Re: Major btrfs fiemap slowdown on file with many extents once in cache (RCU stalls?) (Was: [PATCH 1/3] filemap: Correct the conditions for marking a folio as accessed)

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 



(added btrfs maintainers in direct cc)

Yu Kuai wrote on Fri, Jul 01, 2022 at 09:55:31AM +0800:
> With this patch ctive_page() will be called the second time that page is
> mark accessed, which has some extra overhead, however, 2GB/s -> 100MB/s
> is insane, I'm not sure how this is possible, but it seems like it has
> something to do with this change.(Noted that it's problematic that page
> will not mark accessed before this patch).

I honestly don't understand why folio being marked as accessed affects
how fiemap is processed...
My guess would be that this indeed "just fixes" that pages didn't get
marked as accessed -> were dropped from cache -> it kept the inode
io_tree small -> fiemap was fast ; and it really just a problem that the
fiemap algorithm doesn't scale, but I haven't really checked if I'm
right here.


So I don't think we should focus so much on the regression part as to
figure out what's actually different the second time around and make
that faster.


checking with 'perf script' btrfs_get_extent_fiemap() spends most of its
time on this:
 delalloc_len = count_range_bits(&inode->io_tree, &delalloc_start,
                                 end, len, EXTENT_DELALLOC, 1);

I have no idea what delalloc is supposed to be, but I can guess there is
just way too many nodes in the io_tree: why is that and why wasn't there
so many the first time around? I would assumed that as the file gets
read it is put into cache, so the end of the first read should slow down
as well but it didn't, so I'm sure I misunderstood something and I'm
wasting everyone's time. Feel free to ignore me and find the issue
instead :)


> BTW, during my test, the speed of buffer read in ext4 only fell down a
> little.

For "normal" files that don't have ~200k extents full of holes and
compression changes and whatever else this has gone through, I can
confirm the slowdown is not as bad -- almost unnoticeable when few
extents.
but I still have my laptop cashing when I'm copying this file twice
(well, I -could- just turn off panic_on_stall...) so it can go from a
little to infinity...


Thanks,

(Leaving rest of the message for anyone catching up now; if there's
anything you'd like me to do feel free to ask.)

> > I've taken a moment to bisect this and came down to this patch.
> > (5ccc944dce3d ("filemap: Correct the conditions for marking a folio
> > as accessed"))
> > 
> > [1] https://lore.kernel.org/all/YrrFGO4A1jS0GI0G@xxxxxxxxxxxxxxxxx/T/#u
> > 
> > 
> > 
> > Dropping caches (echo 3 > /proc/sys/vm/drop_caches) restore the speed,
> > so there appears to be some bad effect to having the file in cache for
> > fiemap?
> > To be fair that file is pretty horrible:
> > ---
> > # compsize bigfile
> > Processed 1 file, 194955 regular extents (199583 refs), 0 inline.
> > Type       Perc     Disk Usage   Uncompressed Referenced
> > TOTAL       15%      3.7G          23G          23G
> > none       100%      477M         477M         514M
> > zstd        14%      3.2G          23G          23G
> > ---
> > 
> > Here's what perf has to say about it on top of this patch when running
> > `cp bigfile /dev/null` the first time:
> > 
> > 98.97%     0.00%  cp       [kernel.kallsyms]    [k]
> > entry_SYSCALL_64_after_hwframe
> >   entry_SYSCALL_64_after_hwframe
> >   do_syscall_64
> >    - 93.40% ksys_read
> >       - 93.36% vfs_read
> >          - 93.25% new_sync_read
> >             - 93.20% filemap_read
> >                - 83.38% filemap_get_pages
> >                   - 82.76% page_cache_ra_unbounded
> >                      + 59.72% folio_alloc
> >                      + 13.43% read_pages
> >                      + 8.75% filemap_add_folio
> >                        0.64% xa_load
> >                     0.52% filemap_get_read_batch
> >                + 8.75% copy_page_to_iter
> >    - 4.73% __x64_sys_ioctl
> >       - 4.72% do_vfs_ioctl
> >          - btrfs_fiemap
> >             - 4.70% extent_fiemap
> >                + 3.95% btrfs_check_shared
> >                + 0.70% get_extent_skip_holes
> > 
> > and second time:
> > 99.90%     0.00%  cp       [kernel.kallsyms]    [k]
> > entry_SYSCALL_64_after_hwfram
> >   entry_SYSCALL_64_after_hwframe
> >   do_syscall_64
> >    - 94.62% __x64_sys_ioctl
> >         do_vfs_ioctl
> >         btrfs_fiemap
> >       - extent_fiemap
> >          - 50.01% get_extent_skip_holes
> >             - 50.00% btrfs_get_extent_fiemap
> >                - 49.97% count_range_bits
> >                     rb_next
> >          + 28.72% lock_extent_bits
> >          + 15.55% __clear_extent_bit
> >    - 5.21% ksys_read
> >       + 5.21% vfs_read
> > 
> > (if this isn't readable, 95% of the time is spent on fiemap the second
> > time around)
> > 
> > 
> > 
> > 
> > I've also been observing RCU stalls on my laptop with the same workload
> > (cp to /dev/null), but unfortunately I could not reproduce in qemu so I
> > could not take traces to confirm they are caused by the same commit but
> > given the workload I'd say that is it?
> > I can rebuild a kernel for my laptop and confirm if you think it should
> > be something else.
> > 
> > 
> > I didn't look at the patch itself (yet) so have no suggestion at this
> > point - it's plausible the patch fixed something and just exposed slow
> > code that had been there all along so it might be better to look at the
> > btrfs side first, I don't know.
> > If you don't manage to reproduce I'll be happy to test anything thrown
> > at me at the very least.

-- 
Dominique




[Index of Archives]     [Linux ARM Kernel]     [Linux ARM]     [Linux Omap]     [Fedora ARM]     [IETF Annouce]     [Bugtraq]     [Linux OMAP]     [Linux MIPS]     [eCos]     [Asterisk Internet PBX]     [Linux API]

  Powered by Linux