lkml.org 
[lkml]   [2014]   [Jun]   [2]   [last100]   RSS Feed
Views: [wrap][no wrap]   [headers]  [forward] 
 
Messages in this thread
/
Date
From
SubjectRe: [RFC][PATCH 1/2] Add a super operation for writeback
On the 1st of June 2014 23:41, Daniel Phillips wrote:
> Hi,
>
> This is the first of four core changes we would like for Tux3. We
> start with a hard one and suggest a simple solution.
>
> The first patch in this series adds a new super operation to write
> back multiple inodes in a single call. The second patch applies to
> our linux-tux3 repository at git.kernel.org to demonstrate how this
> interface is used, and removes about 450 lines of workaround code.
>
> Traditionally, core kernel tells each mounted filesystems which
> dirty pages of which inodes should be flushed to disk, but
> unfortunately, is blissfully ignorant of filesystem-specific
> ordering constraints. This scheme was really invented for Ext2 and
> has not evolved much recently. Tux3, with its strong ordering and
> optimized delta commit, cannot tolerate random flushing and
> therefore takes responsibility for flush ordering itself. On the
> other hand, Tux3 has no good way to know when is the right time to
> flush, but core is good at that. This proposed API harmonizes those
> two competencies so that Tux3 and core each take care of what they
> are good at, and not more.
>
> The API extension consists of a new writeback hook and two helpers
> to be uses within the hook. The hook sits about halfway down the
> fs-writeback stack, just after core has determined that some dirty
> inodes should be flushed to disk and just before it starts thinking
> about which inodes those should be. At that point, core calls Tux3
> instead of continuing on down the usual do_writepages path. Tux3
> responds by staging a new delta commit, using the new helpers to
> tell core which inodes were flushed versus being left dirty in
> cache. This is pretty much the same behavior as the traditional
> writeout path, but less convoluted, probably more efficient, and
> certainly easier to analyze.
>
> The new writeback hook looks like:
>
> progress = sb->s_op->writeback(sb,&writeback_control,&nr_pages);
>
> This should be self-explanatory: nr_pages and progress have the
> semantics of existing usage in fs-writeback; writeback_control is
> ignored by Tux3, but that is only because Tux3 always flushes
> everything and does not require hints for now. We can safely assume
> that&wbc or equivalent is wanted here. An obvious wart is the
> overlap between "progress" and "nr_pages", but fs-writeback thinks
> that way, so it would not make much sense to improve one without
> improving the other.
>
> Tux3 necessarily keeps its own dirty inode list, which is an area
> of overlap with fs-writeback. In a perfect world, there would be
> just one dirty inode list per superblock, on which both fs-writeback
> and Tux3 would operate. That would be a deeper core change than
> seems appropriate right now.
>
> Potential races are a big issue with this API, which is no surprise.
> The fs-writeback scheme requires keeping several kinds of object in
> sync: tux3 dirty inode lists, fs-writeback dirty inode lists and
> inode dirty state. The new helpers inode_writeback_done(inode) and
> inode_writeback_touch(inode) take care of that while hiding
> internal details of the fs-writeback implementation.
>
> Tux3 calls inode_writeback_done when it has flushed an inode and
> marked it clean, or calls inode_writeback_touch if it intends to
> retain a dirty inode in cache. These have simple implementations.
> The former just removes a clean inode from any fs-writeback list.
> The latter updates the inode's dirty timestamp so that fs-writeback
> does not keep trying flush it. Both these things could be done more
> efficiently by re-engineering fs-writeback, but we prefer to work
> with the existing scheme for now.
>
> Hirofumi's masterful hack nicely avoided racy removal of inodes from
> the writeback list by taking an internal fs-writeback lock inside
> filesystem code. The new helper requires dropping i_lock inside
> filesystem code and retaking it in the helper, so inode redirty can
> race with writeback list removal. This does not seem to present a
> problem because filesystem code is able to enforce strict
> alternation of cleaning and calling the helper. As an offsetting
> advantage, writeback lock contention is reduced.
>
> Compared to Hirofumi's hack, the cost of this interface is one
> additional spinlock per inode_writeback_done, which is
> insignificant compared to the convoluted code path that is avoided.
> Regards,
>
> Daniel
When I followed the advice of Dave Chinner:
"We're not going to merge that page forking stuff (like you were told at
LSF 2013 more than a year ago: http://lwn.net/Articles/548091/) without
rigorous design review and a demonstration of the solutions to all the
hard corner cases it has"
given in his e-mail related with the presentation of the latest version
of the Tux3 file system (see [1]) and read the linked article, I found
in the second comments:
"Parts of this almost sound like it either a.) overlaps with or b.)
would benefit greatly from something similar to Featherstitch [[2]]."

Could it be that we have with Featherstitch a general solution already
that is said to be even "file system agnostic"?
Honestly, I thought that something like this would make its way into the
Linux code base.



Have fun
Christian

[1] Dave Chinner Re: [RFC] Tux3 for review
https://lkml.org/lkml/2014/5/18/158
[2] Featherstitch http://featherstitch.cs.ucla.edu/


\
 
 \ /
  Last update: 2014-06-02 11:21    [W:0.456 / U:0.520 seconds]
©2003-2020 Jasper Spaans|hosted at Digital Ocean and TransIP|Read the blog|Advertise on this site