dnl with the prefix "TARGET_" (such as TARGET_CC, TARGET_CFLAGS, etc.) are
dnl used for the target type. See INSTALL for full list of variables.
-AC_INIT([GRUB],[2.02~beta2],[bug-grub@gnu.org])
+AC_INIT([GRUB],[2.03],[bug-grub@gnu.org])
AC_CONFIG_AUX_DIR([build-aux])
mipsel-fuloong) platform=loongson ;;
mipsel-loongson) ;;
arm-uboot) ;;
+ arm-coreboot) ;;
arm-efi) ;;
arm64-efi) ;;
*-emu) ;;
esac
case "$host_os" in
- cygwin | windows* | mingw32*) have_exec=n ;;
+ cygwin) have_exec=y ;;
+ windows* | mingw32*) have_exec=n ;;
aros*) have_exec=n ;;
*) have_exec=y;;
esac
if test "x$LEX" = "x:"; then
AC_MSG_ERROR([flex is not found])
else
- version=`$LEX --version | $AWK '{ split($NF,x,"."); print x[[1]]*10000+x[[2]]*100+x[[3]]; }'`
+ version=`$LEX --version | $AWK '{ split($2,x,"."); print x[[1]]*10000+x[[2]]*100+x[[3]]; }'`
if test -n "$version" -a "$version" -ge 20535; then
:
else
;;
*)
AC_CHECK_SIZEOF(off_t)
- test x"$ac_cv_sizeof_off_t" = x8 || AC_MSG_ERROR([Large file support is required]);;
+ if test x"$ac_cv_sizeof_off_t" != x8 ; then
+ AC_CHECK_SIZEOF(off64_t)
+ test x"$ac_cv_sizeof_off64_t" = x8 || AC_MSG_ERROR([Large file support is required])
+ fi;;
esac
if test x$USE_NLS = xno; then
# Check for functions and headers.
AC_CHECK_FUNCS(posix_memalign memalign getextmntent)
-AC_CHECK_HEADERS(sys/param.h sys/mount.h sys/mnttab.h sys/mkdev.h limits.h)
+AC_CHECK_HEADERS(sys/param.h sys/mount.h sys/mnttab.h limits.h)
+
+# glibc 2.25 still includes sys/sysmacros.h in sys/types.h but emits deprecation
+# warning which causes compilation failure later with -Werror. So use -Werror here
+# as well to force proper sys/sysmacros.h detection.
+SAVED_CFLAGS="$CFLAGS"
+CFLAGS="$HOST_CFLAGS -Werror"
+AC_HEADER_MAJOR
+CFLAGS="$SAVED_CFLAGS"
AC_CHECK_MEMBERS([struct statfs.f_fstypename],,,[$ac_includes_default
#include <sys/param.h>
esac
AC_SUBST(BUILD_EXEEXT)
+# In some build environments like termux /bin/sh is not a valid
+# shebang. Use $SHELL instead if it's executable and /bin/sh isn't
+BUILD_SHEBANG=/bin/sh
+for she in /bin/sh "$SHELL"; do
+ if test -x "$she" ; then
+ BUILD_SHEBANG="$she"
+ fi
+done
+AC_SUBST(BUILD_SHEBANG)
+
# For gnulib.
gl_INIT
if ( test "x$target_cpu" = xi386 || test "x$target_cpu" = xx86_64 ) && test "x$platform" != xemu; then
# Some toolchains enable these features by default, but they need
# registers that aren't set up properly in GRUB.
- TARGET_CFLAGS="$TARGET_CFLAGS -mno-mmx -mno-sse -mno-sse2 -mno-3dnow"
+ TARGET_CFLAGS="$TARGET_CFLAGS -mno-mmx -mno-sse -mno-sse2 -mno-sse3 -mno-3dnow"
fi
# GRUB doesn't use float or doubles at all. Yet some toolchains may decide
TARGET_CFLAGS="$TARGET_CFLAGS -fno-reorder-functions"
fi
+AC_CACHE_CHECK([whether -mno-stack-arg-probe works], [grub_cv_cc_mno_stack_arg_probe], [
+ CFLAGS="$TARGET_CFLAGS -mno-stack-arg-probe"
+ AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])],
+ [grub_cv_cc_mno_stack_arg_probe=yes],
+ [grub_cv_cc_mno_stack_arg_probe=no])
+])
+
+if test "x$grub_cv_cc_mno_stack_arg_probe" = xyes; then
+ TARGET_CFLAGS="$TARGET_CFLAGS -mno-stack-arg-probe"
