357 lines
11 KiB
Groff
357 lines
11 KiB
Groff
'\" te
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.\"
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.\" Copyright 2013 Turbo Fredriksson <turbo@bayour.com>. All rights reserved.
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.\"
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.TH SPL-MODULE-PARAMETERS 5 "Oct 28, 2017"
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.SH NAME
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spl\-module\-parameters \- SPL module parameters
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.SH DESCRIPTION
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.sp
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.LP
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Description of the different parameters to the SPL module.
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.SS "Module parameters"
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.sp
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.LP
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.sp
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.ne 2
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.na
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\fBspl_kmem_cache_expire\fR (uint)
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.ad
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.RS 12n
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Cache expiration is part of default Illumos cache behavior. The idea is
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that objects in magazines which have not been recently accessed should be
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returned to the slabs periodically. This is known as cache aging and
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when enabled objects will be typically returned after 15 seconds.
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.sp
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On the other hand Linux slabs are designed to never move objects back to
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the slabs unless there is memory pressure. This is possible because under
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Linux the cache will be notified when memory is low and objects can be
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released.
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.sp
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By default only the Linux method is enabled. It has been shown to improve
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responsiveness on low memory systems and not negatively impact the performance
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of systems with more memory. This policy may be changed by setting the
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\fBspl_kmem_cache_expire\fR bit mask as follows, both policies may be enabled
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concurrently.
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.sp
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0x01 - Aging (Illumos), 0x02 - Low memory (Linux)
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.sp
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Default value: \fB0x02\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_kmem_cache_kmem_threads\fR (uint)
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.ad
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.RS 12n
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The number of threads created for the spl_kmem_cache task queue. This task
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queue is responsible for allocating new slabs for use by the kmem caches.
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For the majority of systems and workloads only a small number of threads are
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required.
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.sp
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Default value: \fB4\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_kmem_cache_reclaim\fR (uint)
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.ad
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.RS 12n
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When this is set it prevents Linux from being able to rapidly reclaim all the
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memory held by the kmem caches. This may be useful in circumstances where
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it's preferable that Linux reclaim memory from some other subsystem first.
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Setting this will increase the likelihood out of memory events on a memory
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constrained system.
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.sp
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Default value: \fB0\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_kmem_cache_obj_per_slab\fR (uint)
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.ad
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.RS 12n
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The preferred number of objects per slab in the cache. In general, a larger
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value will increase the caches memory footprint while decreasing the time
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required to perform an allocation. Conversely, a smaller value will minimize
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the footprint and improve cache reclaim time but individual allocations may
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take longer.
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.sp
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Default value: \fB8\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_kmem_cache_obj_per_slab_min\fR (uint)
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.ad
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.RS 12n
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The minimum number of objects allowed per slab. Normally slabs will contain
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\fBspl_kmem_cache_obj_per_slab\fR objects but for caches that contain very
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large objects it's desirable to only have a few, or even just one, object per
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slab.
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.sp
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Default value: \fB1\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_kmem_cache_max_size\fR (uint)
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.ad
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.RS 12n
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The maximum size of a kmem cache slab in MiB. This effectively limits
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the maximum cache object size to \fBspl_kmem_cache_max_size\fR /
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\fBspl_kmem_cache_obj_per_slab\fR. Caches may not be created with
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object sized larger than this limit.
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.sp
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Default value: \fB32 (64-bit) or 4 (32-bit)\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_kmem_cache_slab_limit\fR (uint)
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.ad
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.RS 12n
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For small objects the Linux slab allocator should be used to make the most
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efficient use of the memory. However, large objects are not supported by
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the Linux slab and therefore the SPL implementation is preferred. This
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value is used to determine the cutoff between a small and large object.
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.sp
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Objects of \fBspl_kmem_cache_slab_limit\fR or smaller will be allocated
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using the Linux slab allocator, large objects use the SPL allocator. A
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cutoff of 16K was determined to be optimal for architectures using 4K pages.
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.sp
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Default value: \fB16,384\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_kmem_cache_kmem_limit\fR (uint)
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.ad
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.RS 12n
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Depending on the size of a cache object it may be backed by kmalloc()'d
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or vmalloc()'d memory. This is because the size of the required allocation
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greatly impacts the best way to allocate the memory.
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.sp
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When objects are small and only a small number of memory pages need to be
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allocated, ideally just one, then kmalloc() is very efficient. However,
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when allocating multiple pages with kmalloc() it gets increasingly expensive
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because the pages must be physically contiguous.
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.sp
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For this reason we shift to vmalloc() for slabs of large objects which
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which removes the need for contiguous pages. We cannot use vmalloc() in
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all cases because there is significant locking overhead involved. This
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function takes a single global lock over the entire virtual address range
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which serializes all allocations. Using slightly different allocation
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functions for small and large objects allows us to handle a wide range of
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object sizes.
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.sp
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The \fBspl_kmem_cache_kmem_limit\fR value is used to determine this cutoff
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size. One quarter the PAGE_SIZE is used as the default value because
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\fBspl_kmem_cache_obj_per_slab\fR defaults to 16. This means that at
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most we will need to allocate four contiguous pages.
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.sp
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Default value: \fBPAGE_SIZE/4\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_kmem_alloc_warn\fR (uint)
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.ad
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.RS 12n
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As a general rule kmem_alloc() allocations should be small, preferably
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just a few pages since they must by physically contiguous. Therefore, a
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rate limited warning will be printed to the console for any kmem_alloc()
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which exceeds a reasonable threshold.
