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SubjectRe: [PATCH 1/2] mm: introduce put_user_page*(), placeholder versions
On Fri, Dec 14, 2018 at 04:43:21PM +0100, Jan Kara wrote:
> Hi!
> On Thu 13-12-18 08:46:41, Dave Chinner wrote:
> > On Wed, Dec 12, 2018 at 10:03:20AM -0500, Jerome Glisse wrote:
> > > On Mon, Dec 10, 2018 at 11:28:46AM +0100, Jan Kara wrote:
> > > > On Fri 07-12-18 21:24:46, Jerome Glisse wrote:
> > > > So this approach doesn't look like a win to me over using counter in struct
> > > > page and I'd rather try looking into squeezing HMM public page usage of
> > > > struct page so that we can fit that gup counter there as well. I know that
> > > > it may be easier said than done...
> > >
> > > So i want back to the drawing board and first i would like to ascertain
> > > that we all agree on what the objectives are:
> > >
> > > [O1] Avoid write back from a page still being written by either a
> > > device or some direct I/O or any other existing user of GUP.
> > > This would avoid possible file system corruption.
> > >
> > > [O2] Avoid crash when set_page_dirty() is call on a page that is
> > > considered clean by core mm (buffer head have been remove and
> > > with some file system this turns into an ugly mess).
> >
> > I think that's wrong. This isn't an "avoid a crash" case, this is a
> > "prevent data and/or filesystem corruption" case. The primary goal
> > we have here is removing our exposure to potential corruption, which
> > has the secondary effect of avoiding the crash/panics that currently
> > occur as a result of inconsistent page/filesystem state.
> >
> > i.e. The goal is to have ->page_mkwrite() called on the clean page
> > /before/ the file-backed page is marked dirty, and hence we don't
> > expose ourselves to potential corruption or crashes that are a
> > result of inappropriately calling set_page_dirty() on clean
> > file-backed pages.
> I agree that [O1] - i.e., avoid corrupting fs data - is more important and
> [O2] is just one consequence of [O1].
> > > For [O1] and [O2] i believe a solution with mapcount would work. So
> > > no new struct, no fake vma, nothing like that. In GUP for file back
> > > pages we increment both refcount and mapcount (we also need a special
> > > put_user_page to decrement mapcount when GUP user are done with the
> > > page).
> >
> > I don't see how a mapcount can prevent anyone from calling
> > set_page_dirty() inappropriately.
> >
> > > Now for [O1] the write back have to call page_mkclean() to go through
> > > all reverse mapping of the page and map read only. This means that
> > > we can count the number of real mapping and see if the mapcount is
> > > bigger than that. If mapcount is bigger than page is pin and we need
> > > to use a bounce page to do the writeback.
> >
> > Doesn't work. Generally filesystems have already mapped the page
> > into bios before they call clear_page_dirty_for_io(), so it's too
> > late for the filesystem to bounce the page at that point.
> Yes, for filesystem it is too late. But the plan we figured back in October
> was to do the bouncing in the block layer. I.e., mark the bio (or just the
> particular page) as needing bouncing and then use the existing page
> bouncing mechanism in the block layer to do the bouncing for us. Ext3 (when
> it was still a separate fs driver) has been using a mechanism like this to
> make DIF/DIX work with its metadata.

Sure, that's a possibility, but that doesn't close off any race
conditions because there can be DMA into the page in progress while
the page is being bounced, right? AFAICT this ext3+DIF/DIX case is
different in that there is no 3rd-party access to the page while it
is under IO (ext3 arbitrates all access to it's metadata), and so
nothing can actually race for modification of the page between
submission and bouncing at the block layer.

In this case, the moment the page is unlocked, anyone else can map
it and start (R)DMA on it, and that can happen before the bio is
bounced by the block layer. So AFAICT, block layer bouncing doesn't
solve the problem of racing writeback and DMA direct to the page we
are doing IO on. Yes, it reduces the race window substantially, but
it doesn't get rid of it.

/me points to wait_for_stable_page() in ->page_mkwrite as the
mechanism we already have to avoid races between dirtying mapped
pages and page writeback....

> > > For [O2] i believe we can handle that case in the put_user_page()
> > > function to properly dirty the page without causing filesystem
> > > freak out.
> >
> > I'm pretty sure you can't call ->page_mkwrite() from
> > put_user_page(), so I don't think this is workable at all.
> Yes, calling ->page_mkwrite() in put_user_page() is not only technically
> complicated but also too late - DMA has already modified page contents.
> What we planned to do (again discussed back in October) was to never allow
> the pinned page to become clean. I.e., clear_page_dirty_for_io() would
> leave pinned pages dirty. Also we would skip pinned pages for WB_SYNC_NONE
> writeback as there's no point in that really. That way MM and filesystems
> would be aware of the real page state - i.e., what's in memory is not in
> sync (potentially) with what's on disk. I was thinking whether this
> permanently-dirty state couldn't confuse filesystem in some way but I
> didn't find anything serious - the worst I could think of are places that
> do filemap_write_and_wait() and then invalidate page cache e.g. before hole
> punching or extent shifting.

If it's permanently dirty, how do we trigger new COW operations
after writeback has "cleaned" the page? i.e. we still need a
->page_mkwrite call to run before we allow the next write to the
page to be done, regardless of whether the page is "permanently
dirty" or not....

> But these should work fine as is (page cache
> invalidation will just happily truncate dirty pages). DIO might get
> confused by the inability to invalidate dirty pages but then user combining
> RDMA with DIO on the same file at one moment gets what he deserves...

I'm almost certain this will do something that will occur. i.e.
permanently mapped RDMA file, filesystem backup program uses DIO....


Dave Chinner

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