Re: Latency writing to an mlocked ext4 mapping

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On Mon, Oct 31, 2011 at 4:10 PM, Jan Kara <jack@xxxxxxx> wrote:
> On Fri 28-10-11 16:37:03, Andy Lutomirski wrote:
>> On Tue, Oct 25, 2011 at 5:26 AM, Jan Kara <jack@xxxxxxx> wrote:
>> >>  - Why are we calling file_update_time at all?  Presumably we also
>> >> update the time when the page is written back (if not, that sounds
>> >> like a bug, since the contents may be changed after something saw the
>> >> mtime update), and, if so, why bother updating it on the first write?
>> >> Anything that relies on this behavior is, I think, unreliable, because
>> >> the page could be made writable arbitrarily early by another program
>> >> that changes nothing.
>> >  We don't update timestamp when the page is written back. I believe this
>> > is mostly because we don't know whether the data has been changed by a
>> > write syscall, which already updated the timestamp, or by mmap. That is
>> > also the reason why we update the timestamp at page fault time.
>> >
>> >  The reason why file_update_time() blocks for you is probably that it
>> > needs to get access to buffer where inode is stored on disk and because a
>> > transaction including this buffer is committing at the moment, your thread
>> > has to wait until the transaction commit finishes. This is mostly a problem
>> > specific to how ext4 works so e.g. xfs shouldn't have it.
>> >
>> >  Generally I believe the attempts to achieve any RT-like latencies when
>> > writing to a filesystem are rather hopeless. How much hopeless depends on
>> > the load of the filesystem (e.g., in your case of mostly idle filesystem I
>> > can imagine some tweaks could reduce your latencies to an acceptable level
>> > but once the disk gets loaded you'll be screwed). So I'd suggest that
>> > having RT thread just store log in memory (or write to a pipe) and have
>> > another non-RT thread write the data to disk would be a much more robust
>> > design.
>>
>> Windows seems to do pretty well at this, and I think it should be fixable on
>> Linux too.  "All" that needs to be done is to remove the pte_wrprotect from
>> page_mkclean_one.  The fallout from that might be unpleasant, though, but
>> it would probably speed up a number of workloads.
>  Well, but Linux's mm pretty much depends the pte_wrprotect() so that's
> unlikely to go away in a forseeable future. The reason is that we need to
> reliably account the number of dirty pages so that we can throttle
> processes that dirty too much of memory and also protect agaist system
> going into out-of-memory problems when too many pages would be dirty (and
> thus hard to reclaim). Thus we create clean pages as write-protected, when
> they are first written to, we account them as dirtied and unprotect them.
> When pages are cleaned by writeback, we decrement number of dirty pages
> accordingly and write-protect them again.

What about skipping pte_wrprotect for mlocked pages and continuing to
account them dirty even if they're actually clean?  This should be a
straightforward patch except for the effect on stable pages for
writeback.  (It would also have unfortunate side effects on
ctime/mtime without my other patch to rearrange that code.)

>
>> Adding a whole separate process just to copy data from memory to disk sounds
>> a bit like a hack -- that's what mmap + mlock would do if it worked better.
>  Well, always only guarantees you cannot hit major fault when accessing
> the page. And we keep that promise - we only hit a minor fault. But I agree
> that for your usecase this is impractical.

Not really true.  We never fault in the page, but make_write can wait
for I/O (for hundreds of ms) which is just as bad.

>
> I can see as theoretically feasible for writeback to skip mlocked pages
> which would help your case. But practically, I do not see how to implement
> that efficiently (just skipping a dirty page when we find it's mlocked
> seems like a way to waste CPU needlessly).
>
>> Incidentally, pipes are no good.  I haven't root-caused it yet, but both
>> reading to and writing from pipes, even if O_NONBLOCK, can block.  I
>> haven't root-caused it yet.
>  Interesting. I imagine they could block on memory allocation but I guess
> you don't put that much pressure on your system. So it might be interesting
> to know where else they block...

I'll figure it out in a couple of days, I imagine.

--Andy

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