build.sh - platform/prebuilts/gcc/linux-x86/host/x86_64-w64-mingw32-4.8 - Git at Google

 #!/bin/sh
 #
 # Copyright (C) 2016 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.
 #
 # Rebuild the mingw64 cross-toolchain from scratch
 #
 # See --help for usage example.

 PROGNAME=$(basename $0)
 PROGDIR=$(dirname $0)
 PROGDIR=$(cd $PROGDIR && pwd)
 ANDROID_BUILD_TOP=$(realpath $PROGDIR/../..)
 TOOLCHAIN_DIR=$(realpath $ANDROID_BUILD_TOP/toolchain)

 HELP=
 VERBOSE=2

 # This will be reset later.
 LOG_FILE=/dev/null

 panic ()
 {
     1>&2 echo "Error: $@"
     exit 1
 }

 fail_panic ()
 {
     if [ $? != 0 ]; then
         panic "$@"
     fi
 }

 var_value ()
 {
     eval echo \"$1\"
 }

 var_append ()
 {
     local _varname=$1
     local _varval=$(var_value $_varname)
     shift
     if [ -z "$_varval" ]; then
         eval $_varname=\"$*\"
     else
         eval $_varname=\$$_varname\" $*\"
     fi
 }

 run ()
 {
     if [ "$VERBOSE" -gt 0 ]; then
         echo "COMMAND: >>>> $@" >> $LOG_FILE
     fi
     if [ "$VERBOSE" -gt 1 ]; then
         echo "COMMAND: >>>> $@"
     fi
     if [ "$VERBOSE" -gt 1 ]; then
         "$@"
     else
        "$@" > /dev/null 2>&1
     fi
 }

 log ()
 {
     if [ "$LOG_FILE" ]; then
         echo "$@" >> $LOG_FILE
     fi
     if [ "$VERBOSE" -gt 0 ]; then
         echo "$@"
     fi
 }

 NUM_CORES=$(grep -c -e '^processor' /proc/cpuinfo)
 JOBS=$(( $NUM_CORES * 2 ))

 GMP_VERSION=5.0.5
 MPFR_VERSION=3.1.1
 MPC_VERSION=1.0.1
 BINUTILS_VERSION=2.25
 GCC_VERSION=4.8.3
 MINGW_W64_VERSION=v5.0.0

 TARGET_ARCH=x86_64
 TARGET_MULTILIBS=true  # not empty to enable multilib
 CLEANUP=

 OPT_GCC_VERSION=

 for opt; do
     optarg=`expr "x$opt" : 'x[^=]*=\(.*\)'`
     case $opt in
         -h|-?|--help) HELP=true;;
         --verbose) VERBOSE=$(( $VERBOSE + 1 ));;
         --quiet) VERBOSE=$(( $VERBOSE - 1 ));;
         -j*|--jobs=*) JOBS=$optarg;;
         --target-arch=*) TARGET_ARCH=$optarg;;
         --no-multilib) TARGET_MULTILIBS="";;
         --gcc-version=*) OPT_GCC_VERSION=$optarg;;
         --cleanup) CLEANUP=true;;
         -*) panic "Unknown option '$opt', see --help for list of valid ones.";;
         *) panic "This script doesn't take any parameter, see --help for details.";;
     esac
 done


 if [ "$HELP" ]; then
     cat <<EOF
 Usage: $PROGNAME [options]

 This program is used to rebuild a mingw64 cross-toolchain from scratch.

 All toolchain binaries can generate both Win32 and Win64 executables. Use -m32
 or -m64 at compile/link time to select a specific target.

 Valid options:
   -h|-?|--help                 Print this message."
   --verbose                    Increase verbosity."
   --quiet                      Decrease verbosity."
   --jobs=<num>                 Run <num> build tasks in parallel [$JOBS]."
   -j<num>                      Same as --jobs=<num>."
   --no-multilib                Disable multilib toolchain build."
   --target-arch=<arch>         Select default target architecture [$TARGET_ARCH]."
   --gcc-version=<version>      Select alternative GCC version [$GCC_VERSION]"
 EOF
     exit 0
 fi

 if [ "$OPT_GCC_VERSION" ]; then
     GCC_VERSION=$OPT_GCC_VERSION
 fi

 GCC_SRC_DIR=$TOOLCHAIN_DIR/gcc/gcc-$GCC_VERSION
 if [ ! -d "$GCC_SRC_DIR" ]; then
     panic "Missing GCC source directory: $GCC_SRC_DIR"
 fi

 GCC_MAJOR_MINOR=$(echo "$GCC_VERSION" | cut -d. -f1-2)

 # Top level out directory.
 OUT_DIR=$ANDROID_BUILD_TOP/out

 # Name of the directory inside the package.
 PACKAGE_DIR=x86_64-w64-mingw32-$GCC_MAJOR_MINOR

 # Directory to isolate the install package from any similarly named directories.
 OUTER_INSTALL_DIR=$OUT_DIR/install

 # Actual install path.
 INSTALL_DIR=$OUTER_INSTALL_DIR/$PACKAGE_DIR

 # Install directory for build dependencies that are not in the final package
 # (gmp and whatnot).
 SUPPORT_DIR=$INSTALL_DIR

 # For the final artifacts. Will be archived on the build server.
 if [ -z "$DIST_DIR" ]; then
   DIST_DIR=$OUT_DIR/dist
 fi

