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F_SEAL_EXEC") which permits the setting of the memfd execute bit at memfd creation time, with the option of sealing the state of the X bit. - Peter Xu adds a patch series ("mm/hugetlb: Make huge_pte_offset() thread-safe for pmd unshare") which addresses a rare race condition related to PMD unsharing. - Several folioification patch serieses from Matthew Wilcox, Vishal Moola, Sidhartha Kumar and Lorenzo Stoakes - Johannes Weiner has a series ("mm: push down lock_page_memcg()") which does perform some memcg maintenance and cleanup work. - SeongJae Park has added DAMOS filtering to DAMON, with the series "mm/damon/core: implement damos filter". These filters provide users with finer-grained control over DAMOS's actions. SeongJae has also done some DAMON cleanup work. - Kairui Song adds a series ("Clean up and fixes for swap"). - Vernon Yang contributed the series "Clean up and refinement for maple tree". - Yu Zhao has contributed the "mm: multi-gen LRU: memcg LRU" series. It adds to MGLRU an LRU of memcgs, to improve the scalability of global reclaim. - David Hildenbrand has added some userfaultfd cleanup work in the series "mm: uffd-wp + change_protection() cleanups". - Christoph Hellwig has removed the generic_writepages() library function in the series "remove generic_writepages". - Baolin Wang has performed some maintenance on the compaction code in his series "Some small improvements for compaction". - Sidhartha Kumar is doing some maintenance work on struct page in his series "Get rid of tail page fields". - David Hildenbrand contributed some cleanup, bugfixing and generalization of pte management and of pte debugging in his series "mm: support __HAVE_ARCH_PTE_SWP_EXCLUSIVE on all architectures with swap PTEs". - Mel Gorman and Neil Brown have removed the __GFP_ATOMIC allocation flag in the series "Discard __GFP_ATOMIC". - Sergey Senozhatsky has improved zsmalloc's memory utilization with his series "zsmalloc: make zspage chain size configurable". - Joey Gouly has added prctl() support for prohibiting the creation of writeable+executable mappings. The previous BPF-based approach had shortcomings. See "mm: In-kernel support for memory-deny-write-execute (MDWE)". - Waiman Long did some kmemleak cleanup and bugfixing in the series "mm/kmemleak: Simplify kmemleak_cond_resched() & fix UAF". - T.J. Alumbaugh has contributed some MGLRU cleanup work in his series "mm: multi-gen LRU: improve". - Jiaqi Yan has provided some enhancements to our memory error statistics reporting, mainly by presenting the statistics on a per-node basis. See the series "Introduce per NUMA node memory error statistics". - Mel Gorman has a second and hopefully final shot at fixing a CPU-hog regression in compaction via his series "Fix excessive CPU usage during compaction". - Christoph Hellwig does some vmalloc maintenance work in the series "cleanup vfree and vunmap". - Christoph Hellwig has removed block_device_operations.rw_page() in ths series "remove ->rw_page". - We get some maple_tree improvements and cleanups in Liam Howlett's series "VMA tree type safety and remove __vma_adjust()". - Suren Baghdasaryan has done some work on the maintainability of our vm_flags handling in the series "introduce vm_flags modifier functions". - Some pagemap cleanup and generalization work in Mike Rapoport's series "mm, arch: add generic implementation of pfn_valid() for FLATMEM" and "fixups for generic implementation of pfn_valid()" - Baoquan He has done some work to make /proc/vmallocinfo and /proc/kcore better represent the real state of things in his series "mm/vmalloc.c: allow vread() to read out vm_map_ram areas". - Jason Gunthorpe rationalized the GUP system's interface to the rest of the kernel in the series "Simplify the external interface for GUP". - SeongJae Park wishes to migrate people from DAMON's debugfs interface over to its sysfs interface. To support this, we'll temporarily be printing warnings when people use the debugfs interface. See the series "mm/damon: deprecate DAMON debugfs interface". - Andrey Konovalov provided the accurately named "lib/stackdepot: fixes and clean-ups" series. - Huang Ying has provided a dramatic reduction in migration's TLB flush IPI rates with the series "migrate_pages(): batch TLB flushing". - Arnd Bergmann has some objtool fixups in "objtool warning fixes". -----BEGIN PGP SIGNATURE----- iHUEABYIAB0WIQTTMBEPP41GrTpTJgfdBJ7gKXxAjgUCY/PoPQAKCRDdBJ7gKXxA jlvpAPsFECUBBl20qSue2zCYWnHC7Yk4q9ytTkPB/MMDrFEN9wD/SNKEm2UoK6/K DmxHkn0LAitGgJRS/W9w81yrgig9tAQ= =MlGs -----END PGP SIGNATURE----- Merge tag 'mm-stable-2023-02-20-13-37' of