Files
RedBear-OS/recipes/tools/nano/source/m4/malloc.m4
T
vasilito 7686729069 drm: implement syncobj and fence for VIRGL/VirtIO driver
Extract protocol-agnostic FenceTimeline from Intel to shared
src/drivers/fence.rs — atomic-based fence tracking suitable
for Intel, VIRGL, and AMD drivers.

Extract protocol-agnostic SyncobjManager from Intel to shared
src/drivers/syncobj.rs — syncobj create/destroy/signal/reset/
wait/query and sync_file fd export/import.

Wire both into VirtioDriver:
- Add FenceTimeline + SyncobjManager fields
- Implement all 5 GpuDriver syncobj trait methods
  (create, destroy, wait, export_fd, import_fd)
- Track fence seqnos in virgl_submit_3d (allocate
  before submit, signal after completion)

Intel fence.rs and syncobj.rs converted to thin re-export
modules pointing at shared sources — no behavioral change
for Intel driver.

This gives Mesa VIRGL userspace the standard DRM syncobj
API for GPU/compositor synchronization.
2026-06-02 14:33:28 +03:00

176 lines
5.8 KiB
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# malloc.m4 serial 28
dnl Copyright (C) 2007, 2009-2023 Free Software Foundation, Inc.
dnl This file is free software; the Free Software Foundation
dnl gives unlimited permission to copy and/or distribute it,
dnl with or without modifications, as long as this notice is preserved.
# This is adapted with modifications from upstream Autoconf here:
# https://git.savannah.gnu.org/cgit/autoconf.git/tree/lib/autoconf/functions.m4?id=v2.70#n949
AC_DEFUN([_AC_FUNC_MALLOC_IF],
[
AC_REQUIRE([AC_CANONICAL_HOST])dnl for cross-compiles
AC_CACHE_CHECK([whether malloc (0) returns nonnull],
[ac_cv_func_malloc_0_nonnull],
[AC_RUN_IFELSE(
[AC_LANG_PROGRAM(
[[#include <stdlib.h>
]],
[[void *p = malloc (0);
int result = !p;
free (p);
return result;]])
],
[ac_cv_func_malloc_0_nonnull=yes],
[ac_cv_func_malloc_0_nonnull=no],
[case "$host_os" in
# Guess yes on platforms where we know the result.
*-gnu* | freebsd* | netbsd* | openbsd* | bitrig* \
| gnu* | *-musl* | midnightbsd* \
| hpux* | solaris* | cygwin* | mingw* | msys* )
ac_cv_func_malloc_0_nonnull="guessing yes" ;;
# If we don't know, obey --enable-cross-guesses.
*) ac_cv_func_malloc_0_nonnull="$gl_cross_guess_normal" ;;
esac
])
])
AS_CASE([$ac_cv_func_malloc_0_nonnull], [*yes], [$1], [$2])
])# _AC_FUNC_MALLOC_IF
# gl_FUNC_MALLOC_GNU
# ------------------
# Replace malloc if it is not compatible with GNU libc.
AC_DEFUN([gl_FUNC_MALLOC_GNU],
[
AC_REQUIRE([gl_STDLIB_H_DEFAULTS])
AC_REQUIRE([gl_FUNC_MALLOC_POSIX])
REPLACE_MALLOC_FOR_MALLOC_GNU="$REPLACE_MALLOC_FOR_MALLOC_POSIX"
if test $REPLACE_MALLOC_FOR_MALLOC_GNU = 0; then
_AC_FUNC_MALLOC_IF([], [REPLACE_MALLOC_FOR_MALLOC_GNU=1])
fi
])
# gl_FUNC_MALLOC_PTRDIFF
# ----------------------
# Test whether malloc (N) reliably fails when N exceeds PTRDIFF_MAX,
# and replace malloc otherwise.
AC_DEFUN([gl_FUNC_MALLOC_PTRDIFF],
[
AC_REQUIRE([gl_STDLIB_H_DEFAULTS])
AC_REQUIRE([gl_CHECK_MALLOC_PTRDIFF])
test "$gl_cv_malloc_ptrdiff" = yes || REPLACE_MALLOC_FOR_MALLOC_POSIX=1
])
# Test whether malloc, realloc, calloc refuse to create objects
# larger than what can be expressed in ptrdiff_t.
# Set gl_cv_func_malloc_gnu to yes or no accordingly.
AC_DEFUN([gl_CHECK_MALLOC_PTRDIFF],
