build/tools/make-standalone-toolchain.sh - platform/ndk.git - Git at Google

 #!/bin/bash
 # 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.
 #

 # Create a standalone toolchain package for Android.

 . `dirname $0`/prebuilt-common.sh

 PROGRAM_PARAMETERS=""
 PROGRAM_DESCRIPTION=\
 "Generate a customized Android toolchain installation that includes
 a working sysroot. The result is something that can more easily be
 used as a standalone cross-compiler, e.g. to run configure and
 make scripts."

 # For now, this is the only toolchain that works reliably.
 TOOLCHAIN_NAME=
 register_var_option "--toolchain=<name>" TOOLCHAIN_NAME "Specify toolchain name"

 USE_LLVM=no
 do_option_use_llvm ()
 {
     USE_LLVM=yes
 }
 register_option "--use-llvm" do_option_use_llvm "Use LLVM."

 STL=gnustl
 register_var_option "--stl=<name>" STL "Specify C++ STL"

 ARCH=
 register_var_option "--arch=<name>" ARCH "Specify target architecture"

 # Grab the ABIs that match the architecture.
 ABIS=
 register_var_option "--abis=<list>" ABIS "Specify list of target ABIs."

 NDK_DIR=`dirname $0`
 NDK_DIR=`dirname $NDK_DIR`
 NDK_DIR=`dirname $NDK_DIR`
 register_var_option "--ndk-dir=<path>" NDK_DIR "Take source files from NDK at <path>"

 PACKAGE_DIR=$TMPDIR
 register_var_option "--package-dir=<path>" PACKAGE_DIR "Place package file in <path>"

 INSTALL_DIR=
 register_var_option "--install-dir=<path>" INSTALL_DIR "Don't create package, install files to <path> instead."

 PLATFORM=
 register_option "--platform=<name>" do_platform "Specify target Android platform/API level." "android-3"
 do_platform () {
     PLATFORM=$1;
     if [ "$PLATFORM" = "android-L" ]; then
         echo "WARNING: android-L is renamed as android-21"
         PLATFORM=android-21
     fi
 }

 extract_parameters "$@"

 # Check NDK_DIR
 if [ ! -d "$NDK_DIR/build/core" ] ; then
     echo "Invalid source NDK directory: $NDK_DIR"
     echo "Please use --ndk-dir=<path> to specify the path of an installed NDK."
     exit 1
 fi

 # Check TOOLCHAIN_NAME
 ARCH_BY_TOOLCHAIN_NAME=
 if [ -n "$TOOLCHAIN_NAME" ]; then
     case $TOOLCHAIN_NAME in
         arm-*)
             ARCH_BY_TOOLCHAIN_NAME=arm
             ;;
         x86-*)
             ARCH_BY_TOOLCHAIN_NAME=x86
             ;;
         mipsel-*)
             ARCH_BY_TOOLCHAIN_NAME=mips
             ;;
         aarch64-*)
             ARCH_BY_TOOLCHAIN_NAME=arm64
             ;;
         x86_64-linux-android-*)
             ARCH_BY_TOOLCHAIN_NAME=x86_64
             TOOLCHAIN_NAME=$(echo "$TOOLCHAIN_NAME" | sed -e 's/-linux-android//')
             echo "Auto-truncate: --toolchain=$TOOLCHAIN_NAME"
             ;;
         x86_64-*)
             ARCH_BY_TOOLCHAIN_NAME=x86_64
             ;;
         mips64el-*)
             ARCH_BY_TOOLCHAIN_NAME=mips64
             ;;
         *)
             echo "Invalid toolchain $TOOLCHAIN_NAME"
             exit 1
             ;;
     esac
 fi
 # Check ARCH
 if [ -z "$ARCH" ]; then
     ARCH=$ARCH_BY_TOOLCHAIN_NAME
     if [ -z "$ARCH" ]; then
         ARCH=arm
     fi
     echo "Auto-config: --arch=$ARCH"
 fi

 if [ -z "$ABIS" ]; then
     ABIS=$(convert_arch_to_abi $ARCH)
 fi

 if [ -z "$ABIS" ]; then
     dump "ERROR: No ABIS. Possibly unsupported NDK architecture $ARCH?"
     exit 1
 fi

 # Check toolchain name
 if [ -z "$TOOLCHAIN_NAME" ]; then
     TOOLCHAIN_NAME=$(get_default_toolchain_name_for_arch $ARCH)
     echo "Auto-config: --toolchain=$TOOLCHAIN_NAME"
 fi

 # Detect LLVM version from toolchain name with *clang*
 TOOLCHAIN_LLVM=$(echo "$TOOLCHAIN_NAME" | grep clang)
 if [ -n "$TOOLCHAIN_LLVM" ]; then
     USE_LLVM=yes
     DEFAULT_GCC_VERSION=$(get_default_gcc_version_for_arch $ARCH)
     NEW_TOOLCHAIN_NAME=${TOOLCHAIN_NAME%-clang}-${DEFAULT_GCC_VERSION}
     TOOLCHAIN_NAME=$NEW_TOOLCHAIN_NAME
 fi

 # Check PLATFORM
 if [ -z "$PLATFORM" ] ; then
     case $ARCH in
         arm) PLATFORM=android-3
             ;;
         x86|mips)
             PLATFORM=android-9
             ;;
         arm64|x86_64|mips64)
             PLATFORM=android-$FIRST_API64_LEVEL
             ;;
         *)
             dump "ERROR: Unsupported NDK architecture $ARCH!"
     esac
     echo "Auto-config: --platform=$PLATFORM"
 fi

 if [ ! -d "$NDK_DIR/platforms/$PLATFORM" ] ; then
     echo "Invalid platform name: $PLATFORM"
     echo "Please use --platform=<name> with one of:" `(cd "$NDK_DIR/platforms" && ls)`
     exit 1
 fi

 if [ -d "$NDK_DIR/prebuilt/$HOST_TAG" ]; then
     SYSTEM=$HOST_TAG
 else
     SYSTEM=$HOST_TAG32
 fi

 # Check toolchain name
 TOOLCHAIN_PATH="$NDK_DIR/toolchains/$TOOLCHAIN_NAME/prebuilt/$SYSTEM"
 if [ ! -d "$TOOLCHAIN_PATH" ] ; then
     echo "Could not find toolchain: $TOOLCHAIN_PATH"
     echo "Please use --toolchain=<name> with the name of a toolchain supported by the source NDK."
     echo "Try one of: " `(cd "$NDK_DIR/toolchains" && ls)`
     exit 1
 fi

 # Extract architecture from platform name
 parse_toolchain_name $TOOLCHAIN_NAME

 case "$TOOLCHAIN_NAME" in
   *4.9l)
     GCC_VERSION=4.9l
     ;;
   *4.8l)
     GCC_VERSION=4.8l
     ;;
 esac

 # Check that there are any platform files for it!
 (cd $NDK_DIR/platforms && ls -d */arch-$ARCH >/dev/null 2>&1 )
 if [ $? != 0 ] ; then
     echo "Platform $PLATFORM doesn't have any files for this architecture: $ARCH"
     echo "Either use --platform=<name> or --toolchain=<name> to select a different"
     echo "platform or arch-dependent toolchain name (respectively)!"
     exit 1
 fi

