Re: [PATCH V3 2/8] Make TestSetPageDirty and dirty page accounting inone func

From: Sha Zhengju
Date: Fri Jan 04 2013 - 21:34:38 EST


Hi Kame,

Sorry for the late response, I'm just back from vocation. : )

On Fri, Dec 28, 2012 at 8:39 AM, Kamezawa Hiroyuki
<kamezawa.hiroyu@xxxxxxxxxxxxxx> wrote:
> (2012/12/26 2:22), Sha Zhengju wrote:
>> From: Sha Zhengju <handai.szj@xxxxxxxxxx>
>>
>> Commit a8e7d49a(Fix race in create_empty_buffers() vs __set_page_dirty_buffers())
>> extracts TestSetPageDirty from __set_page_dirty and is far away from
>> account_page_dirtied. But it's better to make the two operations in one single
>> function to keep modular. So in order to avoid the potential race mentioned in
>> commit a8e7d49a, we can hold private_lock until __set_page_dirty completes.
>> There's no deadlock between ->private_lock and ->tree_lock after confirmation.
>> It's a prepare patch for following memcg dirty page accounting patches.
>>
>>
>> Here is some test numbers that before/after this patch:
>> Test steps(Mem-4g, ext4):
>> drop_cache; sync
>> fio (ioengine=sync/write/buffered/bs=4k/size=1g/numjobs=2/group_reporting/thread)
>>
>> We test it for 10 times and get the average numbers:
>> Before:
>> write: io=2048.0MB, bw=254117KB/s, iops=63528.9 , runt= 8279msec
>> lat (usec): min=1 , max=742361 , avg=30.918, stdev=1601.02
>> After:
>> write: io=2048.0MB, bw=254044KB/s, iops=63510.3 , runt= 8274.4msec
>> lat (usec): min=1 , max=856333 , avg=31.043, stdev=1769.32
>>
>> Note that the impact is little(<1%).
>>
>>
>> Signed-off-by: Sha Zhengju <handai.szj@xxxxxxxxxx>
>> Reviewed-by: Michal Hocko <mhocko@xxxxxxx>
>
> Acked-by: KAMEZAWA Hiroyuki <kamezawa.hiroyu@xxxxxxxxxxxxxx>
>
> Hmm,..this change should be double-checked by vfs, I/O guys...
>

Now it seems they haven't paid attention here... I'll push it soon for
more review.

> increasing hold time of mapping->private_lock doesn't affect performance ?
>
>

Yes, pointed by Fengguang in the previous round, mapping->private_lock and
mapping->tree_lock are often contented locks that in a dd testcase
they have the top
#1 and #2 contention.
So the numbers above are trying to find the impaction of lock
contention by multiple
threads(numjobs=2) writing to the same file in parallel and it seems
the impact is
little (<1%).
I'm not sure if the test case is enough, any advice is welcomed! : )
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