git://git.kernel.org/pub/scm/linux/kernel/git/akpm/mm Pull MM updates from Andrew Morton: - Daniel Verkamp has contributed a memfd series ("mm/memfd: add F_SEAL_EXEC") which permits the setting of the memfd execute bit at memfd creation time, with the option of sealing the state of the X bit. - Peter Xu adds a patch series ("mm/hugetlb: Make huge_pte_offset() thread-safe for pmd unshare") which addresses a rare race condition related to PMD unsharing. - Several folioification patch serieses from Matthew Wilcox, Vishal Moola, Sidhartha Kumar and Lorenzo Stoakes - Johannes Weiner has a series ("mm: push down lock_page_memcg()") which does perform some memcg maintenance and cleanup work. - SeongJae Park has added DAMOS filtering to DAMON, with the series "mm/damon/core: implement damos filter". These filters provide users with finer-grained control over DAMOS's actions. SeongJae has also done some DAMON cleanup work. - Kairui Song adds a series ("Clean up and fixes for swap"). - Vernon Yang contributed the series "Clean up and refinement for maple tree". - Yu Zhao has contributed the "mm: multi-gen LRU: memcg LRU" series. It adds to MGLRU an LRU of memcgs, to improve the scalability of global reclaim. - David Hildenbrand has added some userfaultfd cleanup work in the series "mm: uffd-wp + change_protection() cleanups". - Christoph Hellwig has removed the generic_writepages() library function in the series "remove generic_writepages". - Baolin Wang has performed some maintenance on the compaction code in his series "Some small improvements for compaction". - Sidhartha Kumar is doing some maintenance work on struct page in his series "Get rid of tail page fields". - David Hildenbrand contributed some cleanup, bugfixing and generalization of pte management and of pte debugging in his series "mm: support __HAVE_ARCH_PTE_SWP_EXCLUSIVE on all architectures with swap PTEs". - Mel Gorman and Neil Brown have removed the __GFP_ATOMIC allocation flag in the series "Discard __GFP_ATOMIC". - Sergey Senozhatsky has improved zsmalloc's memory utilization with his series "zsmalloc: make zspage chain size configurable". - Joey Gouly has added prctl() support for prohibiting the creation of writeable+executable mappings. The previous BPF-based approach had shortcomings. See "mm: In-kernel support for memory-deny-write-execute (MDWE)". - Waiman Long did some kmemleak cleanup and bugfixing in the series "mm/kmemleak: Simplify kmemleak_cond_resched() & fix UAF". - T.J. Alumbaugh has contributed some MGLRU cleanup work in his series "mm: multi-gen LRU: improve". - Jiaqi Yan has provided some enhancements to our memory error statistics reporting, mainly by presenting the statistics on a per-node basis. See the series "Introduce per NUMA node memory error statistics". - Mel Gorman has a second and hopefully final shot at fixing a CPU-hog regression in compaction via his series "Fix excessive CPU usage during compaction". - Christoph Hellwig does some vmalloc maintenance work in the series "cleanup vfree and vunmap". - Christoph Hellwig has removed block_device_operations.rw_page() in ths series "remove ->rw_page". - We get some maple_tree improvements and cleanups in Liam Howlett's series "VMA tree type safety and remove __vma_adjust()". - Suren Baghdasaryan has done some work on the maintainability of our vm_flags handling in the series "introduce vm_flags modifier functions". - Some pagemap cleanup and generalization work in Mike Rapoport's series "mm, arch: add generic implementation of pfn_valid() for FLATMEM" and "fixups for generic implementation of pfn_valid()" - Baoquan He has done some work to make /proc/vmallocinfo and /proc/kcore better represent the real state of things in his series "mm/vmalloc.c: allow vread() to read out vm_map_ram areas". - Jason Gunthorpe rationalized the GUP system's interface to the rest of the kernel in the series "Simplify the external interface for GUP". - SeongJae Park wishes to migrate people from DAMON's debugfs interface over to its sysfs interface. To support this, we'll temporarily be printing warnings when people use the debugfs interface. See the series "mm/damon: deprecate DAMON debugfs interface". - Andrey Konovalov provided the accurately named "lib/stackdepot: fixes and clean-ups" series. - Huang Ying has provided a dramatic reduction in migration's TLB flush IPI rates with the series "migrate_pages(): batch TLB flushing". - Arnd Bergmann has some objtool fixups in "objtool warning fixes". * tag 'mm-stable-2023-02-20-13-37' of git://git.kernel.org/pub/scm/linux/kernel/git/akpm/mm: (505 commits) include/linux/migrate.h: remove unneeded externs mm/memory_hotplug: