[RFC PATCH 1/2] arm64: fpsimd: Fix bad si_code for undiagnosed SIGFPE

[Eric W. Biederman]

Dave Martin <Dave.Martin at arm.com> writes:

> On Wed, Jan 24, 2018 at 10:47:36AM -0600, Eric W. Biederman wrote:
>> Dave Martin <Dave.Martin at arm.com> writes:
>> 
>> > On Mon, Jan 22, 2018 at 03:13:08PM -0600, Eric W. Biederman wrote:
>> >> 
>> >> > diff --git a/include/uapi/asm-generic/siginfo.h b/include/uapi/asm-generic/siginfo.h
>> >> > index e447283..77edb00 100644
>> >> > --- a/include/uapi/asm-generic/siginfo.h
>> >> > +++ b/include/uapi/asm-generic/siginfo.h
>> >> > @@ -193,7 +193,8 @@ typedef struct siginfo {
>> >> >  #define FPE_FLTRES	6	/* floating point inexact result */
>> >> >  #define FPE_FLTINV	7	/* floating point invalid operation */
>> >> >  #define FPE_FLTSUB	8	/* subscript out of range */
>> >> > -#define NSIGFPE		8
>> >> > +#define FPE_UNKNOWN	9	/* undiagnosed floating-point exception */
>> >> > +#define NSIGFPE		9
>> >> 
>> >> Minor nit here.
>> >> 
>> >> At least before this is final I would really appreciate if you could
>> >> rebase this on top of my unificiation of siginfo.h that I posted on
>> >> linux-arch and is in my siginfo-next branch.
>> >> 
>> >> As that already pushes NSIGFPE up to 13.
>> >> 
>> >> Which would make this patch change NSIGFPE to 14 and allocate the number
>> >> 14 for FPE_UNKNOWN
>> >
>> > Looking at this, I note a few things:
>> >
>> >  * For consistent naming, FPE_FLTUNK might be a better name for
>> >    FPE_UNKNOWN.
>> >
>> >    FPE_FLTUNK seems generic, tempting me to insert it as number 9
>> >    (since only the numbers up to 8 are ABI just now).
>> 
>> Except on ia64 and frv.  And who knows we might need it on one of those
>> architectures as well.
>
> I thought those weren't actually upstreamed yet...

Oh no.  Those have been upstream for a decade or so.  They just have not
been in one unified file.

>> >    (The temptation to call it FPE_FLUNK is strong, but I can't argue
>> >    that's consistent...)
>> 
>> I totally understand the temptation.
>> 
>> >  * No distinction is drawn between generic and arch-dependent codes
>> >    here, so NSIGFPE will typically be too big.  The generic siginfo
>> >    handling code can detect random garbage in si_code this way, but
>> >    off-by-ones or misused arch-specific codes may slip through.
>> >
>> >    In particular, new x86-specific FPE_* codes will likely be
>> >    invisible to the BUILD_BUG_ON()s in arch/x86/kernel/signal_compat.c
>> >    unless so many are added that x86 overtakes ia64.
>> 
>> Long ago in a far off time, we had arch dependent system call numbers
>> and the like because that provided ABI compatibility with the existing
>> unix on the platform.
>> 
>> I don't see any of that with the siginfo si_codes.   In most cases
>> they are arch dependent extensions which is silly.  We should have
>> unconditionally extended the si_codes for all architectures in case
>> another architecture needs that si_code.
>> 
>> The fact we now have battling meanings for si_codes depending on the
>> architecture is an unfortunate mess.
>> 
>> So to me it looks most maintainable going forward to declare that all
>> si_codes should be allocated generically, from the same number space,
>> in the same header file.  While we live with the existing historic
>> mess.
>
> I guess that's fair enough.  This also provides a consistent
> interpretation for NSIGXXX.
>
>> >  * Should we reserve space for future generic codes (say up to 15)?
>> >    Downside: si_code validation is not a simple matter of checking
>> >    <= NSIGFPE in that case.  (Though <= is still better than no
>> >    check at all, and no worse than the current situation.)
>> 
>> I think new si_codes should be allocated where there are not conflicts
>> on any architecture.  Just in case they are useful on another
>> architecture in the future.
>> 
>> >  * What are NSIGFPE etc. doing in this header?  These aren't specified
>> >    by POSIX and I'm not sure what userspace would legitimately use them
>> >    for... though it may be too late to change this now.
>> >
>> >    Most instances on codeseaarch.debian.net are the kernel, copies
>> >    of kernel headers, and translated versions of kernel headers.
>> >    It's hard to be exhaustive though.
>> >
>> >
>> > We could have something like this:
>> >
>> > #define FPE_FLTUNK	9
>> > #define __NSIGFPE_GENERIC	9
>> > #define NSIGFPE		__NSIGFPE_GENERIC
>> >
>> > /* si_code <= 15 reserved for arch-independent codes */
>> >
>> > #if defined(__frv__)
>> >
>> > # define FPE_MDAOF	16
>> > # undef NSIGFPE
>> > # define NSIGFPE	16
>> >
>> > #elif define(__ia64__)
>> >
>> > # define __FPE_DECOVF	16
>> > # define __FPE_DECDIV	17
>> > # define __FPE_DECERR	18
>> > # define __FPR_INVASC	19
>> > # undef NSIGFPE
>> > # define NSIGFPE	19
>> >
>> > #endif
>> >
>> > (Avoiding a (base + offset) approach for the arch codes, since that
>> > would make it look like the codes can be renumbered safely without
>> > breaking anything).
>> >
>> > The generic vs. arch vs. NSIGFOO problem already exists for other
>> > signals.  We could take a similar approach for those, but OTOH it
>> > may just not be worth the effort.
>> 
>> What I have tried to do in my merger is discurage the idea that there
>> are any arch specific si_codes.  To set NSIGXXX to the largest value
>> from any of the architectures.  And to encourage new si_codes get
>> allocated after the current NSIGXXX.  So that they will work on all
>> architectures.
>> 
>> It is all a bit of a mess, but one unified mess seems like the best we
>> can do right now.
>
> That sounds fair, now that I have a better understanding of the context
> for all this.
>
> If the policy is that all the codes are generic (even if not all can
> happen on all arches) then FPE_FLTUNK may as well be 14.

Exactly.

Eric