On 9/3/19 2:22 PM, Michal Hocko wrote:
On Tue 03-09-19 15:05:22, Andrey Ryabinin wrote:
On 9/3/19 10:41 AM, Michal Hocko wrote:
On Mon 02-09-19 21:34:29, Thomas Lindroth wrote:
On 9/2/19 9:16 AM, Michal Hocko wrote:
On Sun 01-09-19 22:43:05, Thomas Lindroth wrote:
After upgrading to the 4.19 series I've started getting problems with
early OOM.
What is the kenrel you have updated from? Would it be possible to try
the current Linus' tree?
I did some more testing and it turns out this is not a regression after all.
I followed up on my hunch and monitored memory.kmem.max_usage_in_bytes while
running cgexec -g memory:12G bash -c 'find / -xdev -type f -print0 | \
xargs -0 -n 1 -P 8 stat > /dev/null'
Just as memory.kmem.max_usage_in_bytes = memory.kmem.limit_in_bytes the OOM
killer kicked in and killed my X server.
Using the find|stat approach it was easy to test the problem in a testing VM.
I was able to reproduce the problem in all these kernels:
4.9.0
4.14.0
4.14.115
4.19.0
5.2.11
5.3-rc6 didn't build in the VM. The build environment is too old probably.
I was curious why I initially couldn't reproduce the problem in 4.14 by
building chromium. I was again able to successfully build chromium using
4.14.115. Turns out memory.kmem.max_usage_in_bytes was 1015689216 after
building and my limit is set to 1073741824. I guess some unrelated change in
memory management raised that slightly for 4.19 triggering the problem.
If you want to reproduce for yourself here are the steps:
1. build any kernel above 4.9 using something like my .config
2. setup a v1 memory cgroup with memory.kmem.limit_in_bytes lower than
memory.limit_in_bytes. I used 100M in my testing VM.
3. Run "find / -xdev -type f -print0 | xargs -0 -n 1 -P 8 stat > /dev/null"
in the cgroup.
4. Assuming there is enough inodes on the rootfs the global OOM killer
should kick in when memory.kmem.max_usage_in_bytes =
memory.kmem.limit_in_bytes and kill something outside the cgroup.
This is certainly a bug. Is this still an OOM triggered from
pagefault_out_of_memory? Since 4.19 (29ef680ae7c21) the memcg charge
path should invoke the memcg oom killer directly from the charge path.
If that doesn't happen then the failing charge is either GFP_NOFS or a
large allocation.
The former has been fixed just recently by http://lkml.kernel.org/r/cbe54ed1-b6ba-a056-8899-2dc42526371d@xxxxxxxxxxxxxxxxxxx
and I suspect this is a fix you are looking for. Although it is curious
that you can see a global oom even before because the charge path would
mark an oom situation even for NOFS context and it should trigger the
memcg oom killer on the way out from the page fault path. So essentially
the same call trace except the oom killer should be constrained to the
memcg context.
Could you try the above patch please?
It won't help. We hitting ->kmem limit here, not the ->memory or ->memsw, so try_charge() is successful and
only __memcg_kmem_charge_memcg() fails to charge ->kmem and returns -ENOMEM.
Limiting kmem just never worked and it doesn't work now. AFAIK this feature hasn't been finished because
there was no clear purpose/use case found. I remember that there was some discussion on lsfmm about this https://lwn.net/Articles/636331/
but I don't remember the discussion itself.
Ohh, right you are. I completely forgot that __memcg_kmem_charge_memcg
doesn't really trigger the normal charge path but rather charge the
counter directly.
So you are right. The v1 kmem accounting is broken and probably
unfixable. Do not use it.
I don't know why I setup a kmem limit. I think the documentation I followed
when setting up the cgroup said that kmem is counted separately from the
regular memory limit so if you want to limit total memory you have to limit
both. That's what I did.
If kmem accounting is both broken, unfixable and cause kernel crashes when
used why not remove it? Or perhaps disable it per default like
cgroup.memory=nokmem or at least print a warning to dmesg if the user tries
to user it in a way that cause crashes?