Re: [PATCH 4/5] writeback: avoid livelocking WB_SYNC_ALL writeback

[Andrew Morton]

On Tue, 09 Nov 2010 07:09:20 +0800
Wu Fengguang <fengguang.wu@xxxxxxxxx> wrote:

> From: Jan Kara <jack@xxxxxxx>
> 
> When wb_writeback() is called in WB_SYNC_ALL mode, work->nr_to_write is
> usually set to LONG_MAX. The logic in wb_writeback() then calls
> __writeback_inodes_sb() with nr_to_write == MAX_WRITEBACK_PAGES and thus
> we easily end up with negative nr_to_write after the function returns.

No, nr_to_write can only be negative if the filesystem wrote back more
pages than requested.

> wb_writeback() then decides we need another round of writeback but this
> is wrong in some cases! For example when a single large file is
> continuously dirtied, we would never finish syncing it because each pass
> would be able to write MAX_WRITEBACK_PAGES and inode dirty timestamp
> never gets updated (as inode is never completely clean).

Well we shouldn't have asked the function to write LONG_MAX pages then!

The way this used to work was to try to write back N=(total dirty pages
+ total unstable pages + various fudge factors) to each superblock.  So
each superblock will get fully written back unless someone is madly
writing to it.  If that _is_ happening then we'll write a large amount
of data to it and will then give up and move onto the next superblock.

But the "large amount of data" is constrained to a sane upper limit:
total amount of dirty memory plus fudge factors.  Increasing that sane
upper limit to an insane 2^63-1 pages will *of course* cause sync() to
livelock.

Why was that sane->insane change made?

> Fix the issue by setting nr_to_write to LONG_MAX in WB_SYNC_ALL mode. We
> do not need nr_to_write in WB_SYNC_ALL mode anyway since livelock
> avoidance is done differently for it.

Here the changelog should spell out what "done differently" means. 
Because I really am unsure what is begin referred to.

I don't really see how this patch changes anything.  For WB_SYNC_ALL
requests the code will still try to write out 2^63 pages, only it does
it all in a single writeback_inodes_wb() call.  What prevents that call
itself from getting livelocked?

Perhaps the unmentioned problem here is that each call to
writeback_inodes_wb(MAX_WRITEBACK_PAGES) will restart its walk across
the inode lists.  So instead of giving up on a being-written-to-file,
we continuously revisit it again and again and again.

Correct?  If so, please add the description.  If incorrect, please add
the description as well ;)


Root cause time: it's those damn per-sb inode lists *again*.  They're
just awful.  We need some data structure there which is more amenable
to being iterated over.  Something against which we can store cursors,
for a start.


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