 BUILD_TAG64=x86_64-linux-gnu
 BUILD_TAG32=i686-linux-gnu

 # We don't want debug executables
 BUILD_CFLAGS="-O2 -fomit-frame-pointer -s"
 BUILD_LDFLAGS=""

 rm -rf $OUT_DIR
 mkdir -p $OUT_DIR
 mkdir -p $INSTALL_DIR
 mkdir -p $DIST_DIR
 mkdir -p $SUPPORT_DIR

 LOG_FILE=$OUT_DIR/build.log
 rm -f $LOG_FILE && touch $LOG_FILE
 if [ "$VERBOSE" -eq 1 ]; then
     echo  "To follow build, use in another terminal: tail -F $LOG_FILE"
 fi

 case $TARGET_ARCH in
     x86_64) TARGET_BITS=64;;
     i686) TARGET_BITS=32;;
     *) panic "Invalid --target parameter. Valid values are: x86_64 i686";;
 esac
 TARGET_TAG=$TARGET_ARCH-w64-mingw32
 log "Target arch: $TARGET_TAG"
 log "Target bits: $TARGET_BITS"

 HOST_ARCH=x86_64
 HOST_BITS=64

 HOST_TAG=$HOST_ARCH-linux-gnu
 log "Host arch: $HOST_TAG"

 # Copy this script
 cp $0 $INSTALL_DIR/ &&
 echo "This file has been automatically generated on $(date) with the following command:" > $INSTALL_DIR/README &&
 echo "$PROGNAME $@" >> $INSTALL_DIR/README &&
 echo "" >> $INSTALL_DIR/README &&
 echo "The MD5 hashes for the original sources packages are:" >> $INSTALL_DIR/README
 fail_panic "Could not copy script to installation directory."

 PREFIX_FOR_TARGET=$INSTALL_DIR/$TARGET_TAG
 WITH_WIDL=$INSTALL_DIR/bin
 MINGW_W64_SRC=$TOOLCHAIN_DIR/mingw/mingw-w64-$MINGW_W64_VERSION

 setup_host_build_env ()
 {
     local BINPREFIX=$ANDROID_BUILD_TOP/prebuilts/gcc/linux-x86/host/x86_64-linux-glibc2.11-4.8/bin/x86_64-linux-

     CC=${BINPREFIX}gcc
     CXX=${BINPREFIX}g++
     LD=${BINPREFIX}ld
     AS=${BINPREFIX}as
     AR=${BINPREFIX}ar
     RANLIB=${BINPREFIX}ranlib
     STRIP=${BINPREFIX}strip
     export CC CXX LD AS AR RANLIB STRIP

     export CFLAGS="$BUILD_CFLAGS"
     export CXXFLAGS="$BUILD_CFLAGS"
     export LDFLAGS="$BUILD_LDFLAGS"
 }

 setup_mingw_build_env ()
 {
     local BINPREFIX=$INSTALL_DIR/bin/x86_64-w64-mingw32-

     CC=${BINPREFIX}gcc
     CXX=${BINPREFIX}g++
     LD=${BINPREFIX}ld
     AS=${BINPREFIX}as
     AR=${BINPREFIX}ar
     RANLIB=${BINPREFIX}ranlib
     RC=${BINPREFIX}windres
     STRIP=${BINPREFIX}strip
     export CC CXX LD AS AR RANLIB RC STRIP

 }

 setup_install_env ()
 {
     export PATH=$INSTALL_DIR/bin:$PATH
 }

 build_binutils_package ()
 {
     local PKGNAME=$1
     shift

     (
         mkdir -p $OUT_DIR/$PKGNAME &&
         cd $OUT_DIR/$PKGNAME &&
         setup_host_build_env &&
         log "$PKGNAME: Configuring" &&
         run $TOOLCHAIN_DIR/binutils/$PKGNAME/configure "$@"
         fail_panic "Can't configure $PKGNAME !!"

         log "$PKGNAME: Building" &&
         run make -j$JOBS MAKEINFO=true
         fail_panic "Can't build $PKGNAME !!"

         log "$PKGNAME: Installing" &&
         run make install MAKEINFO=true
         fail_panic "Can't install $PKGNAME"
     ) || exit 1
 }

 # The GCC build in Android is insane and stores gmp and friends as tarballs and
 # extracts them as a part of the build step (in the meta-configure of all
 # places). No one understands how any of that mess works, so just deal with
 # extracting them here...
 EXTRACTED_PACKAGES=$OUT_DIR/packages
 mkdir -p $EXTRACTED_PACKAGES
 fail_panic "Could not create directory for packages."

 log "gmp-$GMP_VERSION: Extracting" &&
 tar xf $TOOLCHAIN_DIR/gmp/gmp-$GMP_VERSION.tar.bz2 -C $EXTRACTED_PACKAGES
 log "mpfr-$MPFR_VERSION: Extracting" &&
 tar xf $TOOLCHAIN_DIR/mpfr/mpfr-$MPFR_VERSION.tar.bz2 -C $EXTRACTED_PACKAGES
 log "mpc-$MPC_VERSION: Extracting" &&
 tar xf $TOOLCHAIN_DIR/mpc/mpc-$MPC_VERSION.tar.gz -C $EXTRACTED_PACKAGES

 build_host_package ()
 {
     local PKGNAME=$1
     shift

     (
         mkdir -p $OUT_DIR/$PKGNAME &&
         cd $OUT_DIR/$PKGNAME &&
         setup_host_build_env &&
         log "$PKGNAME: Configuring" &&
         run $EXTRACTED_PACKAGES/$PKGNAME/configure "$@"
         fail_panic "Can't configure $PKGNAME !!"