cleanup return value handing in do_migrate_range() mm/uffd: fix comment in handling pte markers mm: change to return bool for isolate_movable_page() mm: hugetlb: change to return bool for isolate_hugetlb() mm: change to return bool for isolate_lru_page() mm: change to return bool for folio_isolate_lru() objtool: add UACCESS exceptions for __tsan_volatile_read/write kmsan: disable ftrace in kmsan core code kasan: mark addr_has_metadata __always_inline mm: memcontrol: rename memcg_kmem_enabled() sh: initialize max_mapnr m68k/nommu: add missing definition of ARCH_PFN_OFFSET mm: percpu: fix incorrect size in pcpu_obj_full_size() maple_tree: reduce stack usage with gcc-9 and earlier mm: page_alloc: call panic() when memoryless node allocation fails mm: multi-gen LRU: avoid futile retries migrate_pages: move THP/hugetlb migration support check to simplify code migrate_pages: batch flushing TLB migrate_pages: share more code between _unmap and _move ...
462 lines
17 KiB
ReStructuredText
462 lines
17 KiB
ReStructuredText
==========================
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Short users guide for SLUB
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==========================
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The basic philosophy of SLUB is very different from SLAB. SLAB
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requires rebuilding the kernel to activate debug options for all
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slab caches. SLUB always includes full debugging but it is off by default.
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SLUB can enable debugging only for selected slabs in order to avoid
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an impact on overall system performance which may make a bug more
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difficult to find.
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In order to switch debugging on one can add an option ``slub_debug``
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to the kernel command line. That will enable full debugging for
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all slabs.
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Typically one would then use the ``slabinfo`` command to get statistical
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data and perform operation on the slabs. By default ``slabinfo`` only lists
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slabs that have data in them. See "slabinfo -h" for more options when
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running the command. ``slabinfo`` can be compiled with
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::
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gcc -o slabinfo tools/mm/slabinfo.c
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Some of the modes of operation of ``slabinfo`` require that slub debugging
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be enabled on the command line. F.e. no tracking information will be
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available without debugging on and validation can only partially
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be performed if debugging was not switched on.
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Some more sophisticated uses of slub_debug:
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-------------------------------------------
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Parameters may be given to ``slub_debug``. If none is specified then full
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debugging is enabled. Format:
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slub_debug=<Debug-Options>
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Enable options for all slabs
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slub_debug=<Debug-Options>,<slab name1>,<slab name2>,...
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Enable options only for select slabs (no spaces
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after a comma)
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Multiple blocks of options for all slabs or selected slabs can be given, with
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blocks of options delimited by ';'. The last of "all slabs" blocks is applied
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to all slabs except those that match one of the "select slabs" block. Options
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of the first "select slabs" blocks that matches the slab's name are applied.
