[PATCH v3 3/3] arm64, compiler-context-analysis: Permit alias analysis through __READ_ONCE() with CONFIG_LTO=y

Will Deacon will at kernel.org
Wed Feb 4 06:15:52 PST 2026 

On Wed, Feb 04, 2026 at 02:14:00PM +0100, Peter Zijlstra wrote:
> On Wed, Feb 04, 2026 at 11:46:02AM +0100, Marco Elver wrote:
> > On Tue, 3 Feb 2026 at 12:47, Will Deacon <will at kernel.org> wrote:
> > [...]
> > > > > What does GCC do with this? :/
> > > >
> > > > GCC currently doesn't see it, LTO is clang only.
> > >
> > > LTO is just one way that a compiler could end up breaking dependency
> > > chains, so I really want to maintain the option to enable this path for
> > > GCC in case we run into problems caused by other optimisations in future.
> > 
> > It will work for GCC, but only from GCC 11. Before that __auto_type
> > does not drop qualifiers:
> > https://godbolt.org/z/sc5bcnzKd (switch to GCC 11 to see it compile)
> > 
> > So to summarize, all supported Clang versions deal with __auto_type
> > correctly for the fallback; GCC from version 11 does (kernel currently
> > supports GCC 8 and above). From GCC 14 and Clang 19 we have
> > __typeof_unqual__.
> > 
> > I really don't see another way forward; there's no other good way to
> > solve this issue. I would advise against pessimizing new compilers and
> > features because maybe one day we might still want to enable this
> > version of READ_ONCE() for GCC 8-10.
> > 
> > Should we one day choose to enable this READ_ONCE() version for GCC,
> > we will (a) either have bumped the minimum GCC version to 11+, or (b)
> > we can only do so from GCC 11. At this point GCC 11 was released 5
> > years ago!
> 
> There is, from this thread:
> 
>   https://lkml.kernel.org/r/20260111182010.GH3634291@ZenIV
> 
> another trick to strip qualifiers:
> 
>   #define unqual_non_array(T) __typeof__(((T(*)(void))0)())
> 
> which will work from GCC-8.4 onwards. Arguably, it should be possible to
> raise the minimum from 8 to 8.4 (IMO).

That sounds reasonable to me but I'm not usually the one to push back
on raising the minimum compiler version!

> But yes; in general I think it is fine to have 'old' compilers generate
> suboptimal code.

I'm absolutely fine with the codegen being terrible for ancient
toolchains as long as it's correct.

Will

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