         log "$PKGNAME: Building" &&
         run make -j$JOBS
         fail_panic "Can't build $PKGNAME !!"

         log "$PKGNAME: Installing" &&
         run make install
         fail_panic "Can't install $PKGNAME"
     ) || exit 1
 }

 export ABI=$HOST_BITS
 SUPPORT_INSTALL=
 BASE_HOST_OPTIONS="--prefix=$SUPPORT_DIR --disable-shared"
 build_host_package gmp-$GMP_VERSION $BASE_HOST_OPTIONS
 var_append BASE_HOST_OPTIONS "--with-gmp=$SUPPORT_DIR"

 build_host_package mpfr-$MPFR_VERSION $BASE_HOST_OPTIONS
 var_append BASE_HOST_OPTIONS "--with-mpfr=$SUPPORT_DIR"

 build_host_package mpc-$MPC_VERSION $BASE_HOST_OPTIONS
 var_append BASE_HOST_OPTIONS "--with-mpc=$SUPPORT_DIR"

 BINUTILS_CONFIGURE_OPTIONS=$BASE_HOST_OPTIONS
 var_append BINUTILS_CONFIGURE_OPTIONS "--target=$TARGET_TAG --disable-nls"
 if [ "$TARGET_MULTILIBS" ]; then
     var_append BINUTILS_CONFIGURE_OPTIONS "--enable-targets=x86_64-w64-mingw32,i686-w64-mingw32"
 fi

 var_append BINUTILS_CONFIGURE_OPTIONS "--with-sysroot=$INSTALL_DIR"
 var_append BINUTILS_CONFIGURE_OPTIONS "--enable-lto --enable-plugin --enable-gold"

 build_binutils_package binutils-$BINUTILS_VERSION $BINUTILS_CONFIGURE_OPTIONS

 build_mingw_tools ()
 {
     local PKGNAME=$1

     (
         mkdir -p $OUT_DIR/$PKGNAME &&
         cd $OUT_DIR/$PKGNAME &&
         log "$PKGNAME: Configuring" &&
         run $MINGW_W64_SRC/mingw-w64-tools/widl/configure --prefix=$INSTALL_DIR --target=$TARGET_TAG --includedir=$OUT_DIR/install/x86_64-w64-mingw32-4.8/x86_64-w64-mingw32/
         fail_panic "Can't configure mingw-64-tools"
         log "$PKGNAME: Installing" &&
         run make install -j$JOBS
     ) || exit 1
 }

 build_mingw_pthreads_lib ()
 {
     local PKGNAME=$1
     local CONFIGURE_EXTRA_ARGS=$2

     (
         mkdir -p $OUT_DIR/$PKGNAME &&
         cd $OUT_DIR/$PKGNAME &&
         setup_mingw_build_env &&
         log "$PKGNAME (32-bit): Configuring" &&
         run $MINGW_W64_SRC/mingw-w64-libraries/winpthreads/configure --prefix=$PREFIX_FOR_TARGET --target=$TARGET_TAG --host=$TARGET_TAG $CONFIGURE_EXTRA_ARGS &&
         fail_panic "Can't configure $PKGNAME"
     ) || exit 1

     # run it once so fakelib/libgcc.a is created and make subsequently fails
     # while looking for libpthread.a.  Copy libgcc.a to libpthread.a and
     # retry.
     cd $OUT_DIR/$PKGNAME && run make install -j$JOBS

     (
         cd $OUT_DIR/$PKGNAME
         cp fakelib/libgcc.a fakelib/libpthread.a &&
         log "$PKGNAME: Installing" &&
         run make install -j$JOBS
     ) || exit 1
 }

 build_mingw_pthreads ()
 {
     local PKGNAME=$1

     (
         CFLAGS="$CFLAGS -m32"
         CXXFLAGS="$CXXFLAGS -m32"
         LDFLAGS="-m32"
         RCFLAGS="-F pe-i386"
         export CFLAGS CXXFLAGS LDFLAGS RCFLAGS
         build_mingw_pthreads_lib $PKGNAME-32 "--build=$BUILD_TAG32 --libdir=$PREFIX_FOR_TARGET/lib32"
         (run cp $PREFIX_FOR_TARGET/bin/libwinpthread-1.dll $PREFIX_FOR_TARGET/lib32) || exit 1
     )

     build_mingw_pthreads_lib $PKGNAME-64 "--build=$BUILD_TAG64"
 }

 # Install the right mingw64 headers into the sysroot
 build_mingw_headers ()
 {
     local PKGNAME=$1

     (
         mkdir -p $OUT_DIR/$PKGNAME &&
         cd $OUT_DIR/$PKGNAME &&
         log "$PKGNAME: Configuring" &&
         run $MINGW_W64_SRC/mingw-w64-headers/configure --prefix=$PREFIX_FOR_TARGET --host=$TARGET_TAG \
             --build=$HOST_TAG --enable-sdk=all --enable-secure-api
         fail_panic "Can't configure mingw-64-headers"

         run make
         log "$PKGNAME: Installing" &&
         run make install -j$JOBS &&
         run cd $INSTALL_DIR &&
         run ln -s $TARGET_TAG mingw &&
         run cd $INSTALL_DIR/mingw &&
         run ln -s lib lib$TARGET_BITS
         fail_panic "Can't install mingw-64-headers"
     ) || exit 1
 }

