On Thu, 23 Jul 2020 at 20:28, David Blaikie <dblaikie at gmail.com> wrote:
> On Thu, Jul 23, 2020 at 7:17 PM Richard Smith <richard at metafoo.co.uk>
> wrote:
> >
> > On Thu, 23 Jul 2020 at 17:46, David Blaikie <dblaikie at gmail.com> wrote:
> >>
> >> LLVM can produce zero length functions from cases like this (when
> >> optimizations are enabled):
> >>
> >> void f1() { __builtin_unreachable(); }
> >> int f2() { /* missing return statement */ }
> >>
> >> This code is valid, so long as the functions are never called.
> >>
> >> I believe C++ requires that all functions have a distinct address (ie:
> >> &f1 != &f2) and LLVM optimizes code on this basis (assert(f1 == f2)
> >> gets optimized into an unconditional assertion failure)
> >>
> >> But these zero length functions can end up with identical addresses.
> >>
> >> I'm unaware of anything in the C++ spec (or the LLVM langref) that
> >> would indicate that would allow distinct functions to have identical
> >> addresses - so should we do something about this in the LLVM backend?
> >> add a little padding? a nop instruction? (if we're adding an
> >> instruction anyway, perhaps we might as well make it an int3?)
> >>
> >> (I came across this due to DWARF issues with zero length functions &
> >> thinking about if/how this should be supported)
> >
> >
> > Yes, I think at least if the optimizer turns a non-empty function into
> an empty function,
>
> What about functions that are already empty? (well, I guess at the
> LLVM IR level, no function can be empty, because every basic block
> must end in some terminator instruction - is that the distinction
> you're drawing?)
>
Here's what I was thinking: a case could be made that the frontend is
responsible for making sure that functions don't start non-empty, in much
the same way that if the frontend produces a global of zero size, it gets
what it asked for.
But you're right, there really isn't such a thing as an empty function at
the IR level, because there's always an entry block and it always has a
terminator.
> > that's a miscompile for C and C++ source-language programs. My (possibly
> flawed) understanding is that LLVM is obliged to give a different address
> to distinct globals if neither of them is marked unnamed_addr,
>
> It seems like other LLVM passes make this assumption too - which is
> how "f1 == f2" can be folded to a constant false. I haven't checked to
> see exactly where that constant folding happens. (hmm, looks like it
> happens in some constant folding utility - happens in the inliner if
> there's inlining, happens at IR generation if there's no function
> indirection, etc)
>
> > so it seems to me that this is a backend bug. Generating a ud2 function
> body in this case seems ideal to me.
>
> Guess that still leaves the possibility of the last function in an
> object file as being zero-length? (or I guess not, because otherwise
> when linked it could still end up with the same address as the
> function that comes after it)
>
Yes, I think that's right. We should never put a non-unnamed_addr global at
the end of a section because we don't know if it will share an address with
another global.
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