#!/bin/sh
#
# Copyright (C) 2009-2010 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 script is used to package complete Android NDK release packages.
#
# You will need prebuilt toolchain binary tarballs or a previous
# NDK release package to do that.
#
# See make-release.sh if you want to make a new release completely from
# scratch.
#
. `dirname $0`/prebuilt-common.sh
NDK_ROOT_DIR="$ANDROID_NDK_ROOT"
# the list of platforms / API levels we want to package in
# this release. This can be overriden with the --platforms
# option, see below.
#
PLATFORMS="$API_LEVELS"
# the default release name (use today's date)
RELEASE=`date +%Y%m%d`
register_var_option "--release=<name>" RELEASE "Specify release name"
# the directory containing all prebuilts
PREBUILT_DIR=
register_var_option "--prebuilt-dir=<path>" PREBUILT_DIR "Specify prebuilt directory"
# a prebuilt NDK archive (.zip file). empty means don't use any
PREBUILT_NDK=
register_var_option "--prebuilt-ndk=<file>" PREBUILT_NDK "Specify prebuilt ndk package"
# the list of supported host development systems
SYSTEMS=$DEFAULT_SYSTEMS
register_var_option "--systems=<list>" SYSTEMS "Specify host systems"
# ARCH to build for
ARCHS=$(find_ndk_unknown_archs)
ARCHS="$DEFAULT_ARCHS $ARCHS"
register_var_option "--arch=<arch>" ARCHS "Specify target architecture(s)"
# set to 'yes' if we should use 'git ls-files' to list the files to
# be copied into the archive.
NO_GIT=no
register_var_option "--no-git" NO_GIT "Don't use git to list input files, take all of them."
# set of toolchain prebuilts we need to package
TOOLCHAINS=$(get_toolchain_name_list_for_arch arm)
OPTION_TOOLCHAINS=$TOOLCHAINS
register_var_option "--toolchains=<list>" OPTION_TOOLCHAINS "Specify list of toolchains."
# set of platforms to package (all by default)
register_var_option "--platforms=<list>" PLATFORMS "Specify API levels"
# the package prefix
PREFIX=android-ndk
register_var_option "--prefix=<name>" PREFIX "Specify package prefix"
# default location for generated packages
OUT_DIR=/tmp/ndk-$USER/release
OPTION_OUT_DIR=
register_var_option "--out-dir=<path>" OPTION_OUT_DIR "Specify output package directory" "$OUT_DIR"
# Find the location of the platforms root directory
DEVELOPMENT_ROOT=`dirname $ANDROID_NDK_ROOT`/development/ndk
register_var_option "--development-root=<path>" DEVELOPMENT_ROOT "Specify platforms/samples directory"
LLVM_VERSION_LIST=$DEFAULT_LLVM_VERSION_LIST
register_var_option "--llvm=<versions>" LLVM_VERSION_LIST "List of LLVM release versions"
WITH_LIBCXX=
register_var_option "--with-libcxx" WITH_LIBCXX "Package experimental Libc++ sources"
register_try64_option
SEPARATE_64=no
register_option "--separate-64" do_SEPARATE_64 "Separate 64-bit host toolchain to its own package"
do_SEPARATE_64 ()
{
if [ "$TRY64" = "yes" ]; then
echo "ERROR: You cannot use both --try-64 and --separate-64 at the same time."
exit 1
fi
SEPARATE_64=yes;
}
PROGRAM_PARAMETERS=
PROGRAM_DESCRIPTION=\
"Package a new set of release packages for the Android NDK.
You will need to have generated one or more prebuilt binary tarballs
with the build/tools/rebuild-all-prebuilts.sh script. These files should
be named like <toolname>-<system>.tar.bz2, where <toolname> is an arbitrary
tool name, and <system> is one of: $SYSTEMS
Use the --prebuilt-dir=<path> option to build release packages from the
binary tarballs stored in <path>.
Alternatively, you can use --prebuilt-ndk=<file> where <file> is the path
to a previous NDK release package. It will be used to extract the toolchain
binaries and copy them to your new release. Only use this for experimental
package releases.
The generated release packages will be stored in a temporary directory that
will be printed at the end of the generation process.
