lim_fact .
|
|
This may improve scrub performance if the pool's data is very fragmented.
|
|
.It Sy 2
|
|
The largest mostly-contiguous chunk of found data will be verified first.
|
|
By deferring scrubbing of small segments, we may later find adjacent data
|
|
to coalesce and increase the segment size.
|
|
.It Sy 0
|
|
.No Use strategy Sy 1 No during normal verification
|
|
.No and strategy Sy 2 No while taking a checkpoint .
|
|
.El
|
|
.
|
|
.It Sy zfs_scan_legacy Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
If unset, indicates that scrubs and resilvers will gather metadata in
|
|
memory before issuing sequential I/O.
|
|
Otherwise indicates that the legacy algorithm will be used,
|
|
where I/O is initiated as soon as it is discovered.
|
|
Unsetting will not affect scrubs or resilvers that are already in progress.
|
|
.
|
|
.It Sy zfs_scan_max_ext_gap Ns = Ns Sy 2097152 Ns B Po 2 MiB Pc Pq int
|
|
Sets the largest gap in bytes between scrub/resilver I/O operations
|
|
that will still be considered sequential for sorting purposes.
|
|
Changing this value will not
|
|
affect scrubs or resilvers that are already in progress.
|
|
.
|
|
.It Sy zfs_scan_mem_lim_fact Ns = Ns Sy 20 Ns ^-1 Pq uint
|
|
Maximum fraction of RAM used for I/O sorting by sequential scan algorithm.
|
|
This tunable determines the hard limit for I/O sorting memory usage.
|
|
When the hard limit is reached we stop scanning metadata and start issuing
|
|
data verification I/O.
|
|
This is done until we get below the soft limit.
|
|
.
|
|
.It Sy zfs_scan_mem_lim_soft_fact Ns = Ns Sy 20 Ns ^-1 Pq uint
|
|
The fraction of the hard limit used to determined the soft limit for I/O sorting
|
|
by the sequential scan algorithm.
|
|
When we cross this limit from below no action is taken.
|
|
When we cross this limit from above it is because we are issuing verification
|
|
I/O.
|
|
In this case (unless the metadata scan is done) we stop issuing verification I/O
|
|
and start scanning metadata again until we get to the hard limit.
|
|
.
|
|
.It Sy zfs_scan_strict_mem_lim Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Enforce tight memory limits on pool scans when a sequential scan is in progress.
|
|
When disabled, the memory limit may be exceeded by fast disks.
|
|
.
|
|
.It Sy zfs_scan_suspend_progress Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Freezes a scrub/resilver in progress without actually pausing it.
|
|
Intended for testing/debugging.
|
|
.
|
|
.It Sy zfs_scan_vdev_limit Ns = Ns Sy 4194304 Ns B Po 4 MiB Pc Pq int
|
|
Maximum amount of data that can be concurrently issued at once for scrubs and
|
|
resilvers per leaf device, given in bytes.
|
|
.
|
|
.It Sy zfs_send_corrupt_data Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Allow sending of corrupt data (ignore read/checksum errors when sending).
|
|
.
|
|
.It Sy zfs_send_unmodified_spill_blocks Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Include unmodified spill blocks in the send stream.
|
|
Under certain circumstances, previous versions of ZFS could incorrectly
|
|
remove the spill block from an existing object.
|
|
Including unmodified copies of the spill blocks creates a backwards-compatible
|
|
stream which will recreate a spill block if it was incorrectly removed.
|
|
.
|
|
.It Sy zfs_send_no_prefetch_queue_ff Ns = Ns Sy 20 Ns ^\-1 Pq uint
|
|
The fill fraction of the
|
|
.Nm zfs Cm send
|
|
internal queues.
|
|
The fill fraction controls the timing with which internal threads are woken up.
|
|
.
|
|
.It Sy zfs_send_no_prefetch_queue_length Ns = Ns Sy 1048576 Ns B Po 1 MiB Pc Pq uint
|
|
The maximum number of bytes allowed in
|
|
.Nm zfs Cm send Ns 's
|
|
internal queues.
|
|
.
|
|
.It Sy zfs_send_queue_ff Ns = Ns Sy 20 Ns ^\-1 Pq uint
|
|
The fill fraction of the
|
|
.Nm zfs Cm send
|
|
prefetch queue.
|
|
The fill fraction controls the timing with which internal threads are woken up.
|
|
.
|
|
.It Sy zfs_send_queue_length Ns = Ns Sy 16777216 Ns B Po 16 MiB Pc Pq uint
|
|
The maximum number of bytes allowed that will be prefetched by
|
|
.Nm zfs Cm send .
|
|
This value must be at least twice the maximum block size in use.
|
|
.
|
|
.It Sy zfs_recv_queue_ff Ns = Ns Sy 20 Ns ^\-1 Pq uint
|
|
The fill fraction of the
|
|
.Nm zfs Cm receive
|
|
queue.
|
|
The fill fraction controls the timing with which internal threads are woken up.
|
|
.
