Re: High kmalloc-32 slab cache consumption with 10k containers

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On Tue, Apr 6, 2021 at 3:05 AM Bharata B Rao <bharata@xxxxxxxxxxxxx> wrote:
>
> On Mon, Apr 05, 2021 at 11:08:26AM -0700, Yang Shi wrote:
> > On Sun, Apr 4, 2021 at 10:49 PM Bharata B Rao <bharata@xxxxxxxxxxxxx> wrote:
> > >
> > > Hi,
> > >
> > > When running 10000 (more-or-less-empty-)containers on a bare-metal Power9
> > > server(160 CPUs, 2 NUMA nodes, 256G memory), it is seen that memory
> > > consumption increases quite a lot (around 172G) when the containers are
> > > running. Most of it comes from slab (149G) and within slab, the majority of
> > > it comes from kmalloc-32 cache (102G)
> > >
> > > The major allocator of kmalloc-32 slab cache happens to be the list_head
> > > allocations of list_lru_one list. These lists are created whenever a
> > > FS mount happens. Specially two such lists are registered by alloc_super(),
> > > one for dentry and another for inode shrinker list. And these lists
> > > are created for all possible NUMA nodes and for all given memcgs
> > > (memcg_nr_cache_ids to be particular)
> > >
> > > If,
> > >
> > > A = Nr allocation request per mount: 2 (one for dentry and inode list)
> > > B = Nr NUMA possible nodes
> > > C = memcg_nr_cache_ids
> > > D = size of each kmalloc-32 object: 32 bytes,
> > >
> > > then for every mount, the amount of memory consumed by kmalloc-32 slab
> > > cache for list_lru creation is A*B*C*D bytes.
> >
> > Yes, this is exactly what the current implementation does.
> >
> > >
> > > Following factors contribute to the excessive allocations:
> > >
> > > - Lists are created for possible NUMA nodes.
> >
> > Yes, because filesystem caches (dentry and inode) are NUMA aware.
>
> True, but creating lists for possible nodes as against online nodes
> can hurt platforms where possible is typically higher than online.

I'm supposed just because hotplug doesn't handle memcg list_lru
creation/deletion.

Get much simpler and less-prone implementation by wasting some memory.

>
> >
> > > - memcg_nr_cache_ids grows in bulk (see memcg_alloc_cache_id() and additional
> > >   list_lrus are created when it grows. Thus we end up creating list_lru_one
> > >   list_heads even for those memcgs which are yet to be created.
> > >   For example, when 10000 memcgs are created, memcg_nr_cache_ids reach
> > >   a value of 12286.
> > > - When a memcg goes offline, the list elements are drained to the parent
> > >   memcg, but the list_head entry remains.
> > > - The lists are destroyed only when the FS is unmounted. So list_heads
> > >   for non-existing memcgs remain and continue to contribute to the
> > >   kmalloc-32 allocation. This is presumably done for performance
> > >   reason as they get reused when new memcgs are created, but they end up
> > >   consuming slab memory until then.
> >
> > The current implementation has list_lrus attached with super_block. So
> > the list can't be freed until the super block is unmounted.
> >
> > I'm looking into consolidating list_lrus more closely with memcgs. It
> > means the list_lrus will have the same life cycles as memcgs rather
> > than filesystems. This may be able to improve some. But I'm supposed
> > the filesystem will be unmounted once the container exits and the
> > memcgs will get offlined for your usecase.
>
> Yes, but when the containers are still running, the lists that get
> created for non-existing memcgs and non-relavent memcgs are the main
> cause of increased memory consumption.

Since kernel doesn't know about containers so kernel simply doesn't
know what memcgs are non-relevant.

>
> >
> > > - In case of containers, a few file systems get mounted and are specific
> > >   to the container namespace and hence to a particular memcg, but we
> > >   end up creating lists for all the memcgs.
> >
> > Yes, because the kernel is *NOT* aware of containers.
> >
> > >   As an example, if 7 FS mounts are done for every container and when
> > >   10k containers are created, we end up creating 2*7*12286 list_lru_one
> > >   lists for each NUMA node. It appears that no elements will get added
> > >   to other than 2*7=14 of them in the case of containers.
> > >
> > > One straight forward way to prevent this excessive list_lru_one
> > > allocations is to limit the list_lru_one creation only to the
> > > relevant memcg. However I don't see an easy way to figure out
> > > that relevant memcg from FS mount path (alloc_super())
> > >
> > > As an alternative approach, I have this below hack that does lazy
> > > list_lru creation. The memcg-specific list is created and initialized
> > > only when there is a request to add an element to that particular
> > > list. Though I am not sure about the full impact of this change
> > > on the owners of the lists and also the performance impact of this,
> > > the overall savings look good.
> >
> > It is fine to reduce the memory consumption for your usecase, but I'm
> > not sure if this would incur any noticeable overhead for vfs
> > operations since list_lru_add() should be called quite often, but it
> > just needs to allocate the list for once (for each memcg +
> > filesystem), so the overhead might be fine.
>
> Let me run some benchmarks to measure the overhead. Any particular
> benchmark suggestion?

Open/close files should manipulate list_lru.

>
> >
> > And I'm wondering how much memory can be saved for real life workload.
> > I don't expect most containers are idle in production environments.
>
> I don't think kmalloc-32 slab cache memory consumption from list_lru
> would be any different for real life workload compared to idle containers.

I don't mean the memory consumption itself. I mean the list is
typically not empty with real life workload so the memory is not
allocated in vain.

>
> >
> > Added some more memcg/list_lru experts in this loop, they may have better ideas.
>
> Thanks.
>
> Regards,
> Bharata.



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