"
extract_parameters "$@"
# Ensure that SYSTEMS is space-separated
SYSTEMS=$(commas_to_spaces $SYSTEMS)
# Detect unknown archs
ARCHS=$(commas_to_spaces $ARCHS)
UNKNOWN_ARCH=$(filter_out "$DEFAULT_ARCHS" "$ARCHS")
if [ ! -z "$UNKNOWN_ARCH" ]; then
ARCHS=$(filter_out "$UNKNOWN_ARCH" "$ARCHS")
fi
# Do we need to support x86?
echo "$ARCHS" | tr ' ' '\n' | grep -q x86
if [ $? = 0 ] ; then
TRY_X86=yes
else
TRY_X86=no
fi
# Do we need to support mips?
echo "$ARCHS" | tr ' ' '\n' | grep -q mips
if [ $? = 0 ] ; then
TRY_mips=yes
else
TRY_mips=no
fi
# Compute ABIS from ARCHS
ABIS=
for ARCH in $ARCHS; do
DEFAULT_ABIS=$(get_default_abis_for_arch $ARCH)
if [ -z "$ABIS" ]; then
ABIS=$DEFAULT_ABIS
else
ABIS=$ABIS" $DEFAULT_ABIS"
fi
done
UNKNOWN_ABIS=$(convert_archs_to_abis $UNKNOWN_ARCH)
# Convert comma-separated list to space-separated list
LLVM_VERSION_LIST=$(commas_to_spaces $LLVM_VERSION_LIST)
# If --arch is used to list x86 as a target architecture, Add x86-4.6 to
# the list of default toolchains to package. That is, unless you also
# explicitely use --toolchains=<list>
#
# Ensure that TOOLCHAINS is space-separated after this.
#
if [ "$OPTION_TOOLCHAINS" != "$TOOLCHAINS" ]; then
TOOLCHAINS=$(commas_to_spaces $OPTION_TOOLCHAINS)
else
if [ "$TRY_X86" = "yes" ]; then
TOOLCHAINS=$TOOLCHAINS" "$(get_toolchain_name_list_for_arch x86)
fi
if [ "$TRY_mips" = "yes" ]; then
TOOLCHAINS=$TOOLCHAINS" "$(get_toolchain_name_list_for_arch mips)
fi
TOOLCHAINS=$(commas_to_spaces $TOOLCHAINS)
fi
# Check the prebuilt path
#
if [ -n "$PREBUILT_NDK" -a -n "$PREBUILT_DIR" ] ; then
echo "ERROR: You cannot use both --prebuilt-ndk and --prebuilt-dir at the same time."
exit 1
fi
if [ -z "$PREBUILT_DIR" -a -z "$PREBUILT_NDK" ] ; then
echo "ERROR: You must use one of --prebuilt-dir or --prebuilt-ndk. See --help for details."
exit 1
fi
# Check the option directory.
if [ -n "$OPTION_OUT_DIR" ] ; then
OUT_DIR="$OPTION_OUT_DIR"
mkdir -p $OUT_DIR
if [ $? != 0 ] ; then
echo "ERROR: Could not create output directory: $OUT_DIR"
exit 1
fi
else
rm -rf $OUT_DIR && mkdir -p $OUT_DIR
fi
# Handle the prebuilt binaries now
#
if [ -n "$PREBUILT_DIR" ] ; then
if [ ! -d "$PREBUILT_DIR" ] ; then
echo "ERROR: the --prebuilt-dir argument is not a directory: $PREBUILT_DIR"
exit 1
fi
if [ -z "$SYSTEMS" ] ; then
echo "ERROR: Your systems list is empty, use --systems=LIST to specify a different one."
exit 1
fi
else
if [ ! -f "$PREBUILT_NDK" ] ; then
echo "ERROR: the --prebuilt-ndk argument is not a file: $PREBUILT_NDK"
exit 1
fi
# Check that the name ends with the proper host tag
HOST_NDK_SUFFIX="$HOST_TAG.zip"
echo "$PREBUILT_NDK" | grep -q "$HOST_NDK_SUFFIX"
fail_panic "The name of the prebuilt NDK must end in $HOST_NDK_SUFFIX"
SYSTEMS=$HOST_TAG
fi
echo "Architectures: $ARCHS"
echo "CPU ABIs: $ABIS"
echo "Toolchains: $TOOLCHAINS"
echo "Host systems: $SYSTEMS"
# The list of git files to copy into the archives
if [ "$NO_GIT" != "yes" ] ; then
echo "Collecting sources from git (use --no-git to copy all files instead)."
