Re: [PATCH v5 4/6] mm: make vma cache SLAB_TYPESAFE_BY_RCU

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On Tue, Dec 10, 2024 at 9:25 AM Vlastimil Babka <vbabka@xxxxxxx> wrote:
>
> On 12/10/24 18:16, Suren Baghdasaryan wrote:
> > On Tue, Dec 10, 2024 at 8:32 AM Vlastimil Babka <vbabka@xxxxxxx> wrote:
> >>
> >> On 12/10/24 17:20, Suren Baghdasaryan wrote:
> >> > On Tue, Dec 10, 2024 at 6:21 AM Vlastimil Babka <vbabka@xxxxxxx> wrote:
> >> >>
> >> >> On 12/6/24 23:52, Suren Baghdasaryan wrote:
> >> >> > To enable SLAB_TYPESAFE_BY_RCU for vma cache we need to ensure that
> >> >> > object reuse before RCU grace period is over will be detected inside
> >> >> > lock_vma_under_rcu().
> >> >> > lock_vma_under_rcu() enters RCU read section, finds the vma at the
> >> >> > given address, locks the vma and checks if it got detached or remapped
> >> >> > to cover a different address range. These last checks are there
> >> >> > to ensure that the vma was not modified after we found it but before
> >> >> > locking it.
> >> >> > vma reuse introduces several new possibilities:
> >> >> > 1. vma can be reused after it was found but before it is locked;
> >> >> > 2. vma can be reused and reinitialized (including changing its vm_mm)
> >> >> > while being locked in vma_start_read();
> >> >> > 3. vma can be reused and reinitialized after it was found but before
> >> >> > it is locked, then attached at a new address or to a new mm while
> >> >> > read-locked;
> >> >> > For case #1 current checks will help detecting cases when:
> >> >> > - vma was reused but not yet added into the tree (detached check)
> >> >> > - vma was reused at a different address range (address check);
> >> >> > We are missing the check for vm_mm to ensure the reused vma was not
> >> >> > attached to a different mm. This patch adds the missing check.
> >> >> > For case #2, we pass mm to vma_start_read() to prevent access to
> >> >> > unstable vma->vm_mm. This might lead to vma_start_read() returning
> >> >> > a false locked result but that's not critical if it's rare because
> >> >> > it will only lead to a retry under mmap_lock.
> >> >> > For case #3, we ensure the order in which vma->detached flag and
> >> >> > vm_start/vm_end/vm_mm are set and checked. vma gets attached after
> >> >> > vm_start/vm_end/vm_mm were set and lock_vma_under_rcu() should check
> >> >> > vma->detached before checking vm_start/vm_end/vm_mm. This is required
> >> >> > because attaching vma happens without vma write-lock, as opposed to
> >> >> > vma detaching, which requires vma write-lock. This patch adds memory
> >> >> > barriers inside is_vma_detached() and vma_mark_attached() needed to
> >> >> > order reads and writes to vma->detached vs vm_start/vm_end/vm_mm.
> >> >> > After these provisions, SLAB_TYPESAFE_BY_RCU is added to vm_area_cachep.
> >> >> > This will facilitate vm_area_struct reuse and will minimize the number
> >> >> > of call_rcu() calls.
> >> >> >
> >> >> > Signed-off-by: Suren Baghdasaryan <surenb@xxxxxxxxxx>
> >> >>
> >> >> I'm wondering about the vma freeing path. Consider vma_complete():
> >> >>
> >> >> vma_mark_detached(vp->remove);
> >> >>   vma->detached = true; - plain write
> >> >> vm_area_free(vp->remove);
> >> >>   vma->vm_lock_seq = UINT_MAX; - plain write
> >> >>   kmem_cache_free(vm_area_cachep)
> >> >> ...
> >> >> potential reallocation
> >> >>
> >> >> against:
> >> >>
> >> >> lock_vma_under_rcu()
> >> >> - mas_walk finds a stale vma due to race
> >> >> vma_start_read()
> >> >>   if (READ_ONCE(vma->vm_lock_seq) == READ_ONCE(mm->mm_lock_seq.sequence))
> >> >>   - can be false, the vma was not being locked on the freeing side?
> >> >>   down_read_trylock(&vma->vm_lock.lock) - suceeds, wasn't locked
> >> >>     this is acquire, but was there any release?
> >> >
> >> > Yes, there was a release. I think what you missed is that
> >> > vma_mark_detached() that is called from vma_complete() requires VMA to
> >> > be write-locked (see vma_assert_write_locked() in
> >> > vma_mark_detached()). The rule is that a VMA can be attached without
> >> > write-locking but only a write-locked VMA can be detached. So, after
> >>
> >> OK but write unlocking means the mm's seqcount is bumped and becomes
> >> non-equal with vma's vma->vm_lock_seq, right?
> >>
> >> Yet in the example above we happily set it to UINT_MAX and thus effectively
> >> false unlock it for vma_start_read()?
> >>
> >> And this is all done before the vma_complete() side would actually reach
> >> mmap_write_unlock(), AFAICS.
> >
> > Ah, you are right. With the possibility of reuse, even a freed VMA
> > should be kept write-locked until it is unlocked by
> > mmap_write_unlock(). I think the fix for this is simply to not reset
> > vma->vm_lock_seq inside vm_area_free(). I'll also need to add a
>
> But even if we don't reset vm_lock_seq to UINT_MAX, then whover reallocated
> it can proceed and end up doing a vma_start_write() and rewrite it there
> anyway, no?