 # Slightly different from build_host_package because we need to call
 # 'make all-gcc' and 'make install-gcc' as a special case.
 #
 build_core_gcc ()
 {
     local PKGNAME=$1
     shift

     (
         mkdir -p $OUT_DIR/$PKGNAME &&
         cd $OUT_DIR/$PKGNAME &&
         setup_host_build_env &&
         log "core-$PKGNAME: Configuring" &&
         run $TOOLCHAIN_DIR/gcc/$PKGNAME/configure "$@"
         fail_panic "Can't configure $PKGNAME !!"

         log "core-$PKGNAME: Building" &&
         run make -j$JOBS all-gcc
         fail_panic "Can't build $PKGNAME !!"

         log "core-$PKGNAME: Installing" &&
         run make -j$JOBS install-gcc
         fail_panic "Can't install $PKGNAME"
     ) || exit 1
 }


 # Build and install the C runtime files needed by the toolchain
 build_mingw_crt ()
 {
     local PKGNAME=$1
     shift

     (
         mkdir -p $OUT_DIR/$PKGNAME &&
         cd $OUT_DIR/$PKGNAME &&
         export PATH=$INSTALL_DIR/bin:$PATH
         log "$PKGNAME: Configuring" &&
         run $MINGW_W64_SRC/mingw-w64-crt/configure "$@"
         fail_panic "Can't configure $PKGNAME !!"

         log "$PKGNAME: Building" &&
         run make -j$JOBS
         fail_panic "Can't build $PKGNAME !!"

         log "$PKGNAME: Installing" &&
         run make -j$JOBS install
         fail_panic "Can't install $PKGNAME"
     ) || exit 1
 }


 build_libgcc ()
 {
     local PKGNAME=$1
     shift

     (
         # No configure step here! We're resuming work that was started
         # in build_core_gcc.
         cd $OUT_DIR/$PKGNAME &&
         setup_host_build_env &&
         log "libgcc-$PKGNAME: Building" &&
         run make -j$JOBS
         fail_panic "Can't build libgcc-$PKGNAME !!"

         log "libgcc-$PKGNAME: Installing" &&
         run make -j$JOBS install
         fail_panic "Can't install libgcc-$PKGNAME"
     ) || exit 1
 }

 GCC_CONFIGURE_OPTIONS=$BASE_HOST_OPTIONS
 var_append GCC_CONFIGURE_OPTIONS "--target=$TARGET_TAG"
 if [ "$TARGET_MULTILIBS" ]; then
     var_append GCC_CONFIGURE_OPTIONS "--enable-targets=all"
 fi
 var_append GCC_CONFIGURE_OPTIONS "--enable-languages=c,c++"
 var_append GCC_CONFIGURE_OPTIONS "--with-sysroot=$INSTALL_DIR"
 var_append GCC_CONFIGURE_OPTIONS "--enable-threads=posix"

 build_mingw_tools mingw-w64-tools
 build_mingw_headers mingw-w64-headers

 build_core_gcc gcc-$GCC_VERSION $GCC_CONFIGURE_OPTIONS

 CRT_CONFIGURE_OPTIONS="--host=$TARGET_TAG --with-sysroot=$INSTALL_DIR --prefix=$PREFIX_FOR_TARGET"
 if [ "$TARGET_MULTILIBS" ]; then
     var_append CRT_CONFIGURE_OPTIONS "--enable-lib32"
 fi

 build_mingw_crt mingw-w64-crt $CRT_CONFIGURE_OPTIONS

 # Build winpthreads
 build_mingw_pthreads mingw-w64-pthreads

 build_libgcc gcc-$GCC_VERSION

 # Let's generate the licenses/ directory
 LICENSE_DIRS="$SRC_DIR"
 var_append LICENSE_DIRS "$TOOLCHAIN_DIR/binutils/binutils-$BINUTILS_VERSION"
 var_append LICENSE_DIRS "$GCC_SRC_DIR"
 var_append LICENSE_DIRS "$EXTRACTED_PACKAGES"

 echo > $INSTALL_DIR/NOTICE
 for LICENSE in $(find $LICENSE_DIRS -name "COPYING*"); do
     cat $SRC_DIR/$LICENSE >> $INSTALL_DIR/NOTICE
 done

 touch $INSTALL_DIR/MODULE_LICENSE_GPL

 # The build server generates a repo.prop file that contains the current SHAs of
 # each project.
 REPO_PROP_PATH=$INSTALL_DIR/repo.prop
 if [ -f $DIST_DIR/repo.prop ]; then
     cp $DIST_DIR/repo.prop $REPO_PROP_PATH
 else
     # Generate our own if we're building locally.
     # The pushd/popd is to ensure that we're at least somewhere within our
     # source tree. There aren't any assumptions made about our CWD.
     pushd $ANDROID_BUILD_TOP
     repo forall \
         -c 'echo $REPO_PROJECT $(git rev-parse HEAD)' > $REPO_PROP_PATH
     popd
 fi

 PACKAGE_NAME=$DIST_DIR/$TARGET_TAG-linux-x86_64.tar.bz2
 log "Packaging $TARGET_TAG toolchain to $PACKAGE_NAME"
 run tar cjf $PACKAGE_NAME -C $OUTER_INSTALL_DIR $PACKAGE_DIR/
 fail_panic "Could not package $TARGET_TAG toolchain!"
 log "Done. See $DIST_DIR:"
 ls -l $PACKAGE_NAME

 exit 0
	#!/bin/sh
	#
	# Copyright (C) 2016 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.
	#
	# Rebuild the mingw64 cross-toolchain from scratch
	#
	# See --help for usage example.

