Re: ext4 write performance regression in 3.6-rc1 on RAID0/5

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On 8/22/12 11:57 AM, Yuanhan Liu wrote:
 On Fri, Aug 17, 2012 at 10:25:26PM +0800, Fengguang Wu wrote:
> [CC md list]
>
> On Fri, Aug 17, 2012 at 09:40:39AM -0400, Theodore Ts'o wrote:
>> On Fri, Aug 17, 2012 at 02:09:15PM +0800, Fengguang Wu wrote:
>>> Ted,
>>>
>>> I find ext4 write performance dropped by 3.3% on average in the
>>> 3.6-rc1 merge window. xfs and btrfs are fine.
>>>
>>> Two machines are tested. The performance regression happens in the
>>> lkp-nex04 machine, which is equipped with 12 SSD drives. lkp-st02 does
>>> not see regression, which is equipped with HDD drives. I'll continue
>>> to repeat the tests and report variations.
>>
>> Hmm... I've checked out the commits in "git log v3.5..v3.6-rc1 --
>> fs/ext4 fs/jbd2" and I don't see anything that I would expect would
>> cause that. The are the lock elimination changes for Direct I/O
>> overwrites, but that shouldn't matter for your tests which are
>> measuring buffered writes, correct?
>>
>> Is there any chance you could do me a favor and do a git bisect
>> restricted to commits involving fs/ext4 and fs/jbd2?
>
> I noticed that the regressions all happen in the RAID0/RAID5 cases.
> So it may be some interactions between the RAID/ext4 code?
>
> I'll try to get some ext2/3 numbers, which should have less changes
on the fs side.
>
> wfg@bee /export/writeback% ./compare -g ext4
lkp-nex04/*/*-{3.5.0,3.6.0-rc1+}
> 3.5.0 3.6.0-rc1+
> ------------------------ ------------------------
> 720.62 -1.5% 710.16 lkp-nex04/JBOD-12HDD-thresh=1000M/ext4-100dd-1-3.5.0
> 706.04 -0.0% 705.86 lkp-nex04/JBOD-12HDD-thresh=1000M/ext4-10dd-1-3.5.0
> 702.86 -0.2% 701.74 lkp-nex04/JBOD-12HDD-thresh=1000M/ext4-1dd-1-3.5.0
> 702.41 -0.0% 702.06 lkp-nex04/JBOD-12HDD-thresh=1000M/ext4-1dd-2-3.5.0
> 779.52 +6.5% 830.11 lkp-nex04/JBOD-12HDD-thresh=100M/ext4-100dd-1-3.5.0
> 646.70 +4.9% 678.59 lkp-nex04/JBOD-12HDD-thresh=100M/ext4-10dd-1-3.5.0
> 704.49 +2.6% 723.00 lkp-nex04/JBOD-12HDD-thresh=100M/ext4-1dd-1-3.5.0
> 704.21 +1.2% 712.47 lkp-nex04/JBOD-12HDD-thresh=100M/ext4-1dd-2-3.5.0
> 705.26 -1.2% 696.61 lkp-nex04/JBOD-12HDD-thresh=8G/ext4-100dd-1-3.5.0
> 703.37 +0.1% 703.76 lkp-nex04/JBOD-12HDD-thresh=8G/ext4-10dd-1-3.5.0
> 701.66 -0.1% 700.83 lkp-nex04/JBOD-12HDD-thresh=8G/ext4-1dd-1-3.5.0
> 701.17 +0.0% 701.36 lkp-nex04/JBOD-12HDD-thresh=8G/ext4-1dd-2-3.5.0
> 675.08 -10.5% 604.29
lkp-nex04/RAID0-12HDD-thresh=1000M/ext4-100dd-1-3.5.0
> 676.52 -2.7% 658.38 lkp-nex04/RAID0-12HDD-thresh=1000M/ext4-10dd-1-3.5.0
> 512.70 +4.0% 533.22 lkp-nex04/RAID0-12HDD-thresh=1000M/ext4-1dd-1-3.5.0
> 524.61 -0.3% 522.90 lkp-nex04/RAID0-12HDD-thresh=1000M/ext4-1dd-2-3.5.0
> 709.76 -15.7% 598.44 lkp-nex04/RAID0-12HDD-thresh=100M/ext4-100dd-1-3.5.0
> 681.39 -2.1% 667.25 lkp-nex04/RAID0-12HDD-thresh=100M/ext4-10dd-1-3.5.0
> 524.16 +0.8% 528.25 lkp-nex04/RAID0-12HDD-thresh=100M/ext4-1dd-2-3.5.0
> 699.77 -19.2% 565.54 lkp-nex04/RAID0-12HDD-thresh=8G/ext4-100dd-1-3.5.0
> 675.79 -1.9% 663.17 lkp-nex04/RAID0-12HDD-thresh=8G/ext4-10dd-1-3.5.0
> 484.84 -7.4% 448.83 lkp-nex04/RAID0-12HDD-thresh=8G/ext4-1dd-1-3.5.0
> 470.40 -3.2% 455.31 lkp-nex04/RAID0-12HDD-thresh=8G/ext4-1dd-2-3.5.0
> 167.97 -38.7% 103.03
lkp-nex04/RAID5-12HDD-thresh=1000M/ext4-100dd-1-3.5.0
> 243.67 -9.1% 221.41 lkp-nex04/RAID5-12HDD-thresh=1000M/ext4-10dd-1-3.5.0
> 248.98 +12.2% 279.33 lkp-nex04/RAID5-12HDD-thresh=1000M/ext4-1dd-1-3.5.0
> 208.45 +14.1% 237.86 lkp-nex04/RAID5-12HDD-thresh=1000M/ext4-1dd-2-3.5.0
> 71.18 -34.2% 46.82 lkp-nex04/RAID5-12HDD-thresh=100M/ext4-100dd-1-3.5.0
> 145.84 -7.3% 135.25 lkp-nex04/RAID5-12HDD-thresh=100M/ext4-10dd-1-3.5.0
> 255.22 +6.7% 272.35 lkp-nex04/RAID5-12HDD-thresh=100M/ext4-1dd-1-3.5.0
> 243.09 +20.7% 293.30 lkp-nex04/RAID5-12HDD-thresh=100M/ext4-1dd-2-3.5.0
> 209.24 -23.6% 159.96 lkp-nex04/RAID5-12HDD-thresh=8G/ext4-100dd-1-3.5.0
> 243.73 -10.9% 217.28 lkp-nex04/RAID5-12HDD-thresh=8G/ext4-10dd-1-3.5.0