GIT_FILES=`cd $NDK_ROOT_DIR && git ls-files`
else
echo "Collecting all sources files under tree."
# Cleanup everything that is likely to not be part of the final NDK
# i.e. generated files...
rm -rf $NDK_ROOT_DIR/samples/*/obj
rm -rf $NDK_ROOT_DIR/samples/*/libs
# Get all files under the NDK root
GIT_FILES=`cd $NDK_ROOT_DIR && find .`
GIT_FILES=`echo $GIT_FILES | sed -e "s!\./!!g"`
fi
# temporary directory used for packaging
TMPDIR=$NDK_TMPDIR
RELEASE_PREFIX=$PREFIX-$RELEASE
# ensure that the generated files are ug+rx
umask 0022
# Translate name to 64-bit's counterpart
# $1: prebuilt name
name64 ()
{
local NAME=$1
case $NAME in
*windows)
NAME=${NAME}-x86_64
;;
*linux-x86|*darwin-x86)
NAME=${NAME}_64
;;
esac
echo $NAME
}
# Unpack a prebuilt into specified destination directory
# $1: prebuilt name, relative to $PREBUILT_DIR
# $2: destination directory
# $3: optional destination directory for 64-bit toolchain
# $4: optional flag to use 32-bit prebuilt in place of 64-bit
unpack_prebuilt ()
{
local PREBUILT=
local PREBUILT64=null
local DDIR="$2"
local DDIR64="${3:-$DDIR}"
local USE32="${4:-no}"
if [ "$TRY64" = "yes" -a "$USE32" = "no" ]; then
PREBUILT=`name64 $1`
else
PREBUILT=$1
PREBUILT64=`name64 $1`
fi
PREBUILT=${PREBUILT}.tar.bz2
PREBUILT64=${PREBUILT64}.tar.bz2
echo "Unpacking $PREBUILT"
if [ -f "$PREBUILT_DIR/$PREBUILT" ] ; then
unpack_archive "$PREBUILT_DIR/$PREBUILT" "$DDIR"
fail_panic "Could not unpack prebuilt $PREBUILT. Aborting."
if [ -f "$PREBUILT_DIR/$PREBUILT64" ] ; then
echo "Unpacking $PREBUILT64"
unpack_archive "$PREBUILT_DIR/$PREBUILT64" "$DDIR64"
fail_panic "Could not unpack prebuilt $PREBUILT64. Aborting."
fi
else
echo "WARNING: Could not find $PREBUILT in $PREBUILT_DIR"
fi
}
# Copy a prebuilt directory from the previous
# $1: Source directory relative to
copy_prebuilt ()
{
local SUBDIR="$1"
if [ -d "$1" ] ; then
echo "Copying: $SUBDIR"
copy_directory "$SUBDIR" "$DSTDIR/$2"
else
echo "Ignored: $SUBDIR"
fi
}
rm -rf $TMPDIR && mkdir -p $TMPDIR
# Unpack the previous NDK package if any
if [ -n "$PREBUILT_NDK" ] ; then
echo "Unpacking prebuilt toolchains from $PREBUILT_NDK"
UNZIP_DIR=$TMPDIR/prev-ndk
rm -rf $UNZIP_DIR && mkdir -p $UNZIP_DIR
fail_panic "Could not create temporary directory: $UNZIP_DIR"
unpack_archive "$PREBUILT_NDK" "$UNZIP_DIR"
fail_panic "Could not unzip NDK package $PREBUILT_NDK"
fi
# first create the reference ndk directory from the git reference
echo "Creating reference from source files"
REFERENCE=$TMPDIR/reference && rm -rf $REFERENCE/* &&
copy_file_list "$NDK_ROOT_DIR" "$REFERENCE" $GIT_FILES &&
rm -f $REFERENCE/Android.mk
fail_panic "Could not create reference. Aborting."