+fi
+
+
# By default, GCC 4.6 generates .eh_frame sections containing unwind
# information in some cases where it previously did not. GRUB doesn't need
# these and they just use up vital space. Restore the old compiler
# behaviour.
AC_CACHE_CHECK([whether -fno-asynchronous-unwind-tables works], [grub_cv_cc_fno_asynchronous_unwind_tables], [
- CFLAGS="$TARGET_CFLAGS -fno-dwarf2-cfi-asm"
+ CFLAGS="$TARGET_CFLAGS -fno-asynchronous-unwind-tables"
AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])],
[grub_cv_cc_fno_asynchronous_unwind_tables=yes],
[grub_cv_cc_fno_asynchronous_unwind_tables=no])
TARGET_CFLAGS="$TARGET_CFLAGS -fno-asynchronous-unwind-tables"
fi
-AC_ARG_ENABLE([efiemu],
- [AS_HELP_STRING([--enable-efiemu],
- [build and install the efiemu runtimes (default=guessed)])])
-if test x"$enable_efiemu" = xno ; then
- efiemu_excuse="explicitly disabled"
-fi
-if test x"$grub_cv_target_cc_link_format" = x-mi386pe || test x"$grub_cv_target_cc_link_format" = x-mi386pep ; then
- efiemu_excuse="not available on cygwin"
-fi
-if test x"$target_cpu" != xi386 ; then
- efiemu_excuse="only available on i386"
-fi
-if test x"$platform" = xefi ; then
- efiemu_excuse="not available on efi"
-fi
-if test x"$efiemu_excuse" = x ; then
- AC_CACHE_CHECK([whether options required for efiemu work], grub_cv_cc_efiemu, [
- CFLAGS="-m64 -nostdlib -O2 -mcmodel=large -mno-red-zone"
- AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])],
- [grub_cv_cc_efiemu=yes],
- [grub_cv_cc_efiemu=no])
- ])
- if test x$grub_cv_cc_efiemu = xno; then
- efiemu_excuse="cannot compile with -m64 -mcmodel=large -mno-red-zone -nostdlib"
- fi
-fi
-if test x"$efiemu_excuse" = x ; then
- AC_CACHE_CHECK([for efiemu64 linking format], [grub_cv_target_cc_efiemu64_link_format], [
- grub_cv_target_cc_efiemu64_link_format=unknown
- for format in -melf_x86_64 -melf_x86_64_fbsd -melf_x86_64_obsd -melf_x86_64_haiku -arch,x86_64; do
- CFLAGS="-m64 -nostdlib -O2 -mcmodel=large -mno-red-zone"
- LDFLAGS="-m64 -Wl,$format -nostdlib -static"
- AC_LINK_IFELSE([AC_LANG_PROGRAM([[
- asm (".globl start; start:");
- asm (".globl _start; _start:");
- asm (".globl __start; __start:");
- void __main (void);
- void __main (void) {}
- ]], [[]])], [flag=1], [flag=0])
- if test x"$flag" = x1; then
- grub_cv_target_cc_efiemu64_link_format="$format"
- break
- fi
- done])
- if test x"$grub_cv_target_cc_efiemu64_link_format" = xunknown; then
- efiemu_excuse="no suitable link format for efiemu64 found"
- else
- EFIEMU64_LINK_FORMAT="-Wl,$grub_cv_target_cc_efiemu64_link_format"
- fi
-fi
-if test x"$enable_efiemu" = xyes && test x"$efiemu_excuse" != x ; then
- AC_MSG_ERROR([efiemu runtime was explicitly requested but can't be compiled ($efiemu_excuse)])
-fi
-if test x"$efiemu_excuse" = x ; then
-enable_efiemu=yes
-else
-enable_efiemu=no
+AC_CACHE_CHECK([whether -fno-unwind-tables works], [grub_cv_cc_fno_unwind_tables], [
+ CFLAGS="$TARGET_CFLAGS -fno-unwind-tables"
+ AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])],
+ [grub_cv_cc_fno_unwind_tables=yes],
+ [grub_cv_cc_fno_unwind_tables=no])
+])
+
+if test "x$grub_cv_cc_fno_unwind_tables" = xyes; then
+ TARGET_CFLAGS="$TARGET_CFLAGS -fno-unwind-tables"
fi
-AC_SUBST([enable_efiemu])
-AC_SUBST([EFIEMU64_LINK_FORMAT])
+
CFLAGS="$TARGET_CFLAGS"
TARGET_IMG_CFLAGS=
fi
+CFLAGS="$TARGET_CFLAGS"
+
+AC_ARG_ENABLE([efiemu],
+ [AS_HELP_STRING([--enable-efiemu],
+ [build and install the efiemu runtimes (default=guessed)])])
+if test x"$enable_efiemu" = xno ; then