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.sp
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The default warning threshold is set to eight pages but capped at 32K to
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accommodate systems using large pages. This value was selected to be small
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enough to ensure the largest allocations are quickly noticed and fixed.
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But large enough to avoid logging any warnings when a allocation size is
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larger than optimal but not a serious concern. Since this value is tunable,
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developers are encouraged to set it lower when testing so any new largish
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allocations are quickly caught. These warnings may be disabled by setting
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the threshold to zero.
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.sp
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Default value: \fB32,768\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_kmem_alloc_max\fR (uint)
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.ad
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.RS 12n
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Large kmem_alloc() allocations will fail if they exceed KMALLOC_MAX_SIZE.
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Allocations which are marginally smaller than this limit may succeed but
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should still be avoided due to the expense of locating a contiguous range
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of free pages. Therefore, a maximum kmem size with reasonable safely
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margin of 4x is set. Kmem_alloc() allocations larger than this maximum
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will quickly fail. Vmem_alloc() allocations less than or equal to this
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value will use kmalloc(), but shift to vmalloc() when exceeding this value.
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.sp
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Default value: \fBKMALLOC_MAX_SIZE/4\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_kmem_cache_magazine_size\fR (uint)
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.ad
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.RS 12n
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Cache magazines are an optimization designed to minimize the cost of
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allocating memory. They do this by keeping a per-cpu cache of recently
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freed objects, which can then be reallocated without taking a lock. This
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can improve performance on highly contended caches. However, because
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objects in magazines will prevent otherwise empty slabs from being
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immediately released this may not be ideal for low memory machines.
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.sp
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For this reason \fBspl_kmem_cache_magazine_size\fR can be used to set a
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maximum magazine size. When this value is set to 0 the magazine size will
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be automatically determined based on the object size. Otherwise magazines
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will be limited to 2-256 objects per magazine (i.e per cpu). Magazines
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may never be entirely disabled in this implementation.
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.sp
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Default value: \fB0\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_hostid\fR (ulong)
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.ad
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.RS 12n
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The system hostid, when set this can be used to uniquely identify a system.
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By default this value is set to zero which indicates the hostid is disabled.
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It can be explicitly enabled by placing a unique non-zero value in
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\fB/etc/hostid/\fR.
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.sp
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Default value: \fB0\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_hostid_path\fR (charp)
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.ad
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.RS 12n
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The expected path to locate the system hostid when specified. This value
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may be overridden for non-standard configurations.
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.sp
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Default value: \fB/etc/hostid\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_panic_halt\fR (uint)
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.ad
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.RS 12n
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Cause a kernel panic on assertion failures. When not enabled, the thread is
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halted to facilitate further debugging.
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.sp
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Set to a non-zero value to enable.
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.sp
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Default value: \fB0\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_taskq_kick\fR (uint)
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.ad
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.RS 12n
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Kick stuck taskq to spawn threads. When writing a non-zero value to it, it will
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scan all the taskqs. If any of them have a pending task more than 5 seconds old,
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it will kick it to spawn more threads. This can be used if you find a rare
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deadlock occurs because one or more taskqs didn't spawn a thread when it should.
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.sp
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Default value: \fB0\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_taskq_thread_bind\fR (int)
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.ad
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.RS 12n
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Bind taskq threads to specific CPUs. When enabled all taskq threads will
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be distributed evenly over the available CPUs. By default, this behavior
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is disabled to allow the Linux scheduler the maximum flexibility to determine
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where a thread should run.
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.sp
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Default value: \fB0\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_taskq_thread_dynamic\fR (int)
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.ad
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.RS 12n
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Allow dynamic taskqs. When enabled taskqs which set the TASKQ_DYNAMIC flag
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will by default create only a single thread. New threads will be created on
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demand up to a maximum allowed number to facilitate the completion of
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outstanding tasks. Threads which are no longer needed will be promptly
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destroyed. By default this behavior is enabled but it can be disabled to
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aid performance analysis or troubleshooting.
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.sp
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Default value: \fB1\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_taskq_thread_priority\fR (int)
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.ad
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.RS 12n
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Allow newly created taskq threads to set a non-default scheduler priority.
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When enabled the priority specified when a taskq is created will be applied
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to all threads created by that taskq. When disabled all threads will use
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the default Linux kernel thread priority. By default, this behavior is
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enabled.
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.sp
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Default value: \fB1\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_taskq_thread_sequential\fR (int)
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.ad
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.RS 12n
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The number of items a taskq worker thread must handle without interruption
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before requesting a new worker thread be spawned. This is used to control
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how quickly taskqs ramp up the number of threads processing the queue.
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Because Linux thread creation and destruction are relatively inexpensive a
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small default value has been selected. This means that normally threads will
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be created aggressively which is desirable. Increasing this value will
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result in a slower thread creation rate which may be preferable for some
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configurations.
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.sp
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Default value: \fB4\fR
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.RE
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.sp
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.ne 2
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.na
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\fBspl_max_show_tasks\fR (uint)
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.ad
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.RS 12n
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The maximum number of tasks per pending list in each taskq shown in
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/proc/spl/{taskq,taskq-all}. Write 0 to turn off the limit. The proc file will
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walk the lists with lock held, reading it could cause a lock up if the list
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grow too large without limiting the output. "(truncated)" will be shown if the
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list is larger than the limit.
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.sp
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Default value: \fB512\fR
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.RE
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