Return-Path: linux-nfs-owner@vger.kernel.org Received: from cantor2.suse.de ([195.135.220.15]:38959 "EHLO mx2.suse.de" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S934477AbaH0Pgs (ORCPT ); Wed, 27 Aug 2014 11:36:48 -0400 Date: Wed, 27 Aug 2014 16:36:44 +0100 From: Mel Gorman To: Trond Myklebust Cc: Johannes Weiner , NeilBrown , Junxiao Bi , Michal Hocko , Linux NFS Mailing List , Devel FS Linux Subject: Re: [PATCH v2 1/2] SUNRPC: Fix memory reclaim deadlocks in rpciod Message-ID: <20140827153644.GF12374@novell.com> References: <53F6F772.6020708@oracle.com> <1408747772-37938-1-git-send-email-trond.myklebust@primarydata.com> <20140825164852.50723141@notabene.brown> <20140826105304.GT17696@novell.com> <20140826132624.GU17696@novell.com> <20140826231938.GA13889@cmpxchg.org> MIME-Version: 1.0 Content-Type: text/plain; charset=iso-8859-15 In-Reply-To: Sender: linux-nfs-owner@vger.kernel.org List-ID: On Tue, Aug 26, 2014 at 08:00:20PM -0400, Trond Myklebust wrote: > On Tue, Aug 26, 2014 at 7:51 PM, Trond Myklebust > wrote: > > On Tue, Aug 26, 2014 at 7:19 PM, Johannes Weiner wrote: > >> On Tue, Aug 26, 2014 at 02:26:24PM +0100, Mel Gorman wrote: > >>> On Tue, Aug 26, 2014 at 08:58:36AM -0400, Trond Myklebust wrote: > >>> > On Tue, Aug 26, 2014 at 6:53 AM, Mel Gorman wrote: > >>> > > On Mon, Aug 25, 2014 at 04:48:52PM +1000, NeilBrown wrote: > >>> > >> On Fri, 22 Aug 2014 18:49:31 -0400 Trond Myklebust > >>> > >> wrote: > >>> > >> > >>> > >> > Junxiao Bi reports seeing the following deadlock: > >>> > >> > > >>> > >> > @ crash> bt 1539 > >>> > >> > @ PID: 1539 TASK: ffff88178f64a040 CPU: 1 COMMAND: "rpciod/1" > >>> > >> > @ #0 [ffff88178f64d2c0] schedule at ffffffff8145833a > >>> > >> > @ #1 [ffff88178f64d348] io_schedule at ffffffff8145842c > >>> > >> > @ #2 [ffff88178f64d368] sync_page at ffffffff810d8161 > >>> > >> > @ #3 [ffff88178f64d378] __wait_on_bit at ffffffff8145895b > >>> > >> > @ #4 [ffff88178f64d3b8] wait_on_page_bit at ffffffff810d82fe > >>> > >> > @ #5 [ffff88178f64d418] wait_on_page_writeback at ffffffff810e2a1a > >>> > >> > @ #6 [ffff88178f64d438] shrink_page_list at ffffffff810e34e1 > >>> > >> > @ #7 [ffff88178f64d588] shrink_list at ffffffff810e3dbe > >>> > >> > @ #8 [ffff88178f64d6f8] shrink_zone at ffffffff810e425e > >>> > >> > @ #9 [ffff88178f64d7b8] do_try_to_free_pages at ffffffff810e4978 > >>> > >> > @ #10 [ffff88178f64d828] try_to_free_pages at ffffffff810e4c31 > >>> > >> > @ #11 [ffff88178f64d8c8] __alloc_pages_nodemask at ffffffff810de370 > >>> > >> > >>> > >> This stack trace (from 2.6.32) cannot happen in mainline, though it took me a > >>> > >> while to remember/discover exactly why. > >>> > >> > >>> > >> try_to_free_pages() creates a 'struct scan_control' with ->target_mem_cgroup > >>> > >> set to NULL. > >>> > >> shrink_page_list() checks ->target_mem_cgroup using global_reclaim() and if > >>> > >> it is NULL, wait_on_page_writeback is *not* called. > >>> > >> > >>> > > > >>> > > wait_on_page_writeback has a host of other damage associated with it which > >>> > > is why we don't do it from reclaim any more. If the storage is very slow > >>> > > then a process can be stalled by unrelated IO to slow storage. If the > >>> > > storage is broken and the writeback can never complete then it causes other > >>> > > issues. That kind of thing. > >>> > > > >>> > >> So we can only hit this deadlock if mem-cgroup limits are imposed on a > >>> > >> process which is using NFS - which is quite possible but probably not common. > >>> > >> > >>> > >> The fact that a dead-lock can happen only when memcg limits are imposed seems > >>> > >> very fragile. People aren't going to test that case much so there could well > >>> > >> be other deadlock possibilities lurking. > >>> > >> > >>> > > > >>> > > memcgs still can call wait_on_page_writeback and this is known to be a > >>> > > hand-grenade to the memcg people but I've never heard of them trying to > >>> > > tackle the