Re: [PATCH] efi/cper: Fix endianness of PCI class code

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On Thu, May 25, 2017 at 05:36:01AM -0700, Ard Biesheuvel wrote:
> On 25 May 2017 at 05:30, Lukas Wunner <lukas@xxxxxxxxx> wrote:
> > On Thu, May 11, 2017 at 03:06:42PM +0100, Ard Biesheuvel wrote:
> >> On 10 May 2017 at 09:41, Lukas Wunner <lukas@xxxxxxxxx> wrote:
> >> > On Wed, May 10, 2017 at 09:03:11AM +0100, Ard Biesheuvel wrote:
> >> >> On 6 May 2017 at 10:07, Lukas Wunner <lukas@xxxxxxxxx> wrote:
> >> >> > On Sat, May 06, 2017 at 08:46:07AM +0100, Ard Biesheuvel wrote:
> >> >> >> On 5 May 2017 at 19:38, Lukas Wunner <lukas@xxxxxxxxx> wrote:
> >> >> >> > The CPER parser assumes that the class code is big endian, but at least
> >> >> >> > on this edk2-derived Intel Purley platform it's little endian:
> >> >> > [snip]
> >> >> >> > --- a/include/linux/cper.h
> >> >> >> > +++ b/include/linux/cper.h
> >> >> >> > @@ -416,7 +416,7 @@ struct cper_sec_pcie {
> >> >> >> >         struct {
> >> >> >> >                 __u16   vendor_id;
> >> >> >> >                 __u16   device_id;
> >> >> >> > -               __u8    class_code[3];
> >> >> >> > +               __u32   class_code:24;
> >> >> >>
> >> >> >> I'd like to avoid this change if we can. Couldn't we simply invert the
> >> >> >> order of p[] above?
> >> >> >
> >> >> > Hm, why would you like to avoid it?
> >> >>
> >> >> Because we shouldn't use bitfields in structs in code that should be
> >> >> portable across archs with different endiannesses.
> >> >
> >> > The CPER header is defined in the UEFI spec and UEFI mandates that the
> >> > arch is little endian (UEFI r2.6, sec. 2.3.5, 2.3.6).
> >> >
> >>
> >> No it does not mandate that at all. It mandates how the core should be
> >> configured when running in UEFI, but the OS can do anything it likes.
> >>
> >> We are still interested in adding limited UEFI support to big endian
> >> arm64 in the future (i.e., access to a limited set of firmware tables
> >> but no runtime services), and I am not going to merge anything that
> >> moves us away from that goal.
> >>
> >> > So your argument seems moot to me.  Am I missing something?  Do you
> >> > have another argument?
> >> >
> >> > Moreover, the vendor_id and device_id fields are little endian as well
> >> > (PCI r3.0, sec. 6.1), yet there are no provisions in our CPER parser in
> >> > drivers/firmware/efi/cper.c to convert them to the endianness of the host.
> >> >
> >>
> >> Indeed. I am aware we will need to add various endian-neutral
> >> accessors in the future.
> >>
> >> >> >  The class_code element isn't
> >> >> > referenced anywhere else in the kernel and this isn't a uapi header,
> >> >> > so the change would only impact out-of-tree drivers.  Not sure if
> >> >> > any exist which might be interested in CPER parsing.
> >> >> >
> >> >>
> >> >> The point is that the change in the struct definition is simply not
> >> >> necessary, given that inverting the order of p[] already achieves
> >> >> exactly what we want.
> >> >
> >> > It seems clumsy and unnecessary to me so I'd prefer the bitfield.
> >> > Please excuse my stubbornness.
> >> >
> >>
> >> Stubbornness alone is not going to convince me. What *could* convince
> >> me (although unlikely) is a quote from the C spec which explains why
> >> it is 100% legal to make assumptions about how bitfields are projected
> >> onto byte locations in memory.
> >
> > All structs in cper.h are declared "packed", so what you're asking for
> > isn't defined in the C spec but in the GCC documentation:
> >
> >    "The packed attribute specifies that a variable or structure field
> >     should have the smallest possible alignment -- one byte for a variable,
> >     and one bit for a field, unless you specify a larger value with the
> >     aligned attribute."
> >
> > So I maintain that the patch is fine, but you'll need to use le32_to_cpu(),
> > le16_to_cpu() etc both for the class_code changed by the patch as well as
> > all the other members of the struct not touched by the patch when adding
> > "endianness mixed mode" for aarch64.
> 
> I'm not talking about the 'packed' attribute but about the fact that
> the C spec does not guarantee that bitfields are projected onto byte
> locations in memory in the way you expect.

What relevance does that have as long as the header file uses a pragma
specific to gcc (or other compilers that are compatible to gcc with
respect to that pragma (such as clang)), and gcc guarantees the
correct layout regardless of endianness?
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