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If applicable, add the following below this 113ff01b23SMartin Matuska.\" CDDL HEADER, with the fields enclosed by brackets "[]" replaced with your 123ff01b23SMartin Matuska.\" own identifying information: 133ff01b23SMartin Matuska.\" Portions Copyright [yyyy] [name of copyright owner] 143ff01b23SMartin Matuska.\" 153ff01b23SMartin Matuska.\" Copyright 2013 Turbo Fredriksson <turbo@bayour.com>. All rights reserved. 163ff01b23SMartin Matuska.\" 173ff01b23SMartin Matuska.Dd August 24, 2020 183ff01b23SMartin Matuska.Dt SPL 4 193ff01b23SMartin Matuska.Os 203ff01b23SMartin Matuska. 213ff01b23SMartin Matuska.Sh NAME 223ff01b23SMartin Matuska.Nm spl 233ff01b23SMartin Matuska.Nd parameters of the SPL kernel module 243ff01b23SMartin Matuska. 253ff01b23SMartin Matuska.Sh DESCRIPTION 263ff01b23SMartin Matuska.Bl -tag -width Ds 273ff01b23SMartin Matuska.It Sy spl_kmem_cache_kmem_threads Ns = Ns Sy 4 Pq uint 283ff01b23SMartin MatuskaThe number of threads created for the spl_kmem_cache task queue. 293ff01b23SMartin MatuskaThis task queue is responsible for allocating new slabs 303ff01b23SMartin Matuskafor use by the kmem caches. 313ff01b23SMartin MatuskaFor the majority of systems and workloads only a small number of threads are 323ff01b23SMartin Matuskarequired. 333ff01b23SMartin Matuska. 343ff01b23SMartin Matuska.It Sy spl_kmem_cache_obj_per_slab Ns = Ns Sy 8 Pq uint 353ff01b23SMartin MatuskaThe preferred number of objects per slab in the cache. 363ff01b23SMartin MatuskaIn general, a larger value will increase the caches memory footprint 373ff01b23SMartin Matuskawhile decreasing the time required to perform an allocation. 383ff01b23SMartin MatuskaConversely, a smaller value will minimize the footprint 393ff01b23SMartin Matuskaand improve cache reclaim time but individual allocations may take longer. 403ff01b23SMartin Matuska. 413ff01b23SMartin Matuska.It Sy spl_kmem_cache_max_size Ns = Ns Sy 32 Po 64-bit Pc or Sy 4 Po 32-bit Pc Pq uint 423ff01b23SMartin MatuskaThe maximum size of a kmem cache slab in MiB. 433ff01b23SMartin MatuskaThis effectively limits the maximum cache object size to 443ff01b23SMartin Matuska.Sy spl_kmem_cache_max_size Ns / Ns Sy spl_kmem_cache_obj_per_slab . 453ff01b23SMartin Matuska.Pp 463ff01b23SMartin MatuskaCaches may not be created with 473ff01b23SMartin Matuskaobject sized larger than this limit. 483ff01b23SMartin Matuska. 493ff01b23SMartin Matuska.It Sy spl_kmem_cache_slab_limit Ns = Ns Sy 16384 Pq uint 503ff01b23SMartin MatuskaFor small objects the Linux slab allocator should be used to make the most 513ff01b23SMartin Matuskaefficient use of the memory. 523ff01b23SMartin MatuskaHowever, large objects are not supported by 533ff01b23SMartin Matuskathe Linux slab and therefore the SPL implementation is preferred. 543ff01b23SMartin MatuskaThis value is used to determine the cutoff between a small and large object. 553ff01b23SMartin Matuska.Pp 563ff01b23SMartin MatuskaObjects of size 573ff01b23SMartin Matuska.Sy spl_kmem_cache_slab_limit 583ff01b23SMartin Matuskaor smaller will be allocated using the Linux slab allocator, 593ff01b23SMartin Matuskalarge objects use the SPL allocator. 603ff01b23SMartin MatuskaA cutoff of 16K was determined to be optimal for architectures using 4K pages. 613ff01b23SMartin Matuska. 623ff01b23SMartin Matuska.It Sy spl_kmem_alloc_warn Ns = Ns Sy 32768 Pq uint 633ff01b23SMartin MatuskaAs a general rule 643ff01b23SMartin Matuska.Fn kmem_alloc 653ff01b23SMartin Matuskaallocations should be small, 663ff01b23SMartin Matuskapreferably just a few pages, since they must by physically contiguous. 673ff01b23SMartin MatuskaTherefore, a rate limited warning will be printed to the console for any 683ff01b23SMartin Matuska.Fn kmem_alloc 693ff01b23SMartin Matuskawhich exceeds a reasonable threshold. 