# -*- autoconf -*- # Process this file with autoconf to produce a configure script. # Copyright (C) 2002,2003,2004,2005,2006,2007,2008,2009,2010 Free Software Foundation, Inc. # # This configure.ac is free software; the author # gives unlimited permission to copy and/or distribute it, # with or without modifications, as long as this notice is preserved. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY, to the extent permitted by law; without # even the implied warranty of MERCHANTABILITY or FITNESS FOR A # PARTICULAR PURPOSE. dnl This configure script is complicated, because GRUB needs to deal dnl with three potentially different types: dnl dnl build -- the environment for building GRUB dnl host -- the environment for running utilities dnl target -- the environment for running GRUB dnl dnl In addition, GRUB needs to deal with a platform specification dnl which specifies the system running GRUB, such as firmware. dnl This is necessary because the target type in autoconf does not dnl describe such a system very well. dnl dnl The current strategy is to use variables with no prefix (such as dnl CC, CFLAGS, etc.) for the host and target type, variables with dnl prefix "BUILD_" (such as BUILD_CC, BUILD_CFLAGS, etc.) for the dnl build type, variables with prefix "HOST_" (such as HOST_CC, dnl HOST_CFLAGS, etc.) for the host type and variables with the prefix dnl "TARGET_" (such as TARGET_CC, TARGET_CFLAGS, etc.) are used for dnl the target type. See INSTALL for full list of variables and dnl description of the relationships between them. AC_INIT([GRUB],[2.06],[bug-grub@gnu.org]) AC_CONFIG_AUX_DIR([build-aux]) # We don't want -g -O2 by default in CFLAGS : ${CFLAGS=""} # Checks for build, host and target systems. AC_CANONICAL_BUILD AC_CANONICAL_HOST save_program_prefix="${program_prefix}" AC_CANONICAL_TARGET program_prefix="${save_program_prefix}" AM_INIT_AUTOMAKE([1.11]) AC_PREREQ(2.63) AC_CONFIG_SRCDIR([include/grub/dl.h]) AC_CONFIG_HEADER([config-util.h]) # Explicitly check for pkg-config early on, since otherwise conditional # calls are problematic. PKG_PROG_PKG_CONFIG # Program name transformations AC_ARG_PROGRAM grub_TRANSFORM([grub-bios-setup]) grub_TRANSFORM([grub-editenv]) grub_TRANSFORM([grub-install]) grub_TRANSFORM([grub-mkconfig]) grub_TRANSFORM([grub-mkfont]) grub_TRANSFORM([grub-mkimage]) grub_TRANSFORM([grub-glue-efi]) grub_TRANSFORM([grub-mklayout]) grub_TRANSFORM([grub-mkpasswd-pbkdf2]) grub_TRANSFORM([grub-mkrelpath]) grub_TRANSFORM([grub-mkrescue]) grub_TRANSFORM([grub-probe]) grub_TRANSFORM([grub-reboot]) grub_TRANSFORM([grub-script-check]) grub_TRANSFORM([grub-set-default]) grub_TRANSFORM([grub-sparc64-setup]) grub_TRANSFORM([grub-render-label]) grub_TRANSFORM([grub-file]) # Optimization flag. Allow user to override. if test "x$TARGET_CFLAGS" = x; then TARGET_CFLAGS=-Os fi # Enable support for "restrict" keyword and other # features from gnu99 C language standard. BUILD_CFLAGS="-std=gnu99 $BUILD_CFLAGS" HOST_CFLAGS="-std=gnu99 $HOST_CFLAGS" TARGET_CFLAGS="-std=gnu99 $TARGET_CFLAGS" # Default HOST_CPPFLAGS HOST_CPPFLAGS="$HOST_CPPFLAGS -Wall -W" HOST_CPPFLAGS="$HOST_CPPFLAGS -DGRUB_UTIL=1" TARGET_CPPFLAGS="$TARGET_CPPFLAGS -Wall -W" case "$target_cpu" in i[[3456]]86) target_cpu=i386 ;; amd64) target_cpu=x86_64 ;; sparc) target_cpu=sparc64 ;; mipsel|mips64el) target_cpu=mipsel machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_CPU_MIPSEL=1" ;; mips|mips64) target_cpu=mips machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_CPU_MIPS=1" ;; arm*) target_cpu=arm ;; aarch64*) target_cpu=arm64 ;; riscv32*) target_cpu=riscv32 ;; riscv64*) target_cpu=riscv64 ;; esac # Specify the platform (such as firmware). AC_ARG_WITH([platform], AS_HELP_STRING([--with-platform=PLATFORM], [select the host platform [[guessed]]])) # Guess the platform if not specified. if test "x$with_platform" = x; then case "$target_cpu"-"$target_vendor" in i386-apple) platform=efi ;; i386-*) platform=pc ;; x86_64-apple) platform=efi ;; x86_64-*) platform=pc ;; powerpc-*) platform=ieee1275 ;; powerpc64-*) platform=ieee1275 ;; powerpc64le-*) platform=ieee1275 ;; sparc64-*) platform=ieee1275 ;; mipsel-*) platform=loongson ;; mips-*) platform=arc ;; ia64-*) platform=efi ;; arm-*) platform=uboot ;; arm64-*) platform=efi ;; riscv32-*) platform=efi ;; riscv64-*) platform=efi ;; *) AC_MSG_WARN([unsupported CPU: "$target_cpu" - only building utilities]) platform=none ;; esac else platform="$with_platform" fi case "$target_cpu"-"$platform" in x86_64-efi) ;; x86_64-emu) ;; x86_64-xen) ;; x86_64-none) ;; x86_64-*) target_cpu=i386 ;; powerpc64-ieee1275) target_cpu=powerpc ;; powerpc64le-ieee1275) target_cpu=powerpc ;; esac # Check if the platform is supported, make final adjustments. case "$target_cpu"-"$platform" in i386-efi) ;; x86_64-efi) ;; i386-xen) ;; i386-xen_pvh) ;; x86_64-xen) ;; i386-pc) ;; i386-multiboot) ;; i386-coreboot) ;; i386-linuxbios) platform=coreboot ;; i386-ieee1275) ;; i386-qemu) ;; powerpc-ieee1275) ;; sparc64-ieee1275) ;; ia64-efi) ;; mips-qemu_mips) ;; mips-qemu-mips) platform=qemu_mips;; mips-arc) ;; mipsel-arc) ;; mipsel-qemu_mips) ;; mipsel-qemu-mips) platform=qemu_mips;; mipsel-yeeloong) platform=loongson ;; mipsel-fuloong) platform=loongson ;; mipsel-loongson) ;; arm-uboot) ;; arm-coreboot) ;; arm-efi) ;; arm64-efi) ;; riscv32-efi) ;; riscv64-efi) ;; *-emu) ;; *-none) ;; *) AC_MSG_ERROR([platform "$platform" is not supported for target CPU "$target_cpu"]) ;; esac if test x$platform != xemu ; then case "$target_cpu" in i386 | powerpc) target_m32=1 ;; x86_64 | sparc64) target_m64=1 ;; esac fi if test x"$target_cpu-$platform" = xsparc64-emu ; then target_m64=1 fi case "$target_os" in windows* | mingw32*) target_os=cygwin ;; esac # This normalizes the names, and creates a new variable ("host_kernel") # while at it, since the mapping is not always 1:1 (e.g. different OSes # using the same kernel type). case "$host_os" in gnu*) host_kernel=hurd ;; linux*) host_kernel=linux ;; freebsd* | kfreebsd*-gnu) host_kernel=kfreebsd ;; netbsd*) host_kernel=netbsd ;; solaris*) host_kernel=illumos ;; darwin*) host_kernel=xnu ;; cygwin | windows* | mingw32*) host_kernel=windows ;; esac case "$host_os" in cygwin) have_exec=y ;; windows* | mingw32*) have_exec=n ;; aros*) have_exec=n ;; *) have_exec=y;; esac case "$platform" in coreboot) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_COREBOOT=1" ;; multiboot) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_MULTIBOOT=1" ;; efi) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_EFI=1" ;; xen) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_XEN=1" ;; xen_pvh) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_XEN_PVH=1" ;; ieee1275) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_IEEE1275=1" ;; uboot) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_UBOOT=1" ;; qemu) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_QEMU=1" ;; pc) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_PCBIOS=1" ;; emu) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_EMU=1" ;; loongson) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_MIPS_LOONGSON=1" ;; qemu_mips) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_MIPS_QEMU_MIPS=1" ;; arc) machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE_ARC=1" ;; esac if test x${target_cpu} = xmipsel ; then machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE=`echo mips_$platform | sed y,abcdefghijklmnopqrstuvwxyz,ABCDEFGHIJKLMNOPQRSTUVWXYZ,`" else machine_CPPFLAGS="$machine_CPPFLAGS -DGRUB_MACHINE=`echo ${target_cpu}_$platform | sed y,abcdefghijklmnopqrstuvwxyz,ABCDEFGHIJKLMNOPQRSTUVWXYZ,`" fi case "${target_cpu}-$platform" in mips-arc) TARGET_LINK_ADDR=0x88200000 TARGET_DECOMPRESSOR_LINK_ADDR=0x88100000 ;; mipsel-arc) TARGET_LINK_ADDR=0x80700000 TARGET_DECOMPRESSOR_LINK_ADDR=0x80600000 ;; mips*-qemu_mips | mips*-loongson) TARGET_DECOMPRESSOR_LINK_ADDR=0x80100000 ;; esac AC_SUBST(TARGET_LINK_ADDR) AC_SUBST(TARGET_DECOMPRESSOR_LINK_ADDR) TARGET_CPPFLAGS="$TARGET_CPPFLAGS $machine_CPPFLAGS" AC_SUBST(host_cpu) AC_SUBST(host_os) AC_SUBST(host_kernel) AC_SUBST(target_cpu) AC_SUBST(platform) # Define default variables have_with_bootdir=n AC_ARG_WITH([bootdir], AS_HELP_STRING([--with-bootdir=DIR], [set the name of /boot directory [[guessed]]]), [have_with_bootdir=y], [have_with_bootdir=n]) if test x$have_with_bootdir = xy; then bootdirname="$with_bootdir" else case "$host_os" in netbsd* | openbsd*) # Because /boot is used for the boot block in NetBSD and OpenBSD, bootdirname='' ;; *) bootdirname='boot' ;; esac fi AC_SUBST(bootdirname) AC_DEFINE_UNQUOTED(GRUB_BOOT_DIR_NAME, "$bootdirname", [Default boot directory name]) AC_ARG_WITH([grubdir], AS_HELP_STRING([--with-grubdir=DIR], [set the name of grub directory [[guessed]]]), [grubdirname="$with_grubdir"], [grubdirname="$PACKAGE"]) AC_SUBST(grubdirname) AC_DEFINE_UNQUOTED(GRUB_DIR_NAME, "$grubdirname", [Default grub directory name]) # # Checks for build programs. # # Although cmp is listed in the GNU Coding Standards as a command which # can used directly, OpenBSD lacks cmp in the default installation. AC_CHECK_PROGS([CMP], [cmp]) if test "x$CMP" = x; then AC_MSG_ERROR([cmp is not found]) fi AC_CHECK_PROGS([YACC], [bison]) if test "x$YACC" = x; then AC_MSG_ERROR([bison is not found]) fi AC_PROG_RANLIB AC_PROG_INSTALL AC_PROG_AWK AC_PROG_LEX AC_PROG_YACC AC_PROG_MAKE_SET AC_PROG_MKDIR_P AC_PROG_LN_S if test "x$LEX" = "x:"; then AC_MSG_ERROR([flex is not found]) else version=`$LEX --version | $AWK '{ split($2,x,"."); print x[[1]]*10000+x[[2]]*100+x[[3]]; }'` if test -n "$version" -a "$version" -ge 20535; then : else AC_MSG_ERROR([flex is too old. GRUB requires 2.5.35 or above]) fi fi # These are not a "must". AC_PATH_PROGS(MAKEINFO, makeinfo true) # # Checks for host programs. # AC_PROG_CC gl_EARLY AC_PROG_CXX AM_PROG_CC_C_O AM_PROG_AS AM_PATH_PYTHON([2.6]) # Must be GCC. test "x$GCC" = xyes || AC_MSG_ERROR([GCC is required]) AC_CHECK_PROG(HAVE_CXX, $CXX, yes, no) AC_GNU_SOURCE AM_GNU_GETTEXT([external]) AM_GNU_GETTEXT_VERSION([0.18.3]) AC_SYS_LARGEFILE # Identify characteristics of the host architecture. unset ac_cv_c_bigendian if test x"$target_cpu-$platform" = xsparc64-emu ; then CFLAGS="$CFLAGS -m64" HOST_CFLAGS="$HOST_CFLAGS -m64" fi CPPFLAGS="$CPPFLAGS -D_FILE_OFFSET_BITS=64" HOST_CPPFLAGS="$HOST_CPPFLAGS -D_FILE_OFFSET_BITS=64" AC_C_BIGENDIAN AC_CHECK_SIZEOF(void *) AC_CHECK_SIZEOF(long) case "$host_os" in cygwin | windows* | mingw32*) HOST_CPPFLAGS="$HOST_CPPFLAGS -DUNICODE=1 -D_WIN32_WINNT=0x0500" CPPFLAGS="$CPPFLAGS -DUNICODE=1 -D_WIN32_WINNT=0x0500" AC_CHECK_SIZEOF(TCHAR,,[#include ]) ;; esac case "$host_os" in cygwin | windows* | mingw32* | aros*) ;; *) AC_CHECK_SIZEOF(off_t) if test x"$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 HOST_CFLAGS="$HOST_CFLAGS -fno-builtin-gettext" fi if test "x$cross_compiling" = xyes; then AC_MSG_WARN([cannot generate manual pages while cross compiling]) else AC_PATH_PROG(HELP2MAN, help2man) fi # Check for functions and headers. AC_CHECK_FUNCS(posix_memalign memalign getextmntent atexit) 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 #include ]) AC_CHECK_MEMBERS([struct statfs.f_mntfromname],,,[$ac_includes_default #include #include ]) # For opendisk() and getrawpartition() on NetBSD. # Used in util/deviceiter.c and in util/hostdisk.c. AC_CHECK_HEADER([util.h], [ AC_CHECK_LIB([util], [opendisk], [ LIBUTIL="-lutil" AC_DEFINE(HAVE_OPENDISK, 1, [Define if opendisk() in -lutil can be used]) ]) AC_CHECK_LIB([util], [getrawpartition], [ LIBUTIL="-lutil" AC_DEFINE(HAVE_GETRAWPARTITION, 1, [Define if getrawpartition() in -lutil can be used]) ]) ]) AC_SUBST([LIBUTIL]) AC_CACHE_CHECK([whether -Wtrampolines work], [grub_cv_host_cc_wtrampolines], [ SAVED_CFLAGS="$CFLAGS" CFLAGS="$HOST_CFLAGS -Wtrampolines -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[#include int va_arg_func (int fixed, va_list args);]], [[]])], [grub_cv_host_cc_wtrampolines=yes], [grub_cv_host_cc_wtrampolines=no]) CFLAGS="$SAVED_CFLAGS" ]) if test x"$grub_host_cv_cc_wtrampolines" = xyes ; then HOST_CFLAGS="$HOST_CFLAGS -Wtrampolines" fi # # Check for host and build compilers. # HOST_CC=$CC AC_CHECK_PROGS(BUILD_CC, [gcc egcs cc]) test -z "$BUILD_CC" && AC_MSG_ERROR([none of gcc, egcs and cc is found. set BUILD_CC manually.]) BUILD_CPP="$BUILD_CC -E" case "$build_os" in haiku*) BUILD_LIBM= ;; *) BUILD_LIBM=-lm ;; esac dnl FIXME proper test seems to require too deep dive into Autoconf internals. dnl For now just list known platforms that we support. case "$build_os" in cygwin*|mingw32*|mingw64*) BUILD_EXEEXT=.exe ;; *) BUILD_EXEEXT= ;; 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 WARN_FLAGS="-Wall -W -Wshadow -Wpointer-arith -Wundef -Wchar-subscripts -Wcomment -Wdeprecated-declarations -Wdisabled-optimization -Wdiv-by-zero -Wfloat-equal -Wformat-extra-args -Wformat-security -Wformat-y2k -Wimplicit -Wimplicit-function-declaration -Wimplicit-int -Wmain -Wmissing-braces -Wmissing-format-attribute -Wmultichar -Wparentheses -Wreturn-type -Wsequence-point -Wshadow -Wsign-compare -Wswitch -Wtrigraphs -Wunknown-pragmas -Wunused -Wunused-function -Wunused-label -Wunused-parameter -Wunused-value -Wunused-variable -Wwrite-strings -Wnested-externs -Wstrict-prototypes" EXTRA_WARN_FLAGS="-Wextra -Wattributes -Wendif-labels -Winit-self -Wint-to-pointer-cast -Winvalid-pch -Wmissing-field-initializers -Wnonnull -Woverflow -Wvla -Wpointer-to-int-cast -Wstrict-aliasing -Wvariadic-macros -Wvolatile-register-var -Wpointer-sign -Wmissing-include-dirs -Wmissing-prototypes -Wmissing-declarations -Wformat=2" HOST_CFLAGS="$HOST_CFLAGS $WARN_FLAGS -Wcast-align" AC_CACHE_CHECK([which extra warnings work], [grub_cv_cc_w_extra_flags], [ SAVED_CFLAGS="$CFLAGS" grub_cv_cc_w_extra_flags= for x in $EXTRA_WARN_FLAGS; do CFLAGS="$HOST_CFLAGS $x -Werror" AC_LINK_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [flag=1], [flag=0]) if test x$flag = x1 ; then grub_cv_cc_w_extra_flags="$grub_cv_cc_w_extra_flags $x" fi done CFLAGS="$SAVED_CFLAGS" ]) HOST_CFLAGS="$HOST_CFLAGS $grub_cv_cc_w_extra_flags" # # Check for target programs. # # Find tools for the target. if test "x$target_alias" != x && test "x$host_alias" != "x$target_alias"; then tmp_ac_tool_prefix="$ac_tool_prefix" ac_tool_prefix=$target_alias- AC_CHECK_TOOLS(TARGET_CC, [gcc egcs cc], [AC_MSG_ERROR([none of gcc, egcs and cc is found. set TARGET_CC manually.])]) AC_CHECK_TOOL(TARGET_OBJCOPY, objcopy) AC_CHECK_TOOL(TARGET_STRIP, strip) AC_CHECK_TOOL(TARGET_NM, nm) AC_CHECK_TOOL(TARGET_RANLIB, ranlib) ac_tool_prefix="$tmp_ac_tool_prefix" else if test "x$TARGET_CC" = x; then TARGET_CC=$CC fi AC_CHECK_TOOL(TARGET_OBJCOPY, objcopy) AC_CHECK_TOOL(TARGET_STRIP, strip) AC_CHECK_TOOL(TARGET_NM, nm) AC_CHECK_TOOL(TARGET_RANLIB, ranlib) fi AC_SUBST(HOST_CC) AC_SUBST(BUILD_CC) AC_SUBST(BUILD_CFLAGS) AC_SUBST(BUILD_CPPFLAGS) AC_SUBST(BUILD_LDFLAGS) AC_SUBST(TARGET_CC) AC_SUBST(TARGET_NM) AC_SUBST(TARGET_RANLIB) AC_SUBST(TARGET_STRIP) AC_SUBST(TARGET_OBJCOPY) # Test the C compiler for the target environment. tmp_CC="$CC" tmp_CFLAGS="$CFLAGS" tmp_LDFLAGS="$LDFLAGS" tmp_CPPFLAGS="$CPPFLAGS" tmp_LIBS="$LIBS" CC="$TARGET_CC" CFLAGS="$TARGET_CFLAGS" CPPFLAGS="$TARGET_CPPFLAGS" LDFLAGS="$TARGET_LDFLAGS" LIBS="" if test "x$target_m32" = x1; then # Force 32-bit mode. TARGET_CFLAGS="$TARGET_CFLAGS -m32" TARGET_CCASFLAGS="$TARGET_CCASFLAGS -m32" TARGET_CPPFLAGS="$TARGET_CPPFLAGS -m32" TARGET_LDFLAGS="$TARGET_LDFLAGS -m32" TARGET_MODULE_FORMAT="elf32" fi if test "x$target_m64" = x1; then # Force 64-bit mode. TARGET_CFLAGS="$TARGET_CFLAGS -m64" TARGET_CCASFLAGS="$TARGET_CCASFLAGS -m64" TARGET_CPPFLAGS="$TARGET_CPPFLAGS -m64" TARGET_LDFLAGS="$TARGET_LDFLAGS -m64" TARGET_MODULE_FORMAT="elf64" fi # debug flags. TARGET_CFLAGS="$TARGET_CFLAGS $WARN_FLAGS -g -Wredundant-decls -Wmissing-prototypes -Wmissing-declarations" TARGET_CCASFLAGS="$TARGET_CCASFLAGS -g" if test "x$target_cpu" != xi386 && test "x$target_cpu" != xx86_64; then TARGET_CFLAGS="$TARGET_CFLAGS -Wcast-align" fi TARGET_CC_VERSION="$(LC_ALL=C $TARGET_CC --version | head -n1)" AC_CACHE_CHECK([which extra warnings work], [grub_cv_target_cc_w_extra_flags], [ LDFLAGS="$TARGET_LDFLAGS -nostdlib -static" grub_cv_target_cc_w_extra_flags= for x in $EXTRA_WARN_FLAGS; do CFLAGS="$TARGET_CFLAGS $x -Werror" AC_LINK_IFELSE([AC_LANG_PROGRAM([[ asm (".globl start; start:"); void __main (void); void __main (void) {} int main (void); ]], [[]])], [flag=1], [flag=0]) if test x$flag = x1 ; then grub_cv_target_cc_w_extra_flags="$grub_cv_target_cc_w_extra_flags $x" fi done ]) TARGET_CFLAGS="$TARGET_CFLAGS $grub_cv_target_cc_w_extra_flags" AC_CACHE_CHECK([if compiling with clang], [grub_cv_cc_target_clang], [ CFLAGS="$TARGET_CFLAGS" AC_COMPILE_IFELSE( [AC_LANG_PROGRAM([], [[ #ifdef __clang__ #error "is clang" #endif ]])], [grub_cv_cc_target_clang=no], [grub_cv_cc_target_clang=yes])]) if test x$target_cpu = xpowerpc -o x$target_cpu = xmips; then AC_CACHE_CHECK([for options to get big-endian compilation], grub_cv_target_cc_big_endian, [ grub_cv_target_cc_big_endian=no for cand in "-target $target_cpu -Wl,-EB" "-target $target_cpu" \ "-target $target_cpu-linux-gnu -Wl,-EB" "-target $target_cpu-linux-gnu" \ "-EB" "-mbig-endian"; do if test x"$grub_cv_target_cc_big_endian" != xno ; then break fi CFLAGS="$TARGET_CFLAGS $cand -Werror" AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #if defined(__BYTE_ORDER__) && defined(__ORDER_BIG_ENDIAN__) && (__ORDER_BIG_ENDIAN__ != __BYTE_ORDER__) #error still little endian #endif asm (".globl start; start:"); asm (".globl _start; _start:"); asm (".globl __start; __start:"); void __main (void); void __main (void) {} int main (void); ]], [[]])], [grub_cv_target_cc_big_endian="$cand"], []) done ]) if test x"$grub_cv_target_cc_big_endian" = xno ; then AC_MSG_ERROR([could not force big-endian]) fi skip_linkflags="$(echo "$grub_cv_target_cc_big_endian"|sed 's@-Wl,-EB@@')" TARGET_CFLAGS="$TARGET_CFLAGS $skip_linkflags" TARGET_CPPFLAGS="$TARGET_CPPFLAGS $skip_linkflags" TARGET_CCASFLAGS="$TARGET_CCASFLAGS $skip_linkflags" TARGET_LDFLAGS="$TARGET_LDFLAGS $grub_cv_target_cc_big_endian" elif test x$target_cpu = xmipsel; then AC_CACHE_CHECK([for options to get little-endian compilation], grub_cv_target_cc_little_endian, [ grub_cv_target_cc_little_endian=no for cand in "-target $target_cpu -Wl,-EL" "-target $target_cpu" \ "-target $target_cpu-linux-gnu -Wl,-EL" "-target $target_cpu-linux-gnu" \ "-EL"; do if test x"$grub_cv_target_cc_little_endian" != xno ; then break fi CFLAGS="$TARGET_CFLAGS $cand -Werror" AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #if defined(__BYTE_ORDER__) && defined(__ORDER_BIG_ENDIAN__) && (__ORDER_BIG_ENDIAN__ == __BYTE_ORDER__) #error still big endian #endif asm (".globl start; start:"); asm (".globl _start; _start:"); asm (".globl __start; __start:"); void __main (void); void __main (void) {} int main (void); ]], [[]])], [grub_cv_target_cc_little_endian="$cand"], []) done ]) if test x"$grub_cv_target_cc_little_endian" = xno ; then AC_MSG_ERROR([could not force little-endian]) fi skip_linkflags="$(echo "$grub_cv_target_cc_little_endian"|sed 's@-Wl,-EL@@')" TARGET_CFLAGS="$TARGET_CFLAGS $skip_linkflags" TARGET_CPPFLAGS="$TARGET_CPPFLAGS $skip_linkflags" TARGET_CCASFLAGS="$TARGET_CCASFLAGS $skip_linkflags" TARGET_LDFLAGS="$TARGET_LDFLAGS $grub_cv_target_cc_little_endian" fi # GRUB code is N32-compliant but it's experimental and we would prefer to # avoid having too much variety when it doesn't result in any real improvement. # Moreover N64 isn't supported. if test "x$target_cpu" = xmips || test "x$target_cpu" = xmipsel ; then AC_CACHE_CHECK([for options to force MIPS o32 ABI], grub_cv_target_cc_mips_o32_abi, [ grub_cv_target_cc_mips_o32_abi=no for arg in "" "-mabi=32" "-target $target_cpu -mabi=32" ; do if test x"$grub_cv_target_cc_mips_o32_abi" != xno ; then break fi CFLAGS="$TARGET_CFLAGS $arg -Werror" AC_LINK_IFELSE([AC_LANG_PROGRAM([[ #if !defined(_ABIO32) || !defined(_MIPS_SIM) || (_MIPS_SIM != _ABIO32) #error not o32 ABI #endif asm (".globl start; start:"); asm (".globl _start; _start:"); asm (".globl __start; __start:"); void __main (void); void __main (void) {} int main (void); ]], [[]])], [grub_cv_target_cc_mips_o32_abi="$arg"], []) done ]) if test x"$grub_cv_target_cc_mips_o32_abi" = xno ; then AC_MSG_ERROR([could not force MIPS o32 ABI]) fi TARGET_CFLAGS="$TARGET_CFLAGS $grub_cv_target_cc_mips_o32_abi" TARGET_CCASFLAGS="$TARGET_CCASFLAGS $grub_cv_target_cc_mips_o32_abi" fi AC_CACHE_CHECK([for options to compile assembly], [grub_cv_cc_target_asm_compile], [ test_program= case "x$target_cpu-$platform" in xmips-* | xmipsel-*) test_program=mips ;; xi386-pc) test_program=i386-pc ;; xi386-* | xx86_64-*) test_program=i386 ;; xpowerpc-* | xsparc64-* | xarm-*) test_program=$target_cpu ;; esac if test x"$test_program" = x ; then grub_cv_cc_target_asm_compile= else found=no for arg in "" "-no-integrated-as"; do cmdline="$TARGET_CC -c -o /dev/null $TARGET_CCASFLAGS $arg $TARGET_CPPFLAGS $srcdir/asm-tests/$test_program.S" echo "Running $cmdline" >&AS_MESSAGE_LOG_FD if $cmdline >&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; then grub_cv_cc_target_asm_compile="$arg" found=yes break fi done if test x"$found" = xno ; then AC_MSG_ERROR([could not compile assembly]) fi fi ]) TARGET_CCASFLAGS="$TARGET_CCASFLAGS $grub_cv_cc_target_asm_compile" if test "x$target_cpu" = xi386 && test "x$platform" != xemu; then TARGET_CFLAGS="$TARGET_CFLAGS -march=i386" fi if test "x$grub_cv_cc_target_clang" = xno && test "x$target_cpu" = xi386 && test "x$platform" != xemu && test "x$platform" != xefi; then TARGET_CFLAGS="$TARGET_CFLAGS -mrtd -mregparm=3" fi # on mips redirect cache flushing function to non-existant one. if test "x$target_cpu" = xmips || test "x$target_cpu" = xmipsel ; then AC_CACHE_CHECK([whether -mflush-func=grub_red_herring works], [grub_cv_cc_mflush_func], [ CFLAGS="$TARGET_CFLAGS -mflush-func=grub_red_herring -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_mflush_func=yes], [grub_cv_cc_mflush_func=no]) ]) if test "x$grub_cv_cc_mflush_func" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -mflush-func=grub_red_herring" fi fi # Force no alignment to save space on i386. if test "x$target_cpu" = xi386; then AC_CACHE_CHECK([whether -falign-loops works], [grub_cv_cc_falign_loop], [ CFLAGS="$TARGET_CFLAGS -falign-loops=1 -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_falign_loop=yes], [grub_cv_cc_falign_loop=no]) ]) AC_CACHE_CHECK([whether -malign-loops works], [grub_cv_cc_malign_loop], [ CFLAGS="$TARGET_CFLAGS -malign-loops=1 -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_malign_loop=yes], [grub_cv_cc_malign_loop=no]) ]) if test "x$grub_cv_cc_falign_loop" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -falign-jumps=1 -falign-loops=1 -falign-functions=1" elif test "x$grub_cv_cc_malign_loop" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -malign-jumps=1 -malign-loops=1 -malign-functions=1" fi fi AC_CACHE_CHECK([whether -freg-struct-return works], [grub_cv_cc_freg_struct_return], [ CFLAGS="$TARGET_CFLAGS -freg-struct-return -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_freg_struct_return=yes], [grub_cv_cc_freg_struct_return=no]) ]) if test "x$grub_cv_cc_freg_struct_return" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -freg-struct-return" fi 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-sse3 -mno-3dnow" fi # GRUB doesn't use float or doubles at all. Yet some toolchains may decide # that floats are a good fit to run instead of what's written in the code. # Given that floating point unit is disabled (if present to begin with) # when GRUB is running which may result in various hard crashes. if test x"$platform" != xemu ; then AC_CACHE_CHECK([for options to get soft-float], grub_cv_target_cc_soft_float, [ grub_cv_target_cc_soft_float=no if test "x$target_cpu" = xarm64; then CFLAGS="$TARGET_CFLAGS -mgeneral-regs-only -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_target_cc_soft_float="-mgeneral-regs-only"], []) fi if test "x$target_cpu" = xriscv32; then CFLAGS="$TARGET_CFLAGS -march=rv32imac -mabi=ilp32 -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_target_cc_soft_float="-march=rv32imac -mabi=ilp32"], []) fi if test "x$target_cpu" = xriscv64; then CFLAGS="$TARGET_CFLAGS -march=rv64imac -mabi=lp64 -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_target_cc_soft_float="-march=rv64imac -mabi=lp64"], []) fi if test "x$target_cpu" = xia64; then CFLAGS="$TARGET_CFLAGS -mno-inline-float-divide -mno-inline-sqrt -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_target_cc_soft_float="-mno-inline-float-divide -mno-inline-sqrt"], []) fi if test "x$target_cpu" = xsh4; then CFLAGS="$TARGET_CFLAGS -m4-nofpu -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_target_cc_soft_float="-m4-nofpu"], []) fi for cand in "-msoft-float -Xclang -msoft-float -Xclang -no-implicit-float" \ "-Xclang -msoft-float -Xclang -no-implicit-float" \ "-Xclang -msoft-float" "-msoft-float"; do if test x"$grub_cv_target_cc_soft_float" != xno ; then break fi CFLAGS="$TARGET_CFLAGS $cand -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_target_cc_soft_float="$cand"], []) done ]) if test x"$grub_cv_target_cc_soft_float" = xno ; then AC_MSG_ERROR([could not force soft-float]) fi case x"$grub_cv_target_cc_soft_float" in x*"-Xclang"*) # A trick so that clang doesn't see it on link stаge TARGET_CPPFLAGS="$TARGET_CPPFLAGS $grub_cv_target_cc_soft_float" ;; *) TARGET_CFLAGS="$TARGET_CFLAGS $grub_cv_target_cc_soft_float" ;; esac TARGET_CCASFLAGS="$TARGET_CCASFLAGS $grub_cv_target_cc_soft_float" fi if test x"$target_cpu" = xsparc64 ; then AC_CACHE_CHECK([for options to reserve application registers], grub_cv_target_cc_mno_app_regs, [ grub_cv_target_cc_mno_app_regs=no for cand in "-mllvm -sparc-reserve-app-registers" \ "-mno-app-regs"; do if test x"$grub_cv_target_cc_mno_app_regs" != xno ; then break fi CFLAGS="$TARGET_CFLAGS $cand -Werror" CPPFLAGS="$TARGET_CPPFLAGS" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_target_cc_mno_app_regs="$cand"], []) done ]) if test x"$grub_cv_target_cc_mno_app_regs" = xno ; then AC_MSG_ERROR([could not reserve application registers]) fi if test x"$grub_cv_target_cc_mno_app_regs" = x"-mllvm -sparc-reserve-app-registers" ; then # A trick so that clang doesn't see it on link stаge TARGET_CPPFLAGS="$TARGET_CPPFLAGS $grub_cv_target_cc_mno_app_regs" else TARGET_CFLAGS="$TARGET_CFLAGS $grub_cv_target_cc_mno_app_regs" fi AC_CACHE_CHECK([for no-relax options], grub_cv_target_cc_mno_relax, [ grub_cv_target_cc_mno_relax=no for cand in "-mno-relax" "-Wl,--no-relax"; do if test x"$grub_cv_target_cc_mno_relax" != xno ; then break fi LDFLAGS="$TARGET_LDFLAGS $cand -nostdlib -static" CFLAGS="$TARGET_CFLAGS -Werror" AC_LINK_IFELSE([AC_LANG_PROGRAM([[ asm (".globl start; start:"); void __main (void); void __main (void) {} int main (void); ]], [[]])], [grub_cv_target_cc_mno_relax="$cand"], []) done ]) LDFLAGS="$TARGET_LDFLAGS" CFLAGS="$TARGET_CFLAGS" if test x"$grub_cv_target_cc_mno_relax" = xno ; then AC_MSG_ERROR([could not find no-relax options]) fi TARGET_LDFLAGS="$TARGET_LDFLAGS $grub_cv_target_cc_mno_relax" fi # By default, GCC 4.4 generates .eh_frame sections containing unwind # information in some cases where it previously did not. GRUB doesn't need # these and they just use up vital space. Restore the old compiler # behaviour. AC_CACHE_CHECK([whether -fno-dwarf2-cfi-asm works], [grub_cv_cc_fno_dwarf2_cfi_asm], [ CFLAGS="$TARGET_CFLAGS -fno-dwarf2-cfi-asm" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_fno_dwarf2_cfi_asm=yes], [grub_cv_cc_fno_dwarf2_cfi_asm=no]) ]) if test "x$grub_cv_cc_fno_dwarf2_cfi_asm" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -fno-dwarf2-cfi-asm" fi if test x"$target_os" = xcygwin; then AC_CACHE_CHECK([whether option -fno-reorder-functions works], grub_cv_cc_no_reorder_functions, [ CFLAGS="$TARGET_CFLAGS -fno-reorder-functions" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_no_reorder_functions=yes], [grub_cv_cc_no_reorder_functions=no]) ]) fi if test x"$target_os" = xcygwin && test "x$grub_cv_cc_no_reorder_functions" = xyes; then 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="$TARGET_CFLAGS -fno-asynchronous-unwind-tables" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_fno_asynchronous_unwind_tables=yes], [grub_cv_cc_fno_asynchronous_unwind_tables=no]) ]) if test "x$grub_cv_cc_fno_asynchronous_unwind_tables" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -fno-asynchronous-unwind-tables" fi AC_CACHE_CHECK([whether -fno-unwind-tables works], [grub_cv_cc_fno_unwind_tables], [ CFLAGS="$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 # Do not generate .ident sections. AC_CACHE_CHECK([whether -fno-ident works], [grub_cv_cc_fno_ident], [ CFLAGS="$TARGET_CFLAGS -fno-ident" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_fno_ident=yes], [grub_cv_cc_fno_ident=no]) ]) if test "x$grub_cv_cc_fno_ident" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -fno-ident" fi CFLAGS="$TARGET_CFLAGS" if test x"$platform" = xemu ; then TARGET_OBJ2ELF= grub_cv_target_cc_link_format= case "$host_os" in *darwin* | *mac*) grub_cv_target_cc_link_format="-arch,${target_cpu}" TARGET_LDFLAGS="$TARGET_LDFLAGS -Wl,$grub_cv_target_cc_link_format" ;; *windows* | *cygwin* | *mingw*) if test x${target_cpu} = xi386 ; then grub_cv_target_cc_link_format=-mi386pe TARGET_OBJ2ELF='./build-grub-pe2elf$(BUILD_EXEEXT)' fi if test x${target_cpu} = xx86_64 ; then grub_cv_target_cc_link_format=-mi386pep TARGET_OBJ2ELF='./build-grub-pep2elf$(BUILD_EXEEXT)' fi TARGET_LDFLAGS="$TARGET_LDFLAGS -Wl,$grub_cv_target_cc_link_format" ;; esac elif test x"$target_cpu" = xi386 || test x"$target_cpu" = xx86_64; then AC_CACHE_CHECK([for target linking format], [grub_cv_target_cc_link_format], [ grub_cv_target_cc_link_format=unknown for format in -melf_${target_cpu} -melf_${target_cpu}_fbsd -melf_${target_cpu}_obsd -melf_${target_cpu}_haiku -mi386pe -mi386pep -arch,${target_cpu}; do if test x${target_cpu} != xi386 && test x$format = x-mi386pe; then continue fi if test x${target_cpu} != xx86_64 && test x$format = x-mi386pep; then continue fi CFLAGS="$TARGET_CFLAGS" LDFLAGS="$TARGET_LDFLAGS -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_link_format="$format" break fi done]) if test x"$grub_cv_target_cc_link_format" = xunknown; then AC_MSG_ERROR([no suitable link format found]) fi TARGET_LDFLAGS="$TARGET_LDFLAGS -Wl,$grub_cv_target_cc_link_format" if test x"$grub_cv_target_cc_link_format" = x-mi386pe ; then TARGET_OBJ2ELF='./build-grub-pe2elf$(BUILD_EXEEXT)' fi if test x"$grub_cv_target_cc_link_format" = x-mi386pep ; then TARGET_OBJ2ELF='./build-grub-pep2elf$(BUILD_EXEEXT)' fi fi if test x$grub_cv_target_cc_link_format = x-arch,i386 || test x$grub_cv_target_cc_link_format = x-arch,x86_64; then TARGET_APPLE_LINKER=1 AC_CHECK_PROG([TARGET_OBJCONV], [objconv], [objconv], []) if test "x$TARGET_OBJCONV" = x ; then AC_CHECK_PROG([TARGET_OBJCONV], [objconv], [./objconv], [], [.]) fi