+ efiemu_excuse="explicitly disabled"
+fi
+
+if test x"$grub_cv_target_cc_link_format" = x-mi386pe || test x"$grub_cv_target_cc_link_format" = x-mi386pep ; then
+ efiemu_excuse="not available on cygwin"
+fi
+if test x"$target_cpu" != xi386 ; then
+ efiemu_excuse="only available on i386"
+fi
+if test x"$platform" = xefi ; then
+ efiemu_excuse="not available on efi"
+fi
+
+if test x"$efiemu_excuse" = x ; then
+ AC_CACHE_CHECK([whether options required for efiemu work], grub_cv_cc_efiemu, [
+ CFLAGS="-m64 -nostdlib -O2 -mcmodel=large -mno-red-zone"
+ AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])],
+ [grub_cv_cc_efiemu=yes],
+ [grub_cv_cc_efiemu=no])
+ ])
+ if test x$grub_cv_cc_efiemu = xno; then
+ efiemu_excuse="cannot compile with -m64 -mcmodel=large -mno-red-zone -nostdlib"
+ fi
+fi
+if test x"$efiemu_excuse" = x ; then
+ AC_CACHE_CHECK([for efiemu64 linking format], [grub_cv_target_cc_efiemu64_link_format], [
+ grub_cv_target_cc_efiemu64_link_format=unknown
+ for format in -melf_x86_64 -melf_x86_64_fbsd -melf_x86_64_obsd -melf_x86_64_haiku -arch,x86_64; do
+ CFLAGS="-m64 -nostdlib -O2 -mcmodel=large -mno-red-zone"
+ LDFLAGS="-m64 -Wl,$format -nostdlib -static"
+ AC_LINK_IFELSE([AC_LANG_PROGRAM([[
+ asm (".globl start; start:");
+ asm (".globl _start; _start:");
+ asm (".globl __start; __start:");
+ void __main (void);
+ void __main (void) {}
+ ]], [[]])], [flag=1], [flag=0])
+ if test x"$flag" = x1; then
+ grub_cv_target_cc_efiemu64_link_format="$format"
+ break
+ fi
+ done])
+ if test x"$grub_cv_target_cc_efiemu64_link_format" = xunknown; then
+ efiemu_excuse="no suitable link format for efiemu64 found"
+ else
+ EFIEMU64_LINK_FORMAT="-Wl,$grub_cv_target_cc_efiemu64_link_format"
+ fi
+fi
+if test x"$enable_efiemu" = xyes && test x"$efiemu_excuse" != x ; then
+ AC_MSG_ERROR([efiemu runtime was explicitly requested but can't be compiled ($efiemu_excuse)])
+fi
+if test x"$efiemu_excuse" = x ; then
+enable_efiemu=yes
+else
+enable_efiemu=no
+fi
+AC_SUBST([enable_efiemu])
+AC_SUBST([EFIEMU64_LINK_FORMAT])
+
+CFLAGS="$TARGET_CFLAGS"
+
AC_SUBST(TARGET_LDFLAGS_OLDMAGIC)
fi
if test "x$target_cpu" = xarm; then
- AC_CACHE_CHECK([whether option -mlong-calls works], grub_cv_cc_mlong_calls, [
- CFLAGS="$TARGET_CFLAGS -mlong-calls -Werror"
- AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])],
- [grub_cv_cc_mlong_calls=yes],
- [grub_cv_cc_mlong_calls=no])
+ AC_CACHE_CHECK([for options to disable movt and movw], grub_cv_target_cc_mno_movt, [
+ grub_cv_target_cc_mno_movt=no
+ for cand in "-mno-movt" \
+ "-mllvm -arm-use-movt=0"; do
+ if test x"$grub_cv_target_cc_mno_movt" != xno ; then
+ break
+ fi
+ CFLAGS="$TARGET_CFLAGS $cand -Werror"
+ CPPFLAGS="$TARGET_CPPFLAGS"
+ AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])],
+ [grub_cv_target_cc_mno_movt="$cand"], [])
+ done
])
- if test "x$grub_cv_cc_mlong_calls" = xyes; then
- TARGET_CFLAGS="$TARGET_CFLAGS -mlong-calls"
+
+ if test x"$grub_cv_target_cc_mno_movt" != xno ; then
+ # A trick so that clang doesn't see it on link stage
+ TARGET_CPPFLAGS="$TARGET_CPPFLAGS $grub_cv_target_cc_mno_movt"
fi
AC_CACHE_CHECK([whether option -mthumb-interwork works], grub_cv_cc_mthumb_interwork, [
CFLAGS="$TARGET_CFLAGS -mthumb-interwork -Werror"
# Position independent executable.
grub_CHECK_PIE
+grub_CHECK_NO_PIE
+grub_CHECK_NO_PIE_ONEWORD
+grub_CHECK_LINK_PIE
[# Need that, because some distributions ship compilers that include
-# `-fPIE' in the default specs.
