#!/bin/sh # # Copyright (C) 2010 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # This shell script is used to rebuild the gcc and toolchain binaries # for the Android NDK. # # include common function and variable definitions . $NDK_BUILDTOOLS_PATH/prebuilt-common.sh PROGRAM_PARAMETERS=" " PROGRAM_DESCRIPTION=\ "Rebuild the gcc toolchain prebuilt binaries for the Android NDK. Where is the location of toolchain sources, is the top-level NDK installation path and is the name of the toolchain to use (e.g. arm-linux-androideabi-4.8)." RELEASE=`date +%Y%m%d` BUILD_OUT=$TMPDIR/build/toolchain OPTION_BUILD_OUT= register_var_option "--build-out=" OPTION_BUILD_OUT "Set temporary build directory" # Note: platform API level 9 or higher is needed for proper C++ support register_var_option "--platform=" PLATFORM "Specify platform name" OPTION_SYSROOT= register_var_option "--sysroot=" OPTION_SYSROOT "Specify sysroot directory directly" BINUTILS_VERSION=$DEFAULT_BINUTILS_VERSION EXPLICIT_BINUTILS_VERSION= register_option "--binutils-version=" do_binutils_version "Specify binutils version" "$BINUTILS_VERSION" do_binutils_version () { BINUTILS_VERSION=$1 EXPLICIT_BINUTILS_VERSION=true } GMP_VERSION=$DEFAULT_GMP_VERSION register_var_option "--gmp-version=" GMP_VERSION "Specify gmp version" MPFR_VERSION=$DEFAULT_MPFR_VERSION register_var_option "--mpfr-version=" MPFR_VERSION "Specify mpfr version" MPC_VERSION=$DEFAULT_MPC_VERSION register_var_option "--mpc-version=" MPC_VERSION "Specify mpc version" CLOOG_VERSION=$DEFAULT_CLOOG_VERSION register_var_option "--cloog-version=" CLOOG_VERSION "Specify cloog version" ISL_VERSION=$DEFAULT_ISL_VERSION register_var_option "--isl-version=" ISL_VERSION "Specify ISL version" PPL_VERSION=$DEFAULT_PPL_VERSION register_var_option "--ppl-version=" PPL_VERSION "Specify ppl version" PACKAGE_DIR= register_var_option "--package-dir=" PACKAGE_DIR "Create archive tarball in specific directory" ENABLE_LANGUAGES="c,c++" register_var_option "--enable-languages=" ENABLE_LANGUAGES "Experimental: specify which languages to build" BUILD_DEBUGGABLE="no" register_var_option "--build-debuggable=" BUILD_DEBUGGABLE "Experimental: build debuggable version of gcc." OBSCURE_PREFIX="yes" register_var_option "--obscure-prefix=" OBSCURE_PREFIX "Experimental: obscure sysroot prefix dir by linking to it from /tmp" register_jobs_option register_canadian_option register_try64_option extract_parameters "$@" prepare_canadian_toolchain $TMPDIR/build fix_option BUILD_OUT "$OPTION_BUILD_OUT" "build directory" setup_default_log_file $BUILD_OUT/config.log set_parameters () { SRC_DIR="$1" NDK_DIR="$2" TOOLCHAIN="$3" # Check source directory # if [ -z "$SRC_DIR" ] ; then echo "ERROR: Missing source directory parameter. See --help for details." exit 1 fi if [ ! -d "$SRC_DIR/gcc" ] ; then echo "ERROR: Source directory does not contain gcc sources: $SRC_DIR" exit 1 fi SRC_DIR=`cd $SRC_DIR; pwd` log "Using source directory: $SRC_DIR" # Check NDK installation directory # if [ -z "$NDK_DIR" ] ; then echo "ERROR: Missing NDK directory parameter. See --help for details." exit 1 fi if [ ! -d "$NDK_DIR" ] ; then mkdir -p $NDK_DIR if [ $? != 0 ] ; then echo "ERROR: Could not create target NDK installation path: $NDK_DIR" exit 1 fi fi NDK_DIR=`cd $NDK_DIR; pwd` log "Using NDK