	PROGNAME=$(basename $0)
	PROGDIR=$(dirname $0)
	PROGDIR=$(cd $PROGDIR && pwd)
	ANDROID_BUILD_TOP=$(realpath $PROGDIR/../..)
	TOOLCHAIN_DIR=$(realpath $ANDROID_BUILD_TOP/toolchain)

	HELP=
	VERBOSE=2

	# This will be reset later.
	LOG_FILE=/dev/null

	panic ()
	{
	1>&2 echo "Error: $@"
	exit 1
	}

	fail_panic ()
	{
	if [ $? != 0 ]; then
	panic "$@"
	fi
	}

	var_value ()
	{
	eval echo \"$1\"
	}

	var_append ()
	{
	local _varname=$1
	local _varval=$(var_value $_varname)
	shift
	if [ -z "$_varval" ]; then
	eval $_varname=\"$*\"
	else
	eval $_varname=\$$_varname\" $*\"
	fi
	}

	run ()
	{
	if [ "$VERBOSE" -gt 0 ]; then
	echo "COMMAND: >>>> $@" >> $LOG_FILE
	fi
	if [ "$VERBOSE" -gt 1 ]; then
	echo "COMMAND: >>>> $@"
	fi
	if [ "$VERBOSE" -gt 1 ]; then
	"$@"
	else
	"$@" > /dev/null 2>&1
	fi
	}

	log ()
	{
	if [ "$LOG_FILE" ]; then
	echo "$@" >> $LOG_FILE
	fi
	if [ "$VERBOSE" -gt 0 ]; then
	echo "$@"
	fi
	}

	NUM_CORES=$(grep -c -e '^processor' /proc/cpuinfo)
	JOBS=$(( $NUM_CORES * 2 ))

	GMP_VERSION=5.0.5
	MPFR_VERSION=3.1.1
	MPC_VERSION=1.0.1
	BINUTILS_VERSION=2.25
	GCC_VERSION=4.8.3
	MINGW_W64_VERSION=v5.0.0

	TARGET_ARCH=x86_64
	TARGET_MULTILIBS=true # not empty to enable multilib
	CLEANUP=

	OPT_GCC_VERSION=

	for opt; do
	optarg=`expr "x$opt" : 'x[^=]=\(.\)'`
	case $opt in
	-h\|-?\|--help) HELP=true;;
	--verbose) VERBOSE=$(( $VERBOSE + 1 ));;
	--quiet) VERBOSE=$(( $VERBOSE - 1 ));;
	-j\|--jobs=) JOBS=$optarg;;
	--target-arch=*) TARGET_ARCH=$optarg;;
	--no-multilib) TARGET_MULTILIBS="";;
	--gcc-version=*) OPT_GCC_VERSION=$optarg;;
	--cleanup) CLEANUP=true;;
	-*) panic "Unknown option '$opt', see --help for list of valid ones.";;
	*) panic "This script doesn't take any parameter, see --help for details.";;
	esac
	done


	if [ "$HELP" ]; then
	cat <<EOF
	Usage: $PROGNAME [options]

	This program is used to rebuild a mingw64 cross-toolchain from scratch.

	All toolchain binaries can generate both Win32 and Win64 executables. Use -m32
	or -m64 at compile/link time to select a specific target.

	Valid options:
	-h\|-?\|--help Print this message."
	--verbose Increase verbosity."
	--quiet Decrease verbosity."
	--jobs=<num> Run <num> build tasks in parallel [$JOBS]."
	-j<num> Same as --jobs=<num>."
	--no-multilib Disable multilib toolchain build."
	--target-arch=<arch> Select default target architecture [$TARGET_ARCH]."
	--gcc-version=<version> Select alternative GCC version [$GCC_VERSION]"
	EOF
	exit 0
	fi

	if [ "$OPT_GCC_VERSION" ]; then
	GCC_VERSION=$OPT_GCC_VERSION
	fi

	GCC_SRC_DIR=$TOOLCHAIN_DIR/gcc/gcc-$GCC_VERSION
	if [ ! -d "$GCC_SRC_DIR" ]; then
	panic "Missing GCC source directory: $GCC_SRC_DIR"
	fi

	GCC_MAJOR_MINOR=$(echo "$GCC_VERSION" \| cut -d. -f1-2)

	# Top level out directory.
	OUT_DIR=$ANDROID_BUILD_TOP/out

	# Name of the directory inside the package.
	PACKAGE_DIR=x86_64-w64-mingw32-$GCC_MAJOR_MINOR

	# Directory to isolate the install package from any similarly named directories.
	OUTER_INSTALL_DIR=$OUT_DIR/install

	# Actual install path.
	INSTALL_DIR=$OUTER_INSTALL_DIR/$PACKAGE_DIR

	# Install directory for build dependencies that are not in the final package
	# (gmp and whatnot).
	SUPPORT_DIR=$INSTALL_DIR

	# For the final artifacts. Will be archived on the build server.
	if [ -z "$DIST_DIR" ]; then
	DIST_DIR=$OUT_DIR/dist
	fi