# Copy platform and sample files
if [ "$PREBUILT_DIR" ]; then
echo "Unpacking platform files" &&
unpack_archive "$PREBUILT_DIR/platforms.tar.bz2" "$REFERENCE" &&
echo "Unpacking samples files" &&
unpack_archive "$PREBUILT_DIR/samples.tar.bz2" "$REFERENCE"
fail_panic "Could not unpack platform and sample files"
elif [ "$PREBUILT_NDK" ]; then
echo "ERROR: NOT IMPLEMENTED!"
exit 1
else
# copy platform and sample files
echo "Copying platform and sample files"
FLAGS="--src-dir=$DEVELOPMENT_ROOT --dst-dir=$REFERENCE"
if [ "$VERBOSE2" = "yes" ] ; then
FLAGS="$FLAGS --verbose"
fi
FLAGS="$FLAGS --platform=$(spaces_to_commas $PLATFORMS)"
FLAGS="$FLAGS --arch=$(spaces_to_commas $ARCHS)"
$NDK_ROOT_DIR/build/tools/gen-platforms.sh $FLAGS
fail_panic "Could not copy platform files. Aborting."
fi
# Remove the source for host tools to make the final package smaller
rm -rf $REFERENCE/sources/host-tools
# Remove leftovers, just in case...
rm -rf $REFERENCE/samples/*/{obj,libs,build.xml,local.properties,Android.mk} &&
rm -rf $REFERENCE/tests/build/*/{obj,libs} &&
rm -rf $REFERENCE/tests/device/*/{obj,libs}
if [ "$WITH_LIBCXX" ]; then
# Remove the libc++ test suite, it's large (28 MiB) and not useful for
# developers using the NDK.
rm -rf $REFERENCE/sources/cxx-stl/llvm-libc++/libcxx/test
else
# Remove the libc++ sources, they're not ready for release.
# http://b.android.com/36496
rm -rf $REFERENCE/sources/cxx-stl/llvm-libc++
fi
# Regenerate HTML documentation, place the files under .../docs/
$NDK_ROOT_DIR/build/tools/build-docs.sh \
--in-dir=$NDK_ROOT_DIR/docs/text \
--out-dir=$REFERENCE/docs
# copy sources files
if [ -d $DEVELOPMENT_ROOT/sources ] ; then
echo "Copying NDK sources files"
copy_file_list "$DEVELOPMENT_ROOT" "$REFERENCE" "sources"
fail_panic "Could not copy sources. Aborting."
fi
# Unpack prebuilt C++ runtimes headers and libraries
if [ -z "$PREBUILT_NDK" ]; then
# Unpack gdbserver
for ARCH in $ARCHS; do
unpack_prebuilt $ARCH-gdbserver "$REFERENCE"
done
# Unpack C++ runtimes
for VERSION in $DEFAULT_GCC_VERSION_LIST; do
unpack_prebuilt gnu-libstdc++-headers-$VERSION "$REFERENCE"
done
for ABI in $ABIS; do
unpack_prebuilt gabixx-libs-$ABI "$REFERENCE"
unpack_prebuilt stlport-libs-$ABI "$REFERENCE"
if [ "$WITH_LIBCXX" ]; then
unpack_prebuilt libcxx-libs-$ABI "$REFERENCE"
fi
for VERSION in $DEFAULT_GCC_VERSION_LIST; do
unpack_prebuilt gnu-libstdc++-libs-$VERSION-$ABI "$REFERENCE"
done
unpack_prebuilt libportable-libs-$ABI "$REFERENCE"
unpack_prebuilt compiler-rt-libs-$ABI "$REFERENCE"
unpack_prebuilt libgccunwind-libs-$ABI "$REFERENCE"
done
for ABI in $UNKNOWN_ABIS; do
unpack_prebuilt stlport-libs-$ABI "$REFERENCE"
if [ "$WITH_LIBCXX" ]; then
unpack_prebuilt libcxx-libs-$ABI "$REFERENCE"
fi
done
fi
# create a release file named 'RELEASE.TXT' containing the release
# name. This is used by the build script to detect whether you're
# invoking the NDK from a release package or from the development
# tree.
#
if [ "$TRY64" = "yes" ]; then
echo "$RELEASE (64-bit)" > $REFERENCE/RELEASE.TXT
else
echo "$RELEASE" > $REFERENCE/RELEASE.TXT
fi
# Remove un-needed files
rm -f $REFERENCE/CleanSpec.mk
# now, for each system, create a package
#
DSTDIR=$TMPDIR/$RELEASE_PREFIX
DSTDIR64=${DSTDIR}
if [ "$SEPARATE_64" = "yes" ] ; then
DSTDIR64=$TMPDIR/64/${RELEASE_PREFIX}
fi
for SYSTEM in $SYSTEMS; do
echo "Preparing package for system $SYSTEM."