directory: $NDK_DIR" # Check toolchain name # if [ -z "$TOOLCHAIN" ] ; then echo "ERROR: Missing toolchain name parameter. See --help for details." exit 1 fi } set_parameters $PARAMETERS prepare_target_build parse_toolchain_name $TOOLCHAIN if [ -z "$PLATFORM" ]; then PLATFORM="android-"$(get_default_api_level_for_arch $ARCH) fi fix_sysroot "$OPTION_SYSROOT" check_toolchain_src_dir "$SRC_DIR" if [ -z "$EXPLICIT_BINUTILS_VERSION" ]; then BINUTILS_VERSION=$(get_default_binutils_version_for_gcc $TOOLCHAIN) dump "Auto-config: --binutils-version=$BINUTILS_VERSION" fi if [ ! -d $SRC_DIR/binutils/binutils-$BINUTILS_VERSION ] ; then echo "ERROR: Missing binutils sources: $SRC_DIR/binutils/binutils-$BINUTILS_VERSION" echo " Use --binutils-version= to specify alternative." exit 1 fi fix_option MPFR_VERSION "$OPTION_MPFR_VERSION" "mpfr version" if [ ! -f $SRC_DIR/mpfr/mpfr-$MPFR_VERSION.tar.bz2 ] ; then echo "ERROR: Missing mpfr sources: $SRC_DIR/mpfr/mpfr-$MPFR_VERSION.tar.bz2" echo " Use --mpfr-version= to specify alternative." exit 1 fi if [ "$PACKAGE_DIR" ]; then mkdir -p "$PACKAGE_DIR" fail_panic "Could not create package directory: $PACKAGE_DIR" fi set_toolchain_ndk $NDK_DIR $TOOLCHAIN if [ "$MINGW" != "yes" -a "$DARWIN" != "yes" ] ; then dump "Using C compiler: $CC" dump "Using C++ compiler: $CXX" fi rm -rf $BUILD_OUT mkdir -p $BUILD_OUT # Location where the toolchain license files are TOOLCHAIN_LICENSES=$ANDROID_NDK_ROOT/build/tools/toolchain-licenses # Without option "--sysroot" (and its variations), GCC will attempt to # search path specified by "--with-sysroot" at build time for headers/libs. # Path at --with-sysroot contains minimal headers and libs to bootstrap # toolchain build, and it's not needed afterward (NOTE: NDK provides # sysroot at specified API level,and Android build explicit lists header/lib # dependencies. # # It's better to point --with-sysroot to local directory otherwise the # path may be found at compile-time and bad things can happen: eg. # 1) The path exists and contain incorrect headers/libs # 2) The path exists at remote server and blocks GCC for seconds # 3) The path exists but not accessible, which crashes GCC! # For canadian build --with-sysroot has to be sub-directory of --prefix. if [ -z "$HOST_TAG" ]; then echo "Error: HOST_TAG not set!" exit 1 fi TOOLCHAIN_SUBDIR=$TOOLCHAIN TOOLCHAIN_INSTALL_PATH=$TMPDIR/$TOOLCHAIN_SUBDIR dump "Using TOOLCHAIN_INSTALL_PATH=$TOOLCHAIN_INSTALL_PATH" dump "Using TOOLCHAIN_SUBDIR=$TOOLCHAIN_SUBDIR" TOOLCHAIN_BUILD_SYSROOT=$TOOLCHAIN_INSTALL_PATH/sysroot dump "Sysroot : Copying: $SYSROOT --> $TOOLCHAIN_BUILD_SYSROOT" mkdir -p $TOOLCHAIN_BUILD_SYSROOT && (cd $SYSROOT && tar chf - *) | (cd $TOOLCHAIN_BUILD_SYSROOT && tar xf -) if [ $? != 0 ] ; then echo "Error while copying sysroot files. See $TMPLOG" exit 1 fi PREFIX_LOCATION=$TOOLCHAIN_INSTALL_PATH BUILD_SYSROOT_LOCATION=$TOOLCHAIN_BUILD_SYSROOT # If enabled, use symbolic link to obscure prefix location (b/25513824) if [ "$OBSCURE_PREFIX" == "yes" ]; then TAG=`echo $ARGV $$ $RELEASE | md5sum | cut -f1 -d" "` rm -f /tmp/$TAG ln -s $PREFIX_LOCATION /tmp/$TAG PREFIX_LOCATION=/tmp/$TAG BUILD_SYSROOT_LOCATION=/tmp/$TAG/sysroot elif [ "$OBSCURE_PREFIX" != "no" ]; then echo "error: illegal value for --obscure-prefix option (must be 'yes' or 'no')" exit 1 