 # Compute source sysroot
 SRC_SYSROOT_INC="$NDK_DIR/platforms/$PLATFORM/arch-$ARCH/usr/include"
 SRC_SYSROOT_LIB="$NDK_DIR/platforms/$PLATFORM/arch-$ARCH/usr/lib"
 if [ ! -d "$SRC_SYSROOT_INC" -o ! -d "$SRC_SYSROOT_LIB" ] ; then
     echo "No platform files ($PLATFORM) for this architecture: $ARCH"
     exit 1
 fi

 # Check that we have any prebuilts GCC toolchain here
 if [ ! -d "$TOOLCHAIN_PATH" ]; then
     echo "Toolchain is missing prebuilt files: $TOOLCHAIN_NAME"
     echo "You must point to a valid NDK release package!"
     exit 1
 fi

 TOOLCHAIN_PATH="$TOOLCHAIN_PATH"
 TOOLCHAIN_GCC=$TOOLCHAIN_PATH/bin/$ABI_CONFIGURE_TARGET-gcc

 if [ ! -f "$TOOLCHAIN_GCC" ] ; then
     echo "Toolchain $TOOLCHAIN_GCC is missing!"
     exit 1
 fi

 if [ "$USE_LLVM" = "yes" ]; then
     LLVM_TOOLCHAIN_PATH="$NDK_DIR/toolchains/llvm/prebuilt/$SYSTEM"
     # Check that we have any prebuilts LLVM toolchain here
     if [ ! -d "$LLVM_TOOLCHAIN_PATH" ] ; then
         echo "LLVM Toolchain is missing prebuilt files"
         echo "You must point to a valid NDK release package!"
         exit 1
     fi
     LLVM_TOOLCHAIN_PATH="$LLVM_TOOLCHAIN_PATH"
 fi

 # Get GCC_BASE_VERSION.  Note that GCC_BASE_VERSION may be slightly different from GCC_VERSION.
 # eg. In gcc4.9 GCC_BASE_VERSION is "4.9.x-google"
 LIBGCC_PATH=`$TOOLCHAIN_GCC -print-libgcc-file-name`
 LIBGCC_BASE_PATH=${LIBGCC_PATH%/*}         # base path of libgcc.a
 GCC_BASE_VERSION=${LIBGCC_BASE_PATH##*/}   # stuff after the last /

 # Create temporary directory
 TMPDIR=$NDK_TMPDIR/standalone/$TOOLCHAIN_NAME

 dump "Copying prebuilt binaries..."
 # Now copy the GCC toolchain prebuilt binaries
 copy_directory "$TOOLCHAIN_PATH" "$TMPDIR"

 # Copy python-related to for gdb.exe
 PYTHON=python
 PYTHON_x=python$(echo "$DEFAULT_PYTHON_VERSION" | cut -d . -f 1)
 PYTHON_xdotx=python$(echo "$DEFAULT_PYTHON_VERSION" | cut -d . -f 1-2)
 copy_directory "$NDK_DIR/prebuilt/$SYSTEM/include/$PYTHON_xdotx" "$TMPDIR/include/$PYTHON_xdotx"
 copy_directory "$NDK_DIR/prebuilt/$SYSTEM/lib/$PYTHON_xdotx" "$TMPDIR/lib/$PYTHON_xdotx"
 copy_file_list "$NDK_DIR/prebuilt/$SYSTEM/bin" "$TMPDIR/bin" "$PYTHON$HOST_EXE" "$PYTHON_x$HOST_EXE" "$PYTHON_xdotx$HOST_EXE"
 if [ "$HOST_TAG32" = "windows" ]; then
   copy_file_list "$NDK_DIR/prebuilt/$SYSTEM/bin" "$TMPDIR/bin" lib$PYTHON_xdotx.dll
 fi

 # Copy yasm for x86
 if [ "$ARCH" = "x86" ]; then
   copy_file_list "$NDK_DIR/prebuilt/$SYSTEM/bin" "$TMPDIR/bin" "yasm$HOST_EXE"
 fi

 # Clang stuff

 if [ "$USE_LLVM" = "yes" ]; then
   # Copy the clang/llvm toolchain prebuilt binaries
   copy_directory "$LLVM_TOOLCHAIN_PATH" "$TMPDIR"

   # Move clang and clang++ to clang${LLVM_VERSION} and clang${LLVM_VERSION}++,
   # then create scripts linking them with predefined -target flag.  This is to
   # make clang/++ easier drop-in replacement for gcc/++ in NDK standalone mode.
   # Note that the file name of "clang" isn't important, and the trailing
   # "++" tells clang to compile in C++ mode
   LLVM_TARGET=
   case "$ARCH" in
       arm)
           # Note: -target may change by clang based on the presence of
           # subsequent -march=armv5te and/or -mthumb.
           LLVM_TARGET=armv7a-none-linux-androideabi
           TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_arm
           ;;
       x86)
           LLVM_TARGET=i686-none-linux-android
           TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_x86
           ;;
       mips)
           LLVM_TARGET=mipsel-none-linux-android
           TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_mips
           ;;
       arm64)
           LLVM_TARGET=aarch64-none-linux-android
           TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_arm64
           ;;
       x86_64)
           LLVM_TARGET=x86_64-none-linux-android
           TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_x86_64
           ;;
       mips64)
           LLVM_TARGET=mips64el-none-linux-android
           TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_mips64
           ;;
       *)
         dump "ERROR: Unsupported NDK architecture $ARCH!"
   esac

   # We need to copy clang and clang++ to some other named binary because clang
   # and clang++ are going to be the shell scripts with the prefilled target. We
   # have the version info available, and that's a typical alternate name (and is
   # what we historically used).
   LLVM_VERSION=$(cat $LLVM_TOOLCHAIN_PATH/AndroidVersion.txt | \
       egrep -o '[[:digit:]]+\.[[:digit:]]')

   # Need to remove '.' from LLVM_VERSION when constructing new clang name,
   # otherwise clang3.3++ may still compile *.c code as C, not C++, which
   # is not consistent with g++
   LLVM_VERSION_WITHOUT_DOT=$(echo "$LLVM_VERSION" | sed -e "s!\.!!")
   mv "$TMPDIR/bin/clang${HOST_EXE}" "$TMPDIR/bin/clang${LLVM_VERSION_WITHOUT_DOT}${HOST_EXE}"
   if [ -h "$TMPDIR/bin/clang++${HOST_EXE}" ] ; then
     ## clang++ is a link to clang.  Remove it and reconstruct
     rm "$TMPDIR/bin/clang++${HOST_EXE}"
     ln -sf "clang${LLVM_VERSION_WITHOUT_DOT}${HOST_EXE}" "$TMPDIR/bin/clang${LLVM_VERSION_WITHOUT_DOT}++${HOST_EXE}"
   else
     mv "$TMPDIR/bin/clang++${HOST_EXE}" "$TMPDIR/bin/clang$LLVM_VERSION_WITHOUT_DOT++${HOST_EXE}"
   fi