	BUILD_TAG64=x86_64-linux-gnu
	BUILD_TAG32=i686-linux-gnu

	# We don't want debug executables
	BUILD_CFLAGS="-O2 -fomit-frame-pointer -s"
	BUILD_LDFLAGS=""

	rm -rf $OUT_DIR
	mkdir -p $OUT_DIR
	mkdir -p $INSTALL_DIR
	mkdir -p $DIST_DIR
	mkdir -p $SUPPORT_DIR

	LOG_FILE=$OUT_DIR/build.log
	rm -f $LOG_FILE && touch $LOG_FILE
	if [ "$VERBOSE" -eq 1 ]; then
	echo "To follow build, use in another terminal: tail -F $LOG_FILE"
	fi

	case $TARGET_ARCH in
	x86_64) TARGET_BITS=64;;
	i686) TARGET_BITS=32;;
	*) panic "Invalid --target parameter. Valid values are: x86_64 i686";;
	esac
	TARGET_TAG=$TARGET_ARCH-w64-mingw32
	log "Target arch: $TARGET_TAG"
	log "Target bits: $TARGET_BITS"

	HOST_ARCH=x86_64
	HOST_BITS=64

	HOST_TAG=$HOST_ARCH-linux-gnu
	log "Host arch: $HOST_TAG"

	# Copy this script
	cp $0 $INSTALL_DIR/ &&
	echo "This file has been automatically generated on $(date) with the following command:" > $INSTALL_DIR/README &&
	echo "$PROGNAME $@" >> $INSTALL_DIR/README &&
	echo "" >> $INSTALL_DIR/README &&
	echo "The MD5 hashes for the original sources packages are:" >> $INSTALL_DIR/README
	fail_panic "Could not copy script to installation directory."

	PREFIX_FOR_TARGET=$INSTALL_DIR/$TARGET_TAG
	WITH_WIDL=$INSTALL_DIR/bin
	MINGW_W64_SRC=$TOOLCHAIN_DIR/mingw/mingw-w64-$MINGW_W64_VERSION

	setup_host_build_env ()
	{
	local BINPREFIX=$ANDROID_BUILD_TOP/prebuilts/gcc/linux-x86/host/x86_64-linux-glibc2.11-4.8/bin/x86_64-linux-

	CC=${BINPREFIX}gcc
	CXX=${BINPREFIX}g++
	LD=${BINPREFIX}ld
	AS=${BINPREFIX}as
	AR=${BINPREFIX}ar
	RANLIB=${BINPREFIX}ranlib
	STRIP=${BINPREFIX}strip
	export CC CXX LD AS AR RANLIB STRIP

	export CFLAGS="$BUILD_CFLAGS"
	export CXXFLAGS="$BUILD_CFLAGS"
	export LDFLAGS="$BUILD_LDFLAGS"
	}

	setup_mingw_build_env ()
	{
	local BINPREFIX=$INSTALL_DIR/bin/x86_64-w64-mingw32-

	CC=${BINPREFIX}gcc
	CXX=${BINPREFIX}g++
	LD=${BINPREFIX}ld
	AS=${BINPREFIX}as
	AR=${BINPREFIX}ar
	RANLIB=${BINPREFIX}ranlib
	RC=${BINPREFIX}windres
	STRIP=${BINPREFIX}strip
	export CC CXX LD AS AR RANLIB RC STRIP

	}

	setup_install_env ()
	{
	export PATH=$INSTALL_DIR/bin:$PATH
	}

	build_binutils_package ()
	{
	local PKGNAME=$1
	shift

	(
	mkdir -p $OUT_DIR/$PKGNAME &&
	cd $OUT_DIR/$PKGNAME &&
	setup_host_build_env &&
	log "$PKGNAME: Configuring" &&
	run $TOOLCHAIN_DIR/binutils/$PKGNAME/configure "$@"
	fail_panic "Can't configure $PKGNAME !!"

	log "$PKGNAME: Building" &&
	run make -j$JOBS MAKEINFO=true
	fail_panic "Can't build $PKGNAME !!"

	log "$PKGNAME: Installing" &&
	run make install MAKEINFO=true
	fail_panic "Can't install $PKGNAME"
	) \|\| exit 1
	}

	# The GCC build in Android is insane and stores gmp and friends as tarballs and
	# extracts them as a part of the build step (in the meta-configure of all
	# places). No one understands how any of that mess works, so just deal with
	# extracting them here...
	EXTRACTED_PACKAGES=$OUT_DIR/packages
	mkdir -p $EXTRACTED_PACKAGES
	fail_panic "Could not create directory for packages."

	log "gmp-$GMP_VERSION: Extracting" &&
	tar xf $TOOLCHAIN_DIR/gmp/gmp-$GMP_VERSION.tar.bz2 -C $EXTRACTED_PACKAGES
	log "mpfr-$MPFR_VERSION: Extracting" &&
	tar xf $TOOLCHAIN_DIR/mpfr/mpfr-$MPFR_VERSION.tar.bz2 -C $EXTRACTED_PACKAGES
	log "mpc-$MPC_VERSION: Extracting" &&
	tar xf $TOOLCHAIN_DIR/mpc/mpc-$MPC_VERSION.tar.gz -C $EXTRACTED_PACKAGES

	build_host_package ()
	{
	local PKGNAME=$1
	shift

	(
	mkdir -p $OUT_DIR/$PKGNAME &&
	cd $OUT_DIR/$PKGNAME &&
	setup_host_build_env &&
	log "$PKGNAME: Configuring" &&
	run $EXTRACTED_PACKAGES/$PKGNAME/configure "$@"
	fail_panic "Can't configure $PKGNAME !!"

