Re: Use of C99 int types

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Please don't remove Linux-Kernel from the CC, I think this is an
important discussion.

On Apr 05, 2005, at 15:17, Renate Meijer wrote:
Strictly speaking, a definition starting with a double
underscore is reserved for use by the compiler and associated
libs

Well, _strictly_speaking_, it's "implementation defined", where the
"implementation" includes the kernel (due to the syscall interface).

Beg to differ. As far as i'm aware, the syscall interface is not part
of C. Hence the kernel,  in compiler terms, is not part of "the
implementation" of the compiler.

POSIX and such include information about signal handling and the
user-mode environment for C programs, both of which are completely
irrelevant from the compiler's point of view, including libc stuff.

But the C library is implicitly dependent on the kernel headers for
a wide variety of datatypes.

Correct. It is, however, not only dependent on the definitions as
provided by linux, but also of those provided by just about any other
OS the compiler is running on. Which, by the last count, was a pretty
impressive number.

I don't see how this applies.  We're only talking about the Linux
kernel here, right?

Well, Linus has supported that there is no standard, except where
ABI is concerned, there we must use __u32 so that it does not clash
with libc or user programs.

The fact that there is no standard is not an argument against at
least reaching some compromise. Surely 5 different names for a
simple, generic 32-bit integer is a bit much.

Personally, I don't care what you feel like requiring for purely
in-kernel interfaces, but __{s,u}{8,16,32,64} must stay to avoid
namespace collisions with glibc in the kernel include files as used
by userspace.

Especially the types with leading underscores look cool, but in
reality may cause a conflict with compiler internals and should only
be used when defining compiler libraries.

It's "implementation" (kernel+libc+gcc) defined.

I don't think the kernel has any place in that list.

<quote>
       3.10
       [#1] implementation
       a  particular  set  of  software,  running  in  a particular
       translation environment under  particular  control  options,
       that  performs  translation  of  programs  for, and supports
       execution  of   functions   in,   a   particular   execution
       environment
</quote>

This is kinda arguing semantics, but:
A particular set of software (linux+libc+gcc), running in a particular
translation environment (userspace) under particular control options
(Signals, nice values, etc), that performs translation of programs for
(emulating missing instructions), and supports execution of functions
(syscalls) in, a particular execution environment (also userspace).

Without the kernel userspace wouldn't have anything, because anything
syscall-related (which is basically everything) involves the kernel.
Heck, the kernel and its ABI is _more_ a part of the implementation
than glibc is!  I can write an assembly program that doesn't link to
or use libc, but without using syscalls I can do nothing whatsoever.

That's not to say that I _like_ the way things are set up, but it's not
practical to change them at the moment.

<Wishful Thinking>
It would be nice if GCC provided a set of __gcc_foo inline definitions
for all sorts of useful functions and types, including various types of
memory barriers, sized types, etc and other platform-related garbage
that it would be good to have in the same place.  Then the kernel and
glibc could both just assume that they are there and not worry nearly
as much about what platform you're on.
</Wishful Thinking>

But that goes only for those definitions that will eventually wind up
in /usr/include/*, not any code internal to (say) a driver and only
affects a minimal set of interfaces. That is, in comparison to

renate@indigo:~/linux-2.6.11.6$ find . -name \*.h -exec grep __uint32 {} \; -print

or worse

renate@indigo:~/linux-2.6.11.6$ find . -name \*.c -exec grep __uint32 {} \; -print\

On the bright side, most of it is in linux/fs/xfs so it's pretty
localized, on the other side, none of it is related to the ABI in
any way.

Uhh, how about:
	grep -rl __u32 . | egrep '[^:]+\.h:'
or:
	grep -rl __u32 . | egrep '[^:]+\.c:'

Both of those return a _LOT_ of stuff.

Nope. The syscall interface is employed by the library, no more,
no less. The C standard does not include *any* platform specific
stuff.

Which is why it reserves __ for use by the implementation so it can
play wherever it wants.

Quite on purpose, by the way. Not all the world is a linux machine
and an AVR doesn't even have syscalls.

But when I write my framebuffer library, I do:
#include <linux/fb.h>
#include <stdlib.h>
And I expect it to work!  I want it to get the correct types, I
don't want it to clash with or require the libc types (My old
sources might redefine some stdint.h names, and I don't want it
to clash with my user-defined types.

Anything you like. 'kernel_' or simply 'k_' would be appropriate.
As long as you do not invade compiler namespace. It is separated
and uglyfied for a purpose.

But the _entire_ non _ namespace is reserved for anything user
programs want to do with it.  I think most of the kernel types in
the current headers use __kernel_, which is safe enough.

Does not work when you are touching externally defined interfaces
in general, including that of a CPU.  There are places for uint32_t
and friends and even for __uint32_t and it's kin, but abusing them
will cause trouble in a world that is accommodating more than one
register-size. This is all I am saying.

But in a world with more than one register size, you _must_ use them,
for example, the x86-64 code uses them to handle 32-bit backwards
compatibility, and the ppc64 code does likewise.  When a program
compiled as ppc32 gets run on my ppc64 box, the kernel understands
that anything pushed onto the stack as arguments is 32-bit, and must
use specifically sized types to handle that properly.

Cheers,
Kyle Moffett

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