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SubjectRe: Unbounded growth of slab caches and how to shrink them
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On 06/29/2016 05:00 PM, Christoph Lameter wrote:
> On Wed, 29 Jun 2016, Nikolay Borisov wrote:
>
>> I've observed a rather strange unbounded growth of the kmalloc-192
>> slab cache:
>>
>> OBJS ACTIVE USE OBJ SIZE SLABS OBJ/SLAB CACHE SIZE NAME
>> 711124869 411527215 3% 0.19K 16934908 42 135479264K kmalloc-192
>>
>> Essentially the kmalloc is around 130 GB , yet only 3 percent of this are
>> being used. In this case I'd like to essentially shrink the overall size
>> of the cache. How is it possible to achieve that? I tried echoing '1'
>> to /sys/kernel/slab/kmalloc-192/shrink but nothing changed.
>
> Ok this probably means that most slabs have just a few or one objects?
> Some workloads can result in situations like that. Can you enable
> debugging and get a list of functions where these objects are allocated?

Right, so what debugging concretely do you have in mind. So far what I
did was reboot the machine with SLUB merging disabled, since there are
quite a lot of slabs being merged into that particular one:

:t-0000192 <- cred_jar pid_3 inet_peer_cache request_sock_TCPv6
kmalloc-192 file_lock_cache bio-0 ip_dst_cache key_jar

I'm quite sure it's likely it's one of the either networking or bio-0
slab cache, since the others seems generally not very used.

>
>> This is on 3.12 which is rather old kernel, but still I believe it is
>> entirely possible for someone to find a way to flood a machine with
>> network requests which would cause a lot of objects to be allocate,
>> resulting in a particular slab cache growing, then later when the request
>> flood stops the cache would be almost empty, yet the memory won't be usable
>> for anything other than satisfying memory allocation from this cache.
>
> True. Long known problem and all my attempts to facilitate a solution here
> did not go anywhere. The essential solution would require objects being
> movable or removable from the sparsely allocated page frames. And this
> goes way beyond my subsystem.
>
> If you can figure out which subsystem allocates or frees these objects
> (through the call traces) then we may find a knob in the subsystem to
> clear those out once in a while.
>
>

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