|
|
.It Sy zfs_recv_queue_length Ns = Ns Sy 16777216 Ns B Po 16 MiB Pc Pq uint
|
|
The maximum number of bytes allowed in the
|
|
.Nm zfs Cm receive
|
|
queue.
|
|
This value must be at least twice the maximum block size in use.
|
|
.
|
|
.It Sy zfs_recv_write_batch_size Ns = Ns Sy 1048576 Ns B Po 1 MiB Pc Pq uint
|
|
The maximum amount of data, in bytes, that
|
|
.Nm zfs Cm receive
|
|
will write in one DMU transaction.
|
|
This is the uncompressed size, even when receiving a compressed send stream.
|
|
This setting will not reduce the write size below a single block.
|
|
Capped at a maximum of
|
|
.Sy 32 MiB .
|
|
.
|
|
.It Sy zfs_recv_best_effort_corrective Ns = Ns Sy 0 Pq int
|
|
When this variable is set to non-zero a corrective receive:
|
|
.Bl -enum -compact -offset 4n -width "1."
|
|
.It
|
|
Does not enforce the restriction of source & destination snapshot GUIDs
|
|
matching.
|
|
.It
|
|
If there is an error during healing, the healing receive is not
|
|
terminated instead it moves on to the next record.
|
|
.El
|
|
.
|
|
.It Sy zfs_override_estimate_recordsize Ns = Ns Sy 0 Ns | Ns 1 Pq uint
|
|
Setting this variable overrides the default logic for estimating block
|
|
sizes when doing a
|
|
.Nm zfs Cm send .
|
|
The default heuristic is that the average block size
|
|
will be the current recordsize.
|
|
Override this value if most data in your dataset is not of that size
|
|
and you require accurate zfs send size estimates.
|
|
.
|
|
.It Sy zfs_sync_pass_deferred_free Ns = Ns Sy 2 Pq uint
|
|
Flushing of data to disk is done in passes.
|
|
Defer frees starting in this pass.
|
|
.
|
|
.It Sy zfs_spa_discard_memory_limit Ns = Ns Sy 16777216 Ns B Po 16 MiB Pc Pq int
|
|
Maximum memory used for prefetching a checkpoint's space map on each
|
|
vdev while discarding the checkpoint.
|
|
.
|
|
.It Sy zfs_special_class_metadata_reserve_pct Ns = Ns Sy 25 Ns % Pq uint
|
|
Only allow small data blocks to be allocated on the special and dedup vdev
|
|
types when the available free space percentage on these vdevs exceeds this
|
|
value.
|
|
This ensures reserved space is available for pool metadata as the
|
|
special vdevs approach capacity.
|
|
.
|
|
.It Sy zfs_sync_pass_dont_compress Ns = Ns Sy 8 Pq uint
|
|
Starting in this sync pass, disable compression (including of metadata).
|
|
With the default setting, in practice, we don't have this many sync passes,
|
|
so this has no effect.
|
|
.Pp
|
|
The original intent was that disabling compression would help the sync passes
|
|
to converge.
|
|
However, in practice, disabling compression increases
|
|
the average number of sync passes; because when we turn compression off,
|
|
many blocks' size will change, and thus we have to re-allocate
|
|
(not overwrite) them.
|
|
It also increases the number of
|
|
.Em 128 KiB
|
|
allocations (e.g. for indirect blocks and spacemaps)
|
|
because these will not be compressed.
|
|
The
|
|
.Em 128 KiB
|
|
allocations are especially detrimental to performance
|
|
on highly fragmented systems, which may have very few free segments of this
|
|
size,
|
|
and may need to load new metaslabs to satisfy these allocations.
|
|
.
|
|
.It Sy zfs_sync_pass_rewrite Ns = Ns Sy 2 Pq uint
|
|
Rewrite new block pointers starting in this pass.
|
|
.
|
|
.It Sy zfs_sync_taskq_batch_pct Ns = Ns Sy 75 Ns % Pq int
|
|
This controls the number of threads used by
|
|
.Sy dp_sync_taskq .
|
|
The default value of
|
|
.Sy 75%
|
|
will create a maximum of one thread per CPU.
|
|
.
|
|
.It Sy zfs_trim_extent_bytes_max Ns = Ns Sy 134217728 Ns B Po 128 MiB Pc Pq uint
|
|
Maximum size of TRIM command.
|
|
Larger ranges will be split into chunks no larger than this value before
|
|
issuing.
|
|
.
|
|
.It Sy zfs_trim_extent_bytes_min Ns = Ns Sy 32768 Ns B Po 32 KiB Pc Pq uint
|
|
Minimum size of TRIM commands.
|
|
TRIM ranges smaller than this will be skipped,
|
|
unless they're part of a larger range which was chunked.
|
|
This is done because it's common for these small TRIMs
|
|
to negatively impact overall performance.
|
|
.
|
|
.It Sy zfs_trim_metaslab_skip Ns = Ns Sy 0 Ns | Ns 1 Pq uint
|
|
Skip uninitialized metaslabs during the TRIM process.