problem. > >>> > > > >>> > >> Mel: might there be some other way we could get out of this deadlock? > >>> > >> Could the wait_on_page_writeback() in shrink_page_list() be made a timed-out > >>> > >> wait or something? Any other wait out of this deadlock other than setting > >>> > >> PF_MEMALLOC_NOIO everywhere? > >>> > >> > >>> > > > >>> > > I don't have the full thread as it was not cc'd to lkml so I don't know > >>> > > what circumstances reached this deadlock in the first place. If this is > >>> > > on 2.6.32 and the deadline cannot happen during reclaim in mainline then > >>> > > why is mainline being patched? > >>> > > > >>> > > Do not alter wait_on_page_writeback() to timeout as it will blow > >>> > > up spectacularly -- swap unuse races, data would not longer be synced > >>> > > correctly to disk, sync IO would be flaky, stable page writes would be > >>> > > fired out the window etc. > >>> > > >>> > Hi Mel, > >>> > > >>> > The above stack trace really is the entire deadlock: the rpciod work > >>> > queue, which drives I/O on behalf of NFS, gets caught in a > >>> > shrink_page_list() situation where it ends up waiting on page > >>> > writeback. Boom.... > >>> > > >>> > Even if this can only happen for non-trivial memcg situations, then it > >>> > still needs to be addressed: if rpciod blocks, then all NFS I/O will > >>> > block and we can no longer write out the dirty pages. This is why we > >>> > need a mainline fix. > >>> > > >>> > >>> In that case I'm adding the memcg people. I recognise that rpciod should > >>> never block on writeback for similar reasons why flushers should never block. > >>> memcg blocking on writeback is dangerous for reasons other than NFS but > >>> adding a variant that times out just means that on occasion processes get > >>> stalled for long periods of time timing out on these writeback pages. In > >>> that case, forward progress of rpciod would be painfully slow. > >>> > >>> On the other hand, forcing PF_MEMALLOC_NOIO for all rpciod allocations in > >>> an ideal world is massive overkill and while it will work, there will be > >>> other consequences -- unable to swap pages for example, unable to release > >>> buffers to free clean pages etc. > >>> > >>> It'd be nice of the memcg people could comment on whether they plan to > >>> handle the fact that memcg is the only called of wait_on_page_writeback > >>> in direct reclaim paths. > >> > >> wait_on_page_writeback() is a hammer, and we need to be better about > >> this once we have per-memcg dirty writeback and throttling, but I > >> think that really misses the point. Even if memcg writeback waiting > >> were smarter, any length of time spent waiting for yourself to make > >> progress is absurd. We just shouldn't be solving deadlock scenarios > >> through arbitrary timeouts on one side. If you can't wait for IO to > >> finish, you shouldn't be passing __GFP_IO. > >> > >> Can't you use mempools like the other IO paths? > > > > There is no way to pass any allocation flags at all to an operation > > such as __sock_create() (which may be needed if the server > > disconnects). So in general, the answer is no. > > > > Actually, one question that should probably be raised before anything > else: is it at all possible for a workqueue like rpciod to have a > non-trivial setting for ->target_mem_cgroup? If not, then the whole > question is moot. > AFAIK, today it's not possible to add kernel threads (which rpciod is one) to a memcg so the issue is entirely theoritical at the moment. Even if this was to change, it's not clear to me what adding kernel threads to a memcg would mean as kernel threads have no RSS. Even if kernel resources were accounted for, I cannot see why a kernel thread would join a memcg. I expec that it's currently impossible for rpciod to have a non-trivial target_mem_cgroup. The memcg folk will correct me if I'm wrong or if there are plans to change that for some reason. -- Mel Gorman SUSE Labs