   TARGET_FLAG="-target $LLVM_TARGET"
   CLANG_FLAGS="$TARGET_FLAG --sysroot \`dirname \$0\`/../sysroot"

   cat > "$TMPDIR/bin/clang" <<EOF
 #!/bin/bash
 if [ "\$1" != "-cc1" ]; then
     \`dirname \$0\`/clang$LLVM_VERSION_WITHOUT_DOT $CLANG_FLAGS "\$@"
 else
     # target/triple already spelled out.
     \`dirname \$0\`/clang$LLVM_VERSION_WITHOUT_DOT "\$@"
 fi
 EOF
   cat > "$TMPDIR/bin/clang++" <<EOF
 #!/bin/bash
 if [ "\$1" != "-cc1" ]; then
     \`dirname \$0\`/clang$LLVM_VERSION_WITHOUT_DOT++ $CLANG_FLAGS "\$@"
 else
     # target/triple already spelled out.
     \`dirname \$0\`/clang$LLVM_VERSION_WITHOUT_DOT++ "\$@"
 fi
 EOF
   chmod 0755 "$TMPDIR/bin/clang" "$TMPDIR/bin/clang++"
   cp -a "$TMPDIR/bin/clang" "$TMPDIR/bin/$TOOLCHAIN_PREFIX-clang"
   cp -a "$TMPDIR/bin/clang++" "$TMPDIR/bin/$TOOLCHAIN_PREFIX-clang++"

   if [ -n "$HOST_EXE" ] ; then
     CLANG_FLAGS="$TARGET_FLAG --sysroot %~dp0\\..\\sysroot"
     cat > "$TMPDIR/bin/clang.cmd" <<EOF
 @echo off
 if "%1" == "-cc1" goto :L
 %~dp0\\clang${LLVM_VERSION_WITHOUT_DOT}${HOST_EXE} $CLANG_FLAGS %*
 if ERRORLEVEL 1 exit /b 1
 goto :done
 :L
 rem target/triple already spelled out.
 %~dp0\\clang${LLVM_VERSION_WITHOUT_DOT}${HOST_EXE} %*
 if ERRORLEVEL 1 exit /b 1
 :done
 EOF
     cat > "$TMPDIR/bin/clang++.cmd" <<EOF
 @echo off
 if "%1" == "-cc1" goto :L
 %~dp0\\clang${LLVM_VERSION_WITHOUT_DOT}++${HOST_EXE} $CLANG_FLAGS %*
 if ERRORLEVEL 1 exit /b 1
 goto :done
 :L
 rem target/triple already spelled out.
 %~dp0\\clang${LLVM_VERSION_WITHOUT_DOT}++${HOST_EXE} %*
 if ERRORLEVEL 1 exit /b 1
 :done
 EOF
     chmod 0755 "$TMPDIR/bin/clang.cmd" "$TMPDIR/bin/clang++.cmd"
     cp -a "$TMPDIR/bin/clang.cmd" "$TMPDIR/bin/$TOOLCHAIN_PREFIX-clang.cmd"
     cp -a "$TMPDIR/bin/clang++.cmd" "$TMPDIR/bin/$TOOLCHAIN_PREFIX-clang++.cmd"
   fi
 fi

 dump "Copying sysroot headers and libraries..."
 # Copy the sysroot under $TMPDIR/sysroot. The toolchain was built to
 # expect the sysroot files to be placed there!
 copy_directory_nolinks "$SRC_SYSROOT_INC" "$TMPDIR/sysroot/usr/include"
 copy_directory_nolinks "$SRC_SYSROOT_LIB" "$TMPDIR/sysroot/usr/lib"
 case "$ARCH" in
 # x86_64 and mips* toolchain are built multilib.
     x86_64)
         copy_directory_nolinks "$SRC_SYSROOT_LIB/../lib64" "$TMPDIR/sysroot/usr/lib64"
         copy_directory_nolinks "$SRC_SYSROOT_LIB/../libx32" "$TMPDIR/sysroot/usr/libx32"
         ;;
     mips64)
         copy_directory_nolinks "$SRC_SYSROOT_LIB/../libr2" "$TMPDIR/sysroot/usr/libr2"
         copy_directory_nolinks "$SRC_SYSROOT_LIB/../libr6" "$TMPDIR/sysroot/usr/libr6"
         copy_directory_nolinks "$SRC_SYSROOT_LIB/../lib64" "$TMPDIR/sysroot/usr/lib64"
         copy_directory_nolinks "$SRC_SYSROOT_LIB/../lib64r2" "$TMPDIR/sysroot/usr/lib64r2"
         ;;
     mips)
         copy_directory_nolinks "$SRC_SYSROOT_LIB/../libr2" "$TMPDIR/sysroot/usr/libr2"
         copy_directory_nolinks "$SRC_SYSROOT_LIB/../libr6" "$TMPDIR/sysroot/usr/libr6"
         ;;
 esac

 GNUSTL_DIR=$NDK_DIR/$GNUSTL_SUBDIR/4.9
 GNUSTL_LIBS=$GNUSTL_DIR/libs

 STLPORT_DIR=$NDK_DIR/$STLPORT_SUBDIR
 STLPORT_LIBS=$STLPORT_DIR/libs

 LIBCXX_DIR=$NDK_DIR/$LIBCXX_SUBDIR
 LIBCXX_LIBS=$LIBCXX_DIR/libs
 LIBCXX_SUPPORT_LIB=libc++abi

 SUPPORT_DIR=$NDK_DIR/$SUPPORT_SUBDIR

 COMPILER_RT_DIR=$NDK_DIR/$COMPILER_RT_SUBDIR
 COMPILER_RT_LIBS=$COMPILER_RT_DIR/libs

 if [ "$STL" = "libcxx" -o "$STL" = "libc++" ]; then
     dump "Copying c++ runtime headers and libraries (with $LIBCXX_SUPPORT_LIB)..."
 else
     dump "Copying c++ runtime headers and libraries..."
 fi

 ABI_STL="$TMPDIR/$ABI_CONFIGURE_TARGET"
 ABI_STL_INCLUDE="$TMPDIR/include/c++/$GCC_BASE_VERSION"
 ABI_STL_INCLUDE_TARGET="$ABI_STL_INCLUDE/$ABI_CONFIGURE_TARGET"

 # $1: filenames of headers
 copy_abi_headers () {
   local ABI_NAME=$1
   shift

   for header in $@; do
     (set -e; cd $ABI_STL_INCLUDE && cp -a ../../$ABI_NAME/include/$header $header) || exit 1
   done
 }

 # Copy common STL headers (i.e. the non-arch-specific ones)
 copy_stl_common_headers () {
     case $STL in
         gnustl)
             copy_directory "$GNUSTL_DIR/include" "$ABI_STL_INCLUDE"
             ;;
         libcxx|libc++)
             copy_directory "$LIBCXX_DIR/libcxx/include" "$ABI_STL_INCLUDE"
             copy_directory "$SUPPORT_DIR/include" "$ABI_STL_INCLUDE"
             if [ "$LIBCXX_SUPPORT_LIB" = "gabi++" ]; then
                 copy_directory "$STLPORT_DIR/../gabi++/include" "$ABI_STL_INCLUDE/../../gabi++/include"
                 copy_abi_headers gabi++ cxxabi.h unwind.h unwind-arm.h unwind-itanium.h gabixx_config.h
             elif [ "$LIBCXX_SUPPORT_LIB" = "libc++abi" ]; then
                 copy_directory "$LIBCXX_DIR/../llvm-libc++abi/libcxxabi/include" "$ABI_STL_INCLUDE/../../llvm-libc++abi/include"
                 copy_abi_headers llvm-libc++abi cxxabi.h libunwind.h unwind.h
             else
                 dump "ERROR: Unknown libc++ support lib: $LIBCXX_SUPPORT_LIB"
                 exit 1
             fi
             ;;
         stlport)
             copy_directory "$STLPORT_DIR/stlport" "$ABI_STL_INCLUDE"
             copy_directory "$STLPORT_DIR/../gabi++/include" "$ABI_STL_INCLUDE/../../gabi++/include"
             copy_abi_headers gabi++ cxxabi.h unwind.h unwind-arm.h unwind-itanium.h gabixx_config.h
             ;;
     esac
 }

