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SubjectRe: [PATCH] documentation: Fix two-CPU control-dependency example
On Mon, Jul 24, 2017 at 09:04:57AM +0900, Akira Yokosawa wrote:
> On 2017/07/23 23:39:36 +0800, Boqun Feng wrote:
> > On Sat, Jul 22, 2017 at 09:43:00PM -0700, Paul E. McKenney wrote:
> > [...]
> >>> Your priority seemed to be in reducing the chance of the "if" statement
> >>> to be optimized away. So I suggested to use "extern" as a compromise.
> >>
> >
> > Hi Akira,
> >
>
> Hi Boqun,
>
> > The problem is that, such a compromise doesn't help *developers* write
> > good concurrent code. The document should serve as a reference book for
> > the developers, and with the compromise you suggest, the developers will
> > possibly add "extern" to their shared variables. This is not only
> > unrealistic but also wrong, because "extern" means external for
> > translation units(compiling units), not external for execution
> > units(CPUs).
>
> Yes, I suggested it regarding the situation when the tiny litmus test
> is compiled in a translation unit. Also it might not be effective once
> link time optimization becomes "smart" enough.
>
> And I agree it was not appropriate for memory-barriers.txt.
>
> >
> > And as I said, the proper semantics of READ_ONCE() should work well
> > without using "extern", if we find a 'volatile' load doesn't work, we
> > can find another way (writing in asm or use asm volatile("" : "+m"(var));
> > to indicate @var changed). And the compromise just changes the
> > semantics... To me, it's not worth changing the semantics because the
> > implementation might be broken in the feature ;-)
>
> I agree.
>
> >
> >
> >> If the various tools accept the "extern", this might not be a bad thing
> >> to do.
> >>
> >> But what this really means is that I need to take another tilt at
> >> the "volatile" windmill in the committee.
> >>
> >>> Another way would be to express the ">=" version in a pseudo-asm form.
> >>>
> >>> CPU 0 CPU 1
> >>> ======================= =======================
> >>> r1 = LOAD x r2 = LOAD y
> >>> if (r1 >= 0) if (r2 >= 0)
> >>> STORE y = 1 STORE x = 1
> >>>
> >>> assert(!(r1 == 1 && r2 == 1));
> >>>
> >>> This should eliminate any concern of compiler optimization.
> >>> In this final part of CONTROL DEPENDENCIES section, separating the
> >>> problem of optimization and transitivity would clarify the point
> >>> (at least for me).
> >>
> >> The problem is that people really do use C-language control dependencies
> >> in the Linux kernel, so we need to describe them. Maybe someday it
> >> will be necessary to convert them to asm, but I am hoping that we can
> >> avoid that.
> >>
> >>> Thoughts?
> >>
> >> My hope is that the memory model can help here, but that will in any
> >> case take time.
> >
> > Hi Paul,
> >
> > I add some comments for READ_ONCE() to emphasize compilers should honor
> > the return value, in the future, we may need a separate document for the
> > use/definition of volatile in kernel, but I think the comment of
> > READ_ONCE() is good enough now?
> >
> > Regards,
> > Boqun
> >
> > ----------------->8
> > Subject: [PATCH] kernel: Emphasize the return value of READ_ONCE() is honored
> >
> > READ_ONCE() is used around in kernel to provide a control dependency,
> > and to make the control dependency valid, we must 1) make the load of
> > READ_ONCE() actually happen and 2) make sure compilers take the return
> > value of READ_ONCE() serious. 1) is already done and commented,
> > and in current implementation, 2) is also considered done in the
> > same way as 1): a 'volatile' load.
> >
> > Whereas, Akira Yokosawa recently reported a problem that would be
> > triggered if 2) is not achieved.
>
> To clarity the timeline, it was Paul who pointed out it would become
> easier for compilers to optimize away the "if" statements in response
> to my suggestion of partial revert (">" -> ">=").

Indeed I did.

And if nothing else, this discussion convinced me that I should push
harder on volatile. It would be nice if we had more of a guarantee!

Thanx, Paul

> > Moreover, according to Paul Mckenney,
> > using volatile might not actually give us what we want for 2) depending
> > on compiler writers' definition of 'volatile'. Therefore it's necessary
> > to emphasize 2) as a part of the semantics of READ_ONCE(), this not only
> > fits the conceptual semantics we have been using, but also makes the
> > implementation requirement more accurate.
> >
> > In the future, we can either make compiler writers accept our use of
> > 'volatile', or(if that fails) find another way to provide this
> > guarantee.
> >
> > Cc: Akira Yokosawa <akiyks@gmail.com>
> > Cc: Paul E. McKenney <paulmck@linux.vnet.ibm.com>
> > Signed-off-by: Boqun Feng <boqun.feng@gmail.com>
> > ---
> > include/linux/compiler.h | 25 +++++++++++++++++++++++++
> > 1 file changed, 25 insertions(+)
> >
> > diff --git a/include/linux/compiler.h b/include/linux/compiler.h
> > index 219f82f3ec1a..8094f594427c 100644
> > --- a/include/linux/compiler.h
> > +++ b/include/linux/compiler.h
> > @@ -305,6 +305,31 @@ static __always_inline void __write_once_size(volatile void *p, void *res, int s
> > * mutilate accesses that either do not require ordering or that interact
> > * with an explicit memory barrier or atomic instruction that provides the
> > * required ordering.
> > + *
> > + * The return value of READ_ONCE() should be honored by compilers, IOW,
> > + * compilers must treat the return value of READ_ONCE() as an unknown value at
> > + * compile time, i.e. no optimization should be done based on the value of a
> > + * READ_ONCE(). For example, the following code snippet:
> > + *
> > + * int a = 0;
> > + * int x = 0;
> > + *
> > + * void some_func() {
> > + * int t = READ_ONCE(a);
> > + * if (!t)
> > + * WRITE_ONCE(x, 1);
> > + * }
> > + *
> > + * , should never be optimized as:
> > + *
> > + * void some_func() {
> > + * WRITE_ONCE(x, 1);
> > + * }
> READ_ONCE() should still be honored. so maybe the following?
>
> + * , should never be optimized as:
> + *
> + * void some_func() {
> + * int t = READ_ONCE(a);
> + * WRITE_ONCE(x, 1);
> + * }
>
> Thanks, Akira
>
> > + *
> > + * because the compiler is 'smart' enough to think the value of 'a' is never
> > + * changed.
> > + *
> > + * We provide this guarantee by making READ_ONCE() a *volatile* load.
> > */
> >
> > #define __READ_ONCE(x, check) \
> >
>

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