fi # configure the toolchain # dump "Configure: $TOOLCHAIN toolchain build" # Old versions of the toolchain source packages placed the # configure script at the top-level. Newer ones place it under # the build directory though. Probe the file system to check # this. BUILD_SRCDIR=$SRC_DIR/build if [ ! -d $BUILD_SRCDIR ] ; then BUILD_SRCDIR=$SRC_DIR fi OLD_ABI="${ABI}" export CC CXX export CFLAGS_FOR_TARGET="$ABI_CFLAGS_FOR_TARGET" export CXXFLAGS_FOR_TARGET="$ABI_CXXFLAGS_FOR_TARGET" # Needed to build a 32-bit gmp on 64-bit systems export ABI=$HOST_GMP_ABI # Note that the following flags only apply for "build" in canadian if [ "$BUILD_DEBUGGABLE" = "yes" ] ; then CFLAGS_FOR_BUILD="-O0 -g" else CFLAGS_FOR_BUILD="-O2 -s" fi CXXFLAGS_FOR_BUILD="$CFLAGS_FOR_BUILD" LDFLAGS_FOR_BUILD= if [ "$MINGW" = "yes" ] ; then CFLAGS_FOR_BUILD=$CFLAGS_FOR_BUILD" -D__USE_MINGW_ANSI_STDIO=1" fi CFLAGS="$CFLAGS_FOR_BUILD $HOST_CFLAGS" CXXFLAGS="$CXXFLAGS_FOR_BUILD $HOST_CFLAGS" LDFLAGS="$LDFLAGS_FOR_BUILD $HOST_LDFLAGS" export CFLAGS CXXFLAGS LDFLAGS CFLAGS_FOR_BUILD LDFLAGS_FOR_BUILD # This extra flag is used to slightly speed up the build EXTRA_CONFIG_FLAGS="--disable-bootstrap" if [ "$DARWIN" = "yes" ]; then # Disable plugin because in canadian cross build, plugin gengtype # will be incorrectly linked with build's library and fails. # ToDo EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --disable-plugin" else EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --enable-plugins" fi # Enable OpenMP EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --enable-libgomp" # Enable indirect functions in the compilers that support it (4.6 and above) EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --enable-gnu-indirect-function" # Disable libcilkrts which needs C++ for now, because libstdlibc++ in NDK is # built separately... case "$TOOLCHAIN" in x86*-4.9) EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --disable-libcilkrts" esac # Disable libsanitizer (which depends on libstdc++ built separately) for now EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --disable-libsanitizer" # Enable Gold ENABLE_GOLD_FLAGS= case "$TOOLCHAIN" in # Note that only ARM/X86 >= GCC 4.6 and AARCH64 >= GCC 4.9 are supported mips*) # Don't use gold for mips/mips64. ;; aarch64*) # Enable ld.gold but ld.bfd remain the default ENABLE_GOLD_FLAGS="--enable-gold --enable-ld=default" ;; *) # Enable ld.gold as default ENABLE_GOLD_FLAGS="--enable-gold=default" ;; esac # Current mingw has an internal compiler error when building gold. # Bug: http://b/22045105 if [ "$MINGW" = "yes" -a "$TRY64" = "no" ]; then ENABLE_GOLD_FLAGS= fi EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" "$ENABLE_GOLD_FLAGS # We're not using gold for mips yet, and there is no support for threaded # linking on Windows (no pthreads). if [ "$TOOLCHAIN" != mips* -a "$MINGW" != "yes" ]; then EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --enable-threads" fi # Enable linker option -eh-frame-hdr also for static executable EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --enable-eh-frame-hdr-for-static" # Enable aarch64 workaround for Cortex-A53 Erratum number 835769 case "$TOOLCHAIN" in aarch64*-4.9) EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --enable-fix-cortex-a53-835769" esac MAY_FAIL_DUE_TO_RACE_CONDITION= if [ "$MINGW" = "yes" -o "$DARWIN" = "yes" ]; then MAY_FAIL_DUE_TO_RACE_CONDITION=yes fi # hack to use different set of sources CONFIGURE_GCC_VERSION=$GCC_VERSION case "$TOOLCHAIN" in *4.9l) CONFIGURE_GCC_VERSION=4.9l ;; *4.8l) CONFIGURE_GCC_VERSION=4.8l ;; *) ;; esac GCC_MAJOR_VERSION=`echo $GCC_VERSION | cut -f1 -d.