On Wed, Dec 12, 2018 at 7:03 AM Jerome Glisse <jglisse@xxxxxxxxxx> 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: > > > Another crazy idea, why not treating GUP as another mapping of the page > > > and caller of GUP would have to provide either a fake anon_vma struct or > > > a fake vma struct (or both for PRIVATE mapping of a file where you can > > > have a mix of both private and file page thus only if it is a read only > > > GUP) that would get added to the list of existing mapping. > > > > > > So the flow would be: > > > somefunction_thatuse_gup() > > > { > > > ... > > > GUP(_fast)(vma, ..., fake_anon, fake_vma); > > > ... > > > } > > > > > > GUP(vma, ..., fake_anon, fake_vma) > > > { > > > if (vma->flags == ANON) { > > > // Add the fake anon vma to the anon vma chain as a child > > > // of current vma > > > } else { > > > // Add the fake vma to the mapping tree > > > } > > > > > > // The existing GUP except that now it inc mapcount and not > > > // refcount > > > GUP_old(..., &nanonymous, &nfiles); > > > > > > atomic_add(&fake_anon->refcount, nanonymous); > > > atomic_add(&fake_vma->refcount, nfiles); > > > > > > return nanonymous + nfiles; > > > } > > > > Thanks for your idea! This is actually something like I was suggesting back > > at LSF/MM in Deer Valley. There were two downsides to this I remember > > people pointing out: > > > > 1) This cannot really work with __get_user_pages_fast(). You're not allowed > > to get necessary locks to insert new entry into the VMA tree in that > > context. So essentially we'd loose get_user_pages_fast() functionality. > > > > 2) The overhead e.g. for direct IO may be noticeable. You need to allocate > > the fake tracking VMA, get VMA interval tree lock, insert into the tree. > > Then on IO completion you need to queue work to unpin the pages again as you > > cannot remove the fake VMA directly from interrupt context where the IO is > > completed. > > > > You are right that the cost could be amortized if gup() is called for > > multiple consecutive pages however for small IOs there's no help... > > > > 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). > > [O3] DAX and the device block problems, ie with DAX the page map in > userspace is the same as the block (persistent memory) and no > filesystem nor block device understand page as block or pinned > block. > > For [O3] i don't think any pin count would help in anyway. I believe > that the current long term GUP API that does not allow GUP of DAX is > the only sane solution for now. No, that's not a sane solution, it's an emergency hack. > The real fix would be to teach file- > system about DAX/pinned block so that a pinned block is not reuse > by filesystem. We already have taught filesystems about pinned dax pages, see dax_layout_busy_page(). As much as possible I want to eliminate the concept of "dax pages" as a special case that gets sprinkled throughout the mm. > 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 With get_user_pages_fast() we don't know that we have a file-backed page, because we don't have a vma.