	log "$PKGNAME: Building" &&
	run make -j$JOBS
	fail_panic "Can't build $PKGNAME !!"

	log "$PKGNAME: Installing" &&
	run make install
	fail_panic "Can't install $PKGNAME"
	) \|\| exit 1
	}

	export ABI=$HOST_BITS
	SUPPORT_INSTALL=
	BASE_HOST_OPTIONS="--prefix=$SUPPORT_DIR --disable-shared"
	build_host_package gmp-$GMP_VERSION $BASE_HOST_OPTIONS
	var_append BASE_HOST_OPTIONS "--with-gmp=$SUPPORT_DIR"

	build_host_package mpfr-$MPFR_VERSION $BASE_HOST_OPTIONS
	var_append BASE_HOST_OPTIONS "--with-mpfr=$SUPPORT_DIR"

	build_host_package mpc-$MPC_VERSION $BASE_HOST_OPTIONS
	var_append BASE_HOST_OPTIONS "--with-mpc=$SUPPORT_DIR"

	BINUTILS_CONFIGURE_OPTIONS=$BASE_HOST_OPTIONS
	var_append BINUTILS_CONFIGURE_OPTIONS "--target=$TARGET_TAG --disable-nls"
	if [ "$TARGET_MULTILIBS" ]; then
	var_append BINUTILS_CONFIGURE_OPTIONS "--enable-targets=x86_64-w64-mingw32,i686-w64-mingw32"
	fi

	var_append BINUTILS_CONFIGURE_OPTIONS "--with-sysroot=$INSTALL_DIR"
	var_append BINUTILS_CONFIGURE_OPTIONS "--enable-lto --enable-plugin --enable-gold"

	build_binutils_package binutils-$BINUTILS_VERSION $BINUTILS_CONFIGURE_OPTIONS

	build_mingw_tools ()
	{
	local PKGNAME=$1

	(
	mkdir -p $OUT_DIR/$PKGNAME &&
	cd $OUT_DIR/$PKGNAME &&
	log "$PKGNAME: Configuring" &&
	run $MINGW_W64_SRC/mingw-w64-tools/widl/configure --prefix=$INSTALL_DIR --target=$TARGET_TAG --includedir=$OUT_DIR/install/x86_64-w64-mingw32-4.8/x86_64-w64-mingw32/
	fail_panic "Can't configure mingw-64-tools"
	log "$PKGNAME: Installing" &&
	run make install -j$JOBS
	) \|\| exit 1
	}

	build_mingw_pthreads_lib ()
	{
	local PKGNAME=$1
	local CONFIGURE_EXTRA_ARGS=$2

	(
	mkdir -p $OUT_DIR/$PKGNAME &&
	cd $OUT_DIR/$PKGNAME &&
	setup_mingw_build_env &&
	log "$PKGNAME (32-bit): Configuring" &&
	run $MINGW_W64_SRC/mingw-w64-libraries/winpthreads/configure --prefix=$PREFIX_FOR_TARGET --target=$TARGET_TAG --host=$TARGET_TAG $CONFIGURE_EXTRA_ARGS &&
	fail_panic "Can't configure $PKGNAME"
	) \|\| exit 1

	# run it once so fakelib/libgcc.a is created and make subsequently fails
	# while looking for libpthread.a. Copy libgcc.a to libpthread.a and
	# retry.
	cd $OUT_DIR/$PKGNAME && run make install -j$JOBS

	(
	cd $OUT_DIR/$PKGNAME
	cp fakelib/libgcc.a fakelib/libpthread.a &&
	log "$PKGNAME: Installing" &&
	run make install -j$JOBS
	) \|\| exit 1
	}

	build_mingw_pthreads ()
	{
	local PKGNAME=$1

	(
	CFLAGS="$CFLAGS -m32"
	CXXFLAGS="$CXXFLAGS -m32"
	LDFLAGS="-m32"
	RCFLAGS="-F pe-i386"
	export CFLAGS CXXFLAGS LDFLAGS RCFLAGS
	build_mingw_pthreads_lib $PKGNAME-32 "--build=$BUILD_TAG32 --libdir=$PREFIX_FOR_TARGET/lib32"
	(run cp $PREFIX_FOR_TARGET/bin/libwinpthread-1.dll $PREFIX_FOR_TARGET/lib32) \|\| exit 1
	)

	build_mingw_pthreads_lib $PKGNAME-64 "--build=$BUILD_TAG64"
	}

	# Install the right mingw64 headers into the sysroot
	build_mingw_headers ()
	{
	local PKGNAME=$1

	(
	mkdir -p $OUT_DIR/$PKGNAME &&
	cd $OUT_DIR/$PKGNAME &&
	log "$PKGNAME: Configuring" &&
	run $MINGW_W64_SRC/mingw-w64-headers/configure --prefix=$PREFIX_FOR_TARGET --host=$TARGET_TAG \
	--build=$HOST_TAG --enable-sdk=all --enable-secure-api
	fail_panic "Can't configure mingw-64-headers"

	run make
	log "$PKGNAME: Installing" &&
	run make install -j$JOBS &&
	run cd $INSTALL_DIR &&
	run ln -s $TARGET_TAG mingw &&
	run cd $INSTALL_DIR/mingw &&
	run ln -s lib lib$TARGET_BITS
	fail_panic "Can't install mingw-64-headers"
	) \|\| exit 1
	}