[
AC_CACHE_CHECK([whether malloc is ptrdiff_t safe],
[gl_cv_malloc_ptrdiff],
[AC_COMPILE_IFELSE(
[AC_LANG_PROGRAM(
[[#include <stdint.h>
]],
[[/* 64-bit ptrdiff_t is so wide that no practical platform
can exceed it. */
#define WIDE_PTRDIFF (PTRDIFF_MAX >> 31 >> 31 != 0)
/* On rare machines where size_t fits in ptrdiff_t there
is no problem. */
#define NARROW_SIZE (SIZE_MAX <= PTRDIFF_MAX)
/* glibc 2.30 and later malloc refuses to exceed ptrdiff_t
bounds even on 32-bit platforms. We don't know which
non-glibc systems are safe. */
#define KNOWN_SAFE (2 < __GLIBC__ + (30 <= __GLIBC_MINOR__))
#if WIDE_PTRDIFF || NARROW_SIZE || KNOWN_SAFE
return 0;
#else
#error "malloc might not be ptrdiff_t safe"
syntax error
#endif
]])],
[gl_cv_malloc_ptrdiff=yes],
[gl_cv_malloc_ptrdiff=no])
])
])
# gl_FUNC_MALLOC_POSIX
# --------------------
# Test whether 'malloc' is POSIX compliant (sets errno to ENOMEM when it
# fails, and doesn't mess up with ptrdiff_t overflow), and replace
# malloc if it is not.
AC_DEFUN([gl_FUNC_MALLOC_POSIX],
[
AC_REQUIRE([gl_STDLIB_H_DEFAULTS])
AC_REQUIRE([gl_FUNC_MALLOC_PTRDIFF])
AC_REQUIRE([gl_CHECK_MALLOC_POSIX])
if test "$gl_cv_func_malloc_posix" = yes; then
AC_DEFINE([HAVE_MALLOC_POSIX], [1],
[Define if malloc, realloc, and calloc set errno on allocation failure.])
else
REPLACE_MALLOC_FOR_MALLOC_POSIX=1
fi
])
# Test whether malloc, realloc, calloc set errno to ENOMEM on failure.
# Set gl_cv_func_malloc_posix to yes or no accordingly.
AC_DEFUN([gl_CHECK_MALLOC_POSIX],
[
AC_REQUIRE([AC_CANONICAL_HOST])
AC_CACHE_CHECK([whether malloc, realloc, calloc set errno on failure],
[gl_cv_func_malloc_posix],
[
dnl It is too dangerous to try to allocate a large amount of memory:
dnl some systems go to their knees when you do that. So assume that
dnl all Unix implementations of the function set errno on failure,
dnl except on those platforms where we have seen 'test-malloc-gnu',
dnl 'test-realloc-gnu', 'test-calloc-gnu' fail.
case "$host_os" in
mingw*)
gl_cv_func_malloc_posix=no ;;
irix* | solaris*)
dnl On IRIX 6.5, the three functions return NULL with errno unset
dnl when the argument is larger than PTRDIFF_MAX.
dnl On Solaris 11.3, the three functions return NULL with errno set
dnl to EAGAIN, not ENOMEM, when the argument is larger than
dnl PTRDIFF_MAX.
dnl Here is a test program:
m4_divert_push([KILL])
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#define ptrdiff_t long
#ifndef PTRDIFF_MAX
# define PTRDIFF_MAX ((ptrdiff_t) ((1UL << (8 * sizeof (ptrdiff_t) - 1)) - 1))
#endif
int main ()
{
void *p;
fprintf (stderr, "PTRDIFF_MAX = %lu\n", (unsigned long) PTRDIFF_MAX);
errno = 0;
p = malloc ((unsigned long) PTRDIFF_MAX + 1);
fprintf (stderr, "p=%p errno=%d\n", p, errno);
errno = 0;
p = calloc (PTRDIFF_MAX / 2 + 1, 2);
fprintf (stderr, "p=%p errno=%d\n", p, errno);
errno = 0;
p = realloc (NULL, (unsigned long) PTRDIFF_MAX + 1);
fprintf (stderr, "p=%p errno=%d\n", p, errno);
return 0;
}
m4_divert_pop([KILL])
gl_cv_func_malloc_posix=no ;;
*)
gl_cv_func_malloc_posix=yes ;;
esac
])
])