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SubjectRe: [PATCH 1/9] io-throttle documentation
On Sun, Apr 19, 2009 at 05:47:18PM +0200, Andrea Righi wrote:
> On Sun, Apr 19, 2009 at 09:42:01AM -0400, Vivek Goyal wrote:
> > > The difference between synchronous IO and writeback IO is that in the
> > > first case the task itself is throttled via schedule_timeout_killable();
> > > in the second case pdflush is never throttled, the IO requests instead
> > > are simply added into a rbtree and dispatched asynchronously by another
> > > kernel thread (kiothrottled) using a EDF-like scheduling. More exactly,
> > > a deadline is evaluated for each writeback IO request looking at the
> > > cgroup BW and iops/sec limits, then kiothrottled periodically selects
> > > and dispatches the requests with an elapsed deadline.
> > >
> >
> > Ok, i will look into the logic of translating cgroup BW limits into
> > deadline. But as Nauman pointed out that we probably will run into
> > issues of tasks with in cgroup as we loose that notion of class and prio.
>
> Correct. I've not addressed the IO class and priority inside cgroup, and
> there is a lot of space for optimizations and tunings for this in the
> io-throttle controller. In the current implementation the delay is only
> imposed to the first task that hits the BW limit. This is not fair at
> all.
>
> Ideally the throttling should be distributed equally among the tasks
> within the same cgroup that exhaust the available BW. With equally I
> mean depending of a function of the previous generated IO, class and IO
> priority.
>
> The same concept of fairness (for ioprio and class) will be reflected to
> the underlying IO scheduler (only CFQ at the moment) for the requests
> that passed the BW limits.
>
> This doesn't seem a bad idea, well.. at least in theory... :) Do you see
> evident weak points? or motivations to move to another direction?
>
> >
> > > >
> > > > If that's the case, will a process not see an increased rate of writes
> > > > till we are not hitting dirty_background_ratio?
> > >
> > > Correct. And this is a good behaviour IMHO. At the same time we have a
> > > smooth BW usage (according to the cgroup limits I mean) even in presence
> > > of writeback IO only.
> > >
> >
> > Hmm.., I am not able to understand this. The very fact that you will see
> > a high rate of async writes (more than specified by cgroup max BW), till
> > you hit dirty_background_ratio, isn't it against the goals of max bw
> > controller? You wanted to see a consistent view of rate even if spare BW
> > is available, and this scenario goes against that?
>
> The goal of the io-throttle controller is to guarantee a constant BW for
> the IO to the block devices. If you write data in cache, buffers, etc.
> you shouldn't be affected by any IO limitation, but you will be when the
> data is be written out to the disk.
>
> OTOH if an application needs a predictable IO BW, we can always set a
> max limit and use direct IO.
>
> >
> > Think of an hypothetical configuration of 10G RAM with dirty ratio say
> > set to 20%. Assume not much of write out is taking place in the system.
> > So for first 2G of writes, application will be able to write it at cpu
> > speed and no throttling will kick in and a cgroup will easily cross it
> > max BW?
>
> Yes.
>
> >
> > > >
> > > > Secondly, if above is giving acceptable performance resutls, then we
> > > > should be able to provide max bw control at IO scheduler level (along
> > > > with proportional bw control)?
> > > >
> > > > So instead of doing max bw and proportional bw implementation in two
> > > > places with the help of different controllers, I think we can do it
> > > > with the help of one controller at one place.
> > > >
> > > > Please do have a look at my patches also to figure out if that's possible
> > > > or not. I think it should be possible.
> > > >
> > > > Keeping both at single place should simplify the things.
> > >
> > > Absolutely agree to do both proportional and max BW limiting in a single
> > > place. I still need to figure which is the best place, if the IO
> > > scheduler in the elevator, when the IO requests are submitted. A natural
> > > way IMHO is to control the submission of requests, also Andrew seemed to
> > > be convinced about this approach. Anyway, I've already scheduled to test
> > > your patchset and I'd like to see if it's possible to merge our works,
> > > or select the best from ours patchsets.
> > >
> >
> > Are we not already controlling submission of request (at crude level).
> > If application is doing writeout at high rate, then it hits vm_dirty_ratio
> > hits and this application is forced to do write out and hence it is slowed
> > down and is not allowed to submit writes at high rate.
> >
> > Just that it is not a very fair scheme right now as during right out
> > a high prio/high weight cgroup application can start writing out some
> > other cgroups' pages.
> >
> > For this we probably need to have some combination of solutions like
> > per cgroup upper limit on dirty pages. Secondly probably if an application
> > is slowed down because of hitting vm_drity_ratio, it should try to
> > write out the inode it is dirtying first instead of picking any random
> > inode and associated pages. This will ensure that a high weight
> > application can quickly get through the write outs and see higher
> > throughput from the disk.
>
> For the first, I submitted a patchset some months ago to provide this
> feature in the memory controller:
>
> https://lists.linux-foundation.org/pipermail/containers/2008-September/013140.html
>
> We focused on the best interface to use for setting the dirty pages
> limit, but we didn't finalize it. I can rework on that and repost an
> updated version. Now that we have the dirty_ratio/dirty_bytes to set the
> global limit I think we can use the same interface and the same semantic
> within the cgroup fs, something like:
>
> memory.dirty_ratio
> memory.dirty_bytes
>
> For the second point something like this should be enough to force tasks
> to write out only the inode they're actually dirtying when they hit the
> vm_dirty_ratio limit. But it should be tested carefully and may cause
> heavy performance regressions.
>
> Signed-off-by: Andrea Righi <righi.andrea@gmail.com>
> ---
> mm/page-writeback.c | 2 +-
> 1 files changed, 1 insertions(+), 1 deletions(-)
>
> diff --git a/mm/page-writeback.c b/mm/page-writeback.c
> index 2630937..1e07c9d 100644
> --- a/mm/page-writeback.c
> +++ b/mm/page-writeback.c
> @@ -543,7 +543,7 @@ static void balance_dirty_pages(struct address_space *mapping)
> * been flushed to permanent storage.
> */
> if (bdi_nr_reclaimable) {
> - writeback_inodes(&wbc);
> + sync_inode(mapping->host, &wbc);
> pages_written += write_chunk - wbc.nr_to_write;
> get_dirty_limits(&background_thresh, &dirty_thresh,
> &bdi_thresh, bdi);

This patch seems to be helping me a bit in getting more service
differentiation between two writer dd of different weights. But strangely
it is helping only for ext3 and not ext4. Debugging is on.

Thanks
Vivek


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