BIN_RELEASE=$RELEASE_PREFIX-$SYSTEM
rm -rf "$DSTDIR" "$DSTDIR64" &&
mkdir -p "$DSTDIR" "$DSTDIR64" &&
copy_directory "$REFERENCE" "$DSTDIR"
fail_panic "Could not copy reference. Aborting."
# Remove tests containing duplicated files in case-insensitive file system
if [ "$SYSTEM" = "windows" -o "$SYSTEM" = "darwin-x86" ]; then
rm -rf $DSTDIR/tests/build/c++-stl-source-extensions
fi
if [ "$PREBUILT_NDK" ]; then
cd $UNZIP_DIR/android-ndk-* && cp -rP toolchains/* $DSTDIR/toolchains/
fail_panic "Could not copy toolchain files from $PREBUILT_NDK"
if [ -d "$DSTDIR/$GABIXX_SUBDIR" ]; then
GABIXX_ABIS=$PREBUILT_ABIS
for GABIXX_ABI in $GABIXX_ABIS; do
copy_prebuilt "$GABIXX_SUBDIR/libs/$GABIXX_ABI" "$GABIXX_SUBDIR/libs"
done
else
echo "WARNING: Could not find GAbi++ source tree!"
fi
if [ -d "$DSTDIR/$STLPORT_SUBDIR" ] ; then
STLPORT_ABIS=$PREBUILT_ABIS $UNKNOWN_ABIS
for STL_ABI in $STLPORT_ABIS; do
copy_prebuilt "$STLPORT_SUBDIR/libs/$STL_ABI" "$STLPORT_SUBDIR/libs"
done
else
echo "WARNING: Could not find STLport source tree!"
fi
if [ "$WITH_LIBCXX" ]; then
if [ -d "$DSTDIR/$LIBCXX_SUBDIR" ]; then
LIBCXX_ABIS=$PREBUILT_ABIS $UNKNOWN_ABIS
for STL_ABI in $LIBCXX_ABIS; do
copy_prebuilt "$LIBCXX_SUBDIR/libs/$STL_ABI" "$LIBCXX_SUBDIR/libs"
done
else
echo "WARNING: Could not find Libc++ source tree!"
fi
fi
for VERSION in $DEFAULT_GCC_VERSION_LIST; do
copy_prebuilt "$GNUSTL_SUBDIR/$VERSION/include" "$GNUSTL_SUBDIR/$VERSION/"
for STL_ABI in $PREBUILT_ABIS; do
copy_prebuilt "$GNUSTL_SUBDIR/$VERSION/libs/$STL_ABI" "$GNUSTL_SUBDIR/$VERSION/libs"
done
done
if [ -d "$DSTDIR/$LIBPORTABLE_SUBDIR" ]; then
LIBPORTABLE_ABIS=$PREBUILT_ABIS
for LIBPORTABLE_ABI in $LIBPORTABLE_ABIS; do
copy_prebuilt "$LIBPORTABLE_SUBDIR/libs/$LIBPORTABLE_ABI" "$LIBPORTABLE_SUBDIR/libs"
done
else
echo "WARNING: Could not find libportable source tree!"
fi
if [ -d "$DSTDIR/$COMPILER_RT_SUBDIR" ]; then
COMPILER_RT_ABIS=$PREBUILT_ABIS
for COMPILER_RT_ABI in $COMPILER_RT_ABIS; do
copy_prebuilt "$COMPILER_RT_SUBDIR/libs/$COMPILER_RT_ABI" "$COMPILER_RT_SUBDIR/libs"
done
else
echo "WARNING: Could not find compiler-rt source tree!"
fi
if [ -d "$DSTDIR/$GCCUNWIND_SUBDIR" ]; then
GCCUNWIND_ABIS=$PREBUILT_ABIS
for GCCUNWIND_ABI in $GCCUNWIND_ABIS; do
copy_prebuilt "$GCCUNWIND_SUBDIR/libs/$GCCUNWIND_ABI" "$GCCUNWIND_SUBDIR/libs"
done
else
echo "WARNING: Could not find libgccunwind source tree!"