 # $1: Source ABI (e.g. 'armeabi')
 # #2  Optional destination path of additional header to copy (eg. include/bits), default to empty
 # $3: Optional source path of additional additional header to copy, default to empty
 # $4: Optional destination directory, default to empty (e.g. "", "thumb", "armv7-a/thumb")
 # $5: Optional source directory, default to empty (e.g. "", "thumb", "armv7-a/thumb")
 copy_stl_libs () {
     local ABI=$1
     local HEADER_DST=$2
     local HEADER_SRC=$3
     local DEST_DIR=$4
     local SRC_DIR=$5
     local ABI_SRC_DIR=$ABI

     if [ -n "$SRC_DIR" ]; then
         ABI_SRC_DIR=$ABI/$SRC_DIR
     else
         if [ "$DEST_DIR" != "${DEST_DIR%%/*}" ] ; then
             ABI_SRC_DIR=$ABI/`basename $DEST_DIR`
         fi
     fi

     case $STL in
         gnustl)
             if [ "$HEADER_SRC" != "" ]; then
                 copy_directory "$GNUSTL_LIBS/$ABI/include/$HEADER_SRC" "$ABI_STL_INCLUDE_TARGET/$HEADER_DST"
             fi
             copy_file_list "$GNUSTL_LIBS/$ABI_SRC_DIR" "$ABI_STL/lib/$DEST_DIR" "libgnustl_shared.so"
             copy_file_list "$GNUSTL_LIBS/$ABI_SRC_DIR" "$ABI_STL/lib/$DEST_DIR" "libsupc++.a"
             cp -p "$GNUSTL_LIBS/$ABI_SRC_DIR/libgnustl_static.a" "$ABI_STL/lib/$DEST_DIR/libstdc++.a"
             ;;
         libcxx|libc++)
             copy_file_list "$LIBCXX_LIBS/$ABI_SRC_DIR" "$ABI_STL/lib/$DEST_DIR" "libc++_shared.so"
             cp -p "$LIBCXX_LIBS/$ABI_SRC_DIR/libc++_static.a" "$ABI_STL/lib/$DEST_DIR/libstdc++.a"
             ;;
         stlport)
             copy_file_list "$STLPORT_LIBS/$ABI_SRC_DIR" "$ABI_STL/lib/$DEST_DIR" "libstlport_shared.so"
             cp -p "$STLPORT_LIBS/$ABI_SRC_DIR/libstlport_static.a" "$ABI_STL/lib/$DEST_DIR/libstdc++.a"
             ;;
         *)
             dump "ERROR: Unsupported STL: $STL"
             exit 1
             ;;
     esac
 }

 # $1: Source ABI (e.g. 'armeabi')
 copy_stl_libs_for_abi () {
     local ABI=$1

     if [ "$(convert_abi_to_arch "$ABI")" != "$ARCH" ]; then
         dump "ERROR: ABI '$ABI' does not match ARCH '$ARCH'"
         exit 1
     fi

     case $ABI in
         armeabi)
             copy_stl_libs armeabi          "bits"                "bits"
             copy_stl_libs armeabi          "thumb/bits"          "bits"       "/thumb"
             ;;
         armeabi-v7a)
             copy_stl_libs armeabi-v7a      "armv7-a/bits"        "bits"       "armv7-a"
             copy_stl_libs armeabi-v7a      "armv7-a/thumb/bits"  "bits"       "armv7-a/thumb"
             ;;
         armeabi-v7a-hard)
             copy_stl_libs armeabi-v7a-hard ""                    ""           "armv7-a/hard"       "."
             copy_stl_libs armeabi-v7a-hard ""                    ""           "armv7-a/thumb/hard" "thumb"
             ;;
         x86_64)
             if [ "$STL" = "gnustl" ]; then
                 copy_stl_libs x86_64       "32/bits"             "32/bits"    ""                   "lib"
                 copy_stl_libs x86_64       "bits"                "bits"       "../lib64"           "lib64"
                 copy_stl_libs x86_64       "x32/bits"            "x32/bits"   "../libx32"          "libx32"
             else
                 copy_stl_libs x86_64       ""                    ""           "../lib64"           "."
             fi
             ;;
         mips64)
             if [ "$STL" = "gnustl" ]; then
                 copy_stl_libs mips64       "32/mips-r1/bits"     "32/mips-r1/bits"  ""             "lib"
                 copy_stl_libs mips64       "32/mips-r2/bits"     "32/mips-r2/bits"  "../libr2"     "libr2"
                 copy_stl_libs mips64       "32/mips-r6/bits"     "32/mips-r6/bits"  "../libr6"     "libr6"
                 copy_stl_libs mips64       "bits"                "bits"             "../lib64"     "lib64"
             else
                 copy_stl_libs mips64       ""                    ""                 "../lib64"     "."
             fi
             ;;
         mips|mips32r6)
             if [ "$STL" = "gnustl" ]; then
                 copy_stl_libs mips         "bits"                "bits"             "../lib"       "lib"
                 copy_stl_libs mips         "mips-r2/bits"        "mips-r2/bits"     "../libr2"     "libr2"
                 copy_stl_libs mips         "mips-r6/bits"        "mips-r6/bits"     "../libr6"     "libr6"
             else
                 copy_stl_libs mips         "bits"                "bits"
             fi
             ;;
         *)
             copy_stl_libs "$ABI"           "bits"                "bits"
             ;;
     esac
 }

 mkdir -p "$ABI_STL_INCLUDE_TARGET"
 fail_panic "Can't create directory: $ABI_STL_INCLUDE_TARGET"
 copy_stl_common_headers
 for ABI in $(echo "$ABIS" | tr ',' ' '); do
   copy_stl_libs_for_abi "$ABI"
 done

 # Install or Package
 if [ -n "$INSTALL_DIR" ] ; then
     dump "Copying files to: $INSTALL_DIR"
     if [ ! -d "$INSTALL_DIR" ]; then
         move_directory "$TMPDIR" "$INSTALL_DIR"
     else
         copy_directory "$TMPDIR" "$INSTALL_DIR"
     fi
 else
     PACKAGE_FILE="$PACKAGE_DIR/$TOOLCHAIN_NAME.tar.bz2"
     dump "Creating package file: $PACKAGE_FILE"
     pack_archive "$PACKAGE_FILE" "`dirname $TMPDIR`" "$TOOLCHAIN_NAME"
     fail_panic "Could not create tarball from $TMPDIR"
 fi
 dump "Cleaning up..."
 rm -rf $TMPDIR

 dump "Done."
	#!/bin/bash
	# 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.
	#

	# Create a standalone toolchain package for Android.

	. `dirname $0`/prebuilt-common.sh

	PROGRAM_PARAMETERS=""
	PROGRAM_DESCRIPTION=\
	"Generate a customized Android toolchain installation that includes
	a working sysroot. The result is something that can more easily be
	used as a standalone cross-compiler, e.g. to run configure and
	make scripts."

