Re: performance regression due to commit e82e0561("mm: vmscan: obey proportional scanning requirements for kswapd")
From: Mel Gorman
Date: Fri Mar 14 2014 - 10:21:18 EST
On Thu, Mar 13, 2014 at 05:44:57AM -0700, Hugh Dickins wrote:
> On Wed, 12 Mar 2014, Mel Gorman wrote:
> > On Tue, Feb 18, 2014 at 04:01:22PM +0800, Yuanhan Liu wrote:
> > > Hi,
> > >
> > > Commit e82e0561("mm: vmscan: obey proportional scanning requirements for
> > > kswapd") caused a big performance regression(73%) for vm-scalability/
> > > lru-file-readonce testcase on a system with 256G memory without swap.
> > >
> > > That testcase simply looks like this:
> > > truncate -s 1T /tmp/vm-scalability.img
> > > mkfs.xfs -q /tmp/vm-scalability.img
> > > mount -o loop /tmp/vm-scalability.img /tmp/vm-scalability
> > >
> > > SPARESE_FILE="/tmp/vm-scalability/sparse-lru-file-readonce"
> > > for i in `seq 1 120`; do
> > > truncate $SPARESE_FILE-$i -s 36G
> > > timeout --foreground -s INT 300 dd bs=4k if=$SPARESE_FILE-$i of=/dev/null
> > > done
> > >
> > > wait
> > >
> >
> > The filename implies that it's a sparse file with no IO but does not say
> > what the truncate function/program/whatever actually does. If it's really a
> > sparse file then the dd process should be reading zeros and writing them to
> > NULL without IO. Where are pages being dirtied? Does the truncate command
> > really create a sparse file or is it something else?
> >
> > > Actually, it's not the newlly added code(obey proportional scanning)
> > > in that commit caused the regression. But instead, it's the following
> > > change:
> > > +
> > > + if (nr_reclaimed < nr_to_reclaim || scan_adjusted)
> > > + continue;
> > > +
> > >
> > >
> > > - if (nr_reclaimed >= nr_to_reclaim &&
> > > - sc->priority < DEF_PRIORITY)
> > > + if (global_reclaim(sc) && !current_is_kswapd())
> > > break;
> > >
> > > The difference is that we might reclaim more than requested before
> > > in the first round reclaimming(sc->priority == DEF_PRIORITY).
> > >
> > > So, for a testcase like lru-file-readonce, the dirty rate is fast, and
> > > reclaimming SWAP_CLUSTER_MAX(32 pages) each time is not enough for catching
> > > up the dirty rate. And thus page allocation stalls, and performance drops:
> ...
> > > I made a patch which simply keeps reclaimming more if sc->priority == DEF_PRIORITY.
> > > I'm not sure it's the right way to go or not. Anyway, I pasted it here for comments.
> > >
> >
> > The impact of the patch is that a direct reclaimer will now scan and
> > reclaim more pages than requested so the unlucky reclaiming process will
> > stall for longer than it should while others make forward progress.
> >
> > That would explain the difference in allocstall figure as each stall is
> > now doing more work than it did previously. The throughput figure is
> > harder to explain. What is it measuring?
> >
> > Any idea why kswapd is failing to keep up?
> >
> > I'm not saying the patch is wrong but there appears to be more going on
> > that is explained in the changelog. Is the full source of the benchmark
> > suite available? If so, can you point me to it and the exact commands
> > you use to run the testcase please?
>
> I missed Yuanhan's mail, but seeing your reply reminds me of another
> issue with that proportionality patch - or perhaps more thought would
> show them to be two sides of the same issue, with just one fix required.
> Let me throw our patch into the cauldron.
>
> [PATCH] mm: revisit shrink_lruvec's attempt at proportionality
>
> We have a memcg reclaim test which exerts a certain amount of pressure,
> and expects to see a certain range of page reclaim in response. It's a
> very wide range allowed, but the test repeatably failed on v3.11 onwards,
> because reclaim goes wild and frees up almost everything.
>
> This wild behaviour bisects to Mel's "scan_adjusted" commit e82e0561dae9
> "mm: vmscan: obey proportional scanning requirements for kswapd". That
> attempts to achieve proportionality between anon and file lrus: to the
> extent that once one of those is empty, it then tries to empty the other.
> Stop that.
>
> Signed-off-by: Hugh Dickins <hughd@xxxxxxxxxx>
> ---
>
> We've been running happily with this for months; but all that time it's
> been on my TODO list with a "needs more thought" tag before we could
> upstream it, and I never got around to that. We also have a somewhat
> similar, but older and quite independent, fix to get_scan_count() from
> Suleiman, which I'd meant to send along at the same time: I'll dig that
> one out tomorrow or the day after.
>
I ran a battery of page reclaim related tests against it on top of
3.14-rc6. Workloads showed small improvements in their absolute performance
but actual IO behaviour looked much better in some tests. This is the
iostats summary for the test that showed the biggest different -- dd of
a large file on ext3.
3.14.0-rc6 3.14.0-rc6
vanilla proportional-v1r1
Mean sda-avgqz 1045.64 224.18
Mean sda-await 2120.12 506.77
Mean sda-r_await 18.61 19.78
Mean sda-w_await 11089.60 2126.35
Max sda-avgqz 2294.39 787.13
Max sda-await 7074.79 2371.67
Max sda-r_await 503.00 414.00
Max sda-w_await 35721.93 7249.84
Not all workloads benefitted. The same workload on ext4 showed no useful
difference. btrfs looks like
3.14.0-rc6 3.14.0-rc6
vanilla proportional-v1r1
Mean sda-avgqz 762.69 650.39
Mean sda-await 2438.46 2495.15
Mean sda-r_await 44.18 47.20
Mean sda-w_await 6109.19 5139.86
Max sda-avgqz 2203.50 1870.78
Max sda-await 7098.26 6847.21
Max sda-r_await 63.02 156.00
Max sda-w_await 19921.70 11085.13
Better but not as dramatically so. I didn't analyse why. A workload that
had a large anonymous mapping with large amounts of IO in the background
did not show any regressions so based on that and the fact the patch looks
ok, here goes nothing;
Acked-by: Mel Gorman <mgorman@xxxxxxx>
You say it's already been tested for months but it would be nice if the
workload that generated this thread was also tested. Regrettably I'm not
going to have the chance to setup and do it myself for some time.
--
Mel Gorman
SUSE Labs
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