+# `-fPIE' or '-fpie' and '-pie' in the default specs.
if [ x"$pie_possible" = xyes ]; then
- TARGET_CFLAGS="$TARGET_CFLAGS -fno-PIE"
+ TARGET_CFLAGS="$TARGET_CFLAGS -fno-PIE -fno-pie"
+fi
+
+if [ x"$link_nopie_needed" = xyes ] || [ x"$pie_possible" = xyes ]; then
+ if [ x"$nopie_possible" = xyes ]; then
+ TARGET_LDFLAGS="$TARGET_LDFLAGS -no-pie"
+ fi
+ if [ x"$nopie_oneword_possible" = xyes ]; then
+ TARGET_LDFLAGS="$TARGET_LDFLAGS -nopie"
+ fi
fi]
CFLAGS="$TARGET_CFLAGS"
+LDFLAGS="$TARGET_LDFLAGS"
# Position independent executable.
grub_CHECK_PIC
# and reload $gp in every function.
# GCC implements it using symbol __gnu_local_gp in non-PIC as well.
# However with clang we need PIC for this reloading to happen.
+# With arm64 we need relocations that are in some way representable in
+# PE as we need to support arm64-efi. Without -fPIC clang generates
+# movk's which aren't representable.
# Since default varies across dictributions use either -fPIC or -fno-PIC
# explicitly.
-if ( test x$target_cpu = xmips || test x$target_cpu = xmipsel ) && test "x$grub_cv_cc_target_clang" = xyes ; then
+if ( test x$target_cpu = xmips || test x$target_cpu = xmipsel || test x$target_cpu = xarm64 ) && test "x$grub_cv_cc_target_clang" = xyes ; then
TARGET_CFLAGS="$TARGET_CFLAGS -fPIC"
elif [ x"$pic_possible" = xyes ]; then
TARGET_CFLAGS="$TARGET_CFLAGS -fno-PIC"
else
enable_build_grub_mkfont=no
fi
-if test x"$enable_build_grub_mkfont" = xno && ( test "x$platform" = xqemu || test "x$platform" = xloongson || test "x$platform" = xqemu_mips || test "x$target_cpu"-"$platform" = xpowerpc-ieee1275 || test "x$platform" = xcoreboot ); then
+if test x"$enable_build_grub_mkfont" = xno && ( test "x$platform" = xqemu || test "x$platform" = xloongson || test "x$platform" = xqemu_mips || test "x$platform" = xcoreboot ); then
if test x"$grub_build_mkfont_excuse" = x ; then
- AC_MSG_ERROR([qemu, powerpc-ieee1275, coreboot and loongson ports needs build-time grub-mkfont])
+ AC_MSG_ERROR([qemu, coreboot and loongson ports need build-time grub-mkfont])
else
- AC_MSG_ERROR([qemu, powerpc-ieee1275, coreboot and loongson ports needs build-time grub-mkfont ($grub_build_mkfont_excuse)])
+ AC_MSG_ERROR([qemu, coreboot and loongson ports need build-time grub-mkfont ($grub_build_mkfont_excuse)])
fi
fi
FONT_SOURCE=
fi
-if test "x$FONT_SOURCE" = x && ( test "x$platform" = xqemu || test "x$platform" = xloongson || test "x$platform" = xqemu_mips || test "x$target_cpu"-"$platform" = xpowerpc-ieee1275 || test "x$platform" = xcoreboot ); then
+if test "x$FONT_SOURCE" = x && ( test "x$platform" = xqemu || test "x$platform" = xloongson || test "x$platform" = xqemu_mips || test "x$platform" = xcoreboot ); then
if test x"$grub_build_mkfont_excuse" = x ; then
- AC_MSG_ERROR([qemu, powerpc-ieee1275, coreboot and loongson ports need unifont])
+ AC_MSG_ERROR([qemu, coreboot and loongson ports need unifont])
else
- AC_MSG_ERROR([qemu, powerpc-ieee1275, coreboot and loongson ports need unifont ($grub_build_mkfont_excuse)])
+ AC_MSG_ERROR([qemu, coreboot and loongson ports need unifont ($grub_build_mkfont_excuse)])
fi
fi
AM_CONDITIONAL([COND_mipseb], [test x$target_cpu = xmips])
AM_CONDITIONAL([COND_arm], [test x$target_cpu = xarm ])
AM_CONDITIONAL([COND_arm_uboot], [test x$target_cpu = xarm -a x$platform = xuboot])
+AM_CONDITIONAL([COND_arm_coreboot], [test x$target_cpu = xarm -a x$platform = xcoreboot])
AM_CONDITIONAL([COND_arm_efi], [test x$target_cpu = xarm -a x$platform = xefi])
AM_CONDITIONAL([COND_arm64], [test x$target_cpu = xarm64 ])
AM_CONDITIONAL([COND_arm64_efi], [test x$target_cpu = xarm64 -a x$platform = xefi])