703ff01b23SMartin Matuska.Pp 713ff01b23SMartin MatuskaThe default warning threshold is set to eight pages but capped at 32K to 723ff01b23SMartin Matuskaaccommodate systems using large pages. 733ff01b23SMartin MatuskaThis value was selected to be small enough to ensure 743ff01b23SMartin Matuskathe largest allocations are quickly noticed and fixed. 753ff01b23SMartin MatuskaBut large enough to avoid logging any warnings when a allocation size is 763ff01b23SMartin Matuskalarger than optimal but not a serious concern. 773ff01b23SMartin MatuskaSince this value is tunable, developers are encouraged to set it lower 783ff01b23SMartin Matuskawhen testing so any new largish allocations are quickly caught. 793ff01b23SMartin MatuskaThese warnings may be disabled by setting the threshold to zero. 803ff01b23SMartin Matuska. 813ff01b23SMartin Matuska.It Sy spl_kmem_alloc_max Ns = Ns Sy KMALLOC_MAX_SIZE Ns / Ns Sy 4 Pq uint 823ff01b23SMartin MatuskaLarge 833ff01b23SMartin Matuska.Fn kmem_alloc 843ff01b23SMartin Matuskaallocations will fail if they exceed 853ff01b23SMartin Matuska.Sy KMALLOC_MAX_SIZE . 863ff01b23SMartin MatuskaAllocations which are marginally smaller than this limit may succeed but 873ff01b23SMartin Matuskashould still be avoided due to the expense of locating a contiguous range 883ff01b23SMartin Matuskaof free pages. 893ff01b23SMartin MatuskaTherefore, a maximum kmem size with reasonable safely margin of 4x is set. 903ff01b23SMartin Matuska.Fn kmem_alloc 913ff01b23SMartin Matuskaallocations larger than this maximum will quickly fail. 923ff01b23SMartin Matuska.Fn vmem_alloc 933ff01b23SMartin Matuskaallocations less than or equal to this value will use 943ff01b23SMartin Matuska.Fn kmalloc , 953ff01b23SMartin Matuskabut shift to 963ff01b23SMartin Matuska.Fn vmalloc 973ff01b23SMartin Matuskawhen exceeding this value. 983ff01b23SMartin Matuska. 993ff01b23SMartin Matuska.It Sy spl_kmem_cache_magazine_size Ns = Ns Sy 0 Pq uint 1003ff01b23SMartin MatuskaCache magazines are an optimization designed to minimize the cost of 1013ff01b23SMartin Matuskaallocating memory. 1023ff01b23SMartin MatuskaThey do this by keeping a per-cpu cache of recently 1033ff01b23SMartin Matuskafreed objects, which can then be reallocated without taking a lock. 1043ff01b23SMartin MatuskaThis can improve performance on highly contended caches. 1053ff01b23SMartin MatuskaHowever, because objects in magazines will prevent otherwise empty slabs 1063ff01b23SMartin Matuskafrom being immediately released this may not be ideal for low memory machines. 1073ff01b23SMartin Matuska.Pp 1083ff01b23SMartin MatuskaFor this reason, 1093ff01b23SMartin Matuska.Sy spl_kmem_cache_magazine_size 1103ff01b23SMartin Matuskacan be used to set a maximum magazine size. 1113ff01b23SMartin MatuskaWhen this value is set to 0 the magazine size will 1123ff01b23SMartin Matuskabe automatically determined based on the object size. 1133ff01b23SMartin MatuskaOtherwise magazines will be limited to 2-256 objects per magazine (i.e per cpu). 1143ff01b23SMartin MatuskaMagazines may never be entirely disabled in this implementation. 1153ff01b23SMartin Matuska. 1163ff01b23SMartin Matuska.It Sy spl_hostid Ns = Ns Sy 0 Pq ulong 1173ff01b23SMartin MatuskaThe system hostid, when set this can be used to uniquely identify a system. 1183ff01b23SMartin MatuskaBy default this value is set to zero which indicates the hostid is disabled. 1193ff01b23SMartin MatuskaIt can be explicitly enabled by placing a unique non-zero value in 1203ff01b23SMartin Matuska.Pa /etc/hostid . 1213ff01b23SMartin Matuska. 1223ff01b23SMartin Matuska.It Sy spl_hostid_path Ns = Ns Pa /etc/hostid Pq charp 1233ff01b23SMartin MatuskaThe expected path to locate the system hostid when specified. 1243ff01b23SMartin MatuskaThis value may be overridden for non-standard configurations. 1253ff01b23SMartin Matuska. 1263ff01b23SMartin Matuska.It Sy spl_panic_halt Ns = Ns Sy 0 Pq uint 1273ff01b23SMartin MatuskaCause a kernel panic on assertion failures. 