|
|
This option is useful for pools constructed from large thinly-provisioned
|
|
devices
|
|
where TRIM operations are slow.
|
|
As a pool ages, an increasing fraction of the pool's metaslabs
|
|
will be initialized, progressively degrading the usefulness of this option.
|
|
This setting is stored when starting a manual TRIM and will
|
|
persist for the duration of the requested TRIM.
|
|
.
|
|
.It Sy zfs_trim_queue_limit Ns = Ns Sy 10 Pq uint
|
|
Maximum number of queued TRIMs outstanding per leaf vdev.
|
|
The number of concurrent TRIM commands issued to the device is controlled by
|
|
.Sy zfs_vdev_trim_min_active No and Sy zfs_vdev_trim_max_active .
|
|
.
|
|
.It Sy zfs_trim_txg_batch Ns = Ns Sy 32 Pq uint
|
|
The number of transaction groups' worth of frees which should be aggregated
|
|
before TRIM operations are issued to the device.
|
|
This setting represents a trade-off between issuing larger,
|
|
more efficient TRIM operations and the delay
|
|
before the recently trimmed space is available for use by the device.
|
|
.Pp
|
|
Increasing this value will allow frees to be aggregated for a longer time.
|
|
This will result is larger TRIM operations and potentially increased memory
|
|
usage.
|
|
Decreasing this value will have the opposite effect.
|
|
The default of
|
|
.Sy 32
|
|
was determined to be a reasonable compromise.
|
|
.
|
|
.It Sy zfs_txg_history Ns = Ns Sy 0 Pq uint
|
|
Historical statistics for this many latest TXGs will be available in
|
|
.Pa /proc/spl/kstat/zfs/ Ns Ao Ar pool Ac Ns Pa /TXGs .
|
|
.
|
|
.It Sy zfs_txg_timeout Ns = Ns Sy 5 Ns s Pq uint
|
|
Flush dirty data to disk at least every this many seconds (maximum TXG
|
|
duration).
|
|
.
|
|
.It Sy zfs_vdev_aggregate_trim Ns = Ns Sy 0 Ns | Ns 1 Pq uint
|
|
Allow TRIM I/O operations to be aggregated.
|
|
This is normally not helpful because the extents to be trimmed
|
|
will have been already been aggregated by the metaslab.
|
|
This option is provided for debugging and performance analysis.
|
|
.
|
|
.It Sy zfs_vdev_aggregation_limit Ns = Ns Sy 1048576 Ns B Po 1 MiB Pc Pq uint
|
|
Max vdev I/O aggregation size.
|
|
.
|
|
.It Sy zfs_vdev_aggregation_limit_non_rotating Ns = Ns Sy 131072 Ns B Po 128 KiB Pc Pq uint
|
|
Max vdev I/O aggregation size for non-rotating media.
|
|
.
|
|
.It Sy zfs_vdev_cache_bshift Ns = Ns Sy 16 Po 64 KiB Pc Pq uint
|
|
Shift size to inflate reads to.
|
|
.
|
|
.It Sy zfs_vdev_cache_max Ns = Ns Sy 16384 Ns B Po 16 KiB Pc Pq uint
|
|
Inflate reads smaller than this value to meet the
|
|
.Sy zfs_vdev_cache_bshift
|
|
size
|
|
.Pq default Sy 64 KiB .
|
|
.
|
|
.It Sy zfs_vdev_cache_size Ns = Ns Sy 0 Pq uint
|
|
Total size of the per-disk cache in bytes.
|
|
.Pp
|
|
Currently this feature is disabled, as it has been found to not be helpful
|
|
for performance and in some cases harmful.
|
|
.
|
|
.It Sy zfs_vdev_mirror_rotating_inc Ns = Ns Sy 0 Pq int
|
|
A number by which the balancing algorithm increments the load calculation for
|
|
the purpose of selecting the least busy mirror member when an I/O operation
|
|
immediately follows its predecessor on rotational vdevs
|
|
for the purpose of making decisions based on load.
|
|
.
|
|
.It Sy zfs_vdev_mirror_rotating_seek_inc Ns = Ns Sy 5 Pq int
|
|
A number by which the balancing algorithm increments the load calculation for
|
|
the purpose of selecting the least busy mirror member when an I/O operation
|
|
lacks locality as defined by
|
|
.Sy zfs_vdev_mirror_rotating_seek_offset .
|
|
Operations within this that are not immediately following the previous operation
|
|
are incremented by half.
|
|
.
|
|
.It Sy zfs_vdev_mirror_rotating_seek_offset Ns = Ns Sy 1048576 Ns B Po 1 MiB Pc Pq int
|
|
The maximum distance for the last queued I/O operation in which
|
|
the balancing algorithm considers an operation to have locality.
|
|
.No See Sx ZFS I/O SCHEDULER .
|
|
.
|
|
.It Sy zfs_vdev_mirror_non_rotating_inc Ns = Ns Sy 0 Pq int
|
|
A number by which the balancing algorithm increments the load calculation for
|
|
the purpose of selecting the least busy mirror member on non-rotational vdevs
|
|
when I/O operations do not immediately follow one another.
