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charset=utf-8 Content-Disposition: inline Content-Transfer-Encoding: 8bit In-Reply-To: <2C7AE23B-ACA3-4D55-A907-AF781C5608F0@gmail.com> Precedence: bulk List-ID: X-Mailing-List: linux-kernel@vger.kernel.org On Tue, Jan 12, 2021 at 12:38:34PM -0800, Nadav Amit wrote: > > On Jan 12, 2021, at 11:56 AM, Yu Zhao wrote: > > > > On Tue, Jan 12, 2021 at 11:15:43AM -0800, Nadav Amit wrote: > >>> On Jan 12, 2021, at 11:02 AM, Laurent Dufour wrote: > >>> > >>> Le 12/01/2021 à 17:57, Peter Zijlstra a écrit : > >>>> On Tue, Jan 12, 2021 at 04:47:17PM +0100, Laurent Dufour wrote: > >>>>> Le 12/01/2021 à 12:43, Vinayak Menon a écrit : > >>>>>> Possibility of race against other PTE modifiers > >>>>>> > >>>>>> 1) Fork - We have seen a case of SPF racing with fork marking PTEs RO and that > >>>>>> is described and fixed here https://lore.kernel.org/patchwork/patch/1062672/ > >>>> Right, that's exactly the kind of thing I was worried about. > >>>>>> 2) mprotect - change_protection in mprotect which does the deferred flush is > >>>>>> marked under vm_write_begin/vm_write_end, thus SPF bails out on faults > >>>>>> on those VMAs. > >>>> Sure, mprotect also changes vm_flags, so it really needs that anyway. > >>>>>> 3) userfaultfd - mwriteprotect_range is not protected unlike in (2) above. > >>>>>> But SPF does not take UFFD faults. > >>>>>> 4) hugetlb - hugetlb_change_protection - called from mprotect and covered by > >>>>>> (2) above. > >>>>>> 5) Concurrent faults - SPF does not handle all faults. Only anon page faults. > >>>> What happened to shared/file-backed stuff? ISTR I had that working. > >>> > >>> File-backed mappings are not processed in a speculative way, there were options to manage some of them depending on the underlying file system but that's still not done. > >>> > >>> Shared anonymous mapping, are also not yet handled in a speculative way (vm_ops is not null). > >>> > >>>>>> Of which do_anonymous_page and do_swap_page are NONE/NON-PRESENT->PRESENT > >>>>>> transitions without tlb flush. And I hope do_wp_page with RO->RW is fine as well. > >>>> The tricky one is demotion, specifically write to non-write. > >>>>>> I could not see a case where speculative path cannot see a PTE update done via > >>>>>> a fault on another CPU. > >>>> One you didn't mention is the NUMA balancing scanning crud; although I > >>>> think that's fine, loosing a PTE update there is harmless. But I've not > >>>> thought overly hard on it. > >>> > >>> That's a good point, I need to double check on that side. > >>> > >>>>> You explained it fine. Indeed SPF is handling deferred TLB invalidation by > >>>>> marking the VMA through vm_write_begin/end(), as for the fork case you > >>>>> mentioned. Once the PTL is held, and the VMA's seqcount is checked, the PTE > >>>>> values read are valid. > >>>> That should indeed work, but are we really sure we covered them all? > >>>> Should we invest in better TLBI APIs to make sure we can't get this > >>>> wrong? > >>> > >>> That may be a good option to identify deferred TLB invalidation but I've no clue on what this API would look like. > >> > >> I will send an RFC soon for per-table deferred TLB flushes tracking. > >> The basic idea is to save a generation in the page-struct that tracks > >> when deferred PTE change took place, and track whenever a TLB flush > >> completed. In addition, other users - such as mprotect - would use > >> the tlb_gather interface. > >> > >> Unfortunately, due to limited space in page-struct this would only > >> be possible for 64-bit (and my implementation is only for x86-64). > > > > I don't want to discourage you but I don't think this would end up > > well. PPC doesn't necessarily follow one-page-struct-per-table rule, > > and I've run into problems with this before while trying to do > > something similar. > > Discourage, discourage. Better now than later. > > It will be relatively easy to extend the scheme to be per-VMA instead of > per-table for architectures that prefer it this way. It does require > TLB-generation tracking though, which Andy only implemented for x86, so I > will focus on x86-64 right now. > > [ For per-VMA it would require an additional cmpxchg, I presume to save the > last deferred generation though. ] > > > I'd recommend per-vma and per-category (unmapping, clearing writable > > and clearing dirty) tracking, which only rely on arch-independent data > > structures, i.e., vm_area_struct and mm_struct. > > I think that tracking changes on “what was changed” granularity is harder > and more fragile. > > Let me finish trying the clean up the mess first, since fullmm and > need_flush_all semantics were mixed; there are 3 different flushing schemes > for mprotect(), munmap() and try_to_unmap(); there are missing memory > barriers; mprotect() performs TLB flushes even when permissions are > promoted; etc. > > There are also some optimizations that we discussed before, such on x86 - > RW->RO does not require a TLB flush if a PTE is not dirty, etc. > > I am trying to finish something so you can say how terrible it is, so I will > not waste too much time. ;-) > > >> It would still require to do the copying while holding the PTL though. > > > > IMO, this is unacceptable. Most archs don't support per-table PTL, and > > even x86_64 can be configured to use per-mm PTL. What if we want to > > support a larger page size in the feature? > > > > It seems to me the only way to solve the problem with self-explanatory > > code and without performance impact is to check mm_tlb_flush_pending > > and the writable bit (and two other cases I mentioned above) at the > > same time. Of course, this requires a lot of effort to audit the > > existing uses, clean them up and properly wrap them up with new > > primitives, BUG_ON all invalid cases and document the exact workflow > > to prevent misuses. > > > > I've mentioned the following before -- it only demonstrates the rough > > idea. > > > > diff --git a/mm/memory.c b/mm/memory.c > > index 5e9ca612d7d7..af38c5ee327e 100644 > > --- a/mm/memory.c > > +++ b/mm/memory.c > > @@ -4403,8 +4403,11 @@ static vm_fault_t handle_pte_fault(struct vm_fault *vmf) > > goto unlock; > > } > > if (vmf->flags & FAULT_FLAG_WRITE) { > > - if (!pte_write(entry)) > > + if (!pte_write(entry)) { > > + if (mm_tlb_flush_pending(vmf->vma->vm_mm)) > > + flush_tlb_page(vmf->vma, vmf->address); > > return do_wp_page(vmf); > > + } > > entry = pte_mkdirty(entry); > > } > > entry = pte_mkyoung(entry); > > I understand. This might be required, regardless of the deferred flushes > detection scheme. If we assume that no write-unprotect requires a COW (which > should be true in this case, since we take a reference on the page), your > proposal should be sufficient. > > Still, I think that there are many unnecessary TLB flushes right now, > and others that might be missed due to the overly complicated invalidation > schemes. > > Regardless, as Andrea pointed, this requires first to figure out the > semantics of mprotect() and friends when pages are pinned. Thanks, I appreciate your effort. I'd be glad to review whatever you come up with.