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Possible debug options are::
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F Sanity checks on (enables SLAB_DEBUG_CONSISTENCY_CHECKS
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Sorry SLAB legacy issues)
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Z Red zoning
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P Poisoning (object and padding)
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U User tracking (free and alloc)
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T Trace (please only use on single slabs)
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A Enable failslab filter mark for the cache
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O Switch debugging off for caches that would have
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caused higher minimum slab orders
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- Switch all debugging off (useful if the kernel is
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configured with CONFIG_SLUB_DEBUG_ON)
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F.e. in order to boot just with sanity checks and red zoning one would specify::
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slub_debug=FZ
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Trying to find an issue in the dentry cache? Try::
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slub_debug=,dentry
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to only enable debugging on the dentry cache. You may use an asterisk at the
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end of the slab name, in order to cover all slabs with the same prefix. For
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example, here's how you can poison the dentry cache as well as all kmalloc
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slabs::
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slub_debug=P,kmalloc-*,dentry
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Red zoning and tracking may realign the slab. We can just apply sanity checks
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to the dentry cache with::
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slub_debug=F,dentry
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Debugging options may require the minimum possible slab order to increase as
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a result of storing the metadata (for example, caches with PAGE_SIZE object
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sizes). This has a higher liklihood of resulting in slab allocation errors
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in low memory situations or if there's high fragmentation of memory. To
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switch off debugging for such caches by default, use::
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slub_debug=O
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You can apply different options to different list of slab names, using blocks
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of options. This will enable red zoning for dentry and user tracking for
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kmalloc. All other slabs will not get any debugging enabled::
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slub_debug=Z,dentry;U,kmalloc-*
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You can also enable options (e.g. sanity checks and poisoning) for all caches
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except some that are deemed too performance critical and don't need to be
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debugged by specifying global debug options followed by a list of slab names
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with "-" as options::
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slub_debug=FZ;-,zs_handle,zspage
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The state of each debug option for a slab can be found in the respective files
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under::
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/sys/kernel/slab/<slab name>/
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If the file contains 1, the option is enabled, 0 means disabled. The debug
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options from the ``slub_debug`` parameter translate to the following files::
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F sanity_checks
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Z red_zone
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P poison
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U store_user
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T trace
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A failslab
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failslab file is writable, so writing 1 or 0 will enable or disable
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the option at runtime. Write returns -EINVAL if cache is an alias.
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Careful with tracing: It may spew out lots of information and never stop if
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used on the wrong slab.
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Slab merging
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============
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If no debug options are specified then SLUB may merge similar slabs together
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in order to reduce overhead and increase cache hotness of objects.
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``slabinfo -a`` displays which slabs were merged together.
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Slab validation
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===============
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SLUB can validate all object if the kernel was booted with slub_debug. In
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order to do so you must have the ``slabinfo`` tool. Then you can do
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::
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slabinfo -v
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which will test all objects. Output will be generated to the syslog.
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This also works in a more limited way if boot was without slab debug.
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In that case ``slabinfo -v`` simply tests all reachable objects. Usually
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these are in the cpu slabs and the partial slabs. Full slabs are not
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tracked by SLUB in a non debug situation.
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Getting more performance
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========================
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To some degree SLUB's performance is limited by the need to take the
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list_lock once in a while to deal with partial slabs. That overhead is
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governed by the order of the allocation for each slab. The allocations
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can be influenced by kernel parameters:
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.. slub_min_objects=x (default 4)
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.. slub_min_order=x (default 0)
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.. slub_max_order=x (default 3 (PAGE_ALLOC_COSTLY_ORDER))
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``slub_min_objects``
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allows to specify how many objects must at least fit into one
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slab in order for the allocation order to be acceptable. In
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general slub will be able to perform this number of
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allocations on a slab without consulting centralized resources
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(list_lock) where contention may occur.
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``slub_min_order``
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specifies a minimum order of slabs. A similar effect like
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``slub_min_objects``.
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``slub_max_order``
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specified the order at which ``slub_min_objects`` should no
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longer be checked. This is useful to avoid SLUB trying to
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generate super large order pages to fit ``slub_min_objects``
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of a slab cache with large object sizes into one high order
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page. Setting command line parameter
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``debug_guardpage_minorder=N`` (N > 0), forces setting
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``slub_max_order`` to 0, what cause minimum possible order of
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slabs allocation.