|
|
.
|
|
.It Sy zfs_vdev_mirror_non_rotating_seek_inc Ns = Ns Sy 1 Pq int
|
|
A number by which the balancing algorithm increments the load calculation for
|
|
the purpose of selecting the least busy mirror member when an I/O operation
|
|
lacks
|
|
locality as defined by the
|
|
.Sy zfs_vdev_mirror_rotating_seek_offset .
|
|
Operations within this that are not immediately following the previous operation
|
|
are incremented by half.
|
|
.
|
|
.It Sy zfs_vdev_read_gap_limit Ns = Ns Sy 32768 Ns B Po 32 KiB Pc Pq uint
|
|
Aggregate read I/O operations if the on-disk gap between them is within this
|
|
threshold.
|
|
.
|
|
.It Sy zfs_vdev_write_gap_limit Ns = Ns Sy 4096 Ns B Po 4 KiB Pc Pq uint
|
|
Aggregate write I/O operations if the on-disk gap between them is within this
|
|
threshold.
|
|
.
|
|
.It Sy zfs_vdev_raidz_impl Ns = Ns Sy fastest Pq string
|
|
Select the raidz parity implementation to use.
|
|
.Pp
|
|
Variants that don't depend on CPU-specific features
|
|
may be selected on module load, as they are supported on all systems.
|
|
The remaining options may only be set after the module is loaded,
|
|
as they are available only if the implementations are compiled in
|
|
and supported on the running system.
|
|
.Pp
|
|
Once the module is loaded,
|
|
.Pa /sys/module/zfs/parameters/zfs_vdev_raidz_impl
|
|
will show the available options,
|
|
with the currently selected one enclosed in square brackets.
|
|
.Pp
|
|
.TS
|
|
lb l l .
|
|
fastest selected by built-in benchmark
|
|
original original implementation
|
|
scalar scalar implementation
|
|
sse2 SSE2 instruction set 64-bit x86
|
|
ssse3 SSSE3 instruction set 64-bit x86
|
|
avx2 AVX2 instruction set 64-bit x86
|
|
avx512f AVX512F instruction set 64-bit x86
|
|
avx512bw AVX512F & AVX512BW instruction sets 64-bit x86
|
|
aarch64_neon NEON Aarch64/64-bit ARMv8
|
|
aarch64_neonx2 NEON with more unrolling Aarch64/64-bit ARMv8
|
|
powerpc_altivec Altivec PowerPC
|
|
.TE
|
|
.
|
|
.It Sy zfs_vdev_scheduler Pq charp
|
|
.Sy DEPRECATED .
|
|
Prints warning to kernel log for compatibility.
|
|
.
|
|
.It Sy zfs_zevent_len_max Ns = Ns Sy 512 Pq uint
|
|
Max event queue length.
|
|
Events in the queue can be viewed with
|
|
.Xr zpool-events 8 .
|
|
.
|
|
.It Sy zfs_zevent_retain_max Ns = Ns Sy 2000 Pq int
|
|
Maximum recent zevent records to retain for duplicate checking.
|
|
Setting this to
|
|
.Sy 0
|
|
disables duplicate detection.
|
|
.
|
|
.It Sy zfs_zevent_retain_expire_secs Ns = Ns Sy 900 Ns s Po 15 min Pc Pq int
|
|
Lifespan for a recent ereport that was retained for duplicate checking.
|
|
.
|
|
.It Sy zfs_zil_clean_taskq_maxalloc Ns = Ns Sy 1048576 Pq int
|
|
The maximum number of taskq entries that are allowed to be cached.
|
|
When this limit is exceeded transaction records (itxs)
|
|
will be cleaned synchronously.
|
|
.
|
|
.It Sy zfs_zil_clean_taskq_minalloc Ns = Ns Sy 1024 Pq int
|
|
The number of taskq entries that are pre-populated when the taskq is first
|
|
created and are immediately available for use.
|
|
.
|
|
.It Sy zfs_zil_clean_taskq_nthr_pct Ns = Ns Sy 100 Ns % Pq int
|
|
This controls the number of threads used by
|
|
.Sy dp_zil_clean_taskq .
|
|
The default value of
|
|
.Sy 100%
|
|
will create a maximum of one thread per cpu.
|
|
.
|
|
.It Sy zil_maxblocksize Ns = Ns Sy 131072 Ns B Po 128 KiB Pc Pq uint
|
|
This sets the maximum block size used by the ZIL.
|
|
On very fragmented pools, lowering this
|
|
.Pq typically to Sy 36 KiB
|
|
can improve performance.
|
|
.
|
|
.It Sy zil_nocacheflush Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Disable the cache flush commands that are normally sent to disk by
|
|
the ZIL after an LWB write has completed.
|
|
Setting this will cause ZIL corruption on power loss
|
|
if a volatile out-of-order write cache is enabled.
|
|
.
|
|
.It Sy zil_replay_disable Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Disable intent logging replay.
|
|
Can be disabled for recovery from corrupted ZIL.
