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    SubjectRe: [RFC][PATCH 2/9] deadlock prevention core
    On Mon, 14 Aug 2006 08:45:40 +0200
    Peter Zijlstra <a.p.zijlstra@chello.nl> wrote:

    > On Sun, 2006-08-13 at 22:22 -0700, Andrew Morton wrote:
    > > On Mon, 14 Aug 2006 07:03:55 +0200
    > > Peter Zijlstra <a.p.zijlstra@chello.nl> wrote:
    > >
    > > > On Sun, 2006-08-13 at 21:58 -0700, Andrew Morton wrote:
    > > > > On Mon, 14 Aug 2006 06:40:53 +0200
    > > > > Peter Zijlstra <a.p.zijlstra@chello.nl> wrote:
    > > > >
    > > > > > Testcase:
    > > > > >
    > > > > > Mount an NBD device as sole swap device and mmap > physical RAM, then
    > > > > > loop through touching pages only once.
    > > > >
    > > > > Fix: don't try to swap over the network. Yes, there may be some scenarios
    > > > > where people have no local storage, but it's reasonable to expect anyone
    > > > > who is using Linux as an "enterprise storage platform" to stick a local
    > > > > disk on the thing for swap.
    > > >
    > > > I wish you were right, however there seems to be a large demand to go
    > > > diskless and swap over iSCSI because disks seem to be the nr. 1 failing
    > > > piece of hardware in systems these days.
    > >
    > > We could track dirty anonymous memory and throttle.
    > >
    > > Also, there must be some value of /proc/sys/vm/min_free_kbytes at which a
    > > machine is no longer deadlockable with any of these tricks. Do we know
    > > what level that is?
    >
    > Not sure, the theoretical max amount of memory one can 'lose' in socket
    > wait queues is well over the amount of physical memory we have in
    > machines today (even for SGI); this combined with the fact that we limit
    > the memory in some way to avoid DoS attacks, could make for all memory
    > to be stuck in wait queues. Of course this becomes rather more unlikely
    > for ever larger amounts of memory. But unlikely is never a guarantee.

    What is a "socket wait queue" and how/why can it consume so much memory?

    Can it be prevented from doing that?

    If this refers to the socket buffers, they're mostly allocated with
    at least __GFP_WAIT, aren't they?

    > >
    > > > > That leaves MAP_SHARED, but mm-tracking-shared-dirty-pages.patch will fix
    > > > > that, will it not?
    > > >
    > > > Will makes it less likely. One can still have memory pressure, the
    > > > remaining bits of memory can still get stuck in socket queues for
    > > > blocked processes.
    > >
    > > But there's lots of reclaimable pagecache around and kswapd will free it
    > > up?
    >
    > Yes, however it is possible for kswapd and direct reclaim to block on
    > get_request_wait() for the nbd/iscsi request queue by sheer misfortune.

    Possibly there are some situations where kswapd will get stuck on request
    queues. But as long as the block layer is correctly calling
    set_queue_congested(), these are easily avoidable via
    bdi_write_congested().

    > In that case there will be no more reclaim; of course the more active
    > processes we have the unlikelier this will be. Still with the sheer
    > amount of cpu time invested in Linux its not a gamble we're likely to
    > never lose.

    I suspect that with mm-tracking-shared-dirty-pages.patch, a bit of tuning
    and perhaps some bugfixing we can make this problem go away for all
    practical purposes. Particularly if we're prepared to require local
    storage for swap (the paranoid can use RAID, no?).

    Seem to me that more investigation of these options is needed before we can
    justify adding lots of hard-to-test complexity to networking?
    -
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