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SLUB Debug output
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=================
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Here is a sample of slub debug output::
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====================================================================
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BUG kmalloc-8: Right Redzone overwritten
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--------------------------------------------------------------------
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INFO: 0xc90f6d28-0xc90f6d2b. First byte 0x00 instead of 0xcc
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INFO: Slab 0xc528c530 flags=0x400000c3 inuse=61 fp=0xc90f6d58
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INFO: Object 0xc90f6d20 @offset=3360 fp=0xc90f6d58
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INFO: Allocated in get_modalias+0x61/0xf5 age=53 cpu=1 pid=554
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Bytes b4 (0xc90f6d10): 00 00 00 00 00 00 00 00 5a 5a 5a 5a 5a 5a 5a 5a ........ZZZZZZZZ
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Object (0xc90f6d20): 31 30 31 39 2e 30 30 35 1019.005
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Redzone (0xc90f6d28): 00 cc cc cc .
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Padding (0xc90f6d50): 5a 5a 5a 5a 5a 5a 5a 5a ZZZZZZZZ
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[<c010523d>] dump_trace+0x63/0x1eb
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[<c01053df>] show_trace_log_lvl+0x1a/0x2f
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[<c010601d>] show_trace+0x12/0x14
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[<c0106035>] dump_stack+0x16/0x18
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[<c017e0fa>] object_err+0x143/0x14b
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[<c017e2cc>] check_object+0x66/0x234
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[<c017eb43>] __slab_free+0x239/0x384
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[<c017f446>] kfree+0xa6/0xc6
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[<c02e2335>] get_modalias+0xb9/0xf5
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[<c02e23b7>] dmi_dev_uevent+0x27/0x3c
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[<c027866a>] dev_uevent+0x1ad/0x1da
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[<c0205024>] kobject_uevent_env+0x20a/0x45b
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[<c020527f>] kobject_uevent+0xa/0xf
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[<c02779f1>] store_uevent+0x4f/0x58
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[<c027758e>] dev_attr_store+0x29/0x2f
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[<c01bec4f>] sysfs_write_file+0x16e/0x19c
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[<c0183ba7>] vfs_write+0xd1/0x15a
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[<c01841d7>] sys_write+0x3d/0x72
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[<c0104112>] sysenter_past_esp+0x5f/0x99
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[<b7f7b410>] 0xb7f7b410
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=======================
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FIX kmalloc-8: Restoring Redzone 0xc90f6d28-0xc90f6d2b=0xcc
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If SLUB encounters a corrupted object (full detection requires the kernel
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to be booted with slub_debug) then the following output will be dumped
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into the syslog:
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1. Description of the problem encountered
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This will be a message in the system log starting with::
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===============================================
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BUG <slab cache affected>: <What went wrong>
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-----------------------------------------------
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INFO: <corruption start>-<corruption_end> <more info>
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INFO: Slab <address> <slab information>
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INFO: Object <address> <object information>
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INFO: Allocated in <kernel function> age=<jiffies since alloc> cpu=<allocated by
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cpu> pid=<pid of the process>
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INFO: Freed in <kernel function> age=<jiffies since free> cpu=<freed by cpu>
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pid=<pid of the process>
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(Object allocation / free information is only available if SLAB_STORE_USER is
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set for the slab. slub_debug sets that option)
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2. The object contents if an object was involved.
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Various types of lines can follow the BUG SLUB line:
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Bytes b4 <address> : <bytes>
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Shows a few bytes before the object where the problem was detected.
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Can be useful if the corruption does not stop with the start of the
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object.
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Object <address> : <bytes>
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The bytes of the object. If the object is inactive then the bytes
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typically contain poison values. Any non-poison value shows a
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corruption by a write after free.
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Redzone <address> : <bytes>
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The Redzone following the object. The Redzone is used to detect
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writes after the object. All bytes should always have the same
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value. If there is any deviation then it is due to a write after
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the object boundary.
