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SubjectRe: [PATCH v4] mm: fix is_pinnable_page against on cma page
On Tue, May 17, 2022 at 11:12:37AM -0700, John Hubbard wrote:
> On 5/17/22 07:00, Jason Gunthorpe wrote:
> > > > It does change the generated code slightly. I don't know if this will
> > > > affect performance here or not. But just for completeness, here you go:
> > > >
> > > > free_one_page() originally has this (just showing the changed parts):
> > > >
> > > > mov 0x8(%rdx,%rax,8),%rbx
> > > > and $0x3f,%ecx
> > > > shr %cl,%rbx
> > > > and $0x7,
> > > >
> > > >
> > > > And after applying this diff:
> > > >
> > > > diff --git a/mm/page_alloc.c b/mm/page_alloc.c
> > > > index 0e42038382c1..df1f8e9a294f 100644
> > > > +++ b/mm/page_alloc.c
> > > > @@ -482,7 +482,7 @@ unsigned long __get_pfnblock_flags_mask(const struct
> > > > page *page,
> > > > word_bitidx = bitidx / BITS_PER_LONG;
> > > > bitidx &= (BITS_PER_LONG-1);
> > > >
> > > > - word = bitmap[word_bitidx];
> > > > + word = READ_ONCE(bitmap[word_bitidx]);
> > > > return (word >> bitidx) & mask;
> > > > }
> > > >
> > > >
> > > > ...it now does an extra memory dereference:
> > > >
> > > > lea 0x8(%rdx,%rax,8),%rax
> > > > and $0x3f,%ecx
> > > > mov (%rax),%rbx
> > > > shr %cl,%rbx
> > > > and $0x7,%ebx
> >
> > Where is the extra memory reference? 'lea' is not a memory reference,
> > it is just some maths?
>
> If you compare this to the snippet above, you'll see that there is
> an extra mov statement, and that one dereferences a pointer from
> %rax:
>
> mov (%rax),%rbx

That is the same move as:

mov 0x8(%rdx,%rax,8),%rbx

Except that the EA calculation was done in advance and stored in rax.

lea isn't a memory reference, it is just computing the pointer value
that 0x8(%rdx,%rax,8) represents. ie the lea computes

%rax = %rdx + %rax*8 + 6

Which is then fed into the mov. Maybe it is an optimization to allow
one pipe to do the shr and an other to the EA - IDK, seems like a
random thing for the compiler to do.
> > IMHO putting a READ_ONCE on something that is not a memory load from
> > shared data is nonsense - if a simple == has a stability risk then so
> > does the '(word >> bitidx) & mask'.
>
> Doing something like this:
>
> int __x = y();
> int x = READ_ONCE(__x);
>
> is just awful! I agree. Really, y() should handle any barriers, because
> otherwise it really does look pointless, and people reading the code
> need something that is clearer. My first reaction was that this was
> pointless and wrong, and it turns out that that's only about 80% true:
> as long as LTO-of-the-future doesn't arrive, and as long as no one
> refactors y() to be inline.

It is always pointless, because look at the whole flow:

y():
word = bitmap[word_bitidx];
return (word >> bitidx) & mask;

int __x = y()
int x = READ_ONCE(__x)

The requirement here is for a coherent read of bitmap[word_bitidx]
that is not mangled by multi-load, load tearing or other theoritcal
compiler problems. Stated more clearly if bitmap[] has values {A,B,C}
then the result of all this in x should always be {A',B',C'} according
to the given maths, never, ever an impossible value D.

The nature of the compiler problems we are trying to prevent is that
the compiler my take a computation that seems deterministic and
corrupt it somehow by making an assumption that the memory is stable
when it is not.

For instance == may not work right if the compiler decides to do:

if (READ_ONCE(a) == 1 && READ_ONCE(a) == 1)

This also means that >> and & could malfunction. So when LTO expands
and inlines everything and you get this:

if (READ_ONCE((bitmap[word_bitidx] >> bitidx) & mask) == MIGRATE_CMA)

It is still not safe because the >> and & could have multi-loaded or
torn the read in some way that it is no longer a sane
calculation. (for instance imagine that the compiler decides to read
the value byte-at-a-time without READ_ONCE)

ie the memory may have had A racing turning into C but x computed into
D not A'.

Paul can correct me, but I understand we do not have a list of allowed
operations that are exempted from the READ_ONCE() requirement. ie it
is not just conditional branching that requires READ_ONCE().

This is why READ_ONCE() must always be on the memory load, because the
point is to sanitize away the uncertainty that comes with an unlocked
read of unstable memory contents. READ_ONCE() samples the value in
memory, and removes all tearing, multiload, etc "instability" that may
effect down stream computations. In this way down stream compulations
become reliable.

Jason

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