Re: [PATCH 1/1] block: Convert hd_struct in_flight from atomic to percpu

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On 06/29/2017 02:40 AM, Ming Lei wrote:
> On Thu, Jun 29, 2017 at 5:49 AM, Jens Axboe <axboe@xxxxxxxxx> wrote:
>> On 06/28/2017 03:12 PM, Brian King wrote:
>>> This patch converts the in_flight counter in struct hd_struct from a
>>> pair of atomics to a pair of percpu counters. This eliminates a couple
>>> of atomics from the hot path. When running this on a Power system, to
>>> a single null_blk device with 80 submission queues, irq mode 0, with
>>> 80 fio jobs, I saw IOPs go from 1.5M IO/s to 11.4 IO/s.
>>
>> This has been done before, but I've never really liked it. The reason is
>> that it means that reading the part stat inflight count now has to
>> iterate over every possible CPU. Did you use partitions in your testing?
>> How many CPUs were configured? When I last tested this a few years ago
>> on even a quad core nehalem (which is notoriously shitty for cross-node
>> latencies), it was a net loss.
> 
> One year ago, I saw null_blk's IOPS can be decreased to 10%
> of non-RQF_IO_STAT on a dual socket ARM64(each CPU has
> 96 cores, and dual numa nodes) too, the performance can be
> recovered basically if per numa-node counter is introduced and
> used in this case, but the patch was never posted out.
> If anyone is interested in that, I can rebase the patch on current
> block tree and post out. I guess the performance issue might be
> related with system cache coherency implementation more or less.
> This issue on ARM64 can be observed with the following userspace
> atomic counting test too:
> 
>        http://kernel.ubuntu.com/~ming/test/cache/

How well did the per-node thing work? Doesn't seem to me like it would
go far enough. And per CPU is too much. One potential improvement would
be to change the part_stat_read() to just loop online CPUs, instead of
all possible CPUs. When CPUs go on/offline, use that as the slow path to
ensure the stats are sane. Often there's a huge difference between
NR_CPUS configured and what the system has. As Brian states, RH ships
with 2048, while I doubt a lot of customers actually run that...

Outside of coming up with a more clever data structure that is fully
CPU topology aware, one thing that could work is just having X cache
line separated read/write inflight counters per node, where X is some
suitable value (like 4). That prevents us from having cross node
traffic, and it also keeps the cross cpu traffic fairly low. That should
provide a nice balance between cost of incrementing the inflight
counting, and the cost of looping for reading it.

And that brings me to the next part...

>> I do agree that we should do something about it, and it's one of those
>> items I've highlighted in talks about blk-mq on pending issues to fix
>> up. It's just not great as it currently stands, but I don't think per
>> CPU counters is the right way to fix it, at least not for the inflight
>> counter.
> 
> Yeah, it won't be a issue for non-mq path, and for blk-mq path, maybe
> we can use some blk-mq knowledge(tagset?) to figure out the
> 'in_flight' counter. I thought about it before, but never got a
> perfect solution, and looks it is a bit hard, :-)

The tags are already a bit spread out, so it's worth a shot. That would
remove the need to do anything in the inc/dec path, as the tags already
do that. The inlight count could be easily retrieved with
sbitmap_weight(). The only issue here is that we need separate read and
write counters, and the weight would obviously only get us the total
count. But we can have a slower path for that, just iterate the tags and
count them. The fast path only cares about total count.

Let me try that out real quick.

-- 
Jens Axboe

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