	# For now, this is the only toolchain that works reliably.
	TOOLCHAIN_NAME=
	register_var_option "--toolchain=<name>" TOOLCHAIN_NAME "Specify toolchain name"

	USE_LLVM=no
	do_option_use_llvm ()
	{
	USE_LLVM=yes
	}
	register_option "--use-llvm" do_option_use_llvm "Use LLVM."

	STL=gnustl
	register_var_option "--stl=<name>" STL "Specify C++ STL"

	ARCH=
	register_var_option "--arch=<name>" ARCH "Specify target architecture"

	# Grab the ABIs that match the architecture.
	ABIS=
	register_var_option "--abis=<list>" ABIS "Specify list of target ABIs."

	NDK_DIR=`dirname $0`
	NDK_DIR=`dirname $NDK_DIR`
	NDK_DIR=`dirname $NDK_DIR`
	register_var_option "--ndk-dir=<path>" NDK_DIR "Take source files from NDK at <path>"

	PACKAGE_DIR=$TMPDIR
	register_var_option "--package-dir=<path>" PACKAGE_DIR "Place package file in <path>"

	INSTALL_DIR=
	register_var_option "--install-dir=<path>" INSTALL_DIR "Don't create package, install files to <path> instead."

	PLATFORM=
	register_option "--platform=<name>" do_platform "Specify target Android platform/API level." "android-3"
	do_platform () {
	PLATFORM=$1;
	if [ "$PLATFORM" = "android-L" ]; then
	echo "WARNING: android-L is renamed as android-21"
	PLATFORM=android-21
	fi
	}

	extract_parameters "$@"

	# Check NDK_DIR
	if [ ! -d "$NDK_DIR/build/core" ] ; then
	echo "Invalid source NDK directory: $NDK_DIR"
	echo "Please use --ndk-dir=<path> to specify the path of an installed NDK."
	exit 1
	fi

	# Check TOOLCHAIN_NAME
	ARCH_BY_TOOLCHAIN_NAME=
	if [ -n "$TOOLCHAIN_NAME" ]; then
	case $TOOLCHAIN_NAME in
	arm-*)
	ARCH_BY_TOOLCHAIN_NAME=arm
	;;
	x86-*)
	ARCH_BY_TOOLCHAIN_NAME=x86
	;;
	mipsel-*)
	ARCH_BY_TOOLCHAIN_NAME=mips
	;;
	aarch64-*)
	ARCH_BY_TOOLCHAIN_NAME=arm64
	;;
	x86_64-linux-android-*)
	ARCH_BY_TOOLCHAIN_NAME=x86_64
	TOOLCHAIN_NAME=$(echo "$TOOLCHAIN_NAME" \| sed -e 's/-linux-android//')
	echo "Auto-truncate: --toolchain=$TOOLCHAIN_NAME"
	;;
	x86_64-*)
	ARCH_BY_TOOLCHAIN_NAME=x86_64
	;;
	mips64el-*)
	ARCH_BY_TOOLCHAIN_NAME=mips64
	;;
	*)
	echo "Invalid toolchain $TOOLCHAIN_NAME"
	exit 1
	;;
	esac
	fi
	# Check ARCH
	if [ -z "$ARCH" ]; then
	ARCH=$ARCH_BY_TOOLCHAIN_NAME
	if [ -z "$ARCH" ]; then
	ARCH=arm
	fi
	echo "Auto-config: --arch=$ARCH"
	fi

	if [ -z "$ABIS" ]; then
	ABIS=$(convert_arch_to_abi $ARCH)
	fi

	if [ -z "$ABIS" ]; then
	dump "ERROR: No ABIS. Possibly unsupported NDK architecture $ARCH?"
	exit 1
	fi

	# Check toolchain name
	if [ -z "$TOOLCHAIN_NAME" ]; then
	TOOLCHAIN_NAME=$(get_default_toolchain_name_for_arch $ARCH)
	echo "Auto-config: --toolchain=$TOOLCHAIN_NAME"
	fi

	# Detect LLVM version from toolchain name with clang
	TOOLCHAIN_LLVM=$(echo "$TOOLCHAIN_NAME" \| grep clang)
	if [ -n "$TOOLCHAIN_LLVM" ]; then
	USE_LLVM=yes
	DEFAULT_GCC_VERSION=$(get_default_gcc_version_for_arch $ARCH)
	NEW_TOOLCHAIN_NAME=${TOOLCHAIN_NAME%-clang}-${DEFAULT_GCC_VERSION}
	TOOLCHAIN_NAME=$NEW_TOOLCHAIN_NAME
	fi

	# Check PLATFORM
	if [ -z "$PLATFORM" ] ; then
	case $ARCH in
	arm) PLATFORM=android-3
	;;
	x86\|mips)
	PLATFORM=android-9
	;;
	arm64\|x86_64\|mips64)
	PLATFORM=android-$FIRST_API64_LEVEL
	;;
	*)
	dump "ERROR: Unsupported NDK architecture $ARCH!"
	esac
	echo "Auto-config: --platform=$PLATFORM"
	fi

	if [ ! -d "$NDK_DIR/platforms/$PLATFORM" ] ; then
	echo "Invalid platform name: $PLATFORM"
	echo "Please use --platform=<name> with one of:" `(cd "$NDK_DIR/platforms" && ls)`
	exit 1
	fi

	if [ -d "$NDK_DIR/prebuilt/$HOST_TAG" ]; then
	SYSTEM=$HOST_TAG
	else
	SYSTEM=$HOST_TAG32
	fi

	# Check toolchain name
	TOOLCHAIN_PATH="$NDK_DIR/toolchains/$TOOLCHAIN_NAME/prebuilt/$SYSTEM"
	if [ ! -d "$TOOLCHAIN_PATH" ] ; then
	echo "Could not find toolchain: $TOOLCHAIN_PATH"
	echo "Please use --toolchain=<name> with the name of a toolchain supported by the source NDK."
	echo "Try one of: " `(cd "$NDK_DIR/toolchains" && ls)`
	exit 1
	fi

	# Extract architecture from platform name
	parse_toolchain_name $TOOLCHAIN_NAME

	case "$TOOLCHAIN_NAME" in
	*4.9l)
	GCC_VERSION=4.9l
	;;
	*4.8l)
	GCC_VERSION=4.8l
	;;
	esac

	# Check that there are any platform files for it!
	(cd $NDK_DIR/platforms && ls -d */arch-$ARCH >/dev/null 2>&1 )
	if [ $? != 0 ] ; then
	echo "Platform $PLATFORM doesn't have any files for this architecture: $ARCH"
	echo "Either use --platform=<name> or --toolchain=<name> to select a different"
	echo "platform or arch-dependent toolchain name (respectively)!"
	exit 1
	fi