` # Enable Graphite EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --enable-graphite=yes --with-isl-version=$ISL_VERSION" # Graphite requires cloog for gcc 4.x, but only isl for post-4.x if [ $GCC_MAJOR_VERSION -le 4 ]; then EXTRA_CONFIG_FLAGS=$EXTRA_CONFIG_FLAGS" --with-cloog-version=$CLOOG_VERSION" fi # Build GNU sed so the configure script works for MIPS/MIPS64 on Darwin. # http://b/22099482 cd $BUILD_OUT && run $SRC_DIR/sed/configure if [ $? != 0 ] ; then dump "Error while trying to configure sed. See $TMPLOG" exit 1 fi run make -j$NUM_JOBS if [ $? != 0 ] ; then dump "Error while trying to build sed. See $TMPLOG" exit 1 fi # Put our freshly-built GNU sed ahead of the system one on the path. export PATH=$BUILD_OUT/sed/:$PATH if [ -f $SRC_DIR/gcc/gcc-$GCC_VERSION/gcc/BASE-VER ] ; then INCLUDE_VERSION=`cat $SRC_DIR/gcc/gcc-$GCC_VERSION/gcc/BASE-VER` else INCLUDE_VERSION=$GCC_VERSION fi MULTILIB_FLAG="" if [[ ${ABI_CONFIGURE_TARGET} == "mips64el-linux-android" ]] ; then MULTILIB_FLAG="--disable-multilib" elif [[ ${ABI_CONFIGURE_TARGET} == "mipsel-linux-android" ]] ; then MULTILIB_FLAG="--disable-multilib" fi cd $BUILD_OUT && run \ $BUILD_SRCDIR/configure --target=$ABI_CONFIGURE_TARGET \ --enable-bionic-libs \ --enable-libatomic-ifuncs=no \ --enable-initfini-array \ --host=$ABI_CONFIGURE_HOST \ --build=$ABI_CONFIGURE_BUILD \ --disable-nls \ --prefix=$PREFIX_LOCATION \ --with-sysroot=$BUILD_SYSROOT_LOCATION \ --with-binutils-version=$BINUTILS_VERSION \ --with-mpfr-version=$MPFR_VERSION \ --with-mpc-version=$MPC_VERSION \ --with-gmp-version=$GMP_VERSION \ --with-gcc-version=$CONFIGURE_GCC_VERSION \ --with-gdb-version=none \ --with-gxx-include-dir=$PREFIX_LOCATION/include/c++/$INCLUDE_VERSION \ --with-bugurl=$DEFAULT_ISSUE_TRACKER_URL \ --enable-languages=$ENABLE_LANGUAGES \ $EXTRA_CONFIG_FLAGS \ $ABI_CONFIGURE_EXTRA_FLAGS \ $MULTILIB_FLAG if [ $? != 0 ] ; then dump "Error while trying to configure toolchain build. See $TMPLOG" exit 1 fi ABI="$OLD_ABI" # build the toolchain dump "Building : $TOOLCHAIN toolchain [this can take a long time]." cd $BUILD_OUT export CC CXX export ABI=$HOST_GMP_ABI export NUM_JOBS while [ -n "1" ]; do run make -j$NUM_JOBS if [ $? = 0 ] ; then break else if [ "$MAY_FAIL_DUE_TO_RACE_CONDITION" = "yes" ] ; then # Unfortunately, there is a bug in the GCC build scripts that prevent # parallel mingw/darwin canadian cross builds to work properly on some # multi-core machines (but not all, sounds like a race condition). Detect # this and restart in less parallelism, until -j1 also fail NUM_JOBS=$((NUM_JOBS/2)) export NUM_JOBS if [ $NUM_JOBS -lt 1 ] ; then echo "Error while building mingw/darwin toolchain. See $TMPLOG" exit 1 fi dump "Parallel canadian build failed - continuing in less parallelism -j$NUM_JOBS" else echo "Error while building toolchain. See $TMPLOG" exit 1 fi fi done ABI="$OLD_ABI" # install the toolchain to its final location. dump "Install : $TOOLCHAIN toolchain binaries." cd $BUILD_OUT && run make install if [ $? != 0 ] ; then # try "-j1", eg. for aarch64-linux-android-4.8 with libatomic may fail to install due to race condition (missing prefix/lib/../lib64/./libiberty.an) NUM_JOBS=1 export NUM_JOBS run make install -j$NUM_JOBS if [ $? != 0 ] ; then echo "Error while installing toolchain. See $TMPLOG" exit 1 fi fi function install_missing_libs () { (cd "$1" && find . \( -name "*.a" -o -name "*.la" -o -name "*.spec" \) -exec install -D "{}" "$2/{}" \;) } if [ "$MINGW" = "yes" -o "$DARWIN" = "yes" ] ; then # For some reasons, libraries in $ABI_CONFIGURE_TARGET (*) are not installed. # Hack here to copy them over. # (*) FYI: libgcc.a and libgcov.a not installed there in the first place INSTALL_TARGET_LIB_PATH="$BUILD_OUT/host-$ABI_CONFIGURE_BUILD/install/$ABI_CONFIGURE_TARGET/lib" TOOLCHAIN_TARGET_LIB_PATH="$TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_TARGET/lib" install_missing_libs "${INSTALL_TARGET_LIB_PATH}" "${TOOLCHAIN_TARGET_LIB_PATH}" if [ -d "${INSTALL_TARGET_LIB_PATH}64" ]; then install_missing_libs "${INSTALL_TARGET_LIB_PATH}64" "${TOOLCHAIN_TARGET_LIB_PATH}64" fi fi # don't forget to copy the GPL and LGPL license files run cp -f $TOOLCHAIN_LICENSES/COPYING* $TOOLCHAIN_INSTALL_PATH # remove some unneeded files run rm -f $TOOLCHAIN_INSTALL_PATH/bin/*-gccbug run rm -f $TOOLCHAIN_INSTALL_PATH/bin/*gdbtui$HOST_EXE run rm -f $TOOLCHAIN_INSTALL_PATH/bin/*-run$HOST_EXE run rm -rf $TOOLCHAIN_INSTALL_PATH/info run rm -rf $TOOLCHAIN_INSTALL_PATH/man run rm -rf $TOOLCHAIN_INSTALL_PATH/share/info run rm -rf $TOOLCHAIN_INSTALL_PATH/share/man run rm -rf $TOOLCHAIN_INSTALL_PATH/lib/gcc/$ABI_CONFIGURE_TARGET/*/install-tools run rm -rf $TOOLCHAIN_INSTALL_PATH/lib/gcc/$ABI_CONFIGURE_TARGET/*/plugin run rm -rf $TOOLCHAIN_INSTALL_PATH/libexec/gcc/$ABI_CONFIGURE_TARGET/*/install-tools run rm -rf $TOOLCHAIN_INSTALL_PATH/lib/libiberty.a run rm -rf $TOOLCHAIN_INSTALL_PATH/lib32/libiberty.a run rm -rf $TOOLCHAIN_INSTALL_PATH/lib64/libiberty.a run rm -rf $TOOLCHAIN_INSTALL_PATH/lib/x86_64/libiberty.a run rm -rf $TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_TARGET/lib/libiberty.a run rm -rf $TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_TARGET/lib/*/libiberty.a run rm -rf $TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_TARGET/lib/*/*/libiberty.a find $TOOLCHAIN_INSTALL_PATH -name "*.la" -exec rm -f {} \; # Remove host install in cross compilation if [ "$ABI_CONFIGURE_HOST" != "$ABI_CONFIGURE_TARGET" ]; then run rm -rf "$TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_HOST" fi # remove sysroot run rm -rf "$TOOLCHAIN_INSTALL_PATH/sysroot" # clean up link in /tmp if needed if [ "$OBSCURE_PREFIX" == "yes" ]; then rm -f $PREFIX_LOCATION fi # Remove libstdc++ for now (will add it differently later) # We had to build it to get libsupc++ which we keep. run rm -rf $TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_TARGET/lib/libstdc++.* run rm -rf $TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_TARGET/lib/*/libstdc++.