Buggy commit tracked to: "Re: [PATCH 2/9] iov_iter: move rw_copy_check_uvector() into lib/iov_iter.c"

[Greg KH]

On Thu, Oct 22, 2020 at 11:36:40AM +0200, David Hildenbrand wrote:
> On 22.10.20 11:32, David Laight wrote:
> > From: David Hildenbrand
> >> Sent: 22 October 2020 10:25
> > ...
> >> ... especially because I recall that clang and gcc behave slightly
> >> differently:
> >>
> >> https://github.com/hjl-tools/x86-psABI/issues/2
> >>
> >> "Function args are different: narrow types are sign or zero extended to
> >> 32 bits, depending on their type. clang depends on this for incoming
> >> args, but gcc doesn't make that assumption. But both compilers do it
> >> when calling, so gcc code can call clang code.
> > 
> > It really is best to use 'int' (or even 'long') for all numeric
> > arguments (and results) regardless of the domain of the value.
> > 
> > Related, I've always worried about 'bool'....
> > 
> >> The upper 32 bits of registers are always undefined garbage for types
> >> smaller than 64 bits."
> > 
> > On x86-64 the high bits are zeroed by all 32bit loads.
> 
> Yeah, but does not help here.
> 
> 
> My thinking: if the compiler that calls import_iovec() has garbage in
> the upper 32 bit
> 
> a) gcc will zero it out and not rely on it being zero.
> b) clang will not zero it out, assuming it is zero.
> 
> But
> 
> a) will zero it out when calling the !inlined variant
> b) clang will zero it out when calling the !inlined variant
> 
> When inlining, b) strikes. We access garbage. That would mean that we
> have calling code that's not generated by clang/gcc IIUC.
> 
> We can test easily by changing the parameters instead of adding an "inline".

Let me try that as well, as I seem to have a good reproducer, but it
takes a while to run...

greg k-h