	# Compute source sysroot
	SRC_SYSROOT_INC="$NDK_DIR/platforms/$PLATFORM/arch-$ARCH/usr/include"
	SRC_SYSROOT_LIB="$NDK_DIR/platforms/$PLATFORM/arch-$ARCH/usr/lib"
	if [ ! -d "$SRC_SYSROOT_INC" -o ! -d "$SRC_SYSROOT_LIB" ] ; then
	echo "No platform files ($PLATFORM) for this architecture: $ARCH"
	exit 1
	fi

	# Check that we have any prebuilts GCC toolchain here
	if [ ! -d "$TOOLCHAIN_PATH" ]; then
	echo "Toolchain is missing prebuilt files: $TOOLCHAIN_NAME"
	echo "You must point to a valid NDK release package!"
	exit 1
	fi

	TOOLCHAIN_PATH="$TOOLCHAIN_PATH"
	TOOLCHAIN_GCC=$TOOLCHAIN_PATH/bin/$ABI_CONFIGURE_TARGET-gcc

	if [ ! -f "$TOOLCHAIN_GCC" ] ; then
	echo "Toolchain $TOOLCHAIN_GCC is missing!"
	exit 1
	fi

	if [ "$USE_LLVM" = "yes" ]; then
	LLVM_TOOLCHAIN_PATH="$NDK_DIR/toolchains/llvm/prebuilt/$SYSTEM"
	# Check that we have any prebuilts LLVM toolchain here
	if [ ! -d "$LLVM_TOOLCHAIN_PATH" ] ; then
	echo "LLVM Toolchain is missing prebuilt files"
	echo "You must point to a valid NDK release package!"
	exit 1
	fi
	LLVM_TOOLCHAIN_PATH="$LLVM_TOOLCHAIN_PATH"
	fi

	# Get GCC_BASE_VERSION. Note that GCC_BASE_VERSION may be slightly different from GCC_VERSION.
	# eg. In gcc4.9 GCC_BASE_VERSION is "4.9.x-google"
	LIBGCC_PATH=`$TOOLCHAIN_GCC -print-libgcc-file-name`
	LIBGCC_BASE_PATH=${LIBGCC_PATH%/*} # base path of libgcc.a
	GCC_BASE_VERSION=${LIBGCC_BASE_PATH##*/} # stuff after the last /

	# Create temporary directory
	TMPDIR=$NDK_TMPDIR/standalone/$TOOLCHAIN_NAME

	dump "Copying prebuilt binaries..."
	# Now copy the GCC toolchain prebuilt binaries
	copy_directory "$TOOLCHAIN_PATH" "$TMPDIR"

	# Copy python-related to for gdb.exe
	PYTHON=python
	PYTHON_x=python$(echo "$DEFAULT_PYTHON_VERSION" \| cut -d . -f 1)
	PYTHON_xdotx=python$(echo "$DEFAULT_PYTHON_VERSION" \| cut -d . -f 1-2)
	copy_directory "$NDK_DIR/prebuilt/$SYSTEM/include/$PYTHON_xdotx" "$TMPDIR/include/$PYTHON_xdotx"
	copy_directory "$NDK_DIR/prebuilt/$SYSTEM/lib/$PYTHON_xdotx" "$TMPDIR/lib/$PYTHON_xdotx"
	copy_file_list "$NDK_DIR/prebuilt/$SYSTEM/bin" "$TMPDIR/bin" "$PYTHON$HOST_EXE" "$PYTHON_x$HOST_EXE" "$PYTHON_xdotx$HOST_EXE"
	if [ "$HOST_TAG32" = "windows" ]; then
	copy_file_list "$NDK_DIR/prebuilt/$SYSTEM/bin" "$TMPDIR/bin" lib$PYTHON_xdotx.dll
	fi

	# Copy yasm for x86
	if [ "$ARCH" = "x86" ]; then
	copy_file_list "$NDK_DIR/prebuilt/$SYSTEM/bin" "$TMPDIR/bin" "yasm$HOST_EXE"
	fi

	# Clang stuff

	if [ "$USE_LLVM" = "yes" ]; then
	# Copy the clang/llvm toolchain prebuilt binaries
	copy_directory "$LLVM_TOOLCHAIN_PATH" "$TMPDIR"

	# Move clang and clang++ to clang${LLVM_VERSION} and clang${LLVM_VERSION}++,
	# then create scripts linking them with predefined -target flag. This is to
	# make clang/++ easier drop-in replacement for gcc/++ in NDK standalone mode.
	# Note that the file name of "clang" isn't important, and the trailing
	# "++" tells clang to compile in C++ mode
	LLVM_TARGET=
	case "$ARCH" in
	arm)
	# Note: -target may change by clang based on the presence of
	# subsequent -march=armv5te and/or -mthumb.
	LLVM_TARGET=armv7a-none-linux-androideabi
	TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_arm
	;;
	x86)
	LLVM_TARGET=i686-none-linux-android
	TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_x86
	;;
	mips)
	LLVM_TARGET=mipsel-none-linux-android
	TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_mips
	;;
	arm64)
	LLVM_TARGET=aarch64-none-linux-android
	TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_arm64
	;;
	x86_64)
	LLVM_TARGET=x86_64-none-linux-android
	TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_x86_64
	;;
	mips64)
	LLVM_TARGET=mips64el-none-linux-android
	TOOLCHAIN_PREFIX=$DEFAULT_ARCH_TOOLCHAIN_PREFIX_mips64
	;;
	*)
	dump "ERROR: Unsupported NDK architecture $ARCH!"
	esac

	# We need to copy clang and clang++ to some other named binary because clang
	# and clang++ are going to be the shell scripts with the prefilled target. We
	# have the version info available, and that's a typical alternate name (and is
	# what we historically used).
	LLVM_VERSION=$(cat $LLVM_TOOLCHAIN_PATH/AndroidVersion.txt \| \
	egrep -o '[[:digit:]]+\.[[:digit:]]')

	# Need to remove '.' from LLVM_VERSION when constructing new clang name,
	# otherwise clang3.3++ may still compile *.c code as C, not C++, which
	# is not consistent with g++
	LLVM_VERSION_WITHOUT_DOT=$(echo "$LLVM_VERSION" \| sed -e "s!\.!!")
	mv "$TMPDIR/bin/clang${HOST_EXE}" "$TMPDIR/bin/clang${LLVM_VERSION_WITHOUT_DOT}${HOST_EXE}"
	if [ -h "$TMPDIR/bin/clang++${HOST_EXE}" ] ; then
	## clang++ is a link to clang. Remove it and reconstruct
	rm "$TMPDIR/bin/clang++${HOST_EXE}"
	ln -sf "clang${LLVM_VERSION_WITHOUT_DOT}${HOST_EXE}" "$TMPDIR/bin/clang${LLVM_VERSION_WITHOUT_DOT}++${HOST_EXE}"
	else
	mv "$TMPDIR/bin/clang++${HOST_EXE}" "$TMPDIR/bin/clang$LLVM_VERSION_WITHOUT_DOT++${HOST_EXE}"
	fi

