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060807f841
SLUB_DEBUG creates several files under /sys/kernel/slab/<cache>/ that can be read to check if the respective debugging options are enabled for given cache. Some options, namely sanity_checks, trace, and failslab can be also enabled and disabled at runtime by writing into the files. The runtime toggling is racy. Some options disable __CMPXCHG_DOUBLE when enabled, which means that in case of concurrent allocations, some can still use __CMPXCHG_DOUBLE and some not, leading to potential corruption. The s->flags field is also not updated or checked atomically. The simplest solution is to remove the runtime toggling. The extended slub_debug boot parameter syntax introduced by earlier patch should allow to fine-tune the debugging configuration during boot with same granularity. Signed-off-by: Vlastimil Babka <vbabka@suse.cz> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Reviewed-by: Kees Cook <keescook@chromium.org> Acked-by: Roman Gushchin <guro@fb.com> Cc: Christoph Lameter <cl@linux.com> Cc: Jann Horn <jannh@google.com> Cc: Vijayanand Jitta <vjitta@codeaurora.org> Cc: David Rientjes <rientjes@google.com> Cc: Joonsoo Kim <iamjoonsoo.kim@lge.com> Cc: Pekka Enberg <penberg@kernel.org> Link: http://lkml.kernel.org/r/20200610163135.17364-5-vbabka@suse.cz Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
389 lines
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ReStructuredText
389 lines
14 KiB
ReStructuredText
.. _slub:
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==========================
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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/vm/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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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: 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 heigh
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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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Christoph Lameter, May 30, 2007
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Sergey Senozhatsky, October 23, 2015
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