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SubjectRe: [PATCH v5 00/11] simplify block layer based on immutable biovecs
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On Mon, 2015-07-13 at 11:35 -0400, Mike Snitzer wrote:
> On Mon, Jul 13 2015 at 1:12am -0400,
> Ming Lin <mlin@kernel.org> wrote:
>
> > On Mon, 2015-07-06 at 00:11 -0700, mlin@kernel.org wrote:
> > > Hi Mike,
> > >
> > > On Wed, 2015-06-10 at 17:46 -0400, Mike Snitzer wrote:
> > > > I've been busy getting DM changes for the 4.2 merge window finalized.
> > > > As such I haven't connected with others on the team to discuss this
> > > > issue.
> > > >
> > > > I'll see if we can make time in the next 2 days. But I also have
> > > > RHEL-specific kernel deadlines I'm coming up against.
> > > >
> > > > Seems late to be staging this extensive a change for 4.2... are you
> > > > pushing for this code to land in the 4.2 merge window? Or do we have
> > > > time to work this further and target the 4.3 merge?
> > > >
> > >
> > > 4.2-rc1 was out.
> > > Would you have time to work together for 4.3 merge?
> >
> > Ping ...
> >
> > What can I do to move forward?
>
> You can show further testing. Particularly that you've covered all the
> edge cases.
>
> Until someone can produce some perf test results where they are actually
> properly controlling for the splitting, we have no useful information.
>
> The primary concerns associated with this patchset are:
> 1) In the context of RAID, XFS's use of bio_add_page() used to build up
> optimal IOs when the underlying block device provides striping info
> via IO limits. With this patchset how large will bios become in
> practice _without_ bio_add_page() being bounded by the underlying IO
> limits?

Totally new to XFS code.
Did you mean xfs_buf_ioapply_map() -> bio_add_page()?

The largest size could be BIO_MAX_PAGES pages, that is 256 pages(1M
bytes).

>
> 2) The late splitting that occurs for the (presummably) large bios that
> are sent down.. how does it cope/perform in the face of very
> low/fragmented system memory?

I tested in qemu-kvm with 1G/1100M/1200M memory.
10 HDDs were attached to qemu via virtio-blk.
Then created MD RAID6 array and mkfs.xfs on it.

I use bs=2M, so there will be a lot of bio splits.

[global]
ioengine=libaio
iodepth=64
direct=1
runtime=1200
time_based
group_reporting
numjobs=8
gtod_reduce=0
norandommap

[job1]
bs=2M
directory=/mnt
size=100M
rw=write

Here is the results:

memory 4.2-rc2 4.2-rc2-patched
------ ------- ---------------
1G OOM OOM
1100M fail OK
1200M OK OK

"fail" means it hit a page allocation failure.
http://minggr.net/pub/block_patches_tests/dmesg.4.2.0-rc2

I tested 3 times for each kernel to confirm that with 1100M memory,
4.2-rc2 always hit a page allocation failure and 4.2-rc2-patched is OK.

So the patched kernel performs better in this case.

>
> 3) More open-ended comment than question: Linux has evolved to perform
> well on "enterprise" systems. We generally don't fall off a cliff on
> performance like we used to. The concern associated with this
> patchset is that if it goes in without _real_ due-diligence on
> "enterprise" scale systems and workloads it'll be too late once we
> notice the problem(s).
>
> So we really need answers to 1 and 2 above in order to feel better about
> the risks associated 3.
>
> Alasdair's feedback to you on testing still applies (and hasn't been
> done AFAIK):
> https://www.redhat.com/archives/dm-devel/2015-May/msg00203.html
>
> Particularly:
> "you might need to instrument the kernels to tell you the sizes of the
> bios being created and the amount of splitting actually happening."

I added a debug patch to record the amount of splitting actually
happened. https://goo.gl/Iiyg4Y

In the qemu 1200M memory test case,

$ cat /sys/block/md0/queue/split
discard split: 0, write same split: 0, segment split: 27400

>
> and
>
> "You may also want to test systems with a restricted amount of available
> memory to show how the splitting via worker thread performs. (Again,
> instrument to prove the extent to which the new code is being exercised.)"

Does above test with qemu make sense?

Thanks,
Ming

>
> > This patchset not only simplify block layer a lot, it's also a
> > prerequisite of the direct IO rewrite patches, which I saw 40%
> > performance improvement for null_blk and 10% improvement for NVMe
> > drives. I have been fixing bugs for the direct IO patches. I'll post it
> > once it passes xfstests.
> >
> > Mike,
> > Can I have your ACK? Or do you have other test plan?
>
> I'm not the only person with concerns. I share Alasdair's concerns.
> Jeff Moyer is also concerned about the implications of this patchset.
> We're all in favor of this patchset's cleanup _if and only if_ it can be
> proven that we aren't going to be falling off a cliff on performance due
> to some pathological workload (be it under memory pressure or whatever).
>
> Apologies for not being able to put time to this like I hoped. But that
> doesn't mean you are off the hook on showing you've done the testing and
> understand the scope and implications of the changes you're pushing for.
>
> I will do additional review to answer 1 and 2 above. And Jeff Moyer
> told me he'd test the patchset on one of his testbeds.
>
> But if you can help answer 1 and 2 above that'd go a long way.
>
> Thanks,
> Mike




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