if test "x$TARGET_OBJCONV" = x ; then AC_MSG_ERROR([objconv not found which is required when building with apple compiler]) fi TARGET_IMG_LDSCRIPT= TARGET_IMG_CFLAGS="-static" TARGET_IMG_LDFLAGS='-nostdlib -static -Wl,-preload -Wl,-segalign,20' TARGET_IMG_LDFLAGS_AC='-nostdlib -static -Wl,-preload -Wl,-segalign,20' TARGET_IMG_BASE_LDOPT="-Wl,-image_base" TARGET_LDFLAGS_OLDMAGIC="" elif test x$grub_cv_target_cc_link_format = x-mi386pe || test x$grub_cv_target_cc_link_format = x-mi386pep ; then TARGET_APPLE_LINKER=0 TARGET_LDFLAGS_OLDMAGIC="-Wl,-N" TARGET_IMG_LDSCRIPT='$(top_srcdir)'"/${grub_coredir}/conf/i386-cygwin-img-ld.sc" TARGET_IMG_LDFLAGS="-Wl,-T${TARGET_IMG_LDSCRIPT}" TARGET_IMG_LDFLAGS_AC="-Wl,-T${srcdir}/${grub_coredir}/conf/i386-cygwin-img-ld.sc" TARGET_IMG_BASE_LDOPT="-Wl,-Ttext" TARGET_IMG_CFLAGS= else TARGET_APPLE_LINKER=0 TARGET_LDFLAGS_OLDMAGIC="-Wl,-N" TARGET_IMG_LDSCRIPT= TARGET_IMG_LDFLAGS='-Wl,-N' TARGET_IMG_LDFLAGS_AC='-Wl,-N' TARGET_IMG_BASE_LDOPT="-Wl,-Ttext" TARGET_IMG_CFLAGS= fi CFLAGS="$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) LDFLAGS="$TARGET_LDFLAGS" if test "$target_cpu" = x86_64 || test "$target_cpu" = sparc64 || test "$target_cpu" = riscv64 ; then # Use large model to support 4G memory AC_CACHE_CHECK([whether option -mcmodel=large works], grub_cv_cc_mcmodel, [ CFLAGS="$TARGET_CFLAGS -mcmodel=large" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_mcmodel=yes], [grub_cv_cc_mcmodel=no]) ]) if test "x$grub_cv_cc_mcmodel" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -mcmodel=large" elif test "$target_cpu" = sparc64 || test "$target_cpu" = riscv64; then TARGET_CFLAGS="$TARGET_CFLAGS -mcmodel=medany" fi fi if test "$target_cpu"-"$platform" = x86_64-efi; then # EFI writes to stack below %rsp, we must not use the red zone AC_CACHE_CHECK([whether option -mno-red-zone works], grub_cv_cc_no_red_zone, [ CFLAGS="$TARGET_CFLAGS -mno-red-zone" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_no_red_zone=yes], [grub_cv_cc_no_red_zone=no]) ]) if test "x$grub_cv_cc_no_red_zone" = xno; then AC_MSG_ERROR([-mno-red-zone not supported, upgrade your gcc]) fi TARGET_CFLAGS="$TARGET_CFLAGS -mno-red-zone" fi if test "x$target_cpu" = xarm; then 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" \ "-mword-relocations"; 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_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" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_cc_mthumb_interwork=yes], [grub_cv_cc_mthumb_interwork=no]) ]) if test "x$grub_cv_cc_mthumb_interwork" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -mthumb-interwork" # Clang defaults to thumb interworking elif test "x$grub_cv_cc_target_clang" = xno ; then AC_MSG_ERROR([your compiler doesn't support -mthumb-interwork]) fi fi AC_CACHE_CHECK([whether option -Qn works], grub_cv_target_cc_qn, [ CFLAGS="$TARGET_CFLAGS -Qn -Qunused-arguments -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [grub_cv_target_cc_qn=yes], [grub_cv_target_cc_qn=no])]) if test "x$grub_cv_target_cc_qn" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -Qn -Qunused-arguments" fi # # Compiler features. # CFLAGS="$TARGET_CFLAGS" # Position independent executable. grub_CHECK_PIE grub_CHECK_NO_PIE grub_CHECK_NO_PIE_ONEWORD grub_CHECK_LINK_PIE [# Need that, because some distributions ship compilers that include # `-fPIE' or '-fpie' and '-pie' in the default specs. if [ x"$pie_possible" = xyes ]; then TARGET_CFLAGS="$TARGET_CFLAGS -fno-PIE -fno-pie" TARGET_CCASFLAGS="$TARGET_CCASFLAGS -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 [# On most platforms we don't want PIC as it only makes relocations harder # and code less efficient. On mips we want to have one got table per module # 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$target_cpu = xmipsel || test x$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" fi] CFLAGS="$TARGET_CFLAGS" # Stack smashing protector. grub_CHECK_STACK_PROTECTOR AC_ARG_ENABLE([stack-protector], AS_HELP_STRING([--enable-stack-protector], [enable the stack protector]), [], [enable_stack_protector=no]) if test "x$enable_stack_protector" = xno; then if test "x$ssp_possible" = xyes; then # Need that, because some distributions ship compilers that include # `-fstack-protector' in the default specs. TARGET_CFLAGS="$TARGET_CFLAGS -fno-stack-protector" fi elif test "x$platform" != xefi; then AC_MSG_ERROR([--enable-stack-protector is only supported on EFI platforms]) elif test "x$ssp_global_possible" != xyes; then AC_MSG_ERROR([--enable-stack-protector is not supported (compiler doesn't support -mstack-protector-guard=global)]) else TARGET_CFLAGS="$TARGET_CFLAGS -mstack-protector-guard=global" if test "x$enable_stack_protector" = xyes; then if test "x$ssp_possible" != xyes; then AC_MSG_ERROR([--enable-stack-protector is not supported (compiler doesn't support -fstack-protector)]) fi TARGET_CFLAGS="$TARGET_CFLAGS -fstack-protector" elif test "x$enable_stack_protector" = xstrong; then if test "x$ssp_strong_possible" != xyes; then AC_MSG_ERROR([--enable-stack-protector=strong is not supported (compiler doesn't support -fstack-protector-strong)]) fi TARGET_CFLAGS="$TARGET_CFLAGS -fstack-protector-strong" else # Note, -fstack-protector-all requires that the protector is disabled for # functions that appear in the call stack when the canary is initialized. AC_MSG_ERROR([invalid value $enable_stack_protector for --enable-stack-protector]) fi TARGET_CPPFLAGS="$TARGET_CPPFLAGS -DGRUB_STACK_PROTECTOR=1" fi CFLAGS="$TARGET_CFLAGS" grub_CHECK_STACK_ARG_PROBE # Cygwin's GCC uses alloca() to probe the stackframe on static # stack allocations above some threshold. if test x"$sap_possible" = xyes; then TARGET_CFLAGS="$TARGET_CFLAGS -mno-stack-arg-probe" fi CFLAGS="$TARGET_CFLAGS" # -mno-unaligned-access -mstrict-align if test "$target_cpu" = arm; then AC_CACHE_CHECK([for compile options to get strict alignment], [grub_cv_target_cc_strict_align], [ grub_cv_target_cc_strict_align= for arg in -mno-unaligned-access "-Xclang -mstrict-align" -mstrict-align; do CFLAGS="$TARGET_CFLAGS $arg -Werror" LDFLAGS="$TARGET_LDFLAGS" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[]], [[]])], [flag=1], [flag=0]) if test x"$flag" = x1; then grub_cv_target_cc_strict_align="$arg" break fi done]) TARGET_CFLAGS="$TARGET_CFLAGS $grub_cv_target_cc_strict_align" if test x"$grub_cv_target_cc_strict_align" = x"-Xclang -mstrict-align"; then TARGET_LDFLAGS="$TARGET_LDFLAGS -Qunused-arguments" fi AC_CACHE_CHECK([if compiler generates unaligned accesses], [grub_cv_cc_target_emits_unaligned], [CFLAGS="$TARGET_CFLAGS" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([], [[ #ifdef __ARM_FEATURE_UNALIGNED #error "unaligned" #endif ]])], [grub_cv_cc_target_emits_unaligned=no], [grub_cv_cc_target_emits_unaligned=yes])]) if test x$grub_cv_cc_target_emits_unaligned = xyes; then AC_MSG_ERROR([compiler generates unaligned accesses]) fi fi # Set them to their new values for the tests below. CC="$TARGET_CC" if test x"$platform" = xemu ; then CFLAGS="$TARGET_CFLAGS -Wno-error" elif test "x$TARGET_APPLE_LINKER" = x1 ; then CFLAGS="$TARGET_CFLAGS -nostdlib -static -Wno-error" else CFLAGS="$TARGET_CFLAGS -nostdlib -Wno-error" fi CPPFLAGS="$TARGET_CPPFLAGS" grub_ASM_USCORE if test "x$TARGET_APPLE_LINKER" = x0 && test x"$platform" != xemu; then if test x$grub_cv_asm_uscore = xyes; then DEFSYM="-Wl,--defsym,_abort=_main -Wl,--defsym,__main=_main" else DEFSYM="-Wl,--defsym,abort=main -Wl,--defsym,_main=main -Wl,--defsym,__main=main" fi CFLAGS="$TARGET_CFLAGS -nostdlib $DEFSYM" fi # Check for libgcc symbols if test x"$platform" = xemu; then AC_CHECK_FUNCS(__udivsi3 __umodsi3 __divsi3 __modsi3 __divdi3 __moddi3 __udivdi3 __umoddi3 __ctzdi2 __ctzsi2 __clzdi2 __aeabi_uidiv __aeabi_uidivmod __aeabi_idiv __aeabi_idivmod __aeabi_ulcmp __muldi3 __aeabi_lmul __aeabi_memcpy __aeabi_memcpy4 __aeabi_memcpy8 __aeabi_memclr __aeabi_memclr4 __aeabi_memclr8 __aeabi_memset __aeabi_lasr __aeabi_llsl __aeabi_llsr _restgpr_14_x __ucmpdi2 __ashldi3 __ashrdi3 __lshrdi3 __bswapsi2 __bswapdi2 __bzero __register_frame_info __deregister_frame_info ___chkstk_ms __chkstk_ms) fi if test "x$TARGET_APPLE_LINKER" = x1 ; then CFLAGS="$TARGET_CFLAGS -nostdlib -static" else CFLAGS="$TARGET_CFLAGS -nostdlib" fi LIBS="" # Defined in aclocal.m4. grub_PROG_TARGET_CC if test "x$TARGET_APPLE_LINKER" != x1 ; then grub_PROG_OBJCOPY_ABSOLUTE fi grub_PROG_LD_BUILD_ID_NONE if test "x$target_cpu" = xi386; then if test "$platform" != emu && test "x$TARGET_APPLE_LINKER" != x1 ; then if test ! -z "$TARGET_IMG_LDSCRIPT"; then # Check symbols provided by linker script. CFLAGS="$TARGET_CFLAGS -nostdlib ${TARGET_IMG_LDFLAGS_AC} ${TARGET_IMG_BASE_LDOPT},0x8000" fi grub_CHECK_BSS_START_SYMBOL grub_CHECK_END_SYMBOL fi CFLAGS="$TARGET_CFLAGS" fi grub_PROG_NM_WORKS grub_PROG_NM_MINUS_P grub_PROG_NM_DEFINED_ONLY AC_SUBST(TARGET_NMFLAGS_MINUS_P) AC_SUBST(TARGET_NMFLAGS_DEFINED_ONLY) if test "$platform" != emu; then AC_CACHE_CHECK([whether -nostdinc -isystem works], [grub_cv_cc_isystem], [ SAVED_CPPFLAGS="$CPPFLAGS" CPPFLAGS="$TARGET_CPPFLAGS -nostdlib -nostdinc -isystem `$TARGET_CC -print-file-name=include`" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[#include #include int va_arg_func (int fixed, va_list args);]], [[]])], [grub_cv_cc_isystem=yes], [grub_cv_cc_isystem=no]) CPPFLAGS="$SAVED_CPPFLAGS" ]) if test x"$grub_cv_cc_isystem" = xyes ; then TARGET_CPPFLAGS="$TARGET_CPPFLAGS -nostdinc -isystem `$TARGET_CC -print-file-name=include`" fi fi AC_CACHE_CHECK([whether -Wtrampolines work], [grub_cv_cc_wtrampolines], [ CFLAGS="$TARGET_CFLAGS -Wtrampolines -Werror" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[#include int va_arg_func (int fixed, va_list args);]], [[]])], [grub_cv_cc_wtrampolines=yes], [grub_cv_cc_wtrampolines=no]) ]) if test x"$grub_cv_cc_wtrampolines" = xyes ; then TARGET_CFLAGS="$TARGET_CFLAGS -Wtrampolines" fi # Restore the flags. CC="$tmp_CC" CFLAGS="$tmp_CFLAGS" CPPFLAGS="$tmp_CPPFLAGS" LDFLAGS="$tmp_LDFLAGS" LIBS="$tmp_LIBS" # # Check for options. # # Memory manager debugging. AC_ARG_ENABLE([mm-debug], AS_HELP_STRING([--enable-mm-debug], [include memory manager debugging])) if test x$enable_mm_debug = xyes; then AC_DEFINE([MM_DEBUG], [1], [Define to 1 if you enable memory manager debugging.]) fi AC_ARG_ENABLE([cache-stats], AS_HELP_STRING([--enable-cache-stats], [enable disk cache statistics collection])) if test x$enable_cache_stats = xyes; then DISK_CACHE_STATS=1 else DISK_CACHE_STATS=0 fi AC_SUBST([DISK_CACHE_STATS]) AC_ARG_ENABLE([boot-time], AS_HELP_STRING([--enable-boot-time], [enable boot time statistics collection])) if test x$enable_boot_time = xyes; then BOOT_TIME_STATS=1 else BOOT_TIME_STATS=0 fi AC_SUBST([BOOT_TIME_STATS]) AC_ARG_ENABLE([grub-emu-sdl], [AS_HELP_STRING([--enable-grub-emu-sdl], [build and install the `grub-emu' debugging utility with SDL support (default=guessed)])]) AC_ARG_ENABLE([grub-emu-pci], [AS_HELP_STRING([--enable-grub-emu-pci], [build and install the `grub-emu' debugging utility with PCI support (potentially dangerous) (default=no)])]) if test "$platform" = emu; then if test x"$enable_grub_emu_sdl" = xno ; then grub_emu_sdl_excuse="explicitly disabled" fi [if [ x"$grub_emu_sdl_excuse" = x ]; then # Check for libSDL libraries.] AC_CHECK_LIB([SDL], [SDL_Init], [LIBSDL="-lSDL"], [grub_emu_sdl_excuse=["libSDL libraries are required to build \`grub-emu' with SDL support"]]) AC_SUBST([LIBSDL]) [fi] [if [ x"$grub_emu_sdl_excuse" = x ]; then # Check for headers.] AC_CHECK_HEADERS([SDL/SDL.h], [], [grub_emu_sdl_excuse=["libSDL header file is required to build \`grub-emu' with SDL support"]]) [fi] if test x"enable_grub_emu_sdl" = xyes && test x"$grub_emu_sdl_excuse" != x ; then AC_MSG_ERROR([SDL support for grub-emu was explicitly requested but can't be compiled ($grub_emu_sdl_excuse)]) fi if test x"$grub_emu_sdl_excuse" = x ; then enable_grub_emu_sdl=yes else enable_grub_emu_sdl=no fi if test x"$enable_grub_emu_pci" != xyes ; then grub_emu_pci_excuse="not enabled" fi [if [ x"$grub_emu_pci_excuse" = x ]; then # Check for libpci libraries.] AC_CHECK_LIB([pciaccess], [pci_system_init], [LIBPCIACCESS="-lpciaccess"], [grub_emu_pci_excuse=["need libpciaccess library"]]) AC_SUBST([LIBPCIACCESS]) [fi] [if [ x"$grub_emu_pci_excuse" = x ]; then # Check for headers.] AC_CHECK_HEADERS([pciaccess.h], [], [grub_emu_pci_excuse=["need libpciaccess headers"]]) [fi] if test x"$grub_emu_pci_excuse" = x ; then enable_grub_emu_pci=yes else enable_grub_emu_pci=no fi AC_SUBST([enable_grub_emu_sdl]) AC_SUBST([enable_grub_emu_pci]) else # Ignore --enable-emu-* if platform is not emu enable_grub_emu_sdl=no enable_grub_emu_pci=no fi AC_ARG_ENABLE([grub-mkfont], [AS_HELP_STRING([--enable-grub-mkfont], [build and install the `grub-mkfont' utility (default=guessed)])]) if test x"$enable_grub_mkfont" = xno ; then grub_mkfont_excuse="explicitly disabled" fi unset ac_cv_header_ft2build_h if test x"$grub_mkfont_excuse" = x ; then # Check for freetype libraries. PKG_CHECK_MODULES([FREETYPE], [freetype2], [ SAVED_CPPFLAGS="$CPPFLAGS" SAVED_LIBS="$LIBS" CPPFLAGS="$CPPFLAGS $FREETYPE_CFLAGS" LIBS="$LIBS $FREETYPE_LIBS" AC_CHECK_HEADERS([ft2build.h], [], [grub_mkfont_excuse=["need freetype2 headers"]]) AC_LINK_IFELSE([AC_LANG_CALL([], [FT_Load_Glyph])], [], [grub_mkfont_excuse=["freetype2 library unusable"]]) CPPFLAGS="$SAVED_CPPFLAGS" LIBS="$SAVED_LIBS" ], [grub_mkfont_excuse=["need freetype2 library"]]) fi if test x"$enable_grub_mkfont" = xyes && test x"$grub_mkfont_excuse" != x ; then AC_MSG_ERROR([grub-mkfont was explicitly requested but can't be compiled ($grub_mkfont_excuse)]) fi if test x"$grub_mkfont_excuse" = x ; then enable_grub_mkfont=yes else enable_grub_mkfont=no fi AC_SUBST([enable_grub_mkfont]) SAVED_CC="$CC" SAVED_CPP="$CPP" SAVED_CFLAGS="$CFLAGS" SAVED_CPPFLAGS="$CPPFLAGS" SAVED_LDFLAGS="$LDFLAGS" CC="$BUILD_CC" CPP="$BUILD_CPP" CFLAGS="$BUILD_CFLAGS" CPPFLAGS="$BUILD_CPPFLAGS" LDFLAGS="$BUILD_LDFAGS" unset ac_cv_c_bigendian unset ac_cv_header_ft2build_h AC_COMPUTE_INT([BUILD_SIZEOF_VOID_P], [sizeof (void *)]) AC_COMPUTE_INT([BUILD_SIZEOF_LONG], [sizeof (long)]) AC_C_BIGENDIAN([BUILD_WORDS_BIGENDIAN=1], [BUILD_WORDS_BIGENDIAN=0], [BUILD_WORDS_BIGENDIAN=err], [BUILD_WORDS_BIGENDIAN=err]) if test x$BUILD_WORDS_BIGENDIAN = xerr ; then AC_MSG_ERROR([couldnt determine build endianness]) fi AC_SUBST([BUILD_SIZEOF_LONG]) AC_SUBST([BUILD_SIZEOF_VOID_P]) AC_SUBST([BUILD_WORDS_BIGENDIAN]) if test x"$grub_build_mkfont_excuse" = x ; then # Check for freetype libraries. SAVED_PKG_CONFIG="$PKG_CONFIG" test -z "$BUILD_PKG_CONFIG" || PKG_CONFIG="$BUILD_PKG_CONFIG" PKG_CHECK_MODULES([BUILD_FREETYPE], [freetype2], [ SAVED_CPPFLAGS_2="$CPPFLAGS" SAVED_LIBS="$LIBS" CPPFLAGS="$CPPFLAGS $BUILD_FREETYPE_CFLAGS" LIBS="$LIBS $BUILD_FREETYPE_LIBS" AC_CHECK_HEADERS([ft2build.h], [], [grub_build_mkfont_excuse=["need freetype2 headers"]]) AC_LINK_IFELSE([AC_LANG_CALL([], [FT_Load_Glyph])], [], [grub_build_mkfont_excuse=["freetype2 library unusable"]]) LIBS="$SAVED_LIBS" CPPFLAGS="$SAVED_CPPFLAGS_2" ], [grub_build_mkfont_excuse=["need freetype2 library"]]) PKG_CONFIG="$SAVED_PKG_CONFIG" fi if test x"$enable_build_grub_mkfont" = xyes && test x"$grub_build_mkfont_excuse" != x ; then AC_MSG_ERROR([build-grub-mkfont was explicitly requested but can't be compiled ($grub_build_mkfont_excuse)]) fi if test x"$grub_build_mkfont_excuse" = x ; then enable_build_grub_mkfont=yes 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$platform" = xcoreboot ); then if test x"$grub_build_mkfont_excuse" = x ; then AC_MSG_ERROR([qemu, coreboot and loongson ports need build-time grub-mkfont]) else AC_MSG_ERROR([qemu, coreboot and loongson ports need build-time grub-mkfont ($grub_build_mkfont_excuse)]) fi fi CC="$SAVED_CC" CPP="$SAVED_CPP" CFLAGS="$SAVED_CFLAGS" CPPFLAGS="$SAVED_CPPFLAGS" LDFLAGS="$SAVED_LDFLAGS" DJVU_FONT_SOURCE= starfield_excuse= AC_ARG_ENABLE([grub-themes], [AS_HELP_STRING([--enable-grub-themes], [build and install GRUB themes (default=guessed)])]) if test x"$enable_grub_themes" = xno ; then starfield_excuse="explicitly disabled" fi if test x"$starfield_excuse" = x && test x"$enable_build_grub_mkfont" = xno ; then starfield_excuse="No build-time grub-mkfont" fi if test x"$starfield_excuse" = x; then for ext in pcf pcf.gz bdf bdf.gz ttf ttf.gz; do for dir in . /usr/src /usr/share/fonts/X11/misc /usr/share/fonts/truetype/ttf-dejavu /usr/share/fonts/dejavu /usr/share/fonts/truetype; do if test -f "$dir/DejaVuSans.