	TARGET_FLAG="-target $LLVM_TARGET"
	CLANG_FLAGS="$TARGET_FLAG --sysroot \`dirname \$0\`/../sysroot"

	cat > "$TMPDIR/bin/clang" <<EOF
	#!/bin/bash
	if [ "\$1" != "-cc1" ]; then
	\`dirname \$0\`/clang$LLVM_VERSION_WITHOUT_DOT $CLANG_FLAGS "\$@"
	else
	# target/triple already spelled out.
	\`dirname \$0\`/clang$LLVM_VERSION_WITHOUT_DOT "\$@"
	fi
	EOF
	cat > "$TMPDIR/bin/clang++" <<EOF
	#!/bin/bash
	if [ "\$1" != "-cc1" ]; then
	\`dirname \$0\`/clang$LLVM_VERSION_WITHOUT_DOT++ $CLANG_FLAGS "\$@"
	else
	# target/triple already spelled out.
	\`dirname \$0\`/clang$LLVM_VERSION_WITHOUT_DOT++ "\$@"
	fi
	EOF
	chmod 0755 "$TMPDIR/bin/clang" "$TMPDIR/bin/clang++"
	cp -a "$TMPDIR/bin/clang" "$TMPDIR/bin/$TOOLCHAIN_PREFIX-clang"
	cp -a "$TMPDIR/bin/clang++" "$TMPDIR/bin/$TOOLCHAIN_PREFIX-clang++"

	if [ -n "$HOST_EXE" ] ; then
	CLANG_FLAGS="$TARGET_FLAG --sysroot %~dp0\\..\\sysroot"
	cat > "$TMPDIR/bin/clang.cmd" <<EOF
	@echo off
	if "%1" == "-cc1" goto :L
	%~dp0\\clang${LLVM_VERSION_WITHOUT_DOT}${HOST_EXE} $CLANG_FLAGS %*
	if ERRORLEVEL 1 exit /b 1
	goto :done
	:L
	rem target/triple already spelled out.
	%~dp0\\clang${LLVM_VERSION_WITHOUT_DOT}${HOST_EXE} %*
	if ERRORLEVEL 1 exit /b 1
	:done
	EOF
	cat > "$TMPDIR/bin/clang++.cmd" <<EOF
	@echo off
	if "%1" == "-cc1" goto :L
	%~dp0\\clang${LLVM_VERSION_WITHOUT_DOT}++${HOST_EXE} $CLANG_FLAGS %*
	if ERRORLEVEL 1 exit /b 1
	goto :done
	:L
	rem target/triple already spelled out.
	%~dp0\\clang${LLVM_VERSION_WITHOUT_DOT}++${HOST_EXE} %*
	if ERRORLEVEL 1 exit /b 1
	:done
	EOF
	chmod 0755 "$TMPDIR/bin/clang.cmd" "$TMPDIR/bin/clang++.cmd"
	cp -a "$TMPDIR/bin/clang.cmd" "$TMPDIR/bin/$TOOLCHAIN_PREFIX-clang.cmd"
	cp -a "$TMPDIR/bin/clang++.cmd" "$TMPDIR/bin/$TOOLCHAIN_PREFIX-clang++.cmd"
	fi
	fi

	dump "Copying sysroot headers and libraries..."
	# Copy the sysroot under $TMPDIR/sysroot. The toolchain was built to
	# expect the sysroot files to be placed there!
	copy_directory_nolinks "$SRC_SYSROOT_INC" "$TMPDIR/sysroot/usr/include"
	copy_directory_nolinks "$SRC_SYSROOT_LIB" "$TMPDIR/sysroot/usr/lib"
	case "$ARCH" in
	# x86_64 and mips* toolchain are built multilib.
	x86_64)
	copy_directory_nolinks "$SRC_SYSROOT_LIB/../lib64" "$TMPDIR/sysroot/usr/lib64"
	copy_directory_nolinks "$SRC_SYSROOT_LIB/../libx32" "$TMPDIR/sysroot/usr/libx32"
	;;
	mips64)
	copy_directory_nolinks "$SRC_SYSROOT_LIB/../libr2" "$TMPDIR/sysroot/usr/libr2"
	copy_directory_nolinks "$SRC_SYSROOT_LIB/../libr6" "$TMPDIR/sysroot/usr/libr6"
	copy_directory_nolinks "$SRC_SYSROOT_LIB/../lib64" "$TMPDIR/sysroot/usr/lib64"
	copy_directory_nolinks "$SRC_SYSROOT_LIB/../lib64r2" "$TMPDIR/sysroot/usr/lib64r2"
	;;
	mips)
	copy_directory_nolinks "$SRC_SYSROOT_LIB/../libr2" "$TMPDIR/sysroot/usr/libr2"
	copy_directory_nolinks "$SRC_SYSROOT_LIB/../libr6" "$TMPDIR/sysroot/usr/libr6"
	;;
	esac

	GNUSTL_DIR=$NDK_DIR/$GNUSTL_SUBDIR/4.9
	GNUSTL_LIBS=$GNUSTL_DIR/libs

	STLPORT_DIR=$NDK_DIR/$STLPORT_SUBDIR
	STLPORT_LIBS=$STLPORT_DIR/libs

	LIBCXX_DIR=$NDK_DIR/$LIBCXX_SUBDIR
	LIBCXX_LIBS=$LIBCXX_DIR/libs
	LIBCXX_SUPPORT_LIB=libc++abi

	SUPPORT_DIR=$NDK_DIR/$SUPPORT_SUBDIR

	COMPILER_RT_DIR=$NDK_DIR/$COMPILER_RT_SUBDIR
	COMPILER_RT_LIBS=$COMPILER_RT_DIR/libs

	if [ "$STL" = "libcxx" -o "$STL" = "libc++" ]; then
	dump "Copying c++ runtime headers and libraries (with $LIBCXX_SUPPORT_LIB)..."
	else
	dump "Copying c++ runtime headers and libraries..."
	fi

	ABI_STL="$TMPDIR/$ABI_CONFIGURE_TARGET"
	ABI_STL_INCLUDE="$TMPDIR/include/c++/$GCC_BASE_VERSION"
	ABI_STL_INCLUDE_TARGET="$ABI_STL_INCLUDE/$ABI_CONFIGURE_TARGET"

	# $1: filenames of headers
	copy_abi_headers () {
	local ABI_NAME=$1
	shift

	for header in $@; do
	(set -e; cd $ABI_STL_INCLUDE && cp -a ../../$ABI_NAME/include/$header $header) \|\| exit 1
	done
	}

