Re: [RFC 0/3] block: proportional based blk-throttling
From: Shaohua Li
Date: Wed Jan 20 2016 - 14:45:45 EST
On Wed, Jan 20, 2016 at 02:40:13PM -0500, Vivek Goyal wrote:
> On Wed, Jan 20, 2016 at 11:34:48AM -0800, Shaohua Li wrote:
> > On Wed, Jan 20, 2016 at 02:05:35PM -0500, Vivek Goyal wrote:
> > > On Wed, Jan 20, 2016 at 09:49:16AM -0800, Shaohua Li wrote:
> > > > Hi,
> > > >
> > > > Currently we have 2 iocontrollers. blk-throttling is bandwidth based. CFQ is
> > > > weight based. It would be great there is a unified iocontroller for the two.
> > > > And blk-mq doesn't support ioscheduler, leaving blk-throttling the only option
> > > > for blk-mq. It's time to have a scalable iocontroller supporting both
> > > > bandwidth/weight based control and working with blk-mq.
> > > >
> > > > blk-throttling is a good candidate, it works for both blk-mq and legacy queue.
> > > > It has a global lock which is scaring for scalability, but it's not terrible in
> > > > practice. In my test, the NVMe IOPS can reach 1M/s and I have all CPU run IO. Enabling
> > > > blk-throttle has around 2~3% IOPS and 10% cpu utilization impact. I'd expect
> > > > this isn't a big problem for today's workload. This patchset then try to make a
> > > > unified iocontroller. I'm leveraging blk-throttling.
> > > >
> > > > The idea is pretty simple. If we know disk total bandwidth, we can calculate
> > > > cgroup bandwidth according to its weight. blk-throttling can use the calculated
> > > > bandwidth to throttle cgroup. Disk total bandwidth changes dramatically per IO
> > > > pattern. Long history is meaningless. The simple algorithm in patch 1 works
> > > > pretty well when IO pattern changes.
> > > >
> > > > This is a feedback system. If we underestimate disk total bandwidth, we assign
> > > > less bandwidth to cgroup. cgroup will dispatch less IO and finally lower disk
> > > > total bandwidth is estimated. To break the loop, cgroup bandwidth calculation
> > > > always uses (1 + 1/8) * disk_bandwidth. Another issue is cgroup could be
> > > > inactive. If inactive cgroup is accounted in, other cgroup will be assigned
> > > > less bandwidth and so dispatch less IO, and disk total bandwidth drops further.
> > > > To avoid the issue, we periodically check cgroups and exclude inactive ones.
> > > >
> > > > To test this, create two fio jobs and assign them different weight. You will
> > > > see the jobs have different bandwidth roughly according to their weight.
> > >
> > > Patches look pretty small. Nice to see an implementation which will work
> > > with faster devices and get away from dependency on cfq.
> > >
> > > How does one switch between weight based vs bandwidth based throttling?
> > > What's the default.
> > >
> > > So this has been implemented at throttling layer. By default is weight
> > > based throttling enabled or one needs to enable it explicitly.
> >
> > So in current implementation, only one of weight/bandwidth can be
> > enabled. After one is enabled, switching to the other is forbidden. It
> > should not be hard to enable switching. But mixing the two in one
> > hierarchy sounds not trivial.
>
> So is this selection per device? Would be good if you also provide steps
> to test it. I am going through code now and will figure out ultimately,
> just that if you give steps, it makes it little easier.
Just uses:
echo "8:16 200" > $TEST_CG/blkio.throttle.weight
200 is the weight
> Is this one way selection system wide or per device?
It's per device currently.
Thanks,
Shaohua