Messages in this thread | | | Date | Mon, 26 Mar 2007 13:26:27 +0400 | From | Kirill Korotaev <> | Subject | Re: [Devel] Re: Linux-VServer example results for sharing vs. separate mappings ... |
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Andrew Morton wrote:
[...skip....] > The problem is memory reclaim. A number of schemes which have been > proposed require a per-container page reclaim mechanism - basically a > separate scanner. > > This is a huge, huge, huge problem. The present scanner has been under > development for over a decade and has had tremendous amounts of work and > testing put into it. And it still has problems. But those problems will > be gradually addressed. > > A per-container recaim scheme really really really wants to reuse all that > stuff rather than creating a separate, parallel, new scanner which has the > same robustness requirements, only has a decade less test and development > done on it. And which permanently doubles our maintenance costs.
So if we merge the global/container scanner code, "virtualizing" it and using abstract lists, it will be ok for you?
> So how do we reuse our existing scanner? With physical containers. One > can envisage several schemes: > > a) slice the machine into 128 fake NUMA nodes, use each node as the > basic block of memory allocation, manage the binding between these > memory hunks and process groups with cpusets. > > This is what google are testing, and it works. > > b) Create a new memory abstraction, call it the "software zone", which > is mostly decoupled from the present "hardware zones". Most of the MM > is reworked to use "software zones". The "software zones" are > runtime-resizeable, and obtain their pages via some means from the > hardware zones. A container uses a software zone. > > c) Something else, similar to the above. Various schemes can be > envisaged, it isn't terribly important for this discussion. > > > Let me repeat: this all has a huge upside in that it reuses the existing > page reclaimation logic. And cpusets. Yes, we do discover glitches, but > those glitches (such as Christoph's recent discovery of suboptimal > interaction between cpusets and the global dirty ratio) get addressed, and > we tend to strengthen the overall MM system as we address them. > > > So what are the downsides? I think mainly the sharing issue:
Honestly, I think there is another huge problem: *Effeciency*. Look, when you have a single hardware zone, kernel is able to do LRU shrinking efficiently when there is a global memory shortage. People tend to overcommit memory, so efficient behaviour in situations when none of the containers are over their limit, but we run out of memory - is important for us.
I imagine how good it will work when we have 200 containers on the node and each should be scanned and shrinked one by one. Imho with zones approach it is a fundamental limitation which can not be overcome in efficient and fair (regarding to containers) manner.
>>>The issue with pagecache (afaik) is that if we use >>>containers based on physical pages (an approach which >>>is much preferred by myself) then we can get in a >>>situation where a pagecache page is physically in >>>container A, is not actually used by any process in >>>container A, but is being releatedly referenced by >>>processes which are in other containers and hence >>>unjustly consumes resources in container A. >> >>>How significant a problem this is likely to be I do >>>not know. >> >>well, with a little imagination, you can extrapolate >>that from the data you removed from this email, as one >>example case would be to start two unified guests one >>after the other, then shutdown almost everything in >>the first one, you will end up with the first one being >>accounted all the 'shared' data used by the second one >>while the second one will have roughly the resources >>accounted the first one actually uses ... > > > Right - that sort of thing. > > But how much of a problem will it be *in practice*? Probably a lot of > people just won't notice or care. There will be a few situations where it > may be a problem, but perhaps we can address those? Forced migration of > pages from one zone into another is possible. Or change the reclaim code > so that a page which hasn't been referenced from a process within its > hardware container is considered unreferenced (so it gets reclaimed). Or a > manual nuke-all-the-pages knob which system administration tools can use. > All doable, if we indeed have a demonstrable problem which needs to be > addressed. > > And I do think it's worth trying to address these things, because the > thought of implementing a brand new memory reclaim mechanism scares the > pants off me.
I think code is mergeable. It requires some efforts, but imho it is better way to go. What do you think?
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