On 4/21/22 13:59, Roman Gushchin wrote:
On Thu, Apr 21, 2022 at 01:28:20PM -0400, Waiman Long wrote:
On 4/21/22 12:33, Roman Gushchin wrote:
On Thu, Apr 21, 2022 at 10:58:45AM -0400, Waiman Long wrote:
For systems with large number of CPUs, the majority of the memory
consumed by the mem_cgroup structure is actually the percpu stats
memory. When a large number of memory cgroups are continuously created
and destroyed (like in a container host), it is possible that more
and more mem_cgroup structures remained in the dying state holding up
increasing amount of percpu memory.
We can't free up the memory of the dying mem_cgroup structure due to
active references in some other places. However, the percpu stats memory
allocated to that mem_cgroup is a different story.
This patch adds a new percpu_stats_disabled variable to keep track of
the state of the percpu stats memory. If the variable is set, percpu
stats update will be disabled for that particular memcg. All the stats
update will be forward to its parent instead. Reading of the its percpu
stats will return 0.
The flushing and freeing of the percpu stats memory is a multi-step
process. The percpu_stats_disabled variable is set when the memcg is
being set to offline state. After a grace period with the help of RCU,
the percpu stats data are flushed and then freed.
This will greatly reduce the amount of memory held up by dying memory
cgroups.
By running a simple management tool for container 2000 times per test
run, below are the results of increases of percpu memory (as reported
in /proc/meminfo) and nr_dying_descendants in root's cgroup.stat.
Hi Waiman!
I've been proposing the same idea some time ago:
https://lore.kernel.org/all/20190312223404.28665-7-guro@xxxxxx/T/ .
However I dropped it with the thinking that with many other fixes
preventing the accumulation of the dying cgroups it's not worth the added
complexity and a potential cpu overhead.
I think it ultimately comes to the number of dying cgroups. If it's low,
memory savings are not worth the cpu overhead. If it's high, they are.
I hope long-term to drive it down significantly (with lru-pages reparenting
being the first major milestone), but it might take a while.
I don't have a strong opinion either way, just want to dump my thoughts
on this.
I have quite a number of customer cases complaining about increasing percpu
memory usages. The number of dying memcg's can go to tens of thousands. From
my own investigation, I believe that those dying memcg's are not freed
because they are pinned down by references in the page structure. I am aware
that we support the use of objcg in the page structure which will allow easy
reparenting, but most pages don't do that and it is not easy to do this
conversion and it may take quite a while to do that.
The big question is whether there is a memory pressure on those systems.
If yes, and the number of dying cgroups is growing, it's worth investigating.
It might be due to the sharing of pagecache pages and this will be ultimately
fixed with implementing of the pagecache reparenting. But it also might be due
to other bugs, which are fixable, so it would be great to understand.
Pagecache reparenting will probably fix the problem that I have seen. Is
someone working on this?
So if there is a memory pressure and dying cgroups are still accumulating,
we need to investigate and fix it.
If there is (almost) no memory pressure, it's a proactive reclaim question.
There are several discussions and projects going on in this area.
As more and more memory are pinned down by dying memcg's, there is just
less memory available for other useful works. So it is an issue from the
user point of view. I am not sure how much memory pressure the customers
have, but they certainly are not happy about that.
Releasing percpu memory is more a workaround of the problem rather than fix.
In the end, if we're accumulating dying cgroups, we're still leaking memory,
just at a smaller pace (which is good, of course).
I agree that it is a workaround. However, without pagecache reparenting,
userspace applications may need to be modified to minimize the chance of
leaving behind dying memcg's. It is not easy either.
Cheers,
Longman