|
|
.
|
|
.It Sy zil_slog_bulk Ns = Ns Sy 786432 Ns B Po 768 KiB Pc Pq u64
|
|
Limit SLOG write size per commit executed with synchronous priority.
|
|
Any writes above that will be executed with lower (asynchronous) priority
|
|
to limit potential SLOG device abuse by single active ZIL writer.
|
|
.
|
|
.It Sy zfs_zil_saxattr Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Setting this tunable to zero disables ZIL logging of new
|
|
.Sy xattr Ns = Ns Sy sa
|
|
records if the
|
|
.Sy org.openzfs:zilsaxattr
|
|
feature is enabled on the pool.
|
|
This would only be necessary to work around bugs in the ZIL logging or replay
|
|
code for this record type.
|
|
The tunable has no effect if the feature is disabled.
|
|
.
|
|
.It Sy zfs_embedded_slog_min_ms Ns = Ns Sy 64 Pq uint
|
|
Usually, one metaslab from each normal-class vdev is dedicated for use by
|
|
the ZIL to log synchronous writes.
|
|
However, if there are fewer than
|
|
.Sy zfs_embedded_slog_min_ms
|
|
metaslabs in the vdev, this functionality is disabled.
|
|
This ensures that we don't set aside an unreasonable amount of space for the
|
|
ZIL.
|
|
.
|
|
.It Sy zstd_earlyabort_pass Ns = Ns Sy 1 Pq uint
|
|
Whether heuristic for detection of incompressible data with zstd levels >= 3
|
|
using LZ4 and zstd-1 passes is enabled.
|
|
.
|
|
.It Sy zstd_abort_size Ns = Ns Sy 131072 Pq uint
|
|
Minimal uncompressed size (inclusive) of a record before the early abort
|
|
heuristic will be attempted.
|
|
.
|
|
.It Sy zio_deadman_log_all Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
If non-zero, the zio deadman will produce debugging messages
|
|
.Pq see Sy zfs_dbgmsg_enable
|
|
for all zios, rather than only for leaf zios possessing a vdev.
|
|
This is meant to be used by developers to gain
|
|
diagnostic information for hang conditions which don't involve a mutex
|
|
or other locking primitive: typically conditions in which a thread in
|
|
the zio pipeline is looping indefinitely.
|
|
.
|
|
.It Sy zio_slow_io_ms Ns = Ns Sy 30000 Ns ms Po 30 s Pc Pq int
|
|
When an I/O operation takes more than this much time to complete,
|
|
it's marked as slow.
|
|
Each slow operation causes a delay zevent.
|
|
Slow I/O counters can be seen with
|
|
.Nm zpool Cm status Fl s .
|
|
.
|
|
.It Sy zio_dva_throttle_enabled Ns = Ns Sy 1 Ns | Ns 0 Pq int
|
|
Throttle block allocations in the I/O pipeline.
|
|
This allows for dynamic allocation distribution when devices are imbalanced.
|
|
When enabled, the maximum number of pending allocations per top-level vdev
|
|
is limited by
|
|
.Sy zfs_vdev_queue_depth_pct .
|
|
.
|
|
.It Sy zfs_xattr_compat Ns = Ns 0 Ns | Ns 1 Pq int
|
|
Control the naming scheme used when setting new xattrs in the user namespace.
|
|
If
|
|
.Sy 0
|
|
.Pq the default on Linux ,
|
|
user namespace xattr names are prefixed with the namespace, to be backwards
|
|
compatible with previous versions of ZFS on Linux.
|
|
If
|
|
.Sy 1
|
|
.Pq the default on Fx ,
|
|
user namespace xattr names are not prefixed, to be backwards compatible with
|
|
previous versions of ZFS on illumos and
|
|
.Fx .
|
|
.Pp
|
|
Either naming scheme can be read on this and future versions of ZFS, regardless
|
|
of this tunable, but legacy ZFS on illumos or
|
|
.Fx
|
|
are unable to read user namespace xattrs written in the Linux format, and
|
|
legacy versions of ZFS on Linux are unable to read user namespace xattrs written
|
|
in the legacy ZFS format.
|
|
.Pp
|
|
An existing xattr with the alternate naming scheme is removed when overwriting
|
|
the xattr so as to not accumulate duplicates.
|
|
.
|
|
.It Sy zio_requeue_io_start_cut_in_line Ns = Ns Sy 0 Ns | Ns 1 Pq int
|
|
Prioritize requeued I/O.
|
|
.
|
|
.It Sy zio_taskq_batch_pct Ns = Ns Sy 80 Ns % Pq uint
|
|
Percentage of online CPUs which will run a worker thread for I/O.
|
|
These workers are responsible for I/O work such as compression and
|
|
checksum calculations.
|
|
Fractional number of CPUs will be rounded down.
|
|
.Pp
|
|
The default value of
|
|
.Sy 80%
|
|
was chosen to avoid using all CPUs which can result in
|
|
latency issues and inconsistent application performance,
|
|
especially when slower compression and/or checksumming is enabled.
|
|
.