	# Slightly different from build_host_package because we need to call
	# 'make all-gcc' and 'make install-gcc' as a special case.
	#
	build_core_gcc ()
	{
	local PKGNAME=$1
	shift

	(
	mkdir -p $OUT_DIR/$PKGNAME &&
	cd $OUT_DIR/$PKGNAME &&
	setup_host_build_env &&
	log "core-$PKGNAME: Configuring" &&
	run $TOOLCHAIN_DIR/gcc/$PKGNAME/configure "$@"
	fail_panic "Can't configure $PKGNAME !!"

	log "core-$PKGNAME: Building" &&
	run make -j$JOBS all-gcc
	fail_panic "Can't build $PKGNAME !!"

	log "core-$PKGNAME: Installing" &&
	run make -j$JOBS install-gcc
	fail_panic "Can't install $PKGNAME"
	) \|\| exit 1
	}


	# Build and install the C runtime files needed by the toolchain
	build_mingw_crt ()
	{
	local PKGNAME=$1
	shift

	(
	mkdir -p $OUT_DIR/$PKGNAME &&
	cd $OUT_DIR/$PKGNAME &&
	export PATH=$INSTALL_DIR/bin:$PATH
	log "$PKGNAME: Configuring" &&
	run $MINGW_W64_SRC/mingw-w64-crt/configure "$@"
	fail_panic "Can't configure $PKGNAME !!"

	log "$PKGNAME: Building" &&
	run make -j$JOBS
	fail_panic "Can't build $PKGNAME !!"

	log "$PKGNAME: Installing" &&
	run make -j$JOBS install
	fail_panic "Can't install $PKGNAME"
	) \|\| exit 1
	}


	build_libgcc ()
	{
	local PKGNAME=$1
	shift

	(
	# No configure step here! We're resuming work that was started
	# in build_core_gcc.
	cd $OUT_DIR/$PKGNAME &&
	setup_host_build_env &&
	log "libgcc-$PKGNAME: Building" &&
	run make -j$JOBS
	fail_panic "Can't build libgcc-$PKGNAME !!"

	log "libgcc-$PKGNAME: Installing" &&
	run make -j$JOBS install
	fail_panic "Can't install libgcc-$PKGNAME"
	) \|\| exit 1
	}

	GCC_CONFIGURE_OPTIONS=$BASE_HOST_OPTIONS
	var_append GCC_CONFIGURE_OPTIONS "--target=$TARGET_TAG"
	if [ "$TARGET_MULTILIBS" ]; then
	var_append GCC_CONFIGURE_OPTIONS "--enable-targets=all"
	fi
	var_append GCC_CONFIGURE_OPTIONS "--enable-languages=c,c++"
	var_append GCC_CONFIGURE_OPTIONS "--with-sysroot=$INSTALL_DIR"
	var_append GCC_CONFIGURE_OPTIONS "--enable-threads=posix"

	build_mingw_tools mingw-w64-tools
	build_mingw_headers mingw-w64-headers

	build_core_gcc gcc-$GCC_VERSION $GCC_CONFIGURE_OPTIONS

	CRT_CONFIGURE_OPTIONS="--host=$TARGET_TAG --with-sysroot=$INSTALL_DIR --prefix=$PREFIX_FOR_TARGET"
	if [ "$TARGET_MULTILIBS" ]; then
	var_append CRT_CONFIGURE_OPTIONS "--enable-lib32"
	fi

	build_mingw_crt mingw-w64-crt $CRT_CONFIGURE_OPTIONS

	# Build winpthreads
	build_mingw_pthreads mingw-w64-pthreads

	build_libgcc gcc-$GCC_VERSION

	# Let's generate the licenses/ directory
	LICENSE_DIRS="$SRC_DIR"
	var_append LICENSE_DIRS "$TOOLCHAIN_DIR/binutils/binutils-$BINUTILS_VERSION"
	var_append LICENSE_DIRS "$GCC_SRC_DIR"
	var_append LICENSE_DIRS "$EXTRACTED_PACKAGES"

	echo > $INSTALL_DIR/NOTICE
	for LICENSE in $(find $LICENSE_DIRS -name "COPYING*"); do
	cat $SRC_DIR/$LICENSE >> $INSTALL_DIR/NOTICE
	done

	touch $INSTALL_DIR/MODULE_LICENSE_GPL

	# The build server generates a repo.prop file that contains the current SHAs of
	# each project.
	REPO_PROP_PATH=$INSTALL_DIR/repo.prop
	if [ -f $DIST_DIR/repo.prop ]; then
	cp $DIST_DIR/repo.prop $REPO_PROP_PATH
	else
	# Generate our own if we're building locally.
	# The pushd/popd is to ensure that we're at least somewhere within our
	# source tree. There aren't any assumptions made about our CWD.
	pushd $ANDROID_BUILD_TOP
	repo forall \
	-c 'echo $REPO_PROJECT $(git rev-parse HEAD)' > $REPO_PROP_PATH
	popd
	fi

	PACKAGE_NAME=$DIST_DIR/$TARGET_TAG-linux-x86_64.tar.bz2
	log "Packaging $TARGET_TAG toolchain to $PACKAGE_NAME"
	run tar cjf $PACKAGE_NAME -C $OUTER_INSTALL_DIR $PACKAGE_DIR/
	fail_panic "Could not package $TARGET_TAG toolchain!"
	log "Done. See $DIST_DIR:"
	ls -l $PACKAGE_NAME

	exit 0