 Hi,

 About this issue, I did some investigation. And found we are blocked at
 get_active_stripes() in most times. It's reasonable, since max_nr_stripes
 is set to 256 now. It's a kind of small value, thus I tried with
 different value. Please see the following patch for detailed numbers.

 The test machine is same as above.

 From 85c27fca12b770da5bc8ec9f26a22cb414e84c68 Mon Sep 17 00:00:00 2001
 From: Yuanhan Liu <yuanhan.liu@xxxxxxxxxxxxxxx>
 Date: Wed, 22 Aug 2012 10:51:48 +0800
 Subject: [RFC PATCH] md/raid5: increase NR_STRIPES to 1024

 Stripe head is a must held resource before doing any IO. And it's
 limited to 256 by default. With 10dd case, we found that it is
 blocked at get_active_stripes() in most times(please see the ps
 output attached).

 Thus I did some tries with different value set to NR_STRIPS, and
 here are some numbers(EXT4 only) I got with different NR_STRIPS set:

 write bandwidth:
 ================
 3.5.0-rc1-256+: (Here 256 means with max strip head set to 256)
 write bandwidth: 280
 3.5.0-rc1-1024+:
 write bandwidth: 421 (+50.4%)
 3.5.0-rc1-4096+:
 write bandwidth: 506 (+80.7%)
 3.5.0-rc1-32768+:
 write bandwidth: 615 (+119.6%)

(Here 'sh' means with Shaohua's "multiple threads to handle strips"
patch [0])
 3.5.0-rc3-strip-sh+-256:
 write bandwidth: 465

 3.5.0-rc3-strip-sh+-1024:
 write bandwidth: 599

 3.5.0-rc3-strip-sh+-32768:
 write bandwidth: 615

 The kernel maybe a bit older but I found that the data are still kind of
 valid. Though, I haven't tried Shaohua's latest patch.

 As you can see from those data above: the write bandwidth is increased
 (a lot) as we increase NR_STRIPES. Thus the bigger NR_STRIPES set, the
 better write bandwidth we get. But we can't set NR_STRIPES with a too
 large number, especially by default, or it need lots of memory. Due to
 the number I got with Shaohua's patch applied, I guess 1024 would be
 nice value; it's not too big but we gain above 110% performance.

 Comments? BTW, I have a more flexible(more stupid, in the meantime) way:
 change the max_nr_stripes dynamically based on need?

 Here I also attached more data: the script I used to get those number,
 ps output, and iostat -kx 3 output.

 The script does it's job in a straight way: start NR dd in background,
 trace the writeback/global_dirty_state event in background to count the
 write bandwidth, sample the ps out regularly.

 ---
 [0]: patch: http://lwn.net/Articles/500200/

 Signed-off-by: Yuanhan Liu <yuanhan.liu@xxxxxxxxxxxxxxx>
 ---
 drivers/md/raid5.c | 2 +-
 1 files changed, 1 insertions(+), 1 deletions(-)

 diff --git a/drivers/md/raid5.c b/drivers/md/raid5.c
 index adda94d..82dca53 100644
 --- a/drivers/md/raid5.c
 +++ b/drivers/md/raid5.c
 @@ -62,7 +62,7 @@
 * Stripe cache
 */

 -#define NR_STRIPES 256
 +#define NR_STRIPES 1024
 #define STRIPE_SIZE PAGE_SIZE
 #define STRIPE_SHIFT (PAGE_SHIFT - 9)
 #define STRIPE_SECTORS (STRIPE_SIZE>>9)

does revert commit 8811b5968f6216e fix the problem?

Thanks,
Shaohua

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