	# Copy common STL headers (i.e. the non-arch-specific ones)
	copy_stl_common_headers () {
	case $STL in
	gnustl)
	copy_directory "$GNUSTL_DIR/include" "$ABI_STL_INCLUDE"
	;;
	libcxx\|libc++)
	copy_directory "$LIBCXX_DIR/libcxx/include" "$ABI_STL_INCLUDE"
	copy_directory "$SUPPORT_DIR/include" "$ABI_STL_INCLUDE"
	if [ "$LIBCXX_SUPPORT_LIB" = "gabi++" ]; then
	copy_directory "$STLPORT_DIR/../gabi++/include" "$ABI_STL_INCLUDE/../../gabi++/include"
	copy_abi_headers gabi++ cxxabi.h unwind.h unwind-arm.h unwind-itanium.h gabixx_config.h
	elif [ "$LIBCXX_SUPPORT_LIB" = "libc++abi" ]; then
	copy_directory "$LIBCXX_DIR/../llvm-libc++abi/libcxxabi/include" "$ABI_STL_INCLUDE/../../llvm-libc++abi/include"
	copy_abi_headers llvm-libc++abi cxxabi.h libunwind.h unwind.h
	else
	dump "ERROR: Unknown libc++ support lib: $LIBCXX_SUPPORT_LIB"
	exit 1
	fi
	;;
	stlport)
	copy_directory "$STLPORT_DIR/stlport" "$ABI_STL_INCLUDE"
	copy_directory "$STLPORT_DIR/../gabi++/include" "$ABI_STL_INCLUDE/../../gabi++/include"
	copy_abi_headers gabi++ cxxabi.h unwind.h unwind-arm.h unwind-itanium.h gabixx_config.h
	;;
	esac
	}

	# $1: Source ABI (e.g. 'armeabi')
	# #2 Optional destination path of additional header to copy (eg. include/bits), default to empty
	# $3: Optional source path of additional additional header to copy, default to empty
	# $4: Optional destination directory, default to empty (e.g. "", "thumb", "armv7-a/thumb")
	# $5: Optional source directory, default to empty (e.g. "", "thumb", "armv7-a/thumb")
	copy_stl_libs () {
	local ABI=$1
	local HEADER_DST=$2
	local HEADER_SRC=$3
	local DEST_DIR=$4
	local SRC_DIR=$5
	local ABI_SRC_DIR=$ABI

	if [ -n "$SRC_DIR" ]; then
	ABI_SRC_DIR=$ABI/$SRC_DIR
	else
	if [ "$DEST_DIR" != "${DEST_DIR%%/*}" ] ; then
	ABI_SRC_DIR=$ABI/`basename $DEST_DIR`
	fi
	fi

	case $STL in
	gnustl)
	if [ "$HEADER_SRC" != "" ]; then
	copy_directory "$GNUSTL_LIBS/$ABI/include/$HEADER_SRC" "$ABI_STL_INCLUDE_TARGET/$HEADER_DST"
	fi
	copy_file_list "$GNUSTL_LIBS/$ABI_SRC_DIR" "$ABI_STL/lib/$DEST_DIR" "libgnustl_shared.so"
	copy_file_list "$GNUSTL_LIBS/$ABI_SRC_DIR" "$ABI_STL/lib/$DEST_DIR" "libsupc++.a"
	cp -p "$GNUSTL_LIBS/$ABI_SRC_DIR/libgnustl_static.a" "$ABI_STL/lib/$DEST_DIR/libstdc++.a"
	;;
	libcxx\|libc++)
	copy_file_list "$LIBCXX_LIBS/$ABI_SRC_DIR" "$ABI_STL/lib/$DEST_DIR" "libc++_shared.so"
	cp -p "$LIBCXX_LIBS/$ABI_SRC_DIR/libc++_static.a" "$ABI_STL/lib/$DEST_DIR/libstdc++.a"
	;;
	stlport)
	copy_file_list "$STLPORT_LIBS/$ABI_SRC_DIR" "$ABI_STL/lib/$DEST_DIR" "libstlport_shared.so"
	cp -p "$STLPORT_LIBS/$ABI_SRC_DIR/libstlport_static.a" "$ABI_STL/lib/$DEST_DIR/libstdc++.a"
	;;
	*)
	dump "ERROR: Unsupported STL: $STL"
	exit 1
	;;
	esac
	}

	# $1: Source ABI (e.g. 'armeabi')
	copy_stl_libs_for_abi () {
	local ABI=$1

	if [ "$(convert_abi_to_arch "$ABI")" != "$ARCH" ]; then
	dump "ERROR: ABI '$ABI' does not match ARCH '$ARCH'"
	exit 1
	fi

	case $ABI in
	armeabi)
	copy_stl_libs armeabi "bits" "bits"
	copy_stl_libs armeabi "thumb/bits" "bits" "/thumb"
	;;
	armeabi-v7a)
	copy_stl_libs armeabi-v7a "armv7-a/bits" "bits" "armv7-a"
	copy_stl_libs armeabi-v7a "armv7-a/thumb/bits" "bits" "armv7-a/thumb"
	;;
	armeabi-v7a-hard)
	copy_stl_libs armeabi-v7a-hard "" "" "armv7-a/hard" "."
	copy_stl_libs armeabi-v7a-hard "" "" "armv7-a/thumb/hard" "thumb"
	;;
	x86_64)
	if [ "$STL" = "gnustl" ]; then
	copy_stl_libs x86_64 "32/bits" "32/bits" "" "lib"
	copy_stl_libs x86_64 "bits" "bits" "../lib64" "lib64"
	copy_stl_libs x86_64 "x32/bits" "x32/bits" "../libx32" "libx32"
	else
	copy_stl_libs x86_64 "" "" "../lib64" "."
	fi
	;;
	mips64)
	if [ "$STL" = "gnustl" ]; then
	copy_stl_libs mips64 "32/mips-r1/bits" "32/mips-r1/bits" "" "lib"
	copy_stl_libs mips64 "32/mips-r2/bits" "32/mips-r2/bits" "../libr2" "libr2"
	copy_stl_libs mips64 "32/mips-r6/bits" "32/mips-r6/bits" "../libr6" "libr6"
	copy_stl_libs mips64 "bits" "bits" "../lib64" "lib64"
	else
	copy_stl_libs mips64 "" "" "../lib64" "."
	fi
	;;
	mips\|mips32r6)
	if [ "$STL" = "gnustl" ]; then
	copy_stl_libs mips "bits" "bits" "../lib" "lib"
	copy_stl_libs mips "mips-r2/bits" "mips-r2/bits" "../libr2" "libr2"
	copy_stl_libs mips "mips-r6/bits" "mips-r6/bits" "../libr6" "libr6"
	else
	copy_stl_libs mips "bits" "bits"
	fi
	;;
	*)
	copy_stl_libs "$ABI" "bits" "bits"
	;;
	esac
	}

	mkdir -p "$ABI_STL_INCLUDE_TARGET"
	fail_panic "Can't create directory: $ABI_STL_INCLUDE_TARGET"
	copy_stl_common_headers
	for ABI in $(echo "$ABIS" \| tr ',' ' '); do
	copy_stl_libs_for_abi "$ABI"
	done

	# Install or Package
	if [ -n "$INSTALL_DIR" ] ; then
	dump "Copying files to: $INSTALL_DIR"
	if [ ! -d "$INSTALL_DIR" ]; then
	move_directory "$TMPDIR" "$INSTALL_DIR"
	else
	copy_directory "$TMPDIR" "$INSTALL_DIR"
	fi
	else
	PACKAGE_FILE="$PACKAGE_DIR/$TOOLCHAIN_NAME.tar.bz2"
	dump "Creating package file: $PACKAGE_FILE"
	pack_archive "$PACKAGE_FILE" "`dirname $TMPDIR`" "$TOOLCHAIN_NAME"
	fail_panic "Could not create tarball from $TMPDIR"
	fi
	dump "Cleaning up..."
	rm -rf $TMPDIR

	dump "Done."