$ext"; then DJVU_FONT_SOURCE="$dir/DejaVuSans.$ext" break 2 fi done done if test "x$DJVU_FONT_SOURCE" = x; then starfield_excuse="No DejaVu found" fi fi if test x"$enable_grub_themes" = xyes && test x"$starfield_excuse" != x; then AC_MSG_ERROR([themes were explicitly requested but requirements are not satisfied ($starfield_excuse)]) fi AC_SUBST([DJVU_FONT_SOURCE]) FONT_SOURCE= for ext in pcf pcf.gz bdf bdf.gz ttf ttf.gz; do for dir in . /usr/src /usr/share/fonts/X11/misc /usr/share/fonts/unifont /usr/share/fonts/uni /usr/share/fonts/truetype/unifont /usr/share/fonts/misc; do if test -f "$dir/unifont.$ext"; then md5="$(md5sum "$dir/unifont.$ext"|awk '{ print $1; }')" # PCF and BDF from version 6.3 isn't hanled properly by libfreetype. if test "$md5" = 0a54834d2788c83886a3e1785a6a1e61 || test "$md5" = 28f2565c7a41d8d407e2551159385edb || test "$md5" = dae5e588461b3b92b87b6ffee734f936 || test "$md5" = 4a3d687aa5bb329ed05f4263a1016791 ; then continue fi FONT_SOURCE="$dir/unifont.$ext" break 2 fi done done if test x"$enable_build_grub_mkfont" = xno ; then FONT_SOURCE= fi 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, coreboot and loongson ports need unifont]) else AC_MSG_ERROR([qemu, coreboot and loongson ports need unifont ($grub_build_mkfont_excuse)]) fi fi AC_SUBST([FONT_SOURCE]) if test x"$FONT_SOURCE" = x && test x"$DJVU_FONT_SOURCE" = x && test x"$grub_build_mkfont_excuse" = x; then grub_build_mkfont_excuse="no fonts" fi AC_ARG_ENABLE([grub-mount], [AS_HELP_STRING([--enable-grub-mount], [build and install the `grub-mount' utility (default=guessed)])]) if test x"$enable_grub_mount" = xno ; then grub_mount_excuse="explicitly disabled" fi if test x"$grub_mount_excuse" = x ; then AC_CHECK_LIB([fuse], [fuse_main_real], [], [grub_mount_excuse="need FUSE library"]) fi if test x"$grub_mount_excuse" = x ; then # Check for fuse headers. SAVED_CPPFLAGS="$CPPFLAGS" CPPFLAGS="$CPPFLAGS -DFUSE_USE_VERSION=26" AC_CHECK_HEADERS([fuse/fuse.h], [], [grub_mount_excuse=["need FUSE headers"]]) CPPFLAGS="$SAVED_CPPFLAGS" fi if test x"$enable_grub_mount" = xyes && test x"$grub_mount_excuse" != x ; then AC_MSG_ERROR([grub-mount was explicitly requested but can't be compiled ($grub_mount_excuse)]) fi if test x"$grub_mount_excuse" = x ; then enable_grub_mount=yes else enable_grub_mount=no fi AC_SUBST([enable_grub_mount]) AC_ARG_ENABLE([device-mapper], [AS_HELP_STRING([--enable-device-mapper], [enable Linux device-mapper support (default=guessed)])]) if test x"$enable_device_mapper" = xno ; then device_mapper_excuse="explicitly disabled" fi if test x"$device_mapper_excuse" = x ; then # Check for device-mapper header. AC_CHECK_HEADER([libdevmapper.h], [], [device_mapper_excuse="need libdevmapper header"]) fi if test x"$device_mapper_excuse" = x ; then # Check for device-mapper library. AC_CHECK_LIB([devmapper], [dm_task_create], [], [device_mapper_excuse="need devmapper library"]) fi if test x"$device_mapper_excuse" = x ; then # Check for device-mapper library. AC_CHECK_LIB([devmapper], [dm_log_with_errno_init], [], [device_mapper_excuse="need devmapper library"]) fi if test x"$device_mapper_excuse" = x ; then LIBDEVMAPPER="-ldevmapper" AC_DEFINE([HAVE_DEVICE_MAPPER], [1], [Define to 1 if you have the devmapper library.]) fi AC_SUBST([LIBDEVMAPPER]) LIBGEOM= if test x$host_kernel = xkfreebsd; then AC_CHECK_LIB([geom], [geom_gettree], [], [AC_MSG_ERROR([Your platform requires libgeom])]) LIBGEOM="-lgeom" fi AC_SUBST([LIBGEOM]) AC_ARG_ENABLE([liblzma], [AS_HELP_STRING([--enable-liblzma], [enable liblzma integration (default=guessed)])]) if test x"$enable_liblzma" = xno ; then liblzma_excuse="explicitly disabled" fi if test x"$liblzma_excuse" = x ; then AC_CHECK_LIB([lzma], [lzma_code], [],[liblzma_excuse="need lzma library"]) fi if test x"$liblzma_excuse" = x ; then AC_CHECK_HEADER([lzma.h], [], [liblzma_excuse="need lzma header"]) fi if test x"$enable_liblzma" = xyes && test x"$liblzma_excuse" != x ; then AC_MSG_ERROR([liblzma support was explicitly requested but requirements are not satisfied ($liblzma_excuse)]) fi if test x"$liblzma_excuse" = x ; then LIBLZMA="-llzma" AC_DEFINE([USE_LIBLZMA], [1], [Define to 1 if you have the LZMA library.]) fi AC_SUBST([LIBLZMA]) AC_ARG_ENABLE([libzfs], [AS_HELP_STRING([--enable-libzfs], [enable libzfs integration (default=guessed)])]) if test x"$enable_libzfs" = xno ; then libzfs_excuse="explicitly disabled" fi if test x"$libzfs_excuse" = x ; then # Only check for system headers if libzfs support has not been disabled. AC_CHECK_HEADERS(libzfs.h libnvpair.h) fi if test x"$libzfs_excuse" = x ; then AC_CHECK_LIB([zfs], [libzfs_init], [], [libzfs_excuse="need zfs library"]) fi if test x"$libzfs_excuse" = x ; then AC_CHECK_LIB([nvpair], [nvlist_lookup_string], [], [libzfs_excuse="need nvpair library"]) fi if test x"$enable_libzfs" = xyes && test x"$libzfs_excuse" != x ; then AC_MSG_ERROR([libzfs support was explicitly requested but requirements are not satisfied ($libzfs_excuse)]) fi if test x"$libzfs_excuse" = x ; then # We need both libzfs and libnvpair for a successful build. LIBZFS="-lzfs" AC_DEFINE([HAVE_LIBZFS], [1], [Define to 1 if you have the ZFS library.]) LIBNVPAIR="-lnvpair" AC_DEFINE([HAVE_LIBNVPAIR], [1], [Define to 1 if you have the NVPAIR library.]) fi AC_SUBST([LIBZFS]) AC_SUBST([LIBNVPAIR]) LIBS="" AC_SUBST([FONT_SOURCE]) AS_IF([test x$target_cpu = xi386 -a x$platform = xqemu], [AC_SUBST([GRUB_BOOT_MACHINE_LINK_ADDR], 0xffe00)]) AC_SUBST(HAVE_ASM_USCORE) AC_SUBST(BSS_START_SYMBOL) AC_SUBST(END_SYMBOL) AC_SUBST(PACKAGE) AC_SUBST(VERSION) AC_ARG_ENABLE([werror], [AS_HELP_STRING([--disable-werror], [do not use -Werror when building GRUB])]) if test x"$enable_werror" != xno ; then TARGET_CFLAGS="$TARGET_CFLAGS -Werror" HOST_CFLAGS="$HOST_CFLAGS -Werror" fi TARGET_CPP="$TARGET_CC -E" TARGET_CCAS=$TARGET_CC # Includes which include make-time substitutions. They must come last # as to avoid executing top_builddir in shell. HOST_CPPFLAGS="$HOST_CPPFLAGS -I\$(top_builddir)/include" TARGET_CPPFLAGS="$TARGET_CPPFLAGS -I\$(top_srcdir)/include" TARGET_CPPFLAGS="$TARGET_CPPFLAGS -I\$(top_builddir)/include" GRUB_TARGET_CPU="${target_cpu}" GRUB_PLATFORM="${platform}" AC_SUBST(GRUB_TARGET_CPU) AC_SUBST(GRUB_PLATFORM) AC_SUBST(TARGET_OBJCONV) AC_SUBST(TARGET_CPP) AC_SUBST(TARGET_CCAS) AC_SUBST(TARGET_OBJ2ELF) AC_SUBST(TARGET_MODULE_FORMAT) AC_SUBST(TARGET_CC_VERSION) AC_SUBST(TARGET_CFLAGS) AC_SUBST(TARGET_LDFLAGS) AC_SUBST(TARGET_CPPFLAGS) AC_SUBST(TARGET_CCASFLAGS) AC_SUBST(TARGET_IMG_LDFLAGS) AC_SUBST(TARGET_IMG_CFLAGS) AC_SUBST(TARGET_IMG_BASE_LDOPT) AC_SUBST(TARGET_APPLE_LINKER) AC_SUBST(HOST_CFLAGS) AC_SUBST(HOST_LDFLAGS) AC_SUBST(HOST_CPPFLAGS) AC_SUBST(HOST_CCASFLAGS) AC_SUBST(BUILD_LIBM) # # Automake