|
|
.It Sy zio_taskq_batch_tpq Ns = Ns Sy 0 Pq uint
|
|
Number of worker threads per taskq.
|
|
Lower values improve I/O ordering and CPU utilization,
|
|
while higher reduces lock contention.
|
|
.Pp
|
|
If
|
|
.Sy 0 ,
|
|
generate a system-dependent value close to 6 threads per taskq.
|
|
.
|
|
.It Sy zvol_inhibit_dev Ns = Ns Sy 0 Ns | Ns 1 Pq uint
|
|
Do not create zvol device nodes.
|
|
This may slightly improve startup time on
|
|
systems with a very large number of zvols.
|
|
.
|
|
.It Sy zvol_major Ns = Ns Sy 230 Pq uint
|
|
Major number for zvol block devices.
|
|
.
|
|
.It Sy zvol_max_discard_blocks Ns = Ns Sy 16384 Pq long
|
|
Discard (TRIM) operations done on zvols will be done in batches of this
|
|
many blocks, where block size is determined by the
|
|
.Sy volblocksize
|
|
property of a zvol.
|
|
.
|
|
.It Sy zvol_prefetch_bytes Ns = Ns Sy 131072 Ns B Po 128 KiB Pc Pq uint
|
|
When adding a zvol to the system, prefetch this many bytes
|
|
from the start and end of the volume.
|
|
Prefetching these regions of the volume is desirable,
|
|
because they are likely to be accessed immediately by
|
|
.Xr blkid 8
|
|
or the kernel partitioner.
|
|
.
|
|
.It Sy zvol_request_sync Ns = Ns Sy 0 Ns | Ns 1 Pq uint
|
|
When processing I/O requests for a zvol, submit them synchronously.
|
|
This effectively limits the queue depth to
|
|
.Em 1
|
|
for each I/O submitter.
|
|
When unset, requests are handled asynchronously by a thread pool.
|
|
The number of requests which can be handled concurrently is controlled by
|
|
.Sy zvol_threads .
|
|
.Sy zvol_request_sync
|
|
is ignored when running on a kernel that supports block multiqueue
|
|
.Pq Li blk-mq .
|
|
.
|
|
.It Sy zvol_threads Ns = Ns Sy 0 Pq uint
|
|
The number of system wide threads to use for processing zvol block IOs.
|
|
If
|
|
.Sy 0
|
|
(the default) then internally set
|
|
.Sy zvol_threads
|
|
to the number of CPUs present or 32 (whichever is greater).
|
|
.
|
|
.It Sy zvol_blk_mq_threads Ns = Ns Sy 0 Pq uint
|
|
The number of threads per zvol to use for queuing IO requests.
|
|
This parameter will only appear if your kernel supports
|
|
.Li blk-mq
|
|
and is only read and assigned to a zvol at zvol load time.
|
|
If
|
|
.Sy 0
|
|
(the default) then internally set
|
|
.Sy zvol_blk_mq_threads
|
|
to the number of CPUs present.
|
|
.
|
|
.It Sy zvol_use_blk_mq Ns = Ns Sy 0 Ns | Ns 1 Pq uint
|
|
Set to
|
|
.Sy 1
|
|
to use the
|
|
.Li blk-mq
|
|
API for zvols.
|
|
Set to
|
|
.Sy 0
|
|
(the default) to use the legacy zvol APIs.
|
|
This setting can give better or worse zvol performance depending on
|
|
the workload.
|
|
This parameter will only appear if your kernel supports
|
|
.Li blk-mq
|
|
and is only read and assigned to a zvol at zvol load time.
|
|
.
|
|
.It Sy zvol_blk_mq_blocks_per_thread Ns = Ns Sy 8 Pq uint
|
|
If
|
|
.Sy zvol_use_blk_mq
|
|
is enabled, then process this number of
|
|
.Sy volblocksize Ns -sized blocks per zvol thread.
|
|
This tunable can be use to favor better performance for zvol reads (lower
|
|
values) or writes (higher values).
|
|
If set to
|
|
.Sy 0 ,
|
|
then the zvol layer will process the maximum number of blocks
|
|
per thread that it can.
|
|
This parameter will only appear if your kernel supports
|
|
.Li blk-mq
|
|
and is only applied at each zvol's load time.
|
|
.
|
|
.It Sy zvol_blk_mq_queue_depth Ns = Ns Sy 0 Pq uint
|
|
The queue_depth value for the zvol
|
|
.Li blk-mq
|
|
interface.
|
|
This parameter will only appear if your kernel supports
|
|
.Li blk-mq
|
|
and is only applied at each zvol's load time.
|
|
If
|
|
.Sy 0
|
|
(the default) then use the kernel's default queue depth.
|
|
Values are clamped to the kernel's
|
|
.Dv BLKDEV_MIN_RQ
|
|
and
|
|
.Dv BLKDEV_MAX_RQ Ns / Ns Dv BLKDEV_DEFAULT_RQ
|
|
limits.
|
|
.