1283ff01b23SMartin MatuskaWhen not enabled, the thread is halted to facilitate further debugging. 1293ff01b23SMartin Matuska.Pp 1303ff01b23SMartin MatuskaSet to a non-zero value to enable. 1313ff01b23SMartin Matuska. 1323ff01b23SMartin Matuska.It Sy spl_taskq_kick Ns = Ns Sy 0 Pq uint 1333ff01b23SMartin MatuskaKick stuck taskq to spawn threads. 1343ff01b23SMartin MatuskaWhen writing a non-zero value to it, it will scan all the taskqs. 1353ff01b23SMartin MatuskaIf any of them have a pending task more than 5 seconds old, 1363ff01b23SMartin Matuskait will kick it to spawn more threads. 1373ff01b23SMartin MatuskaThis can be used if you find a rare 1383ff01b23SMartin Matuskadeadlock occurs because one or more taskqs didn't spawn a thread when it should. 1393ff01b23SMartin Matuska. 1403ff01b23SMartin Matuska.It Sy spl_taskq_thread_bind Ns = Ns Sy 0 Pq int 1413ff01b23SMartin MatuskaBind taskq threads to specific CPUs. 1423ff01b23SMartin MatuskaWhen enabled all taskq threads will be distributed evenly 1433ff01b23SMartin Matuskaacross the available CPUs. 1443ff01b23SMartin MatuskaBy default, this behavior is disabled to allow the Linux scheduler 1453ff01b23SMartin Matuskathe maximum flexibility to determine where a thread should run. 1463ff01b23SMartin Matuska. 1473ff01b23SMartin Matuska.It Sy spl_taskq_thread_dynamic Ns = Ns Sy 1 Pq int 1483ff01b23SMartin MatuskaAllow dynamic taskqs. 1493ff01b23SMartin MatuskaWhen enabled taskqs which set the 1503ff01b23SMartin Matuska.Sy TASKQ_DYNAMIC 1513ff01b23SMartin Matuskaflag will by default create only a single thread. 1523ff01b23SMartin MatuskaNew threads will be created on demand up to a maximum allowed number 1533ff01b23SMartin Matuskato facilitate the completion of outstanding tasks. 1543ff01b23SMartin MatuskaThreads which are no longer needed will be promptly destroyed. 1553ff01b23SMartin MatuskaBy default this behavior is enabled but it can be disabled to 1563ff01b23SMartin Matuskaaid performance analysis or troubleshooting. 1573ff01b23SMartin Matuska. 1583ff01b23SMartin Matuska.It Sy spl_taskq_thread_priority Ns = Ns Sy 1 Pq int 1593ff01b23SMartin MatuskaAllow newly created taskq threads to set a non-default scheduler priority. 1603ff01b23SMartin MatuskaWhen enabled, the priority specified when a taskq is created will be applied 1613ff01b23SMartin Matuskato all threads created by that taskq. 1623ff01b23SMartin MatuskaWhen disabled all threads will use the default Linux kernel thread priority. 1633ff01b23SMartin MatuskaBy default, this behavior is enabled. 1643ff01b23SMartin Matuska. 1653ff01b23SMartin Matuska.It Sy spl_taskq_thread_sequential Ns = Ns Sy 4 Pq int 1663ff01b23SMartin MatuskaThe number of items a taskq worker thread must handle without interruption 1673ff01b23SMartin Matuskabefore requesting a new worker thread be spawned. 1683ff01b23SMartin MatuskaThis is used to control 1693ff01b23SMartin Matuskahow quickly taskqs ramp up the number of threads processing the queue. 1703ff01b23SMartin MatuskaBecause Linux thread creation and destruction are relatively inexpensive a 1713ff01b23SMartin Matuskasmall default value has been selected. 172bb2d13b6SMartin MatuskaThis means that normally threads will be created aggressively which is 173bb2d13b6SMartin Matuskadesirable. 1743ff01b23SMartin MatuskaIncreasing this value will 1753ff01b23SMartin Matuskaresult in a slower thread creation rate which may be preferable for some 1763ff01b23SMartin Matuskaconfigurations. 1773ff01b23SMartin Matuska. 178*e2257b31SMartin Matuska.It Sy spl_taskq_thread_timeout_ms Ns = Ns Sy 5000 Pq uint 179*e2257b31SMartin MatuskaMinimum idle threads exit interval for dynamic taskqs. 180*e2257b31SMartin MatuskaSmaller values allow idle threads exit more often and potentially be 181*e2257b31SMartin Matuskarespawned again on demand, causing more churn. 1823ff01b23SMartin Matuska.El 183