Ugh, yes. It looks like we will need a write memory barrier in
vma_mark_detached() to make it immediately visible.

Case 1:
                                      lock_vma_under_rcu()
vma_complete()
    vma_mark_detached(vp->remove);
        vma->detached = true;
        smp_wmb();
    vm_area_free(vp->remove);
        vma->vm_lock_seq = UINT_MAX;

                                       vma_start_read()
                                          is_vma_detached() <<- abort

       kmem_cache_free(vm_area_cachep);
mmap_write_unlock()


Case 2:
                                      lock_vma_under_rcu()
vma_complete()
    vma_mark_detached(vp->remove);
        vma->detached = true;
        smp_wmb();
    vm_area_free(vp->remove);
        vma->vm_lock_seq = UINT_MAX;

                                       vma_start_read()

        kmem_cache_free(vm_area_cachep);
mmap_write_unlock() // changes mm->mm_lock_seq but does not matter
                    // reader holds vma->vm_lock, so new writers have to wait
    ...
    vm_area_alloc();
    // sets all vma attributes
    vma_mark_attached();
        smp_wmb();

                                           // if is_vma_detached() called
                                           //  before this point, we will
                                           // abort like in Case 1

        vma->detached = true;
                                           is_vma_detached()
                                           // check vm_mm, vm_start, vm_end
                                           // if all checks pass, this is a
                                           // new attached vma and it's
                                           // read-locked (can't be modified)

Did I miss any other race?

>
> > comment for vm_lock_seq explaining these requirements.
> > Do you agree that such a change would resolve the issue?
> >
> >>
> >> > vma_mark_detached() and before down_read_trylock(&vma->vm_lock.lock)
> >> > in vma_start_read() the VMA write-lock should have been released by
> >> > mmap_write_unlock() and therefore vma->detached=false should be
> >> > visible to the reader when it executed lock_vma_under_rcu().
> >> >
> >> >>   is_vma_detached() - false negative as the write above didn't propagate
> >> >>     here yet; a read barrier but where is the write barrier?
> >> >>   checks for vma->vm_mm, vm_start, vm_end - nobody reset them yet so false
> >> >>     positive, or they got reset on reallocation but writes didn't propagate
> >> >>
> >> >> Am I missing something that would prevent lock_vma_under_rcu() falsely
> >> >> succeeding here?
> >> >>
> >>
>





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