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SubjectRe: [PATCH v2 0/4] memcg: Low-limit reclaim
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On Wed, May 28 2014, Johannes Weiner <hannes@cmpxchg.org> wrote:

> On Wed, May 28, 2014 at 04:21:44PM +0200, Michal Hocko wrote:
>> On Wed 28-05-14 09:49:05, Johannes Weiner wrote:
>> > On Wed, May 28, 2014 at 02:10:23PM +0200, Michal Hocko wrote:
>> > > Hi Andrew, Johannes,
>> > >
>> > > On Mon 28-04-14 14:26:41, Michal Hocko wrote:
>> > > > This patchset introduces such low limit that is functionally similar
>> > > > to a minimum guarantee. Memcgs which are under their lowlimit are not
>> > > > considered eligible for the reclaim (both global and hardlimit) unless
>> > > > all groups under the reclaimed hierarchy are below the low limit when
>> > > > all of them are considered eligible.
>> > > >
>> > > > The previous version of the patchset posted as a RFC
>> > > > (http://marc.info/?l=linux-mm&m=138677140628677&w=2) suggested a
>> > > > hard guarantee without any fallback. More discussions led me to
>> > > > reconsidering the default behavior and come up a more relaxed one. The
>> > > > hard requirement can be added later based on a use case which really
>> > > > requires. It would be controlled by memory.reclaim_flags knob which
>> > > > would specify whether to OOM or fallback (default) when all groups are
>> > > > bellow low limit.
>> > >
>> > > It seems that we are not in a full agreement about the default behavior
>> > > yet. Johannes seems to be more for hard guarantee while I would like to
>> > > see the weaker approach first and move to the stronger model later.
>> > > Johannes, is this absolutely no-go for you? Do you think it is seriously
>> > > handicapping the semantic of the new knob?
>> >
>> > Well we certainly can't start OOMing where we previously didn't,
>> > that's called a regression and automatically limits our options.
>> >
>> > Any unexpected OOMs will be much more acceptable from a new feature
>> > than from configuration that previously "worked" and then stopped.
>>
>> Yes and we are not talking about regressions, are we?
>>
>> > > My main motivation for the weaker model is that it is hard to see all
>> > > the corner case right now and once we hit them I would like to see a
>> > > graceful fallback rather than fatal action like OOM killer. Besides that
>> > > the usaceses I am mostly interested in are OK with fallback when the
>> > > alternative would be OOM killer. I also feel that introducing a knob
>> > > with a weaker semantic which can be made stronger later is a sensible
>> > > way to go.
>> >
>> > We can't make it stronger, but we can make it weaker.
>>
>> Why cannot we make it stronger by a knob/configuration option?
>
> Why can't we make it weaker by a knob? Why should we design the
> default for unforeseeable cornercases rather than make the default
> make sense for existing cases and give cornercases a fallback once
> they show up?

My 2c... The following works for my use cases:
1) introduce memory.low_limit_in_bytes (default=0 thus no default change
from older kernels)
2) interested users will set low_limit_in_bytes to non-zero value.
Memory protected by low limit should be as migratable/reclaimable as
mlock memory. If a zone full of mlock memory causes oom kills, then
so should the low limit.

If we find corner cases where low_limit_in_bytes is too strict, then we
could discuss a new knob to relax it. But I think we should start with
a strict low-limit. If the oom killer gets tied in knots due to low
limit, then I'd like to explore fixing the oom killer before relaxing
low limit.

Disclaimer: new use cases will certainly appear with various
requirements. But an oom-killing low_limit_in_bytes seems like a
generic opt-in feature, so I think it's worthwhile.


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