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(Redzone information is only available if SLAB_RED_ZONE is set.
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slub_debug sets that option)
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Padding <address> : <bytes>
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Unused data to fill up the space in order to get the next object
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properly aligned. In the debug case we make sure that there are
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at least 4 bytes of padding. This allows the detection of writes
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before the object.
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3. A stackdump
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The stackdump describes the location where the error was detected. The cause
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of the corruption is may be more likely found by looking at the function that
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allocated or freed the object.
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4. Report on how the problem was dealt with in order to ensure the continued
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operation of the system.
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These are messages in the system log beginning with::
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FIX <slab cache affected>: <corrective action taken>
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In the above sample SLUB found that the Redzone of an active object has
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been overwritten. Here a string of 8 characters was written into a slab that
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has the length of 8 characters. However, a 8 character string needs a
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terminating 0. That zero has overwritten the first byte of the Redzone field.
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After reporting the details of the issue encountered the FIX SLUB message
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tells us that SLUB has restored the Redzone to its proper value and then
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system operations continue.
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Emergency operations
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====================
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Minimal debugging (sanity checks alone) can be enabled by booting with::
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slub_debug=F
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This will be generally be enough to enable the resiliency features of slub
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which will keep the system running even if a bad kernel component will
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keep corrupting objects. This may be important for production systems.
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Performance will be impacted by the sanity checks and there will be a
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continual stream of error messages to the syslog but no additional memory
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will be used (unlike full debugging).
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No guarantees. The kernel component still needs to be fixed. Performance
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may be optimized further by locating the slab that experiences corruption
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and enabling debugging only for that cache
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I.e.::
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slub_debug=F,dentry
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If the corruption occurs by writing after the end of the object then it
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may be advisable to enable a Redzone to avoid corrupting the beginning
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of other objects::
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slub_debug=FZ,dentry
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Extended slabinfo mode and plotting
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===================================
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The ``slabinfo`` tool has a special 'extended' ('-X') mode that includes:
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- Slabcache Totals
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- Slabs sorted by size (up to -N <num> slabs, default 1)
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- Slabs sorted by loss (up to -N <num> slabs, default 1)
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Additionally, in this mode ``slabinfo`` does not dynamically scale
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sizes (G/M/K) and reports everything in bytes (this functionality is
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also available to other slabinfo modes via '-B' option) which makes
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reporting more precise and accurate. Moreover, in some sense the `-X'
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mode also simplifies the analysis of slabs' behaviour, because its
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output can be plotted using the ``slabinfo-gnuplot.sh`` script. So it
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pushes the analysis from looking through the numbers (tons of numbers)
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to something easier -- visual analysis.
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To generate plots:
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a) collect slabinfo extended records, for example::
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while [ 1 ]; do slabinfo -X >> FOO_STATS; sleep 1; done
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b) pass stats file(-s) to ``slabinfo-gnuplot.sh`` script::
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slabinfo-gnuplot.sh FOO_STATS [FOO_STATS2 .. FOO_STATSN]
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The ``slabinfo-gnuplot.sh`` script will pre-processes the collected records
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and generates 3 png files (and 3 pre-processing cache files) per STATS
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file:
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- Slabcache Totals: FOO_STATS-totals.png
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- Slabs sorted by size: FOO_STATS-slabs-by-size.png
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- Slabs sorted by loss: FOO_STATS-slabs-by-loss.png
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Another use case, when ``slabinfo-gnuplot.sh`` can be useful, is when you
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need to compare slabs' behaviour "prior to" and "after" some code
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modification. To help you out there, ``slabinfo-gnuplot.sh`` script
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can 'merge' the `Slabcache Totals` sections from different
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measurements. To visually compare N plots:
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a) Collect as many STATS1, STATS2, .. STATSN files as you need::
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while [ 1 ]; do slabinfo -X >> STATS<X>; sleep 1; done
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b) Pre-process those STATS files::
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slabinfo-gnuplot.sh STATS1 STATS2 .. STATSN
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c) Execute ``slabinfo-gnuplot.sh`` in '-t' mode, passing all of the
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generated pre-processed \*-totals::
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slabinfo-gnuplot.sh -t STATS1-totals STATS2-totals .. STATSN-totals
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This will produce a single plot (png file).