|
|
.It Sy zvol_volmode Ns = Ns Sy 1 Pq uint
|
|
Defines zvol block devices behaviour when
|
|
.Sy volmode Ns = Ns Sy default :
|
|
.Bl -tag -compact -offset 4n -width "a"
|
|
.It Sy 1
|
|
.No equivalent to Sy full
|
|
.It Sy 2
|
|
.No equivalent to Sy dev
|
|
.It Sy 3
|
|
.No equivalent to Sy none
|
|
.El
|
|
.
|
|
.It Sy zvol_enforce_quotas Ns = Ns Sy 0 Ns | Ns 1 Pq uint
|
|
Enable strict ZVOL quota enforcement.
|
|
The strict quota enforcement may have a performance impact.
|
|
.El
|
|
.
|
|
.Sh ZFS I/O SCHEDULER
|
|
ZFS issues I/O operations to leaf vdevs to satisfy and complete I/O operations.
|
|
The scheduler determines when and in what order those operations are issued.
|
|
The scheduler divides operations into five I/O classes,
|
|
prioritized in the following order: sync read, sync write, async read,
|
|
async write, and scrub/resilver.
|
|
Each queue defines the minimum and maximum number of concurrent operations
|
|
that may be issued to the device.
|
|
In addition, the device has an aggregate maximum,
|
|
.Sy zfs_vdev_max_active .
|
|
Note that the sum of the per-queue minima must not exceed the aggregate maximum.
|
|
If the sum of the per-queue maxima exceeds the aggregate maximum,
|
|
then the number of active operations may reach
|
|
.Sy zfs_vdev_max_active ,
|
|
in which case no further operations will be issued,
|
|
regardless of whether all per-queue minima have been met.
|
|
.Pp
|
|
For many physical devices, throughput increases with the number of
|
|
concurrent operations, but latency typically suffers.
|
|
Furthermore, physical devices typically have a limit
|
|
at which more concurrent operations have no
|
|
effect on throughput or can actually cause it to decrease.
|
|
.Pp
|
|
The scheduler selects the next operation to issue by first looking for an
|
|
I/O class whose minimum has not been satisfied.
|
|
Once all are satisfied and the aggregate maximum has not been hit,
|
|
the scheduler looks for classes whose maximum has not been satisfied.
|
|
Iteration through the I/O classes is done in the order specified above.
|
|
No further operations are issued
|
|
if the aggregate maximum number of concurrent operations has been hit,
|
|
or if there are no operations queued for an I/O class that has not hit its
|
|
maximum.
|
|
Every time an I/O operation is queued or an operation completes,
|
|
the scheduler looks for new operations to issue.
|
|
.Pp
|
|
In general, smaller
|
|
.Sy max_active Ns s
|
|
will lead to lower latency of synchronous operations.
|
|
Larger
|
|
.Sy max_active Ns s
|
|
may lead to higher overall throughput, depending on underlying storage.
|
|
.Pp
|
|
The ratio of the queues'
|
|
.Sy max_active Ns s
|
|
determines the balance of performance between reads, writes, and scrubs.
|
|
For example, increasing
|
|
.Sy zfs_vdev_scrub_max_active
|
|
will cause the scrub or resilver to complete more quickly,
|
|
but reads and writes to have higher latency and lower throughput.
|
|
.Pp
|
|
All I/O classes have a fixed maximum number of outstanding operations,
|
|
except for the async write class.
|
|
Asynchronous writes represent the data that is committed to stable storage
|
|
during the syncing stage for transaction groups.
|
|
Transaction groups enter the syncing state periodically,
|
|
so the number of queued async writes will quickly burst up
|
|
and then bleed down to zero.
|
|
Rather than servicing them as quickly as possible,
|
|
the I/O scheduler changes the maximum number of active async write operations
|
|
according to the amount of dirty data in the pool.
|
|
Since both throughput and latency typically increase with the number of
|
|
concurrent operations issued to physical devices, reducing the
|
|
burstiness in the number of simultaneous operations also stabilizes the
|
|
response time of operations from other queues, in particular synchronous ones.
|
|
In broad strokes, the I/O scheduler will issue more concurrent operations
|
|
from the async write queue as there is more dirty data in the pool.
|
|
.
|
|
.Ss Async Writes
|
|
The number of concurrent operations issued for the async write I/O class
|
|
follows a piece-wise linear function defined by a few adjustable points:
|
|
.Bd -literal
|
|
| o---------| <-- \fBzfs_vdev_async_write_max_active\fP
|
|
^ | /^ |
|
|
| | / | |
|
|
active | / | |
|
|
I/O | / | |
|
|
count | / | |
|
|
| / | |
|
|
|-------o | | <-- \fBzfs_vdev_async_write_min_active\fP
|
|
0|_______^______|_________|
|
|
0% | | 100% of \fBzfs_dirty_data_max\fP
|
|
| |
|
|
| `-- \fBzfs_vdev_async_write_active_max_dirty_percent\fP
|
|
`--------- \fBzfs_vdev_async_write_active_min_dirty_percent\fP
|
|
.Ed
|
|
.Pp
|
|
Until the amount of dirty data exceeds a minimum percentage of the dirty
|
|
data allowed in the pool, the I/O scheduler will limit the number of
|
|
concurrent operations to the minimum.