* run rm -rf $TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_TARGET/include/c++ # strip binaries to reduce final package size if [ "$BUILD_DEBUGGABLE" != "yes" ] ; then test -z "$STRIP" && STRIP=strip run $STRIP $TOOLCHAIN_INSTALL_PATH/bin/* run $STRIP $TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_TARGET/bin/* run $STRIP $TOOLCHAIN_INSTALL_PATH/libexec/gcc/*/*/cc1$HOST_EXE run $STRIP $TOOLCHAIN_INSTALL_PATH/libexec/gcc/*/*/cc1plus$HOST_EXE run $STRIP $TOOLCHAIN_INSTALL_PATH/libexec/gcc/*/*/collect2$HOST_EXE run $STRIP $TOOLCHAIN_INSTALL_PATH/libexec/gcc/*/*/lto*$HOST_EXE fi # Some of the files should really be links to save space. # This is mostly to reduce the size of the Windows zip archives, # since: # - The toolchain install script actually use hard-links # - Tar automatically detects hard links and will only store a # single copy of each file anyway. # $1: Source file (will be changed to a link) # $2: Destination (relative to source). do_relink () { log "Relink: $1 --> $2" local BASENAME DIRNAME DIRNAME=$(dirname "$1") BASENAME=$(basename "$1") ( cd "$DIRNAME" && rm -f "$BASENAME" && ln -s "$2" "$BASENAME" ) fail_panic "Can't relink $1 to $2" } # /bin/ should point to ../../- LINK_FILES=$(cd $TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_TARGET/bin && ls * 2>/dev/null) for LINK_FILE in $LINK_FILES; do do_relink $TOOLCHAIN_INSTALL_PATH/$ABI_CONFIGURE_TARGET/bin/$LINK_FILE ../../bin/$ABI_CONFIGURE_TARGET-$LINK_FILE done # $1: Source file prefix (e.g. 'c++') # $2: Destination file prefix (e.g. 'g++') # $3: Alternative file prefix if $2 doesn't exist (eg. ld.bfd) do_relink_bin () { local DST_FILE=$2 if [ ! -f "$TOOLCHAIN_INSTALL_PATH/bin/$ABI_CONFIGURE_TARGET-$DST_FILE$HOST_EXE" ]; then DST_FILE=$3 fi if [ ! -f "$TOOLCHAIN_INSTALL_PATH/bin/$ABI_CONFIGURE_TARGET-$DST_FILE$HOST_EXE" ]; then echo "ERROR: Can't relink $1 to $DST_FILE because $DST_FILE doesn't exist" exit 1 fi do_relink \ $TOOLCHAIN_INSTALL_PATH/bin/$ABI_CONFIGURE_TARGET-$1$HOST_EXE \ $ABI_CONFIGURE_TARGET-$DST_FILE$HOST_EXE } # $1: The file to be replaced by wrapper. do_install_gcc_wrapper() { WRAPPER=$SRC_DIR/gcc/compiler_wrapper local DST_FILE=$TOOLCHAIN_INSTALL_PATH/bin/$ABI_CONFIGURE_TARGET-$1 local REAL_DST_FILE=$TOOLCHAIN_INSTALL_PATH/bin/real-$ABI_CONFIGURE_TARGET-$1 if [ ! -f "$WRAPPER" ]; then echo "ERROR: Can't install wrapper because $WRAPPER doesn't exist" exit 1 fi if [ ! -f "$DST_FILE$HOST_EXE" ]; then echo "ERROR: Can't install wrapper because $DST_FILE$HOST_EXE doesn't exist" fi mv $DST_FILE$HOST_EXE $REAL_DST_FILE cp -p $WRAPPER $DST_FILE$HOST_EXE } do_relink_bin c++ g++ do_relink_bin gcc-$GCC_VERSION gcc do_install_gcc_wrapper gcc do_install_gcc_wrapper g++ # symlink ld to either ld.gold or ld.bfd case "$TOOLCHAIN" in aarch64*) # Don't make ld.gold as default for now because it's new do_relink_bin ld ld.bfd ld.gold ;; *) do_relink_bin ld ld.gold ld.bfd ;; esac # copy SOURCES file if present if [ -f "$SRC_DIR/SOURCES" ]; then cp "$SRC_DIR/SOURCES" "$TOOLCHAIN_INSTALL_PATH/SOURCES" fi echo "Removing sysroot for $TOOLCHAIN" rm -rf $TOOLCHAIN_INSTALL_PATH/sysroot if [ "$PACKAGE_DIR" ]; then make_repo_prop "$TMPDIR/$TOOLCHAIN_SUBDIR" touch $TMPDIR/$TOOLCHAIN_SUBDIR/MODULE_LICENSE_GPL cp $TMPDIR/$TOOLCHAIN_SUBDIR/COPYING $TMPDIR/$TOOLCHAIN_SUBDIR/NOTICE ARCHIVE="gcc-$ARCH-$HOST_TAG.tar.bz2" dump "Packaging $ARCHIVE from $TMPDIR/$TOOLCHAIN_SUBDIR" pack_archive "$PACKAGE_DIR/$ARCHIVE" "$TMPDIR" "$TOOLCHAIN_SUBDIR" fail_panic "Could not package $TOOLCHAIN GCC!" fi dump "Done." if [ -z "$OPTION_BUILD_OUT" ] ; then rm -rf $BUILD_OUT fi