conditionals # AM_CONDITIONAL([COND_real_platform], [test x$platform != xnone]) AM_CONDITIONAL([COND_emu], [test x$platform = xemu]) AM_CONDITIONAL([COND_i386_pc], [test x$target_cpu = xi386 -a x$platform = xpc]) AM_CONDITIONAL([COND_i386_efi], [test x$target_cpu = xi386 -a x$platform = xefi]) AM_CONDITIONAL([COND_ia64_efi], [test x$target_cpu = xia64 -a x$platform = xefi]) AM_CONDITIONAL([COND_i386_qemu], [test x$target_cpu = xi386 -a x$platform = xqemu]) AM_CONDITIONAL([COND_i386_ieee1275], [test x$target_cpu = xi386 -a x$platform = xieee1275]) AM_CONDITIONAL([COND_i386_coreboot], [test x$target_cpu = xi386 -a x$platform = xcoreboot]) AM_CONDITIONAL([COND_i386_multiboot], [test x$target_cpu = xi386 -a x$platform = xmultiboot]) AM_CONDITIONAL([COND_x86_64_efi], [test x$target_cpu = xx86_64 -a x$platform = xefi]) AM_CONDITIONAL([COND_i386_xen], [test x$target_cpu = xi386 -a x$platform = xxen]) AM_CONDITIONAL([COND_i386_xen_pvh], [test x$target_cpu = xi386 -a x$platform = xxen_pvh]) AM_CONDITIONAL([COND_x86_64_xen], [test x$target_cpu = xx86_64 -a x$platform = xxen]) AM_CONDITIONAL([COND_mips_loongson], [test x$target_cpu = xmipsel -a x$platform = xloongson]) AM_CONDITIONAL([COND_mips_qemu_mips], [test "(" x$target_cpu = xmips -o x$target_cpu = xmipsel ")" -a x$platform = xqemu_mips]) AM_CONDITIONAL([COND_mips_arc], [test "(" x$target_cpu = xmips -o x$target_cpu = xmipsel ")" -a x$platform = xarc]) AM_CONDITIONAL([COND_sparc64_ieee1275], [test x$target_cpu = xsparc64 -a x$platform = xieee1275]) AM_CONDITIONAL([COND_sparc64_emu], [test x$target_cpu = xsparc64 -a x$platform = xemu]) AM_CONDITIONAL([COND_powerpc_ieee1275], [test x$target_cpu = xpowerpc -a x$platform = xieee1275]) AM_CONDITIONAL([COND_mips], [test x$target_cpu = xmips -o x$target_cpu = xmipsel]) AM_CONDITIONAL([COND_mipsel], [test x$target_cpu = xmipsel]) 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$platform = xefi]) AM_CONDITIONAL([COND_riscv32], [test x$target_cpu = xriscv32 ]) AM_CONDITIONAL([COND_riscv64], [test x$target_cpu = xriscv64 ]) AM_CONDITIONAL([COND_riscv32_efi], [test x$target_cpu = xriscv32 -a x$platform = xefi]) AM_CONDITIONAL([COND_riscv64_efi], [test x$target_cpu = xriscv64 -a x$platform = xefi]) AM_CONDITIONAL([COND_HOST_HURD], [test x$host_kernel = xhurd]) AM_CONDITIONAL([COND_HOST_LINUX], [test x$host_kernel = xlinux]) AM_CONDITIONAL([COND_HOST_NETBSD], [test x$host_kernel = xnetbsd]) AM_CONDITIONAL([COND_HOST_WINDOWS], [test x$host_kernel = xwindows]) AM_CONDITIONAL([COND_HOST_KFREEBSD], [test x$host_kernel = xkfreebsd]) AM_CONDITIONAL([COND_HOST_XNU], [test x$host_kernel = xxnu]) AM_CONDITIONAL([COND_HOST_ILLUMOS], [test x$host_kernel = xillumos]) AM_CONDITIONAL([COND_MAN_PAGES], [test x$cross_compiling = xno -a x$HELP2MAN != x]) AM_CONDITIONAL([COND_GRUB_EMU_SDL], [test x$enable_grub_emu_sdl = xyes]) AM_CONDITIONAL([COND_GRUB_EMU_PCI], [test x$enable_grub_emu_pci = xyes]) AM_CONDITIONAL([COND_GRUB_MKFONT], [test x$enable_grub_mkfont = xyes]) AM_CONDITIONAL([COND_GRUB_MOUNT], [test x$enable_grub_mount = xyes]) AM_CONDITIONAL([COND_HAVE_FONT_SOURCE], [test x$FONT_SOURCE != x]) if test x$FONT_SOURCE != x ; then HAVE_FONT_SOURCE=1 else HAVE_FONT_SOURCE=0 fi AC_SUBST(HAVE_FONT_SOURCE) AM_CONDITIONAL([COND_APPLE_LINKER], [test x$TARGET_APPLE_LINKER = x1]) AM_CONDITIONAL([COND_ENABLE_EFIEMU], [test x$enable_efiemu = xyes]) AM_CONDITIONAL([COND_ENABLE_CACHE_STATS], [test x$DISK_CACHE_STATS = x1]) AM_CONDITIONAL([COND_ENABLE_BOOT_TIME_STATS], [test x$BOOT_TIME_STATS = x1]) AM_CONDITIONAL([COND_HAVE_CXX], [test x$HAVE_CXX = xyes]) AM_CONDITIONAL([COND_HAVE_ASM_USCORE], [test x$HAVE_ASM_USCORE = x1]) AM_CONDITIONAL([COND_STARFIELD], [test "x$starfield_excuse" = x]) AM_CONDITIONAL([COND_HAVE_EXEC], [test "x$have_exec" = xy]) test "x$prefix" = xNONE && prefix="$ac_default_prefix" test "x$exec_prefix" = xNONE && exec_prefix="${prefix}" datarootdir="$(eval echo "$datarootdir")" grub_libdir="$(eval echo "$libdir")" grub_localedir="$(eval echo "$localedir")" grub_datadir="$(eval echo "$datadir")" grub_sysconfdir="$(eval echo "$sysconfdir")" AC_DEFINE_UNQUOTED(LOCALEDIR, "$grub_localedir", [Locale dir]) AC_DEFINE_UNQUOTED(GRUB_LIBDIR, "$grub_libdir", [Library dir]) AC_DEFINE_UNQUOTED(GRUB_DATADIR, "$grub_datadir", [Data dir]) AC_DEFINE_UNQUOTED(GRUB_SYSCONFDIR, "$grub_sysconfdir", [Configuration dir]) # Output files. if test "$platform" != none; then cpudir="${target_cpu}" if test x${cpudir} = xmipsel; then cpudir=mips; fi grub_CHECK_LINK_DIR if test x"$link_dir" = xyes ; then AC_CONFIG_LINKS([include/grub/cpu:include/grub/$cpudir]) if test "$platform" != emu ; then AC_CONFIG_LINKS([include/grub/machine:include/grub/$cpudir/$platform]) fi else mkdir -p include/grub 2>/dev/null rm -rf include/grub/cpu cp -rp $srcdir/include/grub/$cpudir include/grub/cpu 2>/dev/null if test "$platform" != emu ; then rm -rf include/grub/machine cp -rp $srcdir/include/grub/$cpudir/$platform include/grub/machine 2>/dev/null fi fi else # Just enough to stop the compiler failing with -I$(srcdir)/include. mkdir -p include 2>/dev/null rm -rf include/grub/cpu include/grub/machine fi AC_CONFIG_FILES([Makefile]) AC_CONFIG_FILES([grub-core/Makefile]) AC_CONFIG_FILES([grub-core/lib/gnulib/Makefile]) AC_CONFIG_FILES([po/Makefile.in]) AC_CONFIG_FILES([docs/Makefile]) AC_CONFIG_FILES([util/bash-completion.d/Makefile]) AC_CONFIG_FILES([stamp-h], [echo timestamp > stamp-h]) AC_CONFIG_FILES([config.h]) AC_OUTPUT [ echo "*******************************************************" echo GRUB2 will be compiled with following components: echo Platform: "$target_cpu"-"$platform" if [ x"$platform" = xemu ]; then if [ x"$grub_emu_sdl_excuse" = x ]; then echo SDL support for grub-emu: Yes else echo SDL support for grub-emu: No "($grub_emu_sdl_excuse)" fi if [ x"$grub_emu_pci_excuse" = x ]; then echo PCI support for grub-emu: Yes else echo PCI support for grub-emu: No "($grub_emu_pci_excuse)" fi fi if test x"$device_mapper_excuse" = x ; then echo With devmapper support: Yes else echo With devmapper support: No "($device_mapper_excuse)" fi if [ x"$enable_mm_debug" = xyes ]; then echo With memory debugging: Yes else echo With memory debugging: No fi if [ x"$enable_cache_stats" = xyes ]; then echo With disk cache statistics: Yes else echo With disk cache statistics: No fi if [ x"$enable_boot_time" = xyes ]; then echo With boot time statistics: Yes else echo With boot time statistics: No fi if [ x"$efiemu_excuse" = x ]; then echo efiemu runtime: Yes else echo efiemu runtime: No "($efiemu_excuse)" fi if [ x"$grub_mkfont_excuse" = x ]; then echo grub-mkfont: Yes else echo grub-mkfont: No "($grub_mkfont_excuse)" fi if [ x"$grub_mount_excuse" = x ]; then echo grub-mount: Yes else echo grub-mount: No "($grub_mount_excuse)" fi if [ x"$starfield_excuse" = x ]; then echo starfield theme: Yes echo With DejaVuSans font from $DJVU_FONT_SOURCE else echo starfield theme: No "($starfield_excuse)" fi if [ x"$libzfs_excuse" = x ]; then echo With libzfs support: Yes else echo With libzfs support: No "($libzfs_excuse)" fi if [ x"$grub_build_mkfont_excuse" = x ]; then echo Build-time grub-mkfont: Yes if test "x$FONT_SOURCE" = x ; then echo "Without unifont" else echo "With unifont from $FONT_SOURCE" fi else echo Build-time grub-mkfont: No "($grub_build_mkfont_excuse)" echo "Without unifont (no build-time grub-mkfont)" fi if test x"$liblzma_excuse" != x ; then echo "Without liblzma (no support for XZ-compressed mips images) ($liblzma_excuse)" else echo "With liblzma from $LIBLZMA (support for XZ-compressed mips images)" fi if test "x$enable_stack_protector" != xno; then echo "With stack smashing protector: Yes" else echo "With stack smashing protector: No" fi echo "*******************************************************" ]