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Plots, expectedly, can be large so some fluctuations or small spikes
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can go unnoticed. To deal with that, ``slabinfo-gnuplot.sh`` has two
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options to 'zoom-in'/'zoom-out':
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a) ``-s %d,%d`` -- overwrites the default image width and height
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b) ``-r %d,%d`` -- specifies a range of samples to use (for example,
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in ``slabinfo -X >> FOO_STATS; sleep 1;`` case, using a ``-r
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40,60`` range will plot only samples collected between 40th and
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60th seconds).
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DebugFS files for SLUB
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======================
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For more information about current state of SLUB caches with the user tracking
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debug option enabled, debugfs files are available, typically under
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/sys/kernel/debug/slab/<cache>/ (created only for caches with enabled user
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tracking). There are 2 types of these files with the following debug
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information:
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1. alloc_traces::
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Prints information about unique allocation traces of the currently
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allocated objects. The output is sorted by frequency of each trace.
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Information in the output:
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Number of objects, allocating function, possible memory wastage of
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kmalloc objects(total/per-object), minimal/average/maximal jiffies
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since alloc, pid range of the allocating processes, cpu mask of
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allocating cpus, numa node mask of origins of memory, and stack trace.
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Example:::
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338 pci_alloc_dev+0x2c/0xa0 waste=521872/1544 age=290837/291891/293509 pid=1 cpus=106 nodes=0-1
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__kmem_cache_alloc_node+0x11f/0x4e0
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kmalloc_trace+0x26/0xa0
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pci_alloc_dev+0x2c/0xa0
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pci_scan_single_device+0xd2/0x150
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pci_scan_slot+0xf7/0x2d0
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pci_scan_child_bus_extend+0x4e/0x360
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acpi_pci_root_create+0x32e/0x3b0
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pci_acpi_scan_root+0x2b9/0x2d0
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acpi_pci_root_add.cold.11+0x110/0xb0a
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acpi_bus_attach+0x262/0x3f0
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device_for_each_child+0xb7/0x110
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acpi_dev_for_each_child+0x77/0xa0
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acpi_bus_attach+0x108/0x3f0
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device_for_each_child+0xb7/0x110
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acpi_dev_for_each_child+0x77/0xa0
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acpi_bus_attach+0x108/0x3f0
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2. free_traces::
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Prints information about unique freeing traces of the currently allocated
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objects. The freeing traces thus come from the previous life-cycle of the
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objects and are reported as not available for objects allocated for the first
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time. The output is sorted by frequency of each trace.
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Information in the output:
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Number of objects, freeing function, minimal/average/maximal jiffies since free,
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pid range of the freeing processes, cpu mask of freeing cpus, and stack trace.
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Example:::
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1980 <not-available> age=4294912290 pid=0 cpus=0
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51 acpi_ut_update_ref_count+0x6a6/0x782 age=236886/237027/237772 pid=1 cpus=1
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kfree+0x2db/0x420
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acpi_ut_update_ref_count+0x6a6/0x782
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acpi_ut_update_object_reference+0x1ad/0x234
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acpi_ut_remove_reference+0x7d/0x84
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acpi_rs_get_prt_method_data+0x97/0xd6
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acpi_get_irq_routing_table+0x82/0xc4
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acpi_pci_irq_find_prt_entry+0x8e/0x2e0
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acpi_pci_irq_lookup+0x3a/0x1e0
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acpi_pci_irq_enable+0x77/0x240
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pcibios_enable_device+0x39/0x40
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do_pci_enable_device.part.0+0x5d/0xe0
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pci_enable_device_flags+0xfc/0x120
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pci_enable_device+0x13/0x20
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virtio_pci_probe+0x9e/0x170
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local_pci_probe+0x48/0x80
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pci_device_probe+0x105/0x1c0
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Christoph Lameter, May 30, 2007
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Sergey Senozhatsky, October 23, 2015
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