|
|
As that threshold is crossed, the number of concurrent operations issued
|
|
increases linearly to the maximum at the specified maximum percentage
|
|
of the dirty data allowed in the pool.
|
|
.Pp
|
|
Ideally, the amount of dirty data on a busy pool will stay in the sloped
|
|
part of the function between
|
|
.Sy zfs_vdev_async_write_active_min_dirty_percent
|
|
and
|
|
.Sy zfs_vdev_async_write_active_max_dirty_percent .
|
|
If it exceeds the maximum percentage,
|
|
this indicates that the rate of incoming data is
|
|
greater than the rate that the backend storage can handle.
|
|
In this case, we must further throttle incoming writes,
|
|
as described in the next section.
|
|
.
|
|
.Sh ZFS TRANSACTION DELAY
|
|
We delay transactions when we've determined that the backend storage
|
|
isn't able to accommodate the rate of incoming writes.
|
|
.Pp
|
|
If there is already a transaction waiting, we delay relative to when
|
|
that transaction will finish waiting.
|
|
This way the calculated delay time
|
|
is independent of the number of threads concurrently executing transactions.
|
|
.Pp
|
|
If we are the only waiter, wait relative to when the transaction started,
|
|
rather than the current time.
|
|
This credits the transaction for "time already served",
|
|
e.g. reading indirect blocks.
|
|
.Pp
|
|
The minimum time for a transaction to take is calculated as
|
|
.D1 min_time = min( Ns Sy zfs_delay_scale No \(mu Po Sy dirty No \- Sy min Pc / Po Sy max No \- Sy dirty Pc , 100ms)
|
|
.Pp
|
|
The delay has two degrees of freedom that can be adjusted via tunables.
|
|
The percentage of dirty data at which we start to delay is defined by
|
|
.Sy zfs_delay_min_dirty_percent .
|
|
This should typically be at or above
|
|
.Sy zfs_vdev_async_write_active_max_dirty_percent ,
|
|
so that we only start to delay after writing at full speed
|
|
has failed to keep up with the incoming write rate.
|
|
The scale of the curve is defined by
|
|
.Sy zfs_delay_scale .
|
|
Roughly speaking, this variable determines the amount of delay at the midpoint
|
|
of the curve.
|
|
.Bd -literal
|
|
delay
|
|
10ms +-------------------------------------------------------------*+
|
|
| *|
|
|
9ms + *+
|
|
| *|
|
|
8ms + *+
|
|
| * |
|
|
7ms + * +
|
|
| * |
|
|
6ms + * +
|
|
| * |
|
|
5ms + * +
|
|
| * |
|
|
4ms + * +
|
|
| * |
|
|
3ms + * +
|
|
| * |
|
|
2ms + (midpoint) * +
|
|
| | ** |
|
|
1ms + v *** +
|
|
| \fBzfs_delay_scale\fP ----------> ******** |
|
|
0 +-------------------------------------*********----------------+
|
|
0% <- \fBzfs_dirty_data_max\fP -> 100%
|
|
.Ed
|
|
.Pp
|
|
Note, that since the delay is added to the outstanding time remaining on the
|
|
most recent transaction it's effectively the inverse of IOPS.
|
|
Here, the midpoint of
|
|
.Em 500 us
|
|
translates to
|
|
.Em 2000 IOPS .
|
|
The shape of the curve
|
|
was chosen such that small changes in the amount of accumulated dirty data
|
|
in the first three quarters of the curve yield relatively small differences
|
|
in the amount of delay.
|
|
.Pp
|
|
The effects can be easier to understand when the amount of delay is
|
|
represented on a logarithmic scale:
|
|
.Bd -literal
|
|
delay
|
|
100ms +-------------------------------------------------------------++
|
|
+ +
|
|
| |
|
|
+ *+
|
|
10ms + *+
|
|
+ ** +
|
|
| (midpoint) ** |
|
|
+ | ** +
|
|
1ms + v **** +
|
|
+ \fBzfs_delay_scale\fP ----------> ***** +
|
|
| **** |
|
|
+ **** +
|
|
100us + ** +
|
|
+ * +
|
|
| * |
|
|
+ * +
|
|
10us + * +
|
|
+ +
|
|
| |
|
|
+ +
|
|
+--------------------------------------------------------------+
|
|
0% <- \fBzfs_dirty_data_max\fP -> 100%
|
|
.Ed
|
|
.Pp
|
|
Note here that only as the amount of dirty data approaches its limit does
|
|
the delay start to increase rapidly.
|
|
The goal of a properly tuned system should be to keep the amount of dirty data
|
|
out of that range by first ensuring that the appropriate limits are set
|
|
for the I/O scheduler to reach optimal throughput on the back-end storage,
|
|
and then by changing the value of
|
|
.Sy zfs_delay_scale
|
|
to increase the steepness of the curve.
|