fi
else
# Unpack toolchains
for TC in $TOOLCHAINS; do
unpack_prebuilt $TC-$SYSTEM "$DSTDIR" "$DSTDIR64"
echo "Removing sysroot for $TC"
rm -rf $DSTDIR/toolchains/$TC/prebuilt/$SYSTEM/sysroot
rm -rf $DSTDIR64/toolchains/$TC/prebuilt/${SYSTEM}_64/sysroot
rm -rf $DSTDIR64/toolchains/$TC/prebuilt/${SYSTEM}-x86_64/sysroot
done
echo "Remove ld.mcld deployed/packaged earlier by accident "
find $DSTDIR/toolchains $DSTDIR64/toolchains -name "*ld.mcld*" -exec rm -f {} \;
# Unpack llvm and clang
for LLVM_VERSION in $LLVM_VERSION_LIST; do
unpack_prebuilt llvm-$LLVM_VERSION-$SYSTEM "$DSTDIR" "$DSTDIR64"
done
# Unpack mclinker
unpack_prebuilt ld.mcld-$SYSTEM "$DSTDIR" "$DSTDIR64"
# Unpack renderscript tools
unpack_prebuilt renderscript-$SYSTEM "$DSTDIR" "$DSTDIR64"
unpack_prebuilt renderscript "$DSTDIR" "$DSTDIR64"
# Unpack prebuilt ndk-stack and other host tools
unpack_prebuilt ndk-stack-$SYSTEM "$DSTDIR" "$DSTDIR64" "yes"
unpack_prebuilt ndk-depends-$SYSTEM "$DSTDIR" "$DSTDIR64" "yes"
unpack_prebuilt ndk-make-$SYSTEM "$DSTDIR" "$DSTDIR64"
unpack_prebuilt ndk-sed-$SYSTEM "$DSTDIR" "$DSTDIR64"
unpack_prebuilt ndk-awk-$SYSTEM "$DSTDIR" "$DSTDIR64"
unpack_prebuilt ndk-perl-$SYSTEM "$DSTDIR" "$DSTDIR64"
unpack_prebuilt ndk-python-$SYSTEM "$DSTDIR" "$DSTDIR64"
if [ "$SYSTEM" = "windows" ]; then
unpack_prebuilt toolbox-$SYSTEM "$DSTDIR" "$DSTDIR64"
fi
fi
# Unpack other host tools
unpack_prebuilt scan-build-view "$DSTDIR" "$DSTDIR64"
# Create an archive for the final package. Extension depends on the
# host system.
ARCHIVE=$BIN_RELEASE
if [ "$TRY64" = "yes" ]; then
ARCHIVE=`name64 $ARCHIVE`
elif [ "$SYSTEM" = "windows" ]; then
ARCHIVE=$ARCHIVE-x86
fi
case "$SYSTEM" in
windows)
ARCHIVE64="$ARCHIVE-64bit-tools.zip"
ARCHIVE="$ARCHIVE.zip"
;;
*)
ARCHIVE64="$ARCHIVE-64bit-tools.tar.bz2"
ARCHIVE="$ARCHIVE.tar.bz2"
;;
esac
echo "Creating $ARCHIVE"
# make all file universally readable, and all executable (including directory)
# universally executable, punt intended
find $DSTDIR $DSTDIR64 -exec chmod a+r {} \;
find $DSTDIR $DSTDIR64 -executable -exec chmod a+x {} \;
pack_archive "$OUT_DIR/$ARCHIVE" "$TMPDIR" "$RELEASE_PREFIX"
fail_panic "Could not create archive: $OUT_DIR/$ARCHIVE"
if [ "$SEPARATE_64" = "yes" ] ; then
pack_archive "$OUT_DIR/$ARCHIVE64" "$TMPDIR/64" "${RELEASE_PREFIX}"
fail_panic "Could not create archive: $OUT_DIR/$ARCHIVE64"
fi
done
echo "Cleaning up."
rm -rf $TMPDIR/reference
rm -rf $TMPDIR/prev-ndk
echo "